Java tutorial
/*- ******************************************************************************* * Copyright (c) 2011, 2016 Diamond Light Source Ltd. * All rights reserved. This program and the accompanying materials * are made available under the terms of the Eclipse Public License v1.0 * which accompanies this distribution, and is available at * http://www.eclipse.org/legal/epl-v10.html * * Contributors: * Peter Chang - initial API and implementation and/or initial documentation *******************************************************************************/ package org.eclipse.january.dataset; import java.util.ArrayList; import java.util.Arrays; import java.util.Collection; import java.util.Iterator; import java.util.List; import org.apache.commons.math3.complex.Complex; import org.eclipse.january.dataset.Comparisons.Monotonicity; /** * Mathematics class */ public class Maths { /** * This function returns the name of the dataset, bracketed if it already * includes some mathematical symbol * * @param dataset * @return the bracketed if necessary method name */ private static StringBuilder bracketIfNecessary(final Dataset dataset) { final String name = dataset.getName().trim(); StringBuilder newName = new StringBuilder(name); if (name.contains("+") || name.contains("-") || name.contains("*") || name.contains("/") || name.contains("%") || name.contains("^") || name.contains("'")) { newName.insert(0, '('); newName.append(')'); } return newName; } private static void addFunctionName(final Dataset a, final Dataset b, final Dataset dataset, final String fname) { StringBuilder name = new StringBuilder(a.getName()); name.insert(0, '('); name.insert(0, fname); name.append(", "); name.append(b.getName()); name.append(')'); dataset.setName(name.toString()); } private static void addFunctionName(final Dataset dataset, final String fname) { StringBuilder name = new StringBuilder(dataset.getName()); name.insert(0, '('); name.insert(0, fname); name.append(')'); dataset.setName(name.toString()); } private static void addBinaryOperatorName(final Dataset a, final Dataset b, final Dataset dataset, final String oname) { StringBuilder newName = bracketIfNecessary(a).append(oname).append(bracketIfNecessary(b)); dataset.setName(newName.toString()); } private static long toLong(double d) { return (long) d; } /** * Unwrap result from mathematical methods if necessary * @param o * @param a * @return a dataset if a is a dataset or an object of the same class as o */ public static Object unwrap(final Dataset o, final Object a) { return a instanceof Dataset ? o : o.getObjectAbs(o.getOffset()); } /** * Unwrap result from mathematical methods if necessary * @param o * @param a * @return a dataset if either a and b are datasets or an object of the same class as o */ public static Object unwrap(final Dataset o, final Object a, final Object b) { return (a instanceof Dataset || b instanceof Dataset) ? o : o.getObjectAbs(o.getOffset()); } /** * Unwrap result from mathematical methods if necessary * @param o * @param a * @return a dataset if any inputs are datasets or an object of the same class as o */ public static Object unwrap(final Dataset o, final Object... a) { boolean isAnyDataset = false; for (Object obj : a) { if (obj instanceof Dataset) { isAnyDataset = true; break; } } return isAnyDataset ? o : o.getObjectAbs(o.getOffset()); } /** * @param a * @param b * @param o output can be null - in which case, a new dataset is created * @return a op b, operation on a and b */ public static Dataset operate(final Object a, final Object b, final Dataset o, final BinaryOperation op) { final Dataset da = a instanceof Dataset ? (Dataset) a : DatasetFactory.createFromObject(a); final Dataset db = b instanceof Dataset ? (Dataset) b : DatasetFactory.createFromObject(b); final BroadcastIterator it = BroadcastIterator.createIterator(da, db, o, true); final Dataset result = it.getOutput(); final int is = result.getElementsPerItem(); final double[] cpx; switch (result.getDType()) { case Dataset.BOOL: boolean[] bdata = ((BooleanDataset) result).getData(); it.setOutputDouble(false); while (it.hasNext()) { bdata[it.oIndex] = op.booleanOperate(it.aLong, it.aLong); } break; case Dataset.INT8: byte[] i8data = ((ByteDataset) result).getData(); it.setOutputDouble(false); while (it.hasNext()) { i8data[it.oIndex] = (byte) op.longOperate(it.aLong, it.aLong); } break; case Dataset.INT16: short[] i16data = ((ShortDataset) result).getData(); it.setOutputDouble(false); while (it.hasNext()) { i16data[it.oIndex] = (short) op.longOperate(it.aLong, it.aLong); } break; case Dataset.INT32: int[] i32data = ((IntegerDataset) result).getData(); it.setOutputDouble(false); while (it.hasNext()) { i32data[it.oIndex] = (int) op.longOperate(it.aLong, it.aLong); } break; case Dataset.INT64: long[] i64data = ((LongDataset) result).getData(); it.setOutputDouble(false); while (it.hasNext()) { i64data[it.oIndex] = op.longOperate(it.aLong, it.aLong); } break; case Dataset.FLOAT32: float[] f32data = ((FloatDataset) result).getData(); it.setOutputDouble(false); while (it.hasNext()) { f32data[it.oIndex] = (float) op.doubleOperate(it.aDouble, it.bDouble); } break; case Dataset.FLOAT64: double[] f64data = ((DoubleDataset) result).getData(); while (it.hasNext()) { f64data[it.oIndex] = op.doubleOperate(it.aDouble, it.bDouble); } break; case Dataset.ARRAYINT8: byte[] ai8data = ((CompoundByteDataset) result).getData(); it.setOutputDouble(false); if (is == 1) { while (it.hasNext()) { ai8data[it.oIndex] = (byte) op.longOperate(it.aLong, it.bLong); } } else if (da.getElementsPerItem() == 1) { while (it.hasNext()) { ai8data[it.oIndex] = (byte) op.longOperate(it.aLong, it.bLong); for (int j = 1; j < is; j++) { ai8data[it.oIndex + j] = (byte) op.longOperate(it.aLong, db.getElementLongAbs(it.bIndex + j)); } } } else if (db.getElementsPerItem() == 1) { while (it.hasNext()) { ai8data[it.oIndex] = (byte) op.longOperate(it.aLong, it.bLong); for (int j = 1; j < is; j++) { ai8data[it.oIndex + j] = (byte) op.longOperate(da.getElementLongAbs(it.aIndex + j), it.bLong); } } } else { while (it.hasNext()) { ai8data[it.oIndex] = (byte) op.longOperate(it.aLong, it.bLong); for (int j = 1; j < is; j++) { ai8data[it.oIndex + j] = (byte) op.longOperate(da.getElementLongAbs(it.aIndex + j), db.getElementLongAbs(it.bIndex + j)); } } } break; case Dataset.ARRAYINT16: short[] ai16data = ((CompoundShortDataset) result).getData(); it.setOutputDouble(false); if (is == 1) { while (it.hasNext()) { ai16data[it.oIndex] = (short) op.longOperate(it.aLong, it.bLong); } } else if (da.getElementsPerItem() == 1) { while (it.hasNext()) { ai16data[it.oIndex] = (short) op.longOperate(it.aLong, it.bLong); for (int j = 1; j < is; j++) { ai16data[it.oIndex + j] = (short) op.longOperate(it.aLong, db.getElementLongAbs(it.bIndex + j)); } } } else if (db.getElementsPerItem() == 1) { while (it.hasNext()) { ai16data[it.oIndex] = (short) op.longOperate(it.aLong, it.bLong); for (int j = 1; j < is; j++) { ai16data[it.oIndex + j] = (short) op.longOperate(da.getElementLongAbs(it.aIndex + j), it.bLong); } } } else { while (it.hasNext()) { ai16data[it.oIndex] = (short) op.longOperate(it.aLong, it.bLong); for (int j = 1; j < is; j++) { ai16data[it.oIndex + j] = (short) op.longOperate(da.getElementLongAbs(it.aIndex + j), db.getElementLongAbs(it.bIndex + j)); } } } break; case Dataset.ARRAYINT32: int[] ai32data = ((CompoundIntegerDataset) result).getData(); it.setOutputDouble(false); if (is == 1) { while (it.hasNext()) { ai32data[it.oIndex] = (int) op.longOperate(it.aLong, it.bLong); } } else if (da.getElementsPerItem() == 1) { while (it.hasNext()) { ai32data[it.oIndex] = (int) op.longOperate(it.aLong, it.bLong); for (int j = 1; j < is; j++) { ai32data[it.oIndex + j] = (int) op.longOperate(it.aLong, db.getElementLongAbs(it.bIndex + j)); } } } else if (db.getElementsPerItem() == 1) { while (it.hasNext()) { ai32data[it.oIndex] = (int) op.longOperate(it.aLong, it.bLong); for (int j = 1; j < is; j++) { ai32data[it.oIndex + j] = (int) op.longOperate(da.getElementLongAbs(it.aIndex + j), it.bLong); } } } else { while (it.hasNext()) { ai32data[it.oIndex] = (int) op.longOperate(it.aLong, it.bLong); for (int j = 1; j < is; j++) { ai32data[it.oIndex + j] = (int) op.longOperate(da.getElementLongAbs(it.aIndex + j), db.getElementLongAbs(it.bIndex + j)); } } } break; case Dataset.ARRAYINT64: long[] ai64data = ((CompoundLongDataset) result).getData(); it.setOutputDouble(false); if (is == 1) { while (it.hasNext()) { ai64data[it.oIndex] = op.longOperate(it.aLong, it.bLong); } } else if (da.getElementsPerItem() == 1) { while (it.hasNext()) { ai64data[it.oIndex] = op.longOperate(it.aLong, it.bLong); for (int j = 1; j < is; j++) { ai64data[it.oIndex + j] = op.longOperate(it.aLong, db.getElementLongAbs(it.bIndex + j)); } } } else if (db.getElementsPerItem() == 1) { while (it.hasNext()) { ai64data[it.oIndex] = op.longOperate(it.aLong, it.bLong); for (int j = 1; j < is; j++) { ai64data[it.oIndex + j] = op.longOperate(da.getElementLongAbs(it.aIndex + j), it.bLong); } } } else { while (it.hasNext()) { ai64data[it.oIndex] = op.longOperate(it.aLong, it.bLong); for (int j = 1; j < is; j++) { ai64data[it.oIndex + j] = (long) op.doubleOperate(da.getElementLongAbs(it.aIndex + j), db.getElementLongAbs(it.bIndex + j)); } } } break; case Dataset.ARRAYFLOAT32: float[] a32data = ((CompoundFloatDataset) result).getData(); it.setOutputDouble(true); if (is == 1) { while (it.hasNext()) { a32data[it.oIndex] = (float) op.doubleOperate(it.aDouble, it.bDouble); } } else if (da.getElementsPerItem() == 1) { while (it.hasNext()) { a32data[it.oIndex] = (float) op.doubleOperate(it.aDouble, it.bDouble); for (int j = 1; j < is; j++) { a32data[it.oIndex + j] = (float) op.doubleOperate(it.aDouble, db.getElementDoubleAbs(it.bIndex + j)); } } } else if (db.getElementsPerItem() == 1) { while (it.hasNext()) { a32data[it.oIndex] = (float) op.doubleOperate(it.aDouble, it.bDouble); for (int j = 1; j < is; j++) { a32data[it.oIndex + j] = (float) op.doubleOperate(da.getElementDoubleAbs(it.aIndex + j), it.bDouble); } } } else { while (it.hasNext()) { a32data[it.oIndex] = (float) op.doubleOperate(it.aDouble, it.bDouble); for (int j = 1; j < is; j++) { a32data[it.oIndex + j] = (float) op.doubleOperate(da.getElementDoubleAbs(it.aIndex + j), db.getElementDoubleAbs(it.bIndex + j)); } } } break; case Dataset.ARRAYFLOAT64: double[] a64data = ((CompoundDoubleDataset) result).getData(); it.setOutputDouble(true); if (is == 1) { while (it.hasNext()) { a64data[it.oIndex] = op.doubleOperate(it.aDouble, it.bDouble); } } else if (da.getElementsPerItem() == 1) { while (it.hasNext()) { a64data[it.oIndex] = op.doubleOperate(it.aDouble, it.bDouble); for (int j = 1; j < is; j++) { a64data[it.oIndex + j] = op.doubleOperate(it.aDouble, db.getElementDoubleAbs(it.bIndex + j)); } } } else if (db.getElementsPerItem() == 1) { while (it.hasNext()) { a64data[it.oIndex] = op.doubleOperate(it.aDouble, it.bDouble); for (int j = 1; j < is; j++) { a64data[it.oIndex + j] = op.doubleOperate(da.getElementDoubleAbs(it.aIndex + j), it.bDouble); } } } else { while (it.hasNext()) { a64data[it.oIndex] = op.doubleOperate(it.aDouble, it.bDouble); for (int j = 1; j < is; j++) { a64data[it.oIndex + j] = op.doubleOperate(da.getElementDoubleAbs(it.aIndex + j), db.getElementDoubleAbs(it.bIndex + j)); } } } break; case Dataset.COMPLEX64: float[] c64data = ((ComplexFloatDataset) result).getData(); it.setOutputDouble(true); cpx = new double[2]; if (da.getElementsPerItem() == 1) { while (it.hasNext()) { final double ib = db.getElementDoubleAbs(it.bIndex + 1); op.complexOperate(cpx, it.aDouble, 0, it.bDouble, ib); c64data[it.oIndex] = (float) cpx[0]; c64data[it.oIndex + 1] = (float) cpx[1]; } } else if (db.getElementsPerItem() == 1) { while (it.hasNext()) { final double ia = da.getElementDoubleAbs(it.aIndex + 1); op.complexOperate(cpx, it.aDouble, ia, it.bDouble, 0); c64data[it.oIndex] = (float) cpx[0]; c64data[it.oIndex + 1] = (float) cpx[1]; } } else { while (it.hasNext()) { final double ia = da.getElementDoubleAbs(it.aIndex + 1); final double ib = db.getElementDoubleAbs(it.bIndex + 1); op.complexOperate(cpx, it.aDouble, ia, it.bDouble, ib); c64data[it.oIndex] = (float) cpx[0]; c64data[it.oIndex + 1] = (float) cpx[1]; } } break; case Dataset.COMPLEX128: double[] c128data = ((ComplexDoubleDataset) result).getData(); it.setOutputDouble(true); cpx = new double[2]; if (da.getElementsPerItem() == 1) { while (it.hasNext()) { final double ib = db.getElementDoubleAbs(it.bIndex + 1); op.complexOperate(cpx, it.aDouble, 0, it.bDouble, ib); c128data[it.oIndex] = cpx[0]; c128data[it.oIndex + 1] = cpx[1]; } } else if (db.getElementsPerItem() == 1) { while (it.hasNext()) { final double ia = da.getElementDoubleAbs(it.aIndex + 1); op.complexOperate(cpx, it.aDouble, ia, it.bDouble, 0); c128data[it.oIndex] = cpx[0]; c128data[it.oIndex + 1] = cpx[1]; } } else { while (it.hasNext()) { final double ia = da.getElementDoubleAbs(it.aIndex + 1); final double ib = db.getElementDoubleAbs(it.bIndex + 1); op.complexOperate(cpx, it.aDouble, ia, it.bDouble, ib); c128data[it.oIndex] = cpx[0]; c128data[it.oIndex + 1] = cpx[1]; } } break; default: throw new UnsupportedOperationException("add does not support this dataset type"); } // set the name based on the changes made addBinaryOperatorName(da, db, result, op.toString()); return result; } /** * @param a * @param b * @return floor divide of a and b */ public static Dataset floorDivide(final Object a, final Object b) { return floorDivide(a, b, null); } /** * @param a * @param b * @param o output can be null - in which case, a new dataset is created * @return floor divide of a and b */ public static Dataset floorDivide(final Object a, final Object b, final Dataset o) { return divideTowardsFloor(a, b, o).ifloor(); } /** * @param a * @param b * @return floor remainder of a and b */ public static Dataset floorRemainder(final Object a, final Object b) { return floorRemainder(a, b, null); } /** * @param a * @param b * @param o output can be null - in which case, a new dataset is created * @return floor remainder of a and b */ public static Dataset floorRemainder(final Object a, final Object b, final Dataset o) { Dataset da = a instanceof Dataset ? (Dataset) a : DatasetFactory.createFromObject(a); Dataset db = b instanceof Dataset ? (Dataset) b : DatasetFactory.createFromObject(b); Dataset dq = floorDivide(da, db); dq.imultiply(db); return subtract(da, dq, o); } /** * Find reciprocal from dataset * @param a * @return reciprocal dataset */ public static Dataset reciprocal(final Object a) { return reciprocal(a, null); } /** * Find reciprocal from dataset * @param a * @param o output can be null - in which case, a new dataset is created * @return reciprocal dataset */ public static Dataset reciprocal(final Object a, final Dataset o) { final Dataset da = a instanceof Dataset ? (Dataset) a : DatasetFactory.createFromObject(a); return divide(1, da, o); } /** * abs - absolute value of each element * @param a * @return dataset */ public static Dataset abs(final Object a) { return abs(a, null); } /** * abs - absolute value of each element * @param a * @param o output can be null - in which case, a new dataset is created * @return dataset */ public static Dataset abs(final Object a, final Dataset o) { final Dataset da = a instanceof Dataset ? (Dataset) a : DatasetFactory.createFromObject(a); final SingleInputBroadcastIterator it = new SingleInputBroadcastIterator(da, o, true, true, false); final Dataset result = it.getOutput(); final int is = result.getElementsPerItem(); final int dt = result.getDType(); final int as = da.getElementsPerItem(); switch (dt) { case Dataset.INT8: final byte[] oi8data = ((ByteDataset) result).data; it.setOutputDouble(false); while (it.hasNext()) { oi8data[it.oIndex] = (byte) Math.abs(it.aLong); } break; case Dataset.INT16: final short[] oi16data = ((ShortDataset) result).data; it.setOutputDouble(false); while (it.hasNext()) { oi16data[it.oIndex] = (short) Math.abs(it.aLong); } break; case Dataset.INT32: final int[] oi32data = ((IntegerDataset) result).data; it.setOutputDouble(false); while (it.hasNext()) { oi32data[it.oIndex] = (int) Math.abs(it.aLong); } break; case Dataset.INT64: final long[] oi64data = ((LongDataset) result).data; it.setOutputDouble(false); while (it.hasNext()) { oi64data[it.oIndex] = Math.abs(it.aLong); } break; case Dataset.ARRAYINT8: final byte[] oai8data = ((CompoundByteDataset) result).data; it.setOutputDouble(false); if (is == 1) { while (it.hasNext()) { oai8data[it.oIndex] = (byte) Math.abs(it.aLong); } } else if (as == 1) { while (it.hasNext()) { byte ox = (byte) Math.abs(it.aLong); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { oai8data[it.oIndex] = (byte) Math.abs(it.aLong); for (int j = 1; j < is; j++) { oai8data[it.oIndex + j] = (byte) Math.abs(da.getElementLongAbs(it.aIndex + j)); } } } break; case Dataset.ARRAYINT16: final short[] oai16data = ((CompoundShortDataset) result).data; it.setOutputDouble(false); if (is == 1) { while (it.hasNext()) { oai16data[it.oIndex] = (short) Math.abs(it.aLong); } } else if (as == 1) { while (it.hasNext()) { short ox = (short) Math.abs(it.aLong); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { oai16data[it.oIndex] = (short) Math.abs(it.aLong); for (int j = 1; j < is; j++) { oai16data[it.oIndex + j] = (short) Math.abs(da.getElementLongAbs(it.aIndex + j)); } } } break; case Dataset.ARRAYINT32: final int[] oai32data = ((CompoundIntegerDataset) result).data; it.setOutputDouble(false); if (is == 1) { while (it.hasNext()) { oai32data[it.oIndex] = (int) Math.abs(it.aLong); } } else if (as == 1) { while (it.hasNext()) { int ox = (int) Math.abs(it.aLong); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { oai32data[it.oIndex] = (int) Math.abs(it.aLong); for (int j = 1; j < is; j++) { oai32data[it.oIndex + j] = (int) Math.abs(da.getElementLongAbs(it.aIndex + j)); } } } break; case Dataset.ARRAYINT64: final long[] oai64data = ((CompoundLongDataset) result).data; it.setOutputDouble(false); if (is == 1) { while (it.hasNext()) { oai64data[it.oIndex] = Math.abs(it.aLong); } } else if (as == 1) { while (it.hasNext()) { long ox = Math.abs(it.aLong); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { oai64data[it.oIndex] = Math.abs(it.aLong); for (int j = 1; j < is; j++) { oai64data[it.oIndex + j] = Math.abs(da.getElementLongAbs(it.aIndex + j)); } } } break; case Dataset.FLOAT32: final float[] of32data = ((FloatDataset) result).data; if (as == 1) { while (it.hasNext()) { of32data[it.oIndex] = (float) (Math.abs(it.aDouble)); } } else { while (it.hasNext()) { of32data[it.oIndex] = (float) (Math.hypot(it.aDouble, da.getElementDoubleAbs(it.aIndex + 1))); } } break; case Dataset.FLOAT64: final double[] of64data = ((DoubleDataset) result).data; if (as == 1) { while (it.hasNext()) { of64data[it.oIndex] = Math.abs(it.aDouble); } } else { while (it.hasNext()) { of64data[it.oIndex] = Math.hypot(it.aDouble, da.getElementDoubleAbs(it.aIndex + 1)); } } break; case Dataset.ARRAYFLOAT32: final float[] oaf32data = ((CompoundFloatDataset) result).data; if (is == 1) { while (it.hasNext()) { oaf32data[it.oIndex] = (float) (Math.abs(it.aDouble)); } } else if (as == 1) { while (it.hasNext()) { float ox = (float) (Math.abs(it.aDouble)); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { oaf32data[it.oIndex] = (float) Math.abs(it.aDouble); for (int j = 1; j < is; j++) { oaf32data[it.oIndex + j] = (float) Math.abs(da.getElementDoubleAbs(it.aIndex + j)); } } } break; case Dataset.ARRAYFLOAT64: final double[] oaf64data = ((CompoundDoubleDataset) result).data; if (is == 1) { while (it.hasNext()) { oaf64data[it.oIndex] = Math.abs(it.aDouble); } } else if (as == 1) { while (it.hasNext()) { final double ix = it.aDouble; double ox = Math.abs(ix); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { oaf64data[it.oIndex] = Math.abs(it.aDouble); for (int j = 1; j < is; j++) { oaf64data[it.oIndex + j] = Math.abs(da.getElementDoubleAbs(it.aIndex + j)); } } } break; case Dataset.COMPLEX64: final float[] oc64data = ((ComplexFloatDataset) result).data; if (as == 1) { while (it.hasNext()) { oc64data[it.oIndex] = (float) Math.abs(it.aDouble); } } else { while (it.hasNext()) { oc64data[it.oIndex] = (float) Math.hypot(it.aDouble, da.getElementDoubleAbs(it.aIndex + 1)); } } break; case Dataset.COMPLEX128: final double[] oc128data = ((ComplexDoubleDataset) result).data; if (as == 1) { while (it.hasNext()) { oc128data[it.oIndex] = Math.abs(it.aDouble); } } else { while (it.hasNext()) { oc128data[it.oIndex] = Math.hypot(it.aDouble, da.getElementDoubleAbs(it.aIndex + 1)); } } break; default: throw new IllegalArgumentException( "abs supports integer, compound integer, real, compound real, complex datasets only"); } addFunctionName(result, "abs"); return result; } /** * @param a * @return a^*, complex conjugate of a */ public static Dataset conjugate(final Object a) { return conjugate(a, null); } /** * @param a * @param o output can be null - in which case, a new dataset is created * @return a^*, complex conjugate of a */ public static Dataset conjugate(final Object a, final Dataset o) { final Dataset da = a instanceof Dataset ? (Dataset) a : DatasetFactory.createFromObject(a); int at = da.getDType(); IndexIterator it1 = da.getIterator(); SingleInputBroadcastIterator it = new SingleInputBroadcastIterator(da, o, true, true, true); Dataset result = it.getOutput(); switch (at) { case Dataset.COMPLEX64: float[] c64data = ((ComplexFloatDataset) result).getData(); for (int i = 0; it1.hasNext();) { c64data[i++] = (float) da.getElementDoubleAbs(it1.index); c64data[i++] = (float) -da.getElementDoubleAbs(it1.index + 1); } result.setName(bracketIfNecessary(da).append("^*").toString()); break; case Dataset.COMPLEX128: double[] c128data = ((ComplexDoubleDataset) result).getData(); for (int i = 0; it1.hasNext();) { c128data[i++] = da.getElementDoubleAbs(it1.index); c128data[i++] = -da.getElementDoubleAbs(it1.index + 1); } result.setName(bracketIfNecessary(da).append("^*").toString()); break; default: result = da; } return result; } /** * @param a side of right-angled triangle * @param b side of right-angled triangle * @return hypotenuse of right-angled triangle: sqrt(a^2 + a^2) */ public static Dataset hypot(final Object a, final Object b) { return hypot(a, b, null); } /** * @param a side of right-angled triangle * @param b side of right-angled triangle * @param o output can be null - in which case, a new dataset is created * @return hypotenuse of right-angled triangle: sqrt(a^2 + a^2) */ public static Dataset hypot(final Object a, final Object b, final Dataset o) { final Dataset da = a instanceof Dataset ? (Dataset) a : DatasetFactory.createFromObject(a); final Dataset db = b instanceof Dataset ? (Dataset) b : DatasetFactory.createFromObject(b); final BroadcastIterator it = BroadcastIterator.createIterator(da, db, o, true); final Dataset result = it.getOutput(); final int is = result.getElementsPerItem(); final int dt = result.getDType(); switch (dt) { case Dataset.BOOL: boolean[] bdata = ((BooleanDataset) result).getData(); while (it.hasNext()) { bdata[it.oIndex] = Math.hypot(it.aDouble, it.bDouble) != 0; } break; case Dataset.INT8: byte[] i8data = ((ByteDataset) result).getData(); while (it.hasNext()) { i8data[it.oIndex] = (byte) toLong(Math.hypot(it.aDouble, it.bDouble)); } break; case Dataset.INT16: short[] i16data = ((ShortDataset) result).getData(); while (it.hasNext()) { i16data[it.oIndex] = (short) toLong(Math.hypot(it.aDouble, it.bDouble)); } break; case Dataset.INT32: int[] i32data = ((IntegerDataset) result).getData(); while (it.hasNext()) { i32data[it.oIndex] = (int) toLong(Math.hypot(it.aDouble, it.bDouble)); } break; case Dataset.INT64: long[] i64data = ((LongDataset) result).getData(); while (it.hasNext()) { i64data[it.oIndex] = toLong(Math.hypot(it.aDouble, it.bDouble)); } break; case Dataset.FLOAT32: float[] f32data = ((FloatDataset) result).getData(); while (it.hasNext()) { f32data[it.oIndex] = (float) Math.hypot(it.aDouble, it.bDouble); } break; case Dataset.FLOAT64: double[] f64data = ((DoubleDataset) result).getData(); while (it.hasNext()) { f64data[it.oIndex] = Math.hypot(it.aDouble, it.bDouble); } break; case Dataset.ARRAYINT8: byte[] ai8data = ((CompoundByteDataset) result).getData(); if (is == 1) { while (it.hasNext()) { ai8data[it.oIndex] = (byte) toLong(Math.hypot(it.aDouble, it.bDouble)); } } else if (da.getElementsPerItem() == 1) { while (it.hasNext()) { ai8data[it.oIndex] = (byte) toLong(Math.hypot(it.aDouble, it.bDouble)); for (int j = 1; j < is; j++) { ai8data[it.oIndex + j] = (byte) toLong(Math.hypot(it.aDouble, db.getElementDoubleAbs(it.bIndex + j))); } } } else if (db.getElementsPerItem() == 1) { while (it.hasNext()) { ai8data[it.oIndex] = (byte) toLong(Math.hypot(it.aDouble, it.bDouble)); for (int j = 1; j < is; j++) { ai8data[it.oIndex + j] = (byte) toLong(Math.hypot(da.getElementDoubleAbs(it.aIndex + j), it.bDouble)); } } } else { while (it.hasNext()) { ai8data[it.oIndex] = (byte) toLong(Math.hypot(it.aDouble, it.bDouble)); for (int j = 1; j < is; j++) { ai8data[it.oIndex + j] = (byte) toLong(Math.hypot(da.getElementDoubleAbs(it.aIndex + j), db.getElementDoubleAbs(it.bIndex + j))); } } } break; case Dataset.ARRAYINT16: short[] ai16data = ((CompoundShortDataset) result).getData(); if (is == 1) { while (it.hasNext()) { ai16data[it.oIndex] = (short) toLong(Math.hypot(it.aDouble, it.bDouble)); } } else if (da.getElementsPerItem() == 1) { while (it.hasNext()) { ai16data[it.oIndex] = (short) toLong(Math.hypot(it.aDouble, it.bDouble)); for (int j = 1; j < is; j++) { ai16data[it.oIndex + j] = (short) toLong( Math.hypot(it.aDouble, db.getElementDoubleAbs(it.bIndex + j))); } } } else if (db.getElementsPerItem() == 1) { while (it.hasNext()) { ai16data[it.oIndex] = (short) toLong(Math.hypot(it.aDouble, it.bDouble)); for (int j = 1; j < is; j++) { ai16data[it.oIndex + j] = (short) toLong( Math.hypot(da.getElementDoubleAbs(it.aIndex + j), it.bDouble)); } } } else { while (it.hasNext()) { ai16data[it.oIndex] = (short) toLong(Math.hypot(it.aDouble, it.bDouble)); for (int j = 1; j < is; j++) { ai16data[it.oIndex + j] = (short) toLong(Math.hypot(da.getElementDoubleAbs(it.aIndex + j), db.getElementDoubleAbs(it.bIndex + j))); } } } break; case Dataset.ARRAYINT32: int[] ai32data = ((CompoundIntegerDataset) result).getData(); if (is == 1) { while (it.hasNext()) { ai32data[it.oIndex] = (int) toLong(Math.hypot(it.aDouble, it.bDouble)); } } else if (da.getElementsPerItem() == 1) { while (it.hasNext()) { ai32data[it.oIndex] = (int) toLong(Math.hypot(it.aDouble, it.bDouble)); for (int j = 1; j < is; j++) { ai32data[it.oIndex + j] = (int) toLong(Math.hypot(it.aDouble, db.getElementDoubleAbs(it.bIndex + j))); } } } else if (db.getElementsPerItem() == 1) { while (it.hasNext()) { ai32data[it.oIndex] = (int) toLong(Math.hypot(it.aDouble, it.bDouble)); for (int j = 1; j < is; j++) { ai32data[it.oIndex + j] = (int) toLong(Math.hypot(da.getElementDoubleAbs(it.aIndex + j), it.bDouble)); } } } else { while (it.hasNext()) { ai32data[it.oIndex] = (int) toLong(Math.hypot(it.aDouble, it.bDouble)); for (int j = 1; j < is; j++) { ai32data[it.oIndex + j] = (int) toLong(Math.hypot(da.getElementDoubleAbs(it.aIndex + j), db.getElementDoubleAbs(it.bIndex + j))); } } } break; case Dataset.ARRAYINT64: long[] ai64data = ((CompoundLongDataset) result).getData(); if (is == 1) { while (it.hasNext()) { ai64data[it.oIndex] = toLong(Math.hypot(it.aDouble, it.bDouble)); } } else if (da.getElementsPerItem() == 1) { while (it.hasNext()) { ai64data[it.oIndex] = toLong(Math.hypot(it.aDouble, it.bDouble)); for (int j = 1; j < is; j++) { ai64data[it.oIndex + j] = toLong( Math.hypot(it.aDouble, db.getElementDoubleAbs(it.bIndex + j))); } } } else if (db.getElementsPerItem() == 1) { while (it.hasNext()) { ai64data[it.oIndex] = toLong(Math.hypot(it.aDouble, it.bDouble)); for (int j = 1; j < is; j++) { ai64data[it.oIndex + j] = toLong( Math.hypot(da.getElementDoubleAbs(it.aIndex + j), it.bDouble)); } } } else { while (it.hasNext()) { ai64data[it.oIndex] = toLong(Math.hypot(it.aDouble, it.bDouble)); for (int j = 1; j < is; j++) { ai64data[it.oIndex + j] = toLong(Math.hypot(da.getElementDoubleAbs(it.aIndex + j), db.getElementDoubleAbs(it.bIndex + j))); } } } break; case Dataset.ARRAYFLOAT32: float[] a32data = ((CompoundFloatDataset) result).getData(); if (is == 1) { while (it.hasNext()) { a32data[it.oIndex] = (float) Math.hypot(it.aDouble, it.bDouble); } } else if (da.getElementsPerItem() == 1) { while (it.hasNext()) { a32data[it.oIndex] = (float) Math.hypot(it.aDouble, it.bDouble); for (int j = 1; j < is; j++) { a32data[it.oIndex + j] = (float) Math.hypot(it.aDouble, db.getElementDoubleAbs(it.bIndex + j)); } } } else if (db.getElementsPerItem() == 1) { while (it.hasNext()) { a32data[it.oIndex] = (float) Math.hypot(it.aDouble, it.bDouble); for (int j = 1; j < is; j++) { a32data[it.oIndex + j] = (float) Math.hypot(da.getElementDoubleAbs(it.aIndex + j), it.bDouble); } } } else { while (it.hasNext()) { a32data[it.oIndex] = (float) Math.hypot(it.aDouble, it.bDouble); for (int j = 1; j < is; j++) { a32data[it.oIndex + j] = (float) Math.hypot(da.getElementDoubleAbs(it.aIndex + j), db.getElementDoubleAbs(it.bIndex + j)); } } } break; case Dataset.ARRAYFLOAT64: double[] a64data = ((CompoundDoubleDataset) result).getData(); if (is == 1) { while (it.hasNext()) { a64data[it.oIndex] = Math.hypot(it.aDouble, it.bDouble); } } else if (da.getElementsPerItem() == 1) { while (it.hasNext()) { a64data[it.oIndex] = Math.hypot(it.aDouble, it.bDouble); for (int j = 1; j < is; j++) { a64data[it.oIndex + j] = Math.hypot(it.aDouble, db.getElementDoubleAbs(it.bIndex + j)); } } } else if (db.getElementsPerItem() == 1) { while (it.hasNext()) { a64data[it.oIndex] = Math.hypot(it.aDouble, it.bDouble); for (int j = 1; j < is; j++) { a64data[it.oIndex + j] = Math.hypot(da.getElementDoubleAbs(it.aIndex + j), it.bDouble); } } } else { while (it.hasNext()) { a64data[it.oIndex] = Math.hypot(it.aDouble, it.bDouble); for (int j = 1; j < is; j++) { a64data[it.oIndex + j] = Math.hypot(da.getElementDoubleAbs(it.aIndex + j), db.getElementDoubleAbs(it.bIndex + j)); } } } break; default: throw new UnsupportedOperationException("hypot does not support this dataset type"); } addFunctionName(da, db, result, "hypot"); return result; } /** * @param a opposite side of right-angled triangle * @param b adjacent side of right-angled triangle * @return angle of triangle: atan(b/a) */ public static Dataset arctan2(final Object a, final Object b) { return arctan2(a, b, null); } /** * @param a opposite side of right-angled triangle * @param b adjacent side of right-angled triangle * @param o output can be null - in which case, a new dataset is created * @return angle of triangle: atan(b/a) */ public static Dataset arctan2(final Object a, final Object b, final Dataset o) { final Dataset da = a instanceof Dataset ? (Dataset) a : DatasetFactory.createFromObject(a); final Dataset db = b instanceof Dataset ? (Dataset) b : DatasetFactory.createFromObject(b); final BroadcastIterator it = BroadcastIterator.createIterator(da, db, o, true); final Dataset result = it.getOutput(); final int is = result.getElementsPerItem(); final int dt = result.getDType(); switch (dt) { case Dataset.BOOL: boolean[] bdata = ((BooleanDataset) result).getData(); while (it.hasNext()) { bdata[it.oIndex] = Math.atan2(it.aDouble, it.bDouble) != 0; } break; case Dataset.INT8: byte[] i8data = ((ByteDataset) result).getData(); while (it.hasNext()) { i8data[it.oIndex] = (byte) toLong(Math.atan2(it.aDouble, it.bDouble)); } break; case Dataset.INT16: short[] i16data = ((ShortDataset) result).getData(); while (it.hasNext()) { i16data[it.oIndex] = (short) toLong(Math.atan2(it.aDouble, it.bDouble)); } break; case Dataset.INT32: int[] i32data = ((IntegerDataset) result).getData(); while (it.hasNext()) { i32data[it.oIndex] = (int) toLong(Math.atan2(it.aDouble, it.bDouble)); } break; case Dataset.INT64: long[] i64data = ((LongDataset) result).getData(); while (it.hasNext()) { i64data[it.oIndex] = toLong(Math.atan2(it.aDouble, it.bDouble)); } break; case Dataset.FLOAT32: float[] f32data = ((FloatDataset) result).getData(); while (it.hasNext()) { f32data[it.oIndex] = (float) Math.atan2(it.aDouble, it.bDouble); } break; case Dataset.FLOAT64: double[] f64data = ((DoubleDataset) result).getData(); while (it.hasNext()) { f64data[it.oIndex] = Math.atan2(it.aDouble, it.bDouble); } break; case Dataset.ARRAYINT8: byte[] ai8data = ((CompoundByteDataset) result).getData(); if (is == 1) { while (it.hasNext()) { ai8data[it.oIndex] = (byte) toLong(Math.atan2(it.aDouble, it.bDouble)); } } else if (da.getElementsPerItem() == 1) { while (it.hasNext()) { ai8data[it.oIndex] = (byte) toLong(Math.atan2(it.aDouble, it.bDouble)); for (int j = 1; j < is; j++) { ai8data[it.oIndex + j] = (byte) toLong(Math.atan2(it.aDouble, db.getElementDoubleAbs(it.bIndex + j))); } } } else if (db.getElementsPerItem() == 1) { while (it.hasNext()) { ai8data[it.oIndex] = (byte) toLong(Math.atan2(it.aDouble, it.bDouble)); for (int j = 1; j < is; j++) { ai8data[it.oIndex + j] = (byte) toLong(Math.atan2(da.getElementDoubleAbs(it.aIndex + j), it.bDouble)); } } } else { while (it.hasNext()) { ai8data[it.oIndex] = (byte) toLong(Math.atan2(it.aDouble, it.bDouble)); for (int j = 1; j < is; j++) { ai8data[it.oIndex + j] = (byte) toLong(Math.atan2(da.getElementDoubleAbs(it.aIndex + j), db.getElementDoubleAbs(it.bIndex + j))); } } } break; case Dataset.ARRAYINT16: short[] ai16data = ((CompoundShortDataset) result).getData(); if (is == 1) { while (it.hasNext()) { ai16data[it.oIndex] = (short) toLong(Math.atan2(it.aDouble, it.bDouble)); } } else if (da.getElementsPerItem() == 1) { while (it.hasNext()) { ai16data[it.oIndex] = (short) toLong(Math.atan2(it.aDouble, it.bDouble)); for (int j = 1; j < is; j++) { ai16data[it.oIndex + j] = (short) toLong( Math.atan2(it.aDouble, db.getElementDoubleAbs(it.bIndex + j))); } } } else if (db.getElementsPerItem() == 1) { while (it.hasNext()) { ai16data[it.oIndex] = (short) toLong(Math.atan2(it.aDouble, it.bDouble)); for (int j = 1; j < is; j++) { ai16data[it.oIndex + j] = (short) toLong( Math.atan2(da.getElementDoubleAbs(it.aIndex + j), it.bDouble)); } } } else { while (it.hasNext()) { ai16data[it.oIndex] = (short) toLong(Math.atan2(it.aDouble, it.bDouble)); for (int j = 1; j < is; j++) { ai16data[it.oIndex + j] = (short) toLong(Math.atan2(da.getElementDoubleAbs(it.aIndex + j), db.getElementDoubleAbs(it.bIndex + j))); } } } break; case Dataset.ARRAYINT32: int[] ai32data = ((CompoundIntegerDataset) result).getData(); if (is == 1) { while (it.hasNext()) { ai32data[it.oIndex] = (int) toLong(Math.atan2(it.aDouble, it.bDouble)); } } else if (da.getElementsPerItem() == 1) { while (it.hasNext()) { ai32data[it.oIndex] = (int) toLong(Math.atan2(it.aDouble, it.bDouble)); for (int j = 1; j < is; j++) { ai32data[it.oIndex + j] = (int) toLong(Math.atan2(it.aDouble, db.getElementDoubleAbs(it.bIndex + j))); } } } else if (db.getElementsPerItem() == 1) { while (it.hasNext()) { ai32data[it.oIndex] = (int) toLong(Math.atan2(it.aDouble, it.bDouble)); for (int j = 1; j < is; j++) { ai32data[it.oIndex + j] = (int) toLong(Math.atan2(da.getElementDoubleAbs(it.aIndex + j), it.bDouble)); } } } else { while (it.hasNext()) { ai32data[it.oIndex] = (int) toLong(Math.atan2(it.aDouble, it.bDouble)); for (int j = 1; j < is; j++) { ai32data[it.oIndex + j] = (int) toLong(Math.atan2(da.getElementDoubleAbs(it.aIndex + j), db.getElementDoubleAbs(it.bIndex + j))); } } } break; case Dataset.ARRAYINT64: long[] ai64data = ((CompoundLongDataset) result).getData(); if (is == 1) { while (it.hasNext()) { ai64data[it.oIndex] = toLong(Math.atan2(it.aDouble, it.bDouble)); } } else if (da.getElementsPerItem() == 1) { while (it.hasNext()) { ai64data[it.oIndex] = toLong(Math.atan2(it.aDouble, it.bDouble)); for (int j = 1; j < is; j++) { ai64data[it.oIndex + j] = toLong( Math.atan2(it.aDouble, db.getElementDoubleAbs(it.bIndex + j))); } } } else if (db.getElementsPerItem() == 1) { while (it.hasNext()) { ai64data[it.oIndex] = toLong(Math.atan2(it.aDouble, it.bDouble)); for (int j = 1; j < is; j++) { ai64data[it.oIndex + j] = toLong( Math.atan2(da.getElementDoubleAbs(it.aIndex + j), it.bDouble)); } } } else { while (it.hasNext()) { ai64data[it.oIndex] = toLong(Math.atan2(it.aDouble, it.bDouble)); for (int j = 1; j < is; j++) { ai64data[it.oIndex + j] = toLong(Math.atan2(da.getElementDoubleAbs(it.aIndex + j), db.getElementDoubleAbs(it.bIndex + j))); } } } break; case Dataset.ARRAYFLOAT32: float[] a32data = ((CompoundFloatDataset) result).getData(); if (is == 1) { while (it.hasNext()) { a32data[it.oIndex] = (float) Math.atan2(it.aDouble, it.bDouble); } } else if (da.getElementsPerItem() == 1) { while (it.hasNext()) { a32data[it.oIndex] = (float) Math.atan2(it.aDouble, it.bDouble); for (int j = 1; j < is; j++) { a32data[it.oIndex + j] = (float) Math.atan2(it.aDouble, db.getElementDoubleAbs(it.bIndex + j)); } } } else if (db.getElementsPerItem() == 1) { while (it.hasNext()) { a32data[it.oIndex] = (float) Math.atan2(it.aDouble, it.bDouble); for (int j = 1; j < is; j++) { a32data[it.oIndex + j] = (float) Math.atan2(da.getElementDoubleAbs(it.aIndex + j), it.bDouble); } } } else { while (it.hasNext()) { a32data[it.oIndex] = (float) Math.atan2(it.aDouble, it.bDouble); for (int j = 1; j < is; j++) { a32data[it.oIndex + j] = (float) Math.atan2(da.getElementDoubleAbs(it.aIndex + j), db.getElementDoubleAbs(it.bIndex + j)); } } } break; case Dataset.ARRAYFLOAT64: double[] a64data = ((CompoundDoubleDataset) result).getData(); if (is == 1) { while (it.hasNext()) { a64data[it.oIndex] = Math.atan2(it.aDouble, it.bDouble); } } else if (da.getElementsPerItem() == 1) { while (it.hasNext()) { a64data[it.oIndex] = Math.atan2(it.aDouble, it.bDouble); for (int j = 1; j < is; j++) { a64data[it.oIndex + j] = Math.atan2(it.aDouble, db.getElementDoubleAbs(it.bIndex + j)); } } } else if (db.getElementsPerItem() == 1) { while (it.hasNext()) { a64data[it.oIndex] = Math.atan2(it.aDouble, it.bDouble); for (int j = 1; j < is; j++) { a64data[it.oIndex + j] = Math.atan2(da.getElementDoubleAbs(it.aIndex + j), it.bDouble); } } } else { while (it.hasNext()) { a64data[it.oIndex] = Math.atan2(it.aDouble, it.bDouble); for (int j = 1; j < is; j++) { a64data[it.oIndex + j] = Math.atan2(da.getElementDoubleAbs(it.aIndex + j), db.getElementDoubleAbs(it.bIndex + j)); } } } break; default: throw new UnsupportedOperationException("atan2 does not support multiple-element dataset"); } addFunctionName(da, db, result, "atan2"); return result; } /** * Create a dataset of the arguments from a complex dataset * @param a * @return dataset of angles in radians */ public static Dataset angle(final Object a) { return angle(a, false, null); } /** * Create a dataset of the arguments from a complex dataset * @param a * @param inDegrees if true then return angles in degrees else in radians * @return dataset of angles */ public static Dataset angle(final Object a, final boolean inDegrees) { return angle(a, inDegrees, null); } /** * Create a dataset of the arguments from a complex dataset * @param a * @param o output can be null - in which case, a new dataset is created * @return dataset of angles in radians */ public static Dataset angle(final Object a, final Dataset o) { return angle(a, false, o); } /** * Create a dataset of the arguments from a complex dataset * @param a * @param inDegrees if true then return angles in degrees else in radians * @param o output can be null - in which case, a new dataset is created * @return dataset of angles */ public static Dataset angle(final Object a, final boolean inDegrees, final Dataset o) { final Dataset da = a instanceof Dataset ? (Dataset) a : DatasetFactory.createFromObject(a); if (!da.isComplex()) { throw new UnsupportedOperationException("angle does not support this dataset type"); } final SingleInputBroadcastIterator it = new SingleInputBroadcastIterator(da, o, true, false, false); final Dataset result = it.getOutput(); final int is = result.getElementsPerItem(); final int dt = result.getDType(); switch (dt) { case Dataset.INT8: final byte[] oi8data = ((ByteDataset) result).data; it.setOutputDouble(false); if (inDegrees) { while (it.hasNext()) { oi8data[it.oIndex] = (byte) toLong( Math.toDegrees(Math.atan2(da.getElementDoubleAbs(it.aIndex + 1), it.aDouble))); } } else { while (it.hasNext()) { oi8data[it.oIndex] = (byte) toLong( Math.atan2(da.getElementDoubleAbs(it.aIndex + 1), it.aDouble)); } } break; case Dataset.INT16: final short[] oi16data = ((ShortDataset) result).data; it.setOutputDouble(false); if (inDegrees) { while (it.hasNext()) { oi16data[it.oIndex] = (short) toLong( Math.toDegrees(Math.atan2(da.getElementDoubleAbs(it.aIndex + 1), it.aDouble))); } } else { while (it.hasNext()) { oi16data[it.oIndex] = (short) toLong( Math.atan2(da.getElementDoubleAbs(it.aIndex + 1), it.aDouble)); } } break; case Dataset.INT32: final int[] oi32data = ((IntegerDataset) result).data; it.setOutputDouble(false); if (inDegrees) { while (it.hasNext()) { oi32data[it.oIndex] = (int) toLong( Math.toDegrees(Math.atan2(da.getElementDoubleAbs(it.aIndex + 1), it.aDouble))); } } else { while (it.hasNext()) { oi32data[it.oIndex] = (int) toLong( Math.atan2(da.getElementDoubleAbs(it.aIndex + 1), it.aDouble)); } } break; case Dataset.INT64: final long[] oi64data = ((LongDataset) result).data; it.setOutputDouble(false); if (inDegrees) { while (it.hasNext()) { oi64data[it.oIndex] = toLong( Math.toDegrees(Math.atan2(da.getElementDoubleAbs(it.aIndex + 1), it.aDouble))); } } else { while (it.hasNext()) { oi64data[it.oIndex] = toLong(Math.atan2(da.getElementDoubleAbs(it.aIndex + 1), it.aDouble)); } } break; case Dataset.ARRAYINT8: final byte[] oai8data = ((CompoundByteDataset) result).data; it.setOutputDouble(false); if (inDegrees) { while (it.hasNext()) { final byte ox = (byte) toLong( Math.toDegrees(Math.atan2(da.getElementDoubleAbs(it.aIndex + 1), it.aDouble))); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final byte ox = (byte) toLong(Math.atan2(da.getElementDoubleAbs(it.aIndex + 1), it.aDouble)); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } break; case Dataset.ARRAYINT16: final short[] oai16data = ((CompoundShortDataset) result).data; it.setOutputDouble(false); if (inDegrees) { while (it.hasNext()) { final short ox = (short) toLong( Math.toDegrees(Math.atan2(da.getElementDoubleAbs(it.aIndex + 1), it.aDouble))); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final short ox = (short) toLong(Math.atan2(da.getElementDoubleAbs(it.aIndex + 1), it.aDouble)); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } break; case Dataset.ARRAYINT32: final int[] oai32data = ((CompoundIntegerDataset) result).data; it.setOutputDouble(false); if (inDegrees) { while (it.hasNext()) { final int ox = (int) toLong( Math.toDegrees(Math.atan2(da.getElementDoubleAbs(it.aIndex + 1), it.aDouble))); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final int ox = (int) toLong(Math.atan2(da.getElementDoubleAbs(it.aIndex + 1), it.aDouble)); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } break; case Dataset.ARRAYINT64: final long[] oai64data = ((CompoundLongDataset) result).data; it.setOutputDouble(false); if (inDegrees) { while (it.hasNext()) { final long ox = toLong( Math.toDegrees(Math.atan2(da.getElementDoubleAbs(it.aIndex + 1), it.aDouble))); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ox = toLong(Math.atan2(da.getElementDoubleAbs(it.aIndex + 1), it.aDouble)); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } break; case Dataset.FLOAT32: final float[] of32data = ((FloatDataset) result).data; if (inDegrees) { while (it.hasNext()) { of32data[it.oIndex] = (float) Math .toDegrees(Math.atan2(da.getElementDoubleAbs(it.aIndex + 1), it.aDouble)); } } else { while (it.hasNext()) { of32data[it.oIndex] = (float) Math.atan2(da.getElementDoubleAbs(it.aIndex + 1), it.aDouble); } } break; case Dataset.FLOAT64: final double[] of64data = ((DoubleDataset) result).data; if (inDegrees) { while (it.hasNext()) { of64data[it.oIndex] = Math .toDegrees(Math.atan2(da.getElementDoubleAbs(it.aIndex + 1), it.aDouble)); } } else { while (it.hasNext()) { of64data[it.oIndex] = Math.atan2(da.getElementDoubleAbs(it.aIndex + 1), it.aDouble); } } break; case Dataset.ARRAYFLOAT32: final float[] oaf32data = ((CompoundFloatDataset) result).data; if (inDegrees) { while (it.hasNext()) { final float ox = (float) Math .toDegrees(Math.atan2(da.getElementDoubleAbs(it.aIndex + 1), it.aDouble)); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final float ox = (float) Math.atan2(da.getElementDoubleAbs(it.aIndex + 1), it.aDouble); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } break; case Dataset.ARRAYFLOAT64: final double[] oaf64data = ((CompoundDoubleDataset) result).data; if (inDegrees) { while (it.hasNext()) { final double ox = Math.toDegrees(Math.atan2(da.getElementDoubleAbs(it.aIndex + 1), it.aDouble)); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final double ox = Math.atan2(da.getElementDoubleAbs(it.aIndex + 1), it.aDouble); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } break; case Dataset.COMPLEX64: final float[] oc64data = ((ComplexFloatDataset) result).data; if (inDegrees) { while (it.hasNext()) { oc64data[it.oIndex] = (float) Math .toDegrees(Math.atan2(da.getElementDoubleAbs(it.aIndex + 1), it.aDouble)); oc64data[it.oIndex + 1] = 0; } } else { while (it.hasNext()) { oc64data[it.oIndex] = (float) Math.atan2(da.getElementDoubleAbs(it.aIndex + 1), it.aDouble); oc64data[it.oIndex + 1] = 0; } } break; case Dataset.COMPLEX128: final double[] oc128data = ((ComplexDoubleDataset) result).data; if (inDegrees) { while (it.hasNext()) { oc128data[it.oIndex] = Math .toDegrees(Math.atan2(da.getElementDoubleAbs(it.aIndex + 1), it.aDouble)); oc128data[it.oIndex + 1] = 0; } } else { while (it.hasNext()) { oc128data[it.oIndex] = Math.atan2(da.getElementDoubleAbs(it.aIndex + 1), it.aDouble); oc128data[it.oIndex + 1] = 0; } } break; default: throw new IllegalArgumentException("angle does not support this dataset type"); } addFunctionName(result, "angle"); return result; } /** * Create a phase only dataset. NB it will contain NaNs if there are any items with zero amplitude * @param a dataset * @param keepZeros if true then zero items are returned as zero rather than NaNs * @return complex dataset where items have unit amplitude */ public static Dataset phaseAsComplexNumber(final Object a, final boolean keepZeros) { return phaseAsComplexNumber(a, null, keepZeros); } /** * Create a phase only dataset. NB it will contain NaNs if there are any items with zero amplitude * @param a dataset * @param o output can be null - in which case, a new dataset is created * @param keepZeros if true then zero items are returned as zero rather than NaNs * @return complex dataset where items have unit amplitude */ public static Dataset phaseAsComplexNumber(final Object a, final Dataset o, final boolean keepZeros) { final Dataset da = a instanceof Dataset ? (Dataset) a : DatasetFactory.createFromObject(a); if (!da.isComplex()) { throw new IllegalArgumentException("Input dataset is not of complex type"); } Dataset result = o == null ? DatasetFactory.zeros(da) : o; if (!result.isComplex()) { throw new IllegalArgumentException("Output dataset is not of complex type"); } final int dt = result.getDType(); SingleInputBroadcastIterator it = new SingleInputBroadcastIterator(da, result); switch (dt) { case Dataset.COMPLEX64: float[] z64data = ((ComplexFloatDataset) result).getData(); if (keepZeros) { while (it.hasNext()) { double rr = it.aDouble; double ri = da.getElementDoubleAbs(it.aIndex + 1); double am = Math.hypot(rr, ri); if (am == 0) { z64data[it.oIndex] = 0; z64data[it.oIndex + 1] = 0; } else { z64data[it.oIndex] = (float) (rr / am); z64data[it.oIndex + 1] = (float) (ri / am); } } } else { while (it.hasNext()) { double rr = it.aDouble; double ri = da.getElementDoubleAbs(it.aIndex + 1); double am = Math.hypot(rr, ri); z64data[it.oIndex] = (float) (rr / am); z64data[it.oIndex + 1] = (float) (ri / am); } } break; case Dataset.COMPLEX128: double[] z128data = ((ComplexDoubleDataset) result).getData(); if (keepZeros) { while (it.hasNext()) { double rr = it.aDouble; double ri = da.getElementDoubleAbs(it.aIndex + 1); double am = Math.hypot(rr, ri); if (am == 0) { z128data[it.oIndex] = 0; z128data[it.oIndex + 1] = 0; } else { z128data[it.oIndex] = rr / am; z128data[it.oIndex + 1] = ri / am; } } } else { while (it.hasNext()) { double rr = it.aDouble; double ri = da.getElementDoubleAbs(it.aIndex + 1); double am = Math.hypot(rr, ri); z128data[it.oIndex] = rr / am; z128data[it.oIndex + 1] = ri / am; } } break; } addFunctionName(result, "phase"); return result; } /** * Adds all sets passed in together * * The first IDataset must cast to Dataset * * For memory efficiency sake if add(...) is called with a * set of size one, no clone is done, the original object is * returned directly. Otherwise a new data set is returned, * the sum of those passed in. * * @param sets * @param requireClone * @return sum of collection */ public static Dataset add(final Collection<IDataset> sets, boolean requireClone) { if (sets.isEmpty()) return null; final Iterator<IDataset> it = sets.iterator(); if (sets.size() == 1) return DatasetUtils.convertToDataset(it.next()); Dataset sum = requireClone ? ((Dataset) it.next()).clone() : (Dataset) it.next(); while (it.hasNext()) { add(sum, it.next(), sum); } return sum; } /** * Multiplies all sets passed in together * * The first IDataset must cast to Dataset * * @param sets * @param requireClone * @return product of collection */ public static Dataset multiply(final Collection<IDataset> sets, boolean requireClone) { if (sets.isEmpty()) return null; final Iterator<IDataset> it = sets.iterator(); if (sets.size() == 1) return DatasetUtils.convertToDataset(it.next()); Dataset product = requireClone ? ((Dataset) it.next()).clone() : (Dataset) it.next(); while (it.hasNext()) { multiply(product, it.next(), product); } return product; } /** * Linearly interpolate values at points in a 1D dataset corresponding to given coordinates. * @param x input 1-D coordinate dataset (must be ordered) * @param d input 1-D dataset * @param x0 coordinate values * @param left value to use when x0 lies left of domain. If null, then interpolate to zero by using leftmost interval * @param right value to use when x0 lies right of domain. If null, then interpolate to zero by using rightmost interval * @return interpolated values */ public static Dataset interpolate(final Dataset x, final Dataset d, final IDataset x0, Number left, Number right) { assert x.getRank() == 1; assert d.getRank() == 1; DoubleDataset r = DatasetFactory.zeros(DoubleDataset.class, x0.getShape()); Monotonicity mono = Comparisons.findMonotonicity(x); if (mono == Monotonicity.NOT_ORDERED) { throw new IllegalArgumentException("Dataset x must be ordered"); } DoubleDataset dx = (DoubleDataset) DatasetUtils.cast(x, Dataset.FLOAT64); Dataset dx0 = DatasetUtils.convertToDataset(x0); if (x == dx) { dx = (DoubleDataset) x.flatten(); } double[] xa = dx.getData(); int s = xa.length - 1; boolean isReversed = mono == Monotonicity.STRICTLY_DECREASING || mono == Monotonicity.NONINCREASING; if (isReversed) { double[] txa = xa.clone(); for (int i = 0; i <= s; i++) { // reverse order txa[s - i] = xa[i]; } xa = txa; } IndexIterator it = dx0.getIterator(); int k = -1; while (it.hasNext()) { k++; double v = dx0.getElementDoubleAbs(it.index); int i = Arrays.binarySearch(xa, v); if (i < 0) { // i = -(insertion point) - 1 if (i == -1) { if (left != null) { r.setAbs(k, left.doubleValue()); continue; } final double d1 = xa[0] - xa[1]; double t = d1 - v + xa[0]; if (t >= 0) continue; // sets to zero t /= d1; r.setAbs(k, t * d.getDouble(isReversed ? s : 0)); } else if (i == -s - 2) { if (right != null) { r.setAbs(k, right.doubleValue()); continue; } final double d1 = xa[s] - xa[s - 1]; double t = d1 - v + xa[s]; if (t <= 0) continue; // sets to zero t /= d1; r.setAbs(k, t * d.getDouble(isReversed ? 0 : s)); } else { i = -i - 1; double t = (xa[i] - v) / (xa[i] - xa[i - 1]); if (isReversed) { i = s - i; r.setAbs(k, t * d.getDouble(i + 1) + (1 - t) * d.getDouble(i)); } else { r.setAbs(k, (1 - t) * d.getDouble(i) + t * d.getDouble(i - 1)); } } } else { r.setAbs(k, d.getDouble(isReversed ? s - i : i)); } } return r; } /** * Linearly interpolate a value at a point in a 1D dataset. The dataset is considered to have * zero support outside its bounds. Thus points just outside are interpolated from the boundary * value to zero. * @param d input dataset * @param x0 coordinate * @return interpolated value */ public static double interpolate(final Dataset d, final double x0) { assert d.getRank() == 1; final int i0 = (int) Math.floor(x0); final int e0 = d.getSize() - 1; if (i0 < -1 || i0 > e0) return 0; final double u0 = x0 - i0; double r = 0; final double f1 = i0 < 0 ? 0 : d.getDouble(i0); if (u0 > 0) { r = (1 - u0) * f1 + (i0 == e0 ? 0 : u0 * d.getDouble(i0 + 1)); } else { r = f1; } return r; } /** * Linearly interpolate a value at a point in a 1D dataset with a mask. The dataset is considered * to have zero support outside its bounds. Thus points just outside are interpolated from the * boundary value to zero. * @param d input dataset * @param m mask dataset * @param x0 coordinate * @return interpolated value */ public static double interpolate(final Dataset d, final Dataset m, final double x0) { assert d.getRank() == 1; assert m.getRank() == 1; final int i0 = (int) Math.floor(x0); final int e0 = d.getSize() - 1; if (i0 < -1 || i0 > e0) return 0; final double u0 = x0 - i0; double r = 0; final double f1 = i0 < 0 ? 0 : d.getDouble(i0) * m.getDouble(i0); if (u0 > 0) { r = (1 - u0) * f1 + (i0 == e0 ? 0 : u0 * d.getDouble(i0 + 1) * m.getDouble(i0 + 1)); } else { r = f1; } return r; } /** * Linearly interpolate an array of values at a point in a compound 1D dataset. The dataset is * considered to have zero support outside its bounds. Thus points just outside are interpolated * from the boundary value to zero. * @param values interpolated array * @param d input dataset * @param x0 coordinate */ public static void interpolate(final double[] values, final CompoundDataset d, final double x0) { assert d.getRank() == 1; final int is = d.getElementsPerItem(); if (is != values.length) throw new IllegalArgumentException("Output array length must match elements in item"); final double[] f1, f2; final int i0 = (int) Math.floor(x0); final int e0 = d.getSize() - 1; if (i0 < -1 || i0 > e0) { Arrays.fill(values, 0); return; } final double u0 = x0 - i0; if (u0 > 0) { f1 = new double[is]; if (i0 >= 0) d.getDoubleArray(f1, i0); double t = 1 - u0; if (i0 == e0) { for (int j = 0; j < is; j++) values[j] = t * f1[j]; } else { f2 = new double[is]; d.getDoubleArray(f2, i0 + 1); for (int j = 0; j < is; j++) values[j] = t * f1[j] + u0 * f2[j]; } } else { if (i0 >= 0) d.getDoubleArray(values, i0); else Arrays.fill(values, 0); } } /** * Linearly interpolate a value at a point in a 2D dataset. The dataset is considered to have * zero support outside its bounds. Thus points just outside are interpolated from the boundary * value to zero. * @param d input dataset * @param x0 coordinate * @param x1 coordinate * @return bilinear interpolation */ public static double interpolate(final Dataset d, final double x0, final double x1) { final int[] s = d.getShape(); assert s.length == 2; final int e0 = s[0] - 1; final int e1 = s[1] - 1; final int i0 = (int) Math.floor(x0); final int i1 = (int) Math.floor(x1); final double u0 = x0 - i0; final double u1 = x1 - i1; if (i0 < -1 || i0 > e0 || i1 < -1 || i1 > e1) return 0; // use bilinear interpolation double r = 0; final double f1, f2, f3, f4; f1 = i0 < 0 || i1 < 0 ? 0 : d.getDouble(i0, i1); if (u1 > 0) { if (u0 > 0) { if (i0 == e0) { f2 = 0; f4 = 0; f3 = i1 == e1 ? 0 : d.getDouble(i0, i1 + 1); } else { f2 = i1 < 0 ? 0 : d.getDouble(i0 + 1, i1); if (i1 == e1) { f4 = 0; f3 = 0; } else { f4 = d.getDouble(i0 + 1, i1 + 1); f3 = i0 < 0 ? 0 : d.getDouble(i0, i1 + 1); } } r = (1 - u0) * (1 - u1) * f1 + u0 * (1 - u1) * f2 + (1 - u0) * u1 * f3 + u0 * u1 * f4; } else { f3 = i0 < 0 || i1 == e1 ? 0 : d.getDouble(i0, i1 + 1); r = (1 - u1) * f1 + u1 * f3; } } else { // exactly on axis 1 if (u0 > 0) { f2 = i0 == e0 || i1 < 0 ? 0 : d.getDouble(i0 + 1, i1); r = (1 - u0) * f1 + u0 * f2; } else { // exactly on axis 0 r = f1; } } return r; } /** * Linearly interpolate a value at a point in a 2D dataset with a mask. The dataset is considered * to have zero support outside its bounds. Thus points just outside are interpolated from the * boundary value to zero. * @param d input dataset * @param m mask dataset * @param x0 coordinate * @param x1 coordinate * @return bilinear interpolation */ public static double interpolate(final Dataset d, final Dataset m, final double x0, final double x1) { if (m == null) return interpolate(d, x0, x1); final int[] s = d.getShape(); assert s.length == 2; assert m.getRank() == 2; final int e0 = s[0] - 1; final int e1 = s[1] - 1; final int i0 = (int) Math.floor(x0); final int i1 = (int) Math.floor(x1); final double u0 = x0 - i0; final double u1 = x1 - i1; if (i0 < -1 || i0 > e0 || i1 < -1 || i1 > e1) return 0; // use bilinear interpolation double r = 0; final double f1, f2, f3, f4; f1 = i0 < 0 || i1 < 0 ? 0 : d.getDouble(i0, i1) * m.getDouble(i0, i1); if (u1 > 0) { if (i0 == e0) { f2 = 0; f4 = 0; f3 = i1 == e1 ? 0 : d.getDouble(i0, i1 + 1) * m.getDouble(i0, i1 + 1); } else { f2 = i1 < 0 ? 0 : d.getDouble(i0 + 1, i1) * m.getDouble(i0 + 1, i1); if (i1 == e1) { f4 = 0; f3 = 0; } else { f4 = d.getDouble(i0 + 1, i1 + 1) * m.getDouble(i0 + 1, i1 + 1); f3 = i0 < 0 ? 0 : d.getDouble(i0, i1 + 1) * m.getDouble(i0, i1 + 1); } } r = (1 - u0) * (1 - u1) * f1 + u0 * (1 - u1) * f2 + (1 - u0) * u1 * f3 + u0 * u1 * f4; } else { // exactly on axis 1 if (u0 > 0) { f2 = i0 == e0 || i1 < 0 ? 0 : d.getDouble(i0 + 1, i1) * m.getDouble(i0 + 1, i1); r = (1 - u0) * f1 + u0 * f2; } else { // exactly on axis 0 r = f1; } } return r; } /** * Linearly interpolate an array of values at a point in a compound 2D dataset. The dataset is * considered to have zero support outside its bounds. Thus points just outside are interpolated * from the boundary value to zero. * @param values bilinear interpolated array * @param d * @param x0 * @param x1 */ public static void interpolate(final double[] values, final CompoundDataset d, final double x0, final double x1) { final int[] s = d.getShapeRef(); assert s.length == 2; final int is = d.getElementsPerItem(); if (is != values.length) throw new IllegalArgumentException("Output array length must match elements in item"); final int e0 = s[0] - 1; final int e1 = s[1] - 1; final int i0 = (int) Math.floor(x0); final int i1 = (int) Math.floor(x1); final double u0 = x0 - i0; final double u1 = x1 - i1; if (i0 < -1 || i0 > e0 || i1 < -1 || i1 > e1) { Arrays.fill(values, 0); return; } // use bilinear interpolation double[] f1 = new double[is]; if (i0 >= 0 && i1 >= 0) d.getDoubleArray(f1, i0, i1); if (u1 > 0) { if (u0 > 0) { double[] f2 = new double[is]; double[] f3 = new double[is]; double[] f4 = new double[is]; if (i0 != e0) { if (i1 != e1) d.getDoubleArray(f3, i0 + 1, i1 + 1); if (i1 >= 0) d.getDoubleArray(f4, i0 + 1, i1); } if (i0 >= 0 && i1 != e1) d.getDoubleArray(f2, i0, i1 + 1); final double t0 = 1 - u0; final double t1 = 1 - u1; final double w1 = t0 * t1; final double w2 = t0 * u1; final double w3 = u0 * u1; final double w4 = u0 * t1; for (int j = 0; j < is; j++) values[j] = w1 * f1[j] + w2 * f2[j] + w3 * f3[j] + w4 * f4[j]; } else { double[] f2 = new double[is]; if (i0 >= 0 && i1 != e1) d.getDoubleArray(f2, i0, i1 + 1); final double t1 = 1 - u1; for (int j = 0; j < is; j++) values[j] = t1 * f1[j] + u1 * f2[j]; } } else { // exactly on axis 1 if (u0 > 0) { double[] f4 = new double[is]; if (i0 != e0 && i1 >= 0) d.getDoubleArray(f4, i0 + 1, i1); final double t0 = 1 - u0; for (int j = 0; j < is; j++) values[j] = t0 * f1[j] + u0 * f4[j]; } else { // exactly on axis 0 if (i0 >= 0 && i1 >= 0) d.getDoubleArray(values, i0, i1); else Arrays.fill(values, 0); } } } /** * Linearly interpolate a value at a point in a n-D dataset. The dataset is considered to have * zero support outside its bounds. Thus points just outside are interpolated from the boundary * value to zero. The number of coordinates must match the rank of the dataset. * @param d input dataset * @param x coordinates * @return interpolated value */ public static double interpolate(final Dataset d, final double... x) { return interpolate(d, null, x); } /** * Linearly interpolate a value at a point in a n-D dataset with a mask. The dataset is considered to have * zero support outside its bounds. Thus points just outside are interpolated from the boundary * value to zero. The number of coordinates must match the rank of the dataset. * @param d input dataset * @param m mask dataset (can be null) * @param x coordinates * @return interpolated value */ public static double interpolate(final Dataset d, final Dataset m, final double... x) { int r = d.getRank(); if (r != x.length) { throw new IllegalArgumentException("Number of coordinates must be equal to rank of dataset"); } switch (r) { case 1: return m == null ? interpolate(d, x[0]) : interpolate(d, m, x[0]); case 2: return m == null ? interpolate(d, x[0], x[1]) : interpolate(d, m, x[0], x[1]); } if (m != null && r != m.getRank()) { throw new IllegalArgumentException("Rank of mask dataset must be equal to rank of dataset"); } // now do it iteratively int[] l = new int[r]; // lower indexes double[] f = new double[r]; // fractions for (int i = 0; i < r; i++) { double xi = x[i]; l[i] = (int) Math.floor(xi); f[i] = xi - l[i]; } int[] s = d.getShape(); int n = 1 << r; double[] results = new double[n]; // iterate over permutations {l} and {l+1} int[] twos = new int[r]; Arrays.fill(twos, 2); PositionIterator it = new PositionIterator(twos); int[] ip = it.getPos(); int j = 0; if (m == null) { while (it.hasNext()) { int[] p = l.clone(); boolean omit = false; for (int i = 0; i < r; i++) { int pi = p[i] + ip[i]; if (pi < 0 || pi >= s[i]) { omit = true; break; } p[i] = pi; } results[j++] = omit ? 0 : d.getDouble(p); } } else { while (it.hasNext()) { int[] p = l.clone(); boolean omit = false; for (int i = 0; i < r; i++) { int pi = p[i] + ip[i]; if (pi < 0 || pi >= s[i]) { omit = true; break; } p[i] = pi; } results[j++] = omit ? 0 : d.getDouble(p) * m.getDouble(p); } } // reduce recursively for (int i = r - 1; i >= 0; i--) { results = combine(results, f[i], 1 << i); } return results[0]; } private static double[] combine(double[] values, double f, int n) { double g = 1 - f; double[] results = new double[n]; for (int j = 0; j < n; j++) { int tj = 2 * j; results[j] = g * values[tj] + f * values[tj + 1]; } return results; } /** * Linearly interpolate an array of values at a point in a compound n-D dataset. The dataset is * considered to have zero support outside its bounds. Thus points just outside are interpolated * from the boundary value to zero. * @param values linearly interpolated array * @param d * @param x */ public static void interpolate(final double[] values, final CompoundDataset d, final double... x) { int r = d.getRank(); if (r != x.length) { throw new IllegalArgumentException("Number of coordinates must be equal to rank of dataset"); } switch (r) { case 1: interpolate(values, d, x[0]); return; case 2: interpolate(values, d, x[0], x[1]); return; } final int is = d.getElementsPerItem(); if (is != values.length) throw new IllegalArgumentException("Output array length must match elements in item"); // now do it iteratively int[] l = new int[r]; // lower indexes double[] f = new double[r]; // fractions for (int i = 0; i < r; i++) { double xi = x[i]; l[i] = (int) Math.floor(xi); f[i] = xi - l[i]; } int[] s = d.getShape(); int n = 1 << r; double[][] results = new double[n][is]; // iterate over permutations {l} and {l+1} int[] twos = new int[r]; Arrays.fill(twos, 2); PositionIterator it = new PositionIterator(twos); int[] ip = it.getPos(); int j = 0; while (it.hasNext()) { int[] p = l.clone(); boolean omit = false; for (int i = 0; i < r; i++) { int pi = p[i] + ip[i]; if (pi < 0 || pi >= s[i]) { omit = true; break; } p[i] = pi; } if (!omit) { d.getDoubleArray(results[j++], p); } } // reduce recursively for (int i = r - 1; i >= 0; i--) { results = combineArray(is, results, f[i], 1 << i); } for (int k = 0; k < is; k++) { values[k] = results[0][k]; } } private static double[][] combineArray(int is, double[][] values, double f, int n) { double g = 1 - f; double[][] results = new double[n][is]; for (int j = 0; j < n; j++) { int tj = 2 * j; for (int k = 0; k < is; k++) { results[j][k] = g * values[tj][k] + f * values[tj + 1][k]; } } return results; } /** * Linearly interpolate a value at a point in a 1D dataset. The dataset is considered to have * zero support outside its bounds. Thus points just outside are interpolated from the boundary * value to zero. * @param d input dataset * @param x0 coordinate * @return interpolated value * @deprecated Use {@link #interpolate(Dataset, double)} */ @Deprecated public static double getLinear(final IDataset d, final double x0) { return interpolate(DatasetUtils.convertToDataset(d), x0); } /** * Linearly interpolate a value at a point in a compound 1D dataset. The dataset is considered * to have zero support outside its bounds. Thus points just outside are interpolated from the * boundary value to zero. * @param values interpolated array * @param d input dataset * @param x0 coordinate * @deprecated Use {@link #interpolate(double[], CompoundDataset, double)} */ @Deprecated public static void getLinear(final double[] values, final CompoundDataset d, final double x0) { interpolate(values, d, x0); } /** * Interpolated a value from 2D dataset * @param d input dataset * @param x0 coordinate * @param x1 coordinate * @return bilinear interpolation * @deprecated Use {@link #interpolate(Dataset, double, double)} */ @Deprecated public static double getBilinear(final IDataset d, final double x0, final double x1) { return interpolate(DatasetUtils.convertToDataset(d), x0, x1); } /** * Interpolated a value from 2D dataset with mask * @param d input dataset * @param m mask dataset * @param x0 coordinate * @param x1 coordinate * @return bilinear interpolation * @deprecated Use {@link #interpolate(Dataset, Dataset, double, double)} */ @Deprecated public static double getBilinear(final IDataset d, final IDataset m, final double x0, final double x1) { return interpolate(DatasetUtils.convertToDataset(d), DatasetUtils.convertToDataset(m), x0, x1); } /** * Interpolated a value from 2D compound dataset * @param values bilinear interpolated array * @param d * @param x0 * @param x1 * @deprecated Use {@link #interpolate(double[], CompoundDataset, double, double)} */ @Deprecated public static void getBilinear(final double[] values, final CompoundDataset d, final double x0, final double x1) { interpolate(values, d, x0, x1); } /** * generate binomial coefficients with negative sign: * <p> * <pre> * (-1)^i n! / ( i! (n-i)! ) * </pre> * @param n * @return array of coefficients */ private static int[] bincoeff(final int n) { final int[] b = new int[n + 1]; final int hn = n / 2; int bc = 1; b[0] = bc; for (int i = 1; i <= hn; i++) { bc = -(bc * (n - i + 1)) / i; b[i] = bc; } if (n % 2 != 0) { for (int i = hn + 1; i <= n; i++) { b[i] = -b[n - i]; } } else { for (int i = hn + 1; i <= n; i++) { b[i] = b[n - i]; } } return b; } /** * 1st order discrete difference of dataset along flattened dataset using finite difference * @param a is 1d dataset * @param out is 1d dataset */ private static void difference(final Dataset a, final Dataset out) { final int isize = a.getElementsPerItem(); final IndexIterator it = a.getIterator(); if (!it.hasNext()) return; int oi = it.index; switch (a.getDType()) { case Dataset.INT8: final byte[] i8data = ((ByteDataset) a).data; final byte[] oi8data = ((ByteDataset) out).getData(); for (int i = 0; it.hasNext();) { oi8data[i++] = (byte) (i8data[it.index] - i8data[oi]); oi = it.index; } break; case Dataset.INT16: final short[] i16data = ((ShortDataset) a).data; final short[] oi16data = ((ShortDataset) out).getData(); for (int i = 0; it.hasNext();) { oi16data[i++] = (short) (i16data[it.index] - i16data[oi]); oi = it.index; } break; case Dataset.INT32: final int[] i32data = ((IntegerDataset) a).data; final int[] oi32data = ((IntegerDataset) out).getData(); for (int i = 0; it.hasNext();) { oi32data[i++] = i32data[it.index] - i32data[oi]; oi = it.index; } break; case Dataset.INT64: final long[] i64data = ((LongDataset) a).data; final long[] oi64data = ((LongDataset) out).getData(); for (int i = 0; it.hasNext();) { oi64data[i++] = i64data[it.index] - i64data[oi]; oi = it.index; } break; case Dataset.ARRAYINT8: final byte[] ai8data = ((CompoundByteDataset) a).data; final byte[] oai8data = ((CompoundByteDataset) out).getData(); for (int i = 0; it.hasNext();) { for (int k = 0; k < isize; k++) { oai8data[i++] = (byte) (ai8data[it.index + k] - ai8data[oi++]); } oi = it.index; } break; case Dataset.ARRAYINT16: final short[] ai16data = ((CompoundShortDataset) a).data; final short[] oai16data = ((CompoundShortDataset) out).getData(); for (int i = 0; it.hasNext();) { for (int k = 0; k < isize; k++) { oai16data[i++] = (short) (ai16data[it.index + k] - ai16data[oi++]); } oi = it.index; } break; case Dataset.ARRAYINT32: final int[] ai32data = ((CompoundIntegerDataset) a).data; final int[] oai32data = ((CompoundIntegerDataset) out).getData(); for (int i = 0; it.hasNext();) { for (int k = 0; k < isize; k++) { oai32data[i++] = ai32data[it.index + k] - ai32data[oi++]; } oi = it.index; } break; case Dataset.ARRAYINT64: final long[] ai64data = ((CompoundLongDataset) a).data; final long[] oai64data = ((CompoundLongDataset) out).getData(); for (int i = 0; it.hasNext();) { for (int k = 0; k < isize; k++) { oai64data[i++] = ai64data[it.index + k] - ai64data[oi++]; } oi = it.index; } break; case Dataset.FLOAT32: final float[] f32data = ((FloatDataset) a).data; final float[] of32data = ((FloatDataset) out).getData(); for (int i = 0; it.hasNext();) { of32data[i++] = f32data[it.index] - f32data[oi]; oi = it.index; } break; case Dataset.FLOAT64: final double[] f64data = ((DoubleDataset) a).data; final double[] of64data = ((DoubleDataset) out).getData(); for (int i = 0; it.hasNext();) { of64data[i++] = f64data[it.index] - f64data[oi]; oi = it.index; } break; case Dataset.COMPLEX64: final float[] c64data = ((ComplexFloatDataset) a).data; final float[] oc64data = ((ComplexFloatDataset) out).getData(); for (int i = 0; it.hasNext();) { oc64data[i++] = c64data[it.index] - c64data[oi]; oc64data[i++] = c64data[it.index + 1] - c64data[oi + 1]; oi = it.index; } break; case Dataset.COMPLEX128: final double[] c128data = ((ComplexDoubleDataset) a).data; final double[] oc128data = ((ComplexDoubleDataset) out).getData(); for (int i = 0; it.hasNext();) { oc128data[i++] = c128data[it.index] - c128data[oi]; oc128data[i++] = c128data[it.index + 1] - c128data[oi + 1]; oi = it.index; } break; case Dataset.ARRAYFLOAT32: final float[] af32data = ((CompoundFloatDataset) a).data; final float[] oaf32data = ((CompoundFloatDataset) out).getData(); for (int i = 0; it.hasNext();) { for (int k = 0; k < isize; k++) { oaf32data[i++] = af32data[it.index + k] - af32data[oi++]; } oi = it.index; } break; case Dataset.ARRAYFLOAT64: final double[] af64data = ((CompoundDoubleDataset) a).data; final double[] oaf64data = ((CompoundDoubleDataset) out).getData(); for (int i = 0; it.hasNext();) { for (int k = 0; k < isize; k++) { oaf64data[i++] = af64data[it.index + k] - af64data[oi++]; } oi = it.index; } break; default: throw new UnsupportedOperationException("difference does not support this dataset type"); } } /** * Get next set of indexes * @param it * @param indexes * @return true if there is more */ private static boolean nextIndexes(IndexIterator it, int[] indexes) { if (!it.hasNext()) return false; int m = indexes.length; int i = 0; for (i = 0; i < m - 1; i++) { indexes[i] = indexes[i + 1]; } indexes[i] = it.index; return true; } /** * General order discrete difference of dataset along flattened dataset using finite difference * @param a is 1d dataset * @param out is 1d dataset * @param n order of difference */ private static void difference(final Dataset a, final Dataset out, final int n) { if (n == 1) { difference(a, out); return; } final int isize = a.getElementsPerItem(); final int[] coeff = bincoeff(n); final int m = n + 1; final int[] indexes = new int[m]; // store for index values final IndexIterator it = a.getIterator(); for (int i = 0; i < n; i++) { indexes[i] = it.index; it.hasNext(); } indexes[n] = it.index; switch (a.getDType()) { case Dataset.INT8: final byte[] i8data = ((ByteDataset) a).data; final byte[] oi8data = ((ByteDataset) out).getData(); for (int i = 0; nextIndexes(it, indexes);) { int ox = 0; for (int j = 0; j < m; j++) { ox += i8data[indexes[j]] * coeff[j]; } oi8data[i++] = (byte) ox; } break; case Dataset.INT16: final short[] i16data = ((ShortDataset) a).data; final short[] oi16data = ((ShortDataset) out).getData(); for (int i = 0; nextIndexes(it, indexes);) { int ox = 0; for (int j = 0; j < m; j++) { ox += i16data[indexes[j]] * coeff[j]; } oi16data[i++] = (short) ox; } break; case Dataset.INT32: final int[] i32data = ((IntegerDataset) a).data; final int[] oi32data = ((IntegerDataset) out).getData(); for (int i = 0; nextIndexes(it, indexes);) { int ox = 0; for (int j = 0; j < m; j++) { ox += i32data[indexes[j]] * coeff[j]; } oi32data[i++] = ox; } break; case Dataset.INT64: final long[] i64data = ((LongDataset) a).data; final long[] oi64data = ((LongDataset) out).getData(); for (int i = 0; nextIndexes(it, indexes);) { long ox = 0; for (int j = 0; j < m; j++) { ox += i64data[indexes[j]] * coeff[j]; } oi64data[i++] = ox; } break; case Dataset.ARRAYINT8: final byte[] ai8data = ((CompoundByteDataset) a).data; final byte[] oai8data = ((CompoundByteDataset) out).getData(); int[] box = new int[isize]; for (int i = 0; nextIndexes(it, indexes);) { Arrays.fill(box, 0); for (int j = 0; j < m; j++) { double c = coeff[j]; int l = indexes[j]; for (int k = 0; k < isize; k++) { box[k] += ai8data[l++] * c; } } for (int k = 0; k < isize; k++) { oai8data[i++] = (byte) box[k]; } } break; case Dataset.ARRAYINT16: final short[] ai16data = ((CompoundShortDataset) a).data; final short[] oai16data = ((CompoundShortDataset) out).getData(); int[] sox = new int[isize]; for (int i = 0; nextIndexes(it, indexes);) { Arrays.fill(sox, 0); for (int j = 0; j < m; j++) { double c = coeff[j]; int l = indexes[j]; for (int k = 0; k < isize; k++) { sox[k] += ai16data[l++] * c; } } for (int k = 0; k < isize; k++) { oai16data[i++] = (short) sox[k]; } } break; case Dataset.ARRAYINT32: final int[] ai32data = ((CompoundIntegerDataset) a).data; final int[] oai32data = ((CompoundIntegerDataset) out).getData(); int[] iox = new int[isize]; for (int i = 0; nextIndexes(it, indexes);) { Arrays.fill(iox, 0); for (int j = 0; j < m; j++) { double c = coeff[j]; int l = indexes[j]; for (int k = 0; k < isize; k++) { iox[k] += ai32data[l++] * c; } } for (int k = 0; k < isize; k++) { oai32data[i++] = iox[k]; } } break; case Dataset.ARRAYINT64: final long[] ai64data = ((CompoundLongDataset) a).data; final long[] oai64data = ((CompoundLongDataset) out).getData(); long[] lox = new long[isize]; for (int i = 0; nextIndexes(it, indexes);) { Arrays.fill(lox, 0); for (int j = 0; j < m; j++) { double c = coeff[j]; int l = indexes[j]; for (int k = 0; k < isize; k++) { lox[k] += ai64data[l++] * c; } } for (int k = 0; k < isize; k++) { oai64data[i++] = lox[k]; } } break; case Dataset.FLOAT32: final float[] f32data = ((FloatDataset) a).data; final float[] of32data = ((FloatDataset) out).getData(); for (int i = 0; nextIndexes(it, indexes);) { float ox = 0; for (int j = 0; j < m; j++) { ox += f32data[indexes[j]] * coeff[j]; } of32data[i++] = ox; } break; case Dataset.FLOAT64: final double[] f64data = ((DoubleDataset) a).data; final double[] of64data = ((DoubleDataset) out).getData(); for (int i = 0; nextIndexes(it, indexes);) { double ox = 0; for (int j = 0; j < m; j++) { ox += f64data[indexes[j]] * coeff[j]; } of64data[i++] = ox; } break; case Dataset.COMPLEX64: final float[] c64data = ((ComplexFloatDataset) a).data; final float[] oc64data = ((ComplexFloatDataset) out).getData(); for (int i = 0; nextIndexes(it, indexes);) { float ox = 0; float oy = 0; for (int j = 0; j < m; j++) { int l = indexes[j]; ox += c64data[l++] * coeff[j]; oy += c64data[l] * coeff[j]; } oc64data[i++] = ox; oc64data[i++] = oy; } break; case Dataset.COMPLEX128: final double[] c128data = ((ComplexDoubleDataset) a).data; final double[] oc128data = ((ComplexDoubleDataset) out).getData(); for (int i = 0; nextIndexes(it, indexes);) { double ox = 0; double oy = 0; for (int j = 0; j < m; j++) { int l = indexes[j]; ox += c128data[l++] * coeff[j]; oy += c128data[l] * coeff[j]; } oc128data[i++] = ox; oc128data[i++] = oy; } break; case Dataset.ARRAYFLOAT32: final float[] af32data = ((CompoundFloatDataset) a).data; final float[] oaf32data = ((CompoundFloatDataset) out).getData(); float[] fox = new float[isize]; for (int i = 0; nextIndexes(it, indexes);) { Arrays.fill(fox, 0); for (int j = 0; j < m; j++) { double c = coeff[j]; int l = indexes[j]; for (int k = 0; k < isize; k++) { fox[k] += af32data[l++] * c; } } for (int k = 0; k < isize; k++) { oaf32data[i++] = fox[k]; } } break; case Dataset.ARRAYFLOAT64: final double[] af64data = ((CompoundDoubleDataset) a).data; final double[] oaf64data = ((CompoundDoubleDataset) out).getData(); double[] dox = new double[isize]; for (int i = 0; nextIndexes(it, indexes);) { Arrays.fill(dox, 0); for (int j = 0; j < m; j++) { double c = coeff[j]; int l = indexes[j]; for (int k = 0; k < isize; k++) { dox[k] += af64data[l++] * c; } } for (int k = 0; k < isize; k++) { oaf64data[i++] = dox[k]; } } break; default: throw new UnsupportedOperationException("difference does not support multiple-element dataset"); } } /** * Discrete difference of dataset along axis using finite difference * @param a * @param n order of difference * @param axis * @return difference */ public static Dataset difference(Dataset a, final int n, int axis) { Dataset ds; final int dt = a.getDType(); final int rank = a.getRank(); final int is = a.getElementsPerItem(); if (axis < 0) { axis += rank; } if (axis < 0 || axis >= rank) { throw new IllegalArgumentException("Axis is out of range"); } int[] nshape = a.getShape(); if (nshape[axis] <= n) { nshape[axis] = 0; return DatasetFactory.zeros(is, nshape, dt); } nshape[axis] -= n; ds = DatasetFactory.zeros(is, nshape, dt); if (rank == 1) { difference(DatasetUtils.convertToDataset(a), ds, n); } else { final Dataset src = DatasetFactory.zeros(is, new int[] { a.getShapeRef()[axis] }, dt); final Dataset dest = DatasetFactory.zeros(is, new int[] { nshape[axis] }, dt); final PositionIterator pi = a.getPositionIterator(axis); final int[] pos = pi.getPos(); final boolean[] hit = pi.getOmit(); while (pi.hasNext()) { a.copyItemsFromAxes(pos, hit, src); difference(src, dest, n); ds.setItemsOnAxes(pos, hit, dest.getBuffer()); } } return ds; } private static double SelectedMean(Dataset data, int Min, int Max) { double result = 0.0; for (int i = Min, imax = data.getSize(); i <= Max; i++) { // clip i appropriately, imagine that effectively the two ends continue // straight out. int pos = i; if (pos < 0) { pos = 0; } else if (pos >= imax) { pos = imax - 1; } result += data.getElementDoubleAbs(pos); } // now the sum is complete, average the values. result /= (Max - Min) + 1; return result; } private static void SelectedMeanArray(double[] out, Dataset data, int Min, int Max) { final int isize = out.length; for (int j = 0; j < isize; j++) out[j] = 0.; for (int i = Min, imax = data.getSize(); i <= Max; i++) { // clip i appropriately, imagine that effectively the two ends continue // straight out. int pos = i * isize; if (pos < 0) { pos = 0; } else if (pos >= imax) { pos = imax - isize; } for (int j = 0; j < isize; j++) out[j] += data.getElementDoubleAbs(pos + j); } // now the sum is complete, average the values. double norm = 1. / (Max - Min + 1.); for (int j = 0; j < isize; j++) out[j] *= norm; } /** * Calculates the derivative of a line described by two datasets (x,y) given a spread of n either * side of the point * * @param x * The x values of the function to take the derivative of. * @param y * The y values of the function to take the derivative of. * @param n * The spread the derivative is calculated from, i.e. the * smoothing, the higher the value, the more smoothing occurs. * @return A dataset which contains all the derivative point for point. */ public static Dataset derivative(Dataset x, Dataset y, int n) { if (x.getRank() != 1 || y.getRank() != 1) { throw new IllegalArgumentException("Only one dimensional dataset supported"); } if (y.getSize() > x.getSize()) { throw new IllegalArgumentException("Length of x dataset should be greater than or equal to y's"); } int dtype = y.getDType(); Dataset result; switch (dtype) { case Dataset.BOOL: case Dataset.INT8: case Dataset.INT16: case Dataset.ARRAYINT8: case Dataset.ARRAYINT16: result = DatasetFactory.zeros(y, Dataset.FLOAT32); break; case Dataset.INT32: case Dataset.INT64: case Dataset.ARRAYINT32: case Dataset.ARRAYINT64: result = DatasetFactory.zeros(y, Dataset.FLOAT64); break; case Dataset.FLOAT32: case Dataset.FLOAT64: case Dataset.COMPLEX64: case Dataset.COMPLEX128: case Dataset.ARRAYFLOAT32: case Dataset.ARRAYFLOAT64: result = DatasetFactory.zeros(y); break; default: throw new UnsupportedOperationException("derivative does not support multiple-element dataset"); } final int isize = y.getElementsPerItem(); if (isize == 1) { for (int i = 0, imax = x.getSize(); i < imax; i++) { double LeftValue = SelectedMean(y, i - n, i - 1); double RightValue = SelectedMean(y, i + 1, i + n); double LeftPosition = SelectedMean(x, i - n, i - 1); double RightPosition = SelectedMean(x, i + 1, i + n); // now the values and positions are calculated, the derivative can be // calculated. result.set(((RightValue - LeftValue) / (RightPosition - LeftPosition)), i); } } else { double[] leftValues = new double[isize]; double[] rightValues = new double[isize]; for (int i = 0, imax = x.getSize(); i < imax; i++) { SelectedMeanArray(leftValues, y, i - n, i - 1); SelectedMeanArray(rightValues, y, i + 1, i + n); double delta = SelectedMean(x, i - n, i - 1); delta = 1. / (SelectedMean(x, i + 1, i + n) - delta); for (int j = 0; j < isize; j++) { rightValues[j] -= leftValues[j]; rightValues[j] *= delta; } result.set(rightValues, i); } } // set the name based on the changes made result.setName(y.getName() + "'"); return result; } /** * Discrete difference of dataset along axis using finite central difference * @param a * @param axis * @return difference */ public static Dataset centralDifference(Dataset a, int axis) { Dataset ds; final int dt = a.getDType(); final int rank = a.getRank(); final int is = a.getElementsPerItem(); if (axis < 0) { axis += rank; } if (axis < 0 || axis >= rank) { throw new IllegalArgumentException("Axis is out of range"); } final int len = a.getShapeRef()[axis]; if (len < 2) { throw new IllegalArgumentException("Dataset should have a size > 1 along given axis"); } ds = DatasetFactory.zeros(is, a.getShapeRef(), dt); if (rank == 1) { centralDifference(a, ds); } else { final Dataset src = DatasetFactory.zeros(is, new int[] { len }, dt); final Dataset dest = DatasetFactory.zeros(is, new int[] { len }, dt); final PositionIterator pi = a.getPositionIterator(axis); final int[] pos = pi.getPos(); final boolean[] hit = pi.getOmit(); while (pi.hasNext()) { a.copyItemsFromAxes(pos, hit, src); centralDifference(src, dest); ds.setItemsOnAxes(pos, hit, dest.getBuffer()); } } return ds; } /** * 1st order discrete difference of dataset along flattened dataset using central difference * @param a is 1d dataset * @param out is 1d dataset */ private static void centralDifference(final Dataset a, final Dataset out) { final int isize = a.getElementsPerItem(); final int dt = a.getDType(); final int nlen = (out.getShapeRef()[0] - 1) * isize; if (nlen < 1) { throw new IllegalArgumentException("Dataset should have a size > 1 along given axis"); } final IndexIterator it = a.getIterator(); if (!it.hasNext()) return; int oi = it.index; if (!it.hasNext()) return; int pi = it.index; switch (dt) { case Dataset.INT8: final byte[] i8data = ((ByteDataset) a).data; final byte[] oi8data = ((ByteDataset) out).getData(); oi8data[0] = (byte) (i8data[pi] - i8data[oi]); for (int i = 1; it.hasNext(); i++) { oi8data[i] = (byte) ((i8data[it.index] - i8data[oi]) / 2); oi = pi; pi = it.index; } oi8data[nlen] = (byte) (i8data[pi] - i8data[oi]); break; case Dataset.INT16: final short[] i16data = ((ShortDataset) a).data; final short[] oi16data = ((ShortDataset) out).getData(); oi16data[0] = (short) (i16data[pi] - i16data[oi]); for (int i = 1; it.hasNext(); i++) { oi16data[i] = (short) ((i16data[it.index] - i16data[oi]) / 2); oi = pi; pi = it.index; } oi16data[nlen] = (short) (i16data[pi] - i16data[oi]); break; case Dataset.INT32: final int[] i32data = ((IntegerDataset) a).data; final int[] oi32data = ((IntegerDataset) out).getData(); oi32data[0] = i32data[pi] - i32data[oi]; for (int i = 1; it.hasNext(); i++) { oi32data[i] = (i32data[it.index] - i32data[oi]) / 2; oi = pi; pi = it.index; } oi32data[nlen] = i32data[pi] - i32data[oi]; break; case Dataset.INT64: final long[] i64data = ((LongDataset) a).data; final long[] oi64data = ((LongDataset) out).getData(); oi64data[0] = i64data[pi] - i64data[oi]; for (int i = 1; it.hasNext(); i++) { oi64data[i] = (i64data[it.index] - i64data[oi]) / 2; oi = pi; pi = it.index; } oi64data[nlen] = i64data[pi] - i64data[oi]; break; case Dataset.ARRAYINT8: final byte[] ai8data = ((CompoundByteDataset) a).data; final byte[] oai8data = ((CompoundByteDataset) out).getData(); for (int k = 0; k < isize; k++) { oai8data[k] = (byte) (ai8data[pi + k] - ai8data[oi + k]); } for (int i = isize; it.hasNext();) { int l = it.index; for (int k = 0; k < isize; k++) { oai8data[i++] = (byte) ((ai8data[l++] - ai8data[oi++]) / 2); } oi = pi; pi = it.index; } for (int k = 0; k < isize; k++) { oai8data[nlen + k] = (byte) (ai8data[pi + k] - ai8data[oi + k]); } break; case Dataset.ARRAYINT16: final short[] ai16data = ((CompoundShortDataset) a).data; final short[] oai16data = ((CompoundShortDataset) out).getData(); for (int k = 0; k < isize; k++) { oai16data[k] = (short) (ai16data[pi + k] - ai16data[oi + k]); } for (int i = isize; it.hasNext();) { int l = it.index; for (int k = 0; k < isize; k++) { oai16data[i++] = (short) ((ai16data[l++] - ai16data[oi++]) / 2); } oi = pi; pi = it.index; } for (int k = 0; k < isize; k++) { oai16data[nlen + k] = (short) (ai16data[pi + k] - ai16data[oi + k]); } break; case Dataset.ARRAYINT32: final int[] ai32data = ((CompoundIntegerDataset) a).data; final int[] oai32data = ((CompoundIntegerDataset) out).getData(); for (int k = 0; k < isize; k++) { oai32data[k] = ai32data[pi + k] - ai32data[oi + k]; } for (int i = isize; it.hasNext();) { int l = it.index; for (int k = 0; k < isize; k++) { oai32data[i++] = (ai32data[l++] - ai32data[oi++]) / 2; } oi = pi; pi = it.index; } for (int k = 0; k < isize; k++) { oai32data[nlen + k] = ai32data[pi + k] - ai32data[oi + k]; } break; case Dataset.ARRAYINT64: final long[] ai64data = ((CompoundLongDataset) a).data; final long[] oai64data = ((CompoundLongDataset) out).getData(); for (int k = 0; k < isize; k++) { oai64data[k] = ai64data[pi + k] - ai64data[oi + k]; } for (int i = isize; it.hasNext();) { int l = it.index; for (int k = 0; k < isize; k++) { oai64data[i++] = (ai64data[l++] - ai64data[oi++]) / 2; } oi = pi; pi = it.index; } for (int k = 0; k < isize; k++) { oai64data[nlen + k] = ai64data[pi + k] - ai64data[oi + k]; } break; case Dataset.FLOAT32: final float[] f32data = ((FloatDataset) a).data; final float[] of32data = ((FloatDataset) out).getData(); of32data[0] = f32data[pi] - f32data[oi]; for (int i = 1; it.hasNext(); i++) { of32data[i] = (f32data[it.index] - f32data[oi]) * 0.5f; oi = pi; pi = it.index; } of32data[nlen] = f32data[pi] - f32data[oi]; break; case Dataset.FLOAT64: final double[] f64data = ((DoubleDataset) a).data; final double[] of64data = ((DoubleDataset) out).getData(); of64data[0] = f64data[pi] - f64data[oi]; for (int i = 1; it.hasNext(); i++) { of64data[i] = (f64data[it.index] - f64data[oi]) * 0.5f; oi = pi; pi = it.index; } of64data[nlen] = f64data[pi] - f64data[oi]; break; case Dataset.COMPLEX64: final float[] c64data = ((ComplexFloatDataset) a).data; final float[] oc64data = ((ComplexFloatDataset) out).getData(); oc64data[0] = c64data[pi] - c64data[oi]; oc64data[1] = c64data[pi + 1] - c64data[oi + 1]; for (int i = 2; it.hasNext();) { oc64data[i++] = (c64data[it.index] - c64data[oi++]) * 0.5f; oc64data[i++] = (c64data[it.index + 1] - c64data[oi]) * 0.5f; oi = pi; pi = it.index; } oc64data[nlen] = c64data[pi] - c64data[oi]; oc64data[nlen + 1] = c64data[pi + 1] - c64data[oi + 1]; break; case Dataset.COMPLEX128: final double[] c128data = ((ComplexDoubleDataset) a).data; final double[] oc128data = ((ComplexDoubleDataset) out).getData(); oc128data[0] = c128data[pi] - c128data[oi]; oc128data[1] = c128data[pi + 1] - c128data[oi + 1]; for (int i = 2; it.hasNext();) { oc128data[i++] = (c128data[it.index] - c128data[oi++]) * 0.5f; oc128data[i++] = (c128data[it.index + 1] - c128data[oi]) * 0.5f; oi = pi; pi = it.index; } oc128data[nlen] = c128data[pi] - c128data[oi]; oc128data[nlen + 1] = c128data[pi + 1] - c128data[oi + 1]; break; case Dataset.ARRAYFLOAT32: final float[] af32data = ((CompoundFloatDataset) a).data; final float[] oaf32data = ((CompoundFloatDataset) out).getData(); for (int k = 0; k < isize; k++) { oaf32data[k] = af32data[pi + k] - af32data[oi + k]; } for (int i = isize; it.hasNext();) { int l = it.index; for (int k = 0; k < isize; k++) { oaf32data[i++] = (af32data[l++] - af32data[oi++]) * 0.5f; } oi = pi; pi = it.index; } for (int k = 0; k < isize; k++) { oaf32data[nlen + k] = af32data[pi + k] - af32data[oi + k]; } break; case Dataset.ARRAYFLOAT64: final double[] af64data = ((CompoundDoubleDataset) a).data; final double[] oaf64data = ((CompoundDoubleDataset) out).getData(); for (int k = 0; k < isize; k++) { oaf64data[k] = af64data[pi + k] - af64data[oi + k]; } for (int i = isize; it.hasNext();) { int l = it.index; for (int k = 0; k < isize; k++) { oaf64data[i++] = (af64data[l++] - af64data[oi++]) * 0.5; } oi = pi; pi = it.index; } for (int k = 0; k < isize; k++) { oaf64data[nlen + k] = af64data[pi + k] - af64data[oi + k]; } break; default: throw new UnsupportedOperationException("difference does not support this dataset type"); } } /** * Calculate gradient (or partial derivatives) by central difference * @param y * @param x one or more datasets for dependent variables * @return a list of datasets (one for each dimension in y) */ public static List<Dataset> gradient(Dataset y, Dataset... x) { final int rank = y.getRank(); if (x.length > 0) { if (x.length != rank) { throw new IllegalArgumentException( "Number of dependent datasets must be equal to rank of first argument"); } for (int a = 0; a < rank; a++) { int rx = x[a].getRank(); if (rx != rank && rx != 1) { throw new IllegalArgumentException( "Dependent datasets must be 1-D or match rank of first argument"); } if (rx == 1) { if (y.getShapeRef()[a] != x[a].getShapeRef()[0]) { throw new IllegalArgumentException("Length of dependent dataset must match axis length"); } } else { y.checkCompatibility(x[a]); } } } List<Dataset> grad = new ArrayList<Dataset>(rank); for (int a = 0; a < rank; a++) { Dataset g = centralDifference(y, a); grad.add(g); } if (x.length > 0) { for (int a = 0; a < rank; a++) { Dataset g = grad.get(a); Dataset dx = x[a]; int r = dx.getRank(); if (r == rank) { g.idivide(centralDifference(dx, a)); } else { final int dt = dx.getDType(); final int is = dx.getElementsPerItem(); final Dataset bdx = DatasetFactory.zeros(is, y.getShapeRef(), dt); final PositionIterator pi = y.getPositionIterator(a); final int[] pos = pi.getPos(); final boolean[] hit = pi.getOmit(); dx = centralDifference(dx, 0); while (pi.hasNext()) { bdx.setItemsOnAxes(pos, hit, dx.getBuffer()); } g.idivide(bdx); } } } return grad; } // Start of generated code - see functions.txt and generatefunctions.py /** * add operator * @param a * @param b * @return a + b, addition of a and b */ public static Dataset add(final Object a, final Object b) { return add(a, b, null); } /** * add operator * @param a * @param b * @param o output can be null - in which case, a new dataset is created * @return a + b, addition of a and b */ public static Dataset add(final Object a, final Object b, final Dataset o) { final Dataset da = a instanceof Dataset ? (Dataset) a : DatasetFactory.createFromObject(a); final Dataset db = b instanceof Dataset ? (Dataset) b : DatasetFactory.createFromObject(b); final BroadcastIterator it = BroadcastIterator.createIterator(da, db, o, true); final Dataset result = it.getOutput(); final int is = result.getElementsPerItem(); final int dt = result.getDType(); switch (dt) { case Dataset.INT8: final byte[] oi8data = ((ByteDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; byte ox; ox = (byte) toLong(iax + ibx); oi8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; byte ox; ox = (byte) (iax + ibx); oi8data[it.oIndex] = ox; } } break; case Dataset.INT16: final short[] oi16data = ((ShortDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; short ox; ox = (short) toLong(iax + ibx); oi16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; short ox; ox = (short) (iax + ibx); oi16data[it.oIndex] = ox; } } break; case Dataset.INT64: final long[] oi64data = ((LongDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; long ox; ox = toLong(iax + ibx); oi64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; long ox; ox = (iax + ibx); oi64data[it.oIndex] = ox; } } break; case Dataset.INT32: final int[] oi32data = ((IntegerDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; int ox; ox = (int) toLong(iax + ibx); oi32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; int ox; ox = (int) (iax + ibx); oi32data[it.oIndex] = ox; } } break; case Dataset.ARRAYINT8: final byte[] oai8data = ((CompoundByteDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; byte ox; ox = (byte) toLong(iax + ibx); oai8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; byte ox; ox = (byte) (iax + ibx); oai8data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; double ibx = it.bDouble; byte ox; ox = (byte) toLong(iax + ibx); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (byte) toLong(iax + ibx); oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; byte ox; ox = (byte) (iax + ibx); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (byte) (iax + ibx); oai8data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; final double ibx = it.bDouble; byte ox; ox = (byte) toLong(iax + ibx); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ox = (byte) toLong(iax + ibx); oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; byte ox; ox = (byte) (iax + ibx); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (byte) (iax + ibx); oai8data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; double ibx = it.bDouble; byte ox; ox = (byte) toLong(iax + ibx); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (byte) toLong(iax + ibx); oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; byte ox; ox = (byte) (iax + ibx); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (byte) (iax + ibx); oai8data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT16: final short[] oai16data = ((CompoundShortDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; short ox; ox = (short) toLong(iax + ibx); oai16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; short ox; ox = (short) (iax + ibx); oai16data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; double ibx = it.bDouble; short ox; ox = (short) toLong(iax + ibx); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (short) toLong(iax + ibx); oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; short ox; ox = (short) (iax + ibx); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (short) (iax + ibx); oai16data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; final double ibx = it.bDouble; short ox; ox = (short) toLong(iax + ibx); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ox = (short) toLong(iax + ibx); oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; short ox; ox = (short) (iax + ibx); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (short) (iax + ibx); oai16data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; double ibx = it.bDouble; short ox; ox = (short) toLong(iax + ibx); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (short) toLong(iax + ibx); oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; short ox; ox = (short) (iax + ibx); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (short) (iax + ibx); oai16data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT64: final long[] oai64data = ((CompoundLongDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; long ox; ox = toLong(iax + ibx); oai64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; long ox; ox = (iax + ibx); oai64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; double ibx = it.bDouble; long ox; ox = toLong(iax + ibx); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementDoubleAbs(it.bIndex + j); ox = toLong(iax + ibx); oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; long ox; ox = (iax + ibx); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (iax + ibx); oai64data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; final double ibx = it.bDouble; long ox; ox = toLong(iax + ibx); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ox = toLong(iax + ibx); oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; long ox; ox = (iax + ibx); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (iax + ibx); oai64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; double ibx = it.bDouble; long ox; ox = toLong(iax + ibx); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ibx = db.getElementDoubleAbs(it.bIndex + j); ox = toLong(iax + ibx); oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; long ox; ox = (iax + ibx); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (iax + ibx); oai64data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT32: final int[] oai32data = ((CompoundIntegerDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; int ox; ox = (int) toLong(iax + ibx); oai32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; int ox; ox = (int) (iax + ibx); oai32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; double ibx = it.bDouble; int ox; ox = (int) toLong(iax + ibx); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (int) toLong(iax + ibx); oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; int ox; ox = (int) (iax + ibx); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (int) (iax + ibx); oai32data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; final double ibx = it.bDouble; int ox; ox = (int) toLong(iax + ibx); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ox = (int) toLong(iax + ibx); oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; int ox; ox = (int) (iax + ibx); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (int) (iax + ibx); oai32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; double ibx = it.bDouble; int ox; ox = (int) toLong(iax + ibx); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (int) toLong(iax + ibx); oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; int ox; ox = (int) (iax + ibx); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (int) (iax + ibx); oai32data[it.oIndex + j] = ox; } } } } break; case Dataset.FLOAT32: final float[] of32data = ((FloatDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; float ox; ox = (float) (iax + ibx); of32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; float ox; ox = (iax + ibx); of32data[it.oIndex] = ox; } } break; case Dataset.FLOAT64: final double[] of64data = ((DoubleDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; double ox; ox = (iax + ibx); of64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; double ox; ox = (iax + ibx); of64data[it.oIndex] = ox; } } break; case Dataset.ARRAYFLOAT32: final float[] oaf32data = ((CompoundFloatDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; float ox; ox = (float) (iax + ibx); oaf32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; float ox; ox = (iax + ibx); oaf32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; double ibx = it.bDouble; float ox; ox = (float) (iax + ibx); oaf32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (float) (iax + ibx); oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; float ox; ox = (iax + ibx); oaf32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (iax + ibx); oaf32data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; final double ibx = it.bDouble; float ox; ox = (float) (iax + ibx); oaf32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ox = (float) (iax + ibx); oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; float ox; ox = (iax + ibx); oaf32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (iax + ibx); oaf32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; double ibx = it.bDouble; float ox; ox = (float) (iax + ibx); oaf32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (float) (iax + ibx); oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; float ox; ox = (iax + ibx); oaf32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (iax + ibx); oaf32data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYFLOAT64: final double[] oaf64data = ((CompoundDoubleDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; double ox; ox = (iax + ibx); oaf64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; double ox; ox = (iax + ibx); oaf64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; double ibx = it.bDouble; double ox; ox = (iax + ibx); oaf64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (iax + ibx); oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; double ox; ox = (iax + ibx); oaf64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (iax + ibx); oaf64data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; final double ibx = it.bDouble; double ox; ox = (iax + ibx); oaf64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ox = (iax + ibx); oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; double ox; ox = (iax + ibx); oaf64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (iax + ibx); oaf64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; double ibx = it.bDouble; double ox; ox = (iax + ibx); oaf64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (iax + ibx); oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; double ox; ox = (iax + ibx); oaf64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (iax + ibx); oaf64data[it.oIndex + j] = ox; } } } } break; case Dataset.COMPLEX64: final float[] oc64data = ((ComplexFloatDataset) result).data; if (da.getElementsPerItem() == 1) { final double iay = 0; while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; final double iby = db.getElementDoubleAbs(it.bIndex + 1); float ox; float oy; ox = (float) (iax + ibx); oy = (float) (iay + iby); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } else if (db.getElementsPerItem() == 1) { final double iby = 0; while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; final double iay = da.getElementDoubleAbs(it.aIndex + 1); float ox; float oy; ox = (float) (iax + ibx); oy = (float) (iay + iby); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; final double iay = da.getElementDoubleAbs(it.aIndex + 1); final double iby = db.getElementDoubleAbs(it.bIndex + 1); float ox; float oy; ox = (float) (iax + ibx); oy = (float) (iay + iby); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } break; case Dataset.COMPLEX128: final double[] oc128data = ((ComplexDoubleDataset) result).data; if (da.getElementsPerItem() == 1) { final double iay = 0; while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; final double iby = db.getElementDoubleAbs(it.bIndex + 1); double ox; double oy; ox = (iax + ibx); oy = (iay + iby); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } else if (db.getElementsPerItem() == 1) { final double iby = 0; while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; final double iay = da.getElementDoubleAbs(it.aIndex + 1); double ox; double oy; ox = (iax + ibx); oy = (iay + iby); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; final double iay = da.getElementDoubleAbs(it.aIndex + 1); final double iby = db.getElementDoubleAbs(it.bIndex + 1); double ox; double oy; ox = (iax + ibx); oy = (iay + iby); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } break; default: throw new IllegalArgumentException( "add supports integer, compound integer, real, compound real, complex datasets only"); } addBinaryOperatorName(da, db, result, "+"); return result; } /** * subtract operator * @param a * @param b * @return a - b, subtraction of a by b */ public static Dataset subtract(final Object a, final Object b) { return subtract(a, b, null); } /** * subtract operator * @param a * @param b * @param o output can be null - in which case, a new dataset is created * @return a - b, subtraction of a by b */ public static Dataset subtract(final Object a, final Object b, final Dataset o) { final Dataset da = a instanceof Dataset ? (Dataset) a : DatasetFactory.createFromObject(a); final Dataset db = b instanceof Dataset ? (Dataset) b : DatasetFactory.createFromObject(b); final BroadcastIterator it = BroadcastIterator.createIterator(da, db, o, true); final Dataset result = it.getOutput(); final int is = result.getElementsPerItem(); final int dt = result.getDType(); switch (dt) { case Dataset.INT8: final byte[] oi8data = ((ByteDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; byte ox; ox = (byte) toLong(iax - ibx); oi8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; byte ox; ox = (byte) (iax - ibx); oi8data[it.oIndex] = ox; } } break; case Dataset.INT16: final short[] oi16data = ((ShortDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; short ox; ox = (short) toLong(iax - ibx); oi16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; short ox; ox = (short) (iax - ibx); oi16data[it.oIndex] = ox; } } break; case Dataset.INT64: final long[] oi64data = ((LongDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; long ox; ox = toLong(iax - ibx); oi64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; long ox; ox = (iax - ibx); oi64data[it.oIndex] = ox; } } break; case Dataset.INT32: final int[] oi32data = ((IntegerDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; int ox; ox = (int) toLong(iax - ibx); oi32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; int ox; ox = (int) (iax - ibx); oi32data[it.oIndex] = ox; } } break; case Dataset.ARRAYINT8: final byte[] oai8data = ((CompoundByteDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; byte ox; ox = (byte) toLong(iax - ibx); oai8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; byte ox; ox = (byte) (iax - ibx); oai8data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; double ibx = it.bDouble; byte ox; ox = (byte) toLong(iax - ibx); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (byte) toLong(iax - ibx); oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; byte ox; ox = (byte) (iax - ibx); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (byte) (iax - ibx); oai8data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; final double ibx = it.bDouble; byte ox; ox = (byte) toLong(iax - ibx); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ox = (byte) toLong(iax - ibx); oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; byte ox; ox = (byte) (iax - ibx); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (byte) (iax - ibx); oai8data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; double ibx = it.bDouble; byte ox; ox = (byte) toLong(iax - ibx); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (byte) toLong(iax - ibx); oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; byte ox; ox = (byte) (iax - ibx); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (byte) (iax - ibx); oai8data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT16: final short[] oai16data = ((CompoundShortDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; short ox; ox = (short) toLong(iax - ibx); oai16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; short ox; ox = (short) (iax - ibx); oai16data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; double ibx = it.bDouble; short ox; ox = (short) toLong(iax - ibx); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (short) toLong(iax - ibx); oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; short ox; ox = (short) (iax - ibx); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (short) (iax - ibx); oai16data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; final double ibx = it.bDouble; short ox; ox = (short) toLong(iax - ibx); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ox = (short) toLong(iax - ibx); oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; short ox; ox = (short) (iax - ibx); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (short) (iax - ibx); oai16data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; double ibx = it.bDouble; short ox; ox = (short) toLong(iax - ibx); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (short) toLong(iax - ibx); oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; short ox; ox = (short) (iax - ibx); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (short) (iax - ibx); oai16data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT64: final long[] oai64data = ((CompoundLongDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; long ox; ox = toLong(iax - ibx); oai64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; long ox; ox = (iax - ibx); oai64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; double ibx = it.bDouble; long ox; ox = toLong(iax - ibx); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementDoubleAbs(it.bIndex + j); ox = toLong(iax - ibx); oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; long ox; ox = (iax - ibx); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (iax - ibx); oai64data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; final double ibx = it.bDouble; long ox; ox = toLong(iax - ibx); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ox = toLong(iax - ibx); oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; long ox; ox = (iax - ibx); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (iax - ibx); oai64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; double ibx = it.bDouble; long ox; ox = toLong(iax - ibx); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ibx = db.getElementDoubleAbs(it.bIndex + j); ox = toLong(iax - ibx); oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; long ox; ox = (iax - ibx); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (iax - ibx); oai64data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT32: final int[] oai32data = ((CompoundIntegerDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; int ox; ox = (int) toLong(iax - ibx); oai32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; int ox; ox = (int) (iax - ibx); oai32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; double ibx = it.bDouble; int ox; ox = (int) toLong(iax - ibx); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (int) toLong(iax - ibx); oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; int ox; ox = (int) (iax - ibx); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (int) (iax - ibx); oai32data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; final double ibx = it.bDouble; int ox; ox = (int) toLong(iax - ibx); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ox = (int) toLong(iax - ibx); oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; int ox; ox = (int) (iax - ibx); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (int) (iax - ibx); oai32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; double ibx = it.bDouble; int ox; ox = (int) toLong(iax - ibx); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (int) toLong(iax - ibx); oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; int ox; ox = (int) (iax - ibx); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (int) (iax - ibx); oai32data[it.oIndex + j] = ox; } } } } break; case Dataset.FLOAT32: final float[] of32data = ((FloatDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; float ox; ox = (float) (iax - ibx); of32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; float ox; ox = (iax - ibx); of32data[it.oIndex] = ox; } } break; case Dataset.FLOAT64: final double[] of64data = ((DoubleDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; double ox; ox = (iax - ibx); of64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; double ox; ox = (iax - ibx); of64data[it.oIndex] = ox; } } break; case Dataset.ARRAYFLOAT32: final float[] oaf32data = ((CompoundFloatDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; float ox; ox = (float) (iax - ibx); oaf32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; float ox; ox = (iax - ibx); oaf32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; double ibx = it.bDouble; float ox; ox = (float) (iax - ibx); oaf32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (float) (iax - ibx); oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; float ox; ox = (iax - ibx); oaf32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (iax - ibx); oaf32data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; final double ibx = it.bDouble; float ox; ox = (float) (iax - ibx); oaf32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ox = (float) (iax - ibx); oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; float ox; ox = (iax - ibx); oaf32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (iax - ibx); oaf32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; double ibx = it.bDouble; float ox; ox = (float) (iax - ibx); oaf32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (float) (iax - ibx); oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; float ox; ox = (iax - ibx); oaf32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (iax - ibx); oaf32data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYFLOAT64: final double[] oaf64data = ((CompoundDoubleDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; double ox; ox = (iax - ibx); oaf64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; double ox; ox = (iax - ibx); oaf64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; double ibx = it.bDouble; double ox; ox = (iax - ibx); oaf64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (iax - ibx); oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; double ox; ox = (iax - ibx); oaf64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (iax - ibx); oaf64data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; final double ibx = it.bDouble; double ox; ox = (iax - ibx); oaf64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ox = (iax - ibx); oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; double ox; ox = (iax - ibx); oaf64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (iax - ibx); oaf64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; double ibx = it.bDouble; double ox; ox = (iax - ibx); oaf64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (iax - ibx); oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; double ox; ox = (iax - ibx); oaf64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (iax - ibx); oaf64data[it.oIndex + j] = ox; } } } } break; case Dataset.COMPLEX64: final float[] oc64data = ((ComplexFloatDataset) result).data; if (da.getElementsPerItem() == 1) { final double iay = 0; while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; final double iby = db.getElementDoubleAbs(it.bIndex + 1); float ox; float oy; ox = (float) (iax - ibx); oy = (float) (iay - iby); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } else if (db.getElementsPerItem() == 1) { final double iby = 0; while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; final double iay = da.getElementDoubleAbs(it.aIndex + 1); float ox; float oy; ox = (float) (iax - ibx); oy = (float) (iay - iby); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; final double iay = da.getElementDoubleAbs(it.aIndex + 1); final double iby = db.getElementDoubleAbs(it.bIndex + 1); float ox; float oy; ox = (float) (iax - ibx); oy = (float) (iay - iby); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } break; case Dataset.COMPLEX128: final double[] oc128data = ((ComplexDoubleDataset) result).data; if (da.getElementsPerItem() == 1) { final double iay = 0; while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; final double iby = db.getElementDoubleAbs(it.bIndex + 1); double ox; double oy; ox = (iax - ibx); oy = (iay - iby); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } else if (db.getElementsPerItem() == 1) { final double iby = 0; while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; final double iay = da.getElementDoubleAbs(it.aIndex + 1); double ox; double oy; ox = (iax - ibx); oy = (iay - iby); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; final double iay = da.getElementDoubleAbs(it.aIndex + 1); final double iby = db.getElementDoubleAbs(it.bIndex + 1); double ox; double oy; ox = (iax - ibx); oy = (iay - iby); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } break; default: throw new IllegalArgumentException( "subtract supports integer, compound integer, real, compound real, complex datasets only"); } addBinaryOperatorName(da, db, result, "-"); return result; } /** * multiply operator * @param a * @param b * @return a * b, product of a and b */ public static Dataset multiply(final Object a, final Object b) { return multiply(a, b, null); } /** * multiply operator * @param a * @param b * @param o output can be null - in which case, a new dataset is created * @return a * b, product of a and b */ public static Dataset multiply(final Object a, final Object b, final Dataset o) { final Dataset da = a instanceof Dataset ? (Dataset) a : DatasetFactory.createFromObject(a); final Dataset db = b instanceof Dataset ? (Dataset) b : DatasetFactory.createFromObject(b); final BroadcastIterator it = BroadcastIterator.createIterator(da, db, o, true); final Dataset result = it.getOutput(); final int is = result.getElementsPerItem(); final int dt = result.getDType(); switch (dt) { case Dataset.INT8: final byte[] oi8data = ((ByteDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; byte ox; ox = (byte) toLong(iax * ibx); oi8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; byte ox; ox = (byte) (iax * ibx); oi8data[it.oIndex] = ox; } } break; case Dataset.INT16: final short[] oi16data = ((ShortDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; short ox; ox = (short) toLong(iax * ibx); oi16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; short ox; ox = (short) (iax * ibx); oi16data[it.oIndex] = ox; } } break; case Dataset.INT64: final long[] oi64data = ((LongDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; long ox; ox = toLong(iax * ibx); oi64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; long ox; ox = (iax * ibx); oi64data[it.oIndex] = ox; } } break; case Dataset.INT32: final int[] oi32data = ((IntegerDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; int ox; ox = (int) toLong(iax * ibx); oi32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; int ox; ox = (int) (iax * ibx); oi32data[it.oIndex] = ox; } } break; case Dataset.ARRAYINT8: final byte[] oai8data = ((CompoundByteDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; byte ox; ox = (byte) toLong(iax * ibx); oai8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; byte ox; ox = (byte) (iax * ibx); oai8data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; double ibx = it.bDouble; byte ox; ox = (byte) toLong(iax * ibx); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (byte) toLong(iax * ibx); oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; byte ox; ox = (byte) (iax * ibx); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (byte) (iax * ibx); oai8data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; final double ibx = it.bDouble; byte ox; ox = (byte) toLong(iax * ibx); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ox = (byte) toLong(iax * ibx); oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; byte ox; ox = (byte) (iax * ibx); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (byte) (iax * ibx); oai8data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; double ibx = it.bDouble; byte ox; ox = (byte) toLong(iax * ibx); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (byte) toLong(iax * ibx); oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; byte ox; ox = (byte) (iax * ibx); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (byte) (iax * ibx); oai8data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT16: final short[] oai16data = ((CompoundShortDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; short ox; ox = (short) toLong(iax * ibx); oai16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; short ox; ox = (short) (iax * ibx); oai16data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; double ibx = it.bDouble; short ox; ox = (short) toLong(iax * ibx); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (short) toLong(iax * ibx); oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; short ox; ox = (short) (iax * ibx); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (short) (iax * ibx); oai16data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; final double ibx = it.bDouble; short ox; ox = (short) toLong(iax * ibx); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ox = (short) toLong(iax * ibx); oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; short ox; ox = (short) (iax * ibx); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (short) (iax * ibx); oai16data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; double ibx = it.bDouble; short ox; ox = (short) toLong(iax * ibx); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (short) toLong(iax * ibx); oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; short ox; ox = (short) (iax * ibx); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (short) (iax * ibx); oai16data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT64: final long[] oai64data = ((CompoundLongDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; long ox; ox = toLong(iax * ibx); oai64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; long ox; ox = (iax * ibx); oai64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; double ibx = it.bDouble; long ox; ox = toLong(iax * ibx); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementDoubleAbs(it.bIndex + j); ox = toLong(iax * ibx); oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; long ox; ox = (iax * ibx); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (iax * ibx); oai64data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; final double ibx = it.bDouble; long ox; ox = toLong(iax * ibx); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ox = toLong(iax * ibx); oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; long ox; ox = (iax * ibx); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (iax * ibx); oai64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; double ibx = it.bDouble; long ox; ox = toLong(iax * ibx); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ibx = db.getElementDoubleAbs(it.bIndex + j); ox = toLong(iax * ibx); oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; long ox; ox = (iax * ibx); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (iax * ibx); oai64data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT32: final int[] oai32data = ((CompoundIntegerDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; int ox; ox = (int) toLong(iax * ibx); oai32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; int ox; ox = (int) (iax * ibx); oai32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; double ibx = it.bDouble; int ox; ox = (int) toLong(iax * ibx); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (int) toLong(iax * ibx); oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; int ox; ox = (int) (iax * ibx); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (int) (iax * ibx); oai32data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; final double ibx = it.bDouble; int ox; ox = (int) toLong(iax * ibx); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ox = (int) toLong(iax * ibx); oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; int ox; ox = (int) (iax * ibx); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (int) (iax * ibx); oai32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; double ibx = it.bDouble; int ox; ox = (int) toLong(iax * ibx); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (int) toLong(iax * ibx); oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; int ox; ox = (int) (iax * ibx); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (int) (iax * ibx); oai32data[it.oIndex + j] = ox; } } } } break; case Dataset.FLOAT32: final float[] of32data = ((FloatDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; float ox; ox = (float) (iax * ibx); of32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; float ox; ox = (iax * ibx); of32data[it.oIndex] = ox; } } break; case Dataset.FLOAT64: final double[] of64data = ((DoubleDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; double ox; ox = (iax * ibx); of64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; double ox; ox = (iax * ibx); of64data[it.oIndex] = ox; } } break; case Dataset.ARRAYFLOAT32: final float[] oaf32data = ((CompoundFloatDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; float ox; ox = (float) (iax * ibx); oaf32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; float ox; ox = (iax * ibx); oaf32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; double ibx = it.bDouble; float ox; ox = (float) (iax * ibx); oaf32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (float) (iax * ibx); oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; float ox; ox = (iax * ibx); oaf32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (iax * ibx); oaf32data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; final double ibx = it.bDouble; float ox; ox = (float) (iax * ibx); oaf32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ox = (float) (iax * ibx); oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; float ox; ox = (iax * ibx); oaf32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (iax * ibx); oaf32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; double ibx = it.bDouble; float ox; ox = (float) (iax * ibx); oaf32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (float) (iax * ibx); oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; float ox; ox = (iax * ibx); oaf32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (iax * ibx); oaf32data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYFLOAT64: final double[] oaf64data = ((CompoundDoubleDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; double ox; ox = (iax * ibx); oaf64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; double ox; ox = (iax * ibx); oaf64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; double ibx = it.bDouble; double ox; ox = (iax * ibx); oaf64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (iax * ibx); oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; double ox; ox = (iax * ibx); oaf64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (iax * ibx); oaf64data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; final double ibx = it.bDouble; double ox; ox = (iax * ibx); oaf64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ox = (iax * ibx); oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; double ox; ox = (iax * ibx); oaf64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (iax * ibx); oaf64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; double ibx = it.bDouble; double ox; ox = (iax * ibx); oaf64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (iax * ibx); oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; double ox; ox = (iax * ibx); oaf64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (iax * ibx); oaf64data[it.oIndex + j] = ox; } } } } break; case Dataset.COMPLEX64: final float[] oc64data = ((ComplexFloatDataset) result).data; if (da.getElementsPerItem() == 1) { final double iay = 0; while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; final double iby = db.getElementDoubleAbs(it.bIndex + 1); float ox; float oy; ox = (float) (iax * ibx - iay * iby); oy = (float) (iax * iby + iay * ibx); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } else if (db.getElementsPerItem() == 1) { final double iby = 0; while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; final double iay = da.getElementDoubleAbs(it.aIndex + 1); float ox; float oy; ox = (float) (iax * ibx - iay * iby); oy = (float) (iax * iby + iay * ibx); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; final double iay = da.getElementDoubleAbs(it.aIndex + 1); final double iby = db.getElementDoubleAbs(it.bIndex + 1); float ox; float oy; ox = (float) (iax * ibx - iay * iby); oy = (float) (iax * iby + iay * ibx); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } break; case Dataset.COMPLEX128: final double[] oc128data = ((ComplexDoubleDataset) result).data; if (da.getElementsPerItem() == 1) { final double iay = 0; while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; final double iby = db.getElementDoubleAbs(it.bIndex + 1); double ox; double oy; ox = (iax * ibx - iay * iby); oy = (iax * iby + iay * ibx); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } else if (db.getElementsPerItem() == 1) { final double iby = 0; while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; final double iay = da.getElementDoubleAbs(it.aIndex + 1); double ox; double oy; ox = (iax * ibx - iay * iby); oy = (iax * iby + iay * ibx); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; final double iay = da.getElementDoubleAbs(it.aIndex + 1); final double iby = db.getElementDoubleAbs(it.bIndex + 1); double ox; double oy; ox = (iax * ibx - iay * iby); oy = (iax * iby + iay * ibx); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } break; default: throw new IllegalArgumentException( "multiply supports integer, compound integer, real, compound real, complex datasets only"); } addBinaryOperatorName(da, db, result, "*"); return result; } /** * divide operator * @param a * @param b * @return a / b, division of a by b */ public static Dataset divide(final Object a, final Object b) { return divide(a, b, null); } /** * divide operator * @param a * @param b * @param o output can be null - in which case, a new dataset is created * @return a / b, division of a by b */ public static Dataset divide(final Object a, final Object b, final Dataset o) { final Dataset da = a instanceof Dataset ? (Dataset) a : DatasetFactory.createFromObject(a); final Dataset db = b instanceof Dataset ? (Dataset) b : DatasetFactory.createFromObject(b); final BroadcastIterator it = BroadcastIterator.createIterator(da, db, o, true); final Dataset result = it.getOutput(); final int is = result.getElementsPerItem(); final int dt = result.getDType(); switch (dt) { case Dataset.INT8: final byte[] oi8data = ((ByteDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; byte ox; ox = (byte) toLong(ibx == 0 ? 0 : iax / ibx); oi8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; byte ox; ox = (byte) (ibx == 0 ? 0 : iax / ibx); oi8data[it.oIndex] = ox; } } break; case Dataset.INT16: final short[] oi16data = ((ShortDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; short ox; ox = (short) toLong(ibx == 0 ? 0 : iax / ibx); oi16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; short ox; ox = (short) (ibx == 0 ? 0 : iax / ibx); oi16data[it.oIndex] = ox; } } break; case Dataset.INT64: final long[] oi64data = ((LongDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; long ox; ox = toLong(ibx == 0 ? 0 : iax / ibx); oi64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; long ox; ox = (ibx == 0 ? 0 : iax / ibx); oi64data[it.oIndex] = ox; } } break; case Dataset.INT32: final int[] oi32data = ((IntegerDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; int ox; ox = (int) toLong(ibx == 0 ? 0 : iax / ibx); oi32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; int ox; ox = (int) (ibx == 0 ? 0 : iax / ibx); oi32data[it.oIndex] = ox; } } break; case Dataset.ARRAYINT8: final byte[] oai8data = ((CompoundByteDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; byte ox; ox = (byte) toLong(ibx == 0 ? 0 : iax / ibx); oai8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; byte ox; ox = (byte) (ibx == 0 ? 0 : iax / ibx); oai8data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; double ibx = it.bDouble; byte ox; ox = (byte) toLong(ibx == 0 ? 0 : iax / ibx); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (byte) toLong(ibx == 0 ? 0 : iax / ibx); oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; byte ox; ox = (byte) (ibx == 0 ? 0 : iax / ibx); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (byte) (ibx == 0 ? 0 : iax / ibx); oai8data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; final double ibx = it.bDouble; byte ox; ox = (byte) toLong(ibx == 0 ? 0 : iax / ibx); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ox = (byte) toLong(ibx == 0 ? 0 : iax / ibx); oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; byte ox; ox = (byte) (ibx == 0 ? 0 : iax / ibx); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (byte) (ibx == 0 ? 0 : iax / ibx); oai8data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; double ibx = it.bDouble; byte ox; ox = (byte) toLong(ibx == 0 ? 0 : iax / ibx); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (byte) toLong(ibx == 0 ? 0 : iax / ibx); oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; byte ox; ox = (byte) (ibx == 0 ? 0 : iax / ibx); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (byte) (ibx == 0 ? 0 : iax / ibx); oai8data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT16: final short[] oai16data = ((CompoundShortDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; short ox; ox = (short) toLong(ibx == 0 ? 0 : iax / ibx); oai16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; short ox; ox = (short) (ibx == 0 ? 0 : iax / ibx); oai16data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; double ibx = it.bDouble; short ox; ox = (short) toLong(ibx == 0 ? 0 : iax / ibx); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (short) toLong(ibx == 0 ? 0 : iax / ibx); oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; short ox; ox = (short) (ibx == 0 ? 0 : iax / ibx); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (short) (ibx == 0 ? 0 : iax / ibx); oai16data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; final double ibx = it.bDouble; short ox; ox = (short) toLong(ibx == 0 ? 0 : iax / ibx); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ox = (short) toLong(ibx == 0 ? 0 : iax / ibx); oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; short ox; ox = (short) (ibx == 0 ? 0 : iax / ibx); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (short) (ibx == 0 ? 0 : iax / ibx); oai16data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; double ibx = it.bDouble; short ox; ox = (short) toLong(ibx == 0 ? 0 : iax / ibx); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (short) toLong(ibx == 0 ? 0 : iax / ibx); oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; short ox; ox = (short) (ibx == 0 ? 0 : iax / ibx); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (short) (ibx == 0 ? 0 : iax / ibx); oai16data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT64: final long[] oai64data = ((CompoundLongDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; long ox; ox = toLong(ibx == 0 ? 0 : iax / ibx); oai64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; long ox; ox = (ibx == 0 ? 0 : iax / ibx); oai64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; double ibx = it.bDouble; long ox; ox = toLong(ibx == 0 ? 0 : iax / ibx); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementDoubleAbs(it.bIndex + j); ox = toLong(ibx == 0 ? 0 : iax / ibx); oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; long ox; ox = (ibx == 0 ? 0 : iax / ibx); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (ibx == 0 ? 0 : iax / ibx); oai64data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; final double ibx = it.bDouble; long ox; ox = toLong(ibx == 0 ? 0 : iax / ibx); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ox = toLong(ibx == 0 ? 0 : iax / ibx); oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; long ox; ox = (ibx == 0 ? 0 : iax / ibx); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (ibx == 0 ? 0 : iax / ibx); oai64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; double ibx = it.bDouble; long ox; ox = toLong(ibx == 0 ? 0 : iax / ibx); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ibx = db.getElementDoubleAbs(it.bIndex + j); ox = toLong(ibx == 0 ? 0 : iax / ibx); oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; long ox; ox = (ibx == 0 ? 0 : iax / ibx); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (ibx == 0 ? 0 : iax / ibx); oai64data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT32: final int[] oai32data = ((CompoundIntegerDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; int ox; ox = (int) toLong(ibx == 0 ? 0 : iax / ibx); oai32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; int ox; ox = (int) (ibx == 0 ? 0 : iax / ibx); oai32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; double ibx = it.bDouble; int ox; ox = (int) toLong(ibx == 0 ? 0 : iax / ibx); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (int) toLong(ibx == 0 ? 0 : iax / ibx); oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; int ox; ox = (int) (ibx == 0 ? 0 : iax / ibx); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (int) (ibx == 0 ? 0 : iax / ibx); oai32data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; final double ibx = it.bDouble; int ox; ox = (int) toLong(ibx == 0 ? 0 : iax / ibx); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ox = (int) toLong(ibx == 0 ? 0 : iax / ibx); oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; int ox; ox = (int) (ibx == 0 ? 0 : iax / ibx); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (int) (ibx == 0 ? 0 : iax / ibx); oai32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; double ibx = it.bDouble; int ox; ox = (int) toLong(ibx == 0 ? 0 : iax / ibx); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (int) toLong(ibx == 0 ? 0 : iax / ibx); oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; int ox; ox = (int) (ibx == 0 ? 0 : iax / ibx); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (int) (ibx == 0 ? 0 : iax / ibx); oai32data[it.oIndex + j] = ox; } } } } break; case Dataset.FLOAT32: final float[] of32data = ((FloatDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; float ox; ox = (float) (iax / ibx); of32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; float ox; ox = (iax / ibx); of32data[it.oIndex] = ox; } } break; case Dataset.FLOAT64: final double[] of64data = ((DoubleDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; double ox; ox = (iax / ibx); of64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; double ox; ox = (iax / ibx); of64data[it.oIndex] = ox; } } break; case Dataset.ARRAYFLOAT32: final float[] oaf32data = ((CompoundFloatDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; float ox; ox = (float) (iax / ibx); oaf32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; float ox; ox = (iax / ibx); oaf32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; double ibx = it.bDouble; float ox; ox = (float) (iax / ibx); oaf32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (float) (iax / ibx); oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; float ox; ox = (iax / ibx); oaf32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (iax / ibx); oaf32data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; final double ibx = it.bDouble; float ox; ox = (float) (iax / ibx); oaf32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ox = (float) (iax / ibx); oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; float ox; ox = (iax / ibx); oaf32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (iax / ibx); oaf32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; double ibx = it.bDouble; float ox; ox = (float) (iax / ibx); oaf32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (float) (iax / ibx); oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; float ox; ox = (iax / ibx); oaf32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (iax / ibx); oaf32data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYFLOAT64: final double[] oaf64data = ((CompoundDoubleDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; double ox; ox = (iax / ibx); oaf64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; double ox; ox = (iax / ibx); oaf64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; double ibx = it.bDouble; double ox; ox = (iax / ibx); oaf64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (iax / ibx); oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; double ox; ox = (iax / ibx); oaf64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (iax / ibx); oaf64data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; final double ibx = it.bDouble; double ox; ox = (iax / ibx); oaf64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ox = (iax / ibx); oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; double ox; ox = (iax / ibx); oaf64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (iax / ibx); oaf64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; double ibx = it.bDouble; double ox; ox = (iax / ibx); oaf64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (iax / ibx); oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; double ox; ox = (iax / ibx); oaf64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (iax / ibx); oaf64data[it.oIndex + j] = ox; } } } } break; case Dataset.COMPLEX64: final float[] oc64data = ((ComplexFloatDataset) result).data; if (da.getElementsPerItem() == 1) { final double iay = 0; while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; final double iby = db.getElementDoubleAbs(it.bIndex + 1); float ox; float oy; float q; float den; if (iby == 0) { ox = (float) (iax / ibx); oy = (float) (iay / ibx); } else if (ibx == 0) { ox = (float) (iay / iby); oy = (float) (-iax / iby); } else if (Math.abs(ibx) < Math.abs(iby)) { q = (float) (ibx / iby); den = (float) (ibx * q + iby); ox = (float) ((iax * q + iay) / den); oy = (float) ((iay * q - ibx) / den); } else { q = (float) (iby / ibx); den = (float) (iby * q + ibx); ox = (float) ((iay * q + iax) / den); oy = (float) ((iay - iax * q) / den); } oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } else if (db.getElementsPerItem() == 1) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; final double iay = da.getElementDoubleAbs(it.aIndex + 1); float ox; float oy; ox = (float) (iax / ibx); oy = (float) (iay / ibx); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; final double iay = da.getElementDoubleAbs(it.aIndex + 1); final double iby = db.getElementDoubleAbs(it.bIndex + 1); float ox; float oy; float q; float den; if (iby == 0) { ox = (float) (iax / ibx); oy = (float) (iay / ibx); } else if (ibx == 0) { ox = (float) (iay / iby); oy = (float) (-iax / iby); } else if (Math.abs(ibx) < Math.abs(iby)) { q = (float) (ibx / iby); den = (float) (ibx * q + iby); ox = (float) ((iax * q + iay) / den); oy = (float) ((iay * q - ibx) / den); } else { q = (float) (iby / ibx); den = (float) (iby * q + ibx); ox = (float) ((iay * q + iax) / den); oy = (float) ((iay - iax * q) / den); } oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } break; case Dataset.COMPLEX128: final double[] oc128data = ((ComplexDoubleDataset) result).data; if (da.getElementsPerItem() == 1) { final double iay = 0; while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; final double iby = db.getElementDoubleAbs(it.bIndex + 1); double ox; double oy; double q; double den; if (iby == 0) { ox = (iax / ibx); oy = (iay / ibx); } else if (ibx == 0) { ox = (iay / iby); oy = (-iax / iby); } else if (Math.abs(ibx) < Math.abs(iby)) { q = (ibx / iby); den = (ibx * q + iby); ox = ((iax * q + iay) / den); oy = ((iay * q - ibx) / den); } else { q = (iby / ibx); den = (iby * q + ibx); ox = ((iay * q + iax) / den); oy = ((iay - iax * q) / den); } oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } else if (db.getElementsPerItem() == 1) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; final double iay = da.getElementDoubleAbs(it.aIndex + 1); double ox; double oy; ox = (iax / ibx); oy = (iay / ibx); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; final double iay = da.getElementDoubleAbs(it.aIndex + 1); final double iby = db.getElementDoubleAbs(it.bIndex + 1); double ox; double oy; double q; double den; if (iby == 0) { ox = (iax / ibx); oy = (iay / ibx); } else if (ibx == 0) { ox = (iay / iby); oy = (-iax / iby); } else if (Math.abs(ibx) < Math.abs(iby)) { q = (ibx / iby); den = (ibx * q + iby); ox = ((iax * q + iay) / den); oy = ((iay * q - ibx) / den); } else { q = (iby / ibx); den = (iby * q + ibx); ox = ((iay * q + iax) / den); oy = ((iay - iax * q) / den); } oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } break; default: throw new IllegalArgumentException( "divide supports integer, compound integer, real, compound real, complex datasets only"); } addBinaryOperatorName(da, db, result, "/"); return result; } /** * dividez operator * @param a * @param b * @return a / b, division of a by b */ public static Dataset dividez(final Object a, final Object b) { return dividez(a, b, null); } /** * dividez operator * @param a * @param b * @param o output can be null - in which case, a new dataset is created * @return a / b, division of a by b */ public static Dataset dividez(final Object a, final Object b, final Dataset o) { final Dataset da = a instanceof Dataset ? (Dataset) a : DatasetFactory.createFromObject(a); final Dataset db = b instanceof Dataset ? (Dataset) b : DatasetFactory.createFromObject(b); final BroadcastIterator it = BroadcastIterator.createIterator(da, db, o, true); final Dataset result = it.getOutput(); final int is = result.getElementsPerItem(); final int dt = result.getDType(); switch (dt) { case Dataset.INT8: final byte[] oi8data = ((ByteDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; byte ox; ox = (byte) toLong(ibx == 0 ? 0 : iax / ibx); oi8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; byte ox; ox = (byte) (ibx == 0 ? 0 : iax / ibx); oi8data[it.oIndex] = ox; } } break; case Dataset.INT16: final short[] oi16data = ((ShortDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; short ox; ox = (short) toLong(ibx == 0 ? 0 : iax / ibx); oi16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; short ox; ox = (short) (ibx == 0 ? 0 : iax / ibx); oi16data[it.oIndex] = ox; } } break; case Dataset.INT64: final long[] oi64data = ((LongDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; long ox; ox = toLong(ibx == 0 ? 0 : iax / ibx); oi64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; long ox; ox = (ibx == 0 ? 0 : iax / ibx); oi64data[it.oIndex] = ox; } } break; case Dataset.INT32: final int[] oi32data = ((IntegerDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; int ox; ox = (int) toLong(ibx == 0 ? 0 : iax / ibx); oi32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; int ox; ox = (int) (ibx == 0 ? 0 : iax / ibx); oi32data[it.oIndex] = ox; } } break; case Dataset.ARRAYINT8: final byte[] oai8data = ((CompoundByteDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; byte ox; ox = (byte) toLong(ibx == 0 ? 0 : iax / ibx); oai8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; byte ox; ox = (byte) (ibx == 0 ? 0 : iax / ibx); oai8data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; double ibx = it.bDouble; byte ox; ox = (byte) toLong(ibx == 0 ? 0 : iax / ibx); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (byte) toLong(ibx == 0 ? 0 : iax / ibx); oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; byte ox; ox = (byte) (ibx == 0 ? 0 : iax / ibx); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (byte) (ibx == 0 ? 0 : iax / ibx); oai8data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; final double ibx = it.bDouble; byte ox; ox = (byte) toLong(ibx == 0 ? 0 : iax / ibx); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ox = (byte) toLong(ibx == 0 ? 0 : iax / ibx); oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; byte ox; ox = (byte) (ibx == 0 ? 0 : iax / ibx); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (byte) (ibx == 0 ? 0 : iax / ibx); oai8data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; double ibx = it.bDouble; byte ox; ox = (byte) toLong(ibx == 0 ? 0 : iax / ibx); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (byte) toLong(ibx == 0 ? 0 : iax / ibx); oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; byte ox; ox = (byte) (ibx == 0 ? 0 : iax / ibx); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (byte) (ibx == 0 ? 0 : iax / ibx); oai8data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT16: final short[] oai16data = ((CompoundShortDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; short ox; ox = (short) toLong(ibx == 0 ? 0 : iax / ibx); oai16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; short ox; ox = (short) (ibx == 0 ? 0 : iax / ibx); oai16data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; double ibx = it.bDouble; short ox; ox = (short) toLong(ibx == 0 ? 0 : iax / ibx); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (short) toLong(ibx == 0 ? 0 : iax / ibx); oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; short ox; ox = (short) (ibx == 0 ? 0 : iax / ibx); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (short) (ibx == 0 ? 0 : iax / ibx); oai16data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; final double ibx = it.bDouble; short ox; ox = (short) toLong(ibx == 0 ? 0 : iax / ibx); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ox = (short) toLong(ibx == 0 ? 0 : iax / ibx); oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; short ox; ox = (short) (ibx == 0 ? 0 : iax / ibx); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (short) (ibx == 0 ? 0 : iax / ibx); oai16data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; double ibx = it.bDouble; short ox; ox = (short) toLong(ibx == 0 ? 0 : iax / ibx); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (short) toLong(ibx == 0 ? 0 : iax / ibx); oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; short ox; ox = (short) (ibx == 0 ? 0 : iax / ibx); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (short) (ibx == 0 ? 0 : iax / ibx); oai16data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT64: final long[] oai64data = ((CompoundLongDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; long ox; ox = toLong(ibx == 0 ? 0 : iax / ibx); oai64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; long ox; ox = (ibx == 0 ? 0 : iax / ibx); oai64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; double ibx = it.bDouble; long ox; ox = toLong(ibx == 0 ? 0 : iax / ibx); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementDoubleAbs(it.bIndex + j); ox = toLong(ibx == 0 ? 0 : iax / ibx); oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; long ox; ox = (ibx == 0 ? 0 : iax / ibx); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (ibx == 0 ? 0 : iax / ibx); oai64data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; final double ibx = it.bDouble; long ox; ox = toLong(ibx == 0 ? 0 : iax / ibx); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ox = toLong(ibx == 0 ? 0 : iax / ibx); oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; long ox; ox = (ibx == 0 ? 0 : iax / ibx); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (ibx == 0 ? 0 : iax / ibx); oai64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; double ibx = it.bDouble; long ox; ox = toLong(ibx == 0 ? 0 : iax / ibx); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ibx = db.getElementDoubleAbs(it.bIndex + j); ox = toLong(ibx == 0 ? 0 : iax / ibx); oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; long ox; ox = (ibx == 0 ? 0 : iax / ibx); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (ibx == 0 ? 0 : iax / ibx); oai64data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT32: final int[] oai32data = ((CompoundIntegerDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; int ox; ox = (int) toLong(ibx == 0 ? 0 : iax / ibx); oai32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; int ox; ox = (int) (ibx == 0 ? 0 : iax / ibx); oai32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; double ibx = it.bDouble; int ox; ox = (int) toLong(ibx == 0 ? 0 : iax / ibx); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (int) toLong(ibx == 0 ? 0 : iax / ibx); oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; int ox; ox = (int) (ibx == 0 ? 0 : iax / ibx); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (int) (ibx == 0 ? 0 : iax / ibx); oai32data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; final double ibx = it.bDouble; int ox; ox = (int) toLong(ibx == 0 ? 0 : iax / ibx); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ox = (int) toLong(ibx == 0 ? 0 : iax / ibx); oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; int ox; ox = (int) (ibx == 0 ? 0 : iax / ibx); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (int) (ibx == 0 ? 0 : iax / ibx); oai32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; double ibx = it.bDouble; int ox; ox = (int) toLong(ibx == 0 ? 0 : iax / ibx); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (int) toLong(ibx == 0 ? 0 : iax / ibx); oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; int ox; ox = (int) (ibx == 0 ? 0 : iax / ibx); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (int) (ibx == 0 ? 0 : iax / ibx); oai32data[it.oIndex + j] = ox; } } } } break; case Dataset.FLOAT32: final float[] of32data = ((FloatDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; float ox; ox = (float) (ibx == 0 ? 0 : iax / ibx); of32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; float ox; ox = (ibx == 0 ? 0 : iax / ibx); of32data[it.oIndex] = ox; } } break; case Dataset.FLOAT64: final double[] of64data = ((DoubleDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; double ox; ox = (ibx == 0 ? 0 : iax / ibx); of64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; double ox; ox = (ibx == 0 ? 0 : iax / ibx); of64data[it.oIndex] = ox; } } break; case Dataset.ARRAYFLOAT32: final float[] oaf32data = ((CompoundFloatDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; float ox; ox = (float) (ibx == 0 ? 0 : iax / ibx); oaf32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; float ox; ox = (ibx == 0 ? 0 : iax / ibx); oaf32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; double ibx = it.bDouble; float ox; ox = (float) (ibx == 0 ? 0 : iax / ibx); oaf32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (float) (ibx == 0 ? 0 : iax / ibx); oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; float ox; ox = (ibx == 0 ? 0 : iax / ibx); oaf32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (ibx == 0 ? 0 : iax / ibx); oaf32data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; final double ibx = it.bDouble; float ox; ox = (float) (ibx == 0 ? 0 : iax / ibx); oaf32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ox = (float) (ibx == 0 ? 0 : iax / ibx); oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; float ox; ox = (ibx == 0 ? 0 : iax / ibx); oaf32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (ibx == 0 ? 0 : iax / ibx); oaf32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; double ibx = it.bDouble; float ox; ox = (float) (ibx == 0 ? 0 : iax / ibx); oaf32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (float) (ibx == 0 ? 0 : iax / ibx); oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; float ox; ox = (ibx == 0 ? 0 : iax / ibx); oaf32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (ibx == 0 ? 0 : iax / ibx); oaf32data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYFLOAT64: final double[] oaf64data = ((CompoundDoubleDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; double ox; ox = (ibx == 0 ? 0 : iax / ibx); oaf64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; double ox; ox = (ibx == 0 ? 0 : iax / ibx); oaf64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; double ibx = it.bDouble; double ox; ox = (ibx == 0 ? 0 : iax / ibx); oaf64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (ibx == 0 ? 0 : iax / ibx); oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; double ox; ox = (ibx == 0 ? 0 : iax / ibx); oaf64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (ibx == 0 ? 0 : iax / ibx); oaf64data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; final double ibx = it.bDouble; double ox; ox = (ibx == 0 ? 0 : iax / ibx); oaf64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ox = (ibx == 0 ? 0 : iax / ibx); oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; double ox; ox = (ibx == 0 ? 0 : iax / ibx); oaf64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (ibx == 0 ? 0 : iax / ibx); oaf64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; double ibx = it.bDouble; double ox; ox = (ibx == 0 ? 0 : iax / ibx); oaf64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (ibx == 0 ? 0 : iax / ibx); oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; double ox; ox = (ibx == 0 ? 0 : iax / ibx); oaf64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (ibx == 0 ? 0 : iax / ibx); oaf64data[it.oIndex + j] = ox; } } } } break; case Dataset.COMPLEX64: final float[] oc64data = ((ComplexFloatDataset) result).data; if (da.getElementsPerItem() == 1) { final double iay = 0; while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; final double iby = db.getElementDoubleAbs(it.bIndex + 1); float ox; float oy; float q; float den; if (ibx == 0 && iby == 0) { ox = 0; oy = 0; } else if (Math.abs(ibx) < Math.abs(iby)) { q = (float) (ibx / iby); den = (float) (ibx * q + iby); ox = (float) ((iax * q + iay) / den); oy = (float) ((iay * q - ibx) / den); } else { q = (float) (iby / ibx); den = (float) (iby * q + ibx); ox = (float) ((iay * q + iax) / den); oy = (float) ((iay - iax * q) / den); } oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } else if (db.getElementsPerItem() == 1) { final double iby = 0; while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; final double iay = da.getElementDoubleAbs(it.aIndex + 1); float ox; float oy; float q; float den; if (ibx == 0) { ox = 0; oy = 0; } else { q = (float) (iby / ibx); den = (float) (iby * q + ibx); ox = (float) ((iay * q + iax) / den); oy = (float) ((iay - iax * q) / den); } oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; final double iay = da.getElementDoubleAbs(it.aIndex + 1); final double iby = db.getElementDoubleAbs(it.bIndex + 1); float ox; float oy; float q; float den; if (ibx == 0 && iby == 0) { ox = 0; oy = 0; } else if (Math.abs(ibx) < Math.abs(iby)) { q = (float) (ibx / iby); den = (float) (ibx * q + iby); ox = (float) ((iax * q + iay) / den); oy = (float) ((iay * q - ibx) / den); } else { q = (float) (iby / ibx); den = (float) (iby * q + ibx); ox = (float) ((iay * q + iax) / den); oy = (float) ((iay - iax * q) / den); } oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } break; case Dataset.COMPLEX128: final double[] oc128data = ((ComplexDoubleDataset) result).data; if (da.getElementsPerItem() == 1) { final double iay = 0; while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; final double iby = db.getElementDoubleAbs(it.bIndex + 1); double ox; double oy; double q; double den; if (ibx == 0 && iby == 0) { ox = 0; oy = 0; } else if (Math.abs(ibx) < Math.abs(iby)) { q = (ibx / iby); den = (ibx * q + iby); ox = ((iax * q + iay) / den); oy = ((iay * q - ibx) / den); } else { q = (iby / ibx); den = (iby * q + ibx); ox = ((iay * q + iax) / den); oy = ((iay - iax * q) / den); } oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } else if (db.getElementsPerItem() == 1) { final double iby = 0; while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; final double iay = da.getElementDoubleAbs(it.aIndex + 1); double ox; double oy; double q; double den; if (ibx == 0) { ox = 0; oy = 0; } else { q = (iby / ibx); den = (iby * q + ibx); ox = ((iay * q + iax) / den); oy = ((iay - iax * q) / den); } oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; final double iay = da.getElementDoubleAbs(it.aIndex + 1); final double iby = db.getElementDoubleAbs(it.bIndex + 1); double ox; double oy; double q; double den; if (ibx == 0 && iby == 0) { ox = 0; oy = 0; } else if (Math.abs(ibx) < Math.abs(iby)) { q = (ibx / iby); den = (ibx * q + iby); ox = ((iax * q + iay) / den); oy = ((iay * q - ibx) / den); } else { q = (iby / ibx); den = (iby * q + ibx); ox = ((iay * q + iax) / den); oy = ((iay - iax * q) / den); } oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } break; default: throw new IllegalArgumentException( "dividez supports integer, compound integer, real, compound real, complex datasets only"); } addBinaryOperatorName(da, db, result, "/"); return result; } /** * divideTowardsFloor operator * @param a * @param b * @return a / b, division of a by b but rounded towards negative infinity */ public static Dataset divideTowardsFloor(final Object a, final Object b) { return divideTowardsFloor(a, b, null); } /** * divideTowardsFloor operator * @param a * @param b * @param o output can be null - in which case, a new dataset is created * @return a / b, division of a by b but rounded towards negative infinity */ public static Dataset divideTowardsFloor(final Object a, final Object b, final Dataset o) { final Dataset da = a instanceof Dataset ? (Dataset) a : DatasetFactory.createFromObject(a); final Dataset db = b instanceof Dataset ? (Dataset) b : DatasetFactory.createFromObject(b); final BroadcastIterator it = BroadcastIterator.createIterator(da, db, o, true); final Dataset result = it.getOutput(); final int is = result.getElementsPerItem(); final int dt = result.getDType(); switch (dt) { case Dataset.INT8: final byte[] oi8data = ((ByteDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; byte ox; if (ibx == 0) { ox = 0; } else { ox = (byte) toLong(iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oi8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; byte ox; if (ibx == 0) { ox = 0; } else { ox = (byte) (iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oi8data[it.oIndex] = ox; } } break; case Dataset.INT16: final short[] oi16data = ((ShortDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; short ox; if (ibx == 0) { ox = 0; } else { ox = (short) toLong(iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oi16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; short ox; if (ibx == 0) { ox = 0; } else { ox = (short) (iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oi16data[it.oIndex] = ox; } } break; case Dataset.INT64: final long[] oi64data = ((LongDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; long ox; if (ibx == 0) { ox = 0; } else { ox = toLong(iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oi64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; long ox; if (ibx == 0) { ox = 0; } else { ox = (iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oi64data[it.oIndex] = ox; } } break; case Dataset.INT32: final int[] oi32data = ((IntegerDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; int ox; if (ibx == 0) { ox = 0; } else { ox = (int) toLong(iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oi32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; int ox; if (ibx == 0) { ox = 0; } else { ox = (int) (iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oi32data[it.oIndex] = ox; } } break; case Dataset.ARRAYINT8: final byte[] oai8data = ((CompoundByteDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; byte ox; if (ibx == 0) { ox = 0; } else { ox = (byte) toLong(iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oai8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; byte ox; if (ibx == 0) { ox = 0; } else { ox = (byte) (iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oai8data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; double ibx = it.bDouble; byte ox; if (ibx == 0) { ox = 0; } else { ox = (byte) toLong(iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementDoubleAbs(it.bIndex + j); if (ibx == 0) { ox = 0; } else { ox = (byte) toLong(iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; byte ox; if (ibx == 0) { ox = 0; } else { ox = (byte) (iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); if (ibx == 0) { ox = 0; } else { ox = (byte) (iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oai8data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; final double ibx = it.bDouble; byte ox; if (ibx == 0) { ox = 0; } else { ox = (byte) toLong(iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); if (ibx == 0) { ox = 0; } else { ox = (byte) toLong(iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; byte ox; if (ibx == 0) { ox = 0; } else { ox = (byte) (iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); if (ibx == 0) { ox = 0; } else { ox = (byte) (iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oai8data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; double ibx = it.bDouble; byte ox; if (ibx == 0) { ox = 0; } else { ox = (byte) toLong(iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ibx = db.getElementDoubleAbs(it.bIndex + j); if (ibx == 0) { ox = 0; } else { ox = (byte) toLong(iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; byte ox; if (ibx == 0) { ox = 0; } else { ox = (byte) (iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); if (ibx == 0) { ox = 0; } else { ox = (byte) (iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oai8data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT16: final short[] oai16data = ((CompoundShortDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; short ox; if (ibx == 0) { ox = 0; } else { ox = (short) toLong(iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oai16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; short ox; if (ibx == 0) { ox = 0; } else { ox = (short) (iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oai16data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; double ibx = it.bDouble; short ox; if (ibx == 0) { ox = 0; } else { ox = (short) toLong(iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementDoubleAbs(it.bIndex + j); if (ibx == 0) { ox = 0; } else { ox = (short) toLong(iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; short ox; if (ibx == 0) { ox = 0; } else { ox = (short) (iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); if (ibx == 0) { ox = 0; } else { ox = (short) (iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oai16data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; final double ibx = it.bDouble; short ox; if (ibx == 0) { ox = 0; } else { ox = (short) toLong(iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); if (ibx == 0) { ox = 0; } else { ox = (short) toLong(iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; short ox; if (ibx == 0) { ox = 0; } else { ox = (short) (iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); if (ibx == 0) { ox = 0; } else { ox = (short) (iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oai16data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; double ibx = it.bDouble; short ox; if (ibx == 0) { ox = 0; } else { ox = (short) toLong(iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ibx = db.getElementDoubleAbs(it.bIndex + j); if (ibx == 0) { ox = 0; } else { ox = (short) toLong(iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; short ox; if (ibx == 0) { ox = 0; } else { ox = (short) (iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); if (ibx == 0) { ox = 0; } else { ox = (short) (iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oai16data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT64: final long[] oai64data = ((CompoundLongDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; long ox; if (ibx == 0) { ox = 0; } else { ox = toLong(iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oai64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; long ox; if (ibx == 0) { ox = 0; } else { ox = (iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oai64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; double ibx = it.bDouble; long ox; if (ibx == 0) { ox = 0; } else { ox = toLong(iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementDoubleAbs(it.bIndex + j); if (ibx == 0) { ox = 0; } else { ox = toLong(iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; long ox; if (ibx == 0) { ox = 0; } else { ox = (iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); if (ibx == 0) { ox = 0; } else { ox = (iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oai64data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; final double ibx = it.bDouble; long ox; if (ibx == 0) { ox = 0; } else { ox = toLong(iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); if (ibx == 0) { ox = 0; } else { ox = toLong(iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; long ox; if (ibx == 0) { ox = 0; } else { ox = (iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); if (ibx == 0) { ox = 0; } else { ox = (iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oai64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; double ibx = it.bDouble; long ox; if (ibx == 0) { ox = 0; } else { ox = toLong(iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ibx = db.getElementDoubleAbs(it.bIndex + j); if (ibx == 0) { ox = 0; } else { ox = toLong(iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; long ox; if (ibx == 0) { ox = 0; } else { ox = (iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); if (ibx == 0) { ox = 0; } else { ox = (iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oai64data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT32: final int[] oai32data = ((CompoundIntegerDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; int ox; if (ibx == 0) { ox = 0; } else { ox = (int) toLong(iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oai32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; int ox; if (ibx == 0) { ox = 0; } else { ox = (int) (iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oai32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; double ibx = it.bDouble; int ox; if (ibx == 0) { ox = 0; } else { ox = (int) toLong(iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementDoubleAbs(it.bIndex + j); if (ibx == 0) { ox = 0; } else { ox = (int) toLong(iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; int ox; if (ibx == 0) { ox = 0; } else { ox = (int) (iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); if (ibx == 0) { ox = 0; } else { ox = (int) (iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oai32data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; final double ibx = it.bDouble; int ox; if (ibx == 0) { ox = 0; } else { ox = (int) toLong(iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); if (ibx == 0) { ox = 0; } else { ox = (int) toLong(iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; int ox; if (ibx == 0) { ox = 0; } else { ox = (int) (iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); if (ibx == 0) { ox = 0; } else { ox = (int) (iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oai32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; double ibx = it.bDouble; int ox; if (ibx == 0) { ox = 0; } else { ox = (int) toLong(iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ibx = db.getElementDoubleAbs(it.bIndex + j); if (ibx == 0) { ox = 0; } else { ox = (int) toLong(iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; int ox; if (ibx == 0) { ox = 0; } else { ox = (int) (iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); if (ibx == 0) { ox = 0; } else { ox = (int) (iax / ibx); if (iax != ox * ibx && ((iax < 0) ^ (ibx < 0))) { ox--; } } oai32data[it.oIndex + j] = ox; } } } } break; case Dataset.FLOAT32: final float[] of32data = ((FloatDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; float ox; ox = (float) (iax / ibx); of32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; float ox; ox = (iax / ibx); of32data[it.oIndex] = ox; } } break; case Dataset.FLOAT64: final double[] of64data = ((DoubleDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; double ox; ox = (iax / ibx); of64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; double ox; ox = (iax / ibx); of64data[it.oIndex] = ox; } } break; case Dataset.ARRAYFLOAT32: final float[] oaf32data = ((CompoundFloatDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; float ox; ox = (float) (iax / ibx); oaf32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; float ox; ox = (iax / ibx); oaf32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; double ibx = it.bDouble; float ox; ox = (float) (iax / ibx); oaf32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (float) (iax / ibx); oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; float ox; ox = (iax / ibx); oaf32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (iax / ibx); oaf32data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; final double ibx = it.bDouble; float ox; ox = (float) (iax / ibx); oaf32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ox = (float) (iax / ibx); oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; float ox; ox = (iax / ibx); oaf32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (iax / ibx); oaf32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; double ibx = it.bDouble; float ox; ox = (float) (iax / ibx); oaf32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (float) (iax / ibx); oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; float ox; ox = (iax / ibx); oaf32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (iax / ibx); oaf32data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYFLOAT64: final double[] oaf64data = ((CompoundDoubleDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; double ox; ox = (iax / ibx); oaf64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; double ox; ox = (iax / ibx); oaf64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; double ibx = it.bDouble; double ox; ox = (iax / ibx); oaf64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (iax / ibx); oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; double ox; ox = (iax / ibx); oaf64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (iax / ibx); oaf64data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; final double ibx = it.bDouble; double ox; ox = (iax / ibx); oaf64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ox = (iax / ibx); oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; double ox; ox = (iax / ibx); oaf64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (iax / ibx); oaf64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; double ibx = it.bDouble; double ox; ox = (iax / ibx); oaf64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (iax / ibx); oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; double ox; ox = (iax / ibx); oaf64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (iax / ibx); oaf64data[it.oIndex + j] = ox; } } } } break; case Dataset.COMPLEX64: final float[] oc64data = ((ComplexFloatDataset) result).data; if (da.getElementsPerItem() == 1) { final double iay = 0; while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; final double iby = db.getElementDoubleAbs(it.bIndex + 1); float ox; float oy; float q; float den; if (iby == 0) { ox = (float) (iax / ibx); oy = (float) (iay / ibx); } else if (ibx == 0) { ox = (float) (iay / iby); oy = (float) (-iax / iby); } else if (Math.abs(ibx) < Math.abs(iby)) { q = (float) (ibx / iby); den = (float) (ibx * q + iby); ox = (float) ((iax * q + iay) / den); oy = (float) ((iay * q - ibx) / den); } else { q = (float) (iby / ibx); den = (float) (iby * q + ibx); ox = (float) ((iay * q + iax) / den); oy = (float) ((iay - iax * q) / den); } oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } else if (db.getElementsPerItem() == 1) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; final double iay = da.getElementDoubleAbs(it.aIndex + 1); float ox; float oy; ox = (float) (iax / ibx); oy = (float) (iay / ibx); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; final double iay = da.getElementDoubleAbs(it.aIndex + 1); final double iby = db.getElementDoubleAbs(it.bIndex + 1); float ox; float oy; float q; float den; if (iby == 0) { ox = (float) (iax / ibx); oy = (float) (iay / ibx); } else if (ibx == 0) { ox = (float) (iay / iby); oy = (float) (-iax / iby); } else if (Math.abs(ibx) < Math.abs(iby)) { q = (float) (ibx / iby); den = (float) (ibx * q + iby); ox = (float) ((iax * q + iay) / den); oy = (float) ((iay * q - ibx) / den); } else { q = (float) (iby / ibx); den = (float) (iby * q + ibx); ox = (float) ((iay * q + iax) / den); oy = (float) ((iay - iax * q) / den); } oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } break; case Dataset.COMPLEX128: final double[] oc128data = ((ComplexDoubleDataset) result).data; if (da.getElementsPerItem() == 1) { final double iay = 0; while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; final double iby = db.getElementDoubleAbs(it.bIndex + 1); double ox; double oy; double q; double den; if (iby == 0) { ox = (iax / ibx); oy = (iay / ibx); } else if (ibx == 0) { ox = (iay / iby); oy = (-iax / iby); } else if (Math.abs(ibx) < Math.abs(iby)) { q = (ibx / iby); den = (ibx * q + iby); ox = ((iax * q + iay) / den); oy = ((iay * q - ibx) / den); } else { q = (iby / ibx); den = (iby * q + ibx); ox = ((iay * q + iax) / den); oy = ((iay - iax * q) / den); } oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } else if (db.getElementsPerItem() == 1) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; final double iay = da.getElementDoubleAbs(it.aIndex + 1); double ox; double oy; ox = (iax / ibx); oy = (iay / ibx); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; final double iay = da.getElementDoubleAbs(it.aIndex + 1); final double iby = db.getElementDoubleAbs(it.bIndex + 1); double ox; double oy; double q; double den; if (iby == 0) { ox = (iax / ibx); oy = (iay / ibx); } else if (ibx == 0) { ox = (iay / iby); oy = (-iax / iby); } else if (Math.abs(ibx) < Math.abs(iby)) { q = (ibx / iby); den = (ibx * q + iby); ox = ((iax * q + iay) / den); oy = ((iay * q - ibx) / den); } else { q = (iby / ibx); den = (iby * q + ibx); ox = ((iay * q + iax) / den); oy = ((iay - iax * q) / den); } oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } break; default: throw new IllegalArgumentException( "divideTowardsFloor supports integer, compound integer, real, compound real, complex datasets only"); } addBinaryOperatorName(da, db, result, "/"); return result; } /** * power operator * @param a * @param b * @return a ** b, raise a to power of b */ public static Dataset power(final Object a, final Object b) { return power(a, b, null); } /** * power operator * @param a * @param b * @param o output can be null - in which case, a new dataset is created * @return a ** b, raise a to power of b */ public static Dataset power(final Object a, final Object b, final Dataset o) { final Dataset da = a instanceof Dataset ? (Dataset) a : DatasetFactory.createFromObject(a); final Dataset db = b instanceof Dataset ? (Dataset) b : DatasetFactory.createFromObject(b); final BroadcastIterator it = BroadcastIterator.createIterator(da, db, o, true); final Dataset result = it.getOutput(); final int is = result.getElementsPerItem(); final int dt = result.getDType(); switch (dt) { case Dataset.INT8: final byte[] oi8data = ((ByteDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; byte ox; ox = (byte) toLong(Math.pow(iax, ibx)); oi8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; byte ox; ox = (byte) toLong(Math.pow(iax, ibx)); oi8data[it.oIndex] = ox; } } break; case Dataset.INT16: final short[] oi16data = ((ShortDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; short ox; ox = (short) toLong(Math.pow(iax, ibx)); oi16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; short ox; ox = (short) toLong(Math.pow(iax, ibx)); oi16data[it.oIndex] = ox; } } break; case Dataset.INT64: final long[] oi64data = ((LongDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; long ox; ox = toLong(Math.pow(iax, ibx)); oi64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; long ox; ox = toLong(Math.pow(iax, ibx)); oi64data[it.oIndex] = ox; } } break; case Dataset.INT32: final int[] oi32data = ((IntegerDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; int ox; ox = (int) toLong(Math.pow(iax, ibx)); oi32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; int ox; ox = (int) toLong(Math.pow(iax, ibx)); oi32data[it.oIndex] = ox; } } break; case Dataset.ARRAYINT8: final byte[] oai8data = ((CompoundByteDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; byte ox; ox = (byte) toLong(Math.pow(iax, ibx)); oai8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; byte ox; ox = (byte) toLong(Math.pow(iax, ibx)); oai8data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; double ibx = it.bDouble; byte ox; ox = (byte) toLong(Math.pow(iax, ibx)); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (byte) toLong(Math.pow(iax, ibx)); oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; byte ox; ox = (byte) toLong(Math.pow(iax, ibx)); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (byte) toLong(Math.pow(iax, ibx)); oai8data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; final double ibx = it.bDouble; byte ox; ox = (byte) toLong(Math.pow(iax, ibx)); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ox = (byte) toLong(Math.pow(iax, ibx)); oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; byte ox; ox = (byte) toLong(Math.pow(iax, ibx)); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (byte) toLong(Math.pow(iax, ibx)); oai8data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; double ibx = it.bDouble; byte ox; ox = (byte) toLong(Math.pow(iax, ibx)); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (byte) toLong(Math.pow(iax, ibx)); oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; byte ox; ox = (byte) toLong(Math.pow(iax, ibx)); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (byte) toLong(Math.pow(iax, ibx)); oai8data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT16: final short[] oai16data = ((CompoundShortDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; short ox; ox = (short) toLong(Math.pow(iax, ibx)); oai16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; short ox; ox = (short) toLong(Math.pow(iax, ibx)); oai16data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; double ibx = it.bDouble; short ox; ox = (short) toLong(Math.pow(iax, ibx)); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (short) toLong(Math.pow(iax, ibx)); oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; short ox; ox = (short) toLong(Math.pow(iax, ibx)); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (short) toLong(Math.pow(iax, ibx)); oai16data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; final double ibx = it.bDouble; short ox; ox = (short) toLong(Math.pow(iax, ibx)); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ox = (short) toLong(Math.pow(iax, ibx)); oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; short ox; ox = (short) toLong(Math.pow(iax, ibx)); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (short) toLong(Math.pow(iax, ibx)); oai16data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; double ibx = it.bDouble; short ox; ox = (short) toLong(Math.pow(iax, ibx)); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (short) toLong(Math.pow(iax, ibx)); oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; short ox; ox = (short) toLong(Math.pow(iax, ibx)); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (short) toLong(Math.pow(iax, ibx)); oai16data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT64: final long[] oai64data = ((CompoundLongDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; long ox; ox = toLong(Math.pow(iax, ibx)); oai64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; long ox; ox = toLong(Math.pow(iax, ibx)); oai64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; double ibx = it.bDouble; long ox; ox = toLong(Math.pow(iax, ibx)); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementDoubleAbs(it.bIndex + j); ox = toLong(Math.pow(iax, ibx)); oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; long ox; ox = toLong(Math.pow(iax, ibx)); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = toLong(Math.pow(iax, ibx)); oai64data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; final double ibx = it.bDouble; long ox; ox = toLong(Math.pow(iax, ibx)); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ox = toLong(Math.pow(iax, ibx)); oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; long ox; ox = toLong(Math.pow(iax, ibx)); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = toLong(Math.pow(iax, ibx)); oai64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; double ibx = it.bDouble; long ox; ox = toLong(Math.pow(iax, ibx)); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ibx = db.getElementDoubleAbs(it.bIndex + j); ox = toLong(Math.pow(iax, ibx)); oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; long ox; ox = toLong(Math.pow(iax, ibx)); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = toLong(Math.pow(iax, ibx)); oai64data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT32: final int[] oai32data = ((CompoundIntegerDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; int ox; ox = (int) toLong(Math.pow(iax, ibx)); oai32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; int ox; ox = (int) toLong(Math.pow(iax, ibx)); oai32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; double ibx = it.bDouble; int ox; ox = (int) toLong(Math.pow(iax, ibx)); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (int) toLong(Math.pow(iax, ibx)); oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; int ox; ox = (int) toLong(Math.pow(iax, ibx)); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (int) toLong(Math.pow(iax, ibx)); oai32data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; final double ibx = it.bDouble; int ox; ox = (int) toLong(Math.pow(iax, ibx)); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ox = (int) toLong(Math.pow(iax, ibx)); oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; int ox; ox = (int) toLong(Math.pow(iax, ibx)); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (int) toLong(Math.pow(iax, ibx)); oai32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; double ibx = it.bDouble; int ox; ox = (int) toLong(Math.pow(iax, ibx)); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (int) toLong(Math.pow(iax, ibx)); oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; int ox; ox = (int) toLong(Math.pow(iax, ibx)); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (int) toLong(Math.pow(iax, ibx)); oai32data[it.oIndex + j] = ox; } } } } break; case Dataset.FLOAT32: final float[] of32data = ((FloatDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; float ox; ox = (float) (Math.pow(iax, ibx)); of32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; float ox; ox = (float) (Math.pow(iax, ibx)); of32data[it.oIndex] = ox; } } break; case Dataset.FLOAT64: final double[] of64data = ((DoubleDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; double ox; ox = (Math.pow(iax, ibx)); of64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; double ox; ox = (Math.pow(iax, ibx)); of64data[it.oIndex] = ox; } } break; case Dataset.ARRAYFLOAT32: final float[] oaf32data = ((CompoundFloatDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; float ox; ox = (float) (Math.pow(iax, ibx)); oaf32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; float ox; ox = (float) (Math.pow(iax, ibx)); oaf32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; double ibx = it.bDouble; float ox; ox = (float) (Math.pow(iax, ibx)); oaf32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (float) (Math.pow(iax, ibx)); oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; float ox; ox = (float) (Math.pow(iax, ibx)); oaf32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (float) (Math.pow(iax, ibx)); oaf32data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; final double ibx = it.bDouble; float ox; ox = (float) (Math.pow(iax, ibx)); oaf32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ox = (float) (Math.pow(iax, ibx)); oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; float ox; ox = (float) (Math.pow(iax, ibx)); oaf32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (float) (Math.pow(iax, ibx)); oaf32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; double ibx = it.bDouble; float ox; ox = (float) (Math.pow(iax, ibx)); oaf32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (float) (Math.pow(iax, ibx)); oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; float ox; ox = (float) (Math.pow(iax, ibx)); oaf32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (float) (Math.pow(iax, ibx)); oaf32data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYFLOAT64: final double[] oaf64data = ((CompoundDoubleDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; double ox; ox = (Math.pow(iax, ibx)); oaf64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; double ox; ox = (Math.pow(iax, ibx)); oaf64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; double ibx = it.bDouble; double ox; ox = (Math.pow(iax, ibx)); oaf64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (Math.pow(iax, ibx)); oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; double ox; ox = (Math.pow(iax, ibx)); oaf64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (Math.pow(iax, ibx)); oaf64data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; final double ibx = it.bDouble; double ox; ox = (Math.pow(iax, ibx)); oaf64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ox = (Math.pow(iax, ibx)); oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; double ox; ox = (Math.pow(iax, ibx)); oaf64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (Math.pow(iax, ibx)); oaf64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; double ibx = it.bDouble; double ox; ox = (Math.pow(iax, ibx)); oaf64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (Math.pow(iax, ibx)); oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; double ox; ox = (Math.pow(iax, ibx)); oaf64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (Math.pow(iax, ibx)); oaf64data[it.oIndex + j] = ox; } } } } break; case Dataset.COMPLEX64: final float[] oc64data = ((ComplexFloatDataset) result).data; if (da.getElementsPerItem() == 1) { final double iay = 0; while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; final double iby = db.getElementDoubleAbs(it.bIndex + 1); Complex tz; float ox; float oy; tz = new Complex(iax, iay).pow(new Complex(ibx, iby)); ox = (float) (tz.getReal()); oy = (float) (tz.getImaginary()); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } else if (db.getElementsPerItem() == 1) { final double iby = 0; while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; final double iay = da.getElementDoubleAbs(it.aIndex + 1); Complex tz; float ox; float oy; tz = new Complex(iax, iay).pow(new Complex(ibx, iby)); ox = (float) (tz.getReal()); oy = (float) (tz.getImaginary()); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; final double iay = da.getElementDoubleAbs(it.aIndex + 1); final double iby = db.getElementDoubleAbs(it.bIndex + 1); Complex tz; float ox; float oy; tz = new Complex(iax, iay).pow(new Complex(ibx, iby)); ox = (float) (tz.getReal()); oy = (float) (tz.getImaginary()); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } break; case Dataset.COMPLEX128: final double[] oc128data = ((ComplexDoubleDataset) result).data; if (da.getElementsPerItem() == 1) { final double iay = 0; while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; final double iby = db.getElementDoubleAbs(it.bIndex + 1); Complex tz; double ox; double oy; tz = new Complex(iax, iay).pow(new Complex(ibx, iby)); ox = (tz.getReal()); oy = (tz.getImaginary()); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } else if (db.getElementsPerItem() == 1) { final double iby = 0; while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; final double iay = da.getElementDoubleAbs(it.aIndex + 1); Complex tz; double ox; double oy; tz = new Complex(iax, iay).pow(new Complex(ibx, iby)); ox = (tz.getReal()); oy = (tz.getImaginary()); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; final double iay = da.getElementDoubleAbs(it.aIndex + 1); final double iby = db.getElementDoubleAbs(it.bIndex + 1); Complex tz; double ox; double oy; tz = new Complex(iax, iay).pow(new Complex(ibx, iby)); ox = (tz.getReal()); oy = (tz.getImaginary()); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } break; default: throw new IllegalArgumentException( "power supports integer, compound integer, real, compound real, complex datasets only"); } addBinaryOperatorName(da, db, result, "**"); return result; } /** * remainder operator * @param a * @param b * @return a % b, remainder of division of a by b */ public static Dataset remainder(final Object a, final Object b) { return remainder(a, b, null); } /** * remainder operator * @param a * @param b * @param o output can be null - in which case, a new dataset is created * @return a % b, remainder of division of a by b */ public static Dataset remainder(final Object a, final Object b, final Dataset o) { final Dataset da = a instanceof Dataset ? (Dataset) a : DatasetFactory.createFromObject(a); final Dataset db = b instanceof Dataset ? (Dataset) b : DatasetFactory.createFromObject(b); final BroadcastIterator it = BroadcastIterator.createIterator(da, db, o, true); final Dataset result = it.getOutput(); final int is = result.getElementsPerItem(); final int dt = result.getDType(); switch (dt) { case Dataset.INT8: final byte[] oi8data = ((ByteDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; byte ox; ox = (byte) toLong(ibx == 0 ? 0 : iax % ibx); oi8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; byte ox; ox = (byte) (ibx == 0 ? 0 : iax % ibx); oi8data[it.oIndex] = ox; } } break; case Dataset.INT16: final short[] oi16data = ((ShortDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; short ox; ox = (short) toLong(ibx == 0 ? 0 : iax % ibx); oi16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; short ox; ox = (short) (ibx == 0 ? 0 : iax % ibx); oi16data[it.oIndex] = ox; } } break; case Dataset.INT64: final long[] oi64data = ((LongDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; long ox; ox = toLong(ibx == 0 ? 0 : iax % ibx); oi64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; long ox; ox = (ibx == 0 ? 0 : iax % ibx); oi64data[it.oIndex] = ox; } } break; case Dataset.INT32: final int[] oi32data = ((IntegerDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; int ox; ox = (int) toLong(ibx == 0 ? 0 : iax % ibx); oi32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; int ox; ox = (int) (ibx == 0 ? 0 : iax % ibx); oi32data[it.oIndex] = ox; } } break; case Dataset.ARRAYINT8: final byte[] oai8data = ((CompoundByteDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; byte ox; ox = (byte) toLong(ibx == 0 ? 0 : iax % ibx); oai8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; byte ox; ox = (byte) (ibx == 0 ? 0 : iax % ibx); oai8data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; double ibx = it.bDouble; byte ox; ox = (byte) toLong(ibx == 0 ? 0 : iax % ibx); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (byte) toLong(ibx == 0 ? 0 : iax % ibx); oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; byte ox; ox = (byte) (ibx == 0 ? 0 : iax % ibx); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (byte) (ibx == 0 ? 0 : iax % ibx); oai8data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; final double ibx = it.bDouble; byte ox; ox = (byte) toLong(ibx == 0 ? 0 : iax % ibx); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ox = (byte) toLong(ibx == 0 ? 0 : iax % ibx); oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; byte ox; ox = (byte) (ibx == 0 ? 0 : iax % ibx); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (byte) (ibx == 0 ? 0 : iax % ibx); oai8data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; double ibx = it.bDouble; byte ox; ox = (byte) toLong(ibx == 0 ? 0 : iax % ibx); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (byte) toLong(ibx == 0 ? 0 : iax % ibx); oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; byte ox; ox = (byte) (ibx == 0 ? 0 : iax % ibx); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (byte) (ibx == 0 ? 0 : iax % ibx); oai8data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT16: final short[] oai16data = ((CompoundShortDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; short ox; ox = (short) toLong(ibx == 0 ? 0 : iax % ibx); oai16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; short ox; ox = (short) (ibx == 0 ? 0 : iax % ibx); oai16data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; double ibx = it.bDouble; short ox; ox = (short) toLong(ibx == 0 ? 0 : iax % ibx); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (short) toLong(ibx == 0 ? 0 : iax % ibx); oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; short ox; ox = (short) (ibx == 0 ? 0 : iax % ibx); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (short) (ibx == 0 ? 0 : iax % ibx); oai16data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; final double ibx = it.bDouble; short ox; ox = (short) toLong(ibx == 0 ? 0 : iax % ibx); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ox = (short) toLong(ibx == 0 ? 0 : iax % ibx); oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; short ox; ox = (short) (ibx == 0 ? 0 : iax % ibx); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (short) (ibx == 0 ? 0 : iax % ibx); oai16data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; double ibx = it.bDouble; short ox; ox = (short) toLong(ibx == 0 ? 0 : iax % ibx); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (short) toLong(ibx == 0 ? 0 : iax % ibx); oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; short ox; ox = (short) (ibx == 0 ? 0 : iax % ibx); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (short) (ibx == 0 ? 0 : iax % ibx); oai16data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT64: final long[] oai64data = ((CompoundLongDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; long ox; ox = toLong(ibx == 0 ? 0 : iax % ibx); oai64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; long ox; ox = (ibx == 0 ? 0 : iax % ibx); oai64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; double ibx = it.bDouble; long ox; ox = toLong(ibx == 0 ? 0 : iax % ibx); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementDoubleAbs(it.bIndex + j); ox = toLong(ibx == 0 ? 0 : iax % ibx); oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; long ox; ox = (ibx == 0 ? 0 : iax % ibx); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (ibx == 0 ? 0 : iax % ibx); oai64data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; final double ibx = it.bDouble; long ox; ox = toLong(ibx == 0 ? 0 : iax % ibx); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ox = toLong(ibx == 0 ? 0 : iax % ibx); oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; long ox; ox = (ibx == 0 ? 0 : iax % ibx); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (ibx == 0 ? 0 : iax % ibx); oai64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; double ibx = it.bDouble; long ox; ox = toLong(ibx == 0 ? 0 : iax % ibx); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ibx = db.getElementDoubleAbs(it.bIndex + j); ox = toLong(ibx == 0 ? 0 : iax % ibx); oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; long ox; ox = (ibx == 0 ? 0 : iax % ibx); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (ibx == 0 ? 0 : iax % ibx); oai64data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT32: final int[] oai32data = ((CompoundIntegerDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; int ox; ox = (int) toLong(ibx == 0 ? 0 : iax % ibx); oai32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; int ox; ox = (int) (ibx == 0 ? 0 : iax % ibx); oai32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; double ibx = it.bDouble; int ox; ox = (int) toLong(ibx == 0 ? 0 : iax % ibx); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (int) toLong(ibx == 0 ? 0 : iax % ibx); oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; int ox; ox = (int) (ibx == 0 ? 0 : iax % ibx); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (int) (ibx == 0 ? 0 : iax % ibx); oai32data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; final double ibx = it.bDouble; int ox; ox = (int) toLong(ibx == 0 ? 0 : iax % ibx); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ox = (int) toLong(ibx == 0 ? 0 : iax % ibx); oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; int ox; ox = (int) (ibx == 0 ? 0 : iax % ibx); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (int) (ibx == 0 ? 0 : iax % ibx); oai32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; double ibx = it.bDouble; int ox; ox = (int) toLong(ibx == 0 ? 0 : iax % ibx); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (int) toLong(ibx == 0 ? 0 : iax % ibx); oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; int ox; ox = (int) (ibx == 0 ? 0 : iax % ibx); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (int) (ibx == 0 ? 0 : iax % ibx); oai32data[it.oIndex + j] = ox; } } } } break; case Dataset.FLOAT32: final float[] of32data = ((FloatDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; float ox; ox = (float) (iax % ibx); of32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; float ox; ox = (iax % ibx); of32data[it.oIndex] = ox; } } break; case Dataset.FLOAT64: final double[] of64data = ((DoubleDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; double ox; ox = (iax % ibx); of64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; double ox; ox = (iax % ibx); of64data[it.oIndex] = ox; } } break; case Dataset.ARRAYFLOAT32: final float[] oaf32data = ((CompoundFloatDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; float ox; ox = (float) (iax % ibx); oaf32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; float ox; ox = (iax % ibx); oaf32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; double ibx = it.bDouble; float ox; ox = (float) (iax % ibx); oaf32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (float) (iax % ibx); oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; float ox; ox = (iax % ibx); oaf32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (iax % ibx); oaf32data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; final double ibx = it.bDouble; float ox; ox = (float) (iax % ibx); oaf32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ox = (float) (iax % ibx); oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; float ox; ox = (iax % ibx); oaf32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (iax % ibx); oaf32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; double ibx = it.bDouble; float ox; ox = (float) (iax % ibx); oaf32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (float) (iax % ibx); oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; float ox; ox = (iax % ibx); oaf32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (iax % ibx); oaf32data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYFLOAT64: final double[] oaf64data = ((CompoundDoubleDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; double ox; ox = (iax % ibx); oaf64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; double ox; ox = (iax % ibx); oaf64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; double ibx = it.bDouble; double ox; ox = (iax % ibx); oaf64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (iax % ibx); oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; double ox; ox = (iax % ibx); oaf64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (iax % ibx); oaf64data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; final double ibx = it.bDouble; double ox; ox = (iax % ibx); oaf64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ox = (iax % ibx); oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; double ox; ox = (iax % ibx); oaf64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (iax % ibx); oaf64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; double ibx = it.bDouble; double ox; ox = (iax % ibx); oaf64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (iax % ibx); oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; double ox; ox = (iax % ibx); oaf64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (iax % ibx); oaf64data[it.oIndex + j] = ox; } } } } break; default: throw new IllegalArgumentException( "remainder supports integer, compound integer, real, compound real datasets only"); } addBinaryOperatorName(da, db, result, "%"); return result; } /** * maximum operator * @param a * @param b * @return return maximum of a and b */ public static Dataset maximum(final Object a, final Object b) { return maximum(a, b, null); } /** * maximum operator * @param a * @param b * @param o output can be null - in which case, a new dataset is created * @return return maximum of a and b */ public static Dataset maximum(final Object a, final Object b, final Dataset o) { final Dataset da = a instanceof Dataset ? (Dataset) a : DatasetFactory.createFromObject(a); final Dataset db = b instanceof Dataset ? (Dataset) b : DatasetFactory.createFromObject(b); final BroadcastIterator it = BroadcastIterator.createIterator(da, db, o, true); final Dataset result = it.getOutput(); final int is = result.getElementsPerItem(); final int dt = result.getDType(); switch (dt) { case Dataset.INT8: final byte[] oi8data = ((ByteDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; byte ox; ox = (byte) toLong(Math.max(iax, ibx)); oi8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; byte ox; ox = (byte) toLong(Math.max(iax, ibx)); oi8data[it.oIndex] = ox; } } break; case Dataset.INT16: final short[] oi16data = ((ShortDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; short ox; ox = (short) toLong(Math.max(iax, ibx)); oi16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; short ox; ox = (short) toLong(Math.max(iax, ibx)); oi16data[it.oIndex] = ox; } } break; case Dataset.INT64: final long[] oi64data = ((LongDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; long ox; ox = toLong(Math.max(iax, ibx)); oi64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; long ox; ox = toLong(Math.max(iax, ibx)); oi64data[it.oIndex] = ox; } } break; case Dataset.INT32: final int[] oi32data = ((IntegerDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; int ox; ox = (int) toLong(Math.max(iax, ibx)); oi32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; int ox; ox = (int) toLong(Math.max(iax, ibx)); oi32data[it.oIndex] = ox; } } break; case Dataset.ARRAYINT8: final byte[] oai8data = ((CompoundByteDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; byte ox; ox = (byte) toLong(Math.max(iax, ibx)); oai8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; byte ox; ox = (byte) toLong(Math.max(iax, ibx)); oai8data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; double ibx = it.bDouble; byte ox; ox = (byte) toLong(Math.max(iax, ibx)); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (byte) toLong(Math.max(iax, ibx)); oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; byte ox; ox = (byte) toLong(Math.max(iax, ibx)); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (byte) toLong(Math.max(iax, ibx)); oai8data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; final double ibx = it.bDouble; byte ox; ox = (byte) toLong(Math.max(iax, ibx)); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ox = (byte) toLong(Math.max(iax, ibx)); oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; byte ox; ox = (byte) toLong(Math.max(iax, ibx)); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (byte) toLong(Math.max(iax, ibx)); oai8data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; double ibx = it.bDouble; byte ox; ox = (byte) toLong(Math.max(iax, ibx)); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (byte) toLong(Math.max(iax, ibx)); oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; byte ox; ox = (byte) toLong(Math.max(iax, ibx)); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (byte) toLong(Math.max(iax, ibx)); oai8data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT16: final short[] oai16data = ((CompoundShortDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; short ox; ox = (short) toLong(Math.max(iax, ibx)); oai16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; short ox; ox = (short) toLong(Math.max(iax, ibx)); oai16data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; double ibx = it.bDouble; short ox; ox = (short) toLong(Math.max(iax, ibx)); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (short) toLong(Math.max(iax, ibx)); oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; short ox; ox = (short) toLong(Math.max(iax, ibx)); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (short) toLong(Math.max(iax, ibx)); oai16data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; final double ibx = it.bDouble; short ox; ox = (short) toLong(Math.max(iax, ibx)); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ox = (short) toLong(Math.max(iax, ibx)); oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; short ox; ox = (short) toLong(Math.max(iax, ibx)); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (short) toLong(Math.max(iax, ibx)); oai16data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; double ibx = it.bDouble; short ox; ox = (short) toLong(Math.max(iax, ibx)); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (short) toLong(Math.max(iax, ibx)); oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; short ox; ox = (short) toLong(Math.max(iax, ibx)); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (short) toLong(Math.max(iax, ibx)); oai16data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT64: final long[] oai64data = ((CompoundLongDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; long ox; ox = toLong(Math.max(iax, ibx)); oai64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; long ox; ox = toLong(Math.max(iax, ibx)); oai64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; double ibx = it.bDouble; long ox; ox = toLong(Math.max(iax, ibx)); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementDoubleAbs(it.bIndex + j); ox = toLong(Math.max(iax, ibx)); oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; long ox; ox = toLong(Math.max(iax, ibx)); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = toLong(Math.max(iax, ibx)); oai64data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; final double ibx = it.bDouble; long ox; ox = toLong(Math.max(iax, ibx)); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ox = toLong(Math.max(iax, ibx)); oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; long ox; ox = toLong(Math.max(iax, ibx)); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = toLong(Math.max(iax, ibx)); oai64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; double ibx = it.bDouble; long ox; ox = toLong(Math.max(iax, ibx)); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ibx = db.getElementDoubleAbs(it.bIndex + j); ox = toLong(Math.max(iax, ibx)); oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; long ox; ox = toLong(Math.max(iax, ibx)); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = toLong(Math.max(iax, ibx)); oai64data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT32: final int[] oai32data = ((CompoundIntegerDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; int ox; ox = (int) toLong(Math.max(iax, ibx)); oai32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; int ox; ox = (int) toLong(Math.max(iax, ibx)); oai32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; double ibx = it.bDouble; int ox; ox = (int) toLong(Math.max(iax, ibx)); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (int) toLong(Math.max(iax, ibx)); oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; int ox; ox = (int) toLong(Math.max(iax, ibx)); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (int) toLong(Math.max(iax, ibx)); oai32data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; final double ibx = it.bDouble; int ox; ox = (int) toLong(Math.max(iax, ibx)); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ox = (int) toLong(Math.max(iax, ibx)); oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; int ox; ox = (int) toLong(Math.max(iax, ibx)); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (int) toLong(Math.max(iax, ibx)); oai32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; double ibx = it.bDouble; int ox; ox = (int) toLong(Math.max(iax, ibx)); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (int) toLong(Math.max(iax, ibx)); oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; int ox; ox = (int) toLong(Math.max(iax, ibx)); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (int) toLong(Math.max(iax, ibx)); oai32data[it.oIndex + j] = ox; } } } } break; case Dataset.FLOAT32: final float[] of32data = ((FloatDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; float ox; ox = (float) (Math.max(iax, ibx)); of32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; float ox; ox = (Math.max(iax, ibx)); of32data[it.oIndex] = ox; } } break; case Dataset.FLOAT64: final double[] of64data = ((DoubleDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; double ox; ox = (Math.max(iax, ibx)); of64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; double ox; ox = (Math.max(iax, ibx)); of64data[it.oIndex] = ox; } } break; case Dataset.ARRAYFLOAT32: final float[] oaf32data = ((CompoundFloatDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; float ox = (float) (Math.max(iax, ibx)); oaf32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; float ox = (Math.max(iax, ibx)); oaf32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; double ibx = it.bDouble; float ox; ox = (float) (Math.max(iax, ibx)); oaf32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (float) (Math.max(iax, ibx)); oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; float ox = (Math.max(iax, ibx)); oaf32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (Math.max(iax, ibx)); oaf32data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; final double ibx = it.bDouble; float ox; ox = (float) (Math.max(iax, ibx)); oaf32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ox = (float) (Math.max(iax, ibx)); oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; float ox; ox = (Math.max(iax, ibx)); oaf32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (Math.max(iax, ibx)); oaf32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; double ibx = it.bDouble; float ox; ox = (float) (Math.max(iax, ibx)); oaf32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (float) (Math.max(iax, ibx)); oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; float ox; ox = (Math.max(iax, ibx)); oaf32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (Math.max(iax, ibx)); oaf32data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYFLOAT64: final double[] oaf64data = ((CompoundDoubleDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; double ox; ox = (Math.max(iax, ibx)); oaf64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; double ox; ox = (Math.max(iax, ibx)); oaf64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; double ibx = it.bDouble; double ox; ox = (Math.max(iax, ibx)); oaf64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (Math.max(iax, ibx)); oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; double ox; ox = (Math.max(iax, ibx)); oaf64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (Math.max(iax, ibx)); oaf64data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; final double ibx = it.bDouble; double ox; ox = (Math.max(iax, ibx)); oaf64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ox = (Math.max(iax, ibx)); oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; double ox; ox = (Math.max(iax, ibx)); oaf64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (Math.max(iax, ibx)); oaf64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; double ibx = it.bDouble; double ox; ox = (Math.max(iax, ibx)); oaf64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (Math.max(iax, ibx)); oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; double ox; ox = (Math.max(iax, ibx)); oaf64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (Math.max(iax, ibx)); oaf64data[it.oIndex + j] = ox; } } } } break; case Dataset.COMPLEX64: final float[] oc64data = ((ComplexFloatDataset) result).data; if (da.getElementsPerItem() == 1) { final double iay = 0; while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; final double iby = db.getElementDoubleAbs(it.bIndex + 1); float ox; float oy; if (Double.isNaN(iax) || Double.isNaN(iay)) { ox = (float) (iax); oy = (float) (iay); } else if (Double.isNaN(ibx) || Double.isNaN(iby)) { ox = (float) (ibx); oy = (float) (iby); } else { ox = (float) (Math.max(iax, ibx)); oy = (float) (Math.max(iay, iby)); } oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } else if (db.getElementsPerItem() == 1) { final double iby = 0; while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; final double iay = da.getElementDoubleAbs(it.aIndex + 1); float ox; float oy; if (Double.isNaN(iax) || Double.isNaN(iay)) { ox = (float) (iax); oy = (float) (iay); } else if (Double.isNaN(ibx) || Double.isNaN(iby)) { ox = (float) (ibx); oy = (float) (iby); } else { ox = (float) (Math.max(iax, ibx)); oy = (float) (Math.max(iay, iby)); } oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; final double iay = da.getElementDoubleAbs(it.aIndex + 1); final double iby = db.getElementDoubleAbs(it.bIndex + 1); float ox; float oy; if (Double.isNaN(iax) || Double.isNaN(iay)) { ox = (float) (iax); oy = (float) (iay); } else if (Double.isNaN(ibx) || Double.isNaN(iby)) { ox = (float) (ibx); oy = (float) (iby); } else { ox = (float) (Math.max(iax, ibx)); oy = (float) (Math.max(iay, iby)); } oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } break; case Dataset.COMPLEX128: final double[] oc128data = ((ComplexDoubleDataset) result).data; if (da.getElementsPerItem() == 1) { final double iay = 0; while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; final double iby = db.getElementDoubleAbs(it.bIndex + 1); double ox; double oy; if (Double.isNaN(iax) || Double.isNaN(iay)) { ox = (iax); oy = (iay); } else if (Double.isNaN(ibx) || Double.isNaN(iby)) { ox = (ibx); oy = (iby); } else { ox = (Math.max(iax, ibx)); oy = (Math.max(iay, iby)); } oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } else if (db.getElementsPerItem() == 1) { final double iby = 0; while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; final double iay = da.getElementDoubleAbs(it.aIndex + 1); double ox; double oy; if (Double.isNaN(iax) || Double.isNaN(iay)) { ox = (iax); oy = (iay); } else if (Double.isNaN(ibx) || Double.isNaN(iby)) { ox = (ibx); oy = (iby); } else { ox = (Math.max(iax, ibx)); oy = (Math.max(iay, iby)); } oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; final double iay = da.getElementDoubleAbs(it.aIndex + 1); final double iby = db.getElementDoubleAbs(it.bIndex + 1); double ox; double oy; if (Double.isNaN(iax) || Double.isNaN(iay)) { ox = (iax); oy = (iay); } else if (Double.isNaN(ibx) || Double.isNaN(iby)) { ox = (ibx); oy = (iby); } else { ox = (Math.max(iax, ibx)); oy = (Math.max(iay, iby)); } oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } break; default: throw new IllegalArgumentException( "maximum supports integer, compound integer, real, compound real, complex datasets only"); } addBinaryOperatorName(da, db, result, "maximum"); return result; } /** * minimum operator * @param a * @param b * @return return minimum of a and b */ public static Dataset minimum(final Object a, final Object b) { return minimum(a, b, null); } /** * minimum operator * @param a * @param b * @param o output can be null - in which case, a new dataset is created * @return return minimum of a and b */ public static Dataset minimum(final Object a, final Object b, final Dataset o) { final Dataset da = a instanceof Dataset ? (Dataset) a : DatasetFactory.createFromObject(a); final Dataset db = b instanceof Dataset ? (Dataset) b : DatasetFactory.createFromObject(b); final BroadcastIterator it = BroadcastIterator.createIterator(da, db, o, true); final Dataset result = it.getOutput(); final int is = result.getElementsPerItem(); final int dt = result.getDType(); switch (dt) { case Dataset.INT8: final byte[] oi8data = ((ByteDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; byte ox; ox = (byte) toLong(Math.min(iax, ibx)); oi8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; byte ox; ox = (byte) toLong(Math.min(iax, ibx)); oi8data[it.oIndex] = ox; } } break; case Dataset.INT16: final short[] oi16data = ((ShortDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; short ox; ox = (short) toLong(Math.min(iax, ibx)); oi16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; short ox; ox = (short) toLong(Math.min(iax, ibx)); oi16data[it.oIndex] = ox; } } break; case Dataset.INT64: final long[] oi64data = ((LongDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; long ox; ox = toLong(Math.min(iax, ibx)); oi64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; long ox; ox = toLong(Math.min(iax, ibx)); oi64data[it.oIndex] = ox; } } break; case Dataset.INT32: final int[] oi32data = ((IntegerDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; int ox; ox = (int) toLong(Math.min(iax, ibx)); oi32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; int ox; ox = (int) toLong(Math.min(iax, ibx)); oi32data[it.oIndex] = ox; } } break; case Dataset.ARRAYINT8: final byte[] oai8data = ((CompoundByteDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; byte ox; ox = (byte) toLong(Math.min(iax, ibx)); oai8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; byte ox; ox = (byte) toLong(Math.min(iax, ibx)); oai8data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; double ibx = it.bDouble; byte ox; ox = (byte) toLong(Math.min(iax, ibx)); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (byte) toLong(Math.min(iax, ibx)); oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; byte ox; ox = (byte) toLong(Math.min(iax, ibx)); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (byte) toLong(Math.min(iax, ibx)); oai8data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; final double ibx = it.bDouble; byte ox; ox = (byte) toLong(Math.min(iax, ibx)); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ox = (byte) toLong(Math.min(iax, ibx)); oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; byte ox; ox = (byte) toLong(Math.min(iax, ibx)); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (byte) toLong(Math.min(iax, ibx)); oai8data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; double ibx = it.bDouble; byte ox; ox = (byte) toLong(Math.min(iax, ibx)); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (byte) toLong(Math.min(iax, ibx)); oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; byte ox; ox = (byte) toLong(Math.min(iax, ibx)); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (byte) toLong(Math.min(iax, ibx)); oai8data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT16: final short[] oai16data = ((CompoundShortDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; short ox; ox = (short) toLong(Math.min(iax, ibx)); oai16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; short ox; ox = (short) toLong(Math.min(iax, ibx)); oai16data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; double ibx = it.bDouble; short ox; ox = (short) toLong(Math.min(iax, ibx)); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (short) toLong(Math.min(iax, ibx)); oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; short ox; ox = (short) toLong(Math.min(iax, ibx)); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (short) toLong(Math.min(iax, ibx)); oai16data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; final double ibx = it.bDouble; short ox; ox = (short) toLong(Math.min(iax, ibx)); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ox = (short) toLong(Math.min(iax, ibx)); oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; short ox; ox = (short) toLong(Math.min(iax, ibx)); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (short) toLong(Math.min(iax, ibx)); oai16data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; double ibx = it.bDouble; short ox; ox = (short) toLong(Math.min(iax, ibx)); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (short) toLong(Math.min(iax, ibx)); oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; short ox; ox = (short) toLong(Math.min(iax, ibx)); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (short) toLong(Math.min(iax, ibx)); oai16data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT64: final long[] oai64data = ((CompoundLongDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; long ox; ox = toLong(Math.min(iax, ibx)); oai64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; long ox; ox = toLong(Math.min(iax, ibx)); oai64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; double ibx = it.bDouble; long ox; ox = toLong(Math.min(iax, ibx)); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementDoubleAbs(it.bIndex + j); ox = toLong(Math.min(iax, ibx)); oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; long ox; ox = toLong(Math.min(iax, ibx)); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = toLong(Math.min(iax, ibx)); oai64data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; final double ibx = it.bDouble; long ox; ox = toLong(Math.min(iax, ibx)); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ox = toLong(Math.min(iax, ibx)); oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; long ox; ox = toLong(Math.min(iax, ibx)); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = toLong(Math.min(iax, ibx)); oai64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; double ibx = it.bDouble; long ox; ox = toLong(Math.min(iax, ibx)); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ibx = db.getElementDoubleAbs(it.bIndex + j); ox = toLong(Math.min(iax, ibx)); oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; long ox; ox = toLong(Math.min(iax, ibx)); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = toLong(Math.min(iax, ibx)); oai64data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT32: final int[] oai32data = ((CompoundIntegerDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; int ox; ox = (int) toLong(Math.min(iax, ibx)); oai32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; int ox; ox = (int) toLong(Math.min(iax, ibx)); oai32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; double ibx = it.bDouble; int ox; ox = (int) toLong(Math.min(iax, ibx)); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (int) toLong(Math.min(iax, ibx)); oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; int ox; ox = (int) toLong(Math.min(iax, ibx)); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (int) toLong(Math.min(iax, ibx)); oai32data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; final double ibx = it.bDouble; int ox; ox = (int) toLong(Math.min(iax, ibx)); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ox = (int) toLong(Math.min(iax, ibx)); oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; int ox; ox = (int) toLong(Math.min(iax, ibx)); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (int) toLong(Math.min(iax, ibx)); oai32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; double ibx = it.bDouble; int ox; ox = (int) toLong(Math.min(iax, ibx)); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (int) toLong(Math.min(iax, ibx)); oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; int ox; ox = (int) toLong(Math.min(iax, ibx)); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (int) toLong(Math.min(iax, ibx)); oai32data[it.oIndex + j] = ox; } } } } break; case Dataset.FLOAT32: final float[] of32data = ((FloatDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; float ox; ox = (float) (Math.min(iax, ibx)); of32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; float ox; ox = (Math.min(iax, ibx)); of32data[it.oIndex] = ox; } } break; case Dataset.FLOAT64: final double[] of64data = ((DoubleDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; double ox; ox = (Math.min(iax, ibx)); of64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; double ox; ox = (Math.min(iax, ibx)); of64data[it.oIndex] = ox; } } break; case Dataset.ARRAYFLOAT32: final float[] oaf32data = ((CompoundFloatDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; float ox; ox = (float) (Math.min(iax, ibx)); oaf32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; float ox; ox = (Math.min(iax, ibx)); oaf32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; double ibx = it.bDouble; float ox; ox = (float) (Math.min(iax, ibx)); oaf32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (float) (Math.min(iax, ibx)); oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; float ox; ox = (Math.min(iax, ibx)); oaf32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (Math.min(iax, ibx)); oaf32data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; final double ibx = it.bDouble; float ox; ox = (float) (Math.min(iax, ibx)); oaf32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ox = (float) (Math.min(iax, ibx)); oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; float ox; ox = (Math.min(iax, ibx)); oaf32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (Math.min(iax, ibx)); oaf32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; double ibx = it.bDouble; float ox; ox = (float) (Math.min(iax, ibx)); oaf32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (float) (Math.min(iax, ibx)); oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; float ox; ox = (Math.min(iax, ibx)); oaf32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (Math.min(iax, ibx)); oaf32data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYFLOAT64: final double[] oaf64data = ((CompoundDoubleDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; double ox; ox = (Math.min(iax, ibx)); oaf64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; double ox; ox = (Math.min(iax, ibx)); oaf64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double iax = it.aDouble; double ibx = it.bDouble; double ox; ox = (Math.min(iax, ibx)); oaf64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (Math.min(iax, ibx)); oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; double ox; ox = (Math.min(iax, ibx)); oaf64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (Math.min(iax, ibx)); oaf64data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; final double ibx = it.bDouble; double ox; ox = (Math.min(iax, ibx)); oaf64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ox = (Math.min(iax, ibx)); oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; double ox; ox = (Math.min(iax, ibx)); oaf64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (Math.min(iax, ibx)); oaf64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { double iax = it.aDouble; double ibx = it.bDouble; double ox; ox = (Math.min(iax, ibx)); oaf64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementDoubleAbs(it.aIndex + j); ibx = db.getElementDoubleAbs(it.bIndex + j); ox = (Math.min(iax, ibx)); oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; double ox; ox = (Math.min(iax, ibx)); oaf64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (Math.min(iax, ibx)); oaf64data[it.oIndex + j] = ox; } } } } break; case Dataset.COMPLEX64: final float[] oc64data = ((ComplexFloatDataset) result).data; if (da.getElementsPerItem() == 1) { final double iay = 0; while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; final double iby = db.getElementDoubleAbs(it.bIndex + 1); float ox; float oy; if (Double.isNaN(iax) || Double.isNaN(iay)) { ox = (float) (iax); oy = (float) (iay); } else if (Double.isNaN(ibx) || Double.isNaN(iby)) { ox = (float) (ibx); oy = (float) (iby); } else { ox = (float) (Math.min(iax, ibx)); oy = (float) (Math.min(iay, iby)); } oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } else if (db.getElementsPerItem() == 1) { final double iby = 0; while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; final double iay = da.getElementDoubleAbs(it.aIndex + 1); float ox; float oy; if (Double.isNaN(iax) || Double.isNaN(iay)) { ox = (float) (iax); oy = (float) (iay); } else if (Double.isNaN(ibx) || Double.isNaN(iby)) { ox = (float) (ibx); oy = (float) (iby); } else { ox = (float) (Math.min(iax, ibx)); oy = (float) (Math.min(iay, iby)); } oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; final double iay = da.getElementDoubleAbs(it.aIndex + 1); final double iby = db.getElementDoubleAbs(it.bIndex + 1); float ox; float oy; if (Double.isNaN(iax) || Double.isNaN(iay)) { ox = (float) (iax); oy = (float) (iay); } else if (Double.isNaN(ibx) || Double.isNaN(iby)) { ox = (float) (ibx); oy = (float) (iby); } else { ox = (float) (Math.min(iax, ibx)); oy = (float) (Math.min(iay, iby)); } oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } break; case Dataset.COMPLEX128: final double[] oc128data = ((ComplexDoubleDataset) result).data; if (da.getElementsPerItem() == 1) { final double iay = 0; while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; final double iby = db.getElementDoubleAbs(it.bIndex + 1); double ox; double oy; if (Double.isNaN(iax) || Double.isNaN(iay)) { ox = (iax); oy = (iay); } else if (Double.isNaN(ibx) || Double.isNaN(iby)) { ox = (ibx); oy = (iby); } else { ox = (Math.min(iax, ibx)); oy = (Math.min(iay, iby)); } oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } else if (db.getElementsPerItem() == 1) { final double iby = 0; while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; final double iay = da.getElementDoubleAbs(it.aIndex + 1); double ox; double oy; if (Double.isNaN(iax) || Double.isNaN(iay)) { ox = (iax); oy = (iay); } else if (Double.isNaN(ibx) || Double.isNaN(iby)) { ox = (ibx); oy = (iby); } else { ox = (Math.min(iax, ibx)); oy = (Math.min(iay, iby)); } oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double iax = it.aDouble; final double ibx = it.bDouble; final double iay = da.getElementDoubleAbs(it.aIndex + 1); final double iby = db.getElementDoubleAbs(it.bIndex + 1); double ox; double oy; if (Double.isNaN(iax) || Double.isNaN(iay)) { ox = (iax); oy = (iay); } else if (Double.isNaN(ibx) || Double.isNaN(iby)) { ox = (ibx); oy = (iby); } else { ox = (Math.min(iax, ibx)); oy = (Math.min(iay, iby)); } oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } break; default: throw new IllegalArgumentException( "minimum supports integer, compound integer, real, compound real, complex datasets only"); } addBinaryOperatorName(da, db, result, "minimum"); return result; } /** * bitwiseAnd operator * @param a * @param b * @return a & b, bitwise AND of a and b */ public static Dataset bitwiseAnd(final Object a, final Object b) { return bitwiseAnd(a, b, null); } /** * bitwiseAnd operator * @param a * @param b * @param o output can be null - in which case, a new dataset is created * @return a & b, bitwise AND of a and b */ public static Dataset bitwiseAnd(final Object a, final Object b, final Dataset o) { final Dataset da = a instanceof Dataset ? (Dataset) a : DatasetFactory.createFromObject(a); final Dataset db = b instanceof Dataset ? (Dataset) b : DatasetFactory.createFromObject(b); final BroadcastIterator it = BroadcastIterator.createIterator(da, db, o, true); it.setOutputDouble(false); final Dataset result = it.getOutput(); final int is = result.getElementsPerItem(); final int dt = result.getDType(); switch (dt) { case Dataset.INT8: final byte[] oi8data = ((ByteDataset) result).data; { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; byte ox; ox = (byte) (iax & ibx); oi8data[it.oIndex] = ox; } } break; case Dataset.INT16: final short[] oi16data = ((ShortDataset) result).data; { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; short ox; ox = (short) (iax & ibx); oi16data[it.oIndex] = ox; } } break; case Dataset.INT64: final long[] oi64data = ((LongDataset) result).data; { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; long ox; ox = (iax & ibx); oi64data[it.oIndex] = ox; } } break; case Dataset.INT32: final int[] oi32data = ((IntegerDataset) result).data; { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; int ox; ox = (int) (iax & ibx); oi32data[it.oIndex] = ox; } } break; case Dataset.ARRAYINT8: final byte[] oai8data = ((CompoundByteDataset) result).data; if (is == 1) { { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; byte ox; ox = (byte) (iax & ibx); oai8data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; byte ox; ox = (byte) (iax & ibx); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (byte) (iax & ibx); oai8data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; byte ox; ox = (byte) (iax & ibx); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (byte) (iax & ibx); oai8data[it.oIndex + j] = ox; } } } } else { { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; byte ox; ox = (byte) (iax & ibx); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (byte) (iax & ibx); oai8data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT16: final short[] oai16data = ((CompoundShortDataset) result).data; if (is == 1) { { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; short ox; ox = (short) (iax & ibx); oai16data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; short ox; ox = (short) (iax & ibx); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (short) (iax & ibx); oai16data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; short ox; ox = (short) (iax & ibx); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (short) (iax & ibx); oai16data[it.oIndex + j] = ox; } } } } else { { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; short ox; ox = (short) (iax & ibx); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (short) (iax & ibx); oai16data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT64: final long[] oai64data = ((CompoundLongDataset) result).data; if (is == 1) { { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; long ox; ox = (iax & ibx); oai64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; long ox; ox = (iax & ibx); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (iax & ibx); oai64data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; long ox; ox = (iax & ibx); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (iax & ibx); oai64data[it.oIndex + j] = ox; } } } } else { { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; long ox; ox = (iax & ibx); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (iax & ibx); oai64data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT32: final int[] oai32data = ((CompoundIntegerDataset) result).data; if (is == 1) { { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; int ox; ox = (int) (iax & ibx); oai32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; int ox; ox = (int) (iax & ibx); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (int) (iax & ibx); oai32data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; int ox; ox = (int) (iax & ibx); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (int) (iax & ibx); oai32data[it.oIndex + j] = ox; } } } } else { { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; int ox; ox = (int) (iax & ibx); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (int) (iax & ibx); oai32data[it.oIndex + j] = ox; } } } } break; default: throw new IllegalArgumentException("bitwiseAnd supports integer, compound integer datasets only"); } addBinaryOperatorName(da, db, result, "&"); return result; } /** * bitwiseOr operator * @param a * @param b * @return a | b, bitwise inclusive OR of a and b */ public static Dataset bitwiseOr(final Object a, final Object b) { return bitwiseOr(a, b, null); } /** * bitwiseOr operator * @param a * @param b * @param o output can be null - in which case, a new dataset is created * @return a | b, bitwise inclusive OR of a and b */ public static Dataset bitwiseOr(final Object a, final Object b, final Dataset o) { final Dataset da = a instanceof Dataset ? (Dataset) a : DatasetFactory.createFromObject(a); final Dataset db = b instanceof Dataset ? (Dataset) b : DatasetFactory.createFromObject(b); final BroadcastIterator it = BroadcastIterator.createIterator(da, db, o, true); it.setOutputDouble(false); final Dataset result = it.getOutput(); final int is = result.getElementsPerItem(); final int dt = result.getDType(); switch (dt) { case Dataset.INT8: final byte[] oi8data = ((ByteDataset) result).data; { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; byte ox; ox = (byte) (iax | ibx); oi8data[it.oIndex] = ox; } } break; case Dataset.INT16: final short[] oi16data = ((ShortDataset) result).data; { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; short ox; ox = (short) (iax | ibx); oi16data[it.oIndex] = ox; } } break; case Dataset.INT64: final long[] oi64data = ((LongDataset) result).data; { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; long ox; ox = (iax | ibx); oi64data[it.oIndex] = ox; } } break; case Dataset.INT32: final int[] oi32data = ((IntegerDataset) result).data; { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; int ox; ox = (int) (iax | ibx); oi32data[it.oIndex] = ox; } } break; case Dataset.ARRAYINT8: final byte[] oai8data = ((CompoundByteDataset) result).data; if (is == 1) { { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; byte ox; ox = (byte) (iax | ibx); oai8data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; byte ox; ox = (byte) (iax | ibx); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (byte) (iax | ibx); oai8data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; byte ox; ox = (byte) (iax | ibx); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (byte) (iax | ibx); oai8data[it.oIndex + j] = ox; } } } } else { { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; byte ox; ox = (byte) (iax | ibx); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (byte) (iax | ibx); oai8data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT16: final short[] oai16data = ((CompoundShortDataset) result).data; if (is == 1) { { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; short ox; ox = (short) (iax | ibx); oai16data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; short ox; ox = (short) (iax | ibx); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (short) (iax | ibx); oai16data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; short ox; ox = (short) (iax | ibx); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (short) (iax | ibx); oai16data[it.oIndex + j] = ox; } } } } else { { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; short ox; ox = (short) (iax | ibx); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (short) (iax | ibx); oai16data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT64: final long[] oai64data = ((CompoundLongDataset) result).data; if (is == 1) { { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; long ox; ox = (iax | ibx); oai64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; long ox; ox = (iax | ibx); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (iax | ibx); oai64data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; long ox; ox = (iax | ibx); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (iax | ibx); oai64data[it.oIndex + j] = ox; } } } } else { { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; long ox; ox = (iax | ibx); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (iax | ibx); oai64data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT32: final int[] oai32data = ((CompoundIntegerDataset) result).data; if (is == 1) { { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; int ox; ox = (int) (iax | ibx); oai32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; int ox; ox = (int) (iax | ibx); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (int) (iax | ibx); oai32data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; int ox; ox = (int) (iax | ibx); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (int) (iax | ibx); oai32data[it.oIndex + j] = ox; } } } } else { { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; int ox; ox = (int) (iax | ibx); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (int) (iax | ibx); oai32data[it.oIndex + j] = ox; } } } } break; default: throw new IllegalArgumentException("bitwiseOr supports integer, compound integer datasets only"); } addBinaryOperatorName(da, db, result, "|"); return result; } /** * bitwiseXor operator * @param a * @param b * @return a ^ b, bitwise exclusive OR of a and b */ public static Dataset bitwiseXor(final Object a, final Object b) { return bitwiseXor(a, b, null); } /** * bitwiseXor operator * @param a * @param b * @param o output can be null - in which case, a new dataset is created * @return a ^ b, bitwise exclusive OR of a and b */ public static Dataset bitwiseXor(final Object a, final Object b, final Dataset o) { final Dataset da = a instanceof Dataset ? (Dataset) a : DatasetFactory.createFromObject(a); final Dataset db = b instanceof Dataset ? (Dataset) b : DatasetFactory.createFromObject(b); final BroadcastIterator it = BroadcastIterator.createIterator(da, db, o, true); it.setOutputDouble(false); final Dataset result = it.getOutput(); final int is = result.getElementsPerItem(); final int dt = result.getDType(); switch (dt) { case Dataset.INT8: final byte[] oi8data = ((ByteDataset) result).data; { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; byte ox; ox = (byte) (iax ^ ibx); oi8data[it.oIndex] = ox; } } break; case Dataset.INT16: final short[] oi16data = ((ShortDataset) result).data; { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; short ox; ox = (short) (iax ^ ibx); oi16data[it.oIndex] = ox; } } break; case Dataset.INT64: final long[] oi64data = ((LongDataset) result).data; { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; long ox; ox = (iax ^ ibx); oi64data[it.oIndex] = ox; } } break; case Dataset.INT32: final int[] oi32data = ((IntegerDataset) result).data; { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; int ox; ox = (int) (iax ^ ibx); oi32data[it.oIndex] = ox; } } break; case Dataset.ARRAYINT8: final byte[] oai8data = ((CompoundByteDataset) result).data; if (is == 1) { { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; byte ox; ox = (byte) (iax ^ ibx); oai8data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; byte ox; ox = (byte) (iax ^ ibx); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (byte) (iax ^ ibx); oai8data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; byte ox; ox = (byte) (iax ^ ibx); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (byte) (iax ^ ibx); oai8data[it.oIndex + j] = ox; } } } } else { { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; byte ox; ox = (byte) (iax ^ ibx); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (byte) (iax ^ ibx); oai8data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT16: final short[] oai16data = ((CompoundShortDataset) result).data; if (is == 1) { { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; short ox; ox = (short) (iax ^ ibx); oai16data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; short ox; ox = (short) (iax ^ ibx); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (short) (iax ^ ibx); oai16data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; short ox; ox = (short) (iax ^ ibx); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (short) (iax ^ ibx); oai16data[it.oIndex + j] = ox; } } } } else { { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; short ox; ox = (short) (iax ^ ibx); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (short) (iax ^ ibx); oai16data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT64: final long[] oai64data = ((CompoundLongDataset) result).data; if (is == 1) { { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; long ox; ox = (iax ^ ibx); oai64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; long ox; ox = (iax ^ ibx); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (iax ^ ibx); oai64data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; long ox; ox = (iax ^ ibx); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (iax ^ ibx); oai64data[it.oIndex + j] = ox; } } } } else { { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; long ox; ox = (iax ^ ibx); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (iax ^ ibx); oai64data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT32: final int[] oai32data = ((CompoundIntegerDataset) result).data; if (is == 1) { { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; int ox; ox = (int) (iax ^ ibx); oai32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; int ox; ox = (int) (iax ^ ibx); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (int) (iax ^ ibx); oai32data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; int ox; ox = (int) (iax ^ ibx); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (int) (iax ^ ibx); oai32data[it.oIndex + j] = ox; } } } } else { { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; int ox; ox = (int) (iax ^ ibx); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (int) (iax ^ ibx); oai32data[it.oIndex + j] = ox; } } } } break; default: throw new IllegalArgumentException("bitwiseXor supports integer, compound integer datasets only"); } addBinaryOperatorName(da, db, result, "^"); return result; } /** * leftShift operator * @param a * @param b * @return a << b, bitwise left shift of a by b */ public static Dataset leftShift(final Object a, final Object b) { return leftShift(a, b, null); } /** * leftShift operator * @param a * @param b * @param o output can be null - in which case, a new dataset is created * @return a << b, bitwise left shift of a by b */ public static Dataset leftShift(final Object a, final Object b, final Dataset o) { final Dataset da = a instanceof Dataset ? (Dataset) a : DatasetFactory.createFromObject(a); final Dataset db = b instanceof Dataset ? (Dataset) b : DatasetFactory.createFromObject(b); final BroadcastIterator it = BroadcastIterator.createIterator(da, db, o, true); it.setOutputDouble(false); final Dataset result = it.getOutput(); final int is = result.getElementsPerItem(); final int dt = result.getDType(); switch (dt) { case Dataset.INT8: final byte[] oi8data = ((ByteDataset) result).data; { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; byte ox; ox = (byte) (iax << ibx); oi8data[it.oIndex] = ox; } } break; case Dataset.INT16: final short[] oi16data = ((ShortDataset) result).data; { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; short ox; ox = (short) (iax << ibx); oi16data[it.oIndex] = ox; } } break; case Dataset.INT64: final long[] oi64data = ((LongDataset) result).data; { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; long ox; ox = (iax << ibx); oi64data[it.oIndex] = ox; } } break; case Dataset.INT32: final int[] oi32data = ((IntegerDataset) result).data; { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; int ox; ox = (int) (iax << ibx); oi32data[it.oIndex] = ox; } } break; case Dataset.ARRAYINT8: final byte[] oai8data = ((CompoundByteDataset) result).data; if (is == 1) { { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; byte ox; ox = (byte) (iax << ibx); oai8data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; byte ox; ox = (byte) (iax << ibx); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (byte) (iax << ibx); oai8data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; byte ox; ox = (byte) (iax << ibx); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (byte) (iax << ibx); oai8data[it.oIndex + j] = ox; } } } } else { { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; byte ox; ox = (byte) (iax << ibx); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (byte) (iax << ibx); oai8data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT16: final short[] oai16data = ((CompoundShortDataset) result).data; if (is == 1) { { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; short ox; ox = (short) (iax << ibx); oai16data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; short ox; ox = (short) (iax << ibx); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (short) (iax << ibx); oai16data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; short ox; ox = (short) (iax << ibx); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (short) (iax << ibx); oai16data[it.oIndex + j] = ox; } } } } else { { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; short ox; ox = (short) (iax << ibx); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (short) (iax << ibx); oai16data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT64: final long[] oai64data = ((CompoundLongDataset) result).data; if (is == 1) { { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; long ox; ox = (iax << ibx); oai64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; long ox; ox = (iax << ibx); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (iax << ibx); oai64data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; long ox; ox = (iax << ibx); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (iax << ibx); oai64data[it.oIndex + j] = ox; } } } } else { { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; long ox; ox = (iax << ibx); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (iax << ibx); oai64data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT32: final int[] oai32data = ((CompoundIntegerDataset) result).data; if (is == 1) { { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; int ox; ox = (int) (iax << ibx); oai32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; int ox; ox = (int) (iax << ibx); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (int) (iax << ibx); oai32data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; int ox; ox = (int) (iax << ibx); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (int) (iax << ibx); oai32data[it.oIndex + j] = ox; } } } } else { { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; int ox; ox = (int) (iax << ibx); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (int) (iax << ibx); oai32data[it.oIndex + j] = ox; } } } } break; default: throw new IllegalArgumentException("leftShift supports integer, compound integer datasets only"); } addBinaryOperatorName(da, db, result, "<<"); return result; } /** * rightShift operator * @param a * @param b * @return a >> b, bitwise right shift of a by b */ public static Dataset rightShift(final Object a, final Object b) { return rightShift(a, b, null); } /** * rightShift operator * @param a * @param b * @param o output can be null - in which case, a new dataset is created * @return a >> b, bitwise right shift of a by b */ public static Dataset rightShift(final Object a, final Object b, final Dataset o) { final Dataset da = a instanceof Dataset ? (Dataset) a : DatasetFactory.createFromObject(a); final Dataset db = b instanceof Dataset ? (Dataset) b : DatasetFactory.createFromObject(b); final BroadcastIterator it = BroadcastIterator.createIterator(da, db, o, true); it.setOutputDouble(false); final Dataset result = it.getOutput(); final int is = result.getElementsPerItem(); final int dt = result.getDType(); switch (dt) { case Dataset.INT8: final byte[] oi8data = ((ByteDataset) result).data; { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; byte ox; ox = (byte) (iax >> ibx); oi8data[it.oIndex] = ox; } } break; case Dataset.INT16: final short[] oi16data = ((ShortDataset) result).data; { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; short ox; ox = (short) (iax >> ibx); oi16data[it.oIndex] = ox; } } break; case Dataset.INT64: final long[] oi64data = ((LongDataset) result).data; { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; long ox; ox = (iax >> ibx); oi64data[it.oIndex] = ox; } } break; case Dataset.INT32: final int[] oi32data = ((IntegerDataset) result).data; { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; int ox; ox = (int) (iax >> ibx); oi32data[it.oIndex] = ox; } } break; case Dataset.ARRAYINT8: final byte[] oai8data = ((CompoundByteDataset) result).data; if (is == 1) { { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; byte ox; ox = (byte) (iax >> ibx); oai8data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; byte ox; ox = (byte) (iax >> ibx); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (byte) (iax >> ibx); oai8data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; byte ox; ox = (byte) (iax >> ibx); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (byte) (iax >> ibx); oai8data[it.oIndex + j] = ox; } } } } else { { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; byte ox; ox = (byte) (iax >> ibx); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (byte) (iax >> ibx); oai8data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT16: final short[] oai16data = ((CompoundShortDataset) result).data; if (is == 1) { { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; short ox; ox = (short) (iax >> ibx); oai16data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; short ox; ox = (short) (iax >> ibx); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (short) (iax >> ibx); oai16data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; short ox; ox = (short) (iax >> ibx); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (short) (iax >> ibx); oai16data[it.oIndex + j] = ox; } } } } else { { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; short ox; ox = (short) (iax >> ibx); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (short) (iax >> ibx); oai16data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT64: final long[] oai64data = ((CompoundLongDataset) result).data; if (is == 1) { { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; long ox; ox = (iax >> ibx); oai64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; long ox; ox = (iax >> ibx); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (iax >> ibx); oai64data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; long ox; ox = (iax >> ibx); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (iax >> ibx); oai64data[it.oIndex + j] = ox; } } } } else { { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; long ox; ox = (iax >> ibx); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (iax >> ibx); oai64data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT32: final int[] oai32data = ((CompoundIntegerDataset) result).data; if (is == 1) { { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; int ox; ox = (int) (iax >> ibx); oai32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; int ox; ox = (int) (iax >> ibx); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (int) (iax >> ibx); oai32data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; int ox; ox = (int) (iax >> ibx); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (int) (iax >> ibx); oai32data[it.oIndex + j] = ox; } } } } else { { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; int ox; ox = (int) (iax >> ibx); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (int) (iax >> ibx); oai32data[it.oIndex + j] = ox; } } } } break; default: throw new IllegalArgumentException("rightShift supports integer, compound integer datasets only"); } addBinaryOperatorName(da, db, result, ">>"); return result; } /** * unsignedRightShift operator * @param a * @param b * @return a >>> b, bitwise right shift of a by b with zeros added */ public static Dataset unsignedRightShift(final Object a, final Object b) { return unsignedRightShift(a, b, null); } /** * unsignedRightShift operator * @param a * @param b * @param o output can be null - in which case, a new dataset is created * @return a >>> b, bitwise right shift of a by b with zeros added */ public static Dataset unsignedRightShift(final Object a, final Object b, final Dataset o) { final Dataset da = a instanceof Dataset ? (Dataset) a : DatasetFactory.createFromObject(a); final Dataset db = b instanceof Dataset ? (Dataset) b : DatasetFactory.createFromObject(b); final BroadcastIterator it = BroadcastIterator.createIterator(da, db, o, true); it.setOutputDouble(false); final long unsignedMask; final Dataset result = it.getOutput(); final int is = result.getElementsPerItem(); final int dt = result.getDType(); switch (dt) { case Dataset.INT8: final byte[] oi8data = ((ByteDataset) result).data; unsignedMask = 0xffL; { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; byte ox; ox = (byte) ((unsignedMask & iax) >>> ibx); oi8data[it.oIndex] = ox; } } break; case Dataset.INT16: final short[] oi16data = ((ShortDataset) result).data; unsignedMask = 0xffffL; { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; short ox; ox = (short) ((unsignedMask & iax) >>> ibx); oi16data[it.oIndex] = ox; } } break; case Dataset.INT64: final long[] oi64data = ((LongDataset) result).data; unsignedMask = 0xffffffffffffffffL; { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; long ox; ox = ((unsignedMask & iax) >>> ibx); oi64data[it.oIndex] = ox; } } break; case Dataset.INT32: final int[] oi32data = ((IntegerDataset) result).data; unsignedMask = 0xffffffffL; { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; int ox; ox = (int) ((unsignedMask & iax) >>> ibx); oi32data[it.oIndex] = ox; } } break; case Dataset.ARRAYINT8: final byte[] oai8data = ((CompoundByteDataset) result).data; unsignedMask = 0xffL; if (is == 1) { { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; byte ox; ox = (byte) ((unsignedMask & iax) >>> ibx); oai8data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; byte ox; ox = (byte) ((unsignedMask & iax) >>> ibx); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (byte) ((unsignedMask & iax) >>> ibx); oai8data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; byte ox; ox = (byte) ((unsignedMask & iax) >>> ibx); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (byte) ((unsignedMask & iax) >>> ibx); oai8data[it.oIndex + j] = ox; } } } } else { { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; byte ox; ox = (byte) ((unsignedMask & iax) >>> ibx); oai8data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (byte) ((unsignedMask & iax) >>> ibx); oai8data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT16: final short[] oai16data = ((CompoundShortDataset) result).data; unsignedMask = 0xffffL; if (is == 1) { { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; short ox; ox = (short) ((unsignedMask & iax) >>> ibx); oai16data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; short ox; ox = (short) ((unsignedMask & iax) >>> ibx); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (short) ((unsignedMask & iax) >>> ibx); oai16data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; short ox; ox = (short) ((unsignedMask & iax) >>> ibx); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (short) ((unsignedMask & iax) >>> ibx); oai16data[it.oIndex + j] = ox; } } } } else { { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; short ox; ox = (short) ((unsignedMask & iax) >>> ibx); oai16data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (short) ((unsignedMask & iax) >>> ibx); oai16data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT64: final long[] oai64data = ((CompoundLongDataset) result).data; unsignedMask = 0xffffffffffffffffL; if (is == 1) { { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; long ox; ox = ((unsignedMask & iax) >>> ibx); oai64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; long ox; ox = ((unsignedMask & iax) >>> ibx); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = ((unsignedMask & iax) >>> ibx); oai64data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; long ox; ox = ((unsignedMask & iax) >>> ibx); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = ((unsignedMask & iax) >>> ibx); oai64data[it.oIndex + j] = ox; } } } } else { { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; long ox; ox = ((unsignedMask & iax) >>> ibx); oai64data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = ((unsignedMask & iax) >>> ibx); oai64data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT32: final int[] oai32data = ((CompoundIntegerDataset) result).data; unsignedMask = 0xffffffffL; if (is == 1) { { while (it.hasNext()) { final long iax = it.aLong; final long ibx = it.bLong; int ox; ox = (int) ((unsignedMask & iax) >>> ibx); oai32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { { while (it.hasNext()) { final long iax = it.aLong; long ibx = it.bLong; int ox; ox = (int) ((unsignedMask & iax) >>> ibx); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { ibx = db.getElementLongAbs(it.bIndex + j); ox = (int) ((unsignedMask & iax) >>> ibx); oai32data[it.oIndex + j] = ox; } } } } else if (db.getElementsPerItem() == 1) { { while (it.hasNext()) { long iax = it.aLong; final long ibx = it.bLong; int ox; ox = (int) ((unsignedMask & iax) >>> ibx); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ox = (int) ((unsignedMask & iax) >>> ibx); oai32data[it.oIndex + j] = ox; } } } } else { { while (it.hasNext()) { long iax = it.aLong; long ibx = it.bLong; int ox; ox = (int) ((unsignedMask & iax) >>> ibx); oai32data[it.oIndex] = ox; for (int j = 1; j < is; j++) { iax = da.getElementLongAbs(it.aIndex + j); ibx = db.getElementLongAbs(it.bIndex + j); ox = (int) ((unsignedMask & iax) >>> ibx); oai32data[it.oIndex + j] = ox; } } } } break; default: throw new IllegalArgumentException( "unsignedRightShift supports integer, compound integer datasets only"); } addBinaryOperatorName(da, db, result, ">>>"); return result; } /** * bitwiseInvert - ~a, bitwise invert (or NOT) each element * @param a * @return dataset */ public static Dataset bitwiseInvert(final Object a) { return bitwiseInvert(a, null); } /** * bitwiseInvert - ~a, bitwise invert (or NOT) each element * @param a * @param o output can be null - in which case, a new dataset is created * @return dataset */ public static Dataset bitwiseInvert(final Object a, final Dataset o) { final Dataset da = a instanceof Dataset ? (Dataset) a : DatasetFactory.createFromObject(a); final SingleInputBroadcastIterator it = new SingleInputBroadcastIterator(da, o, true, true, true); final Dataset result = it.getOutput(); final int is = result.getElementsPerItem(); final int dt = result.getDType(); switch (dt) { case Dataset.INT8: final byte[] oi8data = ((ByteDataset) result).data; { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(~ix); oi8data[it.oIndex] = ox; } } break; case Dataset.INT16: final short[] oi16data = ((ShortDataset) result).data; { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(~ix); oi16data[it.oIndex] = ox; } } break; case Dataset.INT64: final long[] oi64data = ((LongDataset) result).data; { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(~ix); oi64data[it.oIndex] = ox; } } break; case Dataset.INT32: final int[] oi32data = ((IntegerDataset) result).data; { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(~ix); oi32data[it.oIndex] = ox; } } break; case Dataset.ARRAYINT8: final byte[] oai8data = ((CompoundByteDataset) result).data; if (is == 1) { { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(~ix); oai8data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(~ix); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } } else { { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); byte ox; ox = (byte) toLong(~ix); oai8data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT16: final short[] oai16data = ((CompoundShortDataset) result).data; if (is == 1) { { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(~ix); oai16data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(~ix); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } } else { { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); short ox; ox = (short) toLong(~ix); oai16data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT64: final long[] oai64data = ((CompoundLongDataset) result).data; if (is == 1) { { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(~ix); oai64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(~ix); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } } else { { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); long ox; ox = toLong(~ix); oai64data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT32: final int[] oai32data = ((CompoundIntegerDataset) result).data; if (is == 1) { { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(~ix); oai32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(~ix); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } } else { { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); int ox; ox = (int) toLong(~ix); oai32data[it.oIndex + j] = ox; } } } } break; default: throw new IllegalArgumentException("bitwiseInvert supports integer, compound integer datasets only"); } addFunctionName(result, "bitwiseInvert"); return result; } /** * sin - evaluate the sine function on each element of the dataset * @param a * @return dataset */ public static Dataset sin(final Object a) { return sin(a, null); } /** * sin - evaluate the sine function on each element of the dataset * @param a * @param o output can be null - in which case, a new dataset is created * @return dataset */ public static Dataset sin(final Object a, final Dataset o) { final Dataset da = a instanceof Dataset ? (Dataset) a : DatasetFactory.createFromObject(a); final SingleInputBroadcastIterator it = new SingleInputBroadcastIterator(da, o, true); final Dataset result = it.getOutput(); final int is = result.getElementsPerItem(); final int dt = result.getDType(); switch (dt) { case Dataset.INT8: final byte[] oi8data = ((ByteDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.sin(ix)); oi8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.sin(ix)); oi8data[it.oIndex] = ox; } } break; case Dataset.INT16: final short[] oi16data = ((ShortDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.sin(ix)); oi16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.sin(ix)); oi16data[it.oIndex] = ox; } } break; case Dataset.INT64: final long[] oi64data = ((LongDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.sin(ix)); oi64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.sin(ix)); oi64data[it.oIndex] = ox; } } break; case Dataset.INT32: final int[] oi32data = ((IntegerDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.sin(ix)); oi32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.sin(ix)); oi32data[it.oIndex] = ox; } } break; case Dataset.ARRAYINT8: final byte[] oai8data = ((CompoundByteDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.sin(ix)); oai8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.sin(ix)); oai8data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.sin(ix)); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.sin(ix)); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); byte ox; ox = (byte) toLong(Math.sin(ix)); oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); byte ox; ox = (byte) toLong(Math.sin(ix)); oai8data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT16: final short[] oai16data = ((CompoundShortDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.sin(ix)); oai16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.sin(ix)); oai16data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.sin(ix)); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.sin(ix)); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); short ox; ox = (short) toLong(Math.sin(ix)); oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); short ox; ox = (short) toLong(Math.sin(ix)); oai16data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT64: final long[] oai64data = ((CompoundLongDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.sin(ix)); oai64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.sin(ix)); oai64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.sin(ix)); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.sin(ix)); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); long ox; ox = toLong(Math.sin(ix)); oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); long ox; ox = toLong(Math.sin(ix)); oai64data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT32: final int[] oai32data = ((CompoundIntegerDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.sin(ix)); oai32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.sin(ix)); oai32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.sin(ix)); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.sin(ix)); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); int ox; ox = (int) toLong(Math.sin(ix)); oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); int ox; ox = (int) toLong(Math.sin(ix)); oai32data[it.oIndex + j] = ox; } } } } break; case Dataset.FLOAT32: final float[] of32data = ((FloatDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.sin(ix)); of32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.sin(ix)); of32data[it.oIndex] = ox; } } break; case Dataset.FLOAT64: final double[] of64data = ((DoubleDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.sin(ix)); of64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.sin(ix)); of64data[it.oIndex] = ox; } } break; case Dataset.ARRAYFLOAT32: final float[] oaf32data = ((CompoundFloatDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.sin(ix)); oaf32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.sin(ix)); oaf32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.sin(ix)); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.sin(ix)); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); float ox; ox = (float) (Math.sin(ix)); oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); float ox; ox = (float) (Math.sin(ix)); oaf32data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYFLOAT64: final double[] oaf64data = ((CompoundDoubleDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.sin(ix)); oaf64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.sin(ix)); oaf64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.sin(ix)); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.sin(ix)); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); double ox; ox = (Math.sin(ix)); oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); double ox; ox = (Math.sin(ix)); oaf64data[it.oIndex + j] = ox; } } } } break; case Dataset.COMPLEX64: final float[] oc64data = ((ComplexFloatDataset) result).data; if (da.getElementsPerItem() == 1) { final double iy = 0; while (it.hasNext()) { final double ix = it.aDouble; float ox; float oy; ox = (float) (Math.sin(ix) * Math.cosh(iy)); oy = (float) (Math.cos(ix) * Math.sinh(iy)); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double ix = it.aDouble; final double iy = da.getElementDoubleAbs(it.aIndex + 1); float ox; float oy; ox = (float) (Math.sin(ix) * Math.cosh(iy)); oy = (float) (Math.cos(ix) * Math.sinh(iy)); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } break; case Dataset.COMPLEX128: final double[] oc128data = ((ComplexDoubleDataset) result).data; if (da.getElementsPerItem() == 1) { final double iy = 0; while (it.hasNext()) { final double ix = it.aDouble; double ox; double oy; ox = (Math.sin(ix) * Math.cosh(iy)); oy = (Math.cos(ix) * Math.sinh(iy)); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double ix = it.aDouble; final double iy = da.getElementDoubleAbs(it.aIndex + 1); double ox; double oy; ox = (Math.sin(ix) * Math.cosh(iy)); oy = (Math.cos(ix) * Math.sinh(iy)); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } break; default: throw new IllegalArgumentException( "sin supports integer, compound integer, real, compound real, complex datasets only"); } addFunctionName(result, "sin"); return result; } /** * cos - evaluate the cosine function on each element of the dataset * @param a * @return dataset */ public static Dataset cos(final Object a) { return cos(a, null); } /** * cos - evaluate the cosine function on each element of the dataset * @param a * @param o output can be null - in which case, a new dataset is created * @return dataset */ public static Dataset cos(final Object a, final Dataset o) { final Dataset da = a instanceof Dataset ? (Dataset) a : DatasetFactory.createFromObject(a); final SingleInputBroadcastIterator it = new SingleInputBroadcastIterator(da, o, true); final Dataset result = it.getOutput(); final int is = result.getElementsPerItem(); final int dt = result.getDType(); switch (dt) { case Dataset.INT8: final byte[] oi8data = ((ByteDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.cos(ix)); oi8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.cos(ix)); oi8data[it.oIndex] = ox; } } break; case Dataset.INT16: final short[] oi16data = ((ShortDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.cos(ix)); oi16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.cos(ix)); oi16data[it.oIndex] = ox; } } break; case Dataset.INT64: final long[] oi64data = ((LongDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.cos(ix)); oi64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.cos(ix)); oi64data[it.oIndex] = ox; } } break; case Dataset.INT32: final int[] oi32data = ((IntegerDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.cos(ix)); oi32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.cos(ix)); oi32data[it.oIndex] = ox; } } break; case Dataset.ARRAYINT8: final byte[] oai8data = ((CompoundByteDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.cos(ix)); oai8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.cos(ix)); oai8data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.cos(ix)); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.cos(ix)); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); byte ox; ox = (byte) toLong(Math.cos(ix)); oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); byte ox; ox = (byte) toLong(Math.cos(ix)); oai8data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT16: final short[] oai16data = ((CompoundShortDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.cos(ix)); oai16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.cos(ix)); oai16data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.cos(ix)); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.cos(ix)); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); short ox; ox = (short) toLong(Math.cos(ix)); oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); short ox; ox = (short) toLong(Math.cos(ix)); oai16data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT64: final long[] oai64data = ((CompoundLongDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.cos(ix)); oai64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.cos(ix)); oai64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.cos(ix)); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.cos(ix)); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); long ox; ox = toLong(Math.cos(ix)); oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); long ox; ox = toLong(Math.cos(ix)); oai64data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT32: final int[] oai32data = ((CompoundIntegerDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.cos(ix)); oai32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.cos(ix)); oai32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.cos(ix)); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.cos(ix)); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); int ox; ox = (int) toLong(Math.cos(ix)); oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); int ox; ox = (int) toLong(Math.cos(ix)); oai32data[it.oIndex + j] = ox; } } } } break; case Dataset.FLOAT32: final float[] of32data = ((FloatDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.cos(ix)); of32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.cos(ix)); of32data[it.oIndex] = ox; } } break; case Dataset.FLOAT64: final double[] of64data = ((DoubleDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.cos(ix)); of64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.cos(ix)); of64data[it.oIndex] = ox; } } break; case Dataset.ARRAYFLOAT32: final float[] oaf32data = ((CompoundFloatDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.cos(ix)); oaf32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.cos(ix)); oaf32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.cos(ix)); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.cos(ix)); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); float ox; ox = (float) (Math.cos(ix)); oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); float ox; ox = (float) (Math.cos(ix)); oaf32data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYFLOAT64: final double[] oaf64data = ((CompoundDoubleDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.cos(ix)); oaf64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.cos(ix)); oaf64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.cos(ix)); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.cos(ix)); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); double ox; ox = (Math.cos(ix)); oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); double ox; ox = (Math.cos(ix)); oaf64data[it.oIndex + j] = ox; } } } } break; case Dataset.COMPLEX64: final float[] oc64data = ((ComplexFloatDataset) result).data; if (da.getElementsPerItem() == 1) { final double iy = 0; while (it.hasNext()) { final double ix = it.aDouble; float ox; float oy; ox = (float) (Math.cos(ix) * Math.cosh(iy)); oy = (float) (-Math.sin(ix) * Math.sinh(iy)); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double ix = it.aDouble; final double iy = da.getElementDoubleAbs(it.aIndex + 1); float ox; float oy; ox = (float) (Math.cos(ix) * Math.cosh(iy)); oy = (float) (-Math.sin(ix) * Math.sinh(iy)); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } break; case Dataset.COMPLEX128: final double[] oc128data = ((ComplexDoubleDataset) result).data; if (da.getElementsPerItem() == 1) { final double iy = 0; while (it.hasNext()) { final double ix = it.aDouble; double ox; double oy; ox = (Math.cos(ix) * Math.cosh(iy)); oy = (-Math.sin(ix) * Math.sinh(iy)); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double ix = it.aDouble; final double iy = da.getElementDoubleAbs(it.aIndex + 1); double ox; double oy; ox = (Math.cos(ix) * Math.cosh(iy)); oy = (-Math.sin(ix) * Math.sinh(iy)); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } break; default: throw new IllegalArgumentException( "cos supports integer, compound integer, real, compound real, complex datasets only"); } addFunctionName(result, "cos"); return result; } /** * tan - evaluate the tangent function on each element of the dataset * @param a * @return dataset */ public static Dataset tan(final Object a) { return tan(a, null); } /** * tan - evaluate the tangent function on each element of the dataset * @param a * @param o output can be null - in which case, a new dataset is created * @return dataset */ public static Dataset tan(final Object a, final Dataset o) { final Dataset da = a instanceof Dataset ? (Dataset) a : DatasetFactory.createFromObject(a); final SingleInputBroadcastIterator it = new SingleInputBroadcastIterator(da, o, true); final Dataset result = it.getOutput(); final int is = result.getElementsPerItem(); final int dt = result.getDType(); switch (dt) { case Dataset.INT8: final byte[] oi8data = ((ByteDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.tan(ix)); oi8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.tan(ix)); oi8data[it.oIndex] = ox; } } break; case Dataset.INT16: final short[] oi16data = ((ShortDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.tan(ix)); oi16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.tan(ix)); oi16data[it.oIndex] = ox; } } break; case Dataset.INT64: final long[] oi64data = ((LongDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.tan(ix)); oi64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.tan(ix)); oi64data[it.oIndex] = ox; } } break; case Dataset.INT32: final int[] oi32data = ((IntegerDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.tan(ix)); oi32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.tan(ix)); oi32data[it.oIndex] = ox; } } break; case Dataset.ARRAYINT8: final byte[] oai8data = ((CompoundByteDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.tan(ix)); oai8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.tan(ix)); oai8data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.tan(ix)); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.tan(ix)); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); byte ox; ox = (byte) toLong(Math.tan(ix)); oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); byte ox; ox = (byte) toLong(Math.tan(ix)); oai8data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT16: final short[] oai16data = ((CompoundShortDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.tan(ix)); oai16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.tan(ix)); oai16data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.tan(ix)); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.tan(ix)); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); short ox; ox = (short) toLong(Math.tan(ix)); oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); short ox; ox = (short) toLong(Math.tan(ix)); oai16data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT64: final long[] oai64data = ((CompoundLongDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.tan(ix)); oai64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.tan(ix)); oai64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.tan(ix)); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.tan(ix)); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); long ox; ox = toLong(Math.tan(ix)); oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); long ox; ox = toLong(Math.tan(ix)); oai64data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT32: final int[] oai32data = ((CompoundIntegerDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.tan(ix)); oai32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.tan(ix)); oai32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.tan(ix)); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.tan(ix)); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); int ox; ox = (int) toLong(Math.tan(ix)); oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); int ox; ox = (int) toLong(Math.tan(ix)); oai32data[it.oIndex + j] = ox; } } } } break; case Dataset.FLOAT32: final float[] of32data = ((FloatDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.tan(ix)); of32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.tan(ix)); of32data[it.oIndex] = ox; } } break; case Dataset.FLOAT64: final double[] of64data = ((DoubleDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.tan(ix)); of64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.tan(ix)); of64data[it.oIndex] = ox; } } break; case Dataset.ARRAYFLOAT32: final float[] oaf32data = ((CompoundFloatDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.tan(ix)); oaf32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.tan(ix)); oaf32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.tan(ix)); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.tan(ix)); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); float ox; ox = (float) (Math.tan(ix)); oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); float ox; ox = (float) (Math.tan(ix)); oaf32data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYFLOAT64: final double[] oaf64data = ((CompoundDoubleDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.tan(ix)); oaf64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.tan(ix)); oaf64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.tan(ix)); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.tan(ix)); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); double ox; ox = (Math.tan(ix)); oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); double ox; ox = (Math.tan(ix)); oaf64data[it.oIndex + j] = ox; } } } } break; case Dataset.COMPLEX64: final float[] oc64data = ((ComplexFloatDataset) result).data; if (da.getElementsPerItem() == 1) { final double iy = 0; while (it.hasNext()) { final double ix = it.aDouble; float x; float y; float tf; float ox; float oy; x = (float) (2. * ix); y = (float) (2. * iy); tf = (float) (1. / (Math.cos(x) + Math.cosh(y))); ox = (float) (tf * Math.sin(x)); oy = (float) (tf * Math.sinh(y)); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double ix = it.aDouble; final double iy = da.getElementDoubleAbs(it.aIndex + 1); float x; float y; float tf; float ox; float oy; x = (float) (2. * ix); y = (float) (2. * iy); tf = (float) (1. / (Math.cos(x) + Math.cosh(y))); ox = (float) (tf * Math.sin(x)); oy = (float) (tf * Math.sinh(y)); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } break; case Dataset.COMPLEX128: final double[] oc128data = ((ComplexDoubleDataset) result).data; if (da.getElementsPerItem() == 1) { final double iy = 0; while (it.hasNext()) { final double ix = it.aDouble; double x; double y; double tf; double ox; double oy; x = (2. * ix); y = (2. * iy); tf = (1. / (Math.cos(x) + Math.cosh(y))); ox = (tf * Math.sin(x)); oy = (tf * Math.sinh(y)); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double ix = it.aDouble; final double iy = da.getElementDoubleAbs(it.aIndex + 1); double x; double y; double tf; double ox; double oy; x = (2. * ix); y = (2. * iy); tf = (1. / (Math.cos(x) + Math.cosh(y))); ox = (tf * Math.sin(x)); oy = (tf * Math.sinh(y)); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } break; default: throw new IllegalArgumentException( "tan supports integer, compound integer, real, compound real, complex datasets only"); } addFunctionName(result, "tan"); return result; } /** * arcsin - evaluate the inverse sine function on each element of the dataset * @param a * @return dataset */ public static Dataset arcsin(final Object a) { return arcsin(a, null); } /** * arcsin - evaluate the inverse sine function on each element of the dataset * @param a * @param o output can be null - in which case, a new dataset is created * @return dataset */ public static Dataset arcsin(final Object a, final Dataset o) { final Dataset da = a instanceof Dataset ? (Dataset) a : DatasetFactory.createFromObject(a); final SingleInputBroadcastIterator it = new SingleInputBroadcastIterator(da, o, true); final Dataset result = it.getOutput(); final int is = result.getElementsPerItem(); final int dt = result.getDType(); switch (dt) { case Dataset.INT8: final byte[] oi8data = ((ByteDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.asin(ix)); oi8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.asin(ix)); oi8data[it.oIndex] = ox; } } break; case Dataset.INT16: final short[] oi16data = ((ShortDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.asin(ix)); oi16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.asin(ix)); oi16data[it.oIndex] = ox; } } break; case Dataset.INT64: final long[] oi64data = ((LongDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.asin(ix)); oi64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.asin(ix)); oi64data[it.oIndex] = ox; } } break; case Dataset.INT32: final int[] oi32data = ((IntegerDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.asin(ix)); oi32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.asin(ix)); oi32data[it.oIndex] = ox; } } break; case Dataset.ARRAYINT8: final byte[] oai8data = ((CompoundByteDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.asin(ix)); oai8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.asin(ix)); oai8data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.asin(ix)); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.asin(ix)); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); byte ox; ox = (byte) toLong(Math.asin(ix)); oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); byte ox; ox = (byte) toLong(Math.asin(ix)); oai8data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT16: final short[] oai16data = ((CompoundShortDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.asin(ix)); oai16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.asin(ix)); oai16data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.asin(ix)); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.asin(ix)); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); short ox; ox = (short) toLong(Math.asin(ix)); oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); short ox; ox = (short) toLong(Math.asin(ix)); oai16data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT64: final long[] oai64data = ((CompoundLongDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.asin(ix)); oai64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.asin(ix)); oai64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.asin(ix)); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.asin(ix)); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); long ox; ox = toLong(Math.asin(ix)); oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); long ox; ox = toLong(Math.asin(ix)); oai64data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT32: final int[] oai32data = ((CompoundIntegerDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.asin(ix)); oai32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.asin(ix)); oai32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.asin(ix)); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.asin(ix)); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); int ox; ox = (int) toLong(Math.asin(ix)); oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); int ox; ox = (int) toLong(Math.asin(ix)); oai32data[it.oIndex + j] = ox; } } } } break; case Dataset.FLOAT32: final float[] of32data = ((FloatDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.asin(ix)); of32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.asin(ix)); of32data[it.oIndex] = ox; } } break; case Dataset.FLOAT64: final double[] of64data = ((DoubleDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.asin(ix)); of64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.asin(ix)); of64data[it.oIndex] = ox; } } break; case Dataset.ARRAYFLOAT32: final float[] oaf32data = ((CompoundFloatDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.asin(ix)); oaf32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.asin(ix)); oaf32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.asin(ix)); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.asin(ix)); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); float ox; ox = (float) (Math.asin(ix)); oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); float ox; ox = (float) (Math.asin(ix)); oaf32data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYFLOAT64: final double[] oaf64data = ((CompoundDoubleDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.asin(ix)); oaf64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.asin(ix)); oaf64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.asin(ix)); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.asin(ix)); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); double ox; ox = (Math.asin(ix)); oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); double ox; ox = (Math.asin(ix)); oaf64data[it.oIndex + j] = ox; } } } } break; case Dataset.COMPLEX64: final float[] oc64data = ((ComplexFloatDataset) result).data; if (da.getElementsPerItem() == 1) { final double iy = 0; while (it.hasNext()) { final double ix = it.aDouble; Complex tz; float ox; float oy; tz = new Complex(ix, iy).asin(); ox = (float) (tz.getReal()); oy = (float) (tz.getImaginary()); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double ix = it.aDouble; final double iy = da.getElementDoubleAbs(it.aIndex + 1); Complex tz; float ox; float oy; tz = new Complex(ix, iy).asin(); ox = (float) (tz.getReal()); oy = (float) (tz.getImaginary()); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } break; case Dataset.COMPLEX128: final double[] oc128data = ((ComplexDoubleDataset) result).data; if (da.getElementsPerItem() == 1) { final double iy = 0; while (it.hasNext()) { final double ix = it.aDouble; Complex tz; double ox; double oy; tz = new Complex(ix, iy).asin(); ox = (tz.getReal()); oy = (tz.getImaginary()); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double ix = it.aDouble; final double iy = da.getElementDoubleAbs(it.aIndex + 1); Complex tz; double ox; double oy; tz = new Complex(ix, iy).asin(); ox = (tz.getReal()); oy = (tz.getImaginary()); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } break; default: throw new IllegalArgumentException( "arcsin supports integer, compound integer, real, compound real, complex datasets only"); } addFunctionName(result, "arcsin"); return result; } /** * arccos - evaluate the inverse cosine function on each element of the dataset * @param a * @return dataset */ public static Dataset arccos(final Object a) { return arccos(a, null); } /** * arccos - evaluate the inverse cosine function on each element of the dataset * @param a * @param o output can be null - in which case, a new dataset is created * @return dataset */ public static Dataset arccos(final Object a, final Dataset o) { final Dataset da = a instanceof Dataset ? (Dataset) a : DatasetFactory.createFromObject(a); final SingleInputBroadcastIterator it = new SingleInputBroadcastIterator(da, o, true); final Dataset result = it.getOutput(); final int is = result.getElementsPerItem(); final int dt = result.getDType(); switch (dt) { case Dataset.INT8: final byte[] oi8data = ((ByteDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.acos(ix)); oi8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.acos(ix)); oi8data[it.oIndex] = ox; } } break; case Dataset.INT16: final short[] oi16data = ((ShortDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.acos(ix)); oi16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.acos(ix)); oi16data[it.oIndex] = ox; } } break; case Dataset.INT64: final long[] oi64data = ((LongDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.acos(ix)); oi64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.acos(ix)); oi64data[it.oIndex] = ox; } } break; case Dataset.INT32: final int[] oi32data = ((IntegerDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.acos(ix)); oi32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.acos(ix)); oi32data[it.oIndex] = ox; } } break; case Dataset.ARRAYINT8: final byte[] oai8data = ((CompoundByteDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.acos(ix)); oai8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.acos(ix)); oai8data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.acos(ix)); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.acos(ix)); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); byte ox; ox = (byte) toLong(Math.acos(ix)); oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); byte ox; ox = (byte) toLong(Math.acos(ix)); oai8data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT16: final short[] oai16data = ((CompoundShortDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.acos(ix)); oai16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.acos(ix)); oai16data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.acos(ix)); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.acos(ix)); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); short ox; ox = (short) toLong(Math.acos(ix)); oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); short ox; ox = (short) toLong(Math.acos(ix)); oai16data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT64: final long[] oai64data = ((CompoundLongDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.acos(ix)); oai64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.acos(ix)); oai64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.acos(ix)); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.acos(ix)); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); long ox; ox = toLong(Math.acos(ix)); oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); long ox; ox = toLong(Math.acos(ix)); oai64data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT32: final int[] oai32data = ((CompoundIntegerDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.acos(ix)); oai32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.acos(ix)); oai32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.acos(ix)); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.acos(ix)); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); int ox; ox = (int) toLong(Math.acos(ix)); oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); int ox; ox = (int) toLong(Math.acos(ix)); oai32data[it.oIndex + j] = ox; } } } } break; case Dataset.FLOAT32: final float[] of32data = ((FloatDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.acos(ix)); of32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.acos(ix)); of32data[it.oIndex] = ox; } } break; case Dataset.FLOAT64: final double[] of64data = ((DoubleDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.acos(ix)); of64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.acos(ix)); of64data[it.oIndex] = ox; } } break; case Dataset.ARRAYFLOAT32: final float[] oaf32data = ((CompoundFloatDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.acos(ix)); oaf32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.acos(ix)); oaf32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.acos(ix)); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.acos(ix)); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); float ox; ox = (float) (Math.acos(ix)); oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); float ox; ox = (float) (Math.acos(ix)); oaf32data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYFLOAT64: final double[] oaf64data = ((CompoundDoubleDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.acos(ix)); oaf64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.acos(ix)); oaf64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.acos(ix)); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.acos(ix)); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); double ox; ox = (Math.acos(ix)); oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); double ox; ox = (Math.acos(ix)); oaf64data[it.oIndex + j] = ox; } } } } break; case Dataset.COMPLEX64: final float[] oc64data = ((ComplexFloatDataset) result).data; if (da.getElementsPerItem() == 1) { final double iy = 0; while (it.hasNext()) { final double ix = it.aDouble; Complex tz; float ox; float oy; tz = new Complex(ix, iy).acos(); ox = (float) (tz.getReal()); oy = (float) (tz.getImaginary()); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double ix = it.aDouble; final double iy = da.getElementDoubleAbs(it.aIndex + 1); Complex tz; float ox; float oy; tz = new Complex(ix, iy).acos(); ox = (float) (tz.getReal()); oy = (float) (tz.getImaginary()); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } break; case Dataset.COMPLEX128: final double[] oc128data = ((ComplexDoubleDataset) result).data; if (da.getElementsPerItem() == 1) { final double iy = 0; while (it.hasNext()) { final double ix = it.aDouble; Complex tz; double ox; double oy; tz = new Complex(ix, iy).acos(); ox = (tz.getReal()); oy = (tz.getImaginary()); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double ix = it.aDouble; final double iy = da.getElementDoubleAbs(it.aIndex + 1); Complex tz; double ox; double oy; tz = new Complex(ix, iy).acos(); ox = (tz.getReal()); oy = (tz.getImaginary()); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } break; default: throw new IllegalArgumentException( "arccos supports integer, compound integer, real, compound real, complex datasets only"); } addFunctionName(result, "arccos"); return result; } /** * arctan - evaluate the inverse tangent function on each element of the dataset * @param a * @return dataset */ public static Dataset arctan(final Object a) { return arctan(a, null); } /** * arctan - evaluate the inverse tangent function on each element of the dataset * @param a * @param o output can be null - in which case, a new dataset is created * @return dataset */ public static Dataset arctan(final Object a, final Dataset o) { final Dataset da = a instanceof Dataset ? (Dataset) a : DatasetFactory.createFromObject(a); final SingleInputBroadcastIterator it = new SingleInputBroadcastIterator(da, o, true); final Dataset result = it.getOutput(); final int is = result.getElementsPerItem(); final int dt = result.getDType(); switch (dt) { case Dataset.INT8: final byte[] oi8data = ((ByteDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.atan(ix)); oi8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.atan(ix)); oi8data[it.oIndex] = ox; } } break; case Dataset.INT16: final short[] oi16data = ((ShortDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.atan(ix)); oi16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.atan(ix)); oi16data[it.oIndex] = ox; } } break; case Dataset.INT64: final long[] oi64data = ((LongDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.atan(ix)); oi64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.atan(ix)); oi64data[it.oIndex] = ox; } } break; case Dataset.INT32: final int[] oi32data = ((IntegerDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.atan(ix)); oi32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.atan(ix)); oi32data[it.oIndex] = ox; } } break; case Dataset.ARRAYINT8: final byte[] oai8data = ((CompoundByteDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.atan(ix)); oai8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.atan(ix)); oai8data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.atan(ix)); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.atan(ix)); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); byte ox; ox = (byte) toLong(Math.atan(ix)); oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); byte ox; ox = (byte) toLong(Math.atan(ix)); oai8data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT16: final short[] oai16data = ((CompoundShortDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.atan(ix)); oai16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.atan(ix)); oai16data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.atan(ix)); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.atan(ix)); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); short ox; ox = (short) toLong(Math.atan(ix)); oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); short ox; ox = (short) toLong(Math.atan(ix)); oai16data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT64: final long[] oai64data = ((CompoundLongDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.atan(ix)); oai64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.atan(ix)); oai64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.atan(ix)); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.atan(ix)); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); long ox; ox = toLong(Math.atan(ix)); oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); long ox; ox = toLong(Math.atan(ix)); oai64data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT32: final int[] oai32data = ((CompoundIntegerDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.atan(ix)); oai32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.atan(ix)); oai32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.atan(ix)); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.atan(ix)); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); int ox; ox = (int) toLong(Math.atan(ix)); oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); int ox; ox = (int) toLong(Math.atan(ix)); oai32data[it.oIndex + j] = ox; } } } } break; case Dataset.FLOAT32: final float[] of32data = ((FloatDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.atan(ix)); of32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.atan(ix)); of32data[it.oIndex] = ox; } } break; case Dataset.FLOAT64: final double[] of64data = ((DoubleDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.atan(ix)); of64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.atan(ix)); of64data[it.oIndex] = ox; } } break; case Dataset.ARRAYFLOAT32: final float[] oaf32data = ((CompoundFloatDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.atan(ix)); oaf32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.atan(ix)); oaf32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.atan(ix)); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.atan(ix)); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); float ox; ox = (float) (Math.atan(ix)); oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); float ox; ox = (float) (Math.atan(ix)); oaf32data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYFLOAT64: final double[] oaf64data = ((CompoundDoubleDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.atan(ix)); oaf64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.atan(ix)); oaf64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.atan(ix)); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.atan(ix)); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); double ox; ox = (Math.atan(ix)); oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); double ox; ox = (Math.atan(ix)); oaf64data[it.oIndex + j] = ox; } } } } break; case Dataset.COMPLEX64: final float[] oc64data = ((ComplexFloatDataset) result).data; if (da.getElementsPerItem() == 1) { final double iy = 0; while (it.hasNext()) { final double ix = it.aDouble; Complex tz; float ox; float oy; tz = new Complex(ix, iy).atan(); ox = (float) (tz.getReal()); oy = (float) (tz.getImaginary()); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double ix = it.aDouble; final double iy = da.getElementDoubleAbs(it.aIndex + 1); Complex tz; float ox; float oy; tz = new Complex(ix, iy).atan(); ox = (float) (tz.getReal()); oy = (float) (tz.getImaginary()); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } break; case Dataset.COMPLEX128: final double[] oc128data = ((ComplexDoubleDataset) result).data; if (da.getElementsPerItem() == 1) { final double iy = 0; while (it.hasNext()) { final double ix = it.aDouble; Complex tz; double ox; double oy; tz = new Complex(ix, iy).atan(); ox = (tz.getReal()); oy = (tz.getImaginary()); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double ix = it.aDouble; final double iy = da.getElementDoubleAbs(it.aIndex + 1); Complex tz; double ox; double oy; tz = new Complex(ix, iy).atan(); ox = (tz.getReal()); oy = (tz.getImaginary()); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } break; default: throw new IllegalArgumentException( "arctan supports integer, compound integer, real, compound real, complex datasets only"); } addFunctionName(result, "arctan"); return result; } /** * sinh - evaluate the hyperbolic sine function on each element of the dataset * @param a * @return dataset */ public static Dataset sinh(final Object a) { return sinh(a, null); } /** * sinh - evaluate the hyperbolic sine function on each element of the dataset * @param a * @param o output can be null - in which case, a new dataset is created * @return dataset */ public static Dataset sinh(final Object a, final Dataset o) { final Dataset da = a instanceof Dataset ? (Dataset) a : DatasetFactory.createFromObject(a); final SingleInputBroadcastIterator it = new SingleInputBroadcastIterator(da, o, true); final Dataset result = it.getOutput(); final int is = result.getElementsPerItem(); final int dt = result.getDType(); switch (dt) { case Dataset.INT8: final byte[] oi8data = ((ByteDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.sinh(ix)); oi8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.sinh(ix)); oi8data[it.oIndex] = ox; } } break; case Dataset.INT16: final short[] oi16data = ((ShortDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.sinh(ix)); oi16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.sinh(ix)); oi16data[it.oIndex] = ox; } } break; case Dataset.INT64: final long[] oi64data = ((LongDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.sinh(ix)); oi64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.sinh(ix)); oi64data[it.oIndex] = ox; } } break; case Dataset.INT32: final int[] oi32data = ((IntegerDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.sinh(ix)); oi32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.sinh(ix)); oi32data[it.oIndex] = ox; } } break; case Dataset.ARRAYINT8: final byte[] oai8data = ((CompoundByteDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.sinh(ix)); oai8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.sinh(ix)); oai8data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.sinh(ix)); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.sinh(ix)); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); byte ox; ox = (byte) toLong(Math.sinh(ix)); oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); byte ox; ox = (byte) toLong(Math.sinh(ix)); oai8data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT16: final short[] oai16data = ((CompoundShortDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.sinh(ix)); oai16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.sinh(ix)); oai16data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.sinh(ix)); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.sinh(ix)); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); short ox; ox = (short) toLong(Math.sinh(ix)); oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); short ox; ox = (short) toLong(Math.sinh(ix)); oai16data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT64: final long[] oai64data = ((CompoundLongDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.sinh(ix)); oai64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.sinh(ix)); oai64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.sinh(ix)); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.sinh(ix)); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); long ox; ox = toLong(Math.sinh(ix)); oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); long ox; ox = toLong(Math.sinh(ix)); oai64data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT32: final int[] oai32data = ((CompoundIntegerDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.sinh(ix)); oai32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.sinh(ix)); oai32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.sinh(ix)); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.sinh(ix)); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); int ox; ox = (int) toLong(Math.sinh(ix)); oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); int ox; ox = (int) toLong(Math.sinh(ix)); oai32data[it.oIndex + j] = ox; } } } } break; case Dataset.FLOAT32: final float[] of32data = ((FloatDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.sinh(ix)); of32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.sinh(ix)); of32data[it.oIndex] = ox; } } break; case Dataset.FLOAT64: final double[] of64data = ((DoubleDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.sinh(ix)); of64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.sinh(ix)); of64data[it.oIndex] = ox; } } break; case Dataset.ARRAYFLOAT32: final float[] oaf32data = ((CompoundFloatDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.sinh(ix)); oaf32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.sinh(ix)); oaf32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.sinh(ix)); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.sinh(ix)); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); float ox; ox = (float) (Math.sinh(ix)); oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); float ox; ox = (float) (Math.sinh(ix)); oaf32data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYFLOAT64: final double[] oaf64data = ((CompoundDoubleDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.sinh(ix)); oaf64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.sinh(ix)); oaf64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.sinh(ix)); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.sinh(ix)); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); double ox; ox = (Math.sinh(ix)); oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); double ox; ox = (Math.sinh(ix)); oaf64data[it.oIndex + j] = ox; } } } } break; case Dataset.COMPLEX64: final float[] oc64data = ((ComplexFloatDataset) result).data; if (da.getElementsPerItem() == 1) { final double iy = 0; while (it.hasNext()) { final double ix = it.aDouble; float ox; float oy; ox = (float) (Math.sinh(ix) * Math.cos(iy)); oy = (float) (Math.cosh(ix) * Math.sin(iy)); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double ix = it.aDouble; final double iy = da.getElementDoubleAbs(it.aIndex + 1); float ox; float oy; ox = (float) (Math.sinh(ix) * Math.cos(iy)); oy = (float) (Math.cosh(ix) * Math.sin(iy)); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } break; case Dataset.COMPLEX128: final double[] oc128data = ((ComplexDoubleDataset) result).data; if (da.getElementsPerItem() == 1) { final double iy = 0; while (it.hasNext()) { final double ix = it.aDouble; double ox; double oy; ox = (Math.sinh(ix) * Math.cos(iy)); oy = (Math.cosh(ix) * Math.sin(iy)); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double ix = it.aDouble; final double iy = da.getElementDoubleAbs(it.aIndex + 1); double ox; double oy; ox = (Math.sinh(ix) * Math.cos(iy)); oy = (Math.cosh(ix) * Math.sin(iy)); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } break; default: throw new IllegalArgumentException( "sinh supports integer, compound integer, real, compound real, complex datasets only"); } addFunctionName(result, "sinh"); return result; } /** * cosh - evaluate the hyperbolic cosine function on each element of the dataset * @param a * @return dataset */ public static Dataset cosh(final Object a) { return cosh(a, null); } /** * cosh - evaluate the hyperbolic cosine function on each element of the dataset * @param a * @param o output can be null - in which case, a new dataset is created * @return dataset */ public static Dataset cosh(final Object a, final Dataset o) { final Dataset da = a instanceof Dataset ? (Dataset) a : DatasetFactory.createFromObject(a); final SingleInputBroadcastIterator it = new SingleInputBroadcastIterator(da, o, true); final Dataset result = it.getOutput(); final int is = result.getElementsPerItem(); final int dt = result.getDType(); switch (dt) { case Dataset.INT8: final byte[] oi8data = ((ByteDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.cosh(ix)); oi8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.cosh(ix)); oi8data[it.oIndex] = ox; } } break; case Dataset.INT16: final short[] oi16data = ((ShortDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.cosh(ix)); oi16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.cosh(ix)); oi16data[it.oIndex] = ox; } } break; case Dataset.INT64: final long[] oi64data = ((LongDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.cosh(ix)); oi64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.cosh(ix)); oi64data[it.oIndex] = ox; } } break; case Dataset.INT32: final int[] oi32data = ((IntegerDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.cosh(ix)); oi32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.cosh(ix)); oi32data[it.oIndex] = ox; } } break; case Dataset.ARRAYINT8: final byte[] oai8data = ((CompoundByteDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.cosh(ix)); oai8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.cosh(ix)); oai8data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.cosh(ix)); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.cosh(ix)); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); byte ox; ox = (byte) toLong(Math.cosh(ix)); oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); byte ox; ox = (byte) toLong(Math.cosh(ix)); oai8data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT16: final short[] oai16data = ((CompoundShortDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.cosh(ix)); oai16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.cosh(ix)); oai16data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.cosh(ix)); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.cosh(ix)); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); short ox; ox = (short) toLong(Math.cosh(ix)); oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); short ox; ox = (short) toLong(Math.cosh(ix)); oai16data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT64: final long[] oai64data = ((CompoundLongDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.cosh(ix)); oai64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.cosh(ix)); oai64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.cosh(ix)); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.cosh(ix)); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); long ox; ox = toLong(Math.cosh(ix)); oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); long ox; ox = toLong(Math.cosh(ix)); oai64data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT32: final int[] oai32data = ((CompoundIntegerDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.cosh(ix)); oai32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.cosh(ix)); oai32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.cosh(ix)); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.cosh(ix)); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); int ox; ox = (int) toLong(Math.cosh(ix)); oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); int ox; ox = (int) toLong(Math.cosh(ix)); oai32data[it.oIndex + j] = ox; } } } } break; case Dataset.FLOAT32: final float[] of32data = ((FloatDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.cosh(ix)); of32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.cosh(ix)); of32data[it.oIndex] = ox; } } break; case Dataset.FLOAT64: final double[] of64data = ((DoubleDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.cosh(ix)); of64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.cosh(ix)); of64data[it.oIndex] = ox; } } break; case Dataset.ARRAYFLOAT32: final float[] oaf32data = ((CompoundFloatDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.cosh(ix)); oaf32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.cosh(ix)); oaf32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.cosh(ix)); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.cosh(ix)); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); float ox; ox = (float) (Math.cosh(ix)); oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); float ox; ox = (float) (Math.cosh(ix)); oaf32data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYFLOAT64: final double[] oaf64data = ((CompoundDoubleDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.cosh(ix)); oaf64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.cosh(ix)); oaf64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.cosh(ix)); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.cosh(ix)); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); double ox; ox = (Math.cosh(ix)); oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); double ox; ox = (Math.cosh(ix)); oaf64data[it.oIndex + j] = ox; } } } } break; case Dataset.COMPLEX64: final float[] oc64data = ((ComplexFloatDataset) result).data; if (da.getElementsPerItem() == 1) { final double iy = 0; while (it.hasNext()) { final double ix = it.aDouble; float ox; float oy; ox = (float) (Math.cosh(ix) * Math.cos(iy)); oy = (float) (Math.sinh(ix) * Math.sin(iy)); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double ix = it.aDouble; final double iy = da.getElementDoubleAbs(it.aIndex + 1); float ox; float oy; ox = (float) (Math.cosh(ix) * Math.cos(iy)); oy = (float) (Math.sinh(ix) * Math.sin(iy)); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } break; case Dataset.COMPLEX128: final double[] oc128data = ((ComplexDoubleDataset) result).data; if (da.getElementsPerItem() == 1) { final double iy = 0; while (it.hasNext()) { final double ix = it.aDouble; double ox; double oy; ox = (Math.cosh(ix) * Math.cos(iy)); oy = (Math.sinh(ix) * Math.sin(iy)); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double ix = it.aDouble; final double iy = da.getElementDoubleAbs(it.aIndex + 1); double ox; double oy; ox = (Math.cosh(ix) * Math.cos(iy)); oy = (Math.sinh(ix) * Math.sin(iy)); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } break; default: throw new IllegalArgumentException( "cosh supports integer, compound integer, real, compound real, complex datasets only"); } addFunctionName(result, "cosh"); return result; } /** * tanh - evaluate the tangent hyperbolic function on each element of the dataset * @param a * @return dataset */ public static Dataset tanh(final Object a) { return tanh(a, null); } /** * tanh - evaluate the tangent hyperbolic function on each element of the dataset * @param a * @param o output can be null - in which case, a new dataset is created * @return dataset */ public static Dataset tanh(final Object a, final Dataset o) { final Dataset da = a instanceof Dataset ? (Dataset) a : DatasetFactory.createFromObject(a); final SingleInputBroadcastIterator it = new SingleInputBroadcastIterator(da, o, true); final Dataset result = it.getOutput(); final int is = result.getElementsPerItem(); final int dt = result.getDType(); switch (dt) { case Dataset.INT8: final byte[] oi8data = ((ByteDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.tanh(ix)); oi8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.tanh(ix)); oi8data[it.oIndex] = ox; } } break; case Dataset.INT16: final short[] oi16data = ((ShortDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.tanh(ix)); oi16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.tanh(ix)); oi16data[it.oIndex] = ox; } } break; case Dataset.INT64: final long[] oi64data = ((LongDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.tanh(ix)); oi64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.tanh(ix)); oi64data[it.oIndex] = ox; } } break; case Dataset.INT32: final int[] oi32data = ((IntegerDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.tanh(ix)); oi32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.tanh(ix)); oi32data[it.oIndex] = ox; } } break; case Dataset.ARRAYINT8: final byte[] oai8data = ((CompoundByteDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.tanh(ix)); oai8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.tanh(ix)); oai8data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.tanh(ix)); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.tanh(ix)); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); byte ox; ox = (byte) toLong(Math.tanh(ix)); oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); byte ox; ox = (byte) toLong(Math.tanh(ix)); oai8data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT16: final short[] oai16data = ((CompoundShortDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.tanh(ix)); oai16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.tanh(ix)); oai16data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.tanh(ix)); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.tanh(ix)); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); short ox; ox = (short) toLong(Math.tanh(ix)); oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); short ox; ox = (short) toLong(Math.tanh(ix)); oai16data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT64: final long[] oai64data = ((CompoundLongDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.tanh(ix)); oai64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.tanh(ix)); oai64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.tanh(ix)); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.tanh(ix)); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); long ox; ox = toLong(Math.tanh(ix)); oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); long ox; ox = toLong(Math.tanh(ix)); oai64data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT32: final int[] oai32data = ((CompoundIntegerDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.tanh(ix)); oai32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.tanh(ix)); oai32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.tanh(ix)); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.tanh(ix)); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); int ox; ox = (int) toLong(Math.tanh(ix)); oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); int ox; ox = (int) toLong(Math.tanh(ix)); oai32data[it.oIndex + j] = ox; } } } } break; case Dataset.FLOAT32: final float[] of32data = ((FloatDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.tanh(ix)); of32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.tanh(ix)); of32data[it.oIndex] = ox; } } break; case Dataset.FLOAT64: final double[] of64data = ((DoubleDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.tanh(ix)); of64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.tanh(ix)); of64data[it.oIndex] = ox; } } break; case Dataset.ARRAYFLOAT32: final float[] oaf32data = ((CompoundFloatDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.tanh(ix)); oaf32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.tanh(ix)); oaf32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.tanh(ix)); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.tanh(ix)); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); float ox; ox = (float) (Math.tanh(ix)); oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); float ox; ox = (float) (Math.tanh(ix)); oaf32data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYFLOAT64: final double[] oaf64data = ((CompoundDoubleDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.tanh(ix)); oaf64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.tanh(ix)); oaf64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.tanh(ix)); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.tanh(ix)); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); double ox; ox = (Math.tanh(ix)); oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); double ox; ox = (Math.tanh(ix)); oaf64data[it.oIndex + j] = ox; } } } } break; case Dataset.COMPLEX64: final float[] oc64data = ((ComplexFloatDataset) result).data; if (da.getElementsPerItem() == 1) { final double iy = 0; while (it.hasNext()) { final double ix = it.aDouble; float tx; float ty; float tf; float ox; float oy; tx = (float) (2. * ix); ty = (float) (2. * iy); tf = (float) (1. / (Math.cos(tx) + Math.cosh(ty))); ox = (float) (tf * Math.sinh(tx)); oy = (float) (tf * Math.sin(ty)); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double ix = it.aDouble; final double iy = da.getElementDoubleAbs(it.aIndex + 1); float tx; float ty; float tf; float ox; float oy; tx = (float) (2. * ix); ty = (float) (2. * iy); tf = (float) (1. / (Math.cos(tx) + Math.cosh(ty))); ox = (float) (tf * Math.sinh(tx)); oy = (float) (tf * Math.sin(ty)); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } break; case Dataset.COMPLEX128: final double[] oc128data = ((ComplexDoubleDataset) result).data; if (da.getElementsPerItem() == 1) { final double iy = 0; while (it.hasNext()) { final double ix = it.aDouble; double tx; double ty; double tf; double ox; double oy; tx = (2. * ix); ty = (2. * iy); tf = (1. / (Math.cos(tx) + Math.cosh(ty))); ox = (tf * Math.sinh(tx)); oy = (tf * Math.sin(ty)); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double ix = it.aDouble; final double iy = da.getElementDoubleAbs(it.aIndex + 1); double tx; double ty; double tf; double ox; double oy; tx = (2. * ix); ty = (2. * iy); tf = (1. / (Math.cos(tx) + Math.cosh(ty))); ox = (tf * Math.sinh(tx)); oy = (tf * Math.sin(ty)); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } break; default: throw new IllegalArgumentException( "tanh supports integer, compound integer, real, compound real, complex datasets only"); } addFunctionName(result, "tanh"); return result; } /** * arcsinh - evaluate the inverse hyperbolic sine function on each element of the dataset * @param a * @return dataset */ public static Dataset arcsinh(final Object a) { return arcsinh(a, null); } /** * arcsinh - evaluate the inverse hyperbolic sine function on each element of the dataset * @param a * @param o output can be null - in which case, a new dataset is created * @return dataset */ public static Dataset arcsinh(final Object a, final Dataset o) { final Dataset da = a instanceof Dataset ? (Dataset) a : DatasetFactory.createFromObject(a); final SingleInputBroadcastIterator it = new SingleInputBroadcastIterator(da, o, true); final Dataset result = it.getOutput(); final int is = result.getElementsPerItem(); final int dt = result.getDType(); switch (dt) { case Dataset.INT8: final byte[] oi8data = ((ByteDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.log(ix + Math.sqrt(ix * ix + 1))); oi8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.log(ix + Math.sqrt(ix * ix + 1))); oi8data[it.oIndex] = ox; } } break; case Dataset.INT16: final short[] oi16data = ((ShortDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.log(ix + Math.sqrt(ix * ix + 1))); oi16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.log(ix + Math.sqrt(ix * ix + 1))); oi16data[it.oIndex] = ox; } } break; case Dataset.INT64: final long[] oi64data = ((LongDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.log(ix + Math.sqrt(ix * ix + 1))); oi64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.log(ix + Math.sqrt(ix * ix + 1))); oi64data[it.oIndex] = ox; } } break; case Dataset.INT32: final int[] oi32data = ((IntegerDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.log(ix + Math.sqrt(ix * ix + 1))); oi32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.log(ix + Math.sqrt(ix * ix + 1))); oi32data[it.oIndex] = ox; } } break; case Dataset.ARRAYINT8: final byte[] oai8data = ((CompoundByteDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.log(ix + Math.sqrt(ix * ix + 1))); oai8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.log(ix + Math.sqrt(ix * ix + 1))); oai8data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.log(ix + Math.sqrt(ix * ix + 1))); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.log(ix + Math.sqrt(ix * ix + 1))); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); byte ox; ox = (byte) toLong(Math.log(ix + Math.sqrt(ix * ix + 1))); oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); byte ox; ox = (byte) toLong(Math.log(ix + Math.sqrt(ix * ix + 1))); oai8data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT16: final short[] oai16data = ((CompoundShortDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.log(ix + Math.sqrt(ix * ix + 1))); oai16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.log(ix + Math.sqrt(ix * ix + 1))); oai16data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.log(ix + Math.sqrt(ix * ix + 1))); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.log(ix + Math.sqrt(ix * ix + 1))); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); short ox; ox = (short) toLong(Math.log(ix + Math.sqrt(ix * ix + 1))); oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); short ox; ox = (short) toLong(Math.log(ix + Math.sqrt(ix * ix + 1))); oai16data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT64: final long[] oai64data = ((CompoundLongDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.log(ix + Math.sqrt(ix * ix + 1))); oai64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.log(ix + Math.sqrt(ix * ix + 1))); oai64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.log(ix + Math.sqrt(ix * ix + 1))); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.log(ix + Math.sqrt(ix * ix + 1))); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); long ox; ox = toLong(Math.log(ix + Math.sqrt(ix * ix + 1))); oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); long ox; ox = toLong(Math.log(ix + Math.sqrt(ix * ix + 1))); oai64data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT32: final int[] oai32data = ((CompoundIntegerDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.log(ix + Math.sqrt(ix * ix + 1))); oai32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.log(ix + Math.sqrt(ix * ix + 1))); oai32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.log(ix + Math.sqrt(ix * ix + 1))); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.log(ix + Math.sqrt(ix * ix + 1))); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); int ox; ox = (int) toLong(Math.log(ix + Math.sqrt(ix * ix + 1))); oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); int ox; ox = (int) toLong(Math.log(ix + Math.sqrt(ix * ix + 1))); oai32data[it.oIndex + j] = ox; } } } } break; case Dataset.FLOAT32: final float[] of32data = ((FloatDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.log(ix + Math.sqrt(ix * ix + 1))); of32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.log(ix + Math.sqrt(ix * ix + 1))); of32data[it.oIndex] = ox; } } break; case Dataset.FLOAT64: final double[] of64data = ((DoubleDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.log(ix + Math.sqrt(ix * ix + 1))); of64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.log(ix + Math.sqrt(ix * ix + 1))); of64data[it.oIndex] = ox; } } break; case Dataset.ARRAYFLOAT32: final float[] oaf32data = ((CompoundFloatDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.log(ix + Math.sqrt(ix * ix + 1))); oaf32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.log(ix + Math.sqrt(ix * ix + 1))); oaf32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.log(ix + Math.sqrt(ix * ix + 1))); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.log(ix + Math.sqrt(ix * ix + 1))); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); float ox; ox = (float) (Math.log(ix + Math.sqrt(ix * ix + 1))); oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); float ox; ox = (float) (Math.log(ix + Math.sqrt(ix * ix + 1))); oaf32data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYFLOAT64: final double[] oaf64data = ((CompoundDoubleDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.log(ix + Math.sqrt(ix * ix + 1))); oaf64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.log(ix + Math.sqrt(ix * ix + 1))); oaf64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.log(ix + Math.sqrt(ix * ix + 1))); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.log(ix + Math.sqrt(ix * ix + 1))); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); double ox; ox = (Math.log(ix + Math.sqrt(ix * ix + 1))); oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); double ox; ox = (Math.log(ix + Math.sqrt(ix * ix + 1))); oaf64data[it.oIndex + j] = ox; } } } } break; case Dataset.COMPLEX64: final float[] oc64data = ((ComplexFloatDataset) result).data; if (da.getElementsPerItem() == 1) { final double iy = 0; while (it.hasNext()) { final double ix = it.aDouble; Complex tz; float ox; float oy; tz = new Complex(-iy, ix).asin(); ox = (float) (tz.getImaginary()); oy = (float) (-tz.getReal()); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double ix = it.aDouble; final double iy = da.getElementDoubleAbs(it.aIndex + 1); Complex tz; float ox; float oy; tz = new Complex(-iy, ix).asin(); ox = (float) (tz.getImaginary()); oy = (float) (-tz.getReal()); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } break; case Dataset.COMPLEX128: final double[] oc128data = ((ComplexDoubleDataset) result).data; if (da.getElementsPerItem() == 1) { final double iy = 0; while (it.hasNext()) { final double ix = it.aDouble; Complex tz; double ox; double oy; tz = new Complex(-iy, ix).asin(); ox = (tz.getImaginary()); oy = (-tz.getReal()); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double ix = it.aDouble; final double iy = da.getElementDoubleAbs(it.aIndex + 1); Complex tz; double ox; double oy; tz = new Complex(-iy, ix).asin(); ox = (tz.getImaginary()); oy = (-tz.getReal()); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } break; default: throw new IllegalArgumentException( "arcsinh supports integer, compound integer, real, compound real, complex datasets only"); } addFunctionName(result, "arcsinh"); return result; } /** * arccosh - evaluate the inverse hyperbolic cosine function on each element of the dataset * @param a * @return dataset */ public static Dataset arccosh(final Object a) { return arccosh(a, null); } /** * arccosh - evaluate the inverse hyperbolic cosine function on each element of the dataset * @param a * @param o output can be null - in which case, a new dataset is created * @return dataset */ public static Dataset arccosh(final Object a, final Dataset o) { final Dataset da = a instanceof Dataset ? (Dataset) a : DatasetFactory.createFromObject(a); final SingleInputBroadcastIterator it = new SingleInputBroadcastIterator(da, o, true); final Dataset result = it.getOutput(); final int is = result.getElementsPerItem(); final int dt = result.getDType(); switch (dt) { case Dataset.INT8: final byte[] oi8data = ((ByteDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.log(ix + Math.sqrt(ix * ix - 1))); oi8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.log(ix + Math.sqrt(ix * ix - 1))); oi8data[it.oIndex] = ox; } } break; case Dataset.INT16: final short[] oi16data = ((ShortDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.log(ix + Math.sqrt(ix * ix - 1))); oi16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.log(ix + Math.sqrt(ix * ix - 1))); oi16data[it.oIndex] = ox; } } break; case Dataset.INT64: final long[] oi64data = ((LongDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.log(ix + Math.sqrt(ix * ix - 1))); oi64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.log(ix + Math.sqrt(ix * ix - 1))); oi64data[it.oIndex] = ox; } } break; case Dataset.INT32: final int[] oi32data = ((IntegerDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.log(ix + Math.sqrt(ix * ix - 1))); oi32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.log(ix + Math.sqrt(ix * ix - 1))); oi32data[it.oIndex] = ox; } } break; case Dataset.ARRAYINT8: final byte[] oai8data = ((CompoundByteDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.log(ix + Math.sqrt(ix * ix - 1))); oai8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.log(ix + Math.sqrt(ix * ix - 1))); oai8data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.log(ix + Math.sqrt(ix * ix - 1))); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.log(ix + Math.sqrt(ix * ix - 1))); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); byte ox; ox = (byte) toLong(Math.log(ix + Math.sqrt(ix * ix - 1))); oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); byte ox; ox = (byte) toLong(Math.log(ix + Math.sqrt(ix * ix - 1))); oai8data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT16: final short[] oai16data = ((CompoundShortDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.log(ix + Math.sqrt(ix * ix - 1))); oai16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.log(ix + Math.sqrt(ix * ix - 1))); oai16data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.log(ix + Math.sqrt(ix * ix - 1))); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.log(ix + Math.sqrt(ix * ix - 1))); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); short ox; ox = (short) toLong(Math.log(ix + Math.sqrt(ix * ix - 1))); oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); short ox; ox = (short) toLong(Math.log(ix + Math.sqrt(ix * ix - 1))); oai16data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT64: final long[] oai64data = ((CompoundLongDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.log(ix + Math.sqrt(ix * ix - 1))); oai64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.log(ix + Math.sqrt(ix * ix - 1))); oai64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.log(ix + Math.sqrt(ix * ix - 1))); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.log(ix + Math.sqrt(ix * ix - 1))); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); long ox; ox = toLong(Math.log(ix + Math.sqrt(ix * ix - 1))); oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); long ox; ox = toLong(Math.log(ix + Math.sqrt(ix * ix - 1))); oai64data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT32: final int[] oai32data = ((CompoundIntegerDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.log(ix + Math.sqrt(ix * ix - 1))); oai32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.log(ix + Math.sqrt(ix * ix - 1))); oai32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.log(ix + Math.sqrt(ix * ix - 1))); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.log(ix + Math.sqrt(ix * ix - 1))); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); int ox; ox = (int) toLong(Math.log(ix + Math.sqrt(ix * ix - 1))); oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); int ox; ox = (int) toLong(Math.log(ix + Math.sqrt(ix * ix - 1))); oai32data[it.oIndex + j] = ox; } } } } break; case Dataset.FLOAT32: final float[] of32data = ((FloatDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.log(ix + Math.sqrt(ix * ix - 1))); of32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.log(ix + Math.sqrt(ix * ix - 1))); of32data[it.oIndex] = ox; } } break; case Dataset.FLOAT64: final double[] of64data = ((DoubleDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.log(ix + Math.sqrt(ix * ix - 1))); of64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.log(ix + Math.sqrt(ix * ix - 1))); of64data[it.oIndex] = ox; } } break; case Dataset.ARRAYFLOAT32: final float[] oaf32data = ((CompoundFloatDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.log(ix + Math.sqrt(ix * ix - 1))); oaf32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.log(ix + Math.sqrt(ix * ix - 1))); oaf32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.log(ix + Math.sqrt(ix * ix - 1))); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.log(ix + Math.sqrt(ix * ix - 1))); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); float ox; ox = (float) (Math.log(ix + Math.sqrt(ix * ix - 1))); oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); float ox; ox = (float) (Math.log(ix + Math.sqrt(ix * ix - 1))); oaf32data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYFLOAT64: final double[] oaf64data = ((CompoundDoubleDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.log(ix + Math.sqrt(ix * ix - 1))); oaf64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.log(ix + Math.sqrt(ix * ix - 1))); oaf64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.log(ix + Math.sqrt(ix * ix - 1))); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.log(ix + Math.sqrt(ix * ix - 1))); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); double ox; ox = (Math.log(ix + Math.sqrt(ix * ix - 1))); oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); double ox; ox = (Math.log(ix + Math.sqrt(ix * ix - 1))); oaf64data[it.oIndex + j] = ox; } } } } break; case Dataset.COMPLEX64: final float[] oc64data = ((ComplexFloatDataset) result).data; if (da.getElementsPerItem() == 1) { final double iy = 0; while (it.hasNext()) { final double ix = it.aDouble; Complex tz; float ox; float oy; tz = new Complex(-iy, ix).acos(); ox = (float) (tz.getImaginary()); oy = (float) (-tz.getReal()); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double ix = it.aDouble; final double iy = da.getElementDoubleAbs(it.aIndex + 1); Complex tz; float ox; float oy; tz = new Complex(-iy, ix).acos(); ox = (float) (tz.getImaginary()); oy = (float) (-tz.getReal()); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } break; case Dataset.COMPLEX128: final double[] oc128data = ((ComplexDoubleDataset) result).data; if (da.getElementsPerItem() == 1) { final double iy = 0; while (it.hasNext()) { final double ix = it.aDouble; Complex tz; double ox; double oy; tz = new Complex(-iy, ix).acos(); ox = (tz.getImaginary()); oy = (-tz.getReal()); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double ix = it.aDouble; final double iy = da.getElementDoubleAbs(it.aIndex + 1); Complex tz; double ox; double oy; tz = new Complex(-iy, ix).acos(); ox = (tz.getImaginary()); oy = (-tz.getReal()); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } break; default: throw new IllegalArgumentException( "arccosh supports integer, compound integer, real, compound real, complex datasets only"); } addFunctionName(result, "arccosh"); return result; } /** * arctanh - evaluate the inverse hyperbolic tangent function on each element of the dataset * @param a * @return dataset */ public static Dataset arctanh(final Object a) { return arctanh(a, null); } /** * arctanh - evaluate the inverse hyperbolic tangent function on each element of the dataset * @param a * @param o output can be null - in which case, a new dataset is created * @return dataset */ public static Dataset arctanh(final Object a, final Dataset o) { final Dataset da = a instanceof Dataset ? (Dataset) a : DatasetFactory.createFromObject(a); final SingleInputBroadcastIterator it = new SingleInputBroadcastIterator(da, o, true); final Dataset result = it.getOutput(); final int is = result.getElementsPerItem(); final int dt = result.getDType(); switch (dt) { case Dataset.INT8: final byte[] oi8data = ((ByteDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(0.5 * Math.log((1 + ix) / (1 - ix))); oi8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(0.5 * Math.log((1 + ix) / (1 - ix))); oi8data[it.oIndex] = ox; } } break; case Dataset.INT16: final short[] oi16data = ((ShortDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(0.5 * Math.log((1 + ix) / (1 - ix))); oi16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(0.5 * Math.log((1 + ix) / (1 - ix))); oi16data[it.oIndex] = ox; } } break; case Dataset.INT64: final long[] oi64data = ((LongDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(0.5 * Math.log((1 + ix) / (1 - ix))); oi64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(0.5 * Math.log((1 + ix) / (1 - ix))); oi64data[it.oIndex] = ox; } } break; case Dataset.INT32: final int[] oi32data = ((IntegerDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(0.5 * Math.log((1 + ix) / (1 - ix))); oi32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(0.5 * Math.log((1 + ix) / (1 - ix))); oi32data[it.oIndex] = ox; } } break; case Dataset.ARRAYINT8: final byte[] oai8data = ((CompoundByteDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(0.5 * Math.log((1 + ix) / (1 - ix))); oai8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(0.5 * Math.log((1 + ix) / (1 - ix))); oai8data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(0.5 * Math.log((1 + ix) / (1 - ix))); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(0.5 * Math.log((1 + ix) / (1 - ix))); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); byte ox; ox = (byte) toLong(0.5 * Math.log((1 + ix) / (1 - ix))); oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); byte ox; ox = (byte) toLong(0.5 * Math.log((1 + ix) / (1 - ix))); oai8data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT16: final short[] oai16data = ((CompoundShortDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(0.5 * Math.log((1 + ix) / (1 - ix))); oai16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(0.5 * Math.log((1 + ix) / (1 - ix))); oai16data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(0.5 * Math.log((1 + ix) / (1 - ix))); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(0.5 * Math.log((1 + ix) / (1 - ix))); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); short ox; ox = (short) toLong(0.5 * Math.log((1 + ix) / (1 - ix))); oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); short ox; ox = (short) toLong(0.5 * Math.log((1 + ix) / (1 - ix))); oai16data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT64: final long[] oai64data = ((CompoundLongDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(0.5 * Math.log((1 + ix) / (1 - ix))); oai64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(0.5 * Math.log((1 + ix) / (1 - ix))); oai64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(0.5 * Math.log((1 + ix) / (1 - ix))); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(0.5 * Math.log((1 + ix) / (1 - ix))); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); long ox; ox = toLong(0.5 * Math.log((1 + ix) / (1 - ix))); oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); long ox; ox = toLong(0.5 * Math.log((1 + ix) / (1 - ix))); oai64data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT32: final int[] oai32data = ((CompoundIntegerDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(0.5 * Math.log((1 + ix) / (1 - ix))); oai32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(0.5 * Math.log((1 + ix) / (1 - ix))); oai32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(0.5 * Math.log((1 + ix) / (1 - ix))); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(0.5 * Math.log((1 + ix) / (1 - ix))); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); int ox; ox = (int) toLong(0.5 * Math.log((1 + ix) / (1 - ix))); oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); int ox; ox = (int) toLong(0.5 * Math.log((1 + ix) / (1 - ix))); oai32data[it.oIndex + j] = ox; } } } } break; case Dataset.FLOAT32: final float[] of32data = ((FloatDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (0.5 * Math.log((1 + ix) / (1 - ix))); of32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (0.5 * Math.log((1 + ix) / (1 - ix))); of32data[it.oIndex] = ox; } } break; case Dataset.FLOAT64: final double[] of64data = ((DoubleDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (0.5 * Math.log((1 + ix) / (1 - ix))); of64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (0.5 * Math.log((1 + ix) / (1 - ix))); of64data[it.oIndex] = ox; } } break; case Dataset.ARRAYFLOAT32: final float[] oaf32data = ((CompoundFloatDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (0.5 * Math.log((1 + ix) / (1 - ix))); oaf32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (0.5 * Math.log((1 + ix) / (1 - ix))); oaf32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (0.5 * Math.log((1 + ix) / (1 - ix))); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (0.5 * Math.log((1 + ix) / (1 - ix))); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); float ox; ox = (float) (0.5 * Math.log((1 + ix) / (1 - ix))); oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); float ox; ox = (float) (0.5 * Math.log((1 + ix) / (1 - ix))); oaf32data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYFLOAT64: final double[] oaf64data = ((CompoundDoubleDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (0.5 * Math.log((1 + ix) / (1 - ix))); oaf64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (0.5 * Math.log((1 + ix) / (1 - ix))); oaf64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (0.5 * Math.log((1 + ix) / (1 - ix))); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (0.5 * Math.log((1 + ix) / (1 - ix))); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); double ox; ox = (0.5 * Math.log((1 + ix) / (1 - ix))); oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); double ox; ox = (0.5 * Math.log((1 + ix) / (1 - ix))); oaf64data[it.oIndex + j] = ox; } } } } break; case Dataset.COMPLEX64: final float[] oc64data = ((ComplexFloatDataset) result).data; if (da.getElementsPerItem() == 1) { final double iy = 0; while (it.hasNext()) { final double ix = it.aDouble; Complex tz; float ox; float oy; tz = new Complex(-iy, ix).atan(); ox = (float) (tz.getImaginary()); oy = (float) (-tz.getReal()); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double ix = it.aDouble; final double iy = da.getElementDoubleAbs(it.aIndex + 1); Complex tz; float ox; float oy; tz = new Complex(-iy, ix).atan(); ox = (float) (tz.getImaginary()); oy = (float) (-tz.getReal()); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } break; case Dataset.COMPLEX128: final double[] oc128data = ((ComplexDoubleDataset) result).data; if (da.getElementsPerItem() == 1) { final double iy = 0; while (it.hasNext()) { final double ix = it.aDouble; Complex tz; double ox; double oy; tz = new Complex(-iy, ix).atan(); ox = (tz.getImaginary()); oy = (-tz.getReal()); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double ix = it.aDouble; final double iy = da.getElementDoubleAbs(it.aIndex + 1); Complex tz; double ox; double oy; tz = new Complex(-iy, ix).atan(); ox = (tz.getImaginary()); oy = (-tz.getReal()); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } break; default: throw new IllegalArgumentException( "arctanh supports integer, compound integer, real, compound real, complex datasets only"); } addFunctionName(result, "arctanh"); return result; } /** * log - evaluate the logarithm function on each element of the dataset * @param a * @return dataset */ public static Dataset log(final Object a) { return log(a, null); } /** * log - evaluate the logarithm function on each element of the dataset * @param a * @param o output can be null - in which case, a new dataset is created * @return dataset */ public static Dataset log(final Object a, final Dataset o) { final Dataset da = a instanceof Dataset ? (Dataset) a : DatasetFactory.createFromObject(a); final SingleInputBroadcastIterator it = new SingleInputBroadcastIterator(da, o, true); final Dataset result = it.getOutput(); final int is = result.getElementsPerItem(); final int dt = result.getDType(); switch (dt) { case Dataset.INT8: final byte[] oi8data = ((ByteDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.log(ix)); oi8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.log(ix)); oi8data[it.oIndex] = ox; } } break; case Dataset.INT16: final short[] oi16data = ((ShortDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.log(ix)); oi16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.log(ix)); oi16data[it.oIndex] = ox; } } break; case Dataset.INT64: final long[] oi64data = ((LongDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.log(ix)); oi64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.log(ix)); oi64data[it.oIndex] = ox; } } break; case Dataset.INT32: final int[] oi32data = ((IntegerDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.log(ix)); oi32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.log(ix)); oi32data[it.oIndex] = ox; } } break; case Dataset.ARRAYINT8: final byte[] oai8data = ((CompoundByteDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.log(ix)); oai8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.log(ix)); oai8data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.log(ix)); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.log(ix)); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); byte ox; ox = (byte) toLong(Math.log(ix)); oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); byte ox; ox = (byte) toLong(Math.log(ix)); oai8data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT16: final short[] oai16data = ((CompoundShortDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.log(ix)); oai16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.log(ix)); oai16data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.log(ix)); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.log(ix)); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); short ox; ox = (short) toLong(Math.log(ix)); oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); short ox; ox = (short) toLong(Math.log(ix)); oai16data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT64: final long[] oai64data = ((CompoundLongDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.log(ix)); oai64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.log(ix)); oai64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.log(ix)); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.log(ix)); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); long ox; ox = toLong(Math.log(ix)); oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); long ox; ox = toLong(Math.log(ix)); oai64data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT32: final int[] oai32data = ((CompoundIntegerDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.log(ix)); oai32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.log(ix)); oai32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.log(ix)); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.log(ix)); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); int ox; ox = (int) toLong(Math.log(ix)); oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); int ox; ox = (int) toLong(Math.log(ix)); oai32data[it.oIndex + j] = ox; } } } } break; case Dataset.FLOAT32: final float[] of32data = ((FloatDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.log(ix)); of32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.log(ix)); of32data[it.oIndex] = ox; } } break; case Dataset.FLOAT64: final double[] of64data = ((DoubleDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.log(ix)); of64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.log(ix)); of64data[it.oIndex] = ox; } } break; case Dataset.ARRAYFLOAT32: final float[] oaf32data = ((CompoundFloatDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.log(ix)); oaf32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.log(ix)); oaf32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.log(ix)); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.log(ix)); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); float ox; ox = (float) (Math.log(ix)); oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); float ox; ox = (float) (Math.log(ix)); oaf32data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYFLOAT64: final double[] oaf64data = ((CompoundDoubleDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.log(ix)); oaf64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.log(ix)); oaf64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.log(ix)); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.log(ix)); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); double ox; ox = (Math.log(ix)); oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); double ox; ox = (Math.log(ix)); oaf64data[it.oIndex + j] = ox; } } } } break; case Dataset.COMPLEX64: final float[] oc64data = ((ComplexFloatDataset) result).data; if (da.getElementsPerItem() == 1) { final double iy = 0; while (it.hasNext()) { final double ix = it.aDouble; float ox; float oy; ox = (float) (Math.log(Math.hypot(ix, iy))); oy = (float) (Math.atan2(iy, ix)); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double ix = it.aDouble; final double iy = da.getElementDoubleAbs(it.aIndex + 1); float ox; float oy; ox = (float) (Math.log(Math.hypot(ix, iy))); oy = (float) (Math.atan2(iy, ix)); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } break; case Dataset.COMPLEX128: final double[] oc128data = ((ComplexDoubleDataset) result).data; if (da.getElementsPerItem() == 1) { final double iy = 0; while (it.hasNext()) { final double ix = it.aDouble; double ox; double oy; ox = (Math.log(Math.hypot(ix, iy))); oy = (Math.atan2(iy, ix)); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double ix = it.aDouble; final double iy = da.getElementDoubleAbs(it.aIndex + 1); double ox; double oy; ox = (Math.log(Math.hypot(ix, iy))); oy = (Math.atan2(iy, ix)); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } break; default: throw new IllegalArgumentException( "log supports integer, compound integer, real, compound real, complex datasets only"); } addFunctionName(result, "log"); return result; } /** * log2 - evaluate the logarithm function on each element of the dataset * @param a * @return dataset */ public static Dataset log2(final Object a) { return log2(a, null); } /** * log2 - evaluate the logarithm function on each element of the dataset * @param a * @param o output can be null - in which case, a new dataset is created * @return dataset */ public static Dataset log2(final Object a, final Dataset o) { final Dataset da = a instanceof Dataset ? (Dataset) a : DatasetFactory.createFromObject(a); final SingleInputBroadcastIterator it = new SingleInputBroadcastIterator(da, o, true); final Dataset result = it.getOutput(); final int is = result.getElementsPerItem(); final int dt = result.getDType(); switch (dt) { case Dataset.INT8: final byte[] oi8data = ((ByteDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.log(ix) / Math.log(2.)); oi8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.log(ix) / Math.log(2.)); oi8data[it.oIndex] = ox; } } break; case Dataset.INT16: final short[] oi16data = ((ShortDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.log(ix) / Math.log(2.)); oi16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.log(ix) / Math.log(2.)); oi16data[it.oIndex] = ox; } } break; case Dataset.INT64: final long[] oi64data = ((LongDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.log(ix) / Math.log(2.)); oi64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.log(ix) / Math.log(2.)); oi64data[it.oIndex] = ox; } } break; case Dataset.INT32: final int[] oi32data = ((IntegerDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.log(ix) / Math.log(2.)); oi32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.log(ix) / Math.log(2.)); oi32data[it.oIndex] = ox; } } break; case Dataset.ARRAYINT8: final byte[] oai8data = ((CompoundByteDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.log(ix) / Math.log(2.)); oai8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.log(ix) / Math.log(2.)); oai8data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.log(ix) / Math.log(2.)); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.log(ix) / Math.log(2.)); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); byte ox; ox = (byte) toLong(Math.log(ix) / Math.log(2.)); oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); byte ox; ox = (byte) toLong(Math.log(ix) / Math.log(2.)); oai8data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT16: final short[] oai16data = ((CompoundShortDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.log(ix) / Math.log(2.)); oai16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.log(ix) / Math.log(2.)); oai16data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.log(ix) / Math.log(2.)); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.log(ix) / Math.log(2.)); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); short ox; ox = (short) toLong(Math.log(ix) / Math.log(2.)); oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); short ox; ox = (short) toLong(Math.log(ix) / Math.log(2.)); oai16data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT64: final long[] oai64data = ((CompoundLongDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.log(ix) / Math.log(2.)); oai64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.log(ix) / Math.log(2.)); oai64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.log(ix) / Math.log(2.)); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.log(ix) / Math.log(2.)); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); long ox; ox = toLong(Math.log(ix) / Math.log(2.)); oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); long ox; ox = toLong(Math.log(ix) / Math.log(2.)); oai64data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT32: final int[] oai32data = ((CompoundIntegerDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.log(ix) / Math.log(2.)); oai32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.log(ix) / Math.log(2.)); oai32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.log(ix) / Math.log(2.)); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.log(ix) / Math.log(2.)); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); int ox; ox = (int) toLong(Math.log(ix) / Math.log(2.)); oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); int ox; ox = (int) toLong(Math.log(ix) / Math.log(2.)); oai32data[it.oIndex + j] = ox; } } } } break; case Dataset.FLOAT32: final float[] of32data = ((FloatDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.log(ix) / Math.log(2.)); of32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.log(ix) / Math.log(2.)); of32data[it.oIndex] = ox; } } break; case Dataset.FLOAT64: final double[] of64data = ((DoubleDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.log(ix) / Math.log(2.)); of64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.log(ix) / Math.log(2.)); of64data[it.oIndex] = ox; } } break; case Dataset.ARRAYFLOAT32: final float[] oaf32data = ((CompoundFloatDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.log(ix) / Math.log(2.)); oaf32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.log(ix) / Math.log(2.)); oaf32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.log(ix) / Math.log(2.)); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.log(ix) / Math.log(2.)); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); float ox; ox = (float) (Math.log(ix) / Math.log(2.)); oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); float ox; ox = (float) (Math.log(ix) / Math.log(2.)); oaf32data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYFLOAT64: final double[] oaf64data = ((CompoundDoubleDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.log(ix) / Math.log(2.)); oaf64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.log(ix) / Math.log(2.)); oaf64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.log(ix) / Math.log(2.)); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.log(ix) / Math.log(2.)); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); double ox; ox = (Math.log(ix) / Math.log(2.)); oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); double ox; ox = (Math.log(ix) / Math.log(2.)); oaf64data[it.oIndex + j] = ox; } } } } break; case Dataset.COMPLEX64: final float[] oc64data = ((ComplexFloatDataset) result).data; if (da.getElementsPerItem() == 1) { final double iy = 0; while (it.hasNext()) { final double ix = it.aDouble; float ox; float oy; ox = (float) (Math.log(Math.hypot(ix, iy)) / Math.log(2.)); oy = (float) (Math.atan2(iy, ix)); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double ix = it.aDouble; final double iy = da.getElementDoubleAbs(it.aIndex + 1); float ox; float oy; ox = (float) (Math.log(Math.hypot(ix, iy)) / Math.log(2.)); oy = (float) (Math.atan2(iy, ix)); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } break; case Dataset.COMPLEX128: final double[] oc128data = ((ComplexDoubleDataset) result).data; if (da.getElementsPerItem() == 1) { final double iy = 0; while (it.hasNext()) { final double ix = it.aDouble; double ox; double oy; ox = (Math.log(Math.hypot(ix, iy)) / Math.log(2.)); oy = (Math.atan2(iy, ix)); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double ix = it.aDouble; final double iy = da.getElementDoubleAbs(it.aIndex + 1); double ox; double oy; ox = (Math.log(Math.hypot(ix, iy)) / Math.log(2.)); oy = (Math.atan2(iy, ix)); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } break; default: throw new IllegalArgumentException( "log2 supports integer, compound integer, real, compound real, complex datasets only"); } addFunctionName(result, "log2"); return result; } /** * log10 - evaluate the logarithm function on each element of the dataset * @param a * @return dataset */ public static Dataset log10(final Object a) { return log10(a, null); } /** * log10 - evaluate the logarithm function on each element of the dataset * @param a * @param o output can be null - in which case, a new dataset is created * @return dataset */ public static Dataset log10(final Object a, final Dataset o) { final Dataset da = a instanceof Dataset ? (Dataset) a : DatasetFactory.createFromObject(a); final SingleInputBroadcastIterator it = new SingleInputBroadcastIterator(da, o, true); final Dataset result = it.getOutput(); final int is = result.getElementsPerItem(); final int dt = result.getDType(); switch (dt) { case Dataset.INT8: final byte[] oi8data = ((ByteDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.log10(ix)); oi8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.log10(ix)); oi8data[it.oIndex] = ox; } } break; case Dataset.INT16: final short[] oi16data = ((ShortDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.log10(ix)); oi16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.log10(ix)); oi16data[it.oIndex] = ox; } } break; case Dataset.INT64: final long[] oi64data = ((LongDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.log10(ix)); oi64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.log10(ix)); oi64data[it.oIndex] = ox; } } break; case Dataset.INT32: final int[] oi32data = ((IntegerDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.log10(ix)); oi32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.log10(ix)); oi32data[it.oIndex] = ox; } } break; case Dataset.ARRAYINT8: final byte[] oai8data = ((CompoundByteDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.log10(ix)); oai8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.log10(ix)); oai8data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.log10(ix)); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.log10(ix)); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); byte ox; ox = (byte) toLong(Math.log10(ix)); oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); byte ox; ox = (byte) toLong(Math.log10(ix)); oai8data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT16: final short[] oai16data = ((CompoundShortDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.log10(ix)); oai16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.log10(ix)); oai16data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.log10(ix)); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.log10(ix)); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); short ox; ox = (short) toLong(Math.log10(ix)); oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); short ox; ox = (short) toLong(Math.log10(ix)); oai16data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT64: final long[] oai64data = ((CompoundLongDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.log10(ix)); oai64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.log10(ix)); oai64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.log10(ix)); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.log10(ix)); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); long ox; ox = toLong(Math.log10(ix)); oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); long ox; ox = toLong(Math.log10(ix)); oai64data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT32: final int[] oai32data = ((CompoundIntegerDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.log10(ix)); oai32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.log10(ix)); oai32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.log10(ix)); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.log10(ix)); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); int ox; ox = (int) toLong(Math.log10(ix)); oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); int ox; ox = (int) toLong(Math.log10(ix)); oai32data[it.oIndex + j] = ox; } } } } break; case Dataset.FLOAT32: final float[] of32data = ((FloatDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.log10(ix)); of32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.log10(ix)); of32data[it.oIndex] = ox; } } break; case Dataset.FLOAT64: final double[] of64data = ((DoubleDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.log10(ix)); of64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.log10(ix)); of64data[it.oIndex] = ox; } } break; case Dataset.ARRAYFLOAT32: final float[] oaf32data = ((CompoundFloatDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.log10(ix)); oaf32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.log10(ix)); oaf32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.log10(ix)); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.log10(ix)); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); float ox; ox = (float) (Math.log10(ix)); oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); float ox; ox = (float) (Math.log10(ix)); oaf32data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYFLOAT64: final double[] oaf64data = ((CompoundDoubleDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.log10(ix)); oaf64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.log10(ix)); oaf64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.log10(ix)); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.log10(ix)); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); double ox; ox = (Math.log10(ix)); oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); double ox; ox = (Math.log10(ix)); oaf64data[it.oIndex + j] = ox; } } } } break; case Dataset.COMPLEX64: final float[] oc64data = ((ComplexFloatDataset) result).data; if (da.getElementsPerItem() == 1) { final double iy = 0; while (it.hasNext()) { final double ix = it.aDouble; float ox; float oy; ox = (float) (Math.log10(Math.hypot(ix, iy))); oy = (float) (Math.atan2(iy, ix)); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double ix = it.aDouble; final double iy = da.getElementDoubleAbs(it.aIndex + 1); float ox; float oy; ox = (float) (Math.log10(Math.hypot(ix, iy))); oy = (float) (Math.atan2(iy, ix)); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } break; case Dataset.COMPLEX128: final double[] oc128data = ((ComplexDoubleDataset) result).data; if (da.getElementsPerItem() == 1) { final double iy = 0; while (it.hasNext()) { final double ix = it.aDouble; double ox; double oy; ox = (Math.log10(Math.hypot(ix, iy))); oy = (Math.atan2(iy, ix)); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double ix = it.aDouble; final double iy = da.getElementDoubleAbs(it.aIndex + 1); double ox; double oy; ox = (Math.log10(Math.hypot(ix, iy))); oy = (Math.atan2(iy, ix)); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } break; default: throw new IllegalArgumentException( "log10 supports integer, compound integer, real, compound real, complex datasets only"); } addFunctionName(result, "log10"); return result; } /** * log1p - evaluate the logarithm function of 1 plus on each element of the dataset * @param a * @return dataset */ public static Dataset log1p(final Object a) { return log1p(a, null); } /** * log1p - evaluate the logarithm function of 1 plus on each element of the dataset * @param a * @param o output can be null - in which case, a new dataset is created * @return dataset */ public static Dataset log1p(final Object a, final Dataset o) { final Dataset da = a instanceof Dataset ? (Dataset) a : DatasetFactory.createFromObject(a); final SingleInputBroadcastIterator it = new SingleInputBroadcastIterator(da, o, true); final Dataset result = it.getOutput(); final int is = result.getElementsPerItem(); final int dt = result.getDType(); switch (dt) { case Dataset.INT8: final byte[] oi8data = ((ByteDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.log1p(ix)); oi8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.log1p(ix)); oi8data[it.oIndex] = ox; } } break; case Dataset.INT16: final short[] oi16data = ((ShortDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.log1p(ix)); oi16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.log1p(ix)); oi16data[it.oIndex] = ox; } } break; case Dataset.INT64: final long[] oi64data = ((LongDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.log1p(ix)); oi64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.log1p(ix)); oi64data[it.oIndex] = ox; } } break; case Dataset.INT32: final int[] oi32data = ((IntegerDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.log1p(ix)); oi32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.log1p(ix)); oi32data[it.oIndex] = ox; } } break; case Dataset.ARRAYINT8: final byte[] oai8data = ((CompoundByteDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.log1p(ix)); oai8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.log1p(ix)); oai8data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.log1p(ix)); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.log1p(ix)); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); byte ox; ox = (byte) toLong(Math.log1p(ix)); oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); byte ox; ox = (byte) toLong(Math.log1p(ix)); oai8data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT16: final short[] oai16data = ((CompoundShortDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.log1p(ix)); oai16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.log1p(ix)); oai16data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.log1p(ix)); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.log1p(ix)); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); short ox; ox = (short) toLong(Math.log1p(ix)); oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); short ox; ox = (short) toLong(Math.log1p(ix)); oai16data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT64: final long[] oai64data = ((CompoundLongDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.log1p(ix)); oai64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.log1p(ix)); oai64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.log1p(ix)); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.log1p(ix)); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); long ox; ox = toLong(Math.log1p(ix)); oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); long ox; ox = toLong(Math.log1p(ix)); oai64data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT32: final int[] oai32data = ((CompoundIntegerDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.log1p(ix)); oai32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.log1p(ix)); oai32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.log1p(ix)); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.log1p(ix)); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); int ox; ox = (int) toLong(Math.log1p(ix)); oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); int ox; ox = (int) toLong(Math.log1p(ix)); oai32data[it.oIndex + j] = ox; } } } } break; case Dataset.FLOAT32: final float[] of32data = ((FloatDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.log1p(ix)); of32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.log1p(ix)); of32data[it.oIndex] = ox; } } break; case Dataset.FLOAT64: final double[] of64data = ((DoubleDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.log1p(ix)); of64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.log1p(ix)); of64data[it.oIndex] = ox; } } break; case Dataset.ARRAYFLOAT32: final float[] oaf32data = ((CompoundFloatDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.log1p(ix)); oaf32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.log1p(ix)); oaf32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.log1p(ix)); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.log1p(ix)); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); float ox; ox = (float) (Math.log1p(ix)); oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); float ox; ox = (float) (Math.log1p(ix)); oaf32data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYFLOAT64: final double[] oaf64data = ((CompoundDoubleDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.log1p(ix)); oaf64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.log1p(ix)); oaf64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.log1p(ix)); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.log1p(ix)); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); double ox; ox = (Math.log1p(ix)); oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); double ox; ox = (Math.log1p(ix)); oaf64data[it.oIndex + j] = ox; } } } } break; case Dataset.COMPLEX64: final float[] oc64data = ((ComplexFloatDataset) result).data; if (da.getElementsPerItem() == 1) { final double iy = 0; while (it.hasNext()) { final double ix = it.aDouble; float ox; float oy; ox = (float) (0.5 * Math.log1p(ix * ix + 2. * ix + iy * iy)); oy = (float) (Math.atan2(iy, ix + 1)); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double ix = it.aDouble; final double iy = da.getElementDoubleAbs(it.aIndex + 1); float ox; float oy; ox = (float) (0.5 * Math.log1p(ix * ix + 2. * ix + iy * iy)); oy = (float) (Math.atan2(iy, ix + 1)); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } break; case Dataset.COMPLEX128: final double[] oc128data = ((ComplexDoubleDataset) result).data; if (da.getElementsPerItem() == 1) { final double iy = 0; while (it.hasNext()) { final double ix = it.aDouble; double ox; double oy; ox = (0.5 * Math.log1p(ix * ix + 2. * ix + iy * iy)); oy = (Math.atan2(iy, ix + 1)); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double ix = it.aDouble; final double iy = da.getElementDoubleAbs(it.aIndex + 1); double ox; double oy; ox = (0.5 * Math.log1p(ix * ix + 2. * ix + iy * iy)); oy = (Math.atan2(iy, ix + 1)); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } break; default: throw new IllegalArgumentException( "log1p supports integer, compound integer, real, compound real, complex datasets only"); } addFunctionName(result, "log1p"); return result; } /** * exp - evaluate the exponential function on each element of the dataset * @param a * @return dataset */ public static Dataset exp(final Object a) { return exp(a, null); } /** * exp - evaluate the exponential function on each element of the dataset * @param a * @param o output can be null - in which case, a new dataset is created * @return dataset */ public static Dataset exp(final Object a, final Dataset o) { final Dataset da = a instanceof Dataset ? (Dataset) a : DatasetFactory.createFromObject(a); final SingleInputBroadcastIterator it = new SingleInputBroadcastIterator(da, o, true); final Dataset result = it.getOutput(); final int is = result.getElementsPerItem(); final int dt = result.getDType(); switch (dt) { case Dataset.INT8: final byte[] oi8data = ((ByteDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.exp(ix)); oi8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.exp(ix)); oi8data[it.oIndex] = ox; } } break; case Dataset.INT16: final short[] oi16data = ((ShortDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.exp(ix)); oi16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.exp(ix)); oi16data[it.oIndex] = ox; } } break; case Dataset.INT64: final long[] oi64data = ((LongDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.exp(ix)); oi64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.exp(ix)); oi64data[it.oIndex] = ox; } } break; case Dataset.INT32: final int[] oi32data = ((IntegerDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.exp(ix)); oi32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.exp(ix)); oi32data[it.oIndex] = ox; } } break; case Dataset.ARRAYINT8: final byte[] oai8data = ((CompoundByteDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.exp(ix)); oai8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.exp(ix)); oai8data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.exp(ix)); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.exp(ix)); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); byte ox; ox = (byte) toLong(Math.exp(ix)); oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); byte ox; ox = (byte) toLong(Math.exp(ix)); oai8data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT16: final short[] oai16data = ((CompoundShortDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.exp(ix)); oai16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.exp(ix)); oai16data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.exp(ix)); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.exp(ix)); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); short ox; ox = (short) toLong(Math.exp(ix)); oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); short ox; ox = (short) toLong(Math.exp(ix)); oai16data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT64: final long[] oai64data = ((CompoundLongDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.exp(ix)); oai64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.exp(ix)); oai64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.exp(ix)); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.exp(ix)); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); long ox; ox = toLong(Math.exp(ix)); oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); long ox; ox = toLong(Math.exp(ix)); oai64data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT32: final int[] oai32data = ((CompoundIntegerDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.exp(ix)); oai32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.exp(ix)); oai32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.exp(ix)); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.exp(ix)); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); int ox; ox = (int) toLong(Math.exp(ix)); oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); int ox; ox = (int) toLong(Math.exp(ix)); oai32data[it.oIndex + j] = ox; } } } } break; case Dataset.FLOAT32: final float[] of32data = ((FloatDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.exp(ix)); of32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.exp(ix)); of32data[it.oIndex] = ox; } } break; case Dataset.FLOAT64: final double[] of64data = ((DoubleDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.exp(ix)); of64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.exp(ix)); of64data[it.oIndex] = ox; } } break; case Dataset.ARRAYFLOAT32: final float[] oaf32data = ((CompoundFloatDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.exp(ix)); oaf32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.exp(ix)); oaf32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.exp(ix)); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.exp(ix)); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); float ox; ox = (float) (Math.exp(ix)); oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); float ox; ox = (float) (Math.exp(ix)); oaf32data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYFLOAT64: final double[] oaf64data = ((CompoundDoubleDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.exp(ix)); oaf64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.exp(ix)); oaf64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.exp(ix)); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.exp(ix)); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); double ox; ox = (Math.exp(ix)); oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); double ox; ox = (Math.exp(ix)); oaf64data[it.oIndex + j] = ox; } } } } break; case Dataset.COMPLEX64: final float[] oc64data = ((ComplexFloatDataset) result).data; if (da.getElementsPerItem() == 1) { final double iy = 0; while (it.hasNext()) { final double ix = it.aDouble; float tf; float ox; float oy; tf = (float) (Math.exp(ix)); ox = (float) (tf * Math.cos(iy)); oy = (float) (tf * Math.sin(iy)); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double ix = it.aDouble; final double iy = da.getElementDoubleAbs(it.aIndex + 1); float tf; float ox; float oy; tf = (float) (Math.exp(ix)); ox = (float) (tf * Math.cos(iy)); oy = (float) (tf * Math.sin(iy)); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } break; case Dataset.COMPLEX128: final double[] oc128data = ((ComplexDoubleDataset) result).data; if (da.getElementsPerItem() == 1) { final double iy = 0; while (it.hasNext()) { final double ix = it.aDouble; double tf; double ox; double oy; tf = (Math.exp(ix)); ox = (tf * Math.cos(iy)); oy = (tf * Math.sin(iy)); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double ix = it.aDouble; final double iy = da.getElementDoubleAbs(it.aIndex + 1); double tf; double ox; double oy; tf = (Math.exp(ix)); ox = (tf * Math.cos(iy)); oy = (tf * Math.sin(iy)); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } break; default: throw new IllegalArgumentException( "exp supports integer, compound integer, real, compound real, complex datasets only"); } addFunctionName(result, "exp"); return result; } /** * expm1 - evaluate the exponential function - 1 on each element of the dataset * @param a * @return dataset */ public static Dataset expm1(final Object a) { return expm1(a, null); } /** * expm1 - evaluate the exponential function - 1 on each element of the dataset * @param a * @param o output can be null - in which case, a new dataset is created * @return dataset */ public static Dataset expm1(final Object a, final Dataset o) { final Dataset da = a instanceof Dataset ? (Dataset) a : DatasetFactory.createFromObject(a); final SingleInputBroadcastIterator it = new SingleInputBroadcastIterator(da, o, true); final Dataset result = it.getOutput(); final int is = result.getElementsPerItem(); final int dt = result.getDType(); switch (dt) { case Dataset.INT8: final byte[] oi8data = ((ByteDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.expm1(ix)); oi8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.expm1(ix)); oi8data[it.oIndex] = ox; } } break; case Dataset.INT16: final short[] oi16data = ((ShortDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.expm1(ix)); oi16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.expm1(ix)); oi16data[it.oIndex] = ox; } } break; case Dataset.INT64: final long[] oi64data = ((LongDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.expm1(ix)); oi64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.expm1(ix)); oi64data[it.oIndex] = ox; } } break; case Dataset.INT32: final int[] oi32data = ((IntegerDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.expm1(ix)); oi32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.expm1(ix)); oi32data[it.oIndex] = ox; } } break; case Dataset.ARRAYINT8: final byte[] oai8data = ((CompoundByteDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.expm1(ix)); oai8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.expm1(ix)); oai8data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.expm1(ix)); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.expm1(ix)); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); byte ox; ox = (byte) toLong(Math.expm1(ix)); oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); byte ox; ox = (byte) toLong(Math.expm1(ix)); oai8data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT16: final short[] oai16data = ((CompoundShortDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.expm1(ix)); oai16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.expm1(ix)); oai16data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.expm1(ix)); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.expm1(ix)); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); short ox; ox = (short) toLong(Math.expm1(ix)); oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); short ox; ox = (short) toLong(Math.expm1(ix)); oai16data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT64: final long[] oai64data = ((CompoundLongDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.expm1(ix)); oai64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.expm1(ix)); oai64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.expm1(ix)); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.expm1(ix)); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); long ox; ox = toLong(Math.expm1(ix)); oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); long ox; ox = toLong(Math.expm1(ix)); oai64data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT32: final int[] oai32data = ((CompoundIntegerDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.expm1(ix)); oai32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.expm1(ix)); oai32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.expm1(ix)); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.expm1(ix)); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); int ox; ox = (int) toLong(Math.expm1(ix)); oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); int ox; ox = (int) toLong(Math.expm1(ix)); oai32data[it.oIndex + j] = ox; } } } } break; case Dataset.FLOAT32: final float[] of32data = ((FloatDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.expm1(ix)); of32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.expm1(ix)); of32data[it.oIndex] = ox; } } break; case Dataset.FLOAT64: final double[] of64data = ((DoubleDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.expm1(ix)); of64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.expm1(ix)); of64data[it.oIndex] = ox; } } break; case Dataset.ARRAYFLOAT32: final float[] oaf32data = ((CompoundFloatDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.expm1(ix)); oaf32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.expm1(ix)); oaf32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.expm1(ix)); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.expm1(ix)); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); float ox; ox = (float) (Math.expm1(ix)); oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); float ox; ox = (float) (Math.expm1(ix)); oaf32data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYFLOAT64: final double[] oaf64data = ((CompoundDoubleDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.expm1(ix)); oaf64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.expm1(ix)); oaf64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.expm1(ix)); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.expm1(ix)); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); double ox; ox = (Math.expm1(ix)); oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); double ox; ox = (Math.expm1(ix)); oaf64data[it.oIndex + j] = ox; } } } } break; case Dataset.COMPLEX64: final float[] oc64data = ((ComplexFloatDataset) result).data; if (da.getElementsPerItem() == 1) { final double iy = 0; while (it.hasNext()) { final double ix = it.aDouble; float tf; float ox; float oy; tf = (float) (Math.expm1(ix)); ox = (float) (tf * Math.cos(iy)); oy = (float) (tf * Math.sin(iy)); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double ix = it.aDouble; final double iy = da.getElementDoubleAbs(it.aIndex + 1); float tf; float ox; float oy; tf = (float) (Math.expm1(ix)); ox = (float) (tf * Math.cos(iy)); oy = (float) (tf * Math.sin(iy)); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } break; case Dataset.COMPLEX128: final double[] oc128data = ((ComplexDoubleDataset) result).data; if (da.getElementsPerItem() == 1) { final double iy = 0; while (it.hasNext()) { final double ix = it.aDouble; double tf; double ox; double oy; tf = (Math.expm1(ix)); ox = (tf * Math.cos(iy)); oy = (tf * Math.sin(iy)); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double ix = it.aDouble; final double iy = da.getElementDoubleAbs(it.aIndex + 1); double tf; double ox; double oy; tf = (Math.expm1(ix)); ox = (tf * Math.cos(iy)); oy = (tf * Math.sin(iy)); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } break; default: throw new IllegalArgumentException( "expm1 supports integer, compound integer, real, compound real, complex datasets only"); } addFunctionName(result, "expm1"); return result; } /** * sqrt - evaluate the square root function on each element of the dataset * @param a * @return dataset */ public static Dataset sqrt(final Object a) { return sqrt(a, null); } /** * sqrt - evaluate the square root function on each element of the dataset * @param a * @param o output can be null - in which case, a new dataset is created * @return dataset */ public static Dataset sqrt(final Object a, final Dataset o) { final Dataset da = a instanceof Dataset ? (Dataset) a : DatasetFactory.createFromObject(a); final SingleInputBroadcastIterator it = new SingleInputBroadcastIterator(da, o, true); final Dataset result = it.getOutput(); final int is = result.getElementsPerItem(); final int dt = result.getDType(); switch (dt) { case Dataset.INT8: final byte[] oi8data = ((ByteDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.sqrt(ix)); oi8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.sqrt(ix)); oi8data[it.oIndex] = ox; } } break; case Dataset.INT16: final short[] oi16data = ((ShortDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.sqrt(ix)); oi16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.sqrt(ix)); oi16data[it.oIndex] = ox; } } break; case Dataset.INT64: final long[] oi64data = ((LongDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.sqrt(ix)); oi64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.sqrt(ix)); oi64data[it.oIndex] = ox; } } break; case Dataset.INT32: final int[] oi32data = ((IntegerDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.sqrt(ix)); oi32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.sqrt(ix)); oi32data[it.oIndex] = ox; } } break; case Dataset.ARRAYINT8: final byte[] oai8data = ((CompoundByteDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.sqrt(ix)); oai8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.sqrt(ix)); oai8data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.sqrt(ix)); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.sqrt(ix)); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); byte ox; ox = (byte) toLong(Math.sqrt(ix)); oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); byte ox; ox = (byte) toLong(Math.sqrt(ix)); oai8data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT16: final short[] oai16data = ((CompoundShortDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.sqrt(ix)); oai16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.sqrt(ix)); oai16data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.sqrt(ix)); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.sqrt(ix)); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); short ox; ox = (short) toLong(Math.sqrt(ix)); oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); short ox; ox = (short) toLong(Math.sqrt(ix)); oai16data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT64: final long[] oai64data = ((CompoundLongDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.sqrt(ix)); oai64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.sqrt(ix)); oai64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.sqrt(ix)); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.sqrt(ix)); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); long ox; ox = toLong(Math.sqrt(ix)); oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); long ox; ox = toLong(Math.sqrt(ix)); oai64data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT32: final int[] oai32data = ((CompoundIntegerDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.sqrt(ix)); oai32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.sqrt(ix)); oai32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.sqrt(ix)); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.sqrt(ix)); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); int ox; ox = (int) toLong(Math.sqrt(ix)); oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); int ox; ox = (int) toLong(Math.sqrt(ix)); oai32data[it.oIndex + j] = ox; } } } } break; case Dataset.FLOAT32: final float[] of32data = ((FloatDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.sqrt(ix)); of32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.sqrt(ix)); of32data[it.oIndex] = ox; } } break; case Dataset.FLOAT64: final double[] of64data = ((DoubleDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.sqrt(ix)); of64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.sqrt(ix)); of64data[it.oIndex] = ox; } } break; case Dataset.ARRAYFLOAT32: final float[] oaf32data = ((CompoundFloatDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.sqrt(ix)); oaf32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.sqrt(ix)); oaf32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.sqrt(ix)); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.sqrt(ix)); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); float ox; ox = (float) (Math.sqrt(ix)); oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); float ox; ox = (float) (Math.sqrt(ix)); oaf32data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYFLOAT64: final double[] oaf64data = ((CompoundDoubleDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.sqrt(ix)); oaf64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.sqrt(ix)); oaf64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.sqrt(ix)); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.sqrt(ix)); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); double ox; ox = (Math.sqrt(ix)); oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); double ox; ox = (Math.sqrt(ix)); oaf64data[it.oIndex + j] = ox; } } } } break; case Dataset.COMPLEX64: final float[] oc64data = ((ComplexFloatDataset) result).data; if (da.getElementsPerItem() == 1) { final double iy = 0; while (it.hasNext()) { final double ix = it.aDouble; Complex tz; float ox; float oy; tz = new Complex(ix, iy).sqrt(); ox = (float) (tz.getReal()); oy = (float) (tz.getImaginary()); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double ix = it.aDouble; final double iy = da.getElementDoubleAbs(it.aIndex + 1); Complex tz; float ox; float oy; tz = new Complex(ix, iy).sqrt(); ox = (float) (tz.getReal()); oy = (float) (tz.getImaginary()); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } break; case Dataset.COMPLEX128: final double[] oc128data = ((ComplexDoubleDataset) result).data; if (da.getElementsPerItem() == 1) { final double iy = 0; while (it.hasNext()) { final double ix = it.aDouble; Complex tz; double ox; double oy; tz = new Complex(ix, iy).sqrt(); ox = (tz.getReal()); oy = (tz.getImaginary()); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double ix = it.aDouble; final double iy = da.getElementDoubleAbs(it.aIndex + 1); Complex tz; double ox; double oy; tz = new Complex(ix, iy).sqrt(); ox = (tz.getReal()); oy = (tz.getImaginary()); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } break; default: throw new IllegalArgumentException( "sqrt supports integer, compound integer, real, compound real, complex datasets only"); } addFunctionName(result, "sqrt"); return result; } /** * cbrt - evaluate the cube root function on each element of the dataset * @param a * @return dataset */ public static Dataset cbrt(final Object a) { return cbrt(a, null); } /** * cbrt - evaluate the cube root function on each element of the dataset * @param a * @param o output can be null - in which case, a new dataset is created * @return dataset */ public static Dataset cbrt(final Object a, final Dataset o) { final Dataset da = a instanceof Dataset ? (Dataset) a : DatasetFactory.createFromObject(a); final SingleInputBroadcastIterator it = new SingleInputBroadcastIterator(da, o, true); final Dataset result = it.getOutput(); final int is = result.getElementsPerItem(); final int dt = result.getDType(); switch (dt) { case Dataset.INT8: final byte[] oi8data = ((ByteDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.cbrt(ix)); oi8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.cbrt(ix)); oi8data[it.oIndex] = ox; } } break; case Dataset.INT16: final short[] oi16data = ((ShortDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.cbrt(ix)); oi16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.cbrt(ix)); oi16data[it.oIndex] = ox; } } break; case Dataset.INT64: final long[] oi64data = ((LongDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.cbrt(ix)); oi64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.cbrt(ix)); oi64data[it.oIndex] = ox; } } break; case Dataset.INT32: final int[] oi32data = ((IntegerDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.cbrt(ix)); oi32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.cbrt(ix)); oi32data[it.oIndex] = ox; } } break; case Dataset.ARRAYINT8: final byte[] oai8data = ((CompoundByteDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.cbrt(ix)); oai8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.cbrt(ix)); oai8data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.cbrt(ix)); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.cbrt(ix)); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); byte ox; ox = (byte) toLong(Math.cbrt(ix)); oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); byte ox; ox = (byte) toLong(Math.cbrt(ix)); oai8data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT16: final short[] oai16data = ((CompoundShortDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.cbrt(ix)); oai16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.cbrt(ix)); oai16data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.cbrt(ix)); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.cbrt(ix)); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); short ox; ox = (short) toLong(Math.cbrt(ix)); oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); short ox; ox = (short) toLong(Math.cbrt(ix)); oai16data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT64: final long[] oai64data = ((CompoundLongDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.cbrt(ix)); oai64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.cbrt(ix)); oai64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.cbrt(ix)); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.cbrt(ix)); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); long ox; ox = toLong(Math.cbrt(ix)); oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); long ox; ox = toLong(Math.cbrt(ix)); oai64data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT32: final int[] oai32data = ((CompoundIntegerDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.cbrt(ix)); oai32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.cbrt(ix)); oai32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.cbrt(ix)); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.cbrt(ix)); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); int ox; ox = (int) toLong(Math.cbrt(ix)); oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); int ox; ox = (int) toLong(Math.cbrt(ix)); oai32data[it.oIndex + j] = ox; } } } } break; case Dataset.FLOAT32: final float[] of32data = ((FloatDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.cbrt(ix)); of32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.cbrt(ix)); of32data[it.oIndex] = ox; } } break; case Dataset.FLOAT64: final double[] of64data = ((DoubleDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.cbrt(ix)); of64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.cbrt(ix)); of64data[it.oIndex] = ox; } } break; case Dataset.ARRAYFLOAT32: final float[] oaf32data = ((CompoundFloatDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.cbrt(ix)); oaf32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.cbrt(ix)); oaf32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.cbrt(ix)); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.cbrt(ix)); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); float ox; ox = (float) (Math.cbrt(ix)); oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); float ox; ox = (float) (Math.cbrt(ix)); oaf32data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYFLOAT64: final double[] oaf64data = ((CompoundDoubleDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.cbrt(ix)); oaf64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.cbrt(ix)); oaf64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.cbrt(ix)); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.cbrt(ix)); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); double ox; ox = (Math.cbrt(ix)); oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); double ox; ox = (Math.cbrt(ix)); oaf64data[it.oIndex + j] = ox; } } } } break; case Dataset.COMPLEX64: final float[] oc64data = ((ComplexFloatDataset) result).data; if (da.getElementsPerItem() == 1) { final double iy = 0; while (it.hasNext()) { final double ix = it.aDouble; Complex tz; float ox; float oy; tz = new Complex(ix, iy).pow(new Complex(1. / 3., 0)); ox = (float) (tz.getReal()); oy = (float) (tz.getImaginary()); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double ix = it.aDouble; final double iy = da.getElementDoubleAbs(it.aIndex + 1); Complex tz; float ox; float oy; tz = new Complex(ix, iy).pow(new Complex(1. / 3., 0)); ox = (float) (tz.getReal()); oy = (float) (tz.getImaginary()); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } break; case Dataset.COMPLEX128: final double[] oc128data = ((ComplexDoubleDataset) result).data; if (da.getElementsPerItem() == 1) { final double iy = 0; while (it.hasNext()) { final double ix = it.aDouble; Complex tz; double ox; double oy; tz = new Complex(ix, iy).pow(new Complex(1. / 3., 0)); ox = (tz.getReal()); oy = (tz.getImaginary()); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double ix = it.aDouble; final double iy = da.getElementDoubleAbs(it.aIndex + 1); Complex tz; double ox; double oy; tz = new Complex(ix, iy).pow(new Complex(1. / 3., 0)); ox = (tz.getReal()); oy = (tz.getImaginary()); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } break; default: throw new IllegalArgumentException( "cbrt supports integer, compound integer, real, compound real, complex datasets only"); } addFunctionName(result, "cbrt"); return result; } /** * square - square each element * @param a * @return dataset */ public static Dataset square(final Object a) { return square(a, null); } /** * square - square each element * @param a * @param o output can be null - in which case, a new dataset is created * @return dataset */ public static Dataset square(final Object a, final Dataset o) { final Dataset da = a instanceof Dataset ? (Dataset) a : DatasetFactory.createFromObject(a); final SingleInputBroadcastIterator it = new SingleInputBroadcastIterator(da, o, true); final Dataset result = it.getOutput(); final int is = result.getElementsPerItem(); final int dt = result.getDType(); switch (dt) { case Dataset.INT8: final byte[] oi8data = ((ByteDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(ix * ix); oi8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(ix * ix); oi8data[it.oIndex] = ox; } } break; case Dataset.INT16: final short[] oi16data = ((ShortDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(ix * ix); oi16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(ix * ix); oi16data[it.oIndex] = ox; } } break; case Dataset.INT64: final long[] oi64data = ((LongDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(ix * ix); oi64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(ix * ix); oi64data[it.oIndex] = ox; } } break; case Dataset.INT32: final int[] oi32data = ((IntegerDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(ix * ix); oi32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(ix * ix); oi32data[it.oIndex] = ox; } } break; case Dataset.ARRAYINT8: final byte[] oai8data = ((CompoundByteDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(ix * ix); oai8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(ix * ix); oai8data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(ix * ix); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(ix * ix); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); byte ox; ox = (byte) toLong(ix * ix); oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); byte ox; ox = (byte) toLong(ix * ix); oai8data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT16: final short[] oai16data = ((CompoundShortDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(ix * ix); oai16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(ix * ix); oai16data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(ix * ix); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(ix * ix); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); short ox; ox = (short) toLong(ix * ix); oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); short ox; ox = (short) toLong(ix * ix); oai16data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT64: final long[] oai64data = ((CompoundLongDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(ix * ix); oai64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(ix * ix); oai64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(ix * ix); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(ix * ix); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); long ox; ox = toLong(ix * ix); oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); long ox; ox = toLong(ix * ix); oai64data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT32: final int[] oai32data = ((CompoundIntegerDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(ix * ix); oai32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(ix * ix); oai32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(ix * ix); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(ix * ix); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); int ox; ox = (int) toLong(ix * ix); oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); int ox; ox = (int) toLong(ix * ix); oai32data[it.oIndex + j] = ox; } } } } break; case Dataset.FLOAT32: final float[] of32data = ((FloatDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (ix * ix); of32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (ix * ix); of32data[it.oIndex] = ox; } } break; case Dataset.FLOAT64: final double[] of64data = ((DoubleDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (ix * ix); of64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (ix * ix); of64data[it.oIndex] = ox; } } break; case Dataset.ARRAYFLOAT32: final float[] oaf32data = ((CompoundFloatDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (ix * ix); oaf32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (ix * ix); oaf32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (ix * ix); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (ix * ix); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); float ox; ox = (float) (ix * ix); oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); float ox; ox = (ix * ix); oaf32data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYFLOAT64: final double[] oaf64data = ((CompoundDoubleDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (ix * ix); oaf64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (ix * ix); oaf64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (ix * ix); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (ix * ix); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); double ox; ox = (ix * ix); oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); double ox; ox = (ix * ix); oaf64data[it.oIndex + j] = ox; } } } } break; case Dataset.COMPLEX64: final float[] oc64data = ((ComplexFloatDataset) result).data; if (da.getElementsPerItem() == 1) { final double iy = 0; while (it.hasNext()) { final double ix = it.aDouble; float ox; float oy; ox = (float) (ix * ix - iy * iy); oy = (float) (2. * ix * iy); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double ix = it.aDouble; final double iy = da.getElementDoubleAbs(it.aIndex + 1); float ox; float oy; ox = (float) (ix * ix - iy * iy); oy = (float) (2. * ix * iy); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } break; case Dataset.COMPLEX128: final double[] oc128data = ((ComplexDoubleDataset) result).data; if (da.getElementsPerItem() == 1) { final double iy = 0; while (it.hasNext()) { final double ix = it.aDouble; double ox; double oy; ox = (ix * ix - iy * iy); oy = (2. * ix * iy); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double ix = it.aDouble; final double iy = da.getElementDoubleAbs(it.aIndex + 1); double ox; double oy; ox = (ix * ix - iy * iy); oy = (2. * ix * iy); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } break; default: throw new IllegalArgumentException( "square supports integer, compound integer, real, compound real, complex datasets only"); } addFunctionName(result, "square"); return result; } /** * floor - evaluate the floor function on each element of the dataset * @param a * @return dataset */ public static Dataset floor(final Object a) { return floor(a, null); } /** * floor - evaluate the floor function on each element of the dataset * @param a * @param o output can be null - in which case, a new dataset is created * @return dataset */ public static Dataset floor(final Object a, final Dataset o) { final Dataset da = a instanceof Dataset ? (Dataset) a : DatasetFactory.createFromObject(a); final SingleInputBroadcastIterator it = new SingleInputBroadcastIterator(da, o, true); final Dataset result = it.getOutput(); final int is = result.getElementsPerItem(); final int dt = result.getDType(); switch (dt) { case Dataset.INT8: final byte[] oi8data = ((ByteDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(ix); oi8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(ix); oi8data[it.oIndex] = ox; } } break; case Dataset.INT16: final short[] oi16data = ((ShortDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(ix); oi16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(ix); oi16data[it.oIndex] = ox; } } break; case Dataset.INT64: final long[] oi64data = ((LongDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(ix); oi64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(ix); oi64data[it.oIndex] = ox; } } break; case Dataset.INT32: final int[] oi32data = ((IntegerDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(ix); oi32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(ix); oi32data[it.oIndex] = ox; } } break; case Dataset.ARRAYINT8: final byte[] oai8data = ((CompoundByteDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(ix); oai8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(ix); oai8data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(ix); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(ix); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); byte ox; ox = (byte) toLong(ix); oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); byte ox; ox = (byte) toLong(ix); oai8data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT16: final short[] oai16data = ((CompoundShortDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(ix); oai16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(ix); oai16data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(ix); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(ix); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); short ox; ox = (short) toLong(ix); oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); short ox; ox = (short) toLong(ix); oai16data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT64: final long[] oai64data = ((CompoundLongDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(ix); oai64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(ix); oai64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(ix); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(ix); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); long ox; ox = toLong(ix); oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); long ox; ox = toLong(ix); oai64data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT32: final int[] oai32data = ((CompoundIntegerDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(ix); oai32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(ix); oai32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(ix); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(ix); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); int ox; ox = (int) toLong(ix); oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); int ox; ox = (int) toLong(ix); oai32data[it.oIndex + j] = ox; } } } } break; case Dataset.FLOAT32: final float[] of32data = ((FloatDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.floor(ix)); of32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.floor(ix)); of32data[it.oIndex] = ox; } } break; case Dataset.FLOAT64: final double[] of64data = ((DoubleDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.floor(ix)); of64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.floor(ix)); of64data[it.oIndex] = ox; } } break; case Dataset.ARRAYFLOAT32: final float[] oaf32data = ((CompoundFloatDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.floor(ix)); oaf32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.floor(ix)); oaf32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.floor(ix)); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.floor(ix)); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); float ox; ox = (float) (Math.floor(ix)); oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); float ox; ox = (float) (Math.floor(ix)); oaf32data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYFLOAT64: final double[] oaf64data = ((CompoundDoubleDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.floor(ix)); oaf64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.floor(ix)); oaf64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.floor(ix)); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.floor(ix)); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); double ox; ox = (Math.floor(ix)); oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); double ox; ox = (Math.floor(ix)); oaf64data[it.oIndex + j] = ox; } } } } break; case Dataset.COMPLEX64: final float[] oc64data = ((ComplexFloatDataset) result).data; if (da.getElementsPerItem() == 1) { final double iy = 0; while (it.hasNext()) { final double ix = it.aDouble; float ox; float oy; ox = (float) (Math.floor(ix)); oy = (float) (Math.floor(iy)); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double ix = it.aDouble; final double iy = da.getElementDoubleAbs(it.aIndex + 1); float ox; float oy; ox = (float) (Math.floor(ix)); oy = (float) (Math.floor(iy)); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } break; case Dataset.COMPLEX128: final double[] oc128data = ((ComplexDoubleDataset) result).data; if (da.getElementsPerItem() == 1) { final double iy = 0; while (it.hasNext()) { final double ix = it.aDouble; double ox; double oy; ox = (Math.floor(ix)); oy = (Math.floor(iy)); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double ix = it.aDouble; final double iy = da.getElementDoubleAbs(it.aIndex + 1); double ox; double oy; ox = (Math.floor(ix)); oy = (Math.floor(iy)); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } break; default: throw new IllegalArgumentException( "floor supports integer, compound integer, real, compound real, complex datasets only"); } addFunctionName(result, "floor"); return result; } /** * ceil - evaluate the ceiling function on each element of the dataset * @param a * @return dataset */ public static Dataset ceil(final Object a) { return ceil(a, null); } /** * ceil - evaluate the ceiling function on each element of the dataset * @param a * @param o output can be null - in which case, a new dataset is created * @return dataset */ public static Dataset ceil(final Object a, final Dataset o) { final Dataset da = a instanceof Dataset ? (Dataset) a : DatasetFactory.createFromObject(a); final SingleInputBroadcastIterator it = new SingleInputBroadcastIterator(da, o, true); final Dataset result = it.getOutput(); final int is = result.getElementsPerItem(); final int dt = result.getDType(); switch (dt) { case Dataset.INT8: final byte[] oi8data = ((ByteDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(ix); oi8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(ix); oi8data[it.oIndex] = ox; } } break; case Dataset.INT16: final short[] oi16data = ((ShortDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(ix); oi16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(ix); oi16data[it.oIndex] = ox; } } break; case Dataset.INT64: final long[] oi64data = ((LongDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(ix); oi64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(ix); oi64data[it.oIndex] = ox; } } break; case Dataset.INT32: final int[] oi32data = ((IntegerDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(ix); oi32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(ix); oi32data[it.oIndex] = ox; } } break; case Dataset.ARRAYINT8: final byte[] oai8data = ((CompoundByteDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(ix); oai8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(ix); oai8data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(ix); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(ix); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); byte ox; ox = (byte) toLong(ix); oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); byte ox; ox = (byte) toLong(ix); oai8data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT16: final short[] oai16data = ((CompoundShortDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(ix); oai16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(ix); oai16data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(ix); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(ix); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); short ox; ox = (short) toLong(ix); oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); short ox; ox = (short) toLong(ix); oai16data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT64: final long[] oai64data = ((CompoundLongDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(ix); oai64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(ix); oai64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(ix); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(ix); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); long ox; ox = toLong(ix); oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); long ox; ox = toLong(ix); oai64data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT32: final int[] oai32data = ((CompoundIntegerDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(ix); oai32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(ix); oai32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(ix); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(ix); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); int ox; ox = (int) toLong(ix); oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); int ox; ox = (int) toLong(ix); oai32data[it.oIndex + j] = ox; } } } } break; case Dataset.FLOAT32: final float[] of32data = ((FloatDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.ceil(ix)); of32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.ceil(ix)); of32data[it.oIndex] = ox; } } break; case Dataset.FLOAT64: final double[] of64data = ((DoubleDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.ceil(ix)); of64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.ceil(ix)); of64data[it.oIndex] = ox; } } break; case Dataset.ARRAYFLOAT32: final float[] oaf32data = ((CompoundFloatDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.ceil(ix)); oaf32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.ceil(ix)); oaf32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.ceil(ix)); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.ceil(ix)); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); float ox; ox = (float) (Math.ceil(ix)); oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); float ox; ox = (float) (Math.ceil(ix)); oaf32data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYFLOAT64: final double[] oaf64data = ((CompoundDoubleDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.ceil(ix)); oaf64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.ceil(ix)); oaf64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.ceil(ix)); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.ceil(ix)); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); double ox; ox = (Math.ceil(ix)); oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); double ox; ox = (Math.ceil(ix)); oaf64data[it.oIndex + j] = ox; } } } } break; case Dataset.COMPLEX64: final float[] oc64data = ((ComplexFloatDataset) result).data; if (da.getElementsPerItem() == 1) { final double iy = 0; while (it.hasNext()) { final double ix = it.aDouble; float ox; float oy; ox = (float) (Math.ceil(ix)); oy = (float) (Math.ceil(iy)); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double ix = it.aDouble; final double iy = da.getElementDoubleAbs(it.aIndex + 1); float ox; float oy; ox = (float) (Math.ceil(ix)); oy = (float) (Math.ceil(iy)); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } break; case Dataset.COMPLEX128: final double[] oc128data = ((ComplexDoubleDataset) result).data; if (da.getElementsPerItem() == 1) { final double iy = 0; while (it.hasNext()) { final double ix = it.aDouble; double ox; double oy; ox = (Math.ceil(ix)); oy = (Math.ceil(iy)); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double ix = it.aDouble; final double iy = da.getElementDoubleAbs(it.aIndex + 1); double ox; double oy; ox = (Math.ceil(ix)); oy = (Math.ceil(iy)); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } break; default: throw new IllegalArgumentException( "ceil supports integer, compound integer, real, compound real, complex datasets only"); } addFunctionName(result, "ceil"); return result; } /** * rint - round each element of the dataset * @param a * @return dataset */ public static Dataset rint(final Object a) { return rint(a, null); } /** * rint - round each element of the dataset * @param a * @param o output can be null - in which case, a new dataset is created * @return dataset */ public static Dataset rint(final Object a, final Dataset o) { final Dataset da = a instanceof Dataset ? (Dataset) a : DatasetFactory.createFromObject(a); final SingleInputBroadcastIterator it = new SingleInputBroadcastIterator(da, o, true); final Dataset result = it.getOutput(); final int is = result.getElementsPerItem(); final int dt = result.getDType(); switch (dt) { case Dataset.INT8: final byte[] oi8data = ((ByteDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(ix); oi8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(ix); oi8data[it.oIndex] = ox; } } break; case Dataset.INT16: final short[] oi16data = ((ShortDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(ix); oi16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(ix); oi16data[it.oIndex] = ox; } } break; case Dataset.INT64: final long[] oi64data = ((LongDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(ix); oi64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(ix); oi64data[it.oIndex] = ox; } } break; case Dataset.INT32: final int[] oi32data = ((IntegerDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(ix); oi32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(ix); oi32data[it.oIndex] = ox; } } break; case Dataset.ARRAYINT8: final byte[] oai8data = ((CompoundByteDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(ix); oai8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(ix); oai8data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(ix); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(ix); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); byte ox; ox = (byte) toLong(ix); oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); byte ox; ox = (byte) toLong(ix); oai8data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT16: final short[] oai16data = ((CompoundShortDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(ix); oai16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(ix); oai16data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(ix); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(ix); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); short ox; ox = (short) toLong(ix); oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); short ox; ox = (short) toLong(ix); oai16data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT64: final long[] oai64data = ((CompoundLongDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(ix); oai64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(ix); oai64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(ix); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(ix); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); long ox; ox = toLong(ix); oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); long ox; ox = toLong(ix); oai64data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT32: final int[] oai32data = ((CompoundIntegerDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(ix); oai32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(ix); oai32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(ix); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(ix); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); int ox; ox = (int) toLong(ix); oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); int ox; ox = (int) toLong(ix); oai32data[it.oIndex + j] = ox; } } } } break; case Dataset.FLOAT32: final float[] of32data = ((FloatDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.rint(ix)); of32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.rint(ix)); of32data[it.oIndex] = ox; } } break; case Dataset.FLOAT64: final double[] of64data = ((DoubleDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.rint(ix)); of64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.rint(ix)); of64data[it.oIndex] = ox; } } break; case Dataset.ARRAYFLOAT32: final float[] oaf32data = ((CompoundFloatDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.rint(ix)); oaf32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.rint(ix)); oaf32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.rint(ix)); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.rint(ix)); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); float ox; ox = (float) (Math.rint(ix)); oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); float ox; ox = (float) (Math.rint(ix)); oaf32data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYFLOAT64: final double[] oaf64data = ((CompoundDoubleDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.rint(ix)); oaf64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.rint(ix)); oaf64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.rint(ix)); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.rint(ix)); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); double ox; ox = (Math.rint(ix)); oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); double ox; ox = (Math.rint(ix)); oaf64data[it.oIndex + j] = ox; } } } } break; case Dataset.COMPLEX64: final float[] oc64data = ((ComplexFloatDataset) result).data; if (da.getElementsPerItem() == 1) { final double iy = 0; while (it.hasNext()) { final double ix = it.aDouble; float ox; float oy; ox = (float) (Math.rint(ix)); oy = (float) (Math.rint(iy)); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double ix = it.aDouble; final double iy = da.getElementDoubleAbs(it.aIndex + 1); float ox; float oy; ox = (float) (Math.rint(ix)); oy = (float) (Math.rint(iy)); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } break; case Dataset.COMPLEX128: final double[] oc128data = ((ComplexDoubleDataset) result).data; if (da.getElementsPerItem() == 1) { final double iy = 0; while (it.hasNext()) { final double ix = it.aDouble; double ox; double oy; ox = (Math.rint(ix)); oy = (Math.rint(iy)); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double ix = it.aDouble; final double iy = da.getElementDoubleAbs(it.aIndex + 1); double ox; double oy; ox = (Math.rint(ix)); oy = (Math.rint(iy)); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } break; default: throw new IllegalArgumentException( "rint supports integer, compound integer, real, compound real, complex datasets only"); } addFunctionName(result, "rint"); return result; } /** * truncate - truncate each element to integers of the dataset * @param a * @return dataset */ public static Dataset truncate(final Object a) { return truncate(a, null); } /** * truncate - truncate each element to integers of the dataset * @param a * @param o output can be null - in which case, a new dataset is created * @return dataset */ public static Dataset truncate(final Object a, final Dataset o) { final Dataset da = a instanceof Dataset ? (Dataset) a : DatasetFactory.createFromObject(a); final SingleInputBroadcastIterator it = new SingleInputBroadcastIterator(da, o, true); final Dataset result = it.getOutput(); final int is = result.getElementsPerItem(); final int dt = result.getDType(); switch (dt) { case Dataset.INT8: final byte[] oi8data = ((ByteDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(ix); oi8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(ix); oi8data[it.oIndex] = ox; } } break; case Dataset.INT16: final short[] oi16data = ((ShortDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(ix); oi16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(ix); oi16data[it.oIndex] = ox; } } break; case Dataset.INT64: final long[] oi64data = ((LongDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(ix); oi64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(ix); oi64data[it.oIndex] = ox; } } break; case Dataset.INT32: final int[] oi32data = ((IntegerDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(ix); oi32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(ix); oi32data[it.oIndex] = ox; } } break; case Dataset.ARRAYINT8: final byte[] oai8data = ((CompoundByteDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(ix); oai8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(ix); oai8data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(ix); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(ix); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); byte ox; ox = (byte) toLong(ix); oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); byte ox; ox = (byte) toLong(ix); oai8data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT16: final short[] oai16data = ((CompoundShortDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(ix); oai16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(ix); oai16data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(ix); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(ix); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); short ox; ox = (short) toLong(ix); oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); short ox; ox = (short) toLong(ix); oai16data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT64: final long[] oai64data = ((CompoundLongDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(ix); oai64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(ix); oai64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(ix); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(ix); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); long ox; ox = toLong(ix); oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); long ox; ox = toLong(ix); oai64data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT32: final int[] oai32data = ((CompoundIntegerDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(ix); oai32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(ix); oai32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(ix); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(ix); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); int ox; ox = (int) toLong(ix); oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); int ox; ox = (int) toLong(ix); oai32data[it.oIndex + j] = ox; } } } } break; case Dataset.FLOAT32: final float[] of32data = ((FloatDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (toLong(ix)); of32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (toLong(ix)); of32data[it.oIndex] = ox; } } break; case Dataset.FLOAT64: final double[] of64data = ((DoubleDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (toLong(ix)); of64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (toLong(ix)); of64data[it.oIndex] = ox; } } break; case Dataset.ARRAYFLOAT32: final float[] oaf32data = ((CompoundFloatDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (toLong(ix)); oaf32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (toLong(ix)); oaf32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (toLong(ix)); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (toLong(ix)); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); float ox; ox = (toLong(ix)); oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); float ox; ox = (toLong(ix)); oaf32data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYFLOAT64: final double[] oaf64data = ((CompoundDoubleDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (toLong(ix)); oaf64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (toLong(ix)); oaf64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (toLong(ix)); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (toLong(ix)); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); double ox; ox = (toLong(ix)); oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); double ox; ox = (toLong(ix)); oaf64data[it.oIndex + j] = ox; } } } } break; case Dataset.COMPLEX64: final float[] oc64data = ((ComplexFloatDataset) result).data; if (da.getElementsPerItem() == 1) { final double iy = 0; while (it.hasNext()) { final double ix = it.aDouble; float ox; float oy; ox = (toLong(ix)); oy = (toLong(iy)); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double ix = it.aDouble; final double iy = da.getElementDoubleAbs(it.aIndex + 1); float ox; float oy; ox = (toLong(ix)); oy = (toLong(iy)); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } break; case Dataset.COMPLEX128: final double[] oc128data = ((ComplexDoubleDataset) result).data; if (da.getElementsPerItem() == 1) { final double iy = 0; while (it.hasNext()) { final double ix = it.aDouble; double ox; double oy; ox = (toLong(ix)); oy = (toLong(iy)); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double ix = it.aDouble; final double iy = da.getElementDoubleAbs(it.aIndex + 1); double ox; double oy; ox = (toLong(ix)); oy = (toLong(iy)); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } break; default: throw new IllegalArgumentException( "truncate supports integer, compound integer, real, compound real, complex datasets only"); } addFunctionName(result, "truncate"); return result; } /** * toDegrees - convert to degrees * @param a * @return dataset */ public static Dataset toDegrees(final Object a) { return toDegrees(a, null); } /** * toDegrees - convert to degrees * @param a * @param o output can be null - in which case, a new dataset is created * @return dataset */ public static Dataset toDegrees(final Object a, final Dataset o) { final Dataset da = a instanceof Dataset ? (Dataset) a : DatasetFactory.createFromObject(a); final SingleInputBroadcastIterator it = new SingleInputBroadcastIterator(da, o, true); final Dataset result = it.getOutput(); final int is = result.getElementsPerItem(); final int dt = result.getDType(); switch (dt) { case Dataset.INT8: final byte[] oi8data = ((ByteDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.toDegrees(ix)); oi8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.toDegrees(ix)); oi8data[it.oIndex] = ox; } } break; case Dataset.INT16: final short[] oi16data = ((ShortDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.toDegrees(ix)); oi16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.toDegrees(ix)); oi16data[it.oIndex] = ox; } } break; case Dataset.INT64: final long[] oi64data = ((LongDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.toDegrees(ix)); oi64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.toDegrees(ix)); oi64data[it.oIndex] = ox; } } break; case Dataset.INT32: final int[] oi32data = ((IntegerDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.toDegrees(ix)); oi32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.toDegrees(ix)); oi32data[it.oIndex] = ox; } } break; case Dataset.ARRAYINT8: final byte[] oai8data = ((CompoundByteDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.toDegrees(ix)); oai8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.toDegrees(ix)); oai8data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.toDegrees(ix)); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.toDegrees(ix)); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); byte ox; ox = (byte) toLong(Math.toDegrees(ix)); oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); byte ox; ox = (byte) toLong(Math.toDegrees(ix)); oai8data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT16: final short[] oai16data = ((CompoundShortDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.toDegrees(ix)); oai16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.toDegrees(ix)); oai16data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.toDegrees(ix)); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.toDegrees(ix)); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); short ox; ox = (short) toLong(Math.toDegrees(ix)); oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); short ox; ox = (short) toLong(Math.toDegrees(ix)); oai16data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT64: final long[] oai64data = ((CompoundLongDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.toDegrees(ix)); oai64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.toDegrees(ix)); oai64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.toDegrees(ix)); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.toDegrees(ix)); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); long ox; ox = toLong(Math.toDegrees(ix)); oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); long ox; ox = toLong(Math.toDegrees(ix)); oai64data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT32: final int[] oai32data = ((CompoundIntegerDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.toDegrees(ix)); oai32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.toDegrees(ix)); oai32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.toDegrees(ix)); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.toDegrees(ix)); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); int ox; ox = (int) toLong(Math.toDegrees(ix)); oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); int ox; ox = (int) toLong(Math.toDegrees(ix)); oai32data[it.oIndex + j] = ox; } } } } break; case Dataset.FLOAT32: final float[] of32data = ((FloatDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.toDegrees(ix)); of32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.toDegrees(ix)); of32data[it.oIndex] = ox; } } break; case Dataset.FLOAT64: final double[] of64data = ((DoubleDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.toDegrees(ix)); of64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.toDegrees(ix)); of64data[it.oIndex] = ox; } } break; case Dataset.ARRAYFLOAT32: final float[] oaf32data = ((CompoundFloatDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.toDegrees(ix)); oaf32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.toDegrees(ix)); oaf32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.toDegrees(ix)); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.toDegrees(ix)); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); float ox; ox = (float) (Math.toDegrees(ix)); oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); float ox; ox = (float) (Math.toDegrees(ix)); oaf32data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYFLOAT64: final double[] oaf64data = ((CompoundDoubleDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.toDegrees(ix)); oaf64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.toDegrees(ix)); oaf64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.toDegrees(ix)); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.toDegrees(ix)); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); double ox; ox = (Math.toDegrees(ix)); oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); double ox; ox = (Math.toDegrees(ix)); oaf64data[it.oIndex + j] = ox; } } } } break; case Dataset.COMPLEX64: final float[] oc64data = ((ComplexFloatDataset) result).data; if (da.getElementsPerItem() == 1) { final double iy = 0; while (it.hasNext()) { final double ix = it.aDouble; float ox; float oy; ox = (float) (Math.toDegrees(ix)); oy = (float) (Math.toDegrees(iy)); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double ix = it.aDouble; final double iy = da.getElementDoubleAbs(it.aIndex + 1); float ox; float oy; ox = (float) (Math.toDegrees(ix)); oy = (float) (Math.toDegrees(iy)); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } break; case Dataset.COMPLEX128: final double[] oc128data = ((ComplexDoubleDataset) result).data; if (da.getElementsPerItem() == 1) { final double iy = 0; while (it.hasNext()) { final double ix = it.aDouble; double ox; double oy; ox = (Math.toDegrees(ix)); oy = (Math.toDegrees(iy)); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double ix = it.aDouble; final double iy = da.getElementDoubleAbs(it.aIndex + 1); double ox; double oy; ox = (Math.toDegrees(ix)); oy = (Math.toDegrees(iy)); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } break; default: throw new IllegalArgumentException( "toDegrees supports integer, compound integer, real, compound real, complex datasets only"); } addFunctionName(result, "toDegrees"); return result; } /** * toRadians - convert to radians * @param a * @return dataset */ public static Dataset toRadians(final Object a) { return toRadians(a, null); } /** * toRadians - convert to radians * @param a * @param o output can be null - in which case, a new dataset is created * @return dataset */ public static Dataset toRadians(final Object a, final Dataset o) { final Dataset da = a instanceof Dataset ? (Dataset) a : DatasetFactory.createFromObject(a); final SingleInputBroadcastIterator it = new SingleInputBroadcastIterator(da, o, true); final Dataset result = it.getOutput(); final int is = result.getElementsPerItem(); final int dt = result.getDType(); switch (dt) { case Dataset.INT8: final byte[] oi8data = ((ByteDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.toRadians(ix)); oi8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.toRadians(ix)); oi8data[it.oIndex] = ox; } } break; case Dataset.INT16: final short[] oi16data = ((ShortDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.toRadians(ix)); oi16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.toRadians(ix)); oi16data[it.oIndex] = ox; } } break; case Dataset.INT64: final long[] oi64data = ((LongDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.toRadians(ix)); oi64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.toRadians(ix)); oi64data[it.oIndex] = ox; } } break; case Dataset.INT32: final int[] oi32data = ((IntegerDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.toRadians(ix)); oi32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.toRadians(ix)); oi32data[it.oIndex] = ox; } } break; case Dataset.ARRAYINT8: final byte[] oai8data = ((CompoundByteDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.toRadians(ix)); oai8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.toRadians(ix)); oai8data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(Math.toRadians(ix)); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(Math.toRadians(ix)); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); byte ox; ox = (byte) toLong(Math.toRadians(ix)); oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); byte ox; ox = (byte) toLong(Math.toRadians(ix)); oai8data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT16: final short[] oai16data = ((CompoundShortDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.toRadians(ix)); oai16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.toRadians(ix)); oai16data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(Math.toRadians(ix)); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(Math.toRadians(ix)); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); short ox; ox = (short) toLong(Math.toRadians(ix)); oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); short ox; ox = (short) toLong(Math.toRadians(ix)); oai16data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT64: final long[] oai64data = ((CompoundLongDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.toRadians(ix)); oai64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.toRadians(ix)); oai64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(Math.toRadians(ix)); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(Math.toRadians(ix)); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); long ox; ox = toLong(Math.toRadians(ix)); oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); long ox; ox = toLong(Math.toRadians(ix)); oai64data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT32: final int[] oai32data = ((CompoundIntegerDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.toRadians(ix)); oai32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.toRadians(ix)); oai32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(Math.toRadians(ix)); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(Math.toRadians(ix)); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); int ox; ox = (int) toLong(Math.toRadians(ix)); oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); int ox; ox = (int) toLong(Math.toRadians(ix)); oai32data[it.oIndex + j] = ox; } } } } break; case Dataset.FLOAT32: final float[] of32data = ((FloatDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.toRadians(ix)); of32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.toRadians(ix)); of32data[it.oIndex] = ox; } } break; case Dataset.FLOAT64: final double[] of64data = ((DoubleDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.toRadians(ix)); of64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.toRadians(ix)); of64data[it.oIndex] = ox; } } break; case Dataset.ARRAYFLOAT32: final float[] oaf32data = ((CompoundFloatDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.toRadians(ix)); oaf32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.toRadians(ix)); oaf32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.toRadians(ix)); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (float) (Math.toRadians(ix)); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); float ox; ox = (float) (Math.toRadians(ix)); oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); float ox; ox = (float) (Math.toRadians(ix)); oaf32data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYFLOAT64: final double[] oaf64data = ((CompoundDoubleDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.toRadians(ix)); oaf64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.toRadians(ix)); oaf64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.toRadians(ix)); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.toRadians(ix)); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); double ox; ox = (Math.toRadians(ix)); oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); double ox; ox = (Math.toRadians(ix)); oaf64data[it.oIndex + j] = ox; } } } } break; case Dataset.COMPLEX64: final float[] oc64data = ((ComplexFloatDataset) result).data; if (da.getElementsPerItem() == 1) { final double iy = 0; while (it.hasNext()) { final double ix = it.aDouble; float ox; float oy; ox = (float) (Math.toRadians(ix)); oy = (float) (Math.toRadians(iy)); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double ix = it.aDouble; final double iy = da.getElementDoubleAbs(it.aIndex + 1); float ox; float oy; ox = (float) (Math.toRadians(ix)); oy = (float) (Math.toRadians(iy)); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } break; case Dataset.COMPLEX128: final double[] oc128data = ((ComplexDoubleDataset) result).data; if (da.getElementsPerItem() == 1) { final double iy = 0; while (it.hasNext()) { final double ix = it.aDouble; double ox; double oy; ox = (Math.toRadians(ix)); oy = (Math.toRadians(iy)); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double ix = it.aDouble; final double iy = da.getElementDoubleAbs(it.aIndex + 1); double ox; double oy; ox = (Math.toRadians(ix)); oy = (Math.toRadians(iy)); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } break; default: throw new IllegalArgumentException( "toRadians supports integer, compound integer, real, compound real, complex datasets only"); } addFunctionName(result, "toRadians"); return result; } /** * signum - sign of each element * @param a * @return dataset */ public static Dataset signum(final Object a) { return signum(a, null); } /** * signum - sign of each element * @param a * @param o output can be null - in which case, a new dataset is created * @return dataset */ public static Dataset signum(final Object a, final Dataset o) { final Dataset da = a instanceof Dataset ? (Dataset) a : DatasetFactory.createFromObject(a); final SingleInputBroadcastIterator it = new SingleInputBroadcastIterator(da, o, true); final Dataset result = it.getOutput(); final int is = result.getElementsPerItem(); final int dt = result.getDType(); switch (dt) { case Dataset.INT8: final byte[] oi8data = ((ByteDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(ix > 0 ? 1 : (ix < 0 ? -1 : 0)); oi8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(ix > 0 ? 1 : (ix < 0 ? -1 : 0)); oi8data[it.oIndex] = ox; } } break; case Dataset.INT16: final short[] oi16data = ((ShortDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(ix > 0 ? 1 : (ix < 0 ? -1 : 0)); oi16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(ix > 0 ? 1 : (ix < 0 ? -1 : 0)); oi16data[it.oIndex] = ox; } } break; case Dataset.INT64: final long[] oi64data = ((LongDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(ix > 0 ? 1 : (ix < 0 ? -1 : 0)); oi64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(ix > 0 ? 1 : (ix < 0 ? -1 : 0)); oi64data[it.oIndex] = ox; } } break; case Dataset.INT32: final int[] oi32data = ((IntegerDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(ix > 0 ? 1 : (ix < 0 ? -1 : 0)); oi32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(ix > 0 ? 1 : (ix < 0 ? -1 : 0)); oi32data[it.oIndex] = ox; } } break; case Dataset.ARRAYINT8: final byte[] oai8data = ((CompoundByteDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(ix > 0 ? 1 : (ix < 0 ? -1 : 0)); oai8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(ix > 0 ? 1 : (ix < 0 ? -1 : 0)); oai8data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(ix > 0 ? 1 : (ix < 0 ? -1 : 0)); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(ix > 0 ? 1 : (ix < 0 ? -1 : 0)); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); byte ox; ox = (byte) toLong(ix > 0 ? 1 : (ix < 0 ? -1 : 0)); oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); byte ox; ox = (byte) toLong(ix > 0 ? 1 : (ix < 0 ? -1 : 0)); oai8data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT16: final short[] oai16data = ((CompoundShortDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(ix > 0 ? 1 : (ix < 0 ? -1 : 0)); oai16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(ix > 0 ? 1 : (ix < 0 ? -1 : 0)); oai16data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(ix > 0 ? 1 : (ix < 0 ? -1 : 0)); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(ix > 0 ? 1 : (ix < 0 ? -1 : 0)); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); short ox; ox = (short) toLong(ix > 0 ? 1 : (ix < 0 ? -1 : 0)); oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); short ox; ox = (short) toLong(ix > 0 ? 1 : (ix < 0 ? -1 : 0)); oai16data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT64: final long[] oai64data = ((CompoundLongDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(ix > 0 ? 1 : (ix < 0 ? -1 : 0)); oai64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(ix > 0 ? 1 : (ix < 0 ? -1 : 0)); oai64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(ix > 0 ? 1 : (ix < 0 ? -1 : 0)); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(ix > 0 ? 1 : (ix < 0 ? -1 : 0)); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); long ox; ox = toLong(ix > 0 ? 1 : (ix < 0 ? -1 : 0)); oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); long ox; ox = toLong(ix > 0 ? 1 : (ix < 0 ? -1 : 0)); oai64data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT32: final int[] oai32data = ((CompoundIntegerDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(ix > 0 ? 1 : (ix < 0 ? -1 : 0)); oai32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(ix > 0 ? 1 : (ix < 0 ? -1 : 0)); oai32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(ix > 0 ? 1 : (ix < 0 ? -1 : 0)); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(ix > 0 ? 1 : (ix < 0 ? -1 : 0)); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); int ox; ox = (int) toLong(ix > 0 ? 1 : (ix < 0 ? -1 : 0)); oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); int ox; ox = (int) toLong(ix > 0 ? 1 : (ix < 0 ? -1 : 0)); oai32data[it.oIndex + j] = ox; } } } } break; case Dataset.FLOAT32: final float[] of32data = ((FloatDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.signum(ix)); of32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (Math.signum(ix)); of32data[it.oIndex] = ox; } } break; case Dataset.FLOAT64: final double[] of64data = ((DoubleDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.signum(ix)); of64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.signum(ix)); of64data[it.oIndex] = ox; } } break; case Dataset.ARRAYFLOAT32: final float[] oaf32data = ((CompoundFloatDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.signum(ix)); oaf32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (Math.signum(ix)); oaf32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (Math.signum(ix)); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (Math.signum(ix)); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); float ox; ox = (float) (Math.signum(ix)); oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); float ox; ox = (Math.signum(ix)); oaf32data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYFLOAT64: final double[] oaf64data = ((CompoundDoubleDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.signum(ix)); oaf64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.signum(ix)); oaf64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (Math.signum(ix)); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (Math.signum(ix)); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); double ox; ox = (Math.signum(ix)); oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); double ox; ox = (Math.signum(ix)); oaf64data[it.oIndex + j] = ox; } } } } break; case Dataset.COMPLEX64: final float[] oc64data = ((ComplexFloatDataset) result).data; if (da.getElementsPerItem() == 1) { final double iy = 0; while (it.hasNext()) { final double ix = it.aDouble; float ox; float oy; ox = (float) (Math.signum(ix)); oy = (float) (Math.signum(iy)); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double ix = it.aDouble; final double iy = da.getElementDoubleAbs(it.aIndex + 1); float ox; float oy; ox = (float) (Math.signum(ix)); oy = (float) (Math.signum(iy)); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } break; case Dataset.COMPLEX128: final double[] oc128data = ((ComplexDoubleDataset) result).data; if (da.getElementsPerItem() == 1) { final double iy = 0; while (it.hasNext()) { final double ix = it.aDouble; double ox; double oy; ox = (Math.signum(ix)); oy = (Math.signum(iy)); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double ix = it.aDouble; final double iy = da.getElementDoubleAbs(it.aIndex + 1); double ox; double oy; ox = (Math.signum(ix)); oy = (Math.signum(iy)); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } break; default: throw new IllegalArgumentException( "signum supports integer, compound integer, real, compound real, complex datasets only"); } addFunctionName(result, "signum"); return result; } /** * negative - negative value of each element * @param a * @return dataset */ public static Dataset negative(final Object a) { return negative(a, null); } /** * negative - negative value of each element * @param a * @param o output can be null - in which case, a new dataset is created * @return dataset */ public static Dataset negative(final Object a, final Dataset o) { final Dataset da = a instanceof Dataset ? (Dataset) a : DatasetFactory.createFromObject(a); final SingleInputBroadcastIterator it = new SingleInputBroadcastIterator(da, o, true); final Dataset result = it.getOutput(); final int is = result.getElementsPerItem(); final int dt = result.getDType(); switch (dt) { case Dataset.INT8: final byte[] oi8data = ((ByteDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(-ix); oi8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(-ix); oi8data[it.oIndex] = ox; } } break; case Dataset.INT16: final short[] oi16data = ((ShortDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(-ix); oi16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(-ix); oi16data[it.oIndex] = ox; } } break; case Dataset.INT64: final long[] oi64data = ((LongDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(-ix); oi64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(-ix); oi64data[it.oIndex] = ox; } } break; case Dataset.INT32: final int[] oi32data = ((IntegerDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(-ix); oi32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(-ix); oi32data[it.oIndex] = ox; } } break; case Dataset.ARRAYINT8: final byte[] oai8data = ((CompoundByteDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(-ix); oai8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(-ix); oai8data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; ox = (byte) toLong(-ix); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; ox = (byte) toLong(-ix); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); byte ox; ox = (byte) toLong(-ix); oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); byte ox; ox = (byte) toLong(-ix); oai8data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT16: final short[] oai16data = ((CompoundShortDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(-ix); oai16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(-ix); oai16data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; ox = (short) toLong(-ix); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; ox = (short) toLong(-ix); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); short ox; ox = (short) toLong(-ix); oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); short ox; ox = (short) toLong(-ix); oai16data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT64: final long[] oai64data = ((CompoundLongDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(-ix); oai64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(-ix); oai64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; ox = toLong(-ix); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; ox = toLong(-ix); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); long ox; ox = toLong(-ix); oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); long ox; ox = toLong(-ix); oai64data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT32: final int[] oai32data = ((CompoundIntegerDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(-ix); oai32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(-ix); oai32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; ox = (int) toLong(-ix); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; ox = (int) toLong(-ix); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); int ox; ox = (int) toLong(-ix); oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); int ox; ox = (int) toLong(-ix); oai32data[it.oIndex + j] = ox; } } } } break; case Dataset.FLOAT32: final float[] of32data = ((FloatDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (-ix); of32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (-ix); of32data[it.oIndex] = ox; } } break; case Dataset.FLOAT64: final double[] of64data = ((DoubleDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (-ix); of64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (-ix); of64data[it.oIndex] = ox; } } break; case Dataset.ARRAYFLOAT32: final float[] oaf32data = ((CompoundFloatDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (-ix); oaf32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (-ix); oaf32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; ox = (float) (-ix); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; ox = (-ix); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); float ox; ox = (float) (-ix); oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); float ox; ox = (-ix); oaf32data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYFLOAT64: final double[] oaf64data = ((CompoundDoubleDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (-ix); oaf64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (-ix); oaf64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; ox = (-ix); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; ox = (-ix); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); double ox; ox = (-ix); oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); double ox; ox = (-ix); oaf64data[it.oIndex + j] = ox; } } } } break; case Dataset.COMPLEX64: final float[] oc64data = ((ComplexFloatDataset) result).data; if (da.getElementsPerItem() == 1) { final double iy = 0; while (it.hasNext()) { final double ix = it.aDouble; float ox; float oy; ox = (float) (-ix); oy = (float) (-iy); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double ix = it.aDouble; final double iy = da.getElementDoubleAbs(it.aIndex + 1); float ox; float oy; ox = (float) (-ix); oy = (float) (-iy); oc64data[it.oIndex] = ox; oc64data[it.oIndex + 1] = oy; } } break; case Dataset.COMPLEX128: final double[] oc128data = ((ComplexDoubleDataset) result).data; if (da.getElementsPerItem() == 1) { final double iy = 0; while (it.hasNext()) { final double ix = it.aDouble; double ox; double oy; ox = (-ix); oy = (-iy); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } else { while (it.hasNext()) { final double ix = it.aDouble; final double iy = da.getElementDoubleAbs(it.aIndex + 1); double ox; double oy; ox = (-ix); oy = (-iy); oc128data[it.oIndex] = ox; oc128data[it.oIndex + 1] = oy; } } break; default: throw new IllegalArgumentException( "negative supports integer, compound integer, real, compound real, complex datasets only"); } addFunctionName(result, "negative"); return result; } /** * clip - clip elements to limits * @param a * @param pa * @param pb * @return dataset */ public static Dataset clip(final Object a, final Object pa, final Object pb) { return clip(a, null, pa, pb); } /** * clip - clip elements to limits * @param a * @param o output can be null - in which case, a new dataset is created * @param pa * @param pb * @return dataset */ public static Dataset clip(final Object a, final Dataset o, final Object pa, final Object pb) { final Dataset da = a instanceof Dataset ? (Dataset) a : DatasetFactory.createFromObject(a); final SingleInputBroadcastIterator it = new SingleInputBroadcastIterator(da, o, true); final Dataset result = it.getOutput(); final int is = result.getElementsPerItem(); final int dt = result.getDType(); final double pax = DTypeUtils.toReal(pa); final double pbx = DTypeUtils.toReal(pb); switch (dt) { case Dataset.INT8: final byte[] oi8data = ((ByteDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; if (ix < pax) ox = (byte) toLong(pax); else if (ix > pbx) ox = (byte) toLong(pbx); else ox = (byte) toLong(ix); oi8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; if (ix < pax) ox = (byte) toLong(pax); else if (ix > pbx) ox = (byte) toLong(pbx); else ox = (byte) toLong(ix); oi8data[it.oIndex] = ox; } } break; case Dataset.INT16: final short[] oi16data = ((ShortDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; if (ix < pax) ox = (short) toLong(pax); else if (ix > pbx) ox = (short) toLong(pbx); else ox = (short) toLong(ix); oi16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; if (ix < pax) ox = (short) toLong(pax); else if (ix > pbx) ox = (short) toLong(pbx); else ox = (short) toLong(ix); oi16data[it.oIndex] = ox; } } break; case Dataset.INT64: final long[] oi64data = ((LongDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; if (ix < pax) ox = toLong(pax); else if (ix > pbx) ox = toLong(pbx); else ox = toLong(ix); oi64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; if (ix < pax) ox = toLong(pax); else if (ix > pbx) ox = toLong(pbx); else ox = toLong(ix); oi64data[it.oIndex] = ox; } } break; case Dataset.INT32: final int[] oi32data = ((IntegerDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; if (ix < pax) ox = (int) toLong(pax); else if (ix > pbx) ox = (int) toLong(pbx); else ox = (int) toLong(ix); oi32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; if (ix < pax) ox = (int) toLong(pax); else if (ix > pbx) ox = (int) toLong(pbx); else ox = (int) toLong(ix); oi32data[it.oIndex] = ox; } } break; case Dataset.ARRAYINT8: final byte[] oai8data = ((CompoundByteDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; if (ix < pax) ox = (byte) toLong(pax); else if (ix > pbx) ox = (byte) toLong(pbx); else ox = (byte) toLong(ix); oai8data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; if (ix < pax) ox = (byte) toLong(pax); else if (ix > pbx) ox = (byte) toLong(pbx); else ox = (byte) toLong(ix); oai8data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; byte ox; if (ix < pax) ox = (byte) toLong(pax); else if (ix > pbx) ox = (byte) toLong(pbx); else ox = (byte) toLong(ix); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; byte ox; if (ix < pax) ox = (byte) toLong(pax); else if (ix > pbx) ox = (byte) toLong(pbx); else ox = (byte) toLong(ix); for (int j = 0; j < is; j++) { oai8data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); byte ox; if (ix < pax) ox = (byte) toLong(pax); else if (ix > pbx) ox = (byte) toLong(pbx); else ox = (byte) toLong(ix); oai8data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); byte ox; if (ix < pax) ox = (byte) toLong(pax); else if (ix > pbx) ox = (byte) toLong(pbx); else ox = (byte) toLong(ix); oai8data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT16: final short[] oai16data = ((CompoundShortDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; if (ix < pax) ox = (short) toLong(pax); else if (ix > pbx) ox = (short) toLong(pbx); else ox = (short) toLong(ix); oai16data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; if (ix < pax) ox = (short) toLong(pax); else if (ix > pbx) ox = (short) toLong(pbx); else ox = (short) toLong(ix); oai16data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; short ox; if (ix < pax) ox = (short) toLong(pax); else if (ix > pbx) ox = (short) toLong(pbx); else ox = (short) toLong(ix); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; short ox; if (ix < pax) ox = (short) toLong(pax); else if (ix > pbx) ox = (short) toLong(pbx); else ox = (short) toLong(ix); for (int j = 0; j < is; j++) { oai16data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); short ox; if (ix < pax) ox = (short) toLong(pax); else if (ix > pbx) ox = (short) toLong(pbx); else ox = (short) toLong(ix); oai16data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); short ox; if (ix < pax) ox = (short) toLong(pax); else if (ix > pbx) ox = (short) toLong(pbx); else ox = (short) toLong(ix); oai16data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT64: final long[] oai64data = ((CompoundLongDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; if (ix < pax) ox = toLong(pax); else if (ix > pbx) ox = toLong(pbx); else ox = toLong(ix); oai64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; if (ix < pax) ox = toLong(pax); else if (ix > pbx) ox = toLong(pbx); else ox = toLong(ix); oai64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; long ox; if (ix < pax) ox = toLong(pax); else if (ix > pbx) ox = toLong(pbx); else ox = toLong(ix); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; long ox; if (ix < pax) ox = toLong(pax); else if (ix > pbx) ox = toLong(pbx); else ox = toLong(ix); for (int j = 0; j < is; j++) { oai64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); long ox; if (ix < pax) ox = toLong(pax); else if (ix > pbx) ox = toLong(pbx); else ox = toLong(ix); oai64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); long ox; if (ix < pax) ox = toLong(pax); else if (ix > pbx) ox = toLong(pbx); else ox = toLong(ix); oai64data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYINT32: final int[] oai32data = ((CompoundIntegerDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; if (ix < pax) ox = (int) toLong(pax); else if (ix > pbx) ox = (int) toLong(pbx); else ox = (int) toLong(ix); oai32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; if (ix < pax) ox = (int) toLong(pax); else if (ix > pbx) ox = (int) toLong(pbx); else ox = (int) toLong(ix); oai32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; int ox; if (ix < pax) ox = (int) toLong(pax); else if (ix > pbx) ox = (int) toLong(pbx); else ox = (int) toLong(ix); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; int ox; if (ix < pax) ox = (int) toLong(pax); else if (ix > pbx) ox = (int) toLong(pbx); else ox = (int) toLong(ix); for (int j = 0; j < is; j++) { oai32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); int ox; if (ix < pax) ox = (int) toLong(pax); else if (ix > pbx) ox = (int) toLong(pbx); else ox = (int) toLong(ix); oai32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); int ox; if (ix < pax) ox = (int) toLong(pax); else if (ix > pbx) ox = (int) toLong(pbx); else ox = (int) toLong(ix); oai32data[it.oIndex + j] = ox; } } } } break; case Dataset.FLOAT32: final float[] of32data = ((FloatDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; if (Double.isNaN(ix)) ox = (float) ((pax + pbx) / 2.); else if (ix < pax) ox = (float) (pax); else if (ix > pbx) ox = (float) (pbx); else ox = (float) (ix); of32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; if (Double.isNaN(ix)) ox = (float) ((pax + pbx) / 2.); else if (ix < pax) ox = (float) (pax); else if (ix > pbx) ox = (float) (pbx); else ox = (ix); of32data[it.oIndex] = ox; } } break; case Dataset.FLOAT64: final double[] of64data = ((DoubleDataset) result).data; if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; if (Double.isNaN(ix)) ox = ((pax + pbx) / 2.); else if (ix < pax) ox = (pax); else if (ix > pbx) ox = (pbx); else ox = (ix); of64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; if (Double.isNaN(ix)) ox = ((pax + pbx) / 2.); else if (ix < pax) ox = (pax); else if (ix > pbx) ox = (pbx); else ox = (ix); of64data[it.oIndex] = ox; } } break; case Dataset.ARRAYFLOAT32: final float[] oaf32data = ((CompoundFloatDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; if (Double.isNaN(ix)) ox = (float) ((pax + pbx) / 2.); else if (ix < pax) ox = (float) (pax); else if (ix > pbx) ox = (float) (pbx); else ox = (float) (ix); oaf32data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; if (Double.isNaN(ix)) ox = (float) ((pax + pbx) / 2.); else if (ix < pax) ox = (float) (pax); else if (ix > pbx) ox = (float) (pbx); else ox = (ix); oaf32data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; float ox; if (Double.isNaN(ix)) ox = (float) ((pax + pbx) / 2.); else if (ix < pax) ox = (float) (pax); else if (ix > pbx) ox = (float) (pbx); else ox = (float) (ix); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; float ox; if (Double.isNaN(ix)) ox = (float) ((pax + pbx) / 2.); else if (ix < pax) ox = (float) (pax); else if (ix > pbx) ox = (float) (pbx); else ox = (ix); for (int j = 0; j < is; j++) { oaf32data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); float ox; if (Double.isNaN(ix)) ox = (float) ((pax + pbx) / 2.); else if (ix < pax) ox = (float) (pax); else if (ix > pbx) ox = (float) (pbx); else ox = (float) (ix); oaf32data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); float ox; if (Double.isNaN(ix)) ox = (float) ((pax + pbx) / 2.); else if (ix < pax) ox = (float) (pax); else if (ix > pbx) ox = (float) (pbx); else ox = (ix); oaf32data[it.oIndex + j] = ox; } } } } break; case Dataset.ARRAYFLOAT64: final double[] oaf64data = ((CompoundDoubleDataset) result).data; if (is == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; if (Double.isNaN(ix)) ox = ((pax + pbx) / 2.); else if (ix < pax) ox = (pax); else if (ix > pbx) ox = (pbx); else ox = (ix); oaf64data[it.oIndex] = ox; } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; if (Double.isNaN(ix)) ox = ((pax + pbx) / 2.); else if (ix < pax) ox = (pax); else if (ix > pbx) ox = (pbx); else ox = (ix); oaf64data[it.oIndex] = ox; } } } else if (da.getElementsPerItem() == 1) { if (it.isOutputDouble()) { while (it.hasNext()) { final double ix = it.aDouble; double ox; if (Double.isNaN(ix)) ox = ((pax + pbx) / 2.); else if (ix < pax) ox = (pax); else if (ix > pbx) ox = (pbx); else ox = (ix); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { final long ix = it.aLong; double ox; if (Double.isNaN(ix)) ox = ((pax + pbx) / 2.); else if (ix < pax) ox = (pax); else if (ix > pbx) ox = (pbx); else ox = (ix); for (int j = 0; j < is; j++) { oaf64data[it.oIndex + j] = ox; } } } } else { if (it.isOutputDouble()) { while (it.hasNext()) { for (int j = 0; j < is; j++) { final double ix = da.getElementDoubleAbs(it.aIndex + j); double ox; if (Double.isNaN(ix)) ox = ((pax + pbx) / 2.); else if (ix < pax) ox = (pax); else if (ix > pbx) ox = (pbx); else ox = (ix); oaf64data[it.oIndex + j] = ox; } } } else { while (it.hasNext()) { for (int j = 0; j < is; j++) { final long ix = da.getElementLongAbs(it.aIndex + j); double ox; if (Double.isNaN(ix)) ox = ((pax + pbx) / 2.); else if (ix < pax) ox = (pax); else if (ix > pbx) ox = (pbx); else ox = (ix); oaf64data[it.oIndex + j] = ox; } } } } break; default: throw new IllegalArgumentException( "clip supports integer, compound integer, real, compound real datasets only"); } addFunctionName(result, "clip"); return result; } // End of generated code }