List of usage examples for java.lang Math tanh
public static double tanh(double x)
From source file:org.apache.drill.exec.fn.impl.TestNewMathFunctions.java
@Test public void testTrigoMathFunc() throws Throwable { final Object[] expected = new Object[] { Math.sin(45), Math.cos(45), Math.tan(45), Math.asin(45), Math.acos(45), Math.atan(45), Math.sinh(45), Math.cosh(45), Math.tanh(45) }; runTest(expected, "functions/testTrigoMathFunctions.json"); }
From source file:org.apache.flink.table.runtime.functions.SqlFunctionUtils.java
/** * Calculates the hyperbolic tangent of a big decimal number. */// www. j a v a 2 s .co m public static double tanh(Decimal a) { return Math.tanh(a.doubleValue()); }
From source file:org.eclipse.dataset.Maths.java
/** * tanh - evaluate the tangent hyperbolic function on each element of the dataset * @param a//from w w w . j a v a 2 s .com * @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; }
From source file:org.eclipse.january.dataset.GeneratedMaths.java
/** * tanh - evaluate the tangent hyperbolic function on each element of the dataset * @param a// www . j a v a 2 s .co m * @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 as = da.getElementsPerItem(); final int dt = result.getDType(); switch (dt) { case Dataset.INT8: final byte[] oi8data = ((ByteDataset) result).getData(); 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).getData(); 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).getData(); 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).getData(); 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).getData(); 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 (as == 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).getData(); 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 (as == 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).getData(); 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 (as == 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).getData(); 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 (as == 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).getData(); 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).getData(); 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).getData(); 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 (as == 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).getData(); 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 (as == 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).getData(); if (as == 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).getData(); if (as == 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; }
From source file:org.eclipse.january.dataset.Maths.java
/** * tanh - evaluate the tangent hyperbolic function on each element of the dataset * @param a//from w w w.ja v a 2 s.c o m * @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; }
From source file:org.esa.beam.util.math.FastMathPerformance.java
public void testTanh() { System.gc();/*from w w w.j ava 2 s. c o m*/ double x = 0; long time = System.nanoTime(); for (int i = 0; i < RUNS; i++) x += StrictMath.tanh(i * F1); long strictTime = System.nanoTime() - time; System.gc(); double y = 0; time = System.nanoTime(); for (int i = 0; i < RUNS; i++) y += FastMath.tanh(i * F1); long fastTime = System.nanoTime() - time; System.gc(); double z = 0; time = System.nanoTime(); for (int i = 0; i < RUNS; i++) z += Math.tanh(i * F1); long mathTime = System.nanoTime() - time; report("tanh", x + y + z, strictTime, fastTime, mathTime); }
From source file:org.esa.beam.util.math.FastMathTest.java
@Test public void testMathTanH() { for (double i = 0; i < numItr; ++i) { double val = Math.tanh(i); }/*from w w w . j a v a 2s . c o m*/ }
From source file:org.lightjason.agentspeak.action.builtin.TestCActionMath.java
/** * data provider generator for single-value tests * @return data/* w w w. ja v a 2s. c o m*/ */ @DataProvider public static Object[] singlevaluegenerate() { return Stream.concat( singlevaluetestcase( Stream.of(2.5, 9.1, 111.7, 889.9), Stream.of(CNextPrime.class), (i) -> (double) Primes.nextPrime(i.intValue())), singlevaluetestcase( Stream.of(-2, -6, 4, -1, -5, 3, 49, 30, 6, 5, 1.3, 2.8, 9.7, 1, 8, 180, Math.PI), Stream.of(CAbs.class, CACos.class, CASin.class, CATan.class, CCeil.class, CCos.class, CCosh.class, CDegrees.class, CExp.class, CIsPrime.class, CLog.class, CLog10.class, CFloor.class, CRadians.class, CRound.class, CSignum.class, CSin.class, CSinh.class, CSqrt.class, CTan.class, CTanh.class), (i) -> Math.abs(i.doubleValue()), (i) -> Math.acos(i.doubleValue()), (i) -> Math.asin(i.doubleValue()), (i) -> Math.atan(i.doubleValue()), (i) -> Math.ceil(i.doubleValue()), (i) -> Math.cos(i.doubleValue()), (i) -> Math.cosh(i.doubleValue()), (i) -> Math.toDegrees(i.doubleValue()), (i) -> Math.exp(i.doubleValue()), (i) -> Primes.isPrime(i.intValue()), (i) -> Math.log(i.doubleValue()), (i) -> Math.log10(i.doubleValue()), (i) -> Math.floor(i.doubleValue()), (i) -> Math.toRadians(i.doubleValue()), (i) -> Math.round(i.doubleValue()), (i) -> Math.signum(i.doubleValue()), (i) -> Math.sin(i.doubleValue()), (i) -> Math.sinh(i.doubleValue()), (i) -> Math.sqrt(i.doubleValue()), (i) -> Math.tan(i.doubleValue()), (i) -> Math.tanh(i.doubleValue())) ).toArray(); }
From source file:org.moeaframework.util.tree.NodeTest.java
@Test public void testTanh() { Node node = new Tanh().setArgument(0, new Constant(Math.PI / 4.0)); Assert.assertTrue(/*w w w .j a va 2 s .co m*/ NumberArithmetic.equals(Math.tanh(Math.PI / 4.0), (Number) node.evaluate(new UnusedEnvironment()))); }
From source file:org.nd4j.linalg.Nd4jTestsC.java
@Test public void testTanhXZ() { INDArray arrC = Nd4j.linspace(-6, 6, 12).reshape('c', 4, 3); INDArray arrF = Nd4j.create(new int[] { 4, 3 }, 'f').assign(arrC); double[] d = arrC.data().asDouble(); double[] e = new double[d.length]; for (int i = 0; i < e.length; i++) e[i] = Math.tanh(d[i]); INDArray exp = Nd4j.create(e, new int[] { 4, 3 }, 'c'); //First: do op with just x (inplace) INDArray arrFCopy = arrF.dup('f'); INDArray arrCCopy = arrF.dup('c'); Nd4j.getExecutioner().exec(new Tanh(arrFCopy)); Nd4j.getExecutioner().exec(new Tanh(arrCCopy)); assertEquals(exp, arrFCopy);/*w ww .j ava 2 s . co m*/ assertEquals(exp, arrCCopy); //Second: do op with both x and z: INDArray zOutFC = Nd4j.create(new int[] { 4, 3 }, 'c'); INDArray zOutFF = Nd4j.create(new int[] { 4, 3 }, 'f'); INDArray zOutCC = Nd4j.create(new int[] { 4, 3 }, 'c'); INDArray zOutCF = Nd4j.create(new int[] { 4, 3 }, 'f'); Nd4j.getExecutioner().exec(new Tanh(arrF, zOutFC)); Nd4j.getExecutioner().exec(new Tanh(arrF, zOutFF)); Nd4j.getExecutioner().exec(new Tanh(arrC, zOutCC)); Nd4j.getExecutioner().exec(new Tanh(arrC, zOutCF)); assertEquals(exp, zOutFC); //fails assertEquals(exp, zOutFF); //pass assertEquals(exp, zOutCC); //pass assertEquals(exp, zOutCF); //fails }