List of usage examples for java.awt.geom PathIterator SEG_MOVETO
int SEG_MOVETO
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From source file:DescribePath.java
public static void describeCurrentSegment(PathIterator pi) { double[] coordinates = new double[6]; int type = pi.currentSegment(coordinates); switch (type) { case PathIterator.SEG_MOVETO: System.out.println("move to " + coordinates[0] + ", " + coordinates[1]); break;// w w w . ja v a2 s . c om case PathIterator.SEG_LINETO: System.out.println("line to " + coordinates[0] + ", " + coordinates[1]); break; case PathIterator.SEG_QUADTO: System.out.println("quadratic to " + coordinates[0] + ", " + coordinates[1] + ", " + coordinates[2] + ", " + coordinates[3]); break; case PathIterator.SEG_CUBICTO: System.out.println("cubic to " + coordinates[0] + ", " + coordinates[1] + ", " + coordinates[2] + ", " + coordinates[3] + ", " + coordinates[4] + ", " + coordinates[5]); break; case PathIterator.SEG_CLOSE: System.out.println("close"); break; default: break; } }
From source file:Main.java
public static void writePath(GeneralPath path, ObjectOutputStream out) throws IOException { PathIterator i = path.getPathIterator(null); float[] data = new float[6]; while (!i.isDone()) { switch (i.currentSegment(data)) { case PathIterator.SEG_MOVETO: out.writeInt(PathIterator.SEG_MOVETO); out.writeFloat(data[0]);//from ww w . j a v a 2s. c om out.writeFloat(data[1]); break; case PathIterator.SEG_LINETO: out.writeInt(PathIterator.SEG_LINETO); out.writeFloat(data[0]); out.writeFloat(data[1]); break; case PathIterator.SEG_QUADTO: out.writeInt(PathIterator.SEG_QUADTO); out.writeFloat(data[0]); out.writeFloat(data[1]); out.writeFloat(data[2]); out.writeFloat(data[3]); break; case PathIterator.SEG_CUBICTO: out.writeInt(PathIterator.SEG_CUBICTO); out.writeFloat(data[0]); out.writeFloat(data[1]); out.writeFloat(data[2]); out.writeFloat(data[3]); out.writeFloat(data[4]); out.writeFloat(data[5]); break; case PathIterator.SEG_CLOSE: out.writeInt(PathIterator.SEG_CLOSE); break; default: throw new IOException(); } i.next(); } out.writeInt(PATH_IS_DONE); }
From source file:com.jhlabs.awt.TextStroke.java
public Shape createStrokedShape(Shape shape) { FontRenderContext frc = new FontRenderContext(null, true, true); GlyphVector glyphVector = font.createGlyphVector(frc, text); GeneralPath result = new GeneralPath(); PathIterator it = new FlatteningPathIterator(shape.getPathIterator(null), FLATNESS); float points[] = new float[6]; float moveX = 0, moveY = 0; float lastX = 0, lastY = 0; float thisX = 0, thisY = 0; int type = 0; float next = 0; int currentChar = 0; int length = glyphVector.getNumGlyphs(); if (length == 0) return result; float factor = stretchToFit ? measurePathLength(shape) / (float) glyphVector.getLogicalBounds().getWidth() : 1.0f;/*from w ww .j a v a2 s . com*/ float height = (float) glyphVector.getLogicalBounds().getHeight(); float nextAdvance = 0; while (currentChar < length && !it.isDone()) { type = it.currentSegment(points); switch (type) { case PathIterator.SEG_MOVETO: moveX = lastX = points[0]; moveY = lastY = points[1]; result.moveTo(moveX, moveY); nextAdvance = glyphVector.getGlyphMetrics(currentChar).getAdvance() * 0.5f; next = nextAdvance; break; case PathIterator.SEG_CLOSE: points[0] = moveX; points[1] = moveY; // Fall into.... case PathIterator.SEG_LINETO: thisX = points[0]; thisY = points[1]; float dx = thisX - lastX; float dy = thisY - lastY; float distance = (float) FastMath.sqrt(dx * dx + dy * dy); if (distance >= next) { float r = 1.0f / distance; float angle = (float) FastMath.atan2(dy, dx); while (currentChar < length && distance >= next) { Shape glyph = glyphVector.getGlyphOutline(currentChar); Point2D p = glyphVector.getGlyphPosition(currentChar); float px = (float) p.getX(); float py = (float) p.getY(); float x = lastX + next * dx * r; float y = lastY + next * dy * r; float advance = nextAdvance; nextAdvance = currentChar < length - 1 ? glyphVector.getGlyphMetrics(currentChar + 1).getAdvance() * 0.5f : 0; t.setToTranslation(x, y); t.rotate(angle); t.translate(-px - advance, -py + height * factor / 2.0f); result.append(t.createTransformedShape(glyph), false); next += (advance + nextAdvance) * factor; currentChar++; if (repeat) currentChar %= length; } } next -= distance; lastX = thisX; lastY = thisY; break; } it.next(); } return result; }
From source file:Main.java
/** * Reads a <code>Shape</code> object that has been serialised by the * {@link #writeShape(Shape, ObjectOutputStream)} method. * * @param stream the input stream (<code>null</code> not permitted). * * @return The shape object (possibly <code>null</code>). * * @throws IOException if there is an I/O problem. * @throws ClassNotFoundException if there is a problem loading a class. *//*w w w. j a v a 2s .c o m*/ public static Shape readShape(final ObjectInputStream stream) throws IOException, ClassNotFoundException { if (stream == null) { throw new IllegalArgumentException("Null 'stream' argument."); } Shape result = null; final boolean isNull = stream.readBoolean(); if (!isNull) { final Class c = (Class) stream.readObject(); if (c.equals(Line2D.class)) { final double x1 = stream.readDouble(); final double y1 = stream.readDouble(); final double x2 = stream.readDouble(); final double y2 = stream.readDouble(); result = new Line2D.Double(x1, y1, x2, y2); } else if (c.equals(Rectangle2D.class)) { final double x = stream.readDouble(); final double y = stream.readDouble(); final double w = stream.readDouble(); final double h = stream.readDouble(); result = new Rectangle2D.Double(x, y, w, h); } else if (c.equals(Ellipse2D.class)) { final double x = stream.readDouble(); final double y = stream.readDouble(); final double w = stream.readDouble(); final double h = stream.readDouble(); result = new Ellipse2D.Double(x, y, w, h); } else if (c.equals(Arc2D.class)) { final double x = stream.readDouble(); final double y = stream.readDouble(); final double w = stream.readDouble(); final double h = stream.readDouble(); final double as = stream.readDouble(); // Angle Start final double ae = stream.readDouble(); // Angle Extent final int at = stream.readInt(); // Arc type result = new Arc2D.Double(x, y, w, h, as, ae, at); } else if (c.equals(GeneralPath.class)) { final GeneralPath gp = new GeneralPath(); final float[] args = new float[6]; boolean hasNext = stream.readBoolean(); while (!hasNext) { final int type = stream.readInt(); for (int i = 0; i < 6; i++) { args[i] = stream.readFloat(); } switch (type) { case PathIterator.SEG_MOVETO: gp.moveTo(args[0], args[1]); break; case PathIterator.SEG_LINETO: gp.lineTo(args[0], args[1]); break; case PathIterator.SEG_CUBICTO: gp.curveTo(args[0], args[1], args[2], args[3], args[4], args[5]); break; case PathIterator.SEG_QUADTO: gp.quadTo(args[0], args[1], args[2], args[3]); break; case PathIterator.SEG_CLOSE: gp.closePath(); break; default: throw new RuntimeException("JFreeChart - No path exists"); } gp.setWindingRule(stream.readInt()); hasNext = stream.readBoolean(); } result = gp; } else { result = (Shape) stream.readObject(); } } return result; }
From source file:PathLength.java
/** * Flattens the path and determines the path length. *///from w w w . j a va 2 s .co m protected void initialise() { pathLength = 0f; PathIterator pi = path.getPathIterator(new AffineTransform()); SingleSegmentPathIterator sspi = new SingleSegmentPathIterator(); segments = new ArrayList(20); List indexes = new ArrayList(20); int index = 0; int origIndex = -1; float lastMoveX = 0f; float lastMoveY = 0f; float currentX = 0f; float currentY = 0f; float[] seg = new float[6]; int segType; segments.add(new PathSegment(PathIterator.SEG_MOVETO, 0f, 0f, 0f, origIndex)); while (!pi.isDone()) { origIndex++; indexes.add(new Integer(index)); segType = pi.currentSegment(seg); switch (segType) { case PathIterator.SEG_MOVETO: segments.add(new PathSegment(segType, seg[0], seg[1], pathLength, origIndex)); currentX = seg[0]; currentY = seg[1]; lastMoveX = currentX; lastMoveY = currentY; index++; pi.next(); break; case PathIterator.SEG_LINETO: pathLength += Point2D.distance(currentX, currentY, seg[0], seg[1]); segments.add(new PathSegment(segType, seg[0], seg[1], pathLength, origIndex)); currentX = seg[0]; currentY = seg[1]; index++; pi.next(); break; case PathIterator.SEG_CLOSE: pathLength += Point2D.distance(currentX, currentY, lastMoveX, lastMoveY); segments.add(new PathSegment(PathIterator.SEG_LINETO, lastMoveX, lastMoveY, pathLength, origIndex)); currentX = lastMoveX; currentY = lastMoveY; index++; pi.next(); break; default: sspi.setPathIterator(pi, currentX, currentY); FlatteningPathIterator fpi = new FlatteningPathIterator(sspi, 0.01f); while (!fpi.isDone()) { segType = fpi.currentSegment(seg); if (segType == PathIterator.SEG_LINETO) { pathLength += Point2D.distance(currentX, currentY, seg[0], seg[1]); segments.add(new PathSegment(segType, seg[0], seg[1], pathLength, origIndex)); currentX = seg[0]; currentY = seg[1]; index++; } fpi.next(); } } } segmentIndexes = new int[indexes.size()]; for (int i = 0; i < segmentIndexes.length; i++) { segmentIndexes[i] = ((Integer) indexes.get(i)).intValue(); } initialised = true; }
From source file:com.jhlabs.awt.TextStroke.java
public float measurePathLength(Shape shape) { PathIterator it = new FlatteningPathIterator(shape.getPathIterator(null), FLATNESS); float points[] = new float[6]; float moveX = 0, moveY = 0; float lastX = 0, lastY = 0; float thisX = 0, thisY = 0; int type = 0; float total = 0; while (!it.isDone()) { type = it.currentSegment(points); switch (type) { case PathIterator.SEG_MOVETO: moveX = lastX = points[0];/*from w ww .j a v a 2 s .c o m*/ moveY = lastY = points[1]; break; case PathIterator.SEG_CLOSE: points[0] = moveX; points[1] = moveY; // Fall into.... case PathIterator.SEG_LINETO: thisX = points[0]; thisY = points[1]; float dx = thisX - lastX; float dy = thisY - lastY; total += (float) Math.sqrt(dx * dx + dy * dy); lastX = thisX; lastY = thisY; break; } it.next(); } return total; }
From source file:it.unibo.alchemist.model.implementations.linkingrules.ConnectionBeam.java
private boolean projectedBeamOvercomesObstacle(final Position pos1, final Position pos2) { final double p1x = pos1.getCoordinate(0); final double p1y = pos1.getCoordinate(1); final double p2x = pos2.getCoordinate(0); final double p2y = pos2.getCoordinate(1); final double x = p2x - p1x; final double y = p2y - p1y; /*//from www . j av a 2 s . c o m * Compute the angle */ final double angle = atan2(y, x); /* * Deduce surrounding beam vertices */ final double dx = range * cos(PI / 2 + angle); final double dy = range * sin(PI / 2 + angle); /* * Enlarge the beam */ final double cx = range * cos(angle); final double cy = range * sin(angle); /* * Create the beam */ final Path2D.Double beamShape = new Path2D.Double(); beamShape.moveTo(p1x + dx - cx, p1y + dy - cy); beamShape.lineTo(p1x - dx - cx, p1y - dy - cy); beamShape.lineTo(p2x - dx + cx, p2y - dy + cy); beamShape.lineTo(p2x + dx + cx, p2y + dy + cy); beamShape.closePath(); final Area beam = new Area(beamShape); /* * Perform subtraction */ beam.subtract(obstacles); /* * Rebuild single areas */ final List<Path2D.Double> subareas = new ArrayList<>(); Path2D.Double curpath = new Path2D.Double(); final PathIterator pi = beam.getPathIterator(null); final double[] coords = new double[COORDS]; while (!pi.isDone()) { switch (pi.currentSegment(coords)) { case PathIterator.SEG_MOVETO: curpath = new Path2D.Double(); curpath.moveTo(coords[0], coords[1]); break; case PathIterator.SEG_LINETO: curpath.lineTo(coords[0], coords[1]); break; case PathIterator.SEG_CLOSE: curpath.closePath(); subareas.add(curpath); break; default: throw new IllegalArgumentException(); } pi.next(); } /* * At least one area must contain both points */ for (final Path2D.Double p : subareas) { if (p.contains(p1x, p1y) && p.contains(p2x, p2y)) { return true; } } return false; }
From source file:CustomStrokes.java
public Shape createStrokedShape(Shape shape) { // Start off by stroking the shape with a thin line. Store the // resulting shape in a GeneralPath object so we can add to it. GeneralPath strokedShape = new GeneralPath(new BasicStroke(1.0f).createStrokedShape(shape)); // Use a PathIterator object to iterate through each of the line and // curve segments of the shape. For each one, mark the endpoint and // control points (if any) by adding a rectangle to the GeneralPath float[] coords = new float[6]; for (PathIterator i = shape.getPathIterator(null); !i.isDone(); i.next()) { int type = i.currentSegment(coords); Shape s = null, s2 = null, s3 = null; switch (type) { case PathIterator.SEG_CUBICTO: markPoint(strokedShape, coords[4], coords[5]); // falls through case PathIterator.SEG_QUADTO: markPoint(strokedShape, coords[2], coords[3]); // falls through case PathIterator.SEG_MOVETO: case PathIterator.SEG_LINETO: markPoint(strokedShape, coords[0], coords[1]); // falls through case PathIterator.SEG_CLOSE: break; }/*from ww w.j av a2 s . c o m*/ } return strokedShape; }
From source file:CustomStrokes.java
public Shape createStrokedShape(Shape shape) { GeneralPath newshape = new GeneralPath(); // Start with an empty shape // Iterate through the specified shape, perturb its coordinates, and // use them to build up the new shape. float[] coords = new float[6]; for (PathIterator i = shape.getPathIterator(null); !i.isDone(); i.next()) { int type = i.currentSegment(coords); switch (type) { case PathIterator.SEG_MOVETO: perturb(coords, 2);//from w ww . ja v a 2 s . com newshape.moveTo(coords[0], coords[1]); break; case PathIterator.SEG_LINETO: perturb(coords, 2); newshape.lineTo(coords[0], coords[1]); break; case PathIterator.SEG_QUADTO: perturb(coords, 4); newshape.quadTo(coords[0], coords[1], coords[2], coords[3]); break; case PathIterator.SEG_CUBICTO: perturb(coords, 6); newshape.curveTo(coords[0], coords[1], coords[2], coords[3], coords[4], coords[5]); break; case PathIterator.SEG_CLOSE: newshape.closePath(); break; } } // Finally, stroke the perturbed shape and return the result return stroke.createStrokedShape(newshape); }
From source file:ExtendedGeneralPath.java
/** * Delegates to the enclosed <code>GeneralPath</code>. *//*from w ww . ja v a2 s.c o m*/ public synchronized void moveTo(float x, float y) { // Don't add moveto to general path unless there is a reason. makeRoom(2); types[numSeg++] = PathIterator.SEG_MOVETO; cx = mx = values[numVals++] = x; cy = my = values[numVals++] = y; }