< prev index next >

src/java.desktop/share/classes/sun/java2d/marlin/DTransformingPathConsumer2D.java

Print this page

        

*** 25,52 **** package sun.java2d.marlin; import java.awt.geom.AffineTransform; import java.awt.geom.Path2D; final class DTransformingPathConsumer2D { ! DTransformingPathConsumer2D() { ! // used by DRendererContext ! } // recycled DPathConsumer2D instance from wrapPath2d() private final Path2DWrapper wp_Path2DWrapper = new Path2DWrapper(); DPathConsumer2D wrapPath2d(Path2D.Double p2d) { return wp_Path2DWrapper.init(p2d); } ! // recycled DPathConsumer2D instances from deltaTransformConsumer() ! private final DeltaScaleFilter dt_DeltaScaleFilter = new DeltaScaleFilter(); ! private final DeltaTransformFilter dt_DeltaTransformFilter = new DeltaTransformFilter(); DPathConsumer2D deltaTransformConsumer(DPathConsumer2D out, AffineTransform at) { if (at == null) { --- 25,86 ---- package sun.java2d.marlin; import java.awt.geom.AffineTransform; import java.awt.geom.Path2D; + import sun.java2d.marlin.DHelpers.PolyStack; final class DTransformingPathConsumer2D { ! private final DRendererContext rdrCtx; ! ! // recycled ClosedPathDetector instance from detectClosedPath() ! private final ClosedPathDetector cpDetector; // recycled DPathConsumer2D instance from wrapPath2d() private final Path2DWrapper wp_Path2DWrapper = new Path2DWrapper(); + // recycled DPathConsumer2D instances from deltaTransformConsumer() + private final DeltaScaleFilter dt_DeltaScaleFilter = new DeltaScaleFilter(); + private final DeltaTransformFilter dt_DeltaTransformFilter = new DeltaTransformFilter(); + + // recycled DPathConsumer2D instances from inverseDeltaTransformConsumer() + private final DeltaScaleFilter iv_DeltaScaleFilter = new DeltaScaleFilter(); + private final DeltaTransformFilter iv_DeltaTransformFilter = new DeltaTransformFilter(); + + // recycled PathTracer instances from tracer...() methods + private final PathTracer tracerInput = new PathTracer("[Input]"); + private final PathTracer tracerCPDetector = new PathTracer("ClosedPathDetector"); + private final PathTracer tracerStroker = new PathTracer("Stroker"); + + DTransformingPathConsumer2D(final DRendererContext rdrCtx) { + // used by RendererContext + this.rdrCtx = rdrCtx; + this.cpDetector = new ClosedPathDetector(rdrCtx); + } + DPathConsumer2D wrapPath2d(Path2D.Double p2d) { return wp_Path2DWrapper.init(p2d); } ! DPathConsumer2D traceInput(DPathConsumer2D out) { ! return tracerInput.init(out); ! } ! ! DPathConsumer2D traceClosedPathDetector(DPathConsumer2D out) { ! return tracerCPDetector.init(out); ! } ! ! DPathConsumer2D traceStroker(DPathConsumer2D out) { ! return tracerStroker.init(out); ! } ! ! DPathConsumer2D detectClosedPath(DPathConsumer2D out) ! { ! return cpDetector.init(out); ! } DPathConsumer2D deltaTransformConsumer(DPathConsumer2D out, AffineTransform at) { if (at == null) {
*** 59,78 **** if (mxy == 0.0d && myx == 0.0d) { if (mxx == 1.0d && myy == 1.0d) { return out; } else { return dt_DeltaScaleFilter.init(out, mxx, myy); } } else { return dt_DeltaTransformFilter.init(out, mxx, mxy, myx, myy); } } ! // recycled DPathConsumer2D instances from inverseDeltaTransformConsumer() ! private final DeltaScaleFilter iv_DeltaScaleFilter = new DeltaScaleFilter(); ! private final DeltaTransformFilter iv_DeltaTransformFilter = new DeltaTransformFilter(); DPathConsumer2D inverseDeltaTransformConsumer(DPathConsumer2D out, AffineTransform at) { if (at == null) { --- 93,185 ---- if (mxy == 0.0d && myx == 0.0d) { if (mxx == 1.0d && myy == 1.0d) { return out; } else { + // Scale only + if (rdrCtx.doClip) { + // adjust clip rectangle (ymin, ymax, xmin, xmax): + adjustClipScale(rdrCtx.clipRect, mxx, myy); + } return dt_DeltaScaleFilter.init(out, mxx, myy); } } else { + if (rdrCtx.doClip) { + // adjust clip rectangle (ymin, ymax, xmin, xmax): + adjustClipInverseDelta(rdrCtx.clipRect, mxx, mxy, myx, myy); + } return dt_DeltaTransformFilter.init(out, mxx, mxy, myx, myy); } } ! private static void adjustClipOffset(final double[] clipRect) { ! clipRect[0] += Renderer.RDR_OFFSET_Y; ! clipRect[1] += Renderer.RDR_OFFSET_Y; ! clipRect[2] += Renderer.RDR_OFFSET_X; ! clipRect[3] += Renderer.RDR_OFFSET_X; ! } ! ! private static void adjustClipScale(final double[] clipRect, ! final double mxx, final double myy) ! { ! adjustClipOffset(clipRect); ! ! // Adjust the clipping rectangle (iv_DeltaScaleFilter): ! clipRect[0] /= myy; ! clipRect[1] /= myy; ! clipRect[2] /= mxx; ! clipRect[3] /= mxx; ! } ! ! private static void adjustClipInverseDelta(final double[] clipRect, ! final double mxx, final double mxy, ! final double myx, final double myy) ! { ! adjustClipOffset(clipRect); ! ! // Adjust the clipping rectangle (iv_DeltaTransformFilter): ! final double det = mxx * myy - mxy * myx; ! final double imxx = myy / det; ! final double imxy = -mxy / det; ! final double imyx = -myx / det; ! final double imyy = mxx / det; ! ! double xmin, xmax, ymin, ymax; ! double x, y; ! // xmin, ymin: ! x = clipRect[2] * imxx + clipRect[0] * imxy; ! y = clipRect[2] * imyx + clipRect[0] * imyy; ! ! xmin = xmax = x; ! ymin = ymax = y; ! ! // xmax, ymin: ! x = clipRect[3] * imxx + clipRect[0] * imxy; ! y = clipRect[3] * imyx + clipRect[0] * imyy; ! ! if (x < xmin) { xmin = x; } else if (x > xmax) { xmax = x; } ! if (y < ymin) { ymin = y; } else if (y > ymax) { ymax = y; } ! ! // xmin, ymax: ! x = clipRect[2] * imxx + clipRect[1] * imxy; ! y = clipRect[2] * imyx + clipRect[1] * imyy; ! ! if (x < xmin) { xmin = x; } else if (x > xmax) { xmax = x; } ! if (y < ymin) { ymin = y; } else if (y > ymax) { ymax = y; } ! ! // xmax, ymax: ! x = clipRect[3] * imxx + clipRect[1] * imxy; ! y = clipRect[3] * imyx + clipRect[1] * imyy; ! ! if (x < xmin) { xmin = x; } else if (x > xmax) { xmax = x; } ! if (y < ymin) { ymin = y; } else if (y > ymax) { ymax = y; } ! ! clipRect[0] = ymin; ! clipRect[1] = ymax; ! clipRect[2] = xmin; ! clipRect[3] = xmax; ! } DPathConsumer2D inverseDeltaTransformConsumer(DPathConsumer2D out, AffineTransform at) { if (at == null) {
*** 88,107 **** return out; } else { return iv_DeltaScaleFilter.init(out, 1.0d/mxx, 1.0d/myy); } } else { ! double det = mxx * myy - mxy * myx; return iv_DeltaTransformFilter.init(out, myy / det, -mxy / det, -myx / det, mxx / det); } } - static final class DeltaScaleFilter implements DPathConsumer2D { private DPathConsumer2D out; private double sx, sy; DeltaScaleFilter() {} --- 195,213 ---- return out; } else { return iv_DeltaScaleFilter.init(out, 1.0d/mxx, 1.0d/myy); } } else { ! final double det = mxx * myy - mxy * myx; return iv_DeltaTransformFilter.init(out, myy / det, -mxy / det, -myx / det, mxx / det); } } static final class DeltaScaleFilter implements DPathConsumer2D { private DPathConsumer2D out; private double sx, sy; DeltaScaleFilter() {}
*** 270,277 **** --- 376,531 ---- } @Override public long getNativeConsumer() { throw new InternalError("Not using a native peer"); + } + } + + static final class ClosedPathDetector implements DPathConsumer2D { + + private final DRendererContext rdrCtx; + private final PolyStack stack; + + private DPathConsumer2D out; + + ClosedPathDetector(final DRendererContext rdrCtx) { + this.rdrCtx = rdrCtx; + this.stack = (rdrCtx.stats != null) ? + new PolyStack(rdrCtx, + rdrCtx.stats.stat_cpd_polystack_types, + rdrCtx.stats.stat_cpd_polystack_curves, + rdrCtx.stats.hist_cpd_polystack_curves, + rdrCtx.stats.stat_array_cpd_polystack_curves, + rdrCtx.stats.stat_array_cpd_polystack_types) + : new PolyStack(rdrCtx); + } + + ClosedPathDetector init(DPathConsumer2D out) { + this.out = out; + return this; // fluent API + } + + /** + * Disposes this instance: + * clean up before reusing this instance + */ + void dispose() { + stack.dispose(); + } + + @Override + public void pathDone() { + // previous path is not closed: + finish(false); + out.pathDone(); + + // TODO: fix possible leak if exception happened + // Dispose this instance: + dispose(); + } + + @Override + public void closePath() { + // path is closed + finish(true); + out.closePath(); + } + + @Override + public void moveTo(double x0, double y0) { + // previous path is not closed: + finish(false); + out.moveTo(x0, y0); + } + + private void finish(final boolean closed) { + rdrCtx.closedPath = closed; + stack.pullAll(out); + } + + @Override + public void lineTo(double x1, double y1) { + stack.pushLine(x1, y1); + } + + @Override + public void curveTo(double x3, double y3, + double x2, double y2, + double x1, double y1) + { + stack.pushCubic(x1, y1, x2, y2, x3, y3); + } + + @Override + public void quadTo(double x2, double y2, double x1, double y1) { + stack.pushQuad(x1, y1, x2, y2); + } + + @Override + public long getNativeConsumer() { + throw new InternalError("Not using a native peer"); + } + } + + static final class PathTracer implements DPathConsumer2D { + private final String prefix; + private DPathConsumer2D out; + + PathTracer(String name) { + this.prefix = name + ": "; + } + + PathTracer init(DPathConsumer2D out) { + this.out = out; + return this; // fluent API + } + + @Override + public void moveTo(double x0, double y0) { + log("moveTo (" + x0 + ", " + y0 + ')'); + out.moveTo(x0, y0); + } + + @Override + public void lineTo(double x1, double y1) { + log("lineTo (" + x1 + ", " + y1 + ')'); + out.lineTo(x1, y1); + } + + @Override + public void curveTo(double x1, double y1, + double x2, double y2, + double x3, double y3) + { + log("curveTo P1(" + x1 + ", " + y1 + ") P2(" + x2 + ", " + y2 + ") P3(" + x3 + ", " + y3 + ')'); + out.curveTo(x1, y1, x2, y2, x3, y3); + } + + @Override + public void quadTo(double x1, double y1, double x2, double y2) { + log("quadTo P1(" + x1 + ", " + y1 + ") P2(" + x2 + ", " + y2 + ')'); + out.quadTo(x1, y1, x2, y2); + } + + @Override + public void closePath() { + log("closePath"); + out.closePath(); + } + + @Override + public void pathDone() { + log("pathDone"); + out.pathDone(); + } + + private void log(final String message) { + System.out.println(prefix + message); + } + + @Override + public long getNativeConsumer() { + throw new InternalError("Not using a native peer"); } } }
< prev index next >