src/pathops/SkPathWriter.cpp - skia - Git at Google

 /*
  * Copyright 2012 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */
 #include "SkPathOpsPoint.h"
 #include "SkPathWriter.h"

 // wrap path to keep track of whether the contour is initialized and non-empty
 SkPathWriter::SkPathWriter(SkPath& path)
     : fPathPtr(&path)
     , fCloses(0)
     , fMoves(0)
 {
     init();
 }

 void SkPathWriter::close() {
     if (!fHasMove) {
         return;
     }
     bool callClose = isClosed();
     lineTo();
     if (fEmpty) {
         return;
     }
     if (callClose) {
 #if DEBUG_PATH_CONSTRUCTION
         SkDebugf("path.close();\n");
 #endif
         fPathPtr->close();
         fCloses++;
     }
     init();
 }

 void SkPathWriter::conicTo(const SkPoint& pt1, const SkPoint& pt2, SkScalar weight) {
     lineTo();
     if (fEmpty && AlmostEqualUlps(fDefer[0], pt1) && AlmostEqualUlps(pt1, pt2)) {
         deferredLine(pt2);
         return;
     }
     moveTo();
     fDefer[1] = pt2;
     nudge();
     fDefer[0] = fDefer[1];
 #if DEBUG_PATH_CONSTRUCTION
     SkDebugf("path.conicTo(%1.9g,%1.9g, %1.9g,%1.9g, %1.9g);\n",
             pt1.fX, pt1.fY, fDefer[1].fX, fDefer[1].fY, weight);
 #endif
     fPathPtr->conicTo(pt1.fX, pt1.fY, fDefer[1].fX, fDefer[1].fY, weight);
     fEmpty = false;
 }

 void SkPathWriter::cubicTo(const SkPoint& pt1, const SkPoint& pt2, const SkPoint& pt3) {
     lineTo();
     if (fEmpty && AlmostEqualUlps(fDefer[0], pt1) && AlmostEqualUlps(pt1, pt2)
             && AlmostEqualUlps(pt2, pt3)) {
         deferredLine(pt3);
         return;
     }
     moveTo();
     fDefer[1] = pt3;
     nudge();
     fDefer[0] = fDefer[1];
 #if DEBUG_PATH_CONSTRUCTION
     SkDebugf("path.cubicTo(%1.9g,%1.9g, %1.9g,%1.9g, %1.9g,%1.9g);\n",
             pt1.fX, pt1.fY, pt2.fX, pt2.fY, fDefer[1].fX, fDefer[1].fY);
 #endif
     fPathPtr->cubicTo(pt1.fX, pt1.fY, pt2.fX, pt2.fY, fDefer[1].fX, fDefer[1].fY);
     fEmpty = false;
 }

 void SkPathWriter::deferredLine(const SkPoint& pt) {
     if (pt == fDefer[1]) {
         return;
     }
     if (changedSlopes(pt)) {
         lineTo();
         fDefer[0] = fDefer[1];
     }
     fDefer[1] = pt;
 }

 void SkPathWriter::deferredMove(const SkPoint& pt) {
     fMoved = true;
     fHasMove = true;
     fEmpty = true;
     fDefer[0] = fDefer[1] = pt;
 }

 void SkPathWriter::deferredMoveLine(const SkPoint& pt) {
     if (!fHasMove) {
         deferredMove(pt);
     }
     deferredLine(pt);
 }

 bool SkPathWriter::hasMove() const {
     return fHasMove;
 }

 void SkPathWriter::init() {
     fEmpty = true;
     fHasMove = false;
     fMoved = false;
 }

 bool SkPathWriter::isClosed() const {
     return !fEmpty && SkDPoint::ApproximatelyEqual(fFirstPt, fDefer[1]);
 }

 void SkPathWriter::lineTo() {
     if (fDefer[0] == fDefer[1]) {
         return;
     }
     moveTo();
     nudge();
     fEmpty = false;
 #if DEBUG_PATH_CONSTRUCTION
     SkDebugf("path.lineTo(%1.9g,%1.9g);\n", fDefer[1].fX, fDefer[1].fY);
 #endif
     fPathPtr->lineTo(fDefer[1].fX, fDefer[1].fY);
     fDefer[0] = fDefer[1];
 }

 const SkPath* SkPathWriter::nativePath() const {
     return fPathPtr;
 }

 void SkPathWriter::nudge() {
     if (fEmpty || !AlmostEqualUlps(fDefer[1].fX, fFirstPt.fX)
             || !AlmostEqualUlps(fDefer[1].fY, fFirstPt.fY)) {
         return;
     }
     fDefer[1] = fFirstPt;
 }

 void SkPathWriter::quadTo(const SkPoint& pt1, const SkPoint& pt2) {
     lineTo();
     if (fEmpty && AlmostEqualUlps(fDefer[0], pt1) && AlmostEqualUlps(pt1, pt2)) {
         deferredLine(pt2);
         return;
     }
     moveTo();
     fDefer[1] = pt2;
     nudge();
     fDefer[0] = fDefer[1];
 #if DEBUG_PATH_CONSTRUCTION
     SkDebugf("path.quadTo(%1.9g,%1.9g, %1.9g,%1.9g);\n",
             pt1.fX, pt1.fY, fDefer[1].fX, fDefer[1].fY);
 #endif
     fPathPtr->quadTo(pt1.fX, pt1.fY, fDefer[1].fX, fDefer[1].fY);
     fEmpty = false;
 }

 bool SkPathWriter::someAssemblyRequired() const {
     return fCloses < fMoves;
 }

 bool SkPathWriter::changedSlopes(const SkPoint& pt) const {
     if (fDefer[0] == fDefer[1]) {
         return false;
     }
     SkScalar deferDx = fDefer[1].fX - fDefer[0].fX;
     SkScalar deferDy = fDefer[1].fY - fDefer[0].fY;
     SkScalar lineDx = pt.fX - fDefer[1].fX;
     SkScalar lineDy = pt.fY - fDefer[1].fY;
     return deferDx * lineDy != deferDy * lineDx;
 }

 void SkPathWriter::moveTo() {
     if (!fMoved) {
         return;
     }
     fFirstPt = fDefer[0];
 #if DEBUG_PATH_CONSTRUCTION
     SkDebugf("path.moveTo(%1.9g,%1.9g);\n", fDefer[0].fX, fDefer[0].fY);
 #endif
     fPathPtr->moveTo(fDefer[0].fX, fDefer[0].fY);
     fMoved = false;
     fMoves++;
 }
	/*
	* Copyright 2012 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/
	#include "SkPathOpsPoint.h"
	#include "SkPathWriter.h"

	// wrap path to keep track of whether the contour is initialized and non-empty
	SkPathWriter::SkPathWriter(SkPath& path)
	: fPathPtr(&path)
	, fCloses(0)
	, fMoves(0)
	{
	init();
	}

	void SkPathWriter::close() {
	if (!fHasMove) {
	return;
	}
	bool callClose = isClosed();
	lineTo();
	if (fEmpty) {
	return;
	}
	if (callClose) {
	#if DEBUG_PATH_CONSTRUCTION
	SkDebugf("path.close();\n");
	#endif
	fPathPtr->close();
	fCloses++;
	}
	init();
	}

	void SkPathWriter::conicTo(const SkPoint& pt1, const SkPoint& pt2, SkScalar weight) {
	lineTo();
	if (fEmpty && AlmostEqualUlps(fDefer[0], pt1) && AlmostEqualUlps(pt1, pt2)) {
	deferredLine(pt2);
	return;
	}
	moveTo();
	fDefer[1] = pt2;
	nudge();
	fDefer[0] = fDefer[1];
	#if DEBUG_PATH_CONSTRUCTION
	SkDebugf("path.conicTo(%1.9g,%1.9g, %1.9g,%1.9g, %1.9g);\n",
	pt1.fX, pt1.fY, fDefer[1].fX, fDefer[1].fY, weight);
	#endif
	fPathPtr->conicTo(pt1.fX, pt1.fY, fDefer[1].fX, fDefer[1].fY, weight);
	fEmpty = false;
	}

	void SkPathWriter::cubicTo(const SkPoint& pt1, const SkPoint& pt2, const SkPoint& pt3) {
	lineTo();
	if (fEmpty && AlmostEqualUlps(fDefer[0], pt1) && AlmostEqualUlps(pt1, pt2)
	&& AlmostEqualUlps(pt2, pt3)) {
	deferredLine(pt3);
	return;
	}
	moveTo();
	fDefer[1] = pt3;
	nudge();
	fDefer[0] = fDefer[1];
	#if DEBUG_PATH_CONSTRUCTION
	SkDebugf("path.cubicTo(%1.9g,%1.9g, %1.9g,%1.9g, %1.9g,%1.9g);\n",
	pt1.fX, pt1.fY, pt2.fX, pt2.fY, fDefer[1].fX, fDefer[1].fY);
	#endif
	fPathPtr->cubicTo(pt1.fX, pt1.fY, pt2.fX, pt2.fY, fDefer[1].fX, fDefer[1].fY);
	fEmpty = false;
	}

	void SkPathWriter::deferredLine(const SkPoint& pt) {
	if (pt == fDefer[1]) {
	return;
	}
	if (changedSlopes(pt)) {
	lineTo();
	fDefer[0] = fDefer[1];
	}
	fDefer[1] = pt;
	}

	void SkPathWriter::deferredMove(const SkPoint& pt) {
	fMoved = true;
	fHasMove = true;
	fEmpty = true;
	fDefer[0] = fDefer[1] = pt;
	}

	void SkPathWriter::deferredMoveLine(const SkPoint& pt) {
	if (!fHasMove) {
	deferredMove(pt);
	}
	deferredLine(pt);
	}

	bool SkPathWriter::hasMove() const {
	return fHasMove;
	}

	void SkPathWriter::init() {
	fEmpty = true;
	fHasMove = false;
	fMoved = false;
	}

	bool SkPathWriter::isClosed() const {
	return !fEmpty && SkDPoint::ApproximatelyEqual(fFirstPt, fDefer[1]);
	}

	void SkPathWriter::lineTo() {
	if (fDefer[0] == fDefer[1]) {
	return;
	}
	moveTo();
	nudge();
	fEmpty = false;
	#if DEBUG_PATH_CONSTRUCTION
	SkDebugf("path.lineTo(%1.9g,%1.9g);\n", fDefer[1].fX, fDefer[1].fY);
	#endif
	fPathPtr->lineTo(fDefer[1].fX, fDefer[1].fY);
	fDefer[0] = fDefer[1];
	}

	const SkPath* SkPathWriter::nativePath() const {
	return fPathPtr;
	}

	void SkPathWriter::nudge() {
	if (fEmpty \|\| !AlmostEqualUlps(fDefer[1].fX, fFirstPt.fX)
	\|\| !AlmostEqualUlps(fDefer[1].fY, fFirstPt.fY)) {
	return;
	}
	fDefer[1] = fFirstPt;
	}

	void SkPathWriter::quadTo(const SkPoint& pt1, const SkPoint& pt2) {
	lineTo();
	if (fEmpty && AlmostEqualUlps(fDefer[0], pt1) && AlmostEqualUlps(pt1, pt2)) {
	deferredLine(pt2);
	return;
	}
	moveTo();
	fDefer[1] = pt2;
	nudge();
	fDefer[0] = fDefer[1];
	#if DEBUG_PATH_CONSTRUCTION
	SkDebugf("path.quadTo(%1.9g,%1.9g, %1.9g,%1.9g);\n",
	pt1.fX, pt1.fY, fDefer[1].fX, fDefer[1].fY);
	#endif
	fPathPtr->quadTo(pt1.fX, pt1.fY, fDefer[1].fX, fDefer[1].fY);
	fEmpty = false;
	}

	bool SkPathWriter::someAssemblyRequired() const {
	return fCloses < fMoves;
	}

	bool SkPathWriter::changedSlopes(const SkPoint& pt) const {
	if (fDefer[0] == fDefer[1]) {
	return false;
	}
	SkScalar deferDx = fDefer[1].fX - fDefer[0].fX;
	SkScalar deferDy = fDefer[1].fY - fDefer[0].fY;
	SkScalar lineDx = pt.fX - fDefer[1].fX;
	SkScalar lineDy = pt.fY - fDefer[1].fY;
	return deferDx * lineDy != deferDy * lineDx;
	}

	void SkPathWriter::moveTo() {
	if (!fMoved) {
	return;
	}
	fFirstPt = fDefer[0];
	#if DEBUG_PATH_CONSTRUCTION
	SkDebugf("path.moveTo(%1.9g,%1.9g);\n", fDefer[0].fX, fDefer[0].fY);
	#endif
	fPathPtr->moveTo(fDefer[0].fX, fDefer[0].fY);
	fMoved = false;
	fMoves++;
	}