src/gpu/GrClip.cpp - platform/external/skia - Git at Google


 /*
  * Copyright 2010 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */


 #include "GrClip.h"

 GrClip::GrClip() {
     fConservativeBounds.setEmpty();
     fConservativeBoundsValid = true;
 }

 GrClip::GrClip(const GrClip& src) {
     *this = src;
 }

 GrClip::GrClip(const GrIRect& rect) {
     this->setFromIRect(rect);
 }

 GrClip::GrClip(const GrRect& rect) {
     this->setFromRect(rect);
 }

 GrClip::GrClip(GrClipIterator* iter, GrScalar tx, GrScalar ty,
                const GrRect* bounds) {
     this->setFromIterator(iter, tx, ty, bounds);
 }

 GrClip::~GrClip() {}

 GrClip& GrClip::operator=(const GrClip& src) {
     fList = src.fList;
     fConservativeBounds = src.fConservativeBounds;
     fConservativeBoundsValid = src.fConservativeBoundsValid;
     return *this;
 }

 void GrClip::setEmpty() {
     fList.reset();
     fConservativeBounds.setEmpty();
     fConservativeBoundsValid = true;
 }

 void GrClip::setFromRect(const GrRect& r) {
     fList.reset();
     if (r.isEmpty()) {
         // use a canonical empty rect for == testing.
         setEmpty();
     } else {
         fList.push_back();
         fList.back().fRect = r;
         fList.back().fType = kRect_ClipType;
         fList.back().fOp = kReplace_SetOp;
         fConservativeBounds = r;
         fConservativeBoundsValid = true;
     }
 }

 void GrClip::setFromIRect(const GrIRect& r) {
     fList.reset();
     if (r.isEmpty()) {
         // use a canonical empty rect for == testing.
         setEmpty();
     } else {
         fList.push_back();
         fList.back().fRect.set(r);
         fList.back().fType = kRect_ClipType;
         fList.back().fOp = kReplace_SetOp;
         fConservativeBounds.set(r);
         fConservativeBoundsValid = true;
     }
 }

 static void intersectWith(SkRect* dst, const SkRect& src) {
     if (!dst->intersect(src)) {
         dst->setEmpty();
     }
 }

 void GrClip::setFromIterator(GrClipIterator* iter, GrScalar tx, GrScalar ty,
                              const GrRect* conservativeBounds) {
     fList.reset();

     int rectCount = 0;

     // compute bounds for common case of series of intersecting rects.
     bool isectRectValid = true;

     if (iter) {
         for (iter->rewind(); !iter->isDone(); iter->next()) {
             Element& e = fList.push_back();
             e.fType = iter->getType();
             e.fOp = iter->getOp();
             // iterators should not emit replace
             GrAssert(kReplace_SetOp != e.fOp);
             switch (e.fType) {
                 case kRect_ClipType:
                     iter->getRect(&e.fRect);
                     if (tx || ty) {
                         e.fRect.offset(tx, ty);
                     }
                     ++rectCount;
                     if (isectRectValid) {
                         if (kIntersect_SetOp == e.fOp) {
                             GrAssert(fList.count() <= 2);
                             if (fList.count() > 1) {
                                 GrAssert(2 == rectCount);
                                 rectCount = 1;
                                 fList.pop_back();
                                 GrAssert(kRect_ClipType == fList.back().fType);
                                 intersectWith(&fList.back().fRect, e.fRect);
                             }
                         } else {
                             isectRectValid = false;
                         }
                     }
                     break;
                 case kPath_ClipType:
                     e.fPath = *iter->getPath();
                     if (tx || ty) {
                         e.fPath.offset(tx, ty);
                     }
                     e.fPathFill = iter->getPathFill();
                     isectRectValid = false;
                     break;
                 default:
                     GrCrash("Unknown clip element type.");
             }
         }
     }
     fConservativeBoundsValid = false;
     if (isectRectValid && rectCount) {
         fConservativeBounds = fList[0].fRect;
         fConservativeBoundsValid = true;
     } else if (NULL != conservativeBounds) {
         fConservativeBounds = *conservativeBounds;
         fConservativeBoundsValid = true;
     }
 }

	/*
	* Copyright 2010 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/



	#include "GrClip.h"

	GrClip::GrClip() {
	fConservativeBounds.setEmpty();
	fConservativeBoundsValid = true;
	}

	GrClip::GrClip(const GrClip& src) {
	*this = src;
	}

	GrClip::GrClip(const GrIRect& rect) {
	this->setFromIRect(rect);
	}

	GrClip::GrClip(const GrRect& rect) {
	this->setFromRect(rect);
	}

	GrClip::GrClip(GrClipIterator* iter, GrScalar tx, GrScalar ty,
	const GrRect* bounds) {
	this->setFromIterator(iter, tx, ty, bounds);
	}

	GrClip::~GrClip() {}

	GrClip& GrClip::operator=(const GrClip& src) {
	fList = src.fList;
	fConservativeBounds = src.fConservativeBounds;
	fConservativeBoundsValid = src.fConservativeBoundsValid;
	return *this;
	}

	void GrClip::setEmpty() {
	fList.reset();
	fConservativeBounds.setEmpty();
	fConservativeBoundsValid = true;
	}

	void GrClip::setFromRect(const GrRect& r) {
	fList.reset();
	if (r.isEmpty()) {
	// use a canonical empty rect for == testing.
	setEmpty();
	} else {
	fList.push_back();
	fList.back().fRect = r;
	fList.back().fType = kRect_ClipType;
	fList.back().fOp = kReplace_SetOp;
	fConservativeBounds = r;
	fConservativeBoundsValid = true;
	}
	}

	void GrClip::setFromIRect(const GrIRect& r) {
	fList.reset();
	if (r.isEmpty()) {
	// use a canonical empty rect for == testing.
	setEmpty();
	} else {
	fList.push_back();
	fList.back().fRect.set(r);
	fList.back().fType = kRect_ClipType;
	fList.back().fOp = kReplace_SetOp;
	fConservativeBounds.set(r);
	fConservativeBoundsValid = true;
	}
	}

	static void intersectWith(SkRect* dst, const SkRect& src) {
	if (!dst->intersect(src)) {
	dst->setEmpty();
	}
	}

	void GrClip::setFromIterator(GrClipIterator* iter, GrScalar tx, GrScalar ty,
	const GrRect* conservativeBounds) {
	fList.reset();

	int rectCount = 0;

	// compute bounds for common case of series of intersecting rects.
	bool isectRectValid = true;

	if (iter) {
	for (iter->rewind(); !iter->isDone(); iter->next()) {
	Element& e = fList.push_back();
	e.fType = iter->getType();
	e.fOp = iter->getOp();
	// iterators should not emit replace
	GrAssert(kReplace_SetOp != e.fOp);
	switch (e.fType) {
	case kRect_ClipType:
	iter->getRect(&e.fRect);
	if (tx \|\| ty) {
	e.fRect.offset(tx, ty);
	}
	++rectCount;
	if (isectRectValid) {
	if (kIntersect_SetOp == e.fOp) {
	GrAssert(fList.count() <= 2);
	if (fList.count() > 1) {
	GrAssert(2 == rectCount);
	rectCount = 1;
	fList.pop_back();
	GrAssert(kRect_ClipType == fList.back().fType);
	intersectWith(&fList.back().fRect, e.fRect);
	}
	} else {
	isectRectValid = false;
	}
	}
	break;
	case kPath_ClipType:
	e.fPath = *iter->getPath();
	if (tx \|\| ty) {
	e.fPath.offset(tx, ty);
	}
	e.fPathFill = iter->getPathFill();
	isectRectValid = false;
	break;
	default:
	GrCrash("Unknown clip element type.");
	}
	}
	}
	fConservativeBoundsValid = false;
	if (isectRectValid && rectCount) {
	fConservativeBounds = fList[0].fRect;
	fConservativeBoundsValid = true;
	} else if (NULL != conservativeBounds) {
	fConservativeBounds = *conservativeBounds;
	fConservativeBoundsValid = true;
	}
	}