/* * Copyright 2010 Google Inc. * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #ifndef GrClip_DEFINED #define GrClip_DEFINED #include "SkClipStack.h" struct SkIRect; /** * GrClip encapsulates the information required to construct the clip * masks. 'A GrClip is either wide open, just an IRect, just a Rect, or a full clipstack. * If the clip is a clipstack than the origin is used to translate the stack with * respect to device coordinates. This allows us to use a clip stack that is * specified for a root device with a layer device that is restricted to a subset * of the original canvas. For other clip types the origin will always be (0,0). * * NOTE: GrClip *must* point to a const clipstack */ class GrClip : SkNoncopyable { public: GrClip() : fClipType(kWideOpen_ClipType) { fOrigin.setZero(); } GrClip(const SkIRect& rect) : fClipType(kIRect_ClipType) { fOrigin.setZero(); fClip.fIRect = rect; } GrClip(const SkRect& rect) : fClipType(kIRect_ClipType) { fOrigin.setZero(); fClip.fIRect.fLeft = SkScalarRoundToInt(rect.fLeft); fClip.fIRect.fTop = SkScalarRoundToInt(rect.fTop); fClip.fIRect.fRight = SkScalarRoundToInt(rect.fRight); fClip.fIRect.fBottom = SkScalarRoundToInt(rect.fBottom); } ~GrClip() { this->reset(); } const GrClip& operator=(const GrClip& other) { this->reset(); fClipType = other.fClipType; switch (other.fClipType) { case kWideOpen_ClipType: fOrigin.setZero(); break; case kClipStack_ClipType: fClip.fStack = SkRef(other.clipStack()); fOrigin = other.origin(); break; case kIRect_ClipType: fClip.fIRect = other.irect(); fOrigin.setZero(); break; } return *this; } bool operator==(const GrClip& other) const { if (this->clipType() != other.clipType()) { return false; } switch (fClipType) { case kWideOpen_ClipType: return true; case kClipStack_ClipType: if (this->origin() != other.origin()) { return false; } if (this->clipStack() && other.clipStack()) { return *this->clipStack() == *other.clipStack(); } else { return this->clipStack() == other.clipStack(); } break; case kIRect_ClipType: return this->irect() == other.irect(); break; } SkFAIL("This should not occur\n"); return false; } bool operator!=(const GrClip& other) const { return !(*this == other); } const SkClipStack* clipStack() const { SkASSERT(kClipStack_ClipType == fClipType); return fClip.fStack; } void setClipStack(const SkClipStack* clipStack, const SkIPoint* origin = NULL) { this->reset(); if (clipStack->isWideOpen()) { fClipType = kWideOpen_ClipType; fOrigin.setZero(); } else { fClipType = kClipStack_ClipType; fClip.fStack = SkRef(clipStack); if (origin) { fOrigin = *origin; } else { fOrigin.setZero(); } } } void setIRect(const SkIRect& irect) { this->reset(); fClipType = kIRect_ClipType; fOrigin.setZero(); fClip.fIRect = irect; } const SkIRect& irect() const { SkASSERT(kIRect_ClipType == fClipType); return fClip.fIRect; } void reset() { if (kClipStack_ClipType == fClipType) { fClip.fStack->unref(); fClip.fStack = NULL; } fClipType = kWideOpen_ClipType; fOrigin.setZero(); } // We support this for all cliptypes to simplify the logic a bit in clip mask manager. // non clipstack clip types MUST have a (0,0) origin const SkIPoint& origin() const { SkASSERT(fClipType == kClipStack_ClipType || (fOrigin.fX == 0 && fOrigin.fY == 0)); return fOrigin; } bool isWideOpen(const SkRect& rect) const { return (kWideOpen_ClipType == fClipType) || (kClipStack_ClipType == fClipType && this->clipStack()->isWideOpen()) || (kIRect_ClipType == fClipType && this->irect().contains(rect)); } bool isWideOpen(const SkIRect& rect) const { return (kWideOpen_ClipType == fClipType) || (kClipStack_ClipType == fClipType && this->clipStack()->isWideOpen()) || (kIRect_ClipType == fClipType && this->irect().contains(rect)); } bool isWideOpen() const { return (kWideOpen_ClipType == fClipType) || (kClipStack_ClipType == fClipType && this->clipStack()->isWideOpen()); } bool quickContains(const SkRect& rect) const { return (kWideOpen_ClipType == fClipType) || (kClipStack_ClipType == fClipType && this->clipStack()->quickContains(rect)) || (kIRect_ClipType == fClipType && this->irect().contains(rect)); } void getConservativeBounds(int width, int height, SkIRect* devResult, bool* isIntersectionOfRects = NULL) const; static const GrClip& WideOpen(); enum ClipType { kClipStack_ClipType, kWideOpen_ClipType, kIRect_ClipType, }; ClipType clipType() const { return fClipType; } private: union Clip { const SkClipStack* fStack; SkIRect fIRect; } fClip; SkIPoint fOrigin; ClipType fClipType; }; #endif