/*
* 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 SkRasterClip_DEFINED
#define SkRasterClip_DEFINED
#include "SkAAClip.h"
#include "SkMacros.h"
#include "SkRegion.h"
class SkRRect;
class SkConservativeClip {
SkIRect fBounds;
const SkIRect* fClipRestrictionRect;
inline void applyClipRestriction(SkRegion::Op op, SkIRect* bounds) {
if (op >= SkRegion::kUnion_Op && fClipRestrictionRect
&& !fClipRestrictionRect->isEmpty()) {
if (!bounds->intersect(*fClipRestrictionRect)) {
bounds->setEmpty();
}
}
}
public:
SkConservativeClip() : fBounds(SkIRect::MakeEmpty()), fClipRestrictionRect(nullptr) {}
bool isEmpty() const { return fBounds.isEmpty(); }
bool isRect() const { return true; }
const SkIRect& getBounds() const { return fBounds; }
void setEmpty() { fBounds.setEmpty(); }
void setRect(const SkIRect& r) { fBounds = r; }
void setDeviceClipRestriction(const SkIRect* rect) {
fClipRestrictionRect = rect;
}
void opRect(const SkRect&, const SkMatrix&, const SkIRect& limit, SkRegion::Op, bool isAA);
void opRRect(const SkRRect&, const SkMatrix&, const SkIRect& limit, SkRegion::Op, bool isAA);
void opPath(const SkPath&, const SkMatrix&, const SkIRect& limit, SkRegion::Op, bool isAA);
void opRegion(const SkRegion&, SkRegion::Op);
void opIRect(const SkIRect&, SkRegion::Op);
};
/**
* Wraps a SkRegion and SkAAClip, so we have a single object that can represent either our
* BW or antialiased clips.
*
* This class is optimized for the raster backend of canvas, but can be expense to keep up2date,
* so it supports a runtime option (force-conservative-rects) to turn it into a super-fast
* rect-only tracker. The gpu backend uses this since it does not need the result (it uses
* SkClipStack instead).
*/
class SkRasterClip {
public:
SkRasterClip();
SkRasterClip(const SkIRect&);
SkRasterClip(const SkRegion&);
SkRasterClip(const SkRasterClip&);
~SkRasterClip();
// Only compares the current state. Does not compare isForceConservativeRects(), so that field
// could be different but this could still return true.
bool operator==(const SkRasterClip&) const;
bool operator!=(const SkRasterClip& other) const {
return !(*this == other);
}
bool isBW() const { return fIsBW; }
bool isAA() const { return !fIsBW; }
const SkRegion& bwRgn() const { SkASSERT(fIsBW); return fBW; }
const SkAAClip& aaRgn() const { SkASSERT(!fIsBW); return fAA; }
bool isEmpty() const {
SkASSERT(this->computeIsEmpty() == fIsEmpty);
return fIsEmpty;
}
bool isRect() const {
SkASSERT(this->computeIsRect() == fIsRect);
return fIsRect;
}
bool isComplex() const;
const SkIRect& getBounds() const;
bool setEmpty();
bool setRect(const SkIRect&);
bool op(const SkIRect&, SkRegion::Op);
bool op(const SkRegion&, SkRegion::Op);
bool op(const SkRect&, const SkMatrix& matrix, const SkIRect&, SkRegion::Op, bool doAA);
bool op(const SkRRect&, const SkMatrix& matrix, const SkIRect&, SkRegion::Op, bool doAA);
bool op(const SkPath&, const SkMatrix& matrix, const SkIRect&, SkRegion::Op, bool doAA);
void translate(int dx, int dy, SkRasterClip* dst) const;
void translate(int dx, int dy) {
this->translate(dx, dy, this);
}
bool quickContains(const SkIRect& rect) const;
bool quickContains(int left, int top, int right, int bottom) const {
return quickContains(SkIRect::MakeLTRB(left, top, right, bottom));
}
/**
* Return true if this region is empty, or if the specified rectangle does
* not intersect the region. Returning false is not a guarantee that they
* intersect, but returning true is a guarantee that they do not.
*/
bool quickReject(const SkIRect& rect) const {
return !SkIRect::Intersects(this->getBounds(), rect);
}
// hack for SkCanvas::getTotalClip
const SkRegion& forceGetBW();
#ifdef SK_DEBUG
void validate() const;
#else
void validate() const {}
#endif
void setDeviceClipRestriction(const SkIRect* rect) {
fClipRestrictionRect = rect;
}
private:
SkRegion fBW;
SkAAClip fAA;
bool fIsBW;
// these 2 are caches based on querying the right obj based on fIsBW
bool fIsEmpty;
bool fIsRect;
const SkIRect* fClipRestrictionRect = nullptr;
bool computeIsEmpty() const {
return fIsBW ? fBW.isEmpty() : fAA.isEmpty();
}
bool computeIsRect() const {
return fIsBW ? fBW.isRect() : fAA.isRect();
}
bool updateCacheAndReturnNonEmpty(bool detectAARect = true) {
fIsEmpty = this->computeIsEmpty();
// detect that our computed AA is really just a (hard-edged) rect
if (detectAARect && !fIsEmpty && !fIsBW && fAA.isRect()) {
fBW.setRect(fAA.getBounds());
fAA.setEmpty(); // don't need this guy anymore
fIsBW = true;
}
fIsRect = this->computeIsRect();
return !fIsEmpty;
}
void convertToAA();
bool setPath(const SkPath& path, const SkRegion& clip, bool doAA);
bool setPath(const SkPath& path, const SkIRect& clip, bool doAA);
bool op(const SkRasterClip&, SkRegion::Op);
bool setConservativeRect(const SkRect& r, const SkIRect& clipR, bool isInverse);
inline void applyClipRestriction(SkRegion::Op op, SkIRect* bounds) {
if (op >= SkRegion::kUnion_Op && fClipRestrictionRect
&& !fClipRestrictionRect->isEmpty()) {
if (!bounds->intersect(*fClipRestrictionRect)) {
bounds->setEmpty();
}
}
}
inline void applyClipRestriction(SkRegion::Op op, SkRect* bounds) {
if (op >= SkRegion::kUnion_Op && fClipRestrictionRect
&& !fClipRestrictionRect->isEmpty()) {
if (!bounds->intersect(SkRect::Make(*fClipRestrictionRect))) {
bounds->setEmpty();
}
}
}
};
class SkAutoRasterClipValidate : SkNoncopyable {
public:
SkAutoRasterClipValidate(const SkRasterClip& rc) : fRC(rc) {
fRC.validate();
}
~SkAutoRasterClipValidate() {
fRC.validate();
}
private:
const SkRasterClip& fRC;
};
#define SkAutoRasterClipValidate(...) SK_REQUIRE_LOCAL_VAR(SkAutoRasterClipValidate)
#ifdef SK_DEBUG
#define AUTO_RASTERCLIP_VALIDATE(rc) SkAutoRasterClipValidate arcv(rc)
#else
#define AUTO_RASTERCLIP_VALIDATE(rc)
#endif
///////////////////////////////////////////////////////////////////////////////
/**
* Encapsulates the logic of deciding if we need to change/wrap the blitter
* for aaclipping. If so, getRgn and getBlitter return modified values. If
* not, they return the raw blitter and (bw) clip region.
*
* We need to keep the constructor/destructor cost as small as possible, so we
* can freely put this guy on the stack, and not pay too much for the case when
* we're really BW anyways.
*/
class SkAAClipBlitterWrapper {
public:
SkAAClipBlitterWrapper();
SkAAClipBlitterWrapper(const SkRasterClip&, SkBlitter*);
SkAAClipBlitterWrapper(const SkAAClip*, SkBlitter*);
void init(const SkRasterClip&, SkBlitter*);
const SkIRect& getBounds() const {
SkASSERT(fClipRgn);
return fClipRgn->getBounds();
}
const SkRegion& getRgn() const {
SkASSERT(fClipRgn);
return *fClipRgn;
}
SkBlitter* getBlitter() {
SkASSERT(fBlitter);
return fBlitter;
}
private:
SkRegion fBWRgn;
SkAAClipBlitter fAABlitter;
// what we return
const SkRegion* fClipRgn;
SkBlitter* fBlitter;
};
#endif