/* * Copyright 2016 Google Inc. * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #include "GrShape.h" GrShape& GrShape::operator=(const GrShape& that) { bool wasPath = Type::kPath == fType; fStyle = that.fStyle; fType = that.fType; switch (fType) { case Type::kEmpty: if (wasPath) { fPath.reset(); } break; case Type::kRRect: if (wasPath) { fPath.reset(); } fRRect = that.fRRect; break; case Type::kPath: if (wasPath) { *fPath.get() = *that.fPath.get(); } else { fPath.set(*that.fPath.get()); } break; } fInheritedKey.reset(that.fInheritedKey.count()); sk_careful_memcpy(fInheritedKey.get(), that.fInheritedKey.get(), sizeof(uint32_t) * fInheritedKey.count()); return *this; } int GrShape::unstyledKeySize() const { if (fInheritedKey.count()) { return fInheritedKey.count(); } switch (fType) { case Type::kEmpty: return 1; case Type::kRRect: SkASSERT(!fInheritedKey.count()); SkASSERT(0 == SkRRect::kSizeInMemory % sizeof(uint32_t)); return SkRRect::kSizeInMemory / sizeof(uint32_t); case Type::kPath: if (fPath.get()->isVolatile()) { return -1; } else { return 1; } } SkFAIL("Should never get here."); return 0; } void GrShape::writeUnstyledKey(uint32_t* key) const { SkASSERT(this->unstyledKeySize()); SkDEBUGCODE(uint32_t* origKey = key;) if (fInheritedKey.count()) { memcpy(key, fInheritedKey.get(), sizeof(uint32_t) * fInheritedKey.count()); SkDEBUGCODE(key += fInheritedKey.count();) } else { switch (fType) { case Type::kEmpty: *key++ = 1; break; case Type::kRRect: fRRect.writeToMemory(key); key += SkRRect::kSizeInMemory / sizeof(uint32_t); break; case Type::kPath: SkASSERT(!fPath.get()->isVolatile()); *key++ = fPath.get()->getGenerationID(); break; } } SkASSERT(key - origKey == this->unstyledKeySize()); } void GrShape::setInheritedKey(const GrShape &parent, GrStyle::Apply apply) { SkASSERT(!fInheritedKey.count()); // If the output shape turns out to be simple, then we will just use its geometric key if (Type::kPath == fType) { // We want ApplyFullStyle(ApplyPathEffect(shape)) to have the same key as // ApplyFullStyle(shape). // The full key is structured as (geo,path_effect,stroke). // If we do ApplyPathEffect we get get,path_effect as the inherited key. If we then // do ApplyFullStyle we'll memcpy geo,path_effect into the new inherited key // and then append the style key (which should now be stroke only) at the end. int parentCnt = parent.fInheritedKey.count(); bool useParentGeoKey = !parentCnt; if (useParentGeoKey) { parentCnt = parent.unstyledKeySize(); if (parentCnt < 0) { // The parent's geometry has no key so we will have no key. fPath.get()->setIsVolatile(true); return; } } uint32_t styleKeyFlags = 0; if (parent.knownToBeClosed()) { styleKeyFlags |= GrStyle::kClosed_KeyFlag; } int styleCnt = GrStyle::KeySize(parent.fStyle, apply, styleKeyFlags); if (styleCnt < 0) { // The style doesn't allow a key, set the path to volatile so that we fail when // we try to get a key for the shape. fPath.get()->setIsVolatile(true); return; } fInheritedKey.reset(parentCnt + styleCnt); if (useParentGeoKey) { // This will be the geo key. parent.writeUnstyledKey(fInheritedKey.get()); } else { // This should be (geo,path_effect). memcpy(fInheritedKey.get(), parent.fInheritedKey.get(), parentCnt * sizeof(uint32_t)); } // Now turn (geo,path_effect) or (geo) into (geo,path_effect,stroke) GrStyle::WriteKey(fInheritedKey.get() + parentCnt, parent.fStyle, apply, styleKeyFlags); } } GrShape::GrShape(const GrShape& that) : fType(that.fType), fStyle(that.fStyle) { switch (fType) { case Type::kEmpty: return; case Type::kRRect: fRRect = that.fRRect; return; case Type::kPath: fPath.set(*that.fPath.get()); return; } fInheritedKey.reset(that.fInheritedKey.count()); memcpy(fInheritedKey.get(), that.fInheritedKey.get(), sizeof(uint32_t) * fInheritedKey.count()); } GrShape::GrShape(const GrShape& parent, GrStyle::Apply apply) { if (!parent.style().applies() || (GrStyle::Apply::kPathEffectOnly == apply && !parent.style().pathEffect())) { fType = Type::kEmpty; *this = parent; return; } SkPathEffect* pe = parent.fStyle.pathEffect(); SkTLazy tmpPath; const GrShape* parentForKey = &parent; SkTLazy tmpParent; fType = Type::kPath; fPath.init(); if (pe) { SkPath* srcForPathEffect; if (parent.fType == Type::kPath) { srcForPathEffect = parent.fPath.get(); } else { srcForPathEffect = tmpPath.init(); parent.asPath(tmpPath.get()); } // Should we consider bounds? Would have to include in key, but it'd be nice to know // if the bounds actually modified anything before including in key. SkStrokeRec strokeRec = parent.fStyle.strokeRec(); if (!pe->filterPath(fPath.get(), *srcForPathEffect, &strokeRec, nullptr)) { // Make an empty unstyled shape if filtering fails. fType = Type::kEmpty; fStyle = GrStyle(); fPath.reset(); return; } if (GrStyle::Apply::kPathEffectAndStrokeRec == apply) { if (strokeRec.needToApply()) { // The intermediate shape may not be a general path. If we we're just applying // the path effect then attemptToReduceFromPath would catch it. This means that // when we subsequently applied the remaining strokeRec we would have a non-path // parent shape that would be used to determine the the stroked path's key. // We detect that case here and change parentForKey to a temporary that represents // the simpler shape so that applying both path effect and the strokerec all at // once produces the same key. SkRRect rrect; Type parentType = AttemptToReduceFromPathImpl(*fPath.get(), &rrect, nullptr, strokeRec); switch (parentType) { case Type::kEmpty: tmpParent.init(); parentForKey = tmpParent.get(); break; case Type::kRRect: tmpParent.init(rrect, GrStyle(strokeRec, nullptr)); parentForKey = tmpParent.get(); case Type::kPath: break; } SkAssertResult(strokeRec.applyToPath(fPath.get(), *fPath.get())); } else { fStyle = GrStyle(strokeRec, nullptr); } } else { fStyle = GrStyle(strokeRec, nullptr); } } else { const SkPath* srcForStrokeRec; if (parent.fType == Type::kPath) { srcForStrokeRec = parent.fPath.get(); } else { srcForStrokeRec = tmpPath.init(); parent.asPath(tmpPath.get()); } SkASSERT(parent.fStyle.strokeRec().needToApply()); SkAssertResult(parent.fStyle.strokeRec().applyToPath(fPath.get(), *srcForStrokeRec)); fStyle.resetToInitStyle(SkStrokeRec::kFill_InitStyle); } this->attemptToReduceFromPath(); this->setInheritedKey(*parentForKey, apply); }