modules/sksg/src/SkSGNode.cpp - skia - Git at Google

 /*
  * Copyright 2017 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */

 #include "modules/sksg/include/SkSGInvalidationController.h"
 #include "modules/sksg/include/SkSGNode.h"
 #include "src/core/SkRectPriv.h"

 #include <algorithm>

 namespace sksg {

 class Node::ScopedFlag {
 public:
     ScopedFlag(Node* node, uint32_t flag)
         : fNode(node)
         , fFlag(flag)
         , fWasSet(node->fFlags & flag) {
         node->fFlags |= flag;
     }
     ~ScopedFlag() {
         if (!fWasSet) {
             fNode->fFlags &= ~fFlag;
         }
     }

     bool wasSet() const { return fWasSet; }

 private:
     Node*    fNode;
     uint32_t fFlag;
     bool     fWasSet;
 };

 #define TRAVERSAL_GUARD                                  \
     ScopedFlag traversal_guard(this, kInTraversal_Flag); \
     if (traversal_guard.wasSet())                        \
         return

 Node::Node(uint32_t invalTraits)
     : fInvalObserver(nullptr)
     , fBounds(SkRectPriv::MakeLargeS32())
     , fInvalTraits(invalTraits)
     , fFlags(kInvalidated_Flag)
     , fNodeFlags(0) {}

 Node::~Node() {
     if (fFlags & kObserverArray_Flag) {
         SkASSERT(fInvalObserverArray->empty());
         delete fInvalObserverArray;
     } else {
         SkASSERT(!fInvalObserver);
     }
 }

 void Node::observeInval(const sk_sp<Node>& node) {
     SkASSERT(node);
     if (!(node->fFlags & kObserverArray_Flag)) {
         if (!node->fInvalObserver) {
             node->fInvalObserver = this;
             return;
         }

         auto observers = new std::vector<Node*>();
         observers->reserve(2);
         observers->push_back(node->fInvalObserver);

         node->fInvalObserverArray = observers;
         node->fFlags |= kObserverArray_Flag;
     }

     // No duplicate observers.
     SkASSERT(std::find(node->fInvalObserverArray->begin(),
                        node->fInvalObserverArray->end(), this) == node->fInvalObserverArray->end());

     node->fInvalObserverArray->push_back(this);
 }

 void Node::unobserveInval(const sk_sp<Node>& node) {
     SkASSERT(node);
     if (!(node->fFlags & kObserverArray_Flag)) {
         SkASSERT(node->fInvalObserver == this);
         node->fInvalObserver = nullptr;
         return;
     }

     SkDEBUGCODE(const auto origSize = node->fInvalObserverArray->size());
     node->fInvalObserverArray->erase(std::remove(node->fInvalObserverArray->begin(),
                                                  node->fInvalObserverArray->end(), this),
                                      node->fInvalObserverArray->end());
     SkASSERT(node->fInvalObserverArray->size() == origSize - 1);
 }

 template <typename Func>
 void Node::forEachInvalObserver(Func&& func) const {
     if (fFlags & kObserverArray_Flag) {
         for (const auto& parent : *fInvalObserverArray) {
             func(parent);
         }
         return;
     }

     if (fInvalObserver) {
         func(fInvalObserver);
     }
 }

 void Node::invalidate(bool damageBubbling) {
     TRAVERSAL_GUARD;

     if (this->hasInval() && (!damageBubbling || (fFlags & kDamage_Flag))) {
         // All done.
         return;
     }

     if (damageBubbling && !(fInvalTraits & kBubbleDamage_Trait)) {
         // Found a damage observer.
         fFlags |= kDamage_Flag;
         damageBubbling = false;
     }

     fFlags |= kInvalidated_Flag;

     forEachInvalObserver([&](Node* observer) {
         observer->invalidate(damageBubbling);
     });
 }

 const SkRect& Node::revalidate(InvalidationController* ic, const SkMatrix& ctm) {
     TRAVERSAL_GUARD fBounds;

     if (!this->hasInval()) {
         return fBounds;
     }

     const auto generate_damage =
             ic && ((fFlags & kDamage_Flag) || (fInvalTraits & kOverrideDamage_Trait));
     if (!generate_damage) {
         // Trivial transitive revalidation.
         fBounds = this->onRevalidate(ic, ctm);
     } else {
         // Revalidate and emit damage for old-bounds, new-bounds.
         const auto prev_bounds = fBounds;

         auto* ic_override = (fInvalTraits & kOverrideDamage_Trait) ? nullptr : ic;
         fBounds = this->onRevalidate(ic_override, ctm);

         ic->inval(prev_bounds, ctm);
         if (fBounds != prev_bounds) {
             ic->inval(fBounds, ctm);
         }
     }

     fFlags &= ~(kInvalidated_Flag | kDamage_Flag);

     return fBounds;
 }

 } // namespace sksg
	/*
	* Copyright 2017 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	#include "modules/sksg/include/SkSGInvalidationController.h"
	#include "modules/sksg/include/SkSGNode.h"
	#include "src/core/SkRectPriv.h"

	#include <algorithm>

	namespace sksg {

	class Node::ScopedFlag {
	public:
	ScopedFlag(Node* node, uint32_t flag)
	: fNode(node)
	, fFlag(flag)
	, fWasSet(node->fFlags & flag) {
	node->fFlags \|= flag;
	}
	~ScopedFlag() {
	if (!fWasSet) {
	fNode->fFlags &= ~fFlag;
	}
	}

	bool wasSet() const { return fWasSet; }

	private:
	Node* fNode;
	uint32_t fFlag;
	bool fWasSet;
	};

	#define TRAVERSAL_GUARD \
	ScopedFlag traversal_guard(this, kInTraversal_Flag); \
	if (traversal_guard.wasSet()) \
	return

	Node::Node(uint32_t invalTraits)
	: fInvalObserver(nullptr)
	, fBounds(SkRectPriv::MakeLargeS32())
	, fInvalTraits(invalTraits)
	, fFlags(kInvalidated_Flag)
	, fNodeFlags(0) {}

	Node::~Node() {
	if (fFlags & kObserverArray_Flag) {
	SkASSERT(fInvalObserverArray->empty());
	delete fInvalObserverArray;
	} else {
	SkASSERT(!fInvalObserver);
	}
	}

	void Node::observeInval(const sk_sp<Node>& node) {
	SkASSERT(node);
	if (!(node->fFlags & kObserverArray_Flag)) {
	if (!node->fInvalObserver) {
	node->fInvalObserver = this;
	return;
	}

	auto observers = new std::vector<Node*>();
	observers->reserve(2);
	observers->push_back(node->fInvalObserver);

	node->fInvalObserverArray = observers;
	node->fFlags \|= kObserverArray_Flag;
	}

	// No duplicate observers.
	SkASSERT(std::find(node->fInvalObserverArray->begin(),
	node->fInvalObserverArray->end(), this) == node->fInvalObserverArray->end());

	node->fInvalObserverArray->push_back(this);
	}

	void Node::unobserveInval(const sk_sp<Node>& node) {
	SkASSERT(node);
	if (!(node->fFlags & kObserverArray_Flag)) {
	SkASSERT(node->fInvalObserver == this);
	node->fInvalObserver = nullptr;
	return;
	}

	SkDEBUGCODE(const auto origSize = node->fInvalObserverArray->size());
	node->fInvalObserverArray->erase(std::remove(node->fInvalObserverArray->begin(),
	node->fInvalObserverArray->end(), this),
	node->fInvalObserverArray->end());
	SkASSERT(node->fInvalObserverArray->size() == origSize - 1);
	}

	template <typename Func>
	void Node::forEachInvalObserver(Func&& func) const {
	if (fFlags & kObserverArray_Flag) {
	for (const auto& parent : *fInvalObserverArray) {
	func(parent);
	}
	return;
	}

	if (fInvalObserver) {
	func(fInvalObserver);
	}
	}

	void Node::invalidate(bool damageBubbling) {
	TRAVERSAL_GUARD;

	if (this->hasInval() && (!damageBubbling \|\| (fFlags & kDamage_Flag))) {
	// All done.
	return;
	}

	if (damageBubbling && !(fInvalTraits & kBubbleDamage_Trait)) {
	// Found a damage observer.
	fFlags \|= kDamage_Flag;
	damageBubbling = false;
	}

	fFlags \|= kInvalidated_Flag;

	forEachInvalObserver([&](Node* observer) {
	observer->invalidate(damageBubbling);
	});
	}

	const SkRect& Node::revalidate(InvalidationController* ic, const SkMatrix& ctm) {
	TRAVERSAL_GUARD fBounds;

	if (!this->hasInval()) {
	return fBounds;
	}

	const auto generate_damage =
	ic && ((fFlags & kDamage_Flag) \|\| (fInvalTraits & kOverrideDamage_Trait));
	if (!generate_damage) {
	// Trivial transitive revalidation.
	fBounds = this->onRevalidate(ic, ctm);
	} else {
	// Revalidate and emit damage for old-bounds, new-bounds.
	const auto prev_bounds = fBounds;

	auto* ic_override = (fInvalTraits & kOverrideDamage_Trait) ? nullptr : ic;
	fBounds = this->onRevalidate(ic_override, ctm);

	ic->inval(prev_bounds, ctm);
	if (fBounds != prev_bounds) {
	ic->inval(fBounds, ctm);
	}
	}

	fFlags &= ~(kInvalidated_Flag \| kDamage_Flag);

	return fBounds;
	}

	} // namespace sksg