third_party/v8/src/compiler/escape-analysis-reducer.h - cobalt - Git at Google

 // Copyright 2017 the V8 project authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #ifndef V8_COMPILER_ESCAPE_ANALYSIS_REDUCER_H_
 #define V8_COMPILER_ESCAPE_ANALYSIS_REDUCER_H_

 #include "src/base/compiler-specific.h"
 #include "src/common/globals.h"
 #include "src/compiler/access-builder.h"
 #include "src/compiler/escape-analysis.h"
 #include "src/compiler/graph-reducer.h"

 namespace v8 {
 namespace internal {
 namespace compiler {

 class Deduplicator;
 class JSGraph;

 // Perform hash-consing when creating or mutating nodes. Used to avoid duplicate
 // nodes when creating ObjectState, StateValues and FrameState nodes
 class NodeHashCache {
  public:
   NodeHashCache(Graph* graph, Zone* zone)
       : graph_(graph), cache_(zone), temp_nodes_(zone) {}

   // Handle to a conceptually new mutable node. Tries to re-use existing nodes
   // and to recycle memory if possible.
   class Constructor {
    public:
     // Construct a new node as a clone of [from].
     Constructor(NodeHashCache* cache, Node* from)
         : node_cache_(cache), from_(from), tmp_(nullptr) {}
     // Construct a new node from scratch.
     Constructor(NodeHashCache* cache, const Operator* op, int input_count,
                 Node** inputs, Type type);

     // Modify the new node.
     void ReplaceValueInput(Node* input, int i) {
       if (!tmp_ && input == NodeProperties::GetValueInput(from_, i)) return;
       Node* node = MutableNode();
       NodeProperties::ReplaceValueInput(node, input, i);
     }
     void ReplaceInput(Node* input, int i) {
       if (!tmp_ && input == from_->InputAt(i)) return;
       Node* node = MutableNode();
       node->ReplaceInput(i, input);
     }

     // Obtain the mutated node or a cached copy. Invalidates the [Constructor].
     Node* Get();

    private:
     Node* MutableNode();

     NodeHashCache* node_cache_;
     // Original node, copied on write.
     Node* from_;
     // Temporary node used for mutations, can be recycled if cache is hit.
     Node* tmp_;
   };

  private:
   Node* Query(Node* node);
   void Insert(Node* node) { cache_.insert(node); }

   Graph* graph_;
   struct NodeEquals {
     bool operator()(Node* a, Node* b) const {
       return NodeProperties::Equals(a, b);
     }
   };
   struct NodeHashCode {
     size_t operator()(Node* n) const { return NodeProperties::HashCode(n); }
   };
   ZoneUnorderedSet<Node*, NodeHashCode, NodeEquals> cache_;
   // Unused nodes whose memory can be recycled.
   ZoneVector<Node*> temp_nodes_;
 };

 // Modify the graph according to the information computed in the previous phase.
 class V8_EXPORT_PRIVATE EscapeAnalysisReducer final
     : public NON_EXPORTED_BASE(AdvancedReducer) {
  public:
   EscapeAnalysisReducer(Editor* editor, JSGraph* jsgraph,
                         EscapeAnalysisResult analysis_result, Zone* zone);
   EscapeAnalysisReducer(const EscapeAnalysisReducer&) = delete;
   EscapeAnalysisReducer& operator=(const EscapeAnalysisReducer&) = delete;

   Reduction Reduce(Node* node) override;
   const char* reducer_name() const override { return "EscapeAnalysisReducer"; }
   void Finalize() override;

   // Verifies that all virtual allocation nodes have been dealt with. Run it
   // after this reducer has been applied.
   void VerifyReplacement() const;

  private:
   void ReduceFrameStateInputs(Node* node);
   Node* ReduceDeoptState(Node* node, Node* effect, Deduplicator* deduplicator);
   Node* ObjectIdNode(const VirtualObject* vobject);
   Reduction ReplaceNode(Node* original, Node* replacement);

   JSGraph* jsgraph() const { return jsgraph_; }
   Isolate* isolate() const { return jsgraph_->isolate(); }
   EscapeAnalysisResult analysis_result() const { return analysis_result_; }
   Zone* zone() const { return zone_; }

   JSGraph* const jsgraph_;
   EscapeAnalysisResult analysis_result_;
   ZoneVector<Node*> object_id_cache_;
   NodeHashCache node_cache_;
   ZoneSet<Node*> arguments_elements_;
   Zone* const zone_;
 };

 }  // namespace compiler
 }  // namespace internal
 }  // namespace v8

 #endif  // V8_COMPILER_ESCAPE_ANALYSIS_REDUCER_H_
	// Copyright 2017 the V8 project authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#ifndef V8_COMPILER_ESCAPE_ANALYSIS_REDUCER_H_
	#define V8_COMPILER_ESCAPE_ANALYSIS_REDUCER_H_

	#include "src/base/compiler-specific.h"
	#include "src/common/globals.h"
	#include "src/compiler/access-builder.h"
	#include "src/compiler/escape-analysis.h"
	#include "src/compiler/graph-reducer.h"

	namespace v8 {
	namespace internal {
	namespace compiler {

	class Deduplicator;
	class JSGraph;

	// Perform hash-consing when creating or mutating nodes. Used to avoid duplicate
	// nodes when creating ObjectState, StateValues and FrameState nodes
	class NodeHashCache {
	public:
	NodeHashCache(Graph* graph, Zone* zone)
	: graph_(graph), cache_(zone), temp_nodes_(zone) {}

	// Handle to a conceptually new mutable node. Tries to re-use existing nodes
	// and to recycle memory if possible.
	class Constructor {
	public:
	// Construct a new node as a clone of [from].
	Constructor(NodeHashCache* cache, Node* from)
	: node_cache_(cache), from_(from), tmp_(nullptr) {}
	// Construct a new node from scratch.
	Constructor(NodeHashCache* cache, const Operator* op, int input_count,
	Node** inputs, Type type);

	// Modify the new node.
	void ReplaceValueInput(Node* input, int i) {
	if (!tmp_ && input == NodeProperties::GetValueInput(from_, i)) return;
	Node* node = MutableNode();
	NodeProperties::ReplaceValueInput(node, input, i);
	}
	void ReplaceInput(Node* input, int i) {
	if (!tmp_ && input == from_->InputAt(i)) return;
	Node* node = MutableNode();
	node->ReplaceInput(i, input);
	}

	// Obtain the mutated node or a cached copy. Invalidates the [Constructor].
	Node* Get();

	private:
	Node* MutableNode();

	NodeHashCache* node_cache_;
	// Original node, copied on write.
	Node* from_;
	// Temporary node used for mutations, can be recycled if cache is hit.
	Node* tmp_;
	};

	private:
	Node* Query(Node* node);
	void Insert(Node* node) { cache_.insert(node); }

	Graph* graph_;
	struct NodeEquals {
	bool operator()(Node* a, Node* b) const {
	return NodeProperties::Equals(a, b);
	}
	};
	struct NodeHashCode {
	size_t operator()(Node* n) const { return NodeProperties::HashCode(n); }
	};
	ZoneUnorderedSet<Node*, NodeHashCode, NodeEquals> cache_;
	// Unused nodes whose memory can be recycled.
	ZoneVector<Node*> temp_nodes_;
	};

	// Modify the graph according to the information computed in the previous phase.
	class V8_EXPORT_PRIVATE EscapeAnalysisReducer final
	: public NON_EXPORTED_BASE(AdvancedReducer) {
	public:
	EscapeAnalysisReducer(Editor* editor, JSGraph* jsgraph,
	EscapeAnalysisResult analysis_result, Zone* zone);
	EscapeAnalysisReducer(const EscapeAnalysisReducer&) = delete;
	EscapeAnalysisReducer& operator=(const EscapeAnalysisReducer&) = delete;

	Reduction Reduce(Node* node) override;
	const char* reducer_name() const override { return "EscapeAnalysisReducer"; }
	void Finalize() override;

	// Verifies that all virtual allocation nodes have been dealt with. Run it
	// after this reducer has been applied.
	void VerifyReplacement() const;

	private:
	void ReduceFrameStateInputs(Node* node);
	Node* ReduceDeoptState(Node* node, Node* effect, Deduplicator* deduplicator);
	Node* ObjectIdNode(const VirtualObject* vobject);
	Reduction ReplaceNode(Node* original, Node* replacement);

	JSGraph* jsgraph() const { return jsgraph_; }
	Isolate* isolate() const { return jsgraph_->isolate(); }
	EscapeAnalysisResult analysis_result() const { return analysis_result_; }
	Zone* zone() const { return zone_; }

	JSGraph* const jsgraph_;
	EscapeAnalysisResult analysis_result_;
	ZoneVector<Node*> object_id_cache_;
	NodeHashCache node_cache_;
	ZoneSet<Node*> arguments_elements_;
	Zone* const zone_;
	};

	} // namespace compiler
	} // namespace internal
	} // namespace v8

	#endif // V8_COMPILER_ESCAPE_ANALYSIS_REDUCER_H_