runtime/vm/compiler/backend/constant_propagator.h - sdk.git - Git at Google

 // Copyright (c) 2012, the Dart project authors.  Please see the AUTHORS file
 // for details. All rights reserved. Use of this source code is governed by a
 // BSD-style license that can be found in the LICENSE file.

 #ifndef RUNTIME_VM_COMPILER_BACKEND_CONSTANT_PROPAGATOR_H_
 #define RUNTIME_VM_COMPILER_BACKEND_CONSTANT_PROPAGATOR_H_

 #if defined(DART_PRECOMPILED_RUNTIME)
 #error "AOT runtime should not use compiler sources (including header files)"
 #endif  // defined(DART_PRECOMPILED_RUNTIME)

 #include "vm/compiler/backend/flow_graph.h"
 #include "vm/compiler/backend/il.h"

 namespace dart {

 // Sparse conditional constant propagation and unreachable code elimination.
 // Assumes that use lists are computed and preserves them.
 class ConstantPropagator : public FlowGraphVisitor {
  public:
   ConstantPropagator(FlowGraph* graph,
                      const GrowableArray<BlockEntryInstr*>& ignored);

   static void Optimize(FlowGraph* graph);

   // (1) Visit branches to optimize away unreachable blocks discovered  by range
   // analysis.
   // (2) Eliminate branches that have the same true- and false-target: For
   // example, this occurs after expressions like
   //
   // if (a == null || b == null) {
   //   ...
   // }
   //
   // where b is known to be null.
   static void OptimizeBranches(FlowGraph* graph);

   // Used to initialize the abstract value of definitions.
   static ObjectPtr Unknown() { return Object::unknown_constant().ptr(); }

  private:
   void Analyze();
   void Transform();
   // Tries to replace uses of [defn] with a constant, returns true if
   // successfull. The [value] is used as a temporary handle.
   bool TransformDefinition(Definition* defn);
   void EliminateRedundantBranches();

   void SetReachable(BlockEntryInstr* block);
   bool SetValue(Definition* definition, const Object& value);

   // Phi might be viewed as redundant based on current reachability of
   // predecessor blocks (i.e. the same definition is flowing from all
   // reachable predecessors). We can use this information to constant
   // fold phi(x) == x and phi(x) != x comparisons.
   Definition* UnwrapPhi(Definition* defn);
   void MarkUnwrappedPhi(Definition* defn);

   // Assign the join (least upper bound) of a pair of abstract values to the
   // first one.
   void Join(Object* left, const Object& right);

   bool IsUnknown(const Object& value) { return value.ptr() == unknown_.ptr(); }
   bool IsNonConstant(const Object& value) {
     return value.ptr() == non_constant_.ptr();
   }
   bool IsConstant(const Object& value) {
     return !IsNonConstant(value) && !IsUnknown(value);
   }

   void VisitBinaryIntegerOp(BinaryIntegerOpInstr* binary_op);
   void VisitUnaryIntegerOp(UnaryIntegerOpInstr* unary_op);

   virtual void VisitBlocks() { UNREACHABLE(); }

 #define DECLARE_VISIT(type, attrs) virtual void Visit##type(type##Instr* instr);
   FOR_EACH_INSTRUCTION(DECLARE_VISIT)

 #undef DECLARE_VISIT
   // Structure tracking visit counts for phis. Used to detect infinite loops.
   struct PhiInfo {
     PhiInstr* phi;
     intptr_t visit_count;
   };

   // Returns PhiInfo associated with the given phi. Note that this
   // pointer can be invalidated by subsequent call to GetPhiInfo and
   // thus should not be stored anywhere.
   PhiInfo* GetPhiInfo(PhiInstr* phi);

   FlowGraph* graph_;

   // Sentinels for unknown constant and non-constant values.
   const Object& unknown_;
   const Object& non_constant_;

   // Temporary handle used in [TransformDefinition].
   Object& constant_value_;

   // Analysis results. For each block, a reachability bit.  Indexed by
   // preorder number.
   BitVector* reachable_;

   // Bitvector of phis that were "unwrapped" into one of their inputs
   // when visiting one of their uses. These uses of these phis
   // should be revisited if reachability of the predecessor blocks
   // changes even if that does not change constant value of the phi.
   BitVector* unwrapped_phis_;

   // List of visited phis indexed by their id (stored as pass specific id on
   // a phi instruction).
   GrowableArray<PhiInfo> phis_;

   // Worklists of blocks and definitions.
   GrowableArray<BlockEntryInstr*> block_worklist_;
   DefinitionWorklist definition_worklist_;
 };

 }  // namespace dart

 #endif  // RUNTIME_VM_COMPILER_BACKEND_CONSTANT_PROPAGATOR_H_
	// Copyright (c) 2012, the Dart project authors. Please see the AUTHORS file
	// for details. All rights reserved. Use of this source code is governed by a
	// BSD-style license that can be found in the LICENSE file.

	#ifndef RUNTIME_VM_COMPILER_BACKEND_CONSTANT_PROPAGATOR_H_
	#define RUNTIME_VM_COMPILER_BACKEND_CONSTANT_PROPAGATOR_H_

	#if defined(DART_PRECOMPILED_RUNTIME)
	#error "AOT runtime should not use compiler sources (including header files)"
	#endif // defined(DART_PRECOMPILED_RUNTIME)

	#include "vm/compiler/backend/flow_graph.h"
	#include "vm/compiler/backend/il.h"

	namespace dart {

	// Sparse conditional constant propagation and unreachable code elimination.
	// Assumes that use lists are computed and preserves them.
	class ConstantPropagator : public FlowGraphVisitor {
	public:
	ConstantPropagator(FlowGraph* graph,
	const GrowableArray<BlockEntryInstr*>& ignored);

	static void Optimize(FlowGraph* graph);

	// (1) Visit branches to optimize away unreachable blocks discovered by range
	// analysis.
	// (2) Eliminate branches that have the same true- and false-target: For
	// example, this occurs after expressions like
	//
	// if (a == null \|\| b == null) {
	// ...
	// }
	//
	// where b is known to be null.
	static void OptimizeBranches(FlowGraph* graph);

	// Used to initialize the abstract value of definitions.
	static ObjectPtr Unknown() { return Object::unknown_constant().ptr(); }

	private:
	void Analyze();
	void Transform();
	// Tries to replace uses of [defn] with a constant, returns true if
	// successfull. The [value] is used as a temporary handle.
	bool TransformDefinition(Definition* defn);
	void EliminateRedundantBranches();

	void SetReachable(BlockEntryInstr* block);
	bool SetValue(Definition* definition, const Object& value);

	// Phi might be viewed as redundant based on current reachability of
	// predecessor blocks (i.e. the same definition is flowing from all
	// reachable predecessors). We can use this information to constant
	// fold phi(x) == x and phi(x) != x comparisons.
	Definition* UnwrapPhi(Definition* defn);
	void MarkUnwrappedPhi(Definition* defn);

	// Assign the join (least upper bound) of a pair of abstract values to the
	// first one.
	void Join(Object* left, const Object& right);

	bool IsUnknown(const Object& value) { return value.ptr() == unknown_.ptr(); }
	bool IsNonConstant(const Object& value) {
	return value.ptr() == non_constant_.ptr();
	}
	bool IsConstant(const Object& value) {
	return !IsNonConstant(value) && !IsUnknown(value);
	}

	void VisitBinaryIntegerOp(BinaryIntegerOpInstr* binary_op);
	void VisitUnaryIntegerOp(UnaryIntegerOpInstr* unary_op);

	virtual void VisitBlocks() { UNREACHABLE(); }

	#define DECLARE_VISIT(type, attrs) virtual void Visit##type(type##Instr* instr);
	FOR_EACH_INSTRUCTION(DECLARE_VISIT)

	#undef DECLARE_VISIT
	// Structure tracking visit counts for phis. Used to detect infinite loops.
	struct PhiInfo {
	PhiInstr* phi;
	intptr_t visit_count;
	};

	// Returns PhiInfo associated with the given phi. Note that this
	// pointer can be invalidated by subsequent call to GetPhiInfo and
	// thus should not be stored anywhere.
	PhiInfo* GetPhiInfo(PhiInstr* phi);

	FlowGraph* graph_;

	// Sentinels for unknown constant and non-constant values.
	const Object& unknown_;
	const Object& non_constant_;

	// Temporary handle used in [TransformDefinition].
	Object& constant_value_;

	// Analysis results. For each block, a reachability bit. Indexed by
	// preorder number.
	BitVector* reachable_;

	// Bitvector of phis that were "unwrapped" into one of their inputs
	// when visiting one of their uses. These uses of these phis
	// should be revisited if reachability of the predecessor blocks
	// changes even if that does not change constant value of the phi.
	BitVector* unwrapped_phis_;

	// List of visited phis indexed by their id (stored as pass specific id on
	// a phi instruction).
	GrowableArray<PhiInfo> phis_;

	// Worklists of blocks and definitions.
	GrowableArray<BlockEntryInstr*> block_worklist_;
	DefinitionWorklist definition_worklist_;
	};

	} // namespace dart

	#endif // RUNTIME_VM_COMPILER_BACKEND_CONSTANT_PROPAGATOR_H_