src/crankshaft/arm64/lithium-gap-resolver-arm64.h - fp2-dev/platform/external/v8 - Gitiles

 // Copyright 2013 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_CRANKSHAFT_ARM64_LITHIUM_GAP_RESOLVER_ARM64_H_
 #define V8_CRANKSHAFT_ARM64_LITHIUM_GAP_RESOLVER_ARM64_H_

 #include "src/crankshaft/arm64/delayed-masm-arm64.h"
 #include "src/crankshaft/lithium.h"

 namespace v8 {
 namespace internal {

 class LCodeGen;
 class LGapResolver;

 class DelayedGapMasm : public DelayedMasm {
  public:
   DelayedGapMasm(LCodeGen* owner, MacroAssembler* masm)
     : DelayedMasm(owner, masm, root) {
     // We use the root register as an extra scratch register.
     // The root register has two advantages:
     //  - It is not in crankshaft allocatable registers list, so it can't
     //    interfere with the allocatable registers.
     //  - We don't need to push it on the stack, as we can reload it with its
     //    value once we have finish.
   }
   void EndDelayedUse();
 };


 class LGapResolver BASE_EMBEDDED {
  public:
   explicit LGapResolver(LCodeGen* owner);

   // Resolve a set of parallel moves, emitting assembler instructions.
   void Resolve(LParallelMove* parallel_move);

  private:
   // Build the initial list of moves.
   void BuildInitialMoveList(LParallelMove* parallel_move);

   // Perform the move at the moves_ index in question (possibly requiring
   // other moves to satisfy dependencies).
   void PerformMove(int index);

   // If a cycle is found in the series of moves, save the blocking value to
   // a scratch register.  The cycle must be found by hitting the root of the
   // depth-first search.
   void BreakCycle(int index);

   // After a cycle has been resolved, restore the value from the scratch
   // register to its proper destination.
   void RestoreValue();

   // Emit a move and remove it from the move graph.
   void EmitMove(int index);

   // Emit a move from one stack slot to another.
   void EmitStackSlotMove(int index) {
     masm_.StackSlotMove(moves_[index].source(), moves_[index].destination());
   }

   // Verify the move list before performing moves.
   void Verify();

   // Registers used to solve cycles.
   const Register& SavedValueRegister() {
     DCHECK(!RegisterConfiguration::Crankshaft()->IsAllocatableGeneralCode(
         masm_.ScratchRegister().code()));
     return masm_.ScratchRegister();
   }
   // The scratch register is used to break cycles and to store constant.
   // These two methods switch from one mode to the other.
   void AcquireSavedValueRegister() { masm_.AcquireScratchRegister(); }
   void ReleaseSavedValueRegister() { masm_.ReleaseScratchRegister(); }
   const FPRegister& SavedFPValueRegister() {
     // We use the Crankshaft floating-point scratch register to break a cycle
     // involving double values as the MacroAssembler will not need it for the
     // operations performed by the gap resolver.
     DCHECK(!RegisterConfiguration::Crankshaft()->IsAllocatableGeneralCode(
         crankshaft_fp_scratch.code()));
     return crankshaft_fp_scratch;
   }

   LCodeGen* cgen_;
   DelayedGapMasm masm_;

   // List of moves not yet resolved.
   ZoneList<LMoveOperands> moves_;

   int root_index_;
   bool in_cycle_;
   LOperand* saved_destination_;
 };

 }  // namespace internal
 }  // namespace v8

 #endif  // V8_CRANKSHAFT_ARM64_LITHIUM_GAP_RESOLVER_ARM64_H_
	// Copyright 2013 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_CRANKSHAFT_ARM64_LITHIUM_GAP_RESOLVER_ARM64_H_
	#define V8_CRANKSHAFT_ARM64_LITHIUM_GAP_RESOLVER_ARM64_H_

	#include "src/crankshaft/arm64/delayed-masm-arm64.h"
	#include "src/crankshaft/lithium.h"

	namespace v8 {
	namespace internal {

	class LCodeGen;
	class LGapResolver;

	class DelayedGapMasm : public DelayedMasm {
	public:
	DelayedGapMasm(LCodeGen* owner, MacroAssembler* masm)
	: DelayedMasm(owner, masm, root) {
	// We use the root register as an extra scratch register.
	// The root register has two advantages:
	// - It is not in crankshaft allocatable registers list, so it can't
	// interfere with the allocatable registers.
	// - We don't need to push it on the stack, as we can reload it with its
	// value once we have finish.
	}
	void EndDelayedUse();
	};


	class LGapResolver BASE_EMBEDDED {
	public:
	explicit LGapResolver(LCodeGen* owner);

	// Resolve a set of parallel moves, emitting assembler instructions.
	void Resolve(LParallelMove* parallel_move);

	private:
	// Build the initial list of moves.
	void BuildInitialMoveList(LParallelMove* parallel_move);

	// Perform the move at the moves_ index in question (possibly requiring
	// other moves to satisfy dependencies).
	void PerformMove(int index);

	// If a cycle is found in the series of moves, save the blocking value to
	// a scratch register. The cycle must be found by hitting the root of the
	// depth-first search.
	void BreakCycle(int index);

	// After a cycle has been resolved, restore the value from the scratch
	// register to its proper destination.
	void RestoreValue();

	// Emit a move and remove it from the move graph.
	void EmitMove(int index);

	// Emit a move from one stack slot to another.
	void EmitStackSlotMove(int index) {
	masm_.StackSlotMove(moves_[index].source(), moves_[index].destination());
	}

	// Verify the move list before performing moves.
	void Verify();

	// Registers used to solve cycles.
	const Register& SavedValueRegister() {
	DCHECK(!RegisterConfiguration::Crankshaft()->IsAllocatableGeneralCode(
	masm_.ScratchRegister().code()));
	return masm_.ScratchRegister();
	}
	// The scratch register is used to break cycles and to store constant.
	// These two methods switch from one mode to the other.
	void AcquireSavedValueRegister() { masm_.AcquireScratchRegister(); }
	void ReleaseSavedValueRegister() { masm_.ReleaseScratchRegister(); }
	const FPRegister& SavedFPValueRegister() {
	// We use the Crankshaft floating-point scratch register to break a cycle
	// involving double values as the MacroAssembler will not need it for the
	// operations performed by the gap resolver.
	DCHECK(!RegisterConfiguration::Crankshaft()->IsAllocatableGeneralCode(
	crankshaft_fp_scratch.code()));
	return crankshaft_fp_scratch;
	}

	LCodeGen* cgen_;
	DelayedGapMasm masm_;

	// List of moves not yet resolved.
	ZoneList<LMoveOperands> moves_;

	int root_index_;
	bool in_cycle_;
	LOperand* saved_destination_;
	};

	} // namespace internal
	} // namespace v8

	#endif // V8_CRANKSHAFT_ARM64_LITHIUM_GAP_RESOLVER_ARM64_H_