third_party/v8/src/compiler/backend/code-generator-impl.h - cobalt - Git at Google

 // 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_COMPILER_BACKEND_CODE_GENERATOR_IMPL_H_
 #define V8_COMPILER_BACKEND_CODE_GENERATOR_IMPL_H_

 #include "src/codegen/macro-assembler.h"
 #include "src/compiler/backend/code-generator.h"
 #include "src/compiler/backend/instruction.h"
 #include "src/compiler/linkage.h"
 #include "src/compiler/opcodes.h"

 namespace v8 {
 namespace internal {
 namespace compiler {

 // Converts InstructionOperands from a given instruction to
 // architecture-specific
 // registers and operands after they have been assigned by the register
 // allocator.
 class InstructionOperandConverter {
  public:
   InstructionOperandConverter(CodeGenerator* gen, Instruction* instr)
       : gen_(gen), instr_(instr) {}

   // -- Instruction operand accesses with conversions --------------------------

   Register InputRegister(size_t index) const {
     return ToRegister(instr_->InputAt(index));
   }

   FloatRegister InputFloatRegister(size_t index) {
     return ToFloatRegister(instr_->InputAt(index));
   }

   DoubleRegister InputDoubleRegister(size_t index) {
     return ToDoubleRegister(instr_->InputAt(index));
   }

   Simd128Register InputSimd128Register(size_t index) {
     return ToSimd128Register(instr_->InputAt(index));
   }

   double InputDouble(size_t index) { return ToDouble(instr_->InputAt(index)); }

   float InputFloat32(size_t index) { return ToFloat32(instr_->InputAt(index)); }

   int32_t InputInt32(size_t index) {
     return ToConstant(instr_->InputAt(index)).ToInt32();
   }

   uint32_t InputUint32(size_t index) {
     return bit_cast<uint32_t>(InputInt32(index));
   }

   int64_t InputInt64(size_t index) {
     return ToConstant(instr_->InputAt(index)).ToInt64();
   }

   int8_t InputInt8(size_t index) {
     return static_cast<int8_t>(InputInt32(index));
   }

   uint8_t InputUint8(size_t index) {
     return bit_cast<uint8_t>(InputInt8(index));
   }

   int16_t InputInt16(size_t index) {
     return static_cast<int16_t>(InputInt32(index));
   }

   uint8_t InputInt3(size_t index) {
     return static_cast<uint8_t>(InputInt32(index) & 0x7);
   }

   uint8_t InputInt4(size_t index) {
     return static_cast<uint8_t>(InputInt32(index) & 0xF);
   }

   uint8_t InputInt5(size_t index) {
     return static_cast<uint8_t>(InputInt32(index) & 0x1F);
   }

   uint8_t InputInt6(size_t index) {
     return static_cast<uint8_t>(InputInt32(index) & 0x3F);
   }

   ExternalReference InputExternalReference(size_t index) {
     return ToExternalReference(instr_->InputAt(index));
   }

   Handle<Code> InputCode(size_t index) {
     return ToCode(instr_->InputAt(index));
   }

   Label* InputLabel(size_t index) { return ToLabel(instr_->InputAt(index)); }

   RpoNumber InputRpo(size_t index) {
     return ToRpoNumber(instr_->InputAt(index));
   }

   Register OutputRegister(size_t index = 0) const {
     return ToRegister(instr_->OutputAt(index));
   }

   Register TempRegister(size_t index) {
     return ToRegister(instr_->TempAt(index));
   }

   FloatRegister OutputFloatRegister() {
     return ToFloatRegister(instr_->Output());
   }

   DoubleRegister OutputDoubleRegister() {
     return ToDoubleRegister(instr_->Output());
   }

   Simd128Register OutputSimd128Register() {
     return ToSimd128Register(instr_->Output());
   }

   Simd128Register TempSimd128Register(size_t index) {
     return ToSimd128Register(instr_->TempAt(index));
   }

   // -- Conversions for operands -----------------------------------------------

   Label* ToLabel(InstructionOperand* op) {
     return gen_->GetLabel(ToRpoNumber(op));
   }

   RpoNumber ToRpoNumber(InstructionOperand* op) {
     return ToConstant(op).ToRpoNumber();
   }

   Register ToRegister(InstructionOperand* op) const {
     return LocationOperand::cast(op)->GetRegister();
   }

   FloatRegister ToFloatRegister(InstructionOperand* op) {
     return LocationOperand::cast(op)->GetFloatRegister();
   }

   DoubleRegister ToDoubleRegister(InstructionOperand* op) {
     return LocationOperand::cast(op)->GetDoubleRegister();
   }

   Simd128Register ToSimd128Register(InstructionOperand* op) {
     return LocationOperand::cast(op)->GetSimd128Register();
   }

   Constant ToConstant(InstructionOperand* op) const {
     if (op->IsImmediate()) {
       return gen_->instructions()->GetImmediate(ImmediateOperand::cast(op));
     }
     return gen_->instructions()->GetConstant(
         ConstantOperand::cast(op)->virtual_register());
   }

   double ToDouble(InstructionOperand* op) {
     return ToConstant(op).ToFloat64().value();
   }

   float ToFloat32(InstructionOperand* op) { return ToConstant(op).ToFloat32(); }

   ExternalReference ToExternalReference(InstructionOperand* op) {
     return ToConstant(op).ToExternalReference();
   }

   Handle<Code> ToCode(InstructionOperand* op) {
     return ToConstant(op).ToCode();
   }

   const Frame* frame() const { return gen_->frame(); }
   FrameAccessState* frame_access_state() const {
     return gen_->frame_access_state();
   }
   Isolate* isolate() const { return gen_->isolate(); }
   Linkage* linkage() const { return gen_->linkage(); }

  protected:
   CodeGenerator* gen_;
   Instruction* instr_;
 };

 // Deoptimization exit.
 class DeoptimizationExit : public ZoneObject {
  public:
   explicit DeoptimizationExit(SourcePosition pos, BailoutId bailout_id,
                               int translation_id, int pc_offset,
                               DeoptimizeKind kind, DeoptimizeReason reason)
       : deoptimization_id_(kNoDeoptIndex),
         pos_(pos),
         bailout_id_(bailout_id),
         translation_id_(translation_id),
         pc_offset_(pc_offset),
         kind_(kind),
         reason_(reason),
         emitted_(false) {}

   bool has_deoptimization_id() const {
     return deoptimization_id_ != kNoDeoptIndex;
   }
   int deoptimization_id() const {
     DCHECK(has_deoptimization_id());
     return deoptimization_id_;
   }
   void set_deoptimization_id(int deoptimization_id) {
     deoptimization_id_ = deoptimization_id;
   }
   SourcePosition pos() const { return pos_; }
   Label* label() { return &label_; }
   BailoutId bailout_id() const { return bailout_id_; }
   int translation_id() const { return translation_id_; }
   int pc_offset() const { return pc_offset_; }
   DeoptimizeKind kind() const { return kind_; }
   DeoptimizeReason reason() const { return reason_; }
   // Returns whether the deopt exit has already been emitted. Most deopt exits
   // are emitted contiguously at the end of the code, but unconditional deopt
   // exits (kArchDeoptimize) may be inlined where they are encountered.
   bool emitted() const { return emitted_; }
   void set_emitted() { emitted_ = true; }

  private:
   static const int kNoDeoptIndex = kMaxInt16 + 1;
   int deoptimization_id_;
   const SourcePosition pos_;
   Label label_;
   const BailoutId bailout_id_;
   const int translation_id_;
   const int pc_offset_;
   const DeoptimizeKind kind_;
   const DeoptimizeReason reason_;
   bool emitted_;
 };

 // Generator for out-of-line code that is emitted after the main code is done.
 class OutOfLineCode : public ZoneObject {
  public:
   explicit OutOfLineCode(CodeGenerator* gen);
   virtual ~OutOfLineCode();

   virtual void Generate() = 0;

   Label* entry() { return &entry_; }
   Label* exit() { return &exit_; }
   const Frame* frame() const { return frame_; }
   TurboAssembler* tasm() { return tasm_; }
   OutOfLineCode* next() const { return next_; }

  private:
   Label entry_;
   Label exit_;
   const Frame* const frame_;
   TurboAssembler* const tasm_;
   OutOfLineCode* const next_;
 };

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

 #endif  // V8_COMPILER_BACKEND_CODE_GENERATOR_IMPL_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_COMPILER_BACKEND_CODE_GENERATOR_IMPL_H_
	#define V8_COMPILER_BACKEND_CODE_GENERATOR_IMPL_H_

	#include "src/codegen/macro-assembler.h"
	#include "src/compiler/backend/code-generator.h"
	#include "src/compiler/backend/instruction.h"
	#include "src/compiler/linkage.h"
	#include "src/compiler/opcodes.h"

	namespace v8 {
	namespace internal {
	namespace compiler {

	// Converts InstructionOperands from a given instruction to
	// architecture-specific
	// registers and operands after they have been assigned by the register
	// allocator.
	class InstructionOperandConverter {
	public:
	InstructionOperandConverter(CodeGenerator* gen, Instruction* instr)
	: gen_(gen), instr_(instr) {}

	// -- Instruction operand accesses with conversions --------------------------

	Register InputRegister(size_t index) const {
	return ToRegister(instr_->InputAt(index));
	}

	FloatRegister InputFloatRegister(size_t index) {
	return ToFloatRegister(instr_->InputAt(index));
	}

	DoubleRegister InputDoubleRegister(size_t index) {
	return ToDoubleRegister(instr_->InputAt(index));
	}

	Simd128Register InputSimd128Register(size_t index) {
	return ToSimd128Register(instr_->InputAt(index));
	}

	double InputDouble(size_t index) { return ToDouble(instr_->InputAt(index)); }

	float InputFloat32(size_t index) { return ToFloat32(instr_->InputAt(index)); }

	int32_t InputInt32(size_t index) {
	return ToConstant(instr_->InputAt(index)).ToInt32();
	}

	uint32_t InputUint32(size_t index) {
	return bit_cast<uint32_t>(InputInt32(index));
	}

	int64_t InputInt64(size_t index) {
	return ToConstant(instr_->InputAt(index)).ToInt64();
	}

	int8_t InputInt8(size_t index) {
	return static_cast<int8_t>(InputInt32(index));
	}

	uint8_t InputUint8(size_t index) {
	return bit_cast<uint8_t>(InputInt8(index));
	}

	int16_t InputInt16(size_t index) {
	return static_cast<int16_t>(InputInt32(index));
	}

	uint8_t InputInt3(size_t index) {
	return static_cast<uint8_t>(InputInt32(index) & 0x7);
	}

	uint8_t InputInt4(size_t index) {
	return static_cast<uint8_t>(InputInt32(index) & 0xF);
	}

	uint8_t InputInt5(size_t index) {
	return static_cast<uint8_t>(InputInt32(index) & 0x1F);
	}

	uint8_t InputInt6(size_t index) {
	return static_cast<uint8_t>(InputInt32(index) & 0x3F);
	}

	ExternalReference InputExternalReference(size_t index) {
	return ToExternalReference(instr_->InputAt(index));
	}

	Handle<Code> InputCode(size_t index) {
	return ToCode(instr_->InputAt(index));
	}

	Label* InputLabel(size_t index) { return ToLabel(instr_->InputAt(index)); }

	RpoNumber InputRpo(size_t index) {
	return ToRpoNumber(instr_->InputAt(index));
	}

	Register OutputRegister(size_t index = 0) const {
	return ToRegister(instr_->OutputAt(index));
	}

	Register TempRegister(size_t index) {
	return ToRegister(instr_->TempAt(index));
	}

	FloatRegister OutputFloatRegister() {
	return ToFloatRegister(instr_->Output());
	}

	DoubleRegister OutputDoubleRegister() {
	return ToDoubleRegister(instr_->Output());
	}

	Simd128Register OutputSimd128Register() {
	return ToSimd128Register(instr_->Output());
	}

	Simd128Register TempSimd128Register(size_t index) {
	return ToSimd128Register(instr_->TempAt(index));
	}

	// -- Conversions for operands -----------------------------------------------

	Label* ToLabel(InstructionOperand* op) {
	return gen_->GetLabel(ToRpoNumber(op));
	}

	RpoNumber ToRpoNumber(InstructionOperand* op) {
	return ToConstant(op).ToRpoNumber();
	}

	Register ToRegister(InstructionOperand* op) const {
	return LocationOperand::cast(op)->GetRegister();
	}

	FloatRegister ToFloatRegister(InstructionOperand* op) {
	return LocationOperand::cast(op)->GetFloatRegister();
	}

	DoubleRegister ToDoubleRegister(InstructionOperand* op) {
	return LocationOperand::cast(op)->GetDoubleRegister();
	}

	Simd128Register ToSimd128Register(InstructionOperand* op) {
	return LocationOperand::cast(op)->GetSimd128Register();
	}

	Constant ToConstant(InstructionOperand* op) const {
	if (op->IsImmediate()) {
	return gen_->instructions()->GetImmediate(ImmediateOperand::cast(op));
	}
	return gen_->instructions()->GetConstant(
	ConstantOperand::cast(op)->virtual_register());
	}

	double ToDouble(InstructionOperand* op) {
	return ToConstant(op).ToFloat64().value();
	}

	float ToFloat32(InstructionOperand* op) { return ToConstant(op).ToFloat32(); }

	ExternalReference ToExternalReference(InstructionOperand* op) {
	return ToConstant(op).ToExternalReference();
	}

	Handle<Code> ToCode(InstructionOperand* op) {
	return ToConstant(op).ToCode();
	}

	const Frame* frame() const { return gen_->frame(); }
	FrameAccessState* frame_access_state() const {
	return gen_->frame_access_state();
	}
	Isolate* isolate() const { return gen_->isolate(); }
	Linkage* linkage() const { return gen_->linkage(); }

	protected:
	CodeGenerator* gen_;
	Instruction* instr_;
	};

	// Deoptimization exit.
	class DeoptimizationExit : public ZoneObject {
	public:
	explicit DeoptimizationExit(SourcePosition pos, BailoutId bailout_id,
	int translation_id, int pc_offset,
	DeoptimizeKind kind, DeoptimizeReason reason)
	: deoptimization_id_(kNoDeoptIndex),
	pos_(pos),
	bailout_id_(bailout_id),
	translation_id_(translation_id),
	pc_offset_(pc_offset),
	kind_(kind),
	reason_(reason),
	emitted_(false) {}

	bool has_deoptimization_id() const {
	return deoptimization_id_ != kNoDeoptIndex;
	}
	int deoptimization_id() const {
	DCHECK(has_deoptimization_id());
	return deoptimization_id_;
	}
	void set_deoptimization_id(int deoptimization_id) {
	deoptimization_id_ = deoptimization_id;
	}
	SourcePosition pos() const { return pos_; }
	Label* label() { return &label_; }
	BailoutId bailout_id() const { return bailout_id_; }
	int translation_id() const { return translation_id_; }
	int pc_offset() const { return pc_offset_; }
	DeoptimizeKind kind() const { return kind_; }
	DeoptimizeReason reason() const { return reason_; }
	// Returns whether the deopt exit has already been emitted. Most deopt exits
	// are emitted contiguously at the end of the code, but unconditional deopt
	// exits (kArchDeoptimize) may be inlined where they are encountered.
	bool emitted() const { return emitted_; }
	void set_emitted() { emitted_ = true; }

	private:
	static const int kNoDeoptIndex = kMaxInt16 + 1;
	int deoptimization_id_;
	const SourcePosition pos_;
	Label label_;
	const BailoutId bailout_id_;
	const int translation_id_;
	const int pc_offset_;
	const DeoptimizeKind kind_;
	const DeoptimizeReason reason_;
	bool emitted_;
	};

	// Generator for out-of-line code that is emitted after the main code is done.
	class OutOfLineCode : public ZoneObject {
	public:
	explicit OutOfLineCode(CodeGenerator* gen);
	virtual ~OutOfLineCode();

	virtual void Generate() = 0;

	Label* entry() { return &entry_; }
	Label* exit() { return &exit_; }
	const Frame* frame() const { return frame_; }
	TurboAssembler* tasm() { return tasm_; }
	OutOfLineCode* next() const { return next_; }

	private:
	Label entry_;
	Label exit_;
	const Frame* const frame_;
	TurboAssembler* const tasm_;
	OutOfLineCode* const next_;
	};

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

	#endif // V8_COMPILER_BACKEND_CODE_GENERATOR_IMPL_H_