src/compiler/x64/instruction-scheduler-x64.cc - platform/external/v8 - Git at Google

 // Copyright 2015 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.

 #include "src/compiler/instruction-scheduler.h"

 namespace v8 {
 namespace internal {
 namespace compiler {

 bool InstructionScheduler::SchedulerSupported() { return true; }


 int InstructionScheduler::GetTargetInstructionFlags(
     const Instruction* instr) const {
   switch (instr->arch_opcode()) {
     case kX64Add:
     case kX64Add32:
     case kX64And:
     case kX64And32:
     case kX64Cmp:
     case kX64Cmp32:
     case kX64Test:
     case kX64Test32:
     case kX64Or:
     case kX64Or32:
     case kX64Xor:
     case kX64Xor32:
     case kX64Sub:
     case kX64Sub32:
     case kX64Imul:
     case kX64Imul32:
     case kX64ImulHigh32:
     case kX64UmulHigh32:
     case kX64Idiv:
     case kX64Idiv32:
     case kX64Udiv:
     case kX64Udiv32:
     case kX64Not:
     case kX64Not32:
     case kX64Neg:
     case kX64Neg32:
     case kX64Shl:
     case kX64Shl32:
     case kX64Shr:
     case kX64Shr32:
     case kX64Sar:
     case kX64Sar32:
     case kX64Ror:
     case kX64Ror32:
     case kX64Lzcnt:
     case kX64Lzcnt32:
     case kX64Tzcnt:
     case kX64Tzcnt32:
     case kX64Popcnt:
     case kX64Popcnt32:
     case kSSEFloat32Cmp:
     case kSSEFloat32Add:
     case kSSEFloat32Sub:
     case kSSEFloat32Mul:
     case kSSEFloat32Div:
     case kSSEFloat32Abs:
     case kSSEFloat32Neg:
     case kSSEFloat32Sqrt:
     case kSSEFloat32Round:
     case kSSEFloat32Max:
     case kSSEFloat32Min:
     case kSSEFloat32ToFloat64:
     case kSSEFloat64Cmp:
     case kSSEFloat64Add:
     case kSSEFloat64Sub:
     case kSSEFloat64Mul:
     case kSSEFloat64Div:
     case kSSEFloat64Mod:
     case kSSEFloat64Abs:
     case kSSEFloat64Neg:
     case kSSEFloat64Sqrt:
     case kSSEFloat64Round:
     case kSSEFloat64Max:
     case kSSEFloat64Min:
     case kSSEFloat64ToFloat32:
     case kSSEFloat32ToInt32:
     case kSSEFloat32ToUint32:
     case kSSEFloat64ToInt32:
     case kSSEFloat64ToUint32:
     case kSSEFloat64ToInt64:
     case kSSEFloat32ToInt64:
     case kSSEFloat64ToUint64:
     case kSSEFloat32ToUint64:
     case kSSEInt32ToFloat64:
     case kSSEInt32ToFloat32:
     case kSSEInt64ToFloat32:
     case kSSEInt64ToFloat64:
     case kSSEUint64ToFloat32:
     case kSSEUint64ToFloat64:
     case kSSEUint32ToFloat64:
     case kSSEUint32ToFloat32:
     case kSSEFloat64ExtractLowWord32:
     case kSSEFloat64ExtractHighWord32:
     case kSSEFloat64InsertLowWord32:
     case kSSEFloat64InsertHighWord32:
     case kSSEFloat64LoadLowWord32:
     case kAVXFloat32Cmp:
     case kAVXFloat32Add:
     case kAVXFloat32Sub:
     case kAVXFloat32Mul:
     case kAVXFloat32Div:
     case kAVXFloat32Max:
     case kAVXFloat32Min:
     case kAVXFloat64Cmp:
     case kAVXFloat64Add:
     case kAVXFloat64Sub:
     case kAVXFloat64Mul:
     case kAVXFloat64Div:
     case kAVXFloat64Max:
     case kAVXFloat64Min:
     case kAVXFloat64Abs:
     case kAVXFloat64Neg:
     case kAVXFloat32Abs:
     case kAVXFloat32Neg:
     case kX64BitcastFI:
     case kX64BitcastDL:
     case kX64BitcastIF:
     case kX64BitcastLD:
     case kX64Lea32:
     case kX64Lea:
     case kX64Dec32:
     case kX64Inc32:
       return (instr->addressing_mode() == kMode_None)
           ? kNoOpcodeFlags
           : kIsLoadOperation | kHasSideEffect;

     case kX64Movsxbl:
     case kX64Movzxbl:
     case kX64Movsxwl:
     case kX64Movzxwl:
     case kX64Movsxlq:
       DCHECK(instr->InputCount() >= 1);
       return instr->InputAt(0)->IsRegister() ? kNoOpcodeFlags
                                              : kIsLoadOperation;

     case kX64Movb:
     case kX64Movw:
       return kHasSideEffect;

     case kX64Movl:
       if (instr->HasOutput()) {
         DCHECK(instr->InputCount() >= 1);
         return instr->InputAt(0)->IsRegister() ? kNoOpcodeFlags
                                                : kIsLoadOperation;
       } else {
         return kHasSideEffect;
       }

     case kX64Movq:
     case kX64Movsd:
     case kX64Movss:
       return instr->HasOutput() ? kIsLoadOperation : kHasSideEffect;

     case kX64StackCheck:
       return kIsLoadOperation;

     case kX64Push:
     case kX64Poke:
       return kHasSideEffect;

 #define CASE(Name) case k##Name:
     COMMON_ARCH_OPCODE_LIST(CASE)
 #undef CASE
       // Already covered in architecture independent code.
       UNREACHABLE();
   }

   UNREACHABLE();
   return kNoOpcodeFlags;
 }


 int InstructionScheduler::GetInstructionLatency(const Instruction* instr) {
   // TODO(all): Add instruction cost modeling.
   return 1;
 }

 }  // namespace compiler
 }  // namespace internal
 }  // namespace v8
	// Copyright 2015 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.

	#include "src/compiler/instruction-scheduler.h"

	namespace v8 {
	namespace internal {
	namespace compiler {

	bool InstructionScheduler::SchedulerSupported() { return true; }


	int InstructionScheduler::GetTargetInstructionFlags(
	const Instruction* instr) const {
	switch (instr->arch_opcode()) {
	case kX64Add:
	case kX64Add32:
	case kX64And:
	case kX64And32:
	case kX64Cmp:
	case kX64Cmp32:
	case kX64Test:
	case kX64Test32:
	case kX64Or:
	case kX64Or32:
	case kX64Xor:
	case kX64Xor32:
	case kX64Sub:
	case kX64Sub32:
	case kX64Imul:
	case kX64Imul32:
	case kX64ImulHigh32:
	case kX64UmulHigh32:
	case kX64Idiv:
	case kX64Idiv32:
	case kX64Udiv:
	case kX64Udiv32:
	case kX64Not:
	case kX64Not32:
	case kX64Neg:
	case kX64Neg32:
	case kX64Shl:
	case kX64Shl32:
	case kX64Shr:
	case kX64Shr32:
	case kX64Sar:
	case kX64Sar32:
	case kX64Ror:
	case kX64Ror32:
	case kX64Lzcnt:
	case kX64Lzcnt32:
	case kX64Tzcnt:
	case kX64Tzcnt32:
	case kX64Popcnt:
	case kX64Popcnt32:
	case kSSEFloat32Cmp:
	case kSSEFloat32Add:
	case kSSEFloat32Sub:
	case kSSEFloat32Mul:
	case kSSEFloat32Div:
	case kSSEFloat32Abs:
	case kSSEFloat32Neg:
	case kSSEFloat32Sqrt:
	case kSSEFloat32Round:
	case kSSEFloat32Max:
	case kSSEFloat32Min:
	case kSSEFloat32ToFloat64:
	case kSSEFloat64Cmp:
	case kSSEFloat64Add:
	case kSSEFloat64Sub:
	case kSSEFloat64Mul:
	case kSSEFloat64Div:
	case kSSEFloat64Mod:
	case kSSEFloat64Abs:
	case kSSEFloat64Neg:
	case kSSEFloat64Sqrt:
	case kSSEFloat64Round:
	case kSSEFloat64Max:
	case kSSEFloat64Min:
	case kSSEFloat64ToFloat32:
	case kSSEFloat32ToInt32:
	case kSSEFloat32ToUint32:
	case kSSEFloat64ToInt32:
	case kSSEFloat64ToUint32:
	case kSSEFloat64ToInt64:
	case kSSEFloat32ToInt64:
	case kSSEFloat64ToUint64:
	case kSSEFloat32ToUint64:
	case kSSEInt32ToFloat64:
	case kSSEInt32ToFloat32:
	case kSSEInt64ToFloat32:
	case kSSEInt64ToFloat64:
	case kSSEUint64ToFloat32:
	case kSSEUint64ToFloat64:
	case kSSEUint32ToFloat64:
	case kSSEUint32ToFloat32:
	case kSSEFloat64ExtractLowWord32:
	case kSSEFloat64ExtractHighWord32:
	case kSSEFloat64InsertLowWord32:
	case kSSEFloat64InsertHighWord32:
	case kSSEFloat64LoadLowWord32:
	case kAVXFloat32Cmp:
	case kAVXFloat32Add:
	case kAVXFloat32Sub:
	case kAVXFloat32Mul:
	case kAVXFloat32Div:
	case kAVXFloat32Max:
	case kAVXFloat32Min:
	case kAVXFloat64Cmp:
	case kAVXFloat64Add:
	case kAVXFloat64Sub:
	case kAVXFloat64Mul:
	case kAVXFloat64Div:
	case kAVXFloat64Max:
	case kAVXFloat64Min:
	case kAVXFloat64Abs:
	case kAVXFloat64Neg:
	case kAVXFloat32Abs:
	case kAVXFloat32Neg:
	case kX64BitcastFI:
	case kX64BitcastDL:
	case kX64BitcastIF:
	case kX64BitcastLD:
	case kX64Lea32:
	case kX64Lea:
	case kX64Dec32:
	case kX64Inc32:
	return (instr->addressing_mode() == kMode_None)
	? kNoOpcodeFlags
	: kIsLoadOperation \| kHasSideEffect;

	case kX64Movsxbl:
	case kX64Movzxbl:
	case kX64Movsxwl:
	case kX64Movzxwl:
	case kX64Movsxlq:
	DCHECK(instr->InputCount() >= 1);
	return instr->InputAt(0)->IsRegister() ? kNoOpcodeFlags
	: kIsLoadOperation;

	case kX64Movb:
	case kX64Movw:
	return kHasSideEffect;

	case kX64Movl:
	if (instr->HasOutput()) {
	DCHECK(instr->InputCount() >= 1);
	return instr->InputAt(0)->IsRegister() ? kNoOpcodeFlags
	: kIsLoadOperation;
	} else {
	return kHasSideEffect;
	}

	case kX64Movq:
	case kX64Movsd:
	case kX64Movss:
	return instr->HasOutput() ? kIsLoadOperation : kHasSideEffect;

	case kX64StackCheck:
	return kIsLoadOperation;

	case kX64Push:
	case kX64Poke:
	return kHasSideEffect;

	#define CASE(Name) case k##Name:
	COMMON_ARCH_OPCODE_LIST(CASE)
	#undef CASE
	// Already covered in architecture independent code.
	UNREACHABLE();
	}

	UNREACHABLE();
	return kNoOpcodeFlags;
	}


	int InstructionScheduler::GetInstructionLatency(const Instruction* instr) {
	// TODO(all): Add instruction cost modeling.
	return 1;
	}

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