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cobalt / cobalt / 1bf8b4dd7753e80946b50c77b33fdf15f7df959b / . / src / v8 / src / compiler / ia32 / instruction-scheduler-ia32.cc
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// 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 kIA32Add:
case kIA32And:
case kIA32Cmp:
case kIA32Cmp16:
case kIA32Cmp8:
case kIA32Test:
case kIA32Test16:
case kIA32Test8:
case kIA32Or:
case kIA32Xor:
case kIA32Sub:
case kIA32Imul:
case kIA32ImulHigh:
case kIA32UmulHigh:
case kIA32Not:
case kIA32Neg:
case kIA32Shl:
case kIA32Shr:
case kIA32Sar:
case kIA32AddPair:
case kIA32SubPair:
case kIA32MulPair:
case kIA32ShlPair:
case kIA32ShrPair:
case kIA32SarPair:
case kIA32Ror:
case kIA32Lzcnt:
case kIA32Tzcnt:
case kIA32Popcnt:
case kIA32Lea:
case kSSEFloat32Cmp:
case kSSEFloat32Add:
case kSSEFloat32Sub:
case kSSEFloat32Mul:
case kSSEFloat32Div:
case kSSEFloat32Abs:
case kSSEFloat32Neg:
case kSSEFloat32Sqrt:
case kSSEFloat32Round:
case kSSEFloat64Cmp:
case kSSEFloat64Add:
case kSSEFloat64Sub:
case kSSEFloat64Mul:
case kSSEFloat64Div:
case kSSEFloat64Mod:
case kSSEFloat32Max:
case kSSEFloat64Max:
case kSSEFloat32Min:
case kSSEFloat64Min:
case kSSEFloat64Abs:
case kSSEFloat64Neg:
case kSSEFloat64Sqrt:
case kSSEFloat64Round:
case kSSEFloat32ToFloat64:
case kSSEFloat64ToFloat32:
case kSSEFloat32ToInt32:
case kSSEFloat32ToUint32:
case kSSEFloat64ToInt32:
case kSSEFloat64ToUint32:
case kSSEInt32ToFloat32:
case kSSEUint32ToFloat32:
case kSSEInt32ToFloat64:
case kSSEUint32ToFloat64:
case kSSEFloat64ExtractLowWord32:
case kSSEFloat64ExtractHighWord32:
case kSSEFloat64InsertLowWord32:
case kSSEFloat64InsertHighWord32:
case kSSEFloat64LoadLowWord32:
case kSSEFloat64SilenceNaN:
case kAVXFloat32Add:
case kAVXFloat32Sub:
case kAVXFloat32Mul:
case kAVXFloat32Div:
case kAVXFloat64Add:
case kAVXFloat64Sub:
case kAVXFloat64Mul:
case kAVXFloat64Div:
case kAVXFloat64Abs:
case kAVXFloat64Neg:
case kAVXFloat32Abs:
case kAVXFloat32Neg:
case kIA32BitcastFI:
case kIA32BitcastIF:
case kIA32I32x4Splat:
case kIA32I32x4ExtractLane:
case kSSEI32x4ReplaceLane:
case kAVXI32x4ReplaceLane:
case kIA32I32x4Neg:
case kSSEI32x4Shl:
case kAVXI32x4Shl:
case kSSEI32x4ShrS:
case kAVXI32x4ShrS:
case kSSEI32x4Add:
case kAVXI32x4Add:
case kSSEI32x4Sub:
case kAVXI32x4Sub:
case kSSEI32x4Mul:
case kAVXI32x4Mul:
case kSSEI32x4MinS:
case kAVXI32x4MinS:
case kSSEI32x4MaxS:
case kAVXI32x4MaxS:
case kSSEI32x4Eq:
case kAVXI32x4Eq:
case kSSEI32x4Ne:
case kAVXI32x4Ne:
case kSSEI32x4GtS:
case kAVXI32x4GtS:
case kSSEI32x4GeS:
case kAVXI32x4GeS:
case kSSEI32x4ShrU:
case kAVXI32x4ShrU:
case kSSEI32x4MinU:
case kAVXI32x4MinU:
case kSSEI32x4MaxU:
case kAVXI32x4MaxU:
case kSSEI32x4GtU:
case kAVXI32x4GtU:
case kSSEI32x4GeU:
case kAVXI32x4GeU:
case kIA32I16x8Splat:
case kIA32I16x8ExtractLane:
case kSSEI16x8ReplaceLane:
case kAVXI16x8ReplaceLane:
case kIA32I8x16Splat:
case kIA32I8x16ExtractLane:
case kSSEI8x16ReplaceLane:
case kAVXI8x16ReplaceLane:
return (instr->addressing_mode() == kMode_None)
? kNoOpcodeFlags
: kIsLoadOperation | kHasSideEffect;
case kIA32Idiv:
case kIA32Udiv:
return (instr->addressing_mode() == kMode_None)
? kMayNeedDeoptOrTrapCheck
: kMayNeedDeoptOrTrapCheck | kIsLoadOperation | kHasSideEffect;
case kIA32Movsxbl:
case kIA32Movzxbl:
case kIA32Movb:
case kIA32Movsxwl:
case kIA32Movzxwl:
case kIA32Movw:
case kIA32Movl:
case kIA32Movss:
case kIA32Movsd:
// Moves are used for memory load/store operations.
return instr->HasOutput() ? kIsLoadOperation : kHasSideEffect;
case kIA32StackCheck:
return kIsLoadOperation;
case kIA32Push:
case kIA32PushFloat32:
case kIA32PushFloat64:
case kIA32Poke:
return kHasSideEffect;
#define CASE(Name) case k##Name:
COMMON_ARCH_OPCODE_LIST(CASE)
#undef CASE
// Already covered in architecture independent code.
UNREACHABLE();
}
UNREACHABLE();
}
int InstructionScheduler::GetInstructionLatency(const Instruction* instr) {
// Basic latency modeling for ia32 instructions. They have been determined
// in an empirical way.
switch (instr->arch_opcode()) {
case kCheckedLoadInt8:
case kCheckedLoadUint8:
case kCheckedLoadInt16:
case kCheckedLoadUint16:
case kCheckedLoadWord32:
case kCheckedLoadFloat32:
case kCheckedLoadFloat64:
case kCheckedStoreWord8:
case kCheckedStoreWord16:
case kCheckedStoreWord32:
case kCheckedStoreFloat32:
case kCheckedStoreFloat64:
case kSSEFloat64Mul:
return 5;
case kIA32Imul:
case kIA32ImulHigh:
return 5;
case kSSEFloat32Cmp:
case kSSEFloat64Cmp:
return 9;
case kSSEFloat32Add:
case kSSEFloat32Sub:
case kSSEFloat32Abs:
case kSSEFloat32Neg:
case kSSEFloat64Add:
case kSSEFloat64Sub:
case kSSEFloat64Max:
case kSSEFloat64Min:
case kSSEFloat64Abs:
case kSSEFloat64Neg:
return 5;
case kSSEFloat32Mul:
return 4;
case kSSEFloat32ToFloat64:
case kSSEFloat64ToFloat32:
return 6;
case kSSEFloat32Round:
case kSSEFloat64Round:
case kSSEFloat32ToInt32:
case kSSEFloat64ToInt32:
return 8;
case kSSEFloat32ToUint32:
return 21;
case kSSEFloat64ToUint32:
return 15;
case kIA32Idiv:
return 33;
case kIA32Udiv:
return 26;
case kSSEFloat32Div:
return 35;
case kSSEFloat64Div:
return 63;
case kSSEFloat32Sqrt:
case kSSEFloat64Sqrt:
return 25;
case kSSEFloat64Mod:
return 50;
case kArchTruncateDoubleToI:
return 9;
default:
return 1;
}
}
} // namespace compiler
} // namespace internal
} // namespace v8