| // 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/codegen/macro-assembler.h" |
| #include "src/compiler/backend/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 kMips64AbsD: |
| case kMips64AbsS: |
| case kMips64Add: |
| case kMips64AddD: |
| case kMips64AddS: |
| case kMips64And: |
| case kMips64And32: |
| case kMips64AssertEqual: |
| case kMips64BitcastDL: |
| case kMips64BitcastLD: |
| case kMips64ByteSwap32: |
| case kMips64ByteSwap64: |
| case kMips64CeilWD: |
| case kMips64CeilWS: |
| case kMips64Clz: |
| case kMips64Cmp: |
| case kMips64CmpD: |
| case kMips64CmpS: |
| case kMips64Ctz: |
| case kMips64CvtDL: |
| case kMips64CvtDS: |
| case kMips64CvtDUl: |
| case kMips64CvtDUw: |
| case kMips64CvtDW: |
| case kMips64CvtSD: |
| case kMips64CvtSL: |
| case kMips64CvtSUl: |
| case kMips64CvtSUw: |
| case kMips64CvtSW: |
| case kMips64DMulHigh: |
| case kMips64MulHighU: |
| case kMips64Dadd: |
| case kMips64DaddOvf: |
| case kMips64Dclz: |
| case kMips64Dctz: |
| case kMips64Ddiv: |
| case kMips64DdivU: |
| case kMips64Dext: |
| case kMips64Dins: |
| case kMips64Div: |
| case kMips64DivD: |
| case kMips64DivS: |
| case kMips64DivU: |
| case kMips64Dlsa: |
| case kMips64Dmod: |
| case kMips64DmodU: |
| case kMips64Dmul: |
| case kMips64Dpopcnt: |
| case kMips64Dror: |
| case kMips64Dsar: |
| case kMips64Dshl: |
| case kMips64Dshr: |
| case kMips64Dsub: |
| case kMips64DsubOvf: |
| case kMips64Ext: |
| case kMips64F32x4Abs: |
| case kMips64F32x4Add: |
| case kMips64F32x4AddHoriz: |
| case kMips64F32x4Eq: |
| case kMips64F32x4ExtractLane: |
| case kMips64F32x4Lt: |
| case kMips64F32x4Le: |
| case kMips64F32x4Max: |
| case kMips64F32x4Min: |
| case kMips64F32x4Mul: |
| case kMips64F32x4Ne: |
| case kMips64F32x4Neg: |
| case kMips64F32x4RecipApprox: |
| case kMips64F32x4RecipSqrtApprox: |
| case kMips64F32x4ReplaceLane: |
| case kMips64F32x4SConvertI32x4: |
| case kMips64F32x4Splat: |
| case kMips64F32x4Sub: |
| case kMips64F32x4UConvertI32x4: |
| case kMips64Float32Max: |
| case kMips64Float32Min: |
| case kMips64Float32RoundDown: |
| case kMips64Float32RoundTiesEven: |
| case kMips64Float32RoundTruncate: |
| case kMips64Float32RoundUp: |
| case kMips64Float64ExtractLowWord32: |
| case kMips64Float64ExtractHighWord32: |
| case kMips64Float64InsertLowWord32: |
| case kMips64Float64InsertHighWord32: |
| case kMips64Float64Max: |
| case kMips64Float64Min: |
| case kMips64Float64RoundDown: |
| case kMips64Float64RoundTiesEven: |
| case kMips64Float64RoundTruncate: |
| case kMips64Float64RoundUp: |
| case kMips64Float64SilenceNaN: |
| case kMips64FloorWD: |
| case kMips64FloorWS: |
| case kMips64I16x8Add: |
| case kMips64I16x8AddHoriz: |
| case kMips64I16x8AddSaturateS: |
| case kMips64I16x8AddSaturateU: |
| case kMips64I16x8Eq: |
| case kMips64I16x8ExtractLane: |
| case kMips64I16x8GeS: |
| case kMips64I16x8GeU: |
| case kMips64I16x8GtS: |
| case kMips64I16x8GtU: |
| case kMips64I16x8MaxS: |
| case kMips64I16x8MaxU: |
| case kMips64I16x8MinS: |
| case kMips64I16x8MinU: |
| case kMips64I16x8Mul: |
| case kMips64I16x8Ne: |
| case kMips64I16x8Neg: |
| case kMips64I16x8ReplaceLane: |
| case kMips64I8x16SConvertI16x8: |
| case kMips64I16x8SConvertI32x4: |
| case kMips64I16x8SConvertI8x16High: |
| case kMips64I16x8SConvertI8x16Low: |
| case kMips64I16x8Shl: |
| case kMips64I16x8ShrS: |
| case kMips64I16x8ShrU: |
| case kMips64I16x8Splat: |
| case kMips64I16x8Sub: |
| case kMips64I16x8SubSaturateS: |
| case kMips64I16x8SubSaturateU: |
| case kMips64I8x16UConvertI16x8: |
| case kMips64I16x8UConvertI32x4: |
| case kMips64I16x8UConvertI8x16High: |
| case kMips64I16x8UConvertI8x16Low: |
| case kMips64I32x4Add: |
| case kMips64I32x4AddHoriz: |
| case kMips64I32x4Eq: |
| case kMips64I32x4ExtractLane: |
| case kMips64I32x4GeS: |
| case kMips64I32x4GeU: |
| case kMips64I32x4GtS: |
| case kMips64I32x4GtU: |
| case kMips64I32x4MaxS: |
| case kMips64I32x4MaxU: |
| case kMips64I32x4MinS: |
| case kMips64I32x4MinU: |
| case kMips64I32x4Mul: |
| case kMips64I32x4Ne: |
| case kMips64I32x4Neg: |
| case kMips64I32x4ReplaceLane: |
| case kMips64I32x4SConvertF32x4: |
| case kMips64I32x4SConvertI16x8High: |
| case kMips64I32x4SConvertI16x8Low: |
| case kMips64I32x4Shl: |
| case kMips64I32x4ShrS: |
| case kMips64I32x4ShrU: |
| case kMips64I32x4Splat: |
| case kMips64I32x4Sub: |
| case kMips64I32x4UConvertF32x4: |
| case kMips64I32x4UConvertI16x8High: |
| case kMips64I32x4UConvertI16x8Low: |
| case kMips64I8x16Add: |
| case kMips64I8x16AddSaturateS: |
| case kMips64I8x16AddSaturateU: |
| case kMips64I8x16Eq: |
| case kMips64I8x16ExtractLane: |
| case kMips64I8x16GeS: |
| case kMips64I8x16GeU: |
| case kMips64I8x16GtS: |
| case kMips64I8x16GtU: |
| case kMips64I8x16MaxS: |
| case kMips64I8x16MaxU: |
| case kMips64I8x16MinS: |
| case kMips64I8x16MinU: |
| case kMips64I8x16Mul: |
| case kMips64I8x16Ne: |
| case kMips64I8x16Neg: |
| case kMips64I8x16ReplaceLane: |
| case kMips64I8x16Shl: |
| case kMips64I8x16ShrS: |
| case kMips64I8x16ShrU: |
| case kMips64I8x16Splat: |
| case kMips64I8x16Sub: |
| case kMips64I8x16SubSaturateS: |
| case kMips64I8x16SubSaturateU: |
| case kMips64Ins: |
| case kMips64Lsa: |
| case kMips64MaxD: |
| case kMips64MaxS: |
| case kMips64MinD: |
| case kMips64MinS: |
| case kMips64Mod: |
| case kMips64ModU: |
| case kMips64Mov: |
| case kMips64Mul: |
| case kMips64MulD: |
| case kMips64MulHigh: |
| case kMips64MulOvf: |
| case kMips64MulS: |
| case kMips64NegD: |
| case kMips64NegS: |
| case kMips64Nor: |
| case kMips64Nor32: |
| case kMips64Or: |
| case kMips64Or32: |
| case kMips64Popcnt: |
| case kMips64Ror: |
| case kMips64RoundWD: |
| case kMips64RoundWS: |
| case kMips64S128And: |
| case kMips64S128Or: |
| case kMips64S128Not: |
| case kMips64S128Select: |
| case kMips64S128Xor: |
| case kMips64S128Zero: |
| case kMips64S16x8InterleaveEven: |
| case kMips64S16x8InterleaveOdd: |
| case kMips64S16x8InterleaveLeft: |
| case kMips64S16x8InterleaveRight: |
| case kMips64S16x8PackEven: |
| case kMips64S16x8PackOdd: |
| case kMips64S16x2Reverse: |
| case kMips64S16x4Reverse: |
| case kMips64S1x16AllTrue: |
| case kMips64S1x16AnyTrue: |
| case kMips64S1x4AllTrue: |
| case kMips64S1x4AnyTrue: |
| case kMips64S1x8AllTrue: |
| case kMips64S1x8AnyTrue: |
| case kMips64S32x4InterleaveEven: |
| case kMips64S32x4InterleaveOdd: |
| case kMips64S32x4InterleaveLeft: |
| case kMips64S32x4InterleaveRight: |
| case kMips64S32x4PackEven: |
| case kMips64S32x4PackOdd: |
| case kMips64S32x4Shuffle: |
| case kMips64S8x16Concat: |
| case kMips64S8x16InterleaveEven: |
| case kMips64S8x16InterleaveOdd: |
| case kMips64S8x16InterleaveLeft: |
| case kMips64S8x16InterleaveRight: |
| case kMips64S8x16PackEven: |
| case kMips64S8x16PackOdd: |
| case kMips64S8x2Reverse: |
| case kMips64S8x4Reverse: |
| case kMips64S8x8Reverse: |
| case kMips64S8x16Shuffle: |
| case kMips64Sar: |
| case kMips64Seb: |
| case kMips64Seh: |
| case kMips64Shl: |
| case kMips64Shr: |
| case kMips64SqrtD: |
| case kMips64SqrtS: |
| case kMips64Sub: |
| case kMips64SubD: |
| case kMips64SubS: |
| case kMips64TruncLD: |
| case kMips64TruncLS: |
| case kMips64TruncUlD: |
| case kMips64TruncUlS: |
| case kMips64TruncUwD: |
| case kMips64TruncUwS: |
| case kMips64TruncWD: |
| case kMips64TruncWS: |
| case kMips64Tst: |
| case kMips64Xor: |
| case kMips64Xor32: |
| return kNoOpcodeFlags; |
| |
| case kMips64Lb: |
| case kMips64Lbu: |
| case kMips64Ld: |
| case kMips64Ldc1: |
| case kMips64Lh: |
| case kMips64Lhu: |
| case kMips64Lw: |
| case kMips64Lwc1: |
| case kMips64Lwu: |
| case kMips64MsaLd: |
| case kMips64Peek: |
| case kMips64Uld: |
| case kMips64Uldc1: |
| case kMips64Ulh: |
| case kMips64Ulhu: |
| case kMips64Ulw: |
| case kMips64Ulwu: |
| case kMips64Ulwc1: |
| case kMips64Word64AtomicLoadUint8: |
| case kMips64Word64AtomicLoadUint16: |
| case kMips64Word64AtomicLoadUint32: |
| case kMips64Word64AtomicLoadUint64: |
| |
| return kIsLoadOperation; |
| |
| case kMips64ModD: |
| case kMips64ModS: |
| case kMips64MsaSt: |
| case kMips64Push: |
| case kMips64Sb: |
| case kMips64Sd: |
| case kMips64Sdc1: |
| case kMips64Sh: |
| case kMips64StackClaim: |
| case kMips64StoreToStackSlot: |
| case kMips64Sw: |
| case kMips64Swc1: |
| case kMips64Usd: |
| case kMips64Usdc1: |
| case kMips64Ush: |
| case kMips64Usw: |
| case kMips64Uswc1: |
| case kMips64Sync: |
| case kMips64Word64AtomicStoreWord8: |
| case kMips64Word64AtomicStoreWord16: |
| case kMips64Word64AtomicStoreWord32: |
| case kMips64Word64AtomicStoreWord64: |
| case kMips64Word64AtomicAddUint8: |
| case kMips64Word64AtomicAddUint16: |
| case kMips64Word64AtomicAddUint32: |
| case kMips64Word64AtomicAddUint64: |
| case kMips64Word64AtomicSubUint8: |
| case kMips64Word64AtomicSubUint16: |
| case kMips64Word64AtomicSubUint32: |
| case kMips64Word64AtomicSubUint64: |
| case kMips64Word64AtomicAndUint8: |
| case kMips64Word64AtomicAndUint16: |
| case kMips64Word64AtomicAndUint32: |
| case kMips64Word64AtomicAndUint64: |
| case kMips64Word64AtomicOrUint8: |
| case kMips64Word64AtomicOrUint16: |
| case kMips64Word64AtomicOrUint32: |
| case kMips64Word64AtomicOrUint64: |
| case kMips64Word64AtomicXorUint8: |
| case kMips64Word64AtomicXorUint16: |
| case kMips64Word64AtomicXorUint32: |
| case kMips64Word64AtomicXorUint64: |
| case kMips64Word64AtomicExchangeUint8: |
| case kMips64Word64AtomicExchangeUint16: |
| case kMips64Word64AtomicExchangeUint32: |
| case kMips64Word64AtomicExchangeUint64: |
| case kMips64Word64AtomicCompareExchangeUint8: |
| case kMips64Word64AtomicCompareExchangeUint16: |
| case kMips64Word64AtomicCompareExchangeUint32: |
| case kMips64Word64AtomicCompareExchangeUint64: |
| return kHasSideEffect; |
| |
| #define CASE(Name) case k##Name: |
| COMMON_ARCH_OPCODE_LIST(CASE) |
| #undef CASE |
| // Already covered in architecture independent code. |
| UNREACHABLE(); |
| } |
| |
| UNREACHABLE(); |
| } |
| |
| enum Latency { |
| BRANCH = 4, // Estimated max. |
| RINT_S = 4, // Estimated. |
| RINT_D = 4, // Estimated. |
| |
| MULT = 4, |
| MULTU = 4, |
| DMULT = 4, |
| DMULTU = 4, |
| |
| MUL = 7, |
| DMUL = 7, |
| MUH = 7, |
| MUHU = 7, |
| DMUH = 7, |
| DMUHU = 7, |
| |
| DIV = 50, // Min:11 Max:50 |
| DDIV = 50, |
| DIVU = 50, |
| DDIVU = 50, |
| |
| ABS_S = 4, |
| ABS_D = 4, |
| NEG_S = 4, |
| NEG_D = 4, |
| ADD_S = 4, |
| ADD_D = 4, |
| SUB_S = 4, |
| SUB_D = 4, |
| MAX_S = 4, // Estimated. |
| MIN_S = 4, |
| MAX_D = 4, // Estimated. |
| MIN_D = 4, |
| C_cond_S = 4, |
| C_cond_D = 4, |
| MUL_S = 4, |
| |
| MADD_S = 4, |
| MSUB_S = 4, |
| NMADD_S = 4, |
| NMSUB_S = 4, |
| |
| CABS_cond_S = 4, |
| CABS_cond_D = 4, |
| |
| CVT_D_S = 4, |
| CVT_PS_PW = 4, |
| |
| CVT_S_W = 4, |
| CVT_S_L = 4, |
| CVT_D_W = 4, |
| CVT_D_L = 4, |
| |
| CVT_S_D = 4, |
| |
| CVT_W_S = 4, |
| CVT_W_D = 4, |
| CVT_L_S = 4, |
| CVT_L_D = 4, |
| |
| CEIL_W_S = 4, |
| CEIL_W_D = 4, |
| CEIL_L_S = 4, |
| CEIL_L_D = 4, |
| |
| FLOOR_W_S = 4, |
| FLOOR_W_D = 4, |
| FLOOR_L_S = 4, |
| FLOOR_L_D = 4, |
| |
| ROUND_W_S = 4, |
| ROUND_W_D = 4, |
| ROUND_L_S = 4, |
| ROUND_L_D = 4, |
| |
| TRUNC_W_S = 4, |
| TRUNC_W_D = 4, |
| TRUNC_L_S = 4, |
| TRUNC_L_D = 4, |
| |
| MOV_S = 4, |
| MOV_D = 4, |
| |
| MOVF_S = 4, |
| MOVF_D = 4, |
| |
| MOVN_S = 4, |
| MOVN_D = 4, |
| |
| MOVT_S = 4, |
| MOVT_D = 4, |
| |
| MOVZ_S = 4, |
| MOVZ_D = 4, |
| |
| MUL_D = 5, |
| MADD_D = 5, |
| MSUB_D = 5, |
| NMADD_D = 5, |
| NMSUB_D = 5, |
| |
| RECIP_S = 13, |
| RECIP_D = 26, |
| |
| RSQRT_S = 17, |
| RSQRT_D = 36, |
| |
| DIV_S = 17, |
| SQRT_S = 17, |
| |
| DIV_D = 32, |
| SQRT_D = 32, |
| |
| MTC1 = 4, |
| MTHC1 = 4, |
| DMTC1 = 4, |
| LWC1 = 4, |
| LDC1 = 4, |
| |
| MFC1 = 1, |
| MFHC1 = 1, |
| DMFC1 = 1, |
| MFHI = 1, |
| MFLO = 1, |
| SWC1 = 1, |
| SDC1 = 1, |
| }; |
| |
| int DadduLatency(bool is_operand_register = true) { |
| if (is_operand_register) { |
| return 1; |
| } else { |
| return 2; // Estimated max. |
| } |
| } |
| |
| int DsubuLatency(bool is_operand_register = true) { |
| return DadduLatency(is_operand_register); |
| } |
| |
| int AndLatency(bool is_operand_register = true) { |
| return DadduLatency(is_operand_register); |
| } |
| |
| int OrLatency(bool is_operand_register = true) { |
| return DadduLatency(is_operand_register); |
| } |
| |
| int NorLatency(bool is_operand_register = true) { |
| if (is_operand_register) { |
| return 1; |
| } else { |
| return 2; // Estimated max. |
| } |
| } |
| |
| int XorLatency(bool is_operand_register = true) { |
| return DadduLatency(is_operand_register); |
| } |
| |
| int MulLatency(bool is_operand_register = true) { |
| if (is_operand_register) { |
| return Latency::MUL; |
| } else { |
| return Latency::MUL + 1; |
| } |
| } |
| |
| int DmulLatency(bool is_operand_register = true) { |
| int latency = 0; |
| if (kArchVariant >= kMips64r6) { |
| latency = Latency::DMUL; |
| } else { |
| latency = Latency::DMULT + Latency::MFLO; |
| } |
| if (!is_operand_register) { |
| latency += 1; |
| } |
| return latency; |
| } |
| |
| int MulhLatency(bool is_operand_register = true) { |
| int latency = 0; |
| if (kArchVariant >= kMips64r6) { |
| latency = Latency::MUH; |
| } else { |
| latency = Latency::MULT + Latency::MFHI; |
| } |
| if (!is_operand_register) { |
| latency += 1; |
| } |
| return latency; |
| } |
| |
| int MulhuLatency(bool is_operand_register = true) { |
| int latency = 0; |
| if (kArchVariant >= kMips64r6) { |
| latency = Latency::MUH; |
| } else { |
| latency = Latency::MULTU + Latency::MFHI; |
| } |
| if (!is_operand_register) { |
| latency += 1; |
| } |
| return latency; |
| } |
| |
| int DMulhLatency(bool is_operand_register = true) { |
| int latency = 0; |
| if (kArchVariant >= kMips64r6) { |
| latency = Latency::DMUH; |
| } else { |
| latency = Latency::DMULT + Latency::MFHI; |
| } |
| if (!is_operand_register) { |
| latency += 1; |
| } |
| return latency; |
| } |
| |
| int DivLatency(bool is_operand_register = true) { |
| if (is_operand_register) { |
| return Latency::DIV; |
| } else { |
| return Latency::DIV + 1; |
| } |
| } |
| |
| int DivuLatency(bool is_operand_register = true) { |
| if (is_operand_register) { |
| return Latency::DIVU; |
| } else { |
| return Latency::DIVU + 1; |
| } |
| } |
| |
| int DdivLatency(bool is_operand_register = true) { |
| int latency = 0; |
| if (kArchVariant >= kMips64r6) { |
| latency = Latency::DDIV; |
| } else { |
| latency = Latency::DDIV + Latency::MFLO; |
| } |
| if (!is_operand_register) { |
| latency += 1; |
| } |
| return latency; |
| } |
| |
| int DdivuLatency(bool is_operand_register = true) { |
| int latency = 0; |
| if (kArchVariant >= kMips64r6) { |
| latency = Latency::DDIVU; |
| } else { |
| latency = Latency::DDIVU + Latency::MFLO; |
| } |
| if (!is_operand_register) { |
| latency += 1; |
| } |
| return latency; |
| } |
| |
| int ModLatency(bool is_operand_register = true) { |
| int latency = 0; |
| if (kArchVariant >= kMips64r6) { |
| latency = 1; |
| } else { |
| latency = Latency::DIV + Latency::MFHI; |
| } |
| if (!is_operand_register) { |
| latency += 1; |
| } |
| return latency; |
| } |
| |
| int ModuLatency(bool is_operand_register = true) { |
| int latency = 0; |
| if (kArchVariant >= kMips64r6) { |
| latency = 1; |
| } else { |
| latency = Latency::DIVU + Latency::MFHI; |
| } |
| if (!is_operand_register) { |
| latency += 1; |
| } |
| return latency; |
| } |
| |
| int DmodLatency(bool is_operand_register = true) { |
| int latency = 0; |
| if (kArchVariant >= kMips64r6) { |
| latency = 1; |
| } else { |
| latency = Latency::DDIV + Latency::MFHI; |
| } |
| if (!is_operand_register) { |
| latency += 1; |
| } |
| return latency; |
| } |
| |
| int DmoduLatency(bool is_operand_register = true) { |
| int latency = 0; |
| if (kArchVariant >= kMips64r6) { |
| latency = 1; |
| } else { |
| latency = Latency::DDIV + Latency::MFHI; |
| } |
| if (!is_operand_register) { |
| latency += 1; |
| } |
| return latency; |
| } |
| |
| int MovzLatency() { |
| if (kArchVariant >= kMips64r6) { |
| return Latency::BRANCH + 1; |
| } else { |
| return 1; |
| } |
| } |
| |
| int MovnLatency() { |
| if (kArchVariant >= kMips64r6) { |
| return Latency::BRANCH + 1; |
| } else { |
| return 1; |
| } |
| } |
| |
| int DlsaLatency() { |
| // Estimated max. |
| return DadduLatency() + 1; |
| } |
| |
| int CallLatency() { |
| // Estimated. |
| return DadduLatency(false) + Latency::BRANCH + 5; |
| } |
| |
| int JumpLatency() { |
| // Estimated max. |
| return 1 + DadduLatency() + Latency::BRANCH + 2; |
| } |
| |
| int SmiUntagLatency() { return 1; } |
| |
| int PrepareForTailCallLatency() { |
| // Estimated max. |
| return 2 * (DlsaLatency() + DadduLatency(false)) + 2 + Latency::BRANCH + |
| Latency::BRANCH + 2 * DsubuLatency(false) + 2 + Latency::BRANCH + 1; |
| } |
| |
| int AssemblePopArgumentsAdoptFrameLatency() { |
| return 1 + Latency::BRANCH + 1 + SmiUntagLatency() + |
| PrepareForTailCallLatency(); |
| } |
| |
| int AssertLatency() { return 1; } |
| |
| int PrepareCallCFunctionLatency() { |
| int frame_alignment = TurboAssembler::ActivationFrameAlignment(); |
| if (frame_alignment > kSystemPointerSize) { |
| return 1 + DsubuLatency(false) + AndLatency(false) + 1; |
| } else { |
| return DsubuLatency(false); |
| } |
| } |
| |
| int AdjustBaseAndOffsetLatency() { |
| return 3; // Estimated max. |
| } |
| |
| int AlignedMemoryLatency() { return AdjustBaseAndOffsetLatency() + 1; } |
| |
| int UlhuLatency() { |
| if (kArchVariant >= kMips64r6) { |
| return AlignedMemoryLatency(); |
| } else { |
| return AdjustBaseAndOffsetLatency() + 2 * AlignedMemoryLatency() + 2; |
| } |
| } |
| |
| int UlwLatency() { |
| if (kArchVariant >= kMips64r6) { |
| return AlignedMemoryLatency(); |
| } else { |
| // Estimated max. |
| return AdjustBaseAndOffsetLatency() + 3; |
| } |
| } |
| |
| int UlwuLatency() { |
| if (kArchVariant >= kMips64r6) { |
| return AlignedMemoryLatency(); |
| } else { |
| return UlwLatency() + 1; |
| } |
| } |
| |
| int UldLatency() { |
| if (kArchVariant >= kMips64r6) { |
| return AlignedMemoryLatency(); |
| } else { |
| // Estimated max. |
| return AdjustBaseAndOffsetLatency() + 3; |
| } |
| } |
| |
| int Ulwc1Latency() { |
| if (kArchVariant >= kMips64r6) { |
| return AlignedMemoryLatency(); |
| } else { |
| return UlwLatency() + Latency::MTC1; |
| } |
| } |
| |
| int Uldc1Latency() { |
| if (kArchVariant >= kMips64r6) { |
| return AlignedMemoryLatency(); |
| } else { |
| return UldLatency() + Latency::DMTC1; |
| } |
| } |
| |
| int UshLatency() { |
| if (kArchVariant >= kMips64r6) { |
| return AlignedMemoryLatency(); |
| } else { |
| // Estimated max. |
| return AdjustBaseAndOffsetLatency() + 2 + 2 * AlignedMemoryLatency(); |
| } |
| } |
| |
| int UswLatency() { |
| if (kArchVariant >= kMips64r6) { |
| return AlignedMemoryLatency(); |
| } else { |
| return AdjustBaseAndOffsetLatency() + 2; |
| } |
| } |
| |
| int UsdLatency() { |
| if (kArchVariant >= kMips64r6) { |
| return AlignedMemoryLatency(); |
| } else { |
| return AdjustBaseAndOffsetLatency() + 2; |
| } |
| } |
| |
| int Uswc1Latency() { |
| if (kArchVariant >= kMips64r6) { |
| return AlignedMemoryLatency(); |
| } else { |
| return Latency::MFC1 + UswLatency(); |
| } |
| } |
| |
| int Usdc1Latency() { |
| if (kArchVariant >= kMips64r6) { |
| return AlignedMemoryLatency(); |
| } else { |
| return Latency::DMFC1 + UsdLatency(); |
| } |
| } |
| |
| int Lwc1Latency() { return AdjustBaseAndOffsetLatency() + Latency::LWC1; } |
| |
| int Swc1Latency() { return AdjustBaseAndOffsetLatency() + Latency::SWC1; } |
| |
| int Sdc1Latency() { return AdjustBaseAndOffsetLatency() + Latency::SDC1; } |
| |
| int Ldc1Latency() { return AdjustBaseAndOffsetLatency() + Latency::LDC1; } |
| |
| int MultiPushLatency() { |
| int latency = DsubuLatency(false); |
| for (int16_t i = kNumRegisters - 1; i >= 0; i--) { |
| latency++; |
| } |
| return latency; |
| } |
| |
| int MultiPushFPULatency() { |
| int latency = DsubuLatency(false); |
| for (int16_t i = kNumRegisters - 1; i >= 0; i--) { |
| latency += Sdc1Latency(); |
| } |
| return latency; |
| } |
| |
| int PushCallerSavedLatency(SaveFPRegsMode fp_mode) { |
| int latency = MultiPushLatency(); |
| if (fp_mode == kSaveFPRegs) { |
| latency += MultiPushFPULatency(); |
| } |
| return latency; |
| } |
| |
| int MultiPopLatency() { |
| int latency = DadduLatency(false); |
| for (int16_t i = 0; i < kNumRegisters; i++) { |
| latency++; |
| } |
| return latency; |
| } |
| |
| int MultiPopFPULatency() { |
| int latency = DadduLatency(false); |
| for (int16_t i = 0; i < kNumRegisters; i++) { |
| latency += Ldc1Latency(); |
| } |
| return latency; |
| } |
| |
| int PopCallerSavedLatency(SaveFPRegsMode fp_mode) { |
| int latency = MultiPopLatency(); |
| if (fp_mode == kSaveFPRegs) { |
| latency += MultiPopFPULatency(); |
| } |
| return latency; |
| } |
| |
| int CallCFunctionHelperLatency() { |
| // Estimated. |
| int latency = AndLatency(false) + Latency::BRANCH + 2 + CallLatency(); |
| if (base::OS::ActivationFrameAlignment() > kSystemPointerSize) { |
| latency++; |
| } else { |
| latency += DadduLatency(false); |
| } |
| return latency; |
| } |
| |
| int CallCFunctionLatency() { return 1 + CallCFunctionHelperLatency(); } |
| |
| int AssembleArchJumpLatency() { |
| // Estimated max. |
| return Latency::BRANCH; |
| } |
| |
| int AssembleArchLookupSwitchLatency(const Instruction* instr) { |
| int latency = 0; |
| for (size_t index = 2; index < instr->InputCount(); index += 2) { |
| latency += 1 + Latency::BRANCH; |
| } |
| return latency + AssembleArchJumpLatency(); |
| } |
| |
| int GenerateSwitchTableLatency() { |
| int latency = 0; |
| if (kArchVariant >= kMips64r6) { |
| latency = DlsaLatency() + 2; |
| } else { |
| latency = 6; |
| } |
| latency += 2; |
| return latency; |
| } |
| |
| int AssembleArchTableSwitchLatency() { |
| return Latency::BRANCH + GenerateSwitchTableLatency(); |
| } |
| |
| int DropAndRetLatency() { |
| // Estimated max. |
| return DadduLatency(false) + JumpLatency(); |
| } |
| |
| int AssemblerReturnLatency() { |
| // Estimated max. |
| return DadduLatency(false) + MultiPopLatency() + MultiPopFPULatency() + |
| Latency::BRANCH + DadduLatency() + 1 + DropAndRetLatency(); |
| } |
| |
| int TryInlineTruncateDoubleToILatency() { |
| return 2 + Latency::TRUNC_W_D + Latency::MFC1 + 2 + AndLatency(false) + |
| Latency::BRANCH; |
| } |
| |
| int CallStubDelayedLatency() { return 1 + CallLatency(); } |
| |
| int TruncateDoubleToIDelayedLatency() { |
| // TODO(mips): This no longer reflects how TruncateDoubleToI is called. |
| return TryInlineTruncateDoubleToILatency() + 1 + DsubuLatency(false) + |
| Sdc1Latency() + CallStubDelayedLatency() + DadduLatency(false) + 1; |
| } |
| |
| int CheckPageFlagLatency() { |
| return AndLatency(false) + AlignedMemoryLatency() + AndLatency(false) + |
| Latency::BRANCH; |
| } |
| |
| int SltuLatency(bool is_operand_register = true) { |
| if (is_operand_register) { |
| return 1; |
| } else { |
| return 2; // Estimated max. |
| } |
| } |
| |
| int BranchShortHelperR6Latency() { |
| return 2; // Estimated max. |
| } |
| |
| int BranchShortHelperLatency() { |
| return SltuLatency() + 2; // Estimated max. |
| } |
| |
| int BranchShortLatency(BranchDelaySlot bdslot = PROTECT) { |
| if (kArchVariant >= kMips64r6 && bdslot == PROTECT) { |
| return BranchShortHelperR6Latency(); |
| } else { |
| return BranchShortHelperLatency(); |
| } |
| } |
| |
| int MoveLatency() { return 1; } |
| |
| int MovToFloatParametersLatency() { return 2 * MoveLatency(); } |
| |
| int MovFromFloatResultLatency() { return MoveLatency(); } |
| |
| int DaddOverflowLatency() { |
| // Estimated max. |
| return 6; |
| } |
| |
| int DsubOverflowLatency() { |
| // Estimated max. |
| return 6; |
| } |
| |
| int MulOverflowLatency() { |
| // Estimated max. |
| return MulLatency() + MulhLatency() + 2; |
| } |
| |
| int DclzLatency() { return 1; } |
| |
| int CtzLatency() { |
| if (kArchVariant >= kMips64r6) { |
| return 3 + DclzLatency(); |
| } else { |
| return DadduLatency(false) + XorLatency() + AndLatency() + DclzLatency() + |
| 1 + DsubuLatency(); |
| } |
| } |
| |
| int DctzLatency() { |
| if (kArchVariant >= kMips64r6) { |
| return 4; |
| } else { |
| return DadduLatency(false) + XorLatency() + AndLatency() + 1 + |
| DsubuLatency(); |
| } |
| } |
| |
| int PopcntLatency() { |
| return 2 + AndLatency() + DsubuLatency() + 1 + AndLatency() + 1 + |
| AndLatency() + DadduLatency() + 1 + DadduLatency() + 1 + AndLatency() + |
| 1 + MulLatency() + 1; |
| } |
| |
| int DpopcntLatency() { |
| return 2 + AndLatency() + DsubuLatency() + 1 + AndLatency() + 1 + |
| AndLatency() + DadduLatency() + 1 + DadduLatency() + 1 + AndLatency() + |
| 1 + DmulLatency() + 1; |
| } |
| |
| int CompareFLatency() { return Latency::C_cond_S; } |
| |
| int CompareF32Latency() { return CompareFLatency(); } |
| |
| int CompareF64Latency() { return CompareFLatency(); } |
| |
| int CompareIsNanFLatency() { return CompareFLatency(); } |
| |
| int CompareIsNanF32Latency() { return CompareIsNanFLatency(); } |
| |
| int CompareIsNanF64Latency() { return CompareIsNanFLatency(); } |
| |
| int NegsLatency() { |
| if (kArchVariant >= kMips64r6) { |
| return Latency::NEG_S; |
| } else { |
| // Estimated. |
| return CompareIsNanF32Latency() + 2 * Latency::BRANCH + Latency::NEG_S + |
| Latency::MFC1 + 1 + XorLatency() + Latency::MTC1; |
| } |
| } |
| |
| int NegdLatency() { |
| if (kArchVariant >= kMips64r6) { |
| return Latency::NEG_D; |
| } else { |
| // Estimated. |
| return CompareIsNanF64Latency() + 2 * Latency::BRANCH + Latency::NEG_D + |
| Latency::DMFC1 + 1 + XorLatency() + Latency::DMTC1; |
| } |
| } |
| |
| int Float64RoundLatency() { |
| if (kArchVariant >= kMips64r6) { |
| return Latency::RINT_D + 4; |
| } else { |
| // For ceil_l_d, floor_l_d, round_l_d, trunc_l_d latency is 4. |
| return Latency::DMFC1 + 1 + Latency::BRANCH + Latency::MOV_D + 4 + |
| Latency::DMFC1 + Latency::BRANCH + Latency::CVT_D_L + 2 + |
| Latency::MTHC1; |
| } |
| } |
| |
| int Float32RoundLatency() { |
| if (kArchVariant >= kMips64r6) { |
| return Latency::RINT_S + 4; |
| } else { |
| // For ceil_w_s, floor_w_s, round_w_s, trunc_w_s latency is 4. |
| return Latency::MFC1 + 1 + Latency::BRANCH + Latency::MOV_S + 4 + |
| Latency::MFC1 + Latency::BRANCH + Latency::CVT_S_W + 2 + |
| Latency::MTC1; |
| } |
| } |
| |
| int Float32MaxLatency() { |
| // Estimated max. |
| int latency = CompareIsNanF32Latency() + Latency::BRANCH; |
| if (kArchVariant >= kMips64r6) { |
| return latency + Latency::MAX_S; |
| } else { |
| return latency + 5 * Latency::BRANCH + 2 * CompareF32Latency() + |
| Latency::MFC1 + 1 + Latency::MOV_S; |
| } |
| } |
| |
| int Float64MaxLatency() { |
| // Estimated max. |
| int latency = CompareIsNanF64Latency() + Latency::BRANCH; |
| if (kArchVariant >= kMips64r6) { |
| return latency + Latency::MAX_D; |
| } else { |
| return latency + 5 * Latency::BRANCH + 2 * CompareF64Latency() + |
| Latency::DMFC1 + Latency::MOV_D; |
| } |
| } |
| |
| int Float32MinLatency() { |
| // Estimated max. |
| int latency = CompareIsNanF32Latency() + Latency::BRANCH; |
| if (kArchVariant >= kMips64r6) { |
| return latency + Latency::MIN_S; |
| } else { |
| return latency + 5 * Latency::BRANCH + 2 * CompareF32Latency() + |
| Latency::MFC1 + 1 + Latency::MOV_S; |
| } |
| } |
| |
| int Float64MinLatency() { |
| // Estimated max. |
| int latency = CompareIsNanF64Latency() + Latency::BRANCH; |
| if (kArchVariant >= kMips64r6) { |
| return latency + Latency::MIN_D; |
| } else { |
| return latency + 5 * Latency::BRANCH + 2 * CompareF32Latency() + |
| Latency::DMFC1 + Latency::MOV_D; |
| } |
| } |
| |
| int TruncLSLatency(bool load_status) { |
| int latency = Latency::TRUNC_L_S + Latency::DMFC1; |
| if (load_status) { |
| latency += SltuLatency() + 7; |
| } |
| return latency; |
| } |
| |
| int TruncLDLatency(bool load_status) { |
| int latency = Latency::TRUNC_L_D + Latency::DMFC1; |
| if (load_status) { |
| latency += SltuLatency() + 7; |
| } |
| return latency; |
| } |
| |
| int TruncUlSLatency() { |
| // Estimated max. |
| return 2 * CompareF32Latency() + CompareIsNanF32Latency() + |
| 4 * Latency::BRANCH + Latency::SUB_S + 2 * Latency::TRUNC_L_S + |
| 3 * Latency::DMFC1 + OrLatency() + Latency::MTC1 + Latency::MOV_S + |
| SltuLatency() + 4; |
| } |
| |
| int TruncUlDLatency() { |
| // Estimated max. |
| return 2 * CompareF64Latency() + CompareIsNanF64Latency() + |
| 4 * Latency::BRANCH + Latency::SUB_D + 2 * Latency::TRUNC_L_D + |
| 3 * Latency::DMFC1 + OrLatency() + Latency::DMTC1 + Latency::MOV_D + |
| SltuLatency() + 4; |
| } |
| |
| int PushLatency() { return DadduLatency() + AlignedMemoryLatency(); } |
| |
| int ByteSwapSignedLatency() { return 2; } |
| |
| int LlLatency(int offset) { |
| bool is_one_instruction = |
| (kArchVariant == kMips64r6) ? is_int9(offset) : is_int16(offset); |
| if (is_one_instruction) { |
| return 1; |
| } else { |
| return 3; |
| } |
| } |
| |
| int ExtractBitsLatency(bool sign_extend, int size) { |
| int latency = 2; |
| if (sign_extend) { |
| switch (size) { |
| case 8: |
| case 16: |
| case 32: |
| latency += 1; |
| break; |
| default: |
| UNREACHABLE(); |
| } |
| } |
| return latency; |
| } |
| |
| int InsertBitsLatency() { return 2 + DsubuLatency(false) + 2; } |
| |
| int ScLatency(int offset) { |
| bool is_one_instruction = |
| (kArchVariant == kMips64r6) ? is_int9(offset) : is_int16(offset); |
| if (is_one_instruction) { |
| return 1; |
| } else { |
| return 3; |
| } |
| } |
| |
| int Word32AtomicExchangeLatency(bool sign_extend, int size) { |
| return DadduLatency(false) + 1 + DsubuLatency() + 2 + LlLatency(0) + |
| ExtractBitsLatency(sign_extend, size) + InsertBitsLatency() + |
| ScLatency(0) + BranchShortLatency() + 1; |
| } |
| |
| int Word32AtomicCompareExchangeLatency(bool sign_extend, int size) { |
| return 2 + DsubuLatency() + 2 + LlLatency(0) + |
| ExtractBitsLatency(sign_extend, size) + InsertBitsLatency() + |
| ScLatency(0) + BranchShortLatency() + 1; |
| } |
| |
| int InstructionScheduler::GetInstructionLatency(const Instruction* instr) { |
| // Basic latency modeling for MIPS64 instructions. They have been determined |
| // in empirical way. |
| switch (instr->arch_opcode()) { |
| case kArchCallCodeObject: |
| case kArchCallWasmFunction: |
| return CallLatency(); |
| case kArchTailCallCodeObjectFromJSFunction: |
| case kArchTailCallCodeObject: { |
| int latency = 0; |
| if (instr->arch_opcode() == kArchTailCallCodeObjectFromJSFunction) { |
| latency = AssemblePopArgumentsAdoptFrameLatency(); |
| } |
| return latency + JumpLatency(); |
| } |
| case kArchTailCallWasm: |
| case kArchTailCallAddress: |
| return JumpLatency(); |
| case kArchCallJSFunction: { |
| int latency = 0; |
| if (FLAG_debug_code) { |
| latency = 1 + AssertLatency(); |
| } |
| return latency + 1 + DadduLatency(false) + CallLatency(); |
| } |
| case kArchPrepareCallCFunction: |
| return PrepareCallCFunctionLatency(); |
| case kArchSaveCallerRegisters: { |
| auto fp_mode = |
| static_cast<SaveFPRegsMode>(MiscField::decode(instr->opcode())); |
| return PushCallerSavedLatency(fp_mode); |
| } |
| case kArchRestoreCallerRegisters: { |
| auto fp_mode = |
| static_cast<SaveFPRegsMode>(MiscField::decode(instr->opcode())); |
| return PopCallerSavedLatency(fp_mode); |
| } |
| case kArchPrepareTailCall: |
| return 2; |
| case kArchCallCFunction: |
| return CallCFunctionLatency(); |
| case kArchJmp: |
| return AssembleArchJumpLatency(); |
| case kArchLookupSwitch: |
| return AssembleArchLookupSwitchLatency(instr); |
| case kArchTableSwitch: |
| return AssembleArchTableSwitchLatency(); |
| case kArchAbortCSAAssert: |
| return CallLatency() + 1; |
| case kArchDebugBreak: |
| return 1; |
| case kArchComment: |
| case kArchNop: |
| case kArchThrowTerminator: |
| case kArchDeoptimize: |
| return 0; |
| case kArchRet: |
| return AssemblerReturnLatency(); |
| case kArchStackPointer: |
| case kArchFramePointer: |
| return 1; |
| case kArchParentFramePointer: |
| // Estimated max. |
| return AlignedMemoryLatency(); |
| case kArchTruncateDoubleToI: |
| return TruncateDoubleToIDelayedLatency(); |
| case kArchStoreWithWriteBarrier: |
| return DadduLatency() + 1 + CheckPageFlagLatency(); |
| case kArchStackSlot: |
| // Estimated max. |
| return DadduLatency(false) + AndLatency(false) + AssertLatency() + |
| DadduLatency(false) + AndLatency(false) + BranchShortLatency() + |
| 1 + DsubuLatency() + DadduLatency(); |
| case kArchWordPoisonOnSpeculation: |
| return AndLatency(); |
| case kIeee754Float64Acos: |
| case kIeee754Float64Acosh: |
| case kIeee754Float64Asin: |
| case kIeee754Float64Asinh: |
| case kIeee754Float64Atan: |
| case kIeee754Float64Atanh: |
| case kIeee754Float64Atan2: |
| case kIeee754Float64Cos: |
| case kIeee754Float64Cosh: |
| case kIeee754Float64Cbrt: |
| case kIeee754Float64Exp: |
| case kIeee754Float64Expm1: |
| case kIeee754Float64Log: |
| case kIeee754Float64Log1p: |
| case kIeee754Float64Log10: |
| case kIeee754Float64Log2: |
| case kIeee754Float64Pow: |
| case kIeee754Float64Sin: |
| case kIeee754Float64Sinh: |
| case kIeee754Float64Tan: |
| case kIeee754Float64Tanh: |
| return PrepareCallCFunctionLatency() + MovToFloatParametersLatency() + |
| CallCFunctionLatency() + MovFromFloatResultLatency(); |
| case kMips64Add: |
| case kMips64Dadd: |
| return DadduLatency(instr->InputAt(1)->IsRegister()); |
| case kMips64DaddOvf: |
| return DaddOverflowLatency(); |
| case kMips64Sub: |
| case kMips64Dsub: |
| return DsubuLatency(instr->InputAt(1)->IsRegister()); |
| case kMips64DsubOvf: |
| return DsubOverflowLatency(); |
| case kMips64Mul: |
| return MulLatency(); |
| case kMips64MulOvf: |
| return MulOverflowLatency(); |
| case kMips64MulHigh: |
| return MulhLatency(); |
| case kMips64MulHighU: |
| return MulhuLatency(); |
| case kMips64DMulHigh: |
| return DMulhLatency(); |
| case kMips64Div: { |
| int latency = DivLatency(instr->InputAt(1)->IsRegister()); |
| if (kArchVariant >= kMips64r6) { |
| return latency++; |
| } else { |
| return latency + MovzLatency(); |
| } |
| } |
| case kMips64DivU: { |
| int latency = DivuLatency(instr->InputAt(1)->IsRegister()); |
| if (kArchVariant >= kMips64r6) { |
| return latency++; |
| } else { |
| return latency + MovzLatency(); |
| } |
| } |
| case kMips64Mod: |
| return ModLatency(); |
| case kMips64ModU: |
| return ModuLatency(); |
| case kMips64Dmul: |
| return DmulLatency(); |
| case kMips64Ddiv: { |
| int latency = DdivLatency(); |
| if (kArchVariant >= kMips64r6) { |
| return latency++; |
| } else { |
| return latency + MovzLatency(); |
| } |
| } |
| case kMips64DdivU: { |
| int latency = DdivuLatency(); |
| if (kArchVariant >= kMips64r6) { |
| return latency++; |
| } else { |
| return latency + MovzLatency(); |
| } |
| } |
| case kMips64Dmod: |
| return DmodLatency(); |
| case kMips64DmodU: |
| return DmoduLatency(); |
| case kMips64Dlsa: |
| case kMips64Lsa: |
| return DlsaLatency(); |
| case kMips64And: |
| return AndLatency(instr->InputAt(1)->IsRegister()); |
| case kMips64And32: { |
| bool is_operand_register = instr->InputAt(1)->IsRegister(); |
| int latency = AndLatency(is_operand_register); |
| if (is_operand_register) { |
| return latency + 2; |
| } else { |
| return latency + 1; |
| } |
| } |
| case kMips64Or: |
| return OrLatency(instr->InputAt(1)->IsRegister()); |
| case kMips64Or32: { |
| bool is_operand_register = instr->InputAt(1)->IsRegister(); |
| int latency = OrLatency(is_operand_register); |
| if (is_operand_register) { |
| return latency + 2; |
| } else { |
| return latency + 1; |
| } |
| } |
| case kMips64Nor: |
| return NorLatency(instr->InputAt(1)->IsRegister()); |
| case kMips64Nor32: { |
| bool is_operand_register = instr->InputAt(1)->IsRegister(); |
| int latency = NorLatency(is_operand_register); |
| if (is_operand_register) { |
| return latency + 2; |
| } else { |
| return latency + 1; |
| } |
| } |
| case kMips64Xor: |
| return XorLatency(instr->InputAt(1)->IsRegister()); |
| case kMips64Xor32: { |
| bool is_operand_register = instr->InputAt(1)->IsRegister(); |
| int latency = XorLatency(is_operand_register); |
| if (is_operand_register) { |
| return latency + 2; |
| } else { |
| return latency + 1; |
| } |
| } |
| case kMips64Clz: |
| case kMips64Dclz: |
| return DclzLatency(); |
| case kMips64Ctz: |
| return CtzLatency(); |
| case kMips64Dctz: |
| return DctzLatency(); |
| case kMips64Popcnt: |
| return PopcntLatency(); |
| case kMips64Dpopcnt: |
| return DpopcntLatency(); |
| case kMips64Shl: |
| return 1; |
| case kMips64Shr: |
| case kMips64Sar: |
| return 2; |
| case kMips64Ext: |
| case kMips64Ins: |
| case kMips64Dext: |
| case kMips64Dins: |
| case kMips64Dshl: |
| case kMips64Dshr: |
| case kMips64Dsar: |
| case kMips64Ror: |
| case kMips64Dror: |
| return 1; |
| case kMips64Tst: |
| return AndLatency(instr->InputAt(1)->IsRegister()); |
| case kMips64Mov: |
| return 1; |
| case kMips64CmpS: |
| return MoveLatency() + CompareF32Latency(); |
| case kMips64AddS: |
| return Latency::ADD_S; |
| case kMips64SubS: |
| return Latency::SUB_S; |
| case kMips64MulS: |
| return Latency::MUL_S; |
| case kMips64DivS: |
| return Latency::DIV_S; |
| case kMips64ModS: |
| return PrepareCallCFunctionLatency() + MovToFloatParametersLatency() + |
| CallCFunctionLatency() + MovFromFloatResultLatency(); |
| case kMips64AbsS: |
| return Latency::ABS_S; |
| case kMips64NegS: |
| return NegdLatency(); |
| case kMips64SqrtS: |
| return Latency::SQRT_S; |
| case kMips64MaxS: |
| return Latency::MAX_S; |
| case kMips64MinS: |
| return Latency::MIN_S; |
| case kMips64CmpD: |
| return MoveLatency() + CompareF64Latency(); |
| case kMips64AddD: |
| return Latency::ADD_D; |
| case kMips64SubD: |
| return Latency::SUB_D; |
| case kMips64MulD: |
| return Latency::MUL_D; |
| case kMips64DivD: |
| return Latency::DIV_D; |
| case kMips64ModD: |
| return PrepareCallCFunctionLatency() + MovToFloatParametersLatency() + |
| CallCFunctionLatency() + MovFromFloatResultLatency(); |
| case kMips64AbsD: |
| return Latency::ABS_D; |
| case kMips64NegD: |
| return NegdLatency(); |
| case kMips64SqrtD: |
| return Latency::SQRT_D; |
| case kMips64MaxD: |
| return Latency::MAX_D; |
| case kMips64MinD: |
| return Latency::MIN_D; |
| case kMips64Float64RoundDown: |
| case kMips64Float64RoundTruncate: |
| case kMips64Float64RoundUp: |
| case kMips64Float64RoundTiesEven: |
| return Float64RoundLatency(); |
| case kMips64Float32RoundDown: |
| case kMips64Float32RoundTruncate: |
| case kMips64Float32RoundUp: |
| case kMips64Float32RoundTiesEven: |
| return Float32RoundLatency(); |
| case kMips64Float32Max: |
| return Float32MaxLatency(); |
| case kMips64Float64Max: |
| return Float64MaxLatency(); |
| case kMips64Float32Min: |
| return Float32MinLatency(); |
| case kMips64Float64Min: |
| return Float64MinLatency(); |
| case kMips64Float64SilenceNaN: |
| return Latency::SUB_D; |
| case kMips64CvtSD: |
| return Latency::CVT_S_D; |
| case kMips64CvtDS: |
| return Latency::CVT_D_S; |
| case kMips64CvtDW: |
| return Latency::MTC1 + Latency::CVT_D_W; |
| case kMips64CvtSW: |
| return Latency::MTC1 + Latency::CVT_S_W; |
| case kMips64CvtSUw: |
| return 1 + Latency::DMTC1 + Latency::CVT_S_L; |
| case kMips64CvtSL: |
| return Latency::DMTC1 + Latency::CVT_S_L; |
| case kMips64CvtDL: |
| return Latency::DMTC1 + Latency::CVT_D_L; |
| case kMips64CvtDUw: |
| return 1 + Latency::DMTC1 + Latency::CVT_D_L; |
| case kMips64CvtDUl: |
| return 2 * Latency::BRANCH + 3 + 2 * Latency::DMTC1 + |
| 2 * Latency::CVT_D_L + Latency::ADD_D; |
| case kMips64CvtSUl: |
| return 2 * Latency::BRANCH + 3 + 2 * Latency::DMTC1 + |
| 2 * Latency::CVT_S_L + Latency::ADD_S; |
| case kMips64FloorWD: |
| return Latency::FLOOR_W_D + Latency::MFC1; |
| case kMips64CeilWD: |
| return Latency::CEIL_W_D + Latency::MFC1; |
| case kMips64RoundWD: |
| return Latency::ROUND_W_D + Latency::MFC1; |
| case kMips64TruncWD: |
| return Latency::TRUNC_W_D + Latency::MFC1; |
| case kMips64FloorWS: |
| return Latency::FLOOR_W_S + Latency::MFC1; |
| case kMips64CeilWS: |
| return Latency::CEIL_W_S + Latency::MFC1; |
| case kMips64RoundWS: |
| return Latency::ROUND_W_S + Latency::MFC1; |
| case kMips64TruncWS: |
| return Latency::TRUNC_W_S + Latency::MFC1 + 2 + MovnLatency(); |
| case kMips64TruncLS: |
| return TruncLSLatency(instr->OutputCount() > 1); |
| case kMips64TruncLD: |
| return TruncLDLatency(instr->OutputCount() > 1); |
| case kMips64TruncUwD: |
| // Estimated max. |
| return CompareF64Latency() + 2 * Latency::BRANCH + |
| 2 * Latency::TRUNC_W_D + Latency::SUB_D + OrLatency() + |
| Latency::MTC1 + Latency::MFC1 + Latency::MTHC1 + 1; |
| case kMips64TruncUwS: |
| // Estimated max. |
| return CompareF32Latency() + 2 * Latency::BRANCH + |
| 2 * Latency::TRUNC_W_S + Latency::SUB_S + OrLatency() + |
| Latency::MTC1 + 2 * Latency::MFC1 + 2 + MovzLatency(); |
| case kMips64TruncUlS: |
| return TruncUlSLatency(); |
| case kMips64TruncUlD: |
| return TruncUlDLatency(); |
| case kMips64BitcastDL: |
| return Latency::DMFC1; |
| case kMips64BitcastLD: |
| return Latency::DMTC1; |
| case kMips64Float64ExtractLowWord32: |
| return Latency::MFC1; |
| case kMips64Float64InsertLowWord32: |
| return Latency::MFHC1 + Latency::MTC1 + Latency::MTHC1; |
| case kMips64Float64ExtractHighWord32: |
| return Latency::MFHC1; |
| case kMips64Float64InsertHighWord32: |
| return Latency::MTHC1; |
| case kMips64Seb: |
| case kMips64Seh: |
| return 1; |
| case kMips64Lbu: |
| case kMips64Lb: |
| case kMips64Lhu: |
| case kMips64Lh: |
| case kMips64Lwu: |
| case kMips64Lw: |
| case kMips64Ld: |
| case kMips64Sb: |
| case kMips64Sh: |
| case kMips64Sw: |
| case kMips64Sd: |
| return AlignedMemoryLatency(); |
| case kMips64Lwc1: |
| return Lwc1Latency(); |
| case kMips64Ldc1: |
| return Ldc1Latency(); |
| case kMips64Swc1: |
| return Swc1Latency(); |
| case kMips64Sdc1: |
| return Sdc1Latency(); |
| case kMips64Ulhu: |
| case kMips64Ulh: |
| return UlhuLatency(); |
| case kMips64Ulwu: |
| return UlwuLatency(); |
| case kMips64Ulw: |
| return UlwLatency(); |
| case kMips64Uld: |
| return UldLatency(); |
| case kMips64Ulwc1: |
| return Ulwc1Latency(); |
| case kMips64Uldc1: |
| return Uldc1Latency(); |
| case kMips64Ush: |
| return UshLatency(); |
| case kMips64Usw: |
| return UswLatency(); |
| case kMips64Usd: |
| return UsdLatency(); |
| case kMips64Uswc1: |
| return Uswc1Latency(); |
| case kMips64Usdc1: |
| return Usdc1Latency(); |
| case kMips64Push: { |
| int latency = 0; |
| if (instr->InputAt(0)->IsFPRegister()) { |
| latency = Sdc1Latency() + DsubuLatency(false); |
| } else { |
| latency = PushLatency(); |
| } |
| return latency; |
| } |
| case kMips64Peek: { |
| int latency = 0; |
| if (instr->OutputAt(0)->IsFPRegister()) { |
| auto op = LocationOperand::cast(instr->OutputAt(0)); |
| switch (op->representation()) { |
| case MachineRepresentation::kFloat64: |
| latency = Ldc1Latency(); |
| break; |
| case MachineRepresentation::kFloat32: |
| latency = Latency::LWC1; |
| break; |
| default: |
| UNREACHABLE(); |
| } |
| } else { |
| latency = AlignedMemoryLatency(); |
| } |
| return latency; |
| } |
| case kMips64StackClaim: |
| return DsubuLatency(false); |
| case kMips64StoreToStackSlot: { |
| int latency = 0; |
| if (instr->InputAt(0)->IsFPRegister()) { |
| if (instr->InputAt(0)->IsSimd128Register()) { |
| latency = 1; // Estimated value. |
| } else { |
| latency = Sdc1Latency(); |
| } |
| } else { |
| latency = AlignedMemoryLatency(); |
| } |
| return latency; |
| } |
| case kMips64ByteSwap64: |
| return ByteSwapSignedLatency(); |
| case kMips64ByteSwap32: |
| return ByteSwapSignedLatency(); |
| case kWord32AtomicLoadInt8: |
| case kWord32AtomicLoadUint8: |
| case kWord32AtomicLoadInt16: |
| case kWord32AtomicLoadUint16: |
| case kWord32AtomicLoadWord32: |
| return 2; |
| case kWord32AtomicStoreWord8: |
| case kWord32AtomicStoreWord16: |
| case kWord32AtomicStoreWord32: |
| return 3; |
| case kWord32AtomicExchangeInt8: |
| return Word32AtomicExchangeLatency(true, 8); |
| case kWord32AtomicExchangeUint8: |
| return Word32AtomicExchangeLatency(false, 8); |
| case kWord32AtomicExchangeInt16: |
| return Word32AtomicExchangeLatency(true, 16); |
| case kWord32AtomicExchangeUint16: |
| return Word32AtomicExchangeLatency(false, 16); |
| case kWord32AtomicExchangeWord32: |
| return 2 + LlLatency(0) + 1 + ScLatency(0) + BranchShortLatency() + 1; |
| case kWord32AtomicCompareExchangeInt8: |
| return Word32AtomicCompareExchangeLatency(true, 8); |
| case kWord32AtomicCompareExchangeUint8: |
| return Word32AtomicCompareExchangeLatency(false, 8); |
| case kWord32AtomicCompareExchangeInt16: |
| return Word32AtomicCompareExchangeLatency(true, 16); |
| case kWord32AtomicCompareExchangeUint16: |
| return Word32AtomicCompareExchangeLatency(false, 16); |
| case kWord32AtomicCompareExchangeWord32: |
| return 3 + LlLatency(0) + BranchShortLatency() + 1 + ScLatency(0) + |
| BranchShortLatency() + 1; |
| case kMips64AssertEqual: |
| return AssertLatency(); |
| default: |
| return 1; |
| } |
| } |
| |
| } // namespace compiler |
| } // namespace internal |
| } // namespace v8 |
