//===- X86LegalizerInfo.cpp --------------------------------------*- C++ -*-==// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// /// \file /// This file implements the targeting of the Machinelegalizer class for X86. /// \todo This should be generated by TableGen. //===----------------------------------------------------------------------===// #include "X86LegalizerInfo.h" #include "X86Subtarget.h" #include "X86TargetMachine.h" #include "llvm/CodeGen/GlobalISel/GenericMachineInstrs.h" #include "llvm/CodeGen/GlobalISel/LegalizerHelper.h" #include "llvm/CodeGen/GlobalISel/MachineIRBuilder.h" #include "llvm/CodeGen/MachineConstantPool.h" #include "llvm/CodeGen/TargetOpcodes.h" #include "llvm/CodeGen/ValueTypes.h" #include "llvm/IR/DerivedTypes.h" #include "llvm/IR/Type.h" using namespace llvm; using namespace TargetOpcode; using namespace LegalizeActions; using namespace LegalityPredicates; X86LegalizerInfo::X86LegalizerInfo(const X86Subtarget &STI, const X86TargetMachine &TM) : Subtarget(STI) { bool Is64Bit = Subtarget.is64Bit(); bool HasCMOV = Subtarget.canUseCMOV(); bool HasSSE1 = Subtarget.hasSSE1(); bool HasSSE2 = Subtarget.hasSSE2(); bool HasSSE41 = Subtarget.hasSSE41(); bool HasAVX = Subtarget.hasAVX(); bool HasAVX2 = Subtarget.hasAVX2(); bool HasAVX512 = Subtarget.hasAVX512(); bool HasVLX = Subtarget.hasVLX(); bool HasDQI = Subtarget.hasAVX512() && Subtarget.hasDQI(); bool HasBWI = Subtarget.hasAVX512() && Subtarget.hasBWI(); bool UseX87 = !Subtarget.useSoftFloat() && Subtarget.hasX87(); const LLT p0 = LLT::pointer(0, TM.getPointerSizeInBits(0)); const LLT s1 = LLT::scalar(1); const LLT s8 = LLT::scalar(8); const LLT s16 = LLT::scalar(16); const LLT s32 = LLT::scalar(32); const LLT s64 = LLT::scalar(64); const LLT s80 = LLT::scalar(80); const LLT s128 = LLT::scalar(128); const LLT sMaxScalar = Subtarget.is64Bit() ? s64 : s32; const LLT v2s32 = LLT::fixed_vector(2, 32); const LLT v4s8 = LLT::fixed_vector(4, 8); const LLT v16s8 = LLT::fixed_vector(16, 8); const LLT v8s16 = LLT::fixed_vector(8, 16); const LLT v4s32 = LLT::fixed_vector(4, 32); const LLT v2s64 = LLT::fixed_vector(2, 64); const LLT v2p0 = LLT::fixed_vector(2, p0); const LLT v32s8 = LLT::fixed_vector(32, 8); const LLT v16s16 = LLT::fixed_vector(16, 16); const LLT v8s32 = LLT::fixed_vector(8, 32); const LLT v4s64 = LLT::fixed_vector(4, 64); const LLT v4p0 = LLT::fixed_vector(4, p0); const LLT v64s8 = LLT::fixed_vector(64, 8); const LLT v32s16 = LLT::fixed_vector(32, 16); const LLT v16s32 = LLT::fixed_vector(16, 32); const LLT v8s64 = LLT::fixed_vector(8, 64); const LLT s8MaxVector = HasAVX512 ? v64s8 : HasAVX ? v32s8 : v16s8; const LLT s16MaxVector = HasAVX512 ? v32s16 : HasAVX ? v16s16 : v8s16; const LLT s32MaxVector = HasAVX512 ? v16s32 : HasAVX ? v8s32 : v4s32; const LLT s64MaxVector = HasAVX512 ? v8s64 : HasAVX ? v4s64 : v2s64; // todo: AVX512 bool vector predicate types // implicit/constants getActionDefinitionsBuilder(G_IMPLICIT_DEF) .legalIf([=](const LegalityQuery &Query) -> bool { // 32/64-bits needs support for s64/s128 to handle cases: // s64 = EXTEND (G_IMPLICIT_DEF s32) -> s64 = G_IMPLICIT_DEF // s128 = EXTEND (G_IMPLICIT_DEF s32/s64) -> s128 = G_IMPLICIT_DEF return typeInSet(0, {p0, s1, s8, s16, s32, s64})(Query) || (Is64Bit && typeInSet(0, {s128})(Query)); }); getActionDefinitionsBuilder(G_CONSTANT) .legalIf([=](const LegalityQuery &Query) -> bool { return typeInSet(0, {p0, s8, s16, s32})(Query) || (Is64Bit && typeInSet(0, {s64})(Query)); }) .widenScalarToNextPow2(0, /*Min=*/8) .clampScalar(0, s8, sMaxScalar); // merge/unmerge for (unsigned Op : {G_MERGE_VALUES, G_UNMERGE_VALUES}) { unsigned BigTyIdx = Op == G_MERGE_VALUES ? 0 : 1; unsigned LitTyIdx = Op == G_MERGE_VALUES ? 1 : 0; getActionDefinitionsBuilder(Op) .widenScalarToNextPow2(LitTyIdx, /*Min=*/8) .widenScalarToNextPow2(BigTyIdx, /*Min=*/16) .minScalar(LitTyIdx, s8) .minScalar(BigTyIdx, s32) .legalIf([=](const LegalityQuery &Q) { switch (Q.Types[BigTyIdx].getSizeInBits()) { case 16: case 32: case 64: case 128: case 256: case 512: break; default: return false; } switch (Q.Types[LitTyIdx].getSizeInBits()) { case 8: case 16: case 32: case 64: case 128: case 256: return true; default: return false; } }); } // integer addition/subtraction getActionDefinitionsBuilder({G_ADD, G_SUB}) .legalIf([=](const LegalityQuery &Query) -> bool { if (typeInSet(0, {s8, s16, s32})(Query)) return true; if (Is64Bit && typeInSet(0, {s64})(Query)) return true; if (HasSSE2 && typeInSet(0, {v16s8, v8s16, v4s32, v2s64})(Query)) return true; if (HasAVX2 && typeInSet(0, {v32s8, v16s16, v8s32, v4s64})(Query)) return true; if (HasAVX512 && typeInSet(0, {v16s32, v8s64})(Query)) return true; if (HasBWI && typeInSet(0, {v64s8, v32s16})(Query)) return true; return false; }) .clampMinNumElements(0, s8, 16) .clampMinNumElements(0, s16, 8) .clampMinNumElements(0, s32, 4) .clampMinNumElements(0, s64, 2) .clampMaxNumElements(0, s8, HasBWI ? 64 : (HasAVX2 ? 32 : 16)) .clampMaxNumElements(0, s16, HasBWI ? 32 : (HasAVX2 ? 16 : 8)) .clampMaxNumElements(0, s32, HasAVX512 ? 16 : (HasAVX2 ? 8 : 4)) .clampMaxNumElements(0, s64, HasAVX512 ? 8 : (HasAVX2 ? 4 : 2)) .widenScalarToNextPow2(0, /*Min=*/32) .clampScalar(0, s8, sMaxScalar) .scalarize(0); getActionDefinitionsBuilder({G_UADDE, G_UADDO, G_USUBE, G_USUBO}) .legalIf([=](const LegalityQuery &Query) -> bool { return typePairInSet(0, 1, {{s8, s1}, {s16, s1}, {s32, s1}})(Query) || (Is64Bit && typePairInSet(0, 1, {{s64, s1}})(Query)); }) .widenScalarToNextPow2(0, /*Min=*/32) .clampScalar(0, s8, sMaxScalar) .clampScalar(1, s1, s1) .scalarize(0); // integer multiply getActionDefinitionsBuilder(G_MUL) .legalIf([=](const LegalityQuery &Query) -> bool { if (typeInSet(0, {s8, s16, s32})(Query)) return true; if (Is64Bit && typeInSet(0, {s64})(Query)) return true; if (HasSSE2 && typeInSet(0, {v8s16})(Query)) return true; if (HasSSE41 && typeInSet(0, {v4s32})(Query)) return true; if (HasAVX2 && typeInSet(0, {v16s16, v8s32})(Query)) return true; if (HasAVX512 && typeInSet(0, {v16s32})(Query)) return true; if (HasDQI && typeInSet(0, {v8s64})(Query)) return true; if (HasDQI && HasVLX && typeInSet(0, {v2s64, v4s64})(Query)) return true; if (HasBWI && typeInSet(0, {v32s16})(Query)) return true; return false; }) .clampMinNumElements(0, s16, 8) .clampMinNumElements(0, s32, 4) .clampMinNumElements(0, s64, HasVLX ? 2 : 8) .clampMaxNumElements(0, s16, HasBWI ? 32 : (HasAVX2 ? 16 : 8)) .clampMaxNumElements(0, s32, HasAVX512 ? 16 : (HasAVX2 ? 8 : 4)) .clampMaxNumElements(0, s64, 8) .widenScalarToNextPow2(0, /*Min=*/32) .clampScalar(0, s8, sMaxScalar) .scalarize(0); getActionDefinitionsBuilder({G_SMULH, G_UMULH}) .legalIf([=](const LegalityQuery &Query) -> bool { return typeInSet(0, {s8, s16, s32})(Query) || (Is64Bit && typeInSet(0, {s64})(Query)); }) .widenScalarToNextPow2(0, /*Min=*/32) .clampScalar(0, s8, sMaxScalar) .scalarize(0); // integer divisions getActionDefinitionsBuilder({G_SDIV, G_SREM, G_UDIV, G_UREM}) .legalIf([=](const LegalityQuery &Query) -> bool { return typeInSet(0, {s8, s16, s32})(Query) || (Is64Bit && typeInSet(0, {s64})(Query)); }) .libcallFor({s64}) .clampScalar(0, s8, sMaxScalar); // integer shifts getActionDefinitionsBuilder({G_SHL, G_LSHR, G_ASHR}) .legalIf([=](const LegalityQuery &Query) -> bool { return typePairInSet(0, 1, {{s8, s8}, {s16, s8}, {s32, s8}})(Query) || (Is64Bit && typePairInSet(0, 1, {{s64, s8}})(Query)); }) .clampScalar(0, s8, sMaxScalar) .clampScalar(1, s8, s8); // integer logic getActionDefinitionsBuilder({G_AND, G_OR, G_XOR}) .legalIf([=](const LegalityQuery &Query) -> bool { if (typeInSet(0, {s8, s16, s32})(Query)) return true; if (Is64Bit && typeInSet(0, {s64})(Query)) return true; if (HasSSE2 && typeInSet(0, {v16s8, v8s16, v4s32, v2s64})(Query)) return true; if (HasAVX && typeInSet(0, {v32s8, v16s16, v8s32, v4s64})(Query)) return true; if (HasAVX512 && typeInSet(0, {v64s8, v32s16, v16s32, v8s64})(Query)) return true; return false; }) .clampMinNumElements(0, s8, 16) .clampMinNumElements(0, s16, 8) .clampMinNumElements(0, s32, 4) .clampMinNumElements(0, s64, 2) .clampMaxNumElements(0, s8, HasAVX512 ? 64 : (HasAVX ? 32 : 16)) .clampMaxNumElements(0, s16, HasAVX512 ? 32 : (HasAVX ? 16 : 8)) .clampMaxNumElements(0, s32, HasAVX512 ? 16 : (HasAVX ? 8 : 4)) .clampMaxNumElements(0, s64, HasAVX512 ? 8 : (HasAVX ? 4 : 2)) .widenScalarToNextPow2(0, /*Min=*/32) .clampScalar(0, s8, sMaxScalar) .scalarize(0); // integer comparison const std::initializer_list IntTypes32 = {s8, s16, s32, p0}; const std::initializer_list IntTypes64 = {s8, s16, s32, s64, p0}; getActionDefinitionsBuilder(G_ICMP) .legalForCartesianProduct({s8}, Is64Bit ? IntTypes64 : IntTypes32) .clampScalar(0, s8, s8) .clampScalar(1, s8, sMaxScalar); // bswap getActionDefinitionsBuilder(G_BSWAP) .legalIf([=](const LegalityQuery &Query) { return Query.Types[0] == s32 || (Subtarget.is64Bit() && Query.Types[0] == s64); }) .widenScalarToNextPow2(0, /*Min=*/32) .clampScalar(0, s32, sMaxScalar); // popcount getActionDefinitionsBuilder(G_CTPOP) .legalIf([=](const LegalityQuery &Query) -> bool { return Subtarget.hasPOPCNT() && (typePairInSet(0, 1, {{s16, s16}, {s32, s32}})(Query) || (Is64Bit && typePairInSet(0, 1, {{s64, s64}})(Query))); }) .widenScalarToNextPow2(1, /*Min=*/16) .clampScalar(1, s16, sMaxScalar) .scalarSameSizeAs(0, 1); // count leading zeros (LZCNT) getActionDefinitionsBuilder(G_CTLZ) .legalIf([=](const LegalityQuery &Query) -> bool { return Subtarget.hasLZCNT() && (typePairInSet(0, 1, {{s16, s16}, {s32, s32}})(Query) || (Is64Bit && typePairInSet(0, 1, {{s64, s64}})(Query))); }) .widenScalarToNextPow2(1, /*Min=*/16) .clampScalar(1, s16, sMaxScalar) .scalarSameSizeAs(0, 1); // count trailing zeros getActionDefinitionsBuilder({G_CTTZ_ZERO_UNDEF, G_CTTZ}) .legalIf([=](const LegalityQuery &Query) -> bool { return (Query.Opcode == G_CTTZ_ZERO_UNDEF || Subtarget.hasBMI()) && (typePairInSet(0, 1, {{s16, s16}, {s32, s32}})(Query) || (Is64Bit && typePairInSet(0, 1, {{s64, s64}})(Query))); }) .widenScalarToNextPow2(1, /*Min=*/16) .clampScalar(1, s16, sMaxScalar) .scalarSameSizeAs(0, 1); // control flow getActionDefinitionsBuilder(G_PHI) .legalIf([=](const LegalityQuery &Query) -> bool { return typeInSet(0, {s8, s16, s32, p0})(Query) || (Is64Bit && typeInSet(0, {s64})(Query)) || (HasSSE1 && typeInSet(0, {v16s8, v8s16, v4s32, v2s64})(Query)) || (HasAVX && typeInSet(0, {v32s8, v16s16, v8s32, v4s64})(Query)) || (HasAVX512 && typeInSet(0, {v64s8, v32s16, v16s32, v8s64})(Query)); }) .clampMinNumElements(0, s8, 16) .clampMinNumElements(0, s16, 8) .clampMinNumElements(0, s32, 4) .clampMinNumElements(0, s64, 2) .clampMaxNumElements(0, s8, HasAVX512 ? 64 : (HasAVX ? 32 : 16)) .clampMaxNumElements(0, s16, HasAVX512 ? 32 : (HasAVX ? 16 : 8)) .clampMaxNumElements(0, s32, HasAVX512 ? 16 : (HasAVX ? 8 : 4)) .clampMaxNumElements(0, s64, HasAVX512 ? 8 : (HasAVX ? 4 : 2)) .widenScalarToNextPow2(0, /*Min=*/32) .clampScalar(0, s8, sMaxScalar) .scalarize(0); getActionDefinitionsBuilder(G_BRCOND).legalFor({s1}); // pointer handling const std::initializer_list PtrTypes32 = {s1, s8, s16, s32}; const std::initializer_list PtrTypes64 = {s1, s8, s16, s32, s64}; getActionDefinitionsBuilder(G_PTRTOINT) .legalForCartesianProduct(Is64Bit ? PtrTypes64 : PtrTypes32, {p0}) .maxScalar(0, sMaxScalar) .widenScalarToNextPow2(0, /*Min*/ 8); getActionDefinitionsBuilder(G_INTTOPTR).legalFor({{p0, sMaxScalar}}); getActionDefinitionsBuilder(G_CONSTANT_POOL).legalFor({p0}); getActionDefinitionsBuilder(G_PTR_ADD) .legalIf([=](const LegalityQuery &Query) -> bool { return typePairInSet(0, 1, {{p0, s32}})(Query) || (Is64Bit && typePairInSet(0, 1, {{p0, s64}})(Query)); }) .widenScalarToNextPow2(1, /*Min*/ 32) .clampScalar(1, s32, sMaxScalar); getActionDefinitionsBuilder({G_FRAME_INDEX, G_GLOBAL_VALUE}).legalFor({p0}); // load/store: add more corner cases for (unsigned Op : {G_LOAD, G_STORE}) { auto &Action = getActionDefinitionsBuilder(Op); Action.legalForTypesWithMemDesc({{s8, p0, s1, 1}, {s8, p0, s8, 1}, {s16, p0, s8, 1}, {s16, p0, s16, 1}, {s32, p0, s8, 1}, {s32, p0, s16, 1}, {s32, p0, s32, 1}, {s80, p0, s80, 1}, {p0, p0, p0, 1}, {v4s8, p0, v4s8, 1}}); if (Is64Bit) Action.legalForTypesWithMemDesc({{s64, p0, s8, 1}, {s64, p0, s16, 1}, {s64, p0, s32, 1}, {s64, p0, s64, 1}, {v2s32, p0, v2s32, 1}}); if (HasSSE1) Action.legalForTypesWithMemDesc({{v4s32, p0, v4s32, 1}}); if (HasSSE2) Action.legalForTypesWithMemDesc({{v16s8, p0, v16s8, 1}, {v8s16, p0, v8s16, 1}, {v2s64, p0, v2s64, 1}, {v2p0, p0, v2p0, 1}}); if (HasAVX) Action.legalForTypesWithMemDesc({{v32s8, p0, v32s8, 1}, {v16s16, p0, v16s16, 1}, {v8s32, p0, v8s32, 1}, {v4s64, p0, v4s64, 1}, {v4p0, p0, v4p0, 1}}); if (HasAVX512) Action.legalForTypesWithMemDesc({{v64s8, p0, v64s8, 1}, {v32s16, p0, v32s16, 1}, {v16s32, p0, v16s32, 1}, {v8s64, p0, v8s64, 1}}); Action.widenScalarToNextPow2(0, /*Min=*/8) .clampScalar(0, s8, sMaxScalar) .scalarize(0); } for (unsigned Op : {G_SEXTLOAD, G_ZEXTLOAD}) { auto &Action = getActionDefinitionsBuilder(Op); Action.legalForTypesWithMemDesc({{s16, p0, s8, 1}, {s32, p0, s8, 1}, {s32, p0, s16, 1}}); if (Is64Bit) Action.legalForTypesWithMemDesc({{s64, p0, s8, 1}, {s64, p0, s16, 1}, {s64, p0, s32, 1}}); // TODO - SSE41/AVX2/AVX512F/AVX512BW vector extensions } // sext, zext, and anyext getActionDefinitionsBuilder({G_SEXT, G_ZEXT, G_ANYEXT}) .legalIf([=](const LegalityQuery &Query) { return typeInSet(0, {s8, s16, s32})(Query) || (Query.Opcode == G_ANYEXT && Query.Types[0] == s128) || (Is64Bit && Query.Types[0] == s64); }) .widenScalarToNextPow2(0, /*Min=*/8) .clampScalar(0, s8, sMaxScalar) .widenScalarToNextPow2(1, /*Min=*/8) .clampScalar(1, s8, sMaxScalar) .scalarize(0); getActionDefinitionsBuilder(G_SEXT_INREG).lower(); // fp constants getActionDefinitionsBuilder(G_FCONSTANT) .legalIf([=](const LegalityQuery &Query) -> bool { return (typeInSet(0, {s32, s64})(Query)) || (UseX87 && typeInSet(0, {s80})(Query)); }); // fp arithmetic getActionDefinitionsBuilder({G_FADD, G_FSUB, G_FMUL, G_FDIV}) .legalIf([=](const LegalityQuery &Query) { return (typeInSet(0, {s32, s64})(Query)) || (HasSSE1 && typeInSet(0, {v4s32})(Query)) || (HasSSE2 && typeInSet(0, {v2s64})(Query)) || (HasAVX && typeInSet(0, {v8s32, v4s64})(Query)) || (HasAVX512 && typeInSet(0, {v16s32, v8s64})(Query)) || (UseX87 && typeInSet(0, {s80})(Query)); }); // fp comparison getActionDefinitionsBuilder(G_FCMP) .legalIf([=](const LegalityQuery &Query) { return (HasSSE1 && typePairInSet(0, 1, {{s8, s32}})(Query)) || (HasSSE2 && typePairInSet(0, 1, {{s8, s64}})(Query)); }) .clampScalar(0, s8, s8) .clampScalar(1, s32, HasSSE2 ? s64 : s32) .widenScalarToNextPow2(1); // fp conversions getActionDefinitionsBuilder(G_FPEXT).legalIf([=](const LegalityQuery &Query) { return (HasSSE2 && typePairInSet(0, 1, {{s64, s32}})(Query)) || (HasAVX && typePairInSet(0, 1, {{v4s64, v4s32}})(Query)) || (HasAVX512 && typePairInSet(0, 1, {{v8s64, v8s32}})(Query)); }); getActionDefinitionsBuilder(G_FPTRUNC).legalIf( [=](const LegalityQuery &Query) { return (HasSSE2 && typePairInSet(0, 1, {{s32, s64}})(Query)) || (HasAVX && typePairInSet(0, 1, {{v4s32, v4s64}})(Query)) || (HasAVX512 && typePairInSet(0, 1, {{v8s32, v8s64}})(Query)); }); getActionDefinitionsBuilder(G_SITOFP) .legalIf([=](const LegalityQuery &Query) { return (HasSSE1 && (typePairInSet(0, 1, {{s32, s32}})(Query) || (Is64Bit && typePairInSet(0, 1, {{s32, s64}})(Query)))) || (HasSSE2 && (typePairInSet(0, 1, {{s64, s32}})(Query) || (Is64Bit && typePairInSet(0, 1, {{s64, s64}})(Query)))); }) .clampScalar(1, s32, sMaxScalar) .widenScalarToNextPow2(1) .clampScalar(0, s32, HasSSE2 ? s64 : s32) .widenScalarToNextPow2(0); getActionDefinitionsBuilder(G_FPTOSI) .legalIf([=](const LegalityQuery &Query) { return (HasSSE1 && (typePairInSet(0, 1, {{s32, s32}})(Query) || (Is64Bit && typePairInSet(0, 1, {{s64, s32}})(Query)))) || (HasSSE2 && (typePairInSet(0, 1, {{s32, s64}})(Query) || (Is64Bit && typePairInSet(0, 1, {{s64, s64}})(Query)))); }) .clampScalar(1, s32, HasSSE2 ? s64 : s32) .widenScalarToNextPow2(0) .clampScalar(0, s32, sMaxScalar) .widenScalarToNextPow2(1); // vector ops getActionDefinitionsBuilder(G_BUILD_VECTOR) .customIf([=](const LegalityQuery &Query) { return (HasSSE1 && typeInSet(0, {v4s32})(Query)) || (HasSSE2 && typeInSet(0, {v2s64, v8s16, v16s8})(Query)) || (HasAVX && typeInSet(0, {v4s64, v8s32, v16s16, v32s8})(Query)) || (HasAVX512 && typeInSet(0, {v8s64, v16s32, v32s16, v64s8})); }) .clampNumElements(0, v16s8, s8MaxVector) .clampNumElements(0, v8s16, s16MaxVector) .clampNumElements(0, v4s32, s32MaxVector) .clampNumElements(0, v2s64, s64MaxVector) .moreElementsToNextPow2(0); getActionDefinitionsBuilder({G_EXTRACT, G_INSERT}) .legalIf([=](const LegalityQuery &Query) { unsigned SubIdx = Query.Opcode == G_EXTRACT ? 0 : 1; unsigned FullIdx = Query.Opcode == G_EXTRACT ? 1 : 0; return (HasAVX && typePairInSet(SubIdx, FullIdx, {{v16s8, v32s8}, {v8s16, v16s16}, {v4s32, v8s32}, {v2s64, v4s64}})(Query)) || (HasAVX512 && typePairInSet(SubIdx, FullIdx, {{v16s8, v64s8}, {v32s8, v64s8}, {v8s16, v32s16}, {v16s16, v32s16}, {v4s32, v16s32}, {v8s32, v16s32}, {v2s64, v8s64}, {v4s64, v8s64}})(Query)); }); // todo: only permit dst types up to max legal vector register size? getActionDefinitionsBuilder(G_CONCAT_VECTORS) .legalIf([=](const LegalityQuery &Query) { return (HasSSE1 && typePairInSet(1, 0, {{v16s8, v32s8}, {v8s16, v16s16}, {v4s32, v8s32}, {v2s64, v4s64}})(Query)) || (HasAVX && typePairInSet(1, 0, {{v16s8, v64s8}, {v32s8, v64s8}, {v8s16, v32s16}, {v16s16, v32s16}, {v4s32, v16s32}, {v8s32, v16s32}, {v2s64, v8s64}, {v4s64, v8s64}})(Query)); }); // todo: vectors and address spaces getActionDefinitionsBuilder(G_SELECT) .legalFor({{s8, s32}, {s16, s32}, {s32, s32}, {s64, s32}, {p0, s32}}) .widenScalarToNextPow2(0, /*Min=*/8) .clampScalar(0, HasCMOV ? s16 : s8, sMaxScalar) .clampScalar(1, s32, s32); // memory intrinsics getActionDefinitionsBuilder({G_MEMCPY, G_MEMMOVE, G_MEMSET}).libcall(); getActionDefinitionsBuilder({G_DYN_STACKALLOC, G_STACKSAVE, G_STACKRESTORE}).lower(); // fp intrinsics getActionDefinitionsBuilder(G_INTRINSIC_ROUNDEVEN) .scalarize(0) .minScalar(0, LLT::scalar(32)) .libcall(); getActionDefinitionsBuilder({G_FREEZE, G_CONSTANT_FOLD_BARRIER}) .legalFor({s8, s16, s32, s64, p0}) .widenScalarToNextPow2(0, /*Min=*/8) .clampScalar(0, s8, sMaxScalar); getLegacyLegalizerInfo().computeTables(); verify(*STI.getInstrInfo()); } bool X86LegalizerInfo::legalizeCustom(LegalizerHelper &Helper, MachineInstr &MI, LostDebugLocObserver &LocObserver) const { MachineIRBuilder &MIRBuilder = Helper.MIRBuilder; MachineRegisterInfo &MRI = *MIRBuilder.getMRI(); switch (MI.getOpcode()) { default: // No idea what to do. return false; case TargetOpcode::G_BUILD_VECTOR: return legalizeBuildVector(MI, MRI, Helper); } llvm_unreachable("expected switch to return"); } bool X86LegalizerInfo::legalizeBuildVector(MachineInstr &MI, MachineRegisterInfo &MRI, LegalizerHelper &Helper) const { MachineIRBuilder &MIRBuilder = Helper.MIRBuilder; const auto &BuildVector = cast(MI); Register Dst = BuildVector.getReg(0); LLT DstTy = MRI.getType(Dst); MachineFunction &MF = MIRBuilder.getMF(); LLVMContext &Ctx = MF.getFunction().getContext(); uint64_t DstTySize = DstTy.getScalarSizeInBits(); SmallVector CstIdxs; for (unsigned i = 0; i < BuildVector.getNumSources(); ++i) { Register Source = BuildVector.getSourceReg(i); auto ValueAndReg = getIConstantVRegValWithLookThrough(Source, MRI); if (ValueAndReg) { CstIdxs.emplace_back(ConstantInt::get(Ctx, ValueAndReg->Value)); continue; } auto FPValueAndReg = getFConstantVRegValWithLookThrough(Source, MRI); if (FPValueAndReg) { CstIdxs.emplace_back(ConstantFP::get(Ctx, FPValueAndReg->Value)); continue; } if (getOpcodeDef(Source, MRI)) { CstIdxs.emplace_back(UndefValue::get(Type::getIntNTy(Ctx, DstTySize))); continue; } return false; } Constant *ConstVal = ConstantVector::get(CstIdxs); const DataLayout &DL = MIRBuilder.getDataLayout(); unsigned AddrSpace = DL.getDefaultGlobalsAddressSpace(); Align Alignment(DL.getABITypeAlign(ConstVal->getType())); auto Addr = MIRBuilder.buildConstantPool( LLT::pointer(AddrSpace, DL.getPointerSizeInBits(AddrSpace)), MF.getConstantPool()->getConstantPoolIndex(ConstVal, Alignment)); MachineMemOperand *MMO = MF.getMachineMemOperand(MachinePointerInfo::getConstantPool(MF), MachineMemOperand::MOLoad, DstTy, Alignment); MIRBuilder.buildLoad(Dst, Addr, *MMO); MI.eraseFromParent(); return true; } bool X86LegalizerInfo::legalizeIntrinsic(LegalizerHelper &Helper, MachineInstr &MI) const { return true; }