2021-05-29 10:36:56 +08:00
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//===- lib/CodeGen/GlobalISel/LegacyLegalizerInfo.cpp - Legalizer ---------===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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//
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// Implement an interface to specify and query how an illegal operation on a
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// given type should be expanded.
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//
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// Issues to be resolved:
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// + Make it fast.
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// + Support weird types like i3, <7 x i3>, ...
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// + Operations with more than one type (ICMP, CMPXCHG, intrinsics, ...)
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/CodeGen/GlobalISel/LegacyLegalizerInfo.h"
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#include "llvm/CodeGen/GlobalISel/LegalizerInfo.h"
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#include <map>
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using namespace llvm;
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using namespace LegacyLegalizeActions;
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#define DEBUG_TYPE "legalizer-info"
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2021-06-02 04:57:46 +08:00
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raw_ostream &llvm::operator<<(raw_ostream &OS, LegacyLegalizeAction Action) {
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switch (Action) {
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case Legal:
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OS << "Legal";
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break;
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case NarrowScalar:
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OS << "NarrowScalar";
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break;
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case WidenScalar:
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OS << "WidenScalar";
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break;
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case FewerElements:
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OS << "FewerElements";
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break;
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case MoreElements:
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OS << "MoreElements";
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break;
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case Bitcast:
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OS << "Bitcast";
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break;
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case Lower:
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OS << "Lower";
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break;
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case Libcall:
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OS << "Libcall";
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break;
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case Custom:
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OS << "Custom";
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break;
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case Unsupported:
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OS << "Unsupported";
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break;
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case NotFound:
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OS << "NotFound";
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break;
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}
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return OS;
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}
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2022-01-31 04:32:51 +08:00
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LegacyLegalizerInfo::LegacyLegalizerInfo() {
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2021-05-29 10:36:56 +08:00
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// Set defaults.
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// FIXME: these two (G_ANYEXT and G_TRUNC?) can be legalized to the
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// fundamental load/store Jakob proposed. Once loads & stores are supported.
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setScalarAction(TargetOpcode::G_ANYEXT, 1, {{1, Legal}});
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setScalarAction(TargetOpcode::G_ZEXT, 1, {{1, Legal}});
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setScalarAction(TargetOpcode::G_SEXT, 1, {{1, Legal}});
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setScalarAction(TargetOpcode::G_TRUNC, 0, {{1, Legal}});
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setScalarAction(TargetOpcode::G_TRUNC, 1, {{1, Legal}});
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setScalarAction(TargetOpcode::G_INTRINSIC, 0, {{1, Legal}});
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setScalarAction(TargetOpcode::G_INTRINSIC_W_SIDE_EFFECTS, 0, {{1, Legal}});
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setLegalizeScalarToDifferentSizeStrategy(
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TargetOpcode::G_IMPLICIT_DEF, 0, narrowToSmallerAndUnsupportedIfTooSmall);
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setLegalizeScalarToDifferentSizeStrategy(
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TargetOpcode::G_ADD, 0, widenToLargerTypesAndNarrowToLargest);
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setLegalizeScalarToDifferentSizeStrategy(
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TargetOpcode::G_OR, 0, widenToLargerTypesAndNarrowToLargest);
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setLegalizeScalarToDifferentSizeStrategy(
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TargetOpcode::G_LOAD, 0, narrowToSmallerAndUnsupportedIfTooSmall);
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setLegalizeScalarToDifferentSizeStrategy(
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TargetOpcode::G_STORE, 0, narrowToSmallerAndUnsupportedIfTooSmall);
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setLegalizeScalarToDifferentSizeStrategy(
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TargetOpcode::G_BRCOND, 0, widenToLargerTypesUnsupportedOtherwise);
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setLegalizeScalarToDifferentSizeStrategy(
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TargetOpcode::G_INSERT, 0, narrowToSmallerAndUnsupportedIfTooSmall);
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setLegalizeScalarToDifferentSizeStrategy(
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TargetOpcode::G_EXTRACT, 0, narrowToSmallerAndUnsupportedIfTooSmall);
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setLegalizeScalarToDifferentSizeStrategy(
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TargetOpcode::G_EXTRACT, 1, narrowToSmallerAndUnsupportedIfTooSmall);
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setScalarAction(TargetOpcode::G_FNEG, 0, {{1, Lower}});
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}
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void LegacyLegalizerInfo::computeTables() {
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assert(TablesInitialized == false);
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for (unsigned OpcodeIdx = 0; OpcodeIdx <= LastOp - FirstOp; ++OpcodeIdx) {
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const unsigned Opcode = FirstOp + OpcodeIdx;
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for (unsigned TypeIdx = 0; TypeIdx != SpecifiedActions[OpcodeIdx].size();
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++TypeIdx) {
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// 0. Collect information specified through the setAction API, i.e.
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// for specific bit sizes.
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// For scalar types:
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SizeAndActionsVec ScalarSpecifiedActions;
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// For pointer types:
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std::map<uint16_t, SizeAndActionsVec> AddressSpace2SpecifiedActions;
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// For vector types:
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std::map<uint16_t, SizeAndActionsVec> ElemSize2SpecifiedActions;
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for (auto LLT2Action : SpecifiedActions[OpcodeIdx][TypeIdx]) {
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const LLT Type = LLT2Action.first;
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const LegacyLegalizeAction Action = LLT2Action.second;
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auto SizeAction = std::make_pair(Type.getSizeInBits(), Action);
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if (Type.isPointer())
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AddressSpace2SpecifiedActions[Type.getAddressSpace()].push_back(
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SizeAction);
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else if (Type.isVector())
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ElemSize2SpecifiedActions[Type.getElementType().getSizeInBits()]
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.push_back(SizeAction);
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else
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ScalarSpecifiedActions.push_back(SizeAction);
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}
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// 1. Handle scalar types
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{
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// Decide how to handle bit sizes for which no explicit specification
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// was given.
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SizeChangeStrategy S = &unsupportedForDifferentSizes;
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if (TypeIdx < ScalarSizeChangeStrategies[OpcodeIdx].size() &&
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ScalarSizeChangeStrategies[OpcodeIdx][TypeIdx] != nullptr)
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S = ScalarSizeChangeStrategies[OpcodeIdx][TypeIdx];
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llvm::sort(ScalarSpecifiedActions);
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checkPartialSizeAndActionsVector(ScalarSpecifiedActions);
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setScalarAction(Opcode, TypeIdx, S(ScalarSpecifiedActions));
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}
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// 2. Handle pointer types
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for (auto PointerSpecifiedActions : AddressSpace2SpecifiedActions) {
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llvm::sort(PointerSpecifiedActions.second);
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checkPartialSizeAndActionsVector(PointerSpecifiedActions.second);
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// For pointer types, we assume that there isn't a meaningfull way
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// to change the number of bits used in the pointer.
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setPointerAction(
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Opcode, TypeIdx, PointerSpecifiedActions.first,
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unsupportedForDifferentSizes(PointerSpecifiedActions.second));
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}
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// 3. Handle vector types
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SizeAndActionsVec ElementSizesSeen;
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for (auto VectorSpecifiedActions : ElemSize2SpecifiedActions) {
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llvm::sort(VectorSpecifiedActions.second);
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const uint16_t ElementSize = VectorSpecifiedActions.first;
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ElementSizesSeen.push_back({ElementSize, Legal});
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checkPartialSizeAndActionsVector(VectorSpecifiedActions.second);
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// For vector types, we assume that the best way to adapt the number
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// of elements is to the next larger number of elements type for which
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// the vector type is legal, unless there is no such type. In that case,
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// legalize towards a vector type with a smaller number of elements.
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SizeAndActionsVec NumElementsActions;
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for (SizeAndAction BitsizeAndAction : VectorSpecifiedActions.second) {
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assert(BitsizeAndAction.first % ElementSize == 0);
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const uint16_t NumElements = BitsizeAndAction.first / ElementSize;
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NumElementsActions.push_back({NumElements, BitsizeAndAction.second});
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}
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setVectorNumElementAction(
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Opcode, TypeIdx, ElementSize,
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moreToWiderTypesAndLessToWidest(NumElementsActions));
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}
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llvm::sort(ElementSizesSeen);
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SizeChangeStrategy VectorElementSizeChangeStrategy =
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&unsupportedForDifferentSizes;
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if (TypeIdx < VectorElementSizeChangeStrategies[OpcodeIdx].size() &&
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VectorElementSizeChangeStrategies[OpcodeIdx][TypeIdx] != nullptr)
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VectorElementSizeChangeStrategy =
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VectorElementSizeChangeStrategies[OpcodeIdx][TypeIdx];
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setScalarInVectorAction(
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Opcode, TypeIdx, VectorElementSizeChangeStrategy(ElementSizesSeen));
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}
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}
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TablesInitialized = true;
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}
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// FIXME: inefficient implementation for now. Without ComputeValueVTs we're
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// probably going to need specialized lookup structures for various types before
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// we have any hope of doing well with something like <13 x i3>. Even the common
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// cases should do better than what we have now.
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std::pair<LegacyLegalizeAction, LLT>
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LegacyLegalizerInfo::getAspectAction(const InstrAspect &Aspect) const {
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assert(TablesInitialized && "backend forgot to call computeTables");
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// These *have* to be implemented for now, they're the fundamental basis of
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// how everything else is transformed.
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if (Aspect.Type.isScalar() || Aspect.Type.isPointer())
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return findScalarLegalAction(Aspect);
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assert(Aspect.Type.isVector());
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return findVectorLegalAction(Aspect);
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}
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LegacyLegalizerInfo::SizeAndActionsVec
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LegacyLegalizerInfo::increaseToLargerTypesAndDecreaseToLargest(
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const SizeAndActionsVec &v, LegacyLegalizeAction IncreaseAction,
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LegacyLegalizeAction DecreaseAction) {
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SizeAndActionsVec result;
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unsigned LargestSizeSoFar = 0;
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if (v.size() >= 1 && v[0].first != 1)
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result.push_back({1, IncreaseAction});
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for (size_t i = 0; i < v.size(); ++i) {
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result.push_back(v[i]);
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LargestSizeSoFar = v[i].first;
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if (i + 1 < v.size() && v[i + 1].first != v[i].first + 1) {
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result.push_back({LargestSizeSoFar + 1, IncreaseAction});
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LargestSizeSoFar = v[i].first + 1;
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}
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}
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result.push_back({LargestSizeSoFar + 1, DecreaseAction});
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return result;
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}
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LegacyLegalizerInfo::SizeAndActionsVec
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LegacyLegalizerInfo::decreaseToSmallerTypesAndIncreaseToSmallest(
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const SizeAndActionsVec &v, LegacyLegalizeAction DecreaseAction,
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LegacyLegalizeAction IncreaseAction) {
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SizeAndActionsVec result;
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if (v.size() == 0 || v[0].first != 1)
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result.push_back({1, IncreaseAction});
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for (size_t i = 0; i < v.size(); ++i) {
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result.push_back(v[i]);
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if (i + 1 == v.size() || v[i + 1].first != v[i].first + 1) {
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result.push_back({v[i].first + 1, DecreaseAction});
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}
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}
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return result;
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}
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LegacyLegalizerInfo::SizeAndAction
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LegacyLegalizerInfo::findAction(const SizeAndActionsVec &Vec, const uint32_t Size) {
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assert(Size >= 1);
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// Find the last element in Vec that has a bitsize equal to or smaller than
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// the requested bit size.
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// That is the element just before the first element that is bigger than Size.
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auto It = partition_point(
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Vec, [=](const SizeAndAction &A) { return A.first <= Size; });
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assert(It != Vec.begin() && "Does Vec not start with size 1?");
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int VecIdx = It - Vec.begin() - 1;
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LegacyLegalizeAction Action = Vec[VecIdx].second;
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switch (Action) {
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case Legal:
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case Bitcast:
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case Lower:
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case Libcall:
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case Custom:
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return {Size, Action};
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case FewerElements:
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// FIXME: is this special case still needed and correct?
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// Special case for scalarization:
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if (Vec == SizeAndActionsVec({{1, FewerElements}}))
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return {1, FewerElements};
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LLVM_FALLTHROUGH;
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case NarrowScalar: {
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// The following needs to be a loop, as for now, we do allow needing to
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// go over "Unsupported" bit sizes before finding a legalizable bit size.
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// e.g. (s8, WidenScalar), (s9, Unsupported), (s32, Legal). if Size==8,
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// we need to iterate over s9, and then to s32 to return (s32, Legal).
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// If we want to get rid of the below loop, we should have stronger asserts
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// when building the SizeAndActionsVecs, probably not allowing
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// "Unsupported" unless at the ends of the vector.
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for (int i = VecIdx - 1; i >= 0; --i)
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if (!needsLegalizingToDifferentSize(Vec[i].second) &&
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Vec[i].second != Unsupported)
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return {Vec[i].first, Action};
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llvm_unreachable("");
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}
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case WidenScalar:
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case MoreElements: {
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// See above, the following needs to be a loop, at least for now.
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for (std::size_t i = VecIdx + 1; i < Vec.size(); ++i)
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if (!needsLegalizingToDifferentSize(Vec[i].second) &&
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Vec[i].second != Unsupported)
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return {Vec[i].first, Action};
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llvm_unreachable("");
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}
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case Unsupported:
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return {Size, Unsupported};
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case NotFound:
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llvm_unreachable("NotFound");
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}
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llvm_unreachable("Action has an unknown enum value");
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}
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std::pair<LegacyLegalizeAction, LLT>
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LegacyLegalizerInfo::findScalarLegalAction(const InstrAspect &Aspect) const {
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assert(Aspect.Type.isScalar() || Aspect.Type.isPointer());
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if (Aspect.Opcode < FirstOp || Aspect.Opcode > LastOp)
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return {NotFound, LLT()};
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const unsigned OpcodeIdx = getOpcodeIdxForOpcode(Aspect.Opcode);
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if (Aspect.Type.isPointer() &&
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AddrSpace2PointerActions[OpcodeIdx].find(Aspect.Type.getAddressSpace()) ==
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AddrSpace2PointerActions[OpcodeIdx].end()) {
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return {NotFound, LLT()};
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}
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const SmallVector<SizeAndActionsVec, 1> &Actions =
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Aspect.Type.isPointer()
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? AddrSpace2PointerActions[OpcodeIdx]
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.find(Aspect.Type.getAddressSpace())
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->second
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: ScalarActions[OpcodeIdx];
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if (Aspect.Idx >= Actions.size())
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return {NotFound, LLT()};
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const SizeAndActionsVec &Vec = Actions[Aspect.Idx];
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// FIXME: speed up this search, e.g. by using a results cache for repeated
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// queries?
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auto SizeAndAction = findAction(Vec, Aspect.Type.getSizeInBits());
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return {SizeAndAction.second,
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Aspect.Type.isScalar() ? LLT::scalar(SizeAndAction.first)
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: LLT::pointer(Aspect.Type.getAddressSpace(),
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SizeAndAction.first)};
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}
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std::pair<LegacyLegalizeAction, LLT>
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LegacyLegalizerInfo::findVectorLegalAction(const InstrAspect &Aspect) const {
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assert(Aspect.Type.isVector());
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// First legalize the vector element size, then legalize the number of
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// lanes in the vector.
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if (Aspect.Opcode < FirstOp || Aspect.Opcode > LastOp)
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return {NotFound, Aspect.Type};
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const unsigned OpcodeIdx = getOpcodeIdxForOpcode(Aspect.Opcode);
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const unsigned TypeIdx = Aspect.Idx;
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if (TypeIdx >= ScalarInVectorActions[OpcodeIdx].size())
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return {NotFound, Aspect.Type};
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const SizeAndActionsVec &ElemSizeVec =
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ScalarInVectorActions[OpcodeIdx][TypeIdx];
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LLT IntermediateType;
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auto ElementSizeAndAction =
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findAction(ElemSizeVec, Aspect.Type.getScalarSizeInBits());
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2021-06-24 16:58:21 +08:00
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IntermediateType = LLT::fixed_vector(Aspect.Type.getNumElements(),
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ElementSizeAndAction.first);
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2021-05-29 10:36:56 +08:00
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if (ElementSizeAndAction.second != Legal)
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return {ElementSizeAndAction.second, IntermediateType};
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auto i = NumElements2Actions[OpcodeIdx].find(
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IntermediateType.getScalarSizeInBits());
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if (i == NumElements2Actions[OpcodeIdx].end()) {
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return {NotFound, IntermediateType};
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}
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const SizeAndActionsVec &NumElementsVec = (*i).second[TypeIdx];
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auto NumElementsAndAction =
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|
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findAction(NumElementsVec, IntermediateType.getNumElements());
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|
|
return {NumElementsAndAction.second,
|
2021-06-24 16:58:21 +08:00
|
|
|
LLT::fixed_vector(NumElementsAndAction.first,
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|
|
IntermediateType.getScalarSizeInBits())};
|
2021-05-29 10:36:56 +08:00
|
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}
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unsigned LegacyLegalizerInfo::getOpcodeIdxForOpcode(unsigned Opcode) const {
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|
|
assert(Opcode >= FirstOp && Opcode <= LastOp && "Unsupported opcode");
|
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|
|
return Opcode - FirstOp;
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|
}
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|
LegacyLegalizeActionStep
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|
|
|
LegacyLegalizerInfo::getAction(const LegalityQuery &Query) const {
|
|
|
|
for (unsigned i = 0; i < Query.Types.size(); ++i) {
|
|
|
|
auto Action = getAspectAction({Query.Opcode, i, Query.Types[i]});
|
|
|
|
if (Action.first != Legal) {
|
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|
|
LLVM_DEBUG(dbgs() << ".. (legacy) Type " << i << " Action="
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|
|
|
<< Action.first << ", " << Action.second << "\n");
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|
|
|
return {Action.first, i, Action.second};
|
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|
|
} else
|
|
|
|
LLVM_DEBUG(dbgs() << ".. (legacy) Type " << i << " Legal\n");
|
|
|
|
}
|
|
|
|
LLVM_DEBUG(dbgs() << ".. (legacy) Legal\n");
|
|
|
|
return {Legal, 0, LLT{}};
|
|
|
|
}
|
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|