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391510da6e
This is a followup to D73803, which uses the replaceOperand() helper in more places. This should be NFC apart from changes to worklist order. Differential Revision: https://reviews.llvm.org/D73919
158 lines
5.3 KiB
C++
158 lines
5.3 KiB
C++
//===- InstCombineAtomicRMW.cpp -------------------------------------------===//
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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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// This file implements the visit functions for atomic rmw instructions.
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//
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//===----------------------------------------------------------------------===//
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#include "InstCombineInternal.h"
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#include "llvm/IR/Instructions.h"
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using namespace llvm;
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namespace {
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/// Return true if and only if the given instruction does not modify the memory
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/// location referenced. Note that an idemptent atomicrmw may still have
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/// ordering effects on nearby instructions, or be volatile.
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/// TODO: Common w/ the version in AtomicExpandPass, and change the term used.
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/// Idemptotent is confusing in this context.
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bool isIdempotentRMW(AtomicRMWInst& RMWI) {
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if (auto CF = dyn_cast<ConstantFP>(RMWI.getValOperand()))
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switch(RMWI.getOperation()) {
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case AtomicRMWInst::FAdd: // -0.0
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return CF->isZero() && CF->isNegative();
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case AtomicRMWInst::FSub: // +0.0
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return CF->isZero() && !CF->isNegative();
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default:
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return false;
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};
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auto C = dyn_cast<ConstantInt>(RMWI.getValOperand());
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if(!C)
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return false;
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switch(RMWI.getOperation()) {
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case AtomicRMWInst::Add:
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case AtomicRMWInst::Sub:
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case AtomicRMWInst::Or:
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case AtomicRMWInst::Xor:
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return C->isZero();
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case AtomicRMWInst::And:
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return C->isMinusOne();
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case AtomicRMWInst::Min:
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return C->isMaxValue(true);
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case AtomicRMWInst::Max:
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return C->isMinValue(true);
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case AtomicRMWInst::UMin:
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return C->isMaxValue(false);
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case AtomicRMWInst::UMax:
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return C->isMinValue(false);
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default:
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return false;
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}
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}
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/// Return true if the given instruction always produces a value in memory
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/// equivalent to its value operand.
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bool isSaturating(AtomicRMWInst& RMWI) {
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if (auto CF = dyn_cast<ConstantFP>(RMWI.getValOperand()))
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switch(RMWI.getOperation()) {
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case AtomicRMWInst::FAdd:
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case AtomicRMWInst::FSub:
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return CF->isNaN();
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default:
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return false;
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};
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auto C = dyn_cast<ConstantInt>(RMWI.getValOperand());
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if(!C)
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return false;
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switch(RMWI.getOperation()) {
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default:
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return false;
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case AtomicRMWInst::Xchg:
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return true;
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case AtomicRMWInst::Or:
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return C->isAllOnesValue();
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case AtomicRMWInst::And:
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return C->isZero();
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case AtomicRMWInst::Min:
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return C->isMinValue(true);
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case AtomicRMWInst::Max:
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return C->isMaxValue(true);
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case AtomicRMWInst::UMin:
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return C->isMinValue(false);
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case AtomicRMWInst::UMax:
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return C->isMaxValue(false);
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};
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}
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}
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Instruction *InstCombiner::visitAtomicRMWInst(AtomicRMWInst &RMWI) {
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// Volatile RMWs perform a load and a store, we cannot replace this by just a
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// load or just a store. We chose not to canonicalize out of general paranoia
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// about user expectations around volatile.
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if (RMWI.isVolatile())
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return nullptr;
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// Any atomicrmw op which produces a known result in memory can be
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// replaced w/an atomicrmw xchg.
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if (isSaturating(RMWI) &&
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RMWI.getOperation() != AtomicRMWInst::Xchg) {
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RMWI.setOperation(AtomicRMWInst::Xchg);
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return &RMWI;
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}
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AtomicOrdering Ordering = RMWI.getOrdering();
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assert(Ordering != AtomicOrdering::NotAtomic &&
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Ordering != AtomicOrdering::Unordered &&
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"AtomicRMWs don't make sense with Unordered or NotAtomic");
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// Any atomicrmw xchg with no uses can be converted to a atomic store if the
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// ordering is compatible.
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if (RMWI.getOperation() == AtomicRMWInst::Xchg &&
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RMWI.use_empty()) {
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if (Ordering != AtomicOrdering::Release &&
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Ordering != AtomicOrdering::Monotonic)
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return nullptr;
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auto *SI = new StoreInst(RMWI.getValOperand(),
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RMWI.getPointerOperand(), &RMWI);
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SI->setAtomic(Ordering, RMWI.getSyncScopeID());
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SI->setAlignment(MaybeAlign(DL.getABITypeAlignment(RMWI.getType())));
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return eraseInstFromFunction(RMWI);
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}
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if (!isIdempotentRMW(RMWI))
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return nullptr;
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// We chose to canonicalize all idempotent operations to an single
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// operation code and constant. This makes it easier for the rest of the
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// optimizer to match easily. The choices of or w/0 and fadd w/-0.0 are
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// arbitrary.
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if (RMWI.getType()->isIntegerTy() &&
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RMWI.getOperation() != AtomicRMWInst::Or) {
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RMWI.setOperation(AtomicRMWInst::Or);
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return replaceOperand(RMWI, 1, ConstantInt::get(RMWI.getType(), 0));
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} else if (RMWI.getType()->isFloatingPointTy() &&
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RMWI.getOperation() != AtomicRMWInst::FAdd) {
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RMWI.setOperation(AtomicRMWInst::FAdd);
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return replaceOperand(RMWI, 1, ConstantFP::getNegativeZero(RMWI.getType()));
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}
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// Check if the required ordering is compatible with an atomic load.
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if (Ordering != AtomicOrdering::Acquire &&
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Ordering != AtomicOrdering::Monotonic)
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return nullptr;
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LoadInst *Load = new LoadInst(RMWI.getType(), RMWI.getPointerOperand());
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Load->setAtomic(Ordering, RMWI.getSyncScopeID());
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Load->setAlignment(MaybeAlign(DL.getABITypeAlignment(RMWI.getType())));
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return Load;
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}
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