10b57cec5SDimitry Andric //===- InstCombineAtomicRMW.cpp -------------------------------------------===//
20b57cec5SDimitry Andric //
30b57cec5SDimitry Andric // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
40b57cec5SDimitry Andric // See https://llvm.org/LICENSE.txt for license information.
50b57cec5SDimitry Andric // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
60b57cec5SDimitry Andric //
70b57cec5SDimitry Andric //===----------------------------------------------------------------------===//
80b57cec5SDimitry Andric //
90b57cec5SDimitry Andric // This file implements the visit functions for atomic rmw instructions.
100b57cec5SDimitry Andric //
110b57cec5SDimitry Andric //===----------------------------------------------------------------------===//
12e8d8bef9SDimitry Andric
130b57cec5SDimitry Andric #include "InstCombineInternal.h"
140b57cec5SDimitry Andric #include "llvm/IR/Instructions.h"
150b57cec5SDimitry Andric
160b57cec5SDimitry Andric using namespace llvm;
170b57cec5SDimitry Andric
180b57cec5SDimitry Andric namespace {
190b57cec5SDimitry Andric /// Return true if and only if the given instruction does not modify the memory
200b57cec5SDimitry Andric /// location referenced. Note that an idemptent atomicrmw may still have
210b57cec5SDimitry Andric /// ordering effects on nearby instructions, or be volatile.
220b57cec5SDimitry Andric /// TODO: Common w/ the version in AtomicExpandPass, and change the term used.
230b57cec5SDimitry Andric /// Idemptotent is confusing in this context.
isIdempotentRMW(AtomicRMWInst & RMWI)240b57cec5SDimitry Andric bool isIdempotentRMW(AtomicRMWInst& RMWI) {
250b57cec5SDimitry Andric if (auto CF = dyn_cast<ConstantFP>(RMWI.getValOperand()))
260b57cec5SDimitry Andric switch(RMWI.getOperation()) {
270b57cec5SDimitry Andric case AtomicRMWInst::FAdd: // -0.0
280b57cec5SDimitry Andric return CF->isZero() && CF->isNegative();
290b57cec5SDimitry Andric case AtomicRMWInst::FSub: // +0.0
300b57cec5SDimitry Andric return CF->isZero() && !CF->isNegative();
310b57cec5SDimitry Andric default:
320b57cec5SDimitry Andric return false;
330b57cec5SDimitry Andric };
340b57cec5SDimitry Andric
350b57cec5SDimitry Andric auto C = dyn_cast<ConstantInt>(RMWI.getValOperand());
360b57cec5SDimitry Andric if(!C)
370b57cec5SDimitry Andric return false;
380b57cec5SDimitry Andric
390b57cec5SDimitry Andric switch(RMWI.getOperation()) {
400b57cec5SDimitry Andric case AtomicRMWInst::Add:
410b57cec5SDimitry Andric case AtomicRMWInst::Sub:
420b57cec5SDimitry Andric case AtomicRMWInst::Or:
430b57cec5SDimitry Andric case AtomicRMWInst::Xor:
440b57cec5SDimitry Andric return C->isZero();
450b57cec5SDimitry Andric case AtomicRMWInst::And:
460b57cec5SDimitry Andric return C->isMinusOne();
470b57cec5SDimitry Andric case AtomicRMWInst::Min:
480b57cec5SDimitry Andric return C->isMaxValue(true);
490b57cec5SDimitry Andric case AtomicRMWInst::Max:
500b57cec5SDimitry Andric return C->isMinValue(true);
510b57cec5SDimitry Andric case AtomicRMWInst::UMin:
520b57cec5SDimitry Andric return C->isMaxValue(false);
530b57cec5SDimitry Andric case AtomicRMWInst::UMax:
540b57cec5SDimitry Andric return C->isMinValue(false);
550b57cec5SDimitry Andric default:
560b57cec5SDimitry Andric return false;
570b57cec5SDimitry Andric }
580b57cec5SDimitry Andric }
590b57cec5SDimitry Andric
600b57cec5SDimitry Andric /// Return true if the given instruction always produces a value in memory
610b57cec5SDimitry Andric /// equivalent to its value operand.
isSaturating(AtomicRMWInst & RMWI)620b57cec5SDimitry Andric bool isSaturating(AtomicRMWInst& RMWI) {
630b57cec5SDimitry Andric if (auto CF = dyn_cast<ConstantFP>(RMWI.getValOperand()))
640b57cec5SDimitry Andric switch (RMWI.getOperation()) {
65753f127fSDimitry Andric case AtomicRMWInst::FMax:
66753f127fSDimitry Andric // maxnum(x, +inf) -> +inf
67753f127fSDimitry Andric return !CF->isNegative() && CF->isInfinity();
68753f127fSDimitry Andric case AtomicRMWInst::FMin:
69753f127fSDimitry Andric // minnum(x, -inf) -> +inf
70753f127fSDimitry Andric return CF->isNegative() && CF->isInfinity();
710b57cec5SDimitry Andric case AtomicRMWInst::FAdd:
720b57cec5SDimitry Andric case AtomicRMWInst::FSub:
730b57cec5SDimitry Andric return CF->isNaN();
740b57cec5SDimitry Andric default:
750b57cec5SDimitry Andric return false;
760b57cec5SDimitry Andric };
770b57cec5SDimitry Andric
780b57cec5SDimitry Andric auto C = dyn_cast<ConstantInt>(RMWI.getValOperand());
790b57cec5SDimitry Andric if(!C)
800b57cec5SDimitry Andric return false;
810b57cec5SDimitry Andric
820b57cec5SDimitry Andric switch(RMWI.getOperation()) {
830b57cec5SDimitry Andric default:
840b57cec5SDimitry Andric return false;
850b57cec5SDimitry Andric case AtomicRMWInst::Xchg:
860b57cec5SDimitry Andric return true;
870b57cec5SDimitry Andric case AtomicRMWInst::Or:
880b57cec5SDimitry Andric return C->isAllOnesValue();
890b57cec5SDimitry Andric case AtomicRMWInst::And:
900b57cec5SDimitry Andric return C->isZero();
910b57cec5SDimitry Andric case AtomicRMWInst::Min:
920b57cec5SDimitry Andric return C->isMinValue(true);
930b57cec5SDimitry Andric case AtomicRMWInst::Max:
940b57cec5SDimitry Andric return C->isMaxValue(true);
950b57cec5SDimitry Andric case AtomicRMWInst::UMin:
960b57cec5SDimitry Andric return C->isMinValue(false);
970b57cec5SDimitry Andric case AtomicRMWInst::UMax:
980b57cec5SDimitry Andric return C->isMaxValue(false);
990b57cec5SDimitry Andric };
1000b57cec5SDimitry Andric }
101e8d8bef9SDimitry Andric } // namespace
1020b57cec5SDimitry Andric
visitAtomicRMWInst(AtomicRMWInst & RMWI)103e8d8bef9SDimitry Andric Instruction *InstCombinerImpl::visitAtomicRMWInst(AtomicRMWInst &RMWI) {
1040b57cec5SDimitry Andric
1050b57cec5SDimitry Andric // Volatile RMWs perform a load and a store, we cannot replace this by just a
1060b57cec5SDimitry Andric // load or just a store. We chose not to canonicalize out of general paranoia
1070b57cec5SDimitry Andric // about user expectations around volatile.
1080b57cec5SDimitry Andric if (RMWI.isVolatile())
1090b57cec5SDimitry Andric return nullptr;
1100b57cec5SDimitry Andric
1110b57cec5SDimitry Andric // Any atomicrmw op which produces a known result in memory can be
1120b57cec5SDimitry Andric // replaced w/an atomicrmw xchg.
1130b57cec5SDimitry Andric if (isSaturating(RMWI) &&
1140b57cec5SDimitry Andric RMWI.getOperation() != AtomicRMWInst::Xchg) {
1150b57cec5SDimitry Andric RMWI.setOperation(AtomicRMWInst::Xchg);
1160b57cec5SDimitry Andric return &RMWI;
1170b57cec5SDimitry Andric }
1180b57cec5SDimitry Andric
119*06c3fb27SDimitry Andric assert(RMWI.getOrdering() != AtomicOrdering::NotAtomic &&
120*06c3fb27SDimitry Andric RMWI.getOrdering() != AtomicOrdering::Unordered &&
1210b57cec5SDimitry Andric "AtomicRMWs don't make sense with Unordered or NotAtomic");
1220b57cec5SDimitry Andric
1230b57cec5SDimitry Andric if (!isIdempotentRMW(RMWI))
1240b57cec5SDimitry Andric return nullptr;
1250b57cec5SDimitry Andric
1260b57cec5SDimitry Andric // We chose to canonicalize all idempotent operations to an single
1270b57cec5SDimitry Andric // operation code and constant. This makes it easier for the rest of the
1280b57cec5SDimitry Andric // optimizer to match easily. The choices of or w/0 and fadd w/-0.0 are
1290b57cec5SDimitry Andric // arbitrary.
1300b57cec5SDimitry Andric if (RMWI.getType()->isIntegerTy() &&
1310b57cec5SDimitry Andric RMWI.getOperation() != AtomicRMWInst::Or) {
1320b57cec5SDimitry Andric RMWI.setOperation(AtomicRMWInst::Or);
1335ffd83dbSDimitry Andric return replaceOperand(RMWI, 1, ConstantInt::get(RMWI.getType(), 0));
1340b57cec5SDimitry Andric } else if (RMWI.getType()->isFloatingPointTy() &&
1350b57cec5SDimitry Andric RMWI.getOperation() != AtomicRMWInst::FAdd) {
1360b57cec5SDimitry Andric RMWI.setOperation(AtomicRMWInst::FAdd);
1375ffd83dbSDimitry Andric return replaceOperand(RMWI, 1, ConstantFP::getNegativeZero(RMWI.getType()));
1380b57cec5SDimitry Andric }
1390b57cec5SDimitry Andric
1400b57cec5SDimitry Andric return nullptr;
1410b57cec5SDimitry Andric }
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