mirror of
https://github.com/c64scene-ar/llvm-6502.git
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a2a28517f1
git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@198552 91177308-0d34-0410-b5e6-96231b3b80d8
299 lines
11 KiB
C++
299 lines
11 KiB
C++
//===---- llvm/unittest/IR/PatternMatch.cpp - PatternMatch unit tests ----===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/ADT/STLExtras.h"
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#include "llvm/Analysis/ValueTracking.h"
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#include "llvm/IR/BasicBlock.h"
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#include "llvm/IR/Constants.h"
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#include "llvm/IR/DataLayout.h"
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#include "llvm/IR/DerivedTypes.h"
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#include "llvm/IR/Function.h"
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#include "llvm/IR/IRBuilder.h"
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#include "llvm/IR/Instructions.h"
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#include "llvm/IR/LLVMContext.h"
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#include "llvm/IR/MDBuilder.h"
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#include "llvm/IR/Module.h"
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#include "llvm/IR/Operator.h"
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#include "llvm/IR/Type.h"
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#include "llvm/Support/NoFolder.h"
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#include "llvm/Support/PatternMatch.h"
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#include "gtest/gtest.h"
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using namespace llvm;
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using namespace llvm::PatternMatch;
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namespace {
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struct PatternMatchTest : ::testing::Test {
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LLVMContext Ctx;
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OwningPtr<Module> M;
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Function *F;
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BasicBlock *BB;
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IRBuilder<true, NoFolder> IRB;
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PatternMatchTest()
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: M(new Module("PatternMatchTestModule", Ctx)),
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F(Function::Create(
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FunctionType::get(Type::getVoidTy(Ctx), /* IsVarArg */ false),
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Function::ExternalLinkage, "f", M.get())),
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BB(BasicBlock::Create(Ctx, "entry", F)), IRB(BB) {}
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};
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TEST_F(PatternMatchTest, OneUse) {
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// Build up a little tree of values:
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//
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// One = (1 + 2) + 42
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// Two = One + 42
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// Leaf = (Two + 8) + (Two + 13)
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Value *One = IRB.CreateAdd(IRB.CreateAdd(IRB.getInt32(1), IRB.getInt32(2)),
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IRB.getInt32(42));
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Value *Two = IRB.CreateAdd(One, IRB.getInt32(42));
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Value *Leaf = IRB.CreateAdd(IRB.CreateAdd(Two, IRB.getInt32(8)),
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IRB.CreateAdd(Two, IRB.getInt32(13)));
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Value *V;
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EXPECT_TRUE(m_OneUse(m_Value(V)).match(One));
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EXPECT_EQ(One, V);
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EXPECT_FALSE(m_OneUse(m_Value()).match(Two));
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EXPECT_FALSE(m_OneUse(m_Value()).match(Leaf));
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}
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TEST_F(PatternMatchTest, FloatingPointOrderedMin) {
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Type *FltTy = IRB.getFloatTy();
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Value *L = ConstantFP::get(FltTy, 1.0);
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Value *R = ConstantFP::get(FltTy, 2.0);
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Value *MatchL, *MatchR;
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// Test OLT.
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EXPECT_TRUE(m_OrdFMin(m_Value(MatchL), m_Value(MatchR))
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.match(IRB.CreateSelect(IRB.CreateFCmpOLT(L, R), L, R)));
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EXPECT_EQ(L, MatchL);
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EXPECT_EQ(R, MatchR);
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// Test OLE.
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EXPECT_TRUE(m_OrdFMin(m_Value(MatchL), m_Value(MatchR))
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.match(IRB.CreateSelect(IRB.CreateFCmpOLE(L, R), L, R)));
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EXPECT_EQ(L, MatchL);
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EXPECT_EQ(R, MatchR);
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// Test no match on OGE.
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EXPECT_FALSE(m_OrdFMin(m_Value(MatchL), m_Value(MatchR))
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.match(IRB.CreateSelect(IRB.CreateFCmpOGE(L, R), L, R)));
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// Test no match on OGT.
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EXPECT_FALSE(m_OrdFMin(m_Value(MatchL), m_Value(MatchR))
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.match(IRB.CreateSelect(IRB.CreateFCmpOGT(L, R), L, R)));
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// Test match on OGE with inverted select.
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EXPECT_TRUE(m_OrdFMin(m_Value(MatchL), m_Value(MatchR))
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.match(IRB.CreateSelect(IRB.CreateFCmpOGE(L, R), R, L)));
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EXPECT_EQ(L, MatchL);
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EXPECT_EQ(R, MatchR);
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// Test match on OGT with inverted select.
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EXPECT_TRUE(m_OrdFMin(m_Value(MatchL), m_Value(MatchR))
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.match(IRB.CreateSelect(IRB.CreateFCmpOGT(L, R), R, L)));
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EXPECT_EQ(L, MatchL);
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EXPECT_EQ(R, MatchR);
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}
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TEST_F(PatternMatchTest, FloatingPointOrderedMax) {
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Type *FltTy = IRB.getFloatTy();
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Value *L = ConstantFP::get(FltTy, 1.0);
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Value *R = ConstantFP::get(FltTy, 2.0);
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Value *MatchL, *MatchR;
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// Test OGT.
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EXPECT_TRUE(m_OrdFMax(m_Value(MatchL), m_Value(MatchR))
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.match(IRB.CreateSelect(IRB.CreateFCmpOGT(L, R), L, R)));
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EXPECT_EQ(L, MatchL);
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EXPECT_EQ(R, MatchR);
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// Test OGE.
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EXPECT_TRUE(m_OrdFMax(m_Value(MatchL), m_Value(MatchR))
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.match(IRB.CreateSelect(IRB.CreateFCmpOGE(L, R), L, R)));
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EXPECT_EQ(L, MatchL);
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EXPECT_EQ(R, MatchR);
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// Test no match on OLE.
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EXPECT_FALSE(m_OrdFMax(m_Value(MatchL), m_Value(MatchR))
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.match(IRB.CreateSelect(IRB.CreateFCmpOLE(L, R), L, R)));
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// Test no match on OLT.
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EXPECT_FALSE(m_OrdFMax(m_Value(MatchL), m_Value(MatchR))
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.match(IRB.CreateSelect(IRB.CreateFCmpOLT(L, R), L, R)));
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// Test match on OLE with inverted select.
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EXPECT_TRUE(m_OrdFMax(m_Value(MatchL), m_Value(MatchR))
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.match(IRB.CreateSelect(IRB.CreateFCmpOLE(L, R), R, L)));
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EXPECT_EQ(L, MatchL);
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EXPECT_EQ(R, MatchR);
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// Test match on OLT with inverted select.
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EXPECT_TRUE(m_OrdFMax(m_Value(MatchL), m_Value(MatchR))
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.match(IRB.CreateSelect(IRB.CreateFCmpOLT(L, R), R, L)));
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EXPECT_EQ(L, MatchL);
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EXPECT_EQ(R, MatchR);
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}
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TEST_F(PatternMatchTest, FloatingPointUnorderedMin) {
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Type *FltTy = IRB.getFloatTy();
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Value *L = ConstantFP::get(FltTy, 1.0);
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Value *R = ConstantFP::get(FltTy, 2.0);
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Value *MatchL, *MatchR;
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// Test ULT.
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EXPECT_TRUE(m_UnordFMin(m_Value(MatchL), m_Value(MatchR))
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.match(IRB.CreateSelect(IRB.CreateFCmpULT(L, R), L, R)));
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EXPECT_EQ(L, MatchL);
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EXPECT_EQ(R, MatchR);
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// Test ULE.
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EXPECT_TRUE(m_UnordFMin(m_Value(MatchL), m_Value(MatchR))
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.match(IRB.CreateSelect(IRB.CreateFCmpULE(L, R), L, R)));
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EXPECT_EQ(L, MatchL);
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EXPECT_EQ(R, MatchR);
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// Test no match on UGE.
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EXPECT_FALSE(m_UnordFMin(m_Value(MatchL), m_Value(MatchR))
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.match(IRB.CreateSelect(IRB.CreateFCmpUGE(L, R), L, R)));
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// Test no match on UGT.
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EXPECT_FALSE(m_UnordFMin(m_Value(MatchL), m_Value(MatchR))
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.match(IRB.CreateSelect(IRB.CreateFCmpUGT(L, R), L, R)));
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// Test match on UGE with inverted select.
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EXPECT_TRUE(m_UnordFMin(m_Value(MatchL), m_Value(MatchR))
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.match(IRB.CreateSelect(IRB.CreateFCmpUGE(L, R), R, L)));
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EXPECT_EQ(L, MatchL);
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EXPECT_EQ(R, MatchR);
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// Test match on UGT with inverted select.
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EXPECT_TRUE(m_UnordFMin(m_Value(MatchL), m_Value(MatchR))
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.match(IRB.CreateSelect(IRB.CreateFCmpUGT(L, R), R, L)));
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EXPECT_EQ(L, MatchL);
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EXPECT_EQ(R, MatchR);
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}
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TEST_F(PatternMatchTest, FloatingPointUnorderedMax) {
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Type *FltTy = IRB.getFloatTy();
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Value *L = ConstantFP::get(FltTy, 1.0);
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Value *R = ConstantFP::get(FltTy, 2.0);
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Value *MatchL, *MatchR;
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// Test UGT.
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EXPECT_TRUE(m_UnordFMax(m_Value(MatchL), m_Value(MatchR))
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.match(IRB.CreateSelect(IRB.CreateFCmpUGT(L, R), L, R)));
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EXPECT_EQ(L, MatchL);
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EXPECT_EQ(R, MatchR);
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// Test UGE.
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EXPECT_TRUE(m_UnordFMax(m_Value(MatchL), m_Value(MatchR))
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.match(IRB.CreateSelect(IRB.CreateFCmpUGE(L, R), L, R)));
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EXPECT_EQ(L, MatchL);
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EXPECT_EQ(R, MatchR);
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// Test no match on ULE.
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EXPECT_FALSE(m_UnordFMax(m_Value(MatchL), m_Value(MatchR))
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.match(IRB.CreateSelect(IRB.CreateFCmpULE(L, R), L, R)));
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// Test no match on ULT.
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EXPECT_FALSE(m_UnordFMax(m_Value(MatchL), m_Value(MatchR))
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.match(IRB.CreateSelect(IRB.CreateFCmpULT(L, R), L, R)));
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// Test match on ULE with inverted select.
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EXPECT_TRUE(m_UnordFMax(m_Value(MatchL), m_Value(MatchR))
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.match(IRB.CreateSelect(IRB.CreateFCmpULE(L, R), R, L)));
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EXPECT_EQ(L, MatchL);
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EXPECT_EQ(R, MatchR);
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// Test match on ULT with inverted select.
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EXPECT_TRUE(m_UnordFMax(m_Value(MatchL), m_Value(MatchR))
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.match(IRB.CreateSelect(IRB.CreateFCmpULT(L, R), R, L)));
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EXPECT_EQ(L, MatchL);
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EXPECT_EQ(R, MatchR);
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}
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TEST_F(PatternMatchTest, OverflowingBinOps) {
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Value *L = IRB.getInt32(1);
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Value *R = IRB.getInt32(2);
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Value *MatchL, *MatchR;
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EXPECT_TRUE(
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m_NSWAdd(m_Value(MatchL), m_Value(MatchR)).match(IRB.CreateNSWAdd(L, R)));
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EXPECT_EQ(L, MatchL);
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EXPECT_EQ(R, MatchR);
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MatchL = MatchR = 0;
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EXPECT_TRUE(
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m_NSWSub(m_Value(MatchL), m_Value(MatchR)).match(IRB.CreateNSWSub(L, R)));
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EXPECT_EQ(L, MatchL);
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EXPECT_EQ(R, MatchR);
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MatchL = MatchR = 0;
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EXPECT_TRUE(
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m_NSWMul(m_Value(MatchL), m_Value(MatchR)).match(IRB.CreateNSWMul(L, R)));
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EXPECT_EQ(L, MatchL);
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EXPECT_EQ(R, MatchR);
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MatchL = MatchR = 0;
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EXPECT_TRUE(m_NSWShl(m_Value(MatchL), m_Value(MatchR)).match(
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IRB.CreateShl(L, R, "", /* NUW */ false, /* NSW */ true)));
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EXPECT_EQ(L, MatchL);
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EXPECT_EQ(R, MatchR);
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EXPECT_TRUE(
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m_NUWAdd(m_Value(MatchL), m_Value(MatchR)).match(IRB.CreateNUWAdd(L, R)));
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EXPECT_EQ(L, MatchL);
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EXPECT_EQ(R, MatchR);
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MatchL = MatchR = 0;
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EXPECT_TRUE(
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m_NUWSub(m_Value(MatchL), m_Value(MatchR)).match(IRB.CreateNUWSub(L, R)));
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EXPECT_EQ(L, MatchL);
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EXPECT_EQ(R, MatchR);
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MatchL = MatchR = 0;
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EXPECT_TRUE(
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m_NUWMul(m_Value(MatchL), m_Value(MatchR)).match(IRB.CreateNUWMul(L, R)));
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EXPECT_EQ(L, MatchL);
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EXPECT_EQ(R, MatchR);
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MatchL = MatchR = 0;
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EXPECT_TRUE(m_NUWShl(m_Value(MatchL), m_Value(MatchR)).match(
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IRB.CreateShl(L, R, "", /* NUW */ true, /* NSW */ false)));
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EXPECT_EQ(L, MatchL);
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EXPECT_EQ(R, MatchR);
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EXPECT_FALSE(m_NSWAdd(m_Value(), m_Value()).match(IRB.CreateAdd(L, R)));
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EXPECT_FALSE(m_NSWAdd(m_Value(), m_Value()).match(IRB.CreateNUWAdd(L, R)));
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EXPECT_FALSE(m_NSWAdd(m_Value(), m_Value()).match(IRB.CreateNSWSub(L, R)));
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EXPECT_FALSE(m_NSWSub(m_Value(), m_Value()).match(IRB.CreateSub(L, R)));
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EXPECT_FALSE(m_NSWSub(m_Value(), m_Value()).match(IRB.CreateNUWSub(L, R)));
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EXPECT_FALSE(m_NSWSub(m_Value(), m_Value()).match(IRB.CreateNSWAdd(L, R)));
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EXPECT_FALSE(m_NSWMul(m_Value(), m_Value()).match(IRB.CreateMul(L, R)));
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EXPECT_FALSE(m_NSWMul(m_Value(), m_Value()).match(IRB.CreateNUWMul(L, R)));
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EXPECT_FALSE(m_NSWMul(m_Value(), m_Value()).match(IRB.CreateNSWAdd(L, R)));
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EXPECT_FALSE(m_NSWShl(m_Value(), m_Value()).match(IRB.CreateShl(L, R)));
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EXPECT_FALSE(m_NSWShl(m_Value(), m_Value()).match(
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IRB.CreateShl(L, R, "", /* NUW */ true, /* NSW */ false)));
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EXPECT_FALSE(m_NSWShl(m_Value(), m_Value()).match(IRB.CreateNSWAdd(L, R)));
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EXPECT_FALSE(m_NUWAdd(m_Value(), m_Value()).match(IRB.CreateAdd(L, R)));
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EXPECT_FALSE(m_NUWAdd(m_Value(), m_Value()).match(IRB.CreateNSWAdd(L, R)));
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EXPECT_FALSE(m_NUWAdd(m_Value(), m_Value()).match(IRB.CreateNUWSub(L, R)));
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EXPECT_FALSE(m_NUWSub(m_Value(), m_Value()).match(IRB.CreateSub(L, R)));
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EXPECT_FALSE(m_NUWSub(m_Value(), m_Value()).match(IRB.CreateNSWSub(L, R)));
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EXPECT_FALSE(m_NUWSub(m_Value(), m_Value()).match(IRB.CreateNUWAdd(L, R)));
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EXPECT_FALSE(m_NUWMul(m_Value(), m_Value()).match(IRB.CreateMul(L, R)));
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EXPECT_FALSE(m_NUWMul(m_Value(), m_Value()).match(IRB.CreateNSWMul(L, R)));
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EXPECT_FALSE(m_NUWMul(m_Value(), m_Value()).match(IRB.CreateNUWAdd(L, R)));
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EXPECT_FALSE(m_NUWShl(m_Value(), m_Value()).match(IRB.CreateShl(L, R)));
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EXPECT_FALSE(m_NUWShl(m_Value(), m_Value()).match(
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IRB.CreateShl(L, R, "", /* NUW */ false, /* NSW */ true)));
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EXPECT_FALSE(m_NUWShl(m_Value(), m_Value()).match(IRB.CreateNUWAdd(L, R)));
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}
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} // anonymous namespace.
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