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llvm-project/llvm/unittests/Analysis/PhiValuesTest.cpp
Bjorn Pettersson fd05c34b18 Stop using legacy helpers indicating typed pointer types. NFC 
Since we no longer support typed LLVM IR pointer types, the code can
be simplified into for example using PointerType::get directly instead
of using Type::getInt8PtrTy and Type::getInt32PtrTy etc.

Differential Revision: https://reviews.llvm.org/D156733
2023-08-02 12:08:37 +02:00

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//===- PhiValuesTest.cpp - PhiValues unit tests ---------------------------===//
//
// 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
//
//===----------------------------------------------------------------------===//
#include "llvm/Analysis/PhiValues.h"
#include "llvm/IR/BasicBlock.h"
#include "llvm/IR/Constants.h"
#include "llvm/IR/Function.h"
#include "llvm/IR/Instructions.h"
#include "llvm/IR/Module.h"
#include "llvm/IR/Type.h"
#include "gtest/gtest.h"
using namespace llvm;
TEST(PhiValuesTest, SimplePhi) {
LLVMContext C;
Module M("PhiValuesTest", C);
Type *VoidTy = Type::getVoidTy(C);
Type *I1Ty = Type::getInt1Ty(C);
Type *I32Ty = Type::getInt32Ty(C);
Type *PtrTy = PointerType::get(C, 0);
// Create a function with phis that do not have other phis as incoming values
Function *F = Function::Create(FunctionType::get(VoidTy, false),
Function::ExternalLinkage, "f", M);
BasicBlock *Entry = BasicBlock::Create(C, "entry", F);
BasicBlock *If = BasicBlock::Create(C, "if", F);
BasicBlock *Else = BasicBlock::Create(C, "else", F);
BasicBlock *Then = BasicBlock::Create(C, "then", F);
BranchInst::Create(If, Else, UndefValue::get(I1Ty), Entry);
BranchInst::Create(Then, If);
BranchInst::Create(Then, Else);
Value *Val1 = new LoadInst(I32Ty, UndefValue::get(PtrTy), "val1", Entry);
Value *Val2 = new LoadInst(I32Ty, UndefValue::get(PtrTy), "val2", Entry);
Value *Val3 = new LoadInst(I32Ty, UndefValue::get(PtrTy), "val3", Entry);
Value *Val4 = new LoadInst(I32Ty, UndefValue::get(PtrTy), "val4", Entry);
PHINode *Phi1 = PHINode::Create(I32Ty, 2, "phi1", Then);
Phi1->addIncoming(Val1, If);
Phi1->addIncoming(Val2, Else);
PHINode *Phi2 = PHINode::Create(I32Ty, 2, "phi2", Then);
Phi2->addIncoming(Val1, If);
Phi2->addIncoming(Val3, Else);
PhiValues PV(*F);
PhiValues::ValueSet Vals;
// Check that simple usage works
Vals = PV.getValuesForPhi(Phi1);
EXPECT_EQ(Vals.size(), 2u);
EXPECT_TRUE(Vals.count(Val1));
EXPECT_TRUE(Vals.count(Val2));
Vals = PV.getValuesForPhi(Phi2);
EXPECT_EQ(Vals.size(), 2u);
EXPECT_TRUE(Vals.count(Val1));
EXPECT_TRUE(Vals.count(Val3));
// Check that values are updated when one value is replaced with another
Val1->replaceAllUsesWith(Val4);
PV.invalidateValue(Val1);
Vals = PV.getValuesForPhi(Phi1);
EXPECT_EQ(Vals.size(), 2u);
EXPECT_TRUE(Vals.count(Val4));
EXPECT_TRUE(Vals.count(Val2));
Vals = PV.getValuesForPhi(Phi2);
EXPECT_EQ(Vals.size(), 2u);
EXPECT_TRUE(Vals.count(Val4));
EXPECT_TRUE(Vals.count(Val3));
// Check that setting in incoming value directly updates the values
Phi1->setIncomingValue(0, Val1);
PV.invalidateValue(Phi1);
Vals = PV.getValuesForPhi(Phi1);
EXPECT_EQ(Vals.size(), 2u);
EXPECT_TRUE(Vals.count(Val1));
EXPECT_TRUE(Vals.count(Val2));
}
TEST(PhiValuesTest, DependentPhi) {
LLVMContext C;
Module M("PhiValuesTest", C);
Type *VoidTy = Type::getVoidTy(C);
Type *I1Ty = Type::getInt1Ty(C);
Type *I32Ty = Type::getInt32Ty(C);
Type *PtrTy = PointerType::get(C, 0);
// Create a function with a phi that has another phi as an incoming value
Function *F = Function::Create(FunctionType::get(VoidTy, false),
Function::ExternalLinkage, "f", M);
BasicBlock *Entry = BasicBlock::Create(C, "entry", F);
BasicBlock *If1 = BasicBlock::Create(C, "if1", F);
BasicBlock *Else1 = BasicBlock::Create(C, "else1", F);
BasicBlock *Then = BasicBlock::Create(C, "then", F);
BasicBlock *If2 = BasicBlock::Create(C, "if2", F);
BasicBlock *Else2 = BasicBlock::Create(C, "else2", F);
BasicBlock *End = BasicBlock::Create(C, "then", F);
BranchInst::Create(If1, Else1, UndefValue::get(I1Ty), Entry);
BranchInst::Create(Then, If1);
BranchInst::Create(Then, Else1);
BranchInst::Create(If2, Else2, UndefValue::get(I1Ty), Then);
BranchInst::Create(End, If2);
BranchInst::Create(End, Else2);
Value *Val1 = new LoadInst(I32Ty, UndefValue::get(PtrTy), "val1", Entry);
Value *Val2 = new LoadInst(I32Ty, UndefValue::get(PtrTy), "val2", Entry);
Value *Val3 = new LoadInst(I32Ty, UndefValue::get(PtrTy), "val3", Entry);
Value *Val4 = new LoadInst(I32Ty, UndefValue::get(PtrTy), "val4", Entry);
PHINode *Phi1 = PHINode::Create(I32Ty, 2, "phi1", Then);
Phi1->addIncoming(Val1, If1);
Phi1->addIncoming(Val2, Else1);
PHINode *Phi2 = PHINode::Create(I32Ty, 2, "phi2", Then);
Phi2->addIncoming(Val2, If1);
Phi2->addIncoming(Val3, Else1);
PHINode *Phi3 = PHINode::Create(I32Ty, 2, "phi3", End);
Phi3->addIncoming(Phi1, If2);
Phi3->addIncoming(Val3, Else2);
PhiValues PV(*F);
PhiValues::ValueSet Vals;
// Check that simple usage works
Vals = PV.getValuesForPhi(Phi1);
EXPECT_EQ(Vals.size(), 2u);
EXPECT_TRUE(Vals.count(Val1));
EXPECT_TRUE(Vals.count(Val2));
Vals = PV.getValuesForPhi(Phi2);
EXPECT_EQ(Vals.size(), 2u);
EXPECT_TRUE(Vals.count(Val2));
EXPECT_TRUE(Vals.count(Val3));
Vals = PV.getValuesForPhi(Phi3);
EXPECT_EQ(Vals.size(), 3u);
EXPECT_TRUE(Vals.count(Val1));
EXPECT_TRUE(Vals.count(Val2));
EXPECT_TRUE(Vals.count(Val3));
// Check that changing an incoming value in the dependent phi changes the depending phi
Phi1->setIncomingValue(0, Val4);
PV.invalidateValue(Phi1);
Vals = PV.getValuesForPhi(Phi1);
EXPECT_EQ(Vals.size(), 2u);
EXPECT_TRUE(Vals.count(Val4));
EXPECT_TRUE(Vals.count(Val2));
Vals = PV.getValuesForPhi(Phi2);
EXPECT_EQ(Vals.size(), 2u);
EXPECT_TRUE(Vals.count(Val2));
EXPECT_TRUE(Vals.count(Val3));
Vals = PV.getValuesForPhi(Phi3);
EXPECT_EQ(Vals.size(), 3u);
EXPECT_TRUE(Vals.count(Val4));
EXPECT_TRUE(Vals.count(Val2));
EXPECT_TRUE(Vals.count(Val3));
// Check that replacing an incoming phi with a value works
Phi3->setIncomingValue(0, Val1);
PV.invalidateValue(Phi3);
Vals = PV.getValuesForPhi(Phi1);
EXPECT_EQ(Vals.size(), 2u);
EXPECT_TRUE(Vals.count(Val4));
EXPECT_TRUE(Vals.count(Val2));
Vals = PV.getValuesForPhi(Phi2);
EXPECT_EQ(Vals.size(), 2u);
EXPECT_TRUE(Vals.count(Val2));
EXPECT_TRUE(Vals.count(Val3));
Vals = PV.getValuesForPhi(Phi3);
EXPECT_EQ(Vals.size(), 2u);
EXPECT_TRUE(Vals.count(Val1));
EXPECT_TRUE(Vals.count(Val3));
// Check that adding a phi as an incoming value works
Phi3->setIncomingValue(1, Phi2);
PV.invalidateValue(Phi3);
Vals = PV.getValuesForPhi(Phi1);
EXPECT_EQ(Vals.size(), 2u);
EXPECT_TRUE(Vals.count(Val4));
EXPECT_TRUE(Vals.count(Val2));
Vals = PV.getValuesForPhi(Phi2);
EXPECT_EQ(Vals.size(), 2u);
EXPECT_TRUE(Vals.count(Val2));
EXPECT_TRUE(Vals.count(Val3));
Vals = PV.getValuesForPhi(Phi3);
EXPECT_EQ(Vals.size(), 3u);
EXPECT_TRUE(Vals.count(Val1));
EXPECT_TRUE(Vals.count(Val2));
EXPECT_TRUE(Vals.count(Val3));
// Check that replacing an incoming phi then deleting it works
Phi3->setIncomingValue(1, Val2);
PV.invalidateValue(Phi2);
Phi2->eraseFromParent();
PV.invalidateValue(Phi3);
Vals = PV.getValuesForPhi(Phi1);
EXPECT_EQ(Vals.size(), 2u);
EXPECT_TRUE(Vals.count(Val4));
EXPECT_TRUE(Vals.count(Val2));
Vals = PV.getValuesForPhi(Phi3);
EXPECT_EQ(Vals.size(), 2u);
EXPECT_TRUE(Vals.count(Val1));
EXPECT_TRUE(Vals.count(Val2));
}
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