RPCS3/llvm-mirror
1
0
Fork 0
mirror of https://github.com/RPCS3/llvm-mirror.git synced 2024-11-01 08:23:21 +01:00
Code Issues Projects Releases Wiki Activity
65bbc30da0
llvm-mirror/unittests/VMCore/DominatorTreeTest.cpp
Rafael Espindola 151b420718 Handle unreachable code in the dominates functions. This changes users when 
needed for correctness, but still doesn't clean up code that now unnecessary
checks for reachability.

llvm-svn: 153755
2012-03-30 16:46:21 +00:00

196 lines
6.3 KiB
C++
Raw Blame History

#include "llvm/Instructions.h"
#include "llvm/LLVMContext.h"
#include "llvm/Module.h"
#include "llvm/PassManager.h"
#include "llvm/Analysis/Dominators.h"
#include "llvm/Assembly/Parser.h"
#include "llvm/Support/SourceMgr.h"
#include "gtest/gtest.h"
using namespace llvm;
namespace llvm {
void initializeDPassPass(PassRegistry&);
namespace {
struct DPass : public FunctionPass {
static char ID;
virtual bool runOnFunction(Function &F) {
DominatorTree *DT = &getAnalysis<DominatorTree>();
Function::iterator FI = F.begin();
BasicBlock *BB0 = FI++;
BasicBlock::iterator BBI = BB0->begin();
Instruction *Y1 = BBI++;
Instruction *Y2 = BBI++;
Instruction *Y3 = BBI++;
BasicBlock *BB1 = FI++;
BBI = BB1->begin();
Instruction *Y4 = BBI++;
BasicBlock *BB2 = FI++;
BBI = BB2->begin();
Instruction *Y5 = BBI++;
BasicBlock *BB3 = FI++;
BBI = BB3->begin();
Instruction *Y6 = BBI++;
Instruction *Y7 = BBI++;
BasicBlock *BB4 = FI++;
BBI = BB4->begin();
Instruction *Y8 = BBI++;
Instruction *Y9 = BBI++;
// Reachability
EXPECT_TRUE(DT->isReachableFromEntry(BB0));
EXPECT_TRUE(DT->isReachableFromEntry(BB1));
EXPECT_TRUE(DT->isReachableFromEntry(BB2));
EXPECT_FALSE(DT->isReachableFromEntry(BB3));
EXPECT_TRUE(DT->isReachableFromEntry(BB4));
// BB dominance
EXPECT_TRUE(DT->dominates(BB0, BB0));
EXPECT_TRUE(DT->dominates(BB0, BB1));
EXPECT_TRUE(DT->dominates(BB0, BB2));
EXPECT_TRUE(DT->dominates(BB0, BB3));
EXPECT_TRUE(DT->dominates(BB0, BB4));
EXPECT_FALSE(DT->dominates(BB1, BB0));
EXPECT_TRUE(DT->dominates(BB1, BB1));
EXPECT_FALSE(DT->dominates(BB1, BB2));
EXPECT_TRUE(DT->dominates(BB1, BB3));
EXPECT_FALSE(DT->dominates(BB1, BB4));
EXPECT_FALSE(DT->dominates(BB2, BB0));
EXPECT_FALSE(DT->dominates(BB2, BB1));
EXPECT_TRUE(DT->dominates(BB2, BB2));
EXPECT_TRUE(DT->dominates(BB2, BB3));
EXPECT_FALSE(DT->dominates(BB2, BB4));
EXPECT_FALSE(DT->dominates(BB3, BB0));
EXPECT_FALSE(DT->dominates(BB3, BB1));
EXPECT_FALSE(DT->dominates(BB3, BB2));
EXPECT_TRUE(DT->dominates(BB3, BB3));
EXPECT_FALSE(DT->dominates(BB3, BB4));
// BB proper dominance
EXPECT_FALSE(DT->properlyDominates(BB0, BB0));
EXPECT_TRUE(DT->properlyDominates(BB0, BB1));
EXPECT_TRUE(DT->properlyDominates(BB0, BB2));
EXPECT_TRUE(DT->properlyDominates(BB0, BB3));
EXPECT_FALSE(DT->properlyDominates(BB1, BB0));
EXPECT_FALSE(DT->properlyDominates(BB1, BB1));
EXPECT_FALSE(DT->properlyDominates(BB1, BB2));
EXPECT_TRUE(DT->properlyDominates(BB1, BB3));
EXPECT_FALSE(DT->properlyDominates(BB2, BB0));
EXPECT_FALSE(DT->properlyDominates(BB2, BB1));
EXPECT_FALSE(DT->properlyDominates(BB2, BB2));
EXPECT_TRUE(DT->properlyDominates(BB2, BB3));
EXPECT_FALSE(DT->properlyDominates(BB3, BB0));
EXPECT_FALSE(DT->properlyDominates(BB3, BB1));
EXPECT_FALSE(DT->properlyDominates(BB3, BB2));
EXPECT_FALSE(DT->properlyDominates(BB3, BB3));
// Instruction dominance in the same reachable BB
EXPECT_FALSE(DT->dominates(Y1, Y1));
EXPECT_TRUE(DT->dominates(Y1, Y2));
EXPECT_FALSE(DT->dominates(Y2, Y1));
EXPECT_FALSE(DT->dominates(Y2, Y2));
// Instruction dominance in the same unreachable BB
EXPECT_TRUE(DT->dominates(Y6, Y6));
EXPECT_TRUE(DT->dominates(Y6, Y7));
EXPECT_TRUE(DT->dominates(Y7, Y6));
EXPECT_TRUE(DT->dominates(Y7, Y7));
// Invoke
EXPECT_TRUE(DT->dominates(Y3, Y4));
EXPECT_FALSE(DT->dominates(Y3, Y5));
// Phi
EXPECT_TRUE(DT->dominates(Y2, Y9));
EXPECT_FALSE(DT->dominates(Y3, Y9));
EXPECT_FALSE(DT->dominates(Y8, Y9));
// Anything dominates unreachable
EXPECT_TRUE(DT->dominates(Y1, Y6));
EXPECT_TRUE(DT->dominates(Y3, Y6));
// Unreachable doesn't dominate reachable
EXPECT_FALSE(DT->dominates(Y6, Y1));
// Instruction, BB dominance
EXPECT_FALSE(DT->dominates(Y1, BB0));
EXPECT_TRUE(DT->dominates(Y1, BB1));
EXPECT_TRUE(DT->dominates(Y1, BB2));
EXPECT_TRUE(DT->dominates(Y1, BB3));
EXPECT_TRUE(DT->dominates(Y1, BB4));
EXPECT_FALSE(DT->dominates(Y3, BB0));
EXPECT_TRUE(DT->dominates(Y3, BB1));
EXPECT_FALSE(DT->dominates(Y3, BB2));
EXPECT_TRUE(DT->dominates(Y3, BB3));
EXPECT_FALSE(DT->dominates(Y3, BB4));
EXPECT_TRUE(DT->dominates(Y6, BB3));
return false;
}
virtual void getAnalysisUsage(AnalysisUsage &AU) const {
AU.addRequired<DominatorTree>();
}
DPass() : FunctionPass(ID) {
initializeDPassPass(*PassRegistry::getPassRegistry());
}
};
char DPass::ID = 0;
Module* makeLLVMModule(DPass *P) {
const char *ModuleStrig =
"declare i32 @g()\n" \
"define void @f(i32 %x) {\n" \
"bb0:\n" \
" %y1 = add i32 %x, 1\n" \
" %y2 = add i32 %x, 1\n" \
" %y3 = invoke i32 @g() to label %bb1 unwind label %bb2\n" \
"bb1:\n" \
" %y4 = add i32 %x, 1\n" \
" br label %bb4\n" \
"bb2:\n" \
" %y5 = landingpad i32 personality i32 ()* @g\n" \
" cleanup\n" \
" br label %bb4\n" \
"bb3:\n" \
" %y6 = add i32 %x, 1\n" \
" %y7 = add i32 %x, 1\n" \
" ret void\n" \
"bb4:\n" \
" %y8 = phi i32 [0, %bb2], [%y4, %bb1]\n"
" %y9 = phi i32 [0, %bb2], [%y4, %bb1]\n"
" ret void\n" \
"}\n";
LLVMContext &C = getGlobalContext();
SMDiagnostic Err;
return ParseAssemblyString(ModuleStrig, NULL, Err, C);
}
TEST(DominatorTree, Unreachable) {
DPass *P = new DPass();
Module *M = makeLLVMModule(P);
PassManager Passes;
Passes.add(P);
Passes.run(*M);
}
}
}
INITIALIZE_PASS_BEGIN(DPass, "dpass", "dpass", false, false)
INITIALIZE_PASS_DEPENDENCY(DominatorTree)
INITIALIZE_PASS_END(DPass, "dpass", "dpass", false, false)
Reference in New Issue View Git Blame Copy Permalink