#include "llvm/Instructions.h"
#include "llvm/Pass.h"
#include "llvm/Target/TargetData.h"
+#include "llvm/ADT/SmallVector.h"
#include "llvm/Support/Compiler.h"
#include "llvm/Support/GetElementPtrTypeIterator.h"
#include "llvm/Support/ManagedStatic.h"
/// such it doesn't follow many of the rules that other alias analyses must.
///
struct VISIBILITY_HIDDEN NoAA : public ImmutablePass, public AliasAnalysis {
+ static char ID; // Class identification, replacement for typeinfo
+ NoAA() : ImmutablePass((intptr_t)&ID) {}
+ explicit NoAA(intptr_t PID) : ImmutablePass(PID) { }
+
virtual void getAnalysisUsage(AnalysisUsage &AU) const {
AU.addRequired<TargetData>();
}
};
// Register this pass...
+ char NoAA::ID = 0;
RegisterPass<NoAA>
U("no-aa", "No Alias Analysis (always returns 'may' alias)");
/// Because it doesn't chain to a previous alias analysis (like -no-aa), it
/// derives from the NoAA class.
struct VISIBILITY_HIDDEN BasicAliasAnalysis : public NoAA {
+ static char ID; // Class identification, replacement for typeinfo
+ BasicAliasAnalysis() : NoAA((intptr_t)&ID) { }
AliasResult alias(const Value *V1, unsigned V1Size,
const Value *V2, unsigned V2Size);
bool pointsToConstantMemory(const Value *P);
virtual ModRefBehavior getModRefBehavior(Function *F, CallSite CS,
- std::vector<PointerAccessInfo> *Info);
+ std::vector<PointerAccessInfo> *Info);
private:
// CheckGEPInstructions - Check two GEP instructions with known
// must-aliasing base pointers. This checks to see if the index expressions
// preclude the pointers from aliasing...
AliasResult
- CheckGEPInstructions(const Type* BasePtr1Ty, std::vector<Value*> &GEP1Ops,
- unsigned G1Size,
- const Type *BasePtr2Ty, std::vector<Value*> &GEP2Ops,
- unsigned G2Size);
+ CheckGEPInstructions(const Type* BasePtr1Ty,
+ Value **GEP1Ops, unsigned NumGEP1Ops, unsigned G1Size,
+ const Type *BasePtr2Ty,
+ Value **GEP2Ops, unsigned NumGEP2Ops, unsigned G2Size);
};
// Register this pass...
+ char BasicAliasAnalysis::ID = 0;
RegisterPass<BasicAliasAnalysis>
X("basicaa", "Basic Alias Analysis (default AA impl)");
return 0;
}
-static const Value *GetGEPOperands(const Value *V, std::vector<Value*> &GEPOps){
+static const Value *GetGEPOperands(const Value *V,
+ SmallVector<Value*, 16> &GEPOps){
assert(GEPOps.empty() && "Expect empty list to populate!");
GEPOps.insert(GEPOps.end(), cast<User>(V)->op_begin()+1,
cast<User>(V)->op_end());
if (V1 == V2) return MustAlias;
if ((!isa<PointerType>(V1->getType()) || !isa<PointerType>(V2->getType())) &&
- V1->getType() != Type::LongTy && V2->getType() != Type::LongTy)
+ V1->getType() != Type::Int64Ty && V2->getType() != Type::Int64Ty)
return NoAlias; // Scalars cannot alias each other
// Strip off cast instructions...
if (const BitCastInst *I = dyn_cast<BitCastInst>(V1))
- if (isa<PointerType>(I->getOperand(0)->getType()))
- return alias(I->getOperand(0), V1Size, V2, V2Size);
+ return alias(I->getOperand(0), V1Size, V2, V2Size);
if (const BitCastInst *I = dyn_cast<BitCastInst>(V2))
- if (isa<PointerType>(I->getOperand(0)->getType()))
- return alias(V1, V1Size, I->getOperand(0), V2Size);
+ return alias(V1, V1Size, I->getOperand(0), V2Size);
// Figure out what objects these things are pointing to if we can...
const Value *O1 = getUnderlyingObject(V1);
Constant::getNullValue(cast<User>(BasePtr2)->getOperand(1)->getType()));
// Do the base pointers alias?
- AliasResult BaseAlias = alias(BasePtr1, V1Size, BasePtr2, V2Size);
+ AliasResult BaseAlias = alias(BasePtr1, ~0U, BasePtr2, ~0U);
if (BaseAlias == NoAlias) return NoAlias;
if (BaseAlias == MustAlias) {
// If the base pointers alias each other exactly, check to see if we can
// non-aliasing.
// Collect all of the chained GEP operands together into one simple place
- std::vector<Value*> GEP1Ops, GEP2Ops;
+ SmallVector<Value*, 16> GEP1Ops, GEP2Ops;
BasePtr1 = GetGEPOperands(V1, GEP1Ops);
BasePtr2 = GetGEPOperands(V2, GEP2Ops);
// do the comparison.
if (BasePtr1 == BasePtr2) {
AliasResult GAlias =
- CheckGEPInstructions(BasePtr1->getType(), GEP1Ops, V1Size,
- BasePtr2->getType(), GEP2Ops, V2Size);
+ CheckGEPInstructions(BasePtr1->getType(),
+ &GEP1Ops[0], GEP1Ops.size(), V1Size,
+ BasePtr2->getType(),
+ &GEP2Ops[0], GEP2Ops.size(), V2Size);
if (GAlias != MayAlias)
return GAlias;
}
if (V1Size != ~0U && V2Size != ~0U)
if (isGEP(V1)) {
- std::vector<Value*> GEPOperands;
+ SmallVector<Value*, 16> GEPOperands;
const Value *BasePtr = GetGEPOperands(V1, GEPOperands);
AliasResult R = alias(BasePtr, V1Size, V2, V2Size);
GEPOperands[i] =
Constant::getNullValue(GEPOperands[i]->getType());
int64_t Offset =
- getTargetData().getIndexedOffset(BasePtr->getType(), GEPOperands);
+ getTargetData().getIndexedOffset(BasePtr->getType(),
+ &GEPOperands[0],
+ GEPOperands.size());
if (Offset >= (int64_t)V2Size || Offset <= -(int64_t)V1Size)
return NoAlias;
if (Constant *C1 = dyn_cast<Constant>(V1))
if (Constant *C2 = dyn_cast<Constant>(V2)) {
// Sign extend the constants to long types, if necessary
- if (C1->getType()->getPrimitiveSizeInBits() < 64)
- C1 = ConstantExpr::getSignExtend(C1, Type::LongTy);
- else if (C1->getType() == Type::ULongTy)
- C1 = ConstantExpr::getBitCast(C1, Type::LongTy);
- if (C2->getType()->getPrimitiveSizeInBits() < 64)
- C2 = ConstantExpr::getSignExtend(C2, Type::LongTy);
- else if (C2->getType() == Type::ULongTy)
- C2 = ConstantExpr::getBitCast(C2, Type::LongTy);
+ if (C1->getType() != Type::Int64Ty)
+ C1 = ConstantExpr::getSExt(C1, Type::Int64Ty);
+ if (C2->getType() != Type::Int64Ty)
+ C2 = ConstantExpr::getSExt(C2, Type::Int64Ty);
return C1 == C2;
}
return false;
/// pointers from aliasing...
AliasAnalysis::AliasResult
BasicAliasAnalysis::CheckGEPInstructions(
- const Type* BasePtr1Ty, std::vector<Value*> &GEP1Ops, unsigned G1S,
- const Type *BasePtr2Ty, std::vector<Value*> &GEP2Ops, unsigned G2S) {
+ const Type* BasePtr1Ty, Value **GEP1Ops, unsigned NumGEP1Ops, unsigned G1S,
+ const Type *BasePtr2Ty, Value **GEP2Ops, unsigned NumGEP2Ops, unsigned G2S) {
// We currently can't handle the case when the base pointers have different
// primitive types. Since this is uncommon anyway, we are happy being
// extremely conservative.
// Find the (possibly empty) initial sequence of equal values... which are not
// necessarily constants.
- unsigned NumGEP1Operands = GEP1Ops.size(), NumGEP2Operands = GEP2Ops.size();
+ unsigned NumGEP1Operands = NumGEP1Ops, NumGEP2Operands = NumGEP2Ops;
unsigned MinOperands = std::min(NumGEP1Operands, NumGEP2Operands);
unsigned MaxOperands = std::max(NumGEP1Operands, NumGEP2Operands);
unsigned UnequalOper = 0;
// getelementptrs, check to see if the tail of the leftover one is all zeros.
// If so, return mustalias.
if (UnequalOper == MinOperands) {
- if (GEP1Ops.size() < GEP2Ops.size()) std::swap(GEP1Ops, GEP2Ops);
+ if (NumGEP1Ops < NumGEP2Ops) {
+ std::swap(GEP1Ops, GEP2Ops);
+ std::swap(NumGEP1Ops, NumGEP2Ops);
+ }
bool AllAreZeros = true;
for (unsigned i = UnequalOper; i != MaxOperands; ++i)
if (Constant *G2OC = dyn_cast<ConstantInt>(const_cast<Value*>(G2Oper))){
if (G1OC->getType() != G2OC->getType()) {
// Sign extend both operands to long.
- if (G1OC->getType()->getPrimitiveSizeInBits() < 64)
- G1OC = ConstantExpr::getSignExtend(G1OC, Type::LongTy);
- else if (G1OC->getType() == Type::ULongTy)
- G1OC = ConstantExpr::getBitCast(G1OC, Type::LongTy);
- if (G2OC->getType()->getPrimitiveSizeInBits() < 64)
- G2OC = ConstantExpr::getSignExtend(G2OC, Type::LongTy);
- else if (G2OC->getType() == Type::ULongTy)
- G2OC = ConstantExpr::getBitCast(G2OC, Type::LongTy);
+ if (G1OC->getType() != Type::Int64Ty)
+ G1OC = ConstantExpr::getSExt(G1OC, Type::Int64Ty);
+ if (G2OC->getType() != Type::Int64Ty)
+ G2OC = ConstantExpr::getSExt(G2OC, Type::Int64Ty);
GEP1Ops[FirstConstantOper] = G1OC;
GEP2Ops[FirstConstantOper] = G2OC;
}
// Make sure they are comparable (ie, not constant expressions), and
// make sure the GEP with the smaller leading constant is GEP1.
if (G1OC) {
- Constant *Compare = ConstantExpr::getSetGT(G1OC, G2OC);
- if (ConstantBool *CV = dyn_cast<ConstantBool>(Compare)) {
- if (CV->getValue()) // If they are comparable and G2 > G1
+ Constant *Compare = ConstantExpr::getICmp(ICmpInst::ICMP_SGT,
+ G1OC, G2OC);
+ if (ConstantInt *CV = dyn_cast<ConstantInt>(Compare)) {
+ if (CV->getZExtValue()) { // If they are comparable and G2 > G1
std::swap(GEP1Ops, GEP2Ops); // Make GEP1 < GEP2
+ std::swap(NumGEP1Ops, NumGEP2Ops);
+ }
break;
}
}
// case, there may still be hope. Check this now.
if (FirstConstantOper == MinOperands) {
// Make GEP1Ops be the longer one if there is a longer one.
- if (GEP1Ops.size() < GEP2Ops.size())
+ if (NumGEP1Ops < NumGEP2Ops) {
std::swap(GEP1Ops, GEP2Ops);
+ std::swap(NumGEP1Ops, NumGEP2Ops);
+ }
// Is there anything to check?
- if (GEP1Ops.size() > MinOperands) {
+ if (NumGEP1Ops > MinOperands) {
for (unsigned i = FirstConstantOper; i != MaxOperands; ++i)
- if (isa<ConstantInt>(GEP1Ops[i]) &&
- !cast<Constant>(GEP1Ops[i])->isNullValue()) {
+ if (isa<ConstantInt>(GEP1Ops[i]) &&
+ !cast<ConstantInt>(GEP1Ops[i])->isZero()) {
// Yup, there's a constant in the tail. Set all variables to
// constants in the GEP instruction to make it suiteable for
// TargetData::getIndexedOffset.
// Okay, now get the offset. This is the relative offset for the full
// instruction.
const TargetData &TD = getTargetData();
- int64_t Offset1 = TD.getIndexedOffset(GEPPointerTy, GEP1Ops);
+ int64_t Offset1 = TD.getIndexedOffset(GEPPointerTy, GEP1Ops,
+ NumGEP1Ops);
- // Now crop off any constants from the end...
- GEP1Ops.resize(MinOperands);
- int64_t Offset2 = TD.getIndexedOffset(GEPPointerTy, GEP1Ops);
+ // Now check without any constants at the end.
+ int64_t Offset2 = TD.getIndexedOffset(GEPPointerTy, GEP1Ops,
+ MinOperands);
// If the tail provided a bit enough offset, return noalias!
if ((uint64_t)(Offset2-Offset1) >= SizeMax)
const Type *ZeroIdxTy = GEPPointerTy;
for (unsigned i = 0; i != FirstConstantOper; ++i) {
if (!isa<StructType>(ZeroIdxTy))
- GEP1Ops[i] = GEP2Ops[i] = Constant::getNullValue(Type::UIntTy);
+ GEP1Ops[i] = GEP2Ops[i] = Constant::getNullValue(Type::Int32Ty);
if (const CompositeType *CT = dyn_cast<CompositeType>(ZeroIdxTy))
ZeroIdxTy = CT->getTypeAtIndex(GEP1Ops[i]);
// Loop over the rest of the operands...
for (unsigned i = FirstConstantOper+1; i != MaxOperands; ++i) {
- const Value *Op1 = i < GEP1Ops.size() ? GEP1Ops[i] : 0;
- const Value *Op2 = i < GEP2Ops.size() ? GEP2Ops[i] : 0;
+ const Value *Op1 = i < NumGEP1Ops ? GEP1Ops[i] : 0;
+ const Value *Op2 = i < NumGEP2Ops ? GEP2Ops[i] : 0;
// If they are equal, use a zero index...
if (Op1 == Op2 && BasePtr1Ty == BasePtr2Ty) {
if (!isa<ConstantInt>(Op1))
if (const ArrayType *AT = dyn_cast<ArrayType>(BasePtr1Ty)) {
if (Op1C->getZExtValue() >= AT->getNumElements())
return MayAlias; // Be conservative with out-of-range accesses
- } else if (const PackedType *PT = dyn_cast<PackedType>(BasePtr1Ty)) {
+ } else if (const VectorType *PT = dyn_cast<VectorType>(BasePtr1Ty)) {
if (Op1C->getZExtValue() >= PT->getNumElements())
return MayAlias; // Be conservative with out-of-range accesses
}
// value possible.
//
if (const ArrayType *AT = dyn_cast<ArrayType>(BasePtr1Ty))
- GEP1Ops[i] = ConstantInt::get(Type::LongTy, AT->getNumElements()-1);
- else if (const PackedType *PT = dyn_cast<PackedType>(BasePtr1Ty))
- GEP1Ops[i] = ConstantInt::get(Type::LongTy, PT->getNumElements()-1);
+ GEP1Ops[i] = ConstantInt::get(Type::Int64Ty,AT->getNumElements()-1);
+ else if (const VectorType *PT = dyn_cast<VectorType>(BasePtr1Ty))
+ GEP1Ops[i] = ConstantInt::get(Type::Int64Ty,PT->getNumElements()-1);
}
}
if (const ArrayType *AT = dyn_cast<ArrayType>(BasePtr1Ty)) {
if (Op2C->getZExtValue() >= AT->getNumElements())
return MayAlias; // Be conservative with out-of-range accesses
- } else if (const PackedType *PT = dyn_cast<PackedType>(BasePtr1Ty)) {
+ } else if (const VectorType *PT = dyn_cast<VectorType>(BasePtr1Ty)) {
if (Op2C->getZExtValue() >= PT->getNumElements())
return MayAlias; // Be conservative with out-of-range accesses
}
}
if (GEPPointerTy->getElementType()->isSized()) {
- int64_t Offset1 = getTargetData().getIndexedOffset(GEPPointerTy, GEP1Ops);
- int64_t Offset2 = getTargetData().getIndexedOffset(GEPPointerTy, GEP2Ops);
+ int64_t Offset1 =
+ getTargetData().getIndexedOffset(GEPPointerTy, GEP1Ops, NumGEP1Ops);
+ int64_t Offset2 =
+ getTargetData().getIndexedOffset(GEPPointerTy, GEP2Ops, NumGEP2Ops);
assert(Offset1<Offset2 && "There is at least one different constant here!");
if ((uint64_t)(Offset2-Offset1) >= SizeMax) {
- //llvm_cerr << "Determined that these two GEP's don't alias ["
- // << SizeMax << " bytes]: \n" << *GEP1 << *GEP2;
+ //cerr << "Determined that these two GEP's don't alias ["
+ // << SizeMax << " bytes]: \n" << *GEP1 << *GEP2;
return NoAlias;
}
}
}
namespace {
- struct StringCompare {
+ struct VISIBILITY_HIDDEN StringCompare {
bool operator()(const char *LHS, const char *RHS) {
return strcmp(LHS, RHS) < 0;
}
AliasAnalysis::ModRefBehavior
BasicAliasAnalysis::getModRefBehavior(Function *F, CallSite CS,
std::vector<PointerAccessInfo> *Info) {
- if (!F->isExternal()) return UnknownModRefBehavior;
+ if (!F->isDeclaration()) return UnknownModRefBehavior;
static bool Initialized = false;
if (!Initialized) {