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refactor the SROA code out into its own method, no functionality change.
git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@36426 91177308-0d34-0410-b5e6-96231b3b80d8
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@ -65,6 +65,8 @@ namespace {
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bool isSafeMemIntrinsicOnAllocation(MemIntrinsic *MI, AllocationInst *AI);
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bool isSafeUseOfBitCastedAllocation(BitCastInst *User, AllocationInst *AI);
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int isSafeAllocaToScalarRepl(AllocationInst *AI);
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void DoScalarReplacement(AllocationInst *AI,
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std::vector<AllocationInst*> &WorkList);
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void CanonicalizeAllocaUsers(AllocationInst *AI);
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AllocaInst *AddNewAlloca(Function &F, const Type *Ty, AllocationInst *Base);
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@ -166,118 +168,125 @@ bool SROA::performScalarRepl(Function &F) {
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// We cannot transform the allocation instruction if it is an array
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// allocation (allocations OF arrays are ok though), and an allocation of a
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// scalar value cannot be decomposed at all.
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//
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if (AI->isArrayAllocation() ||
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(!isa<StructType>(AI->getAllocatedType()) &&
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!isa<ArrayType>(AI->getAllocatedType()))) continue;
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// Check that all of the users of the allocation are capable of being
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// transformed.
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switch (isSafeAllocaToScalarRepl(AI)) {
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default: assert(0 && "Unexpected value!");
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case 0: // Not safe to scalar replace.
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continue;
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case 1: // Safe, but requires cleanup/canonicalizations first
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CanonicalizeAllocaUsers(AI);
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case 3: // Safe to scalar replace.
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break;
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}
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DOUT << "Found inst to xform: " << *AI;
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Changed = true;
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SmallVector<AllocaInst*, 32> ElementAllocas;
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if (const StructType *ST = dyn_cast<StructType>(AI->getAllocatedType())) {
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ElementAllocas.reserve(ST->getNumContainedTypes());
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for (unsigned i = 0, e = ST->getNumContainedTypes(); i != e; ++i) {
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AllocaInst *NA = new AllocaInst(ST->getContainedType(i), 0,
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AI->getAlignment(),
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AI->getName() + "." + utostr(i), AI);
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ElementAllocas.push_back(NA);
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WorkList.push_back(NA); // Add to worklist for recursive processing
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}
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} else {
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const ArrayType *AT = cast<ArrayType>(AI->getAllocatedType());
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ElementAllocas.reserve(AT->getNumElements());
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const Type *ElTy = AT->getElementType();
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for (unsigned i = 0, e = AT->getNumElements(); i != e; ++i) {
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AllocaInst *NA = new AllocaInst(ElTy, 0, AI->getAlignment(),
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AI->getName() + "." + utostr(i), AI);
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ElementAllocas.push_back(NA);
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WorkList.push_back(NA); // Add to worklist for recursive processing
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}
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}
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// Now that we have created the alloca instructions that we want to use,
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// expand the getelementptr instructions to use them.
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//
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while (!AI->use_empty()) {
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Instruction *User = cast<Instruction>(AI->use_back());
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if (BitCastInst *BCInst = dyn_cast<BitCastInst>(User)) {
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RewriteBitCastUserOfAlloca(BCInst, AI, ElementAllocas);
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BCInst->eraseFromParent();
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if (!AI->isArrayAllocation() &&
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(isa<StructType>(AI->getAllocatedType()) ||
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isa<ArrayType>(AI->getAllocatedType()))) {
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// Check that all of the users of the allocation are capable of being
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// transformed.
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switch (isSafeAllocaToScalarRepl(AI)) {
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default: assert(0 && "Unexpected value!");
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case 0: // Not safe to scalar replace.
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break;
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case 1: // Safe, but requires cleanup/canonicalizations first
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CanonicalizeAllocaUsers(AI);
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// FALL THROUGH.
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case 3: // Safe to scalar replace.
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DoScalarReplacement(AI, WorkList);
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Changed = true;
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continue;
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}
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GetElementPtrInst *GEPI = cast<GetElementPtrInst>(User);
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// We now know that the GEP is of the form: GEP <ptr>, 0, <cst>
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unsigned Idx =
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(unsigned)cast<ConstantInt>(GEPI->getOperand(2))->getZExtValue();
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assert(Idx < ElementAllocas.size() && "Index out of range?");
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AllocaInst *AllocaToUse = ElementAllocas[Idx];
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Value *RepValue;
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if (GEPI->getNumOperands() == 3) {
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// Do not insert a new getelementptr instruction with zero indices, only
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// to have it optimized out later.
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RepValue = AllocaToUse;
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} else {
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// We are indexing deeply into the structure, so we still need a
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// getelement ptr instruction to finish the indexing. This may be
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// expanded itself once the worklist is rerun.
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//
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SmallVector<Value*, 8> NewArgs;
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NewArgs.push_back(Constant::getNullValue(Type::Int32Ty));
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NewArgs.append(GEPI->op_begin()+3, GEPI->op_end());
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RepValue = new GetElementPtrInst(AllocaToUse, &NewArgs[0],
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NewArgs.size(), "", GEPI);
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RepValue->takeName(GEPI);
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}
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// If this GEP is to the start of the aggregate, check for memcpys.
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if (Idx == 0) {
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bool IsStartOfAggregateGEP = true;
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for (unsigned i = 3, e = GEPI->getNumOperands(); i != e; ++i) {
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if (!isa<ConstantInt>(GEPI->getOperand(i))) {
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IsStartOfAggregateGEP = false;
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break;
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}
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if (!cast<ConstantInt>(GEPI->getOperand(i))->isZero()) {
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IsStartOfAggregateGEP = false;
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break;
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}
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}
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if (IsStartOfAggregateGEP)
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RewriteBitCastUserOfAlloca(GEPI, AI, ElementAllocas);
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}
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// Move all of the users over to the new GEP.
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GEPI->replaceAllUsesWith(RepValue);
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// Delete the old GEP
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GEPI->eraseFromParent();
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}
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// Finally, delete the Alloca instruction
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AI->eraseFromParent();
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NumReplaced++;
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// Otherwise, couldn't process this.
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}
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return Changed;
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}
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/// DoScalarReplacement - This alloca satisfied the isSafeAllocaToScalarRepl
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/// predicate, do SROA now.
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void SROA::DoScalarReplacement(AllocationInst *AI,
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std::vector<AllocationInst*> &WorkList) {
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DOUT << "Found inst to xform: " << *AI;
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SmallVector<AllocaInst*, 32> ElementAllocas;
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if (const StructType *ST = dyn_cast<StructType>(AI->getAllocatedType())) {
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ElementAllocas.reserve(ST->getNumContainedTypes());
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for (unsigned i = 0, e = ST->getNumContainedTypes(); i != e; ++i) {
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AllocaInst *NA = new AllocaInst(ST->getContainedType(i), 0,
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AI->getAlignment(),
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AI->getName() + "." + utostr(i), AI);
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ElementAllocas.push_back(NA);
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WorkList.push_back(NA); // Add to worklist for recursive processing
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}
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} else {
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const ArrayType *AT = cast<ArrayType>(AI->getAllocatedType());
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ElementAllocas.reserve(AT->getNumElements());
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const Type *ElTy = AT->getElementType();
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for (unsigned i = 0, e = AT->getNumElements(); i != e; ++i) {
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AllocaInst *NA = new AllocaInst(ElTy, 0, AI->getAlignment(),
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AI->getName() + "." + utostr(i), AI);
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ElementAllocas.push_back(NA);
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WorkList.push_back(NA); // Add to worklist for recursive processing
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}
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}
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// Now that we have created the alloca instructions that we want to use,
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// expand the getelementptr instructions to use them.
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//
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while (!AI->use_empty()) {
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Instruction *User = cast<Instruction>(AI->use_back());
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if (BitCastInst *BCInst = dyn_cast<BitCastInst>(User)) {
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RewriteBitCastUserOfAlloca(BCInst, AI, ElementAllocas);
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BCInst->eraseFromParent();
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continue;
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}
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GetElementPtrInst *GEPI = cast<GetElementPtrInst>(User);
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// We now know that the GEP is of the form: GEP <ptr>, 0, <cst>
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unsigned Idx =
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(unsigned)cast<ConstantInt>(GEPI->getOperand(2))->getZExtValue();
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assert(Idx < ElementAllocas.size() && "Index out of range?");
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AllocaInst *AllocaToUse = ElementAllocas[Idx];
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Value *RepValue;
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if (GEPI->getNumOperands() == 3) {
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// Do not insert a new getelementptr instruction with zero indices, only
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// to have it optimized out later.
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RepValue = AllocaToUse;
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} else {
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// We are indexing deeply into the structure, so we still need a
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// getelement ptr instruction to finish the indexing. This may be
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// expanded itself once the worklist is rerun.
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//
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SmallVector<Value*, 8> NewArgs;
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NewArgs.push_back(Constant::getNullValue(Type::Int32Ty));
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NewArgs.append(GEPI->op_begin()+3, GEPI->op_end());
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RepValue = new GetElementPtrInst(AllocaToUse, &NewArgs[0],
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NewArgs.size(), "", GEPI);
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RepValue->takeName(GEPI);
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}
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// If this GEP is to the start of the aggregate, check for memcpys.
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if (Idx == 0) {
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bool IsStartOfAggregateGEP = true;
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for (unsigned i = 3, e = GEPI->getNumOperands(); i != e; ++i) {
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if (!isa<ConstantInt>(GEPI->getOperand(i))) {
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IsStartOfAggregateGEP = false;
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break;
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}
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if (!cast<ConstantInt>(GEPI->getOperand(i))->isZero()) {
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IsStartOfAggregateGEP = false;
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break;
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}
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}
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if (IsStartOfAggregateGEP)
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RewriteBitCastUserOfAlloca(GEPI, AI, ElementAllocas);
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}
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// Move all of the users over to the new GEP.
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GEPI->replaceAllUsesWith(RepValue);
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// Delete the old GEP
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GEPI->eraseFromParent();
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}
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// Finally, delete the Alloca instruction
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AI->eraseFromParent();
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NumReplaced++;
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}
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/// isSafeElementUse - Check to see if this use is an allowed use for a
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/// getelementptr instruction of an array aggregate allocation. isFirstElt
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