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@ -89,7 +89,7 @@
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//
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//===----------------------------------------------------------------------===//
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#include "NVPTX.h"
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#include "llvm/Transforms/Scalar.h"
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#include "llvm/ADT/DenseSet.h"
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#include "llvm/ADT/Optional.h"
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#include "llvm/ADT/SetVector.h"
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@ -103,7 +103,7 @@
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#include "llvm/Transforms/Utils/Local.h"
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#include "llvm/Transforms/Utils/ValueMapper.h"
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#define DEBUG_TYPE "nvptx-infer-addrspace"
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#define DEBUG_TYPE "infer-address-spaces"
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using namespace llvm;
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@ -112,8 +112,8 @@ static const unsigned UnknownAddressSpace = ~0u;
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using ValueToAddrSpaceMapTy = DenseMap<const Value *, unsigned>;
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/// \brief NVPTXInferAddressSpaces
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class NVPTXInferAddressSpaces: public FunctionPass {
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/// \brief InferAddressSpaces
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class InferAddressSpaces: public FunctionPass {
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/// Target specific address space which uses of should be replaced if
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/// possible.
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unsigned FlatAddrSpace;
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@ -121,7 +121,7 @@ class NVPTXInferAddressSpaces: public FunctionPass {
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public:
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static char ID;
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NVPTXInferAddressSpaces() : FunctionPass(ID) {}
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InferAddressSpaces() : FunctionPass(ID) {}
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void getAnalysisUsage(AnalysisUsage &AU) const override {
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AU.setPreservesCFG();
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@ -162,13 +162,13 @@ private:
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};
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} // end anonymous namespace
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char NVPTXInferAddressSpaces::ID = 0;
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char InferAddressSpaces::ID = 0;
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namespace llvm {
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void initializeNVPTXInferAddressSpacesPass(PassRegistry &);
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void initializeInferAddressSpacesPass(PassRegistry &);
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}
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INITIALIZE_PASS(NVPTXInferAddressSpaces, "nvptx-infer-addrspace",
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"Infer address spaces",
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INITIALIZE_PASS(InferAddressSpaces, DEBUG_TYPE, "Infer address spaces",
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false, false)
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// Returns true if V is an address expression.
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@ -212,9 +212,9 @@ static SmallVector<Value *, 2> getPointerOperands(const Value &V) {
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// If V is an unvisited flat address expression, appends V to PostorderStack
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// and marks it as visited.
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void NVPTXInferAddressSpaces::appendsFlatAddressExpressionToPostorderStack(
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Value *V, std::vector<std::pair<Value *, bool>> *PostorderStack,
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DenseSet<Value *> *Visited) const {
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void InferAddressSpaces::appendsFlatAddressExpressionToPostorderStack(
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Value *V, std::vector<std::pair<Value *, bool>> *PostorderStack,
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DenseSet<Value *> *Visited) const {
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assert(V->getType()->isPointerTy());
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if (isAddressExpression(*V) &&
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V->getType()->getPointerAddressSpace() == FlatAddrSpace) {
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@ -226,7 +226,7 @@ void NVPTXInferAddressSpaces::appendsFlatAddressExpressionToPostorderStack(
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// Returns all flat address expressions in function F. The elements are ordered
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// in postorder.
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std::vector<Value *>
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NVPTXInferAddressSpaces::collectFlatAddressExpressions(Function &F) const {
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InferAddressSpaces::collectFlatAddressExpressions(Function &F) const {
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// This function implements a non-recursive postorder traversal of a partial
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// use-def graph of function F.
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std::vector<std::pair<Value*, bool>> PostorderStack;
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@ -237,10 +237,10 @@ NVPTXInferAddressSpaces::collectFlatAddressExpressions(Function &F) const {
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for (Instruction &I : instructions(F)) {
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if (isa<LoadInst>(I)) {
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appendsFlatAddressExpressionToPostorderStack(
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I.getOperand(0), &PostorderStack, &Visited);
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I.getOperand(0), &PostorderStack, &Visited);
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} else if (isa<StoreInst>(I)) {
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appendsFlatAddressExpressionToPostorderStack(
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I.getOperand(1), &PostorderStack, &Visited);
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I.getOperand(1), &PostorderStack, &Visited);
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}
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}
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@ -257,7 +257,7 @@ NVPTXInferAddressSpaces::collectFlatAddressExpressions(Function &F) const {
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PostorderStack.back().second = true;
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for (Value *PtrOperand : getPointerOperands(*PostorderStack.back().first)) {
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appendsFlatAddressExpressionToPostorderStack(
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PtrOperand, &PostorderStack, &Visited);
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PtrOperand, &PostorderStack, &Visited);
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}
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}
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return Postorder;
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@ -267,16 +267,16 @@ NVPTXInferAddressSpaces::collectFlatAddressExpressions(Function &F) const {
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// of OperandUse.get() in the new address space. If the clone is not ready yet,
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// returns an undef in the new address space as a placeholder.
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static Value *operandWithNewAddressSpaceOrCreateUndef(
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const Use &OperandUse, unsigned NewAddrSpace,
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const ValueToValueMapTy &ValueWithNewAddrSpace,
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SmallVectorImpl<const Use *> *UndefUsesToFix) {
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const Use &OperandUse, unsigned NewAddrSpace,
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const ValueToValueMapTy &ValueWithNewAddrSpace,
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SmallVectorImpl<const Use *> *UndefUsesToFix) {
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Value *Operand = OperandUse.get();
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if (Value *NewOperand = ValueWithNewAddrSpace.lookup(Operand))
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return NewOperand;
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UndefUsesToFix->push_back(&OperandUse);
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return UndefValue::get(
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Operand->getType()->getPointerElementType()->getPointerTo(NewAddrSpace));
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Operand->getType()->getPointerElementType()->getPointerTo(NewAddrSpace));
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}
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// Returns a clone of `I` with its operands converted to those specified in
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@ -289,11 +289,11 @@ static Value *operandWithNewAddressSpaceOrCreateUndef(
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// from a pointer whose type already matches. Therefore, this function returns a
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// Value* instead of an Instruction*.
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static Value *cloneInstructionWithNewAddressSpace(
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Instruction *I, unsigned NewAddrSpace,
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const ValueToValueMapTy &ValueWithNewAddrSpace,
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SmallVectorImpl<const Use *> *UndefUsesToFix) {
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Instruction *I, unsigned NewAddrSpace,
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const ValueToValueMapTy &ValueWithNewAddrSpace,
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SmallVectorImpl<const Use *> *UndefUsesToFix) {
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Type *NewPtrType =
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I->getType()->getPointerElementType()->getPointerTo(NewAddrSpace);
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I->getType()->getPointerElementType()->getPointerTo(NewAddrSpace);
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if (I->getOpcode() == Instruction::AddrSpaceCast) {
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Value *Src = I->getOperand(0);
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@ -313,7 +313,7 @@ static Value *cloneInstructionWithNewAddressSpace(
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NewPointerOperands.push_back(nullptr);
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else
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NewPointerOperands.push_back(operandWithNewAddressSpaceOrCreateUndef(
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OperandUse, NewAddrSpace, ValueWithNewAddrSpace, UndefUsesToFix));
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OperandUse, NewAddrSpace, ValueWithNewAddrSpace, UndefUsesToFix));
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}
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switch (I->getOpcode()) {
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@ -333,8 +333,8 @@ static Value *cloneInstructionWithNewAddressSpace(
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case Instruction::GetElementPtr: {
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GetElementPtrInst *GEP = cast<GetElementPtrInst>(I);
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GetElementPtrInst *NewGEP = GetElementPtrInst::Create(
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GEP->getSourceElementType(), NewPointerOperands[0],
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SmallVector<Value *, 4>(GEP->idx_begin(), GEP->idx_end()));
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GEP->getSourceElementType(), NewPointerOperands[0],
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SmallVector<Value *, 4>(GEP->idx_begin(), GEP->idx_end()));
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NewGEP->setIsInBounds(GEP->isInBounds());
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return NewGEP;
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}
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@ -347,10 +347,10 @@ static Value *cloneInstructionWithNewAddressSpace(
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// constant expression `CE` with its operands replaced as specified in
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// ValueWithNewAddrSpace.
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static Value *cloneConstantExprWithNewAddressSpace(
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ConstantExpr *CE, unsigned NewAddrSpace,
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const ValueToValueMapTy &ValueWithNewAddrSpace) {
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ConstantExpr *CE, unsigned NewAddrSpace,
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const ValueToValueMapTy &ValueWithNewAddrSpace) {
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Type *TargetType =
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CE->getType()->getPointerElementType()->getPointerTo(NewAddrSpace);
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CE->getType()->getPointerElementType()->getPointerTo(NewAddrSpace);
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if (CE->getOpcode() == Instruction::AddrSpaceCast) {
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// Because CE is flat, the source address space must be specific.
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@ -382,8 +382,8 @@ static Value *cloneConstantExprWithNewAddressSpace(
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// Needs to specify the source type while constructing a getelementptr
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// constant expression.
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return CE->getWithOperands(
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NewOperands, TargetType, /*OnlyIfReduced=*/false,
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NewOperands[0]->getType()->getPointerElementType());
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NewOperands, TargetType, /*OnlyIfReduced=*/false,
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NewOperands[0]->getType()->getPointerElementType());
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}
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return CE->getWithOperands(NewOperands, TargetType);
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@ -394,7 +394,7 @@ static Value *cloneConstantExprWithNewAddressSpace(
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// expression whose address space needs to be modified, in postorder.
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//
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// See cloneInstructionWithNewAddressSpace for the meaning of UndefUsesToFix.
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Value *NVPTXInferAddressSpaces::cloneValueWithNewAddressSpace(
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Value *InferAddressSpaces::cloneValueWithNewAddressSpace(
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Value *V, unsigned NewAddrSpace,
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const ValueToValueMapTy &ValueWithNewAddrSpace,
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SmallVectorImpl<const Use *> *UndefUsesToFix) const {
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@ -404,7 +404,7 @@ Value *NVPTXInferAddressSpaces::cloneValueWithNewAddressSpace(
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if (Instruction *I = dyn_cast<Instruction>(V)) {
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Value *NewV = cloneInstructionWithNewAddressSpace(
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I, NewAddrSpace, ValueWithNewAddrSpace, UndefUsesToFix);
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I, NewAddrSpace, ValueWithNewAddrSpace, UndefUsesToFix);
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if (Instruction *NewI = dyn_cast<Instruction>(NewV)) {
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if (NewI->getParent() == nullptr) {
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NewI->insertBefore(I);
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@ -415,13 +415,13 @@ Value *NVPTXInferAddressSpaces::cloneValueWithNewAddressSpace(
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}
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return cloneConstantExprWithNewAddressSpace(
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cast<ConstantExpr>(V), NewAddrSpace, ValueWithNewAddrSpace);
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cast<ConstantExpr>(V), NewAddrSpace, ValueWithNewAddrSpace);
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}
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// Defines the join operation on the address space lattice (see the file header
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// comments).
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unsigned NVPTXInferAddressSpaces::joinAddressSpaces(unsigned AS1,
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unsigned AS2) const {
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unsigned InferAddressSpaces::joinAddressSpaces(unsigned AS1,
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unsigned AS2) const {
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if (AS1 == FlatAddrSpace || AS2 == FlatAddrSpace)
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return FlatAddrSpace;
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@ -434,7 +434,7 @@ unsigned NVPTXInferAddressSpaces::joinAddressSpaces(unsigned AS1,
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return (AS1 == AS2) ? AS1 : FlatAddrSpace;
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}
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bool NVPTXInferAddressSpaces::runOnFunction(Function &F) {
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bool InferAddressSpaces::runOnFunction(Function &F) {
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if (skipFunction(F))
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return false;
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@ -456,9 +456,9 @@ bool NVPTXInferAddressSpaces::runOnFunction(Function &F) {
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return rewriteWithNewAddressSpaces(Postorder, InferredAddrSpace, &F);
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}
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void NVPTXInferAddressSpaces::inferAddressSpaces(
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const std::vector<Value *> &Postorder,
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ValueToAddrSpaceMapTy *InferredAddrSpace) const {
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void InferAddressSpaces::inferAddressSpaces(
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const std::vector<Value *> &Postorder,
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ValueToAddrSpaceMapTy *InferredAddrSpace) const {
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SetVector<Value *> Worklist(Postorder.begin(), Postorder.end());
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// Initially, all expressions are in the uninitialized address space.
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for (Value *V : Postorder)
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@ -490,8 +490,8 @@ void NVPTXInferAddressSpaces::inferAddressSpaces(
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continue;
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// Function updateAddressSpace moves the address space down a lattice
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// path. Therefore, nothing to do if User is already inferred as flat
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// (the bottom element in the lattice).
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// path. Therefore, nothing to do if User is already inferred as flat (the
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// bottom element in the lattice).
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if (Pos->second == FlatAddrSpace)
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continue;
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@ -500,8 +500,8 @@ void NVPTXInferAddressSpaces::inferAddressSpaces(
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}
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}
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Optional<unsigned> NVPTXInferAddressSpaces::updateAddressSpace(
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const Value &V, const ValueToAddrSpaceMapTy &InferredAddrSpace) const {
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Optional<unsigned> InferAddressSpaces::updateAddressSpace(
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const Value &V, const ValueToAddrSpaceMapTy &InferredAddrSpace) const {
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assert(InferredAddrSpace.count(&V));
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// The new inferred address space equals the join of the address spaces
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@ -514,7 +514,8 @@ Optional<unsigned> NVPTXInferAddressSpaces::updateAddressSpace(
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else
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OperandAS = PtrOperand->getType()->getPointerAddressSpace();
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NewAS = joinAddressSpaces(NewAS, OperandAS);
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// join(flat, *) = flat. So we can break if NewAS is already generic.
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// join(flat, *) = flat. So we can break if NewAS is already flat.
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if (NewAS == FlatAddrSpace)
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break;
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}
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@ -526,9 +527,9 @@ Optional<unsigned> NVPTXInferAddressSpaces::updateAddressSpace(
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return NewAS;
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}
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bool NVPTXInferAddressSpaces::rewriteWithNewAddressSpaces(
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const std::vector<Value *> &Postorder,
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const ValueToAddrSpaceMapTy &InferredAddrSpace, Function *F) const {
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bool InferAddressSpaces::rewriteWithNewAddressSpaces(
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const std::vector<Value *> &Postorder,
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const ValueToAddrSpaceMapTy &InferredAddrSpace, Function *F) const {
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// For each address expression to be modified, creates a clone of it with its
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// pointer operands converted to the new address space. Since the pointer
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// operands are converted, the clone is naturally in the new address space by
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@ -539,7 +540,7 @@ bool NVPTXInferAddressSpaces::rewriteWithNewAddressSpaces(
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unsigned NewAddrSpace = InferredAddrSpace.lookup(V);
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if (V->getType()->getPointerAddressSpace() != NewAddrSpace) {
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ValueWithNewAddrSpace[V] = cloneValueWithNewAddressSpace(
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V, NewAddrSpace, ValueWithNewAddrSpace, &UndefUsesToFix);
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V, NewAddrSpace, ValueWithNewAddrSpace, &UndefUsesToFix);
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}
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}
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@ -577,15 +578,15 @@ bool NVPTXInferAddressSpaces::rewriteWithNewAddressSpaces(
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// so the resultant load/store is still valid.
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U->set(NewV);
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} else if (isa<Instruction>(U->getUser())) {
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// Otherwise, replaces the use with generic(NewV).
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// Otherwise, replaces the use with flat(NewV).
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// TODO: Some optimization opportunities are missed. For example, in
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// %0 = icmp eq float* %p, %q
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// if both p and q are inferred to be shared, we can rewrite %0 as
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// %0 = icmp eq float addrspace(3)* %new_p, %new_q
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// instead of currently
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// %generic_p = addrspacecast float addrspace(3)* %new_p to float*
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// %generic_q = addrspacecast float addrspace(3)* %new_q to float*
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// %0 = icmp eq float* %generic_p, %generic_q
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// %flat_p = addrspacecast float addrspace(3)* %new_p to float*
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// %flat_q = addrspacecast float addrspace(3)* %new_q to float*
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// %0 = icmp eq float* %flat_p, %flat_q
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if (Instruction *I = dyn_cast<Instruction>(V)) {
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BasicBlock::iterator InsertPos = std::next(I->getIterator());
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while (isa<PHINode>(InsertPos))
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@ -604,6 +605,6 @@ bool NVPTXInferAddressSpaces::rewriteWithNewAddressSpaces(
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return true;
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}
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FunctionPass *llvm::createNVPTXInferAddressSpacesPass() {
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return new NVPTXInferAddressSpaces();
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FunctionPass *llvm::createInferAddressSpacesPass() {
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return new InferAddressSpaces();
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}
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Matt Arsenault