2016-12-13 03:34:26 +08:00
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//===----- ValueList.cpp - Internal BitcodeReader implementation ----------===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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#include "ValueList.h"
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#include "llvm/IR/Constants.h"
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#include "llvm/IR/Instructions.h"
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using namespace llvm;
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namespace llvm {
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namespace {
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/// \brief A class for maintaining the slot number definition
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/// as a placeholder for the actual definition for forward constants defs.
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class ConstantPlaceHolder : public ConstantExpr {
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void operator=(const ConstantPlaceHolder &) = delete;
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public:
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// allocate space for exactly one operand
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void *operator new(size_t s) { return User::operator new(s, 1); }
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explicit ConstantPlaceHolder(Type *Ty, LLVMContext &Context)
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: ConstantExpr(Ty, Instruction::UserOp1, &Op<0>(), 1) {
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Op<0>() = UndefValue::get(Type::getInt32Ty(Context));
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}
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/// \brief Methods to support type inquiry through isa, cast, and dyn_cast.
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static bool classof(const Value *V) {
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return isa<ConstantExpr>(V) &&
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cast<ConstantExpr>(V)->getOpcode() == Instruction::UserOp1;
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}
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/// Provide fast operand accessors
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DECLARE_TRANSPARENT_OPERAND_ACCESSORS(Value);
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};
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} // end anonymous namespace
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// FIXME: can we inherit this from ConstantExpr?
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template <>
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struct OperandTraits<ConstantPlaceHolder>
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: public FixedNumOperandTraits<ConstantPlaceHolder, 1> {};
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DEFINE_TRANSPARENT_OPERAND_ACCESSORS(ConstantPlaceHolder, Value)
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} // end namespace llvm
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void BitcodeReaderValueList::assignValue(Value *V, unsigned Idx) {
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if (Idx == size()) {
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push_back(V);
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return;
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}
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if (Idx >= size())
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resize(Idx + 1);
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2017-04-27 00:37:05 +08:00
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WeakVH &OldV = ValuePtrs[Idx];
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2016-12-13 03:34:26 +08:00
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if (!OldV) {
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OldV = V;
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return;
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}
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// Handle constants and non-constants (e.g. instrs) differently for
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// efficiency.
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if (Constant *PHC = dyn_cast<Constant>(&*OldV)) {
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ResolveConstants.push_back(std::make_pair(PHC, Idx));
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OldV = V;
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} else {
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// If there was a forward reference to this value, replace it.
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Value *PrevVal = OldV;
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OldV->replaceAllUsesWith(V);
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delete PrevVal;
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}
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}
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Constant *BitcodeReaderValueList::getConstantFwdRef(unsigned Idx, Type *Ty) {
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if (Idx >= size())
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resize(Idx + 1);
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if (Value *V = ValuePtrs[Idx]) {
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if (Ty != V->getType())
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report_fatal_error("Type mismatch in constant table!");
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return cast<Constant>(V);
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}
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// Create and return a placeholder, which will later be RAUW'd.
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Constant *C = new ConstantPlaceHolder(Ty, Context);
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ValuePtrs[Idx] = C;
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return C;
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}
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Value *BitcodeReaderValueList::getValueFwdRef(unsigned Idx, Type *Ty) {
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// Bail out for a clearly invalid value. This would make us call resize(0)
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if (Idx == std::numeric_limits<unsigned>::max())
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return nullptr;
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if (Idx >= size())
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resize(Idx + 1);
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if (Value *V = ValuePtrs[Idx]) {
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// If the types don't match, it's invalid.
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if (Ty && Ty != V->getType())
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return nullptr;
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return V;
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}
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// No type specified, must be invalid reference.
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if (!Ty)
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return nullptr;
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// Create and return a placeholder, which will later be RAUW'd.
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Value *V = new Argument(Ty);
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ValuePtrs[Idx] = V;
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return V;
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}
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/// Once all constants are read, this method bulk resolves any forward
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/// references. The idea behind this is that we sometimes get constants (such
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/// as large arrays) which reference *many* forward ref constants. Replacing
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/// each of these causes a lot of thrashing when building/reuniquing the
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/// constant. Instead of doing this, we look at all the uses and rewrite all
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/// the place holders at once for any constant that uses a placeholder.
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void BitcodeReaderValueList::resolveConstantForwardRefs() {
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// Sort the values by-pointer so that they are efficient to look up with a
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// binary search.
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std::sort(ResolveConstants.begin(), ResolveConstants.end());
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SmallVector<Constant *, 64> NewOps;
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while (!ResolveConstants.empty()) {
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Value *RealVal = operator[](ResolveConstants.back().second);
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Constant *Placeholder = ResolveConstants.back().first;
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ResolveConstants.pop_back();
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// Loop over all users of the placeholder, updating them to reference the
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// new value. If they reference more than one placeholder, update them all
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// at once.
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while (!Placeholder->use_empty()) {
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auto UI = Placeholder->user_begin();
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User *U = *UI;
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// If the using object isn't uniqued, just update the operands. This
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// handles instructions and initializers for global variables.
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if (!isa<Constant>(U) || isa<GlobalValue>(U)) {
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UI.getUse().set(RealVal);
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continue;
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}
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// Otherwise, we have a constant that uses the placeholder. Replace that
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// constant with a new constant that has *all* placeholder uses updated.
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Constant *UserC = cast<Constant>(U);
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for (User::op_iterator I = UserC->op_begin(), E = UserC->op_end(); I != E;
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++I) {
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Value *NewOp;
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if (!isa<ConstantPlaceHolder>(*I)) {
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// Not a placeholder reference.
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NewOp = *I;
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} else if (*I == Placeholder) {
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// Common case is that it just references this one placeholder.
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NewOp = RealVal;
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} else {
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// Otherwise, look up the placeholder in ResolveConstants.
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ResolveConstantsTy::iterator It = std::lower_bound(
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ResolveConstants.begin(), ResolveConstants.end(),
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std::pair<Constant *, unsigned>(cast<Constant>(*I), 0));
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assert(It != ResolveConstants.end() && It->first == *I);
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NewOp = operator[](It->second);
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}
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NewOps.push_back(cast<Constant>(NewOp));
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}
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// Make the new constant.
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Constant *NewC;
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if (ConstantArray *UserCA = dyn_cast<ConstantArray>(UserC)) {
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NewC = ConstantArray::get(UserCA->getType(), NewOps);
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} else if (ConstantStruct *UserCS = dyn_cast<ConstantStruct>(UserC)) {
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NewC = ConstantStruct::get(UserCS->getType(), NewOps);
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} else if (isa<ConstantVector>(UserC)) {
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NewC = ConstantVector::get(NewOps);
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} else {
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assert(isa<ConstantExpr>(UserC) && "Must be a ConstantExpr.");
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NewC = cast<ConstantExpr>(UserC)->getWithOperands(NewOps);
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}
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UserC->replaceAllUsesWith(NewC);
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UserC->destroyConstant();
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NewOps.clear();
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}
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// Update all ValueHandles, they should be the only users at this point.
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Placeholder->replaceAllUsesWith(RealVal);
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delete Placeholder;
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}
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}
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