typedef _BB_i_t BBIty;
typedef _BI_t BIty;
typedef _II_t IIty;
- _BB_t &BBs; // BasicBlocksType
+ _BB_t *BBs; // BasicBlocksType
_BB_i_t BB; // BasicBlocksType::iterator
_BI_t BI; // BasicBlock::iterator
public:
typedef std::bidirectional_iterator_tag iterator_category;
typedef IIty value_type;
- typedef unsigned difference_type;
- typedef BIty pointer;
- typedef IIty reference;
+ typedef signed difference_type;
+ typedef IIty* pointer;
+ typedef IIty& reference;
+
+ // Default constructor
+ InstIterator() {}
// Copy constructor...
template<typename A, typename B, typename C, typename D>
: BBs(II.BBs), BB(II.BB), BI(II.BI) {}
template<class M> InstIterator(M &m)
- : BBs(m.getBasicBlockList()), BB(BBs.begin()) { // begin ctor
- if (BB != BBs.end()) {
+ : BBs(&m.getBasicBlockList()), BB(BBs->begin()) { // begin ctor
+ if (BB != BBs->end()) {
BI = BB->begin();
advanceToNextBB();
}
}
template<class M> InstIterator(M &m, bool)
- : BBs(m.getBasicBlockList()), BB(BBs.end()) { // end ctor
+ : BBs(&m.getBasicBlockList()), BB(BBs->end()) { // end ctor
}
// Accessors to get at the underlying iterators...
inline BBIty &getBasicBlockIterator() { return BB; }
inline BIty &getInstructionIterator() { return BI; }
- inline IIty operator*() const { return BI; }
- inline IIty operator->() const { return operator*(); }
+ inline reference operator*() const { return *BI; }
+ inline pointer operator->() const { return &operator*(); }
inline bool operator==(const InstIterator &y) const {
- return BB == y.BB && (BB == BBs.end() || BI == y.BI);
+ return BB == y.BB && (BB == BBs->end() || BI == y.BI);
}
inline bool operator!=(const InstIterator& y) const {
return !operator==(y);
}
InstIterator& operator--() {
- while (BB == BBs.end() || BI == BB->begin()) {
+ while (BB == BBs->end() || BI == BB->begin()) {
--BB;
BI = BB->end();
}
InstIterator tmp = *this; --*this; return tmp;
}
- inline bool atEnd() const { return BB == BBs.end(); }
+ inline bool atEnd() const { return BB == BBs->end(); }
private:
inline void advanceToNextBB() {
// the end() of the current BasicBlock and there are successor BBs.
while (BI == BB->end()) {
++BB;
- if (BB == BBs.end()) break;
+ if (BB == BBs->end()) break;
BI = BB->begin();
}
}
typedef InstIterator<iplist<BasicBlock>,
Function::iterator, BasicBlock::iterator,
- Instruction*> inst_iterator;
+ Instruction> inst_iterator;
typedef InstIterator<const iplist<BasicBlock>,
Function::const_iterator,
BasicBlock::const_iterator,
- const Instruction*> const_inst_iterator;
+ const Instruction> const_inst_iterator;
inline inst_iterator inst_begin(Function *F) { return inst_iterator(*F); }
inline inst_iterator inst_end(Function *F) { return inst_iterator(*F, true); }
Pointers.insert(I);
for (inst_iterator I = inst_begin(F), E = inst_end(F); I != E; ++I) {
- if (isa<PointerType>((*I)->getType())) // Add all pointer instructions
- Pointers.insert(*I);
- for (User::op_iterator OI = (*I)->op_begin(); OI != (*I)->op_end(); ++OI)
+ if (isa<PointerType>(I->getType())) // Add all pointer instructions
+ Pointers.insert(&*I);
+ for (User::op_iterator OI = (*I).op_begin(); OI != (*I).op_end(); ++OI)
if (isa<PointerType>((*OI)->getType()))
Pointers.insert(*OI);
}
for (inst_iterator I = inst_begin(F), E = inst_end(F); I != E; ++I) {
- CallSite CS = CallSite::get(*I);
+ CallSite CS = CallSite::get(&*I);
if (CS.getInstruction()) CallSites.insert(CS);
}
Tracker = new AliasSetTracker(getAnalysis<AliasAnalysis>());
for (inst_iterator I = inst_begin(F), E = inst_end(F); I != E; ++I)
- Tracker->add(*I);
+ Tracker->add(&*I);
return false;
}
PrintFailures("printunsafeptrinst", cl::Hidden,
cl::desc("Print Unsafe Pointer Access Instructions"));
-static inline bool isSafeInstruction(const Instruction *I) {
- switch (I->getOpcode()) {
+static inline bool isSafeInstruction(const Instruction &I) {
+ switch (I.getOpcode()) {
case Instruction::Alloca:
case Instruction::Malloc:
case Instruction::Free:
if (PrintFailures) {
CachedWriter CW(F->getParent(), std::cerr);
CW << "FindUnsafePointerTypes: Type '" << ITy
- << "' marked unsafe in '" << F->getName() << "' by:\n" << **I;
+ << "' marked unsafe in '" << F->getName() << "' by:\n" << *I;
}
}
}
//
for (const_inst_iterator II = inst_begin(F), IE = inst_end(F);
II != IE; ++II) {
- const Instruction *I = *II;
- const Type *Ty = I->getType();
+ const Instruction &I = *II;
+ const Type *Ty = I.getType();
IncorporateType(Ty); // Incorporate the type of the instruction
- for (User::const_op_iterator OI = I->op_begin(), OE = I->op_end();
+ for (User::const_op_iterator OI = I.op_begin(), OE = I.op_end();
OI != OE; ++OI)
IncorporateValue(*OI); // Insert inst operand types as well
}
OS << "Classifying expressions for: " << F.getName() << "\n";
for (inst_iterator I = inst_begin(F), E = inst_end(F); I != E; ++I)
- if ((*I)->getType()->isInteger()) {
- OS << **I;
+ if (I->getType()->isInteger()) {
+ OS << *I;
OS << " --> ";
- SCEVHandle SV = getSCEV(*I);
+ SCEVHandle SV = getSCEV(&*I);
SV->print(OS);
OS << "\t\t";
- if ((*I)->getType()->isIntegral()) {
+ if ((*I).getType()->isIntegral()) {
ConstantRange Bounds = SV->getValueRange();
if (!Bounds.isFullSet())
OS << "Bounds: " << Bounds << " ";
}
- if (const Loop *L = LI.getLoopFor((*I)->getParent())) {
+ if (const Loop *L = LI.getLoopFor((*I).getParent())) {
OS << "Exits: ";
- SCEVHandle ExitValue = getSCEVAtScope(*I, L->getParentLoop());
+ SCEVHandle ExitValue = getSCEVAtScope(&*I, L->getParentLoop());
if (isa<SCEVCouldNotCompute>(ExitValue)) {
OS << "<<Unknown>>";
} else {
if (isa<Constant>(I->getOperand(op)))
getOrCreateSlot(I->getOperand(op));
getOrCreateSlot(I->getType());
- if (const VANextInst *VAN = dyn_cast<VANextInst>(*I))
+ if (const VANextInst *VAN = dyn_cast<VANextInst>(&*I))
getOrCreateSlot(VAN->getArgType());
}
processSymbolTableConstants(&F->getSymbolTable());
if (isa<Constant>(I->getOperand(op)) ||
isa<GlobalValue>(I->getOperand(op)))
getOrCreateCompactionTableSlot(I->getOperand(op));
- if (const VANextInst *VAN = dyn_cast<VANextInst>(*I))
+ if (const VANextInst *VAN = dyn_cast<VANextInst>(&*I))
getOrCreateCompactionTableSlot(VAN->getArgType());
}
// print local variable information for the function
for (inst_iterator I = inst_begin(&F), E = inst_end(&F); I != E; ++I)
- if (const AllocaInst *AI = isDirectAlloca(*I)) {
+ if (const AllocaInst *AI = isDirectAlloca(&*I)) {
Out << " ";
printType(Out, AI->getAllocatedType(), Mang->getValueName(AI));
Out << "; /* Address exposed local */\n";
- } else if ((*I)->getType() != Type::VoidTy && !isInlinableInst(**I)) {
+ } else if (I->getType() != Type::VoidTy && !isInlinableInst(*I)) {
Out << " ";
- printType(Out, (*I)->getType(), Mang->getValueName(*I));
+ printType(Out, I->getType(), Mang->getValueName(&*I));
Out << ";\n";
if (isa<PHINode>(*I)) { // Print out PHI node temporaries as well...
Out << " ";
- printType(Out, (*I)->getType(),
- Mang->getValueName(*I)+"__PHI_TEMPORARY");
+ printType(Out, I->getType(),
+ Mang->getValueName(&*I)+"__PHI_TEMPORARY");
Out << ";\n";
}
}
// print local variable information for the function
for (inst_iterator I = inst_begin(&F), E = inst_end(&F); I != E; ++I)
- if (const AllocaInst *AI = isDirectAlloca(*I)) {
+ if (const AllocaInst *AI = isDirectAlloca(&*I)) {
Out << " ";
printType(Out, AI->getAllocatedType(), Mang->getValueName(AI));
Out << "; /* Address exposed local */\n";
- } else if ((*I)->getType() != Type::VoidTy && !isInlinableInst(**I)) {
+ } else if (I->getType() != Type::VoidTy && !isInlinableInst(*I)) {
Out << " ";
- printType(Out, (*I)->getType(), Mang->getValueName(*I));
+ printType(Out, I->getType(), Mang->getValueName(&*I));
Out << ";\n";
if (isa<PHINode>(*I)) { // Print out PHI node temporaries as well...
Out << " ";
- printType(Out, (*I)->getType(),
- Mang->getValueName(*I)+"__PHI_TEMPORARY");
+ printType(Out, I->getType(),
+ Mang->getValueName(&*I)+"__PHI_TEMPORARY");
Out << ";\n";
}
}
unsigned Insn = 0;
// Instructions themselves encoded as operand # -1
for (const_inst_iterator II=inst_begin (Fn), IE=inst_end (Fn); II!=IE; ++II){
- saveStateForValue (state, (*II), Insn, -1);
- for (unsigned i = 0; i < (*II)->getNumOperands (); ++i) {
- const Value *V = (*II)->getOperand (i);
+ saveStateForValue (state, (&*II), Insn, -1);
+ for (unsigned i = 0; i < (*II).getNumOperands (); ++i) {
+ const Value *V = (*II).getOperand (i);
// Don't worry about it unless it's something whose reg. we'll need.
if (!isa<Argument> (V) && !isa<Instruction> (V))
continue;
}
int Insn = 0;
for (const_inst_iterator II=inst_begin (Fn), IE=inst_end (Fn); II!=IE; ++II) {
- const Instruction *I = *II;
+ const Instruction *I = &*II;
MachineCodeForInstruction &Instrs = MachineCodeForInstruction::get (I);
std::cerr << "Instruction: " << *I
<< "MachineCodeForInstruction:\n";
bool ConstantPropagation::runOnFunction(Function &F) {
// Initialize the worklist to all of the instructions ready to process...
- std::set<Instruction*> WorkList(inst_begin(F), inst_end(F));
+ std::set<Instruction*> WorkList;
+ for(inst_iterator i = inst_begin(F), e = inst_end(F); i != e; ++i) {
+ WorkList.insert(&*i);
+ }
bool Changed = false;
while (!WorkList.empty()) {
bool DCE::runOnFunction(Function &F) {
// Start out with all of the instructions in the worklist...
- std::vector<Instruction*> WorkList(inst_begin(F), inst_end(F));
+ std::vector<Instruction*> WorkList;
+ for (inst_iterator i = inst_begin(F), e = inst_end(F); i != e; ++i) {
+ WorkList.push_back(&*i);
+ }
std::set<Instruction*> DeadInsts;
// Loop over the worklist finding instructions that are dead. If they are
bool Changed = false;
TD = &getAnalysis<TargetData>();
- WorkList.insert(WorkList.end(), inst_begin(F), inst_end(F));
+ for (inst_iterator i = inst_begin(F), e = inst_end(F); i != e; ++i) {
+ WorkList.push_back(&*i);
+ }
+
while (!WorkList.empty()) {
Instruction *I = WorkList.back(); // Get an instruction from the worklist
if (isa<Constant>(I->getOperand(op)))
getOrCreateSlot(I->getOperand(op));
getOrCreateSlot(I->getType());
- if (const VANextInst *VAN = dyn_cast<VANextInst>(*I))
+ if (const VANextInst *VAN = dyn_cast<VANextInst>(&*I))
getOrCreateSlot(VAN->getArgType());
}
processSymbolTableConstants(&F->getSymbolTable());
if (isa<Constant>(I->getOperand(op)) ||
isa<GlobalValue>(I->getOperand(op)))
getOrCreateCompactionTableSlot(I->getOperand(op));
- if (const VANextInst *VAN = dyn_cast<VANextInst>(*I))
+ if (const VANextInst *VAN = dyn_cast<VANextInst>(&*I))
getOrCreateCompactionTableSlot(VAN->getArgType());
}
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