double Count = MissingValue;
- pred_const_iterator PI = pred_begin(BB), PE = pred_end(BB);
+ const_pred_iterator PI = pred_begin(BB), PE = pred_end(BB);
// Are there zero predecessors of this block?
if (PI == PE) {
// have no value
double incount = 0;
SmallSet<const BasicBlock*,8> pred_visited;
- pred_const_iterator bbi = pred_begin(BB), bbe = pred_end(BB);
+ const_pred_iterator bbi = pred_begin(BB), bbe = pred_end(BB);
if (bbi==bbe) {
Edge e = getEdge(0,BB);
incount += readEdgeOrRemember(e, getEdgeWeight(e) ,edgetocalc,uncalculated);
double inWeight = 0;
std::set<Edge> inMissing;
std::set<const BasicBlock*> ProcessedPreds;
- pred_const_iterator bbi = pred_begin(BB), bbe = pred_end(BB);
+ const_pred_iterator bbi = pred_begin(BB), bbe = pred_end(BB);
if (bbi == bbe) {
readEdge(this,getEdge(0,BB),inWeight,inMissing);
}
// FI != FE; ++FI) {
// const BasicBlock* BB = &(*FI);
// {
-// pred_const_iterator NBB = pred_begin(BB), End = pred_end(BB);
+// const_pred_iterator NBB = pred_begin(BB), End = pred_end(BB);
// if (NBB == End) {
// setEdgeWeight(getEdge(0,BB),0);
// }
// Calculate incoming flow.
double iw = 0; unsigned inmissing = 0; unsigned incount = 0; unsigned invalid = 0;
std::set<const BasicBlock *> Processed;
- for (pred_const_iterator NBB = pred_begin(BB), End = pred_end(BB);
+ for (const_pred_iterator NBB = pred_begin(BB), End = pred_end(BB);
NBB != End; ++NBB) {
if (Processed.insert(*NBB).second) {
Edge e = getEdge(*NBB, BB);
if (getEdgeWeight(e) == MissingValue) {
double iw = 0;
std::set<const BasicBlock *> Processed;
- for (pred_const_iterator NBB = pred_begin(BB), End = pred_end(BB);
+ for (const_pred_iterator NBB = pred_begin(BB), End = pred_end(BB);
NBB != End; ++NBB) {
if (Processed.insert(*NBB).second) {
Edge e = getEdge(*NBB, BB);
const BasicBlock *Dest;
Path P;
bool BackEdgeFound = false;
- for (pred_const_iterator NBB = pred_begin(BB), End = pred_end(BB);
+ for (const_pred_iterator NBB = pred_begin(BB), End = pred_end(BB);
NBB != End; ++NBB) {
Dest = GetPath(BB, *NBB, P, GetPathToDest | GetPathWithNewEdges);
if (Dest == *NBB) {
// Calculate incoming flow.
double iw = 0;
std::set<const BasicBlock *> Processed;
- for (pred_const_iterator NBB = pred_begin(BB), End = pred_end(BB);
+ for (const_pred_iterator NBB = pred_begin(BB), End = pred_end(BB);
NBB != End; ++NBB) {
if (Processed.insert(*NBB).second) {
Edge e = getEdge(*NBB, BB);
while(FI != FE && !FoundPath) {
const BasicBlock *BB = *FI; ++FI;
- for (pred_const_iterator NBB = pred_begin(BB), End = pred_end(BB);
+ for (const_pred_iterator NBB = pred_begin(BB), End = pred_end(BB);
NBB != End; ++NBB) {
Edge e = getEdge(*NBB,BB);
double w = getEdgeWeight(e);
}
if (FoundPath) continue;
- dbgs() << "{";
+ errs() << "{";
FI = Unvisited.begin(), FE = Unvisited.end();
while(FI != FE) {
const BasicBlock *BB = *FI; ++FI;
if (FI != FE)
dbgs() << ",";
}
- dbgs() << "}";
+ errs() << "}";
- dbgs() << "ASSERT: could not repair function";
+ errs() << "ASSERT: could not repair function";
assert(0 && "could not repair function");
}
struct NoProfileInfo : public ImmutablePass, public ProfileInfo {
static char ID; // Class identification, replacement for typeinfo
NoProfileInfo() : ImmutablePass(&ID) {}
+
+ /// getAdjustedAnalysisPointer - This method is used when a pass implements
+ /// an analysis interface through multiple inheritance. If needed, it
+ /// should override this to adjust the this pointer as needed for the
+ /// specified pass info.
+ virtual void *getAdjustedAnalysisPointer(const PassInfo *PI) {
+ if (PI->isPassID(&ProfileInfo::ID))
+ return (ProfileInfo*)this;
+ return this;
+ }
+
+ virtual const char *getPassName() const {
+ return "NoProfileInfo";
+ }
};
} // End of anonymous namespace