void dump_unique(ValueTable& VN, std::set<Value*, ExprLT>& s);
void clean(ValueTable VN, std::set<Value*, ExprLT>& set);
bool add(ValueTable& VN, std::set<Value*, ExprLT>& MS, Value* V);
- Value* find_leader(ValueTable VN, std::set<Value*, ExprLT>& vals, Value* v);
+ Value* find_leader(std::set<Value*, ExprLT>& vals, Value* v);
Value* phi_translate(ValueTable& VN, std::set<Value*, ExprLT>& MS,
std::set<Value*, ExprLT>& set,
Value* V, BasicBlock* pred);
return ret.second;
}
-Value* GVNPRE::find_leader(GVNPRE::ValueTable VN,
- std::set<Value*, ExprLT>& vals,
+Value* GVNPRE::find_leader(std::set<Value*, ExprLT>& vals,
Value* v) {
ExprLT cmp;
for (std::set<Value*, ExprLT>::iterator I = vals.begin(), E = vals.end();
if (BinaryOperator* BO = dyn_cast<BinaryOperator>(V)) {
Value* newOp1 = isa<Instruction>(BO->getOperand(0))
? phi_translate(VN, MS, set,
- find_leader(VN, set, BO->getOperand(0)),
+ find_leader(set, BO->getOperand(0)),
pred)
: BO->getOperand(0);
if (newOp1 == 0)
Value* newOp2 = isa<Instruction>(BO->getOperand(1))
? phi_translate(VN, MS, set,
- find_leader(VN, set, BO->getOperand(1)),
+ find_leader(set, BO->getOperand(1)),
pred)
: BO->getOperand(1);
if (newOp2 == 0)
newOp1, newOp2,
BO->getName()+".gvnpre");
- if (!find_leader(VN, set, newVal)) {
+ if (!find_leader(set, newVal)) {
add(VN, MS, newVal);
return newVal;
} else {
Value* e = Q.back();
if (BinaryOperator* BO = dyn_cast<BinaryOperator>(e)) {
- Value* l = find_leader(VN, set, BO->getOperand(0));
- Value* r = find_leader(VN, set, BO->getOperand(1));
+ Value* l = find_leader(set, BO->getOperand(0));
+ Value* r = find_leader(set, BO->getOperand(1));
if (l != 0 && isa<Instruction>(l) &&
visited.find(l) == visited.end())
currExps.insert(rightValue);
currExps.insert(BO);
- //currTemps.insert(BO);
-
// Handle unsupported ops
} else if (!BI->isTerminator()){
add(VN, MS, BI);
DominatorTree &DT = getAnalysis<DominatorTree>();
- // First Phase of BuildSets - calculate AVAIL_OUT
+ // Phase 1: BuildSets
+
+ // Phase 1, Part 1: calculate AVAIL_OUT
// Top-down walk of the dominator tree
for (df_iterator<DomTreeNode*> DI = df_begin(DT.getRootNode()),
PostDominatorTree &PDT = getAnalysis<PostDominatorTree>();
- // Second Phase of BuildSets - calculate ANTIC_IN
+ // Phase 1, Part 2: calculate ANTIC_IN
std::set<BasicBlock*> visited;
DOUT << "\n";
}
+
+ // Phase 2: Insert
+ // FIXME: Not implemented yet
+
+ // Phase 3: Eliminate
+ for (df_iterator<DomTreeNode*> DI = df_begin(DT.getRootNode()),
+ E = df_end(DT.getRootNode()); DI != E; ++DI) {
+ BasicBlock* BB = DI->getBlock();
+
+ std::vector<Instruction*> erase;
+
+ for (BasicBlock::iterator BI = BB->begin(), BE = BB->end();
+ BI != BE; ++BI) {
+ Value* leader = find_leader(availableOut[BB], BI);
+ if (leader != 0)
+ if (Instruction* Instr = dyn_cast<Instruction>(leader))
+ if (Instr->getParent() != 0 && Instr != BI) {
+ BI->replaceAllUsesWith(leader);
+ erase.push_back(BI);
+ }
+ }
+
+ for (std::vector<Instruction*>::iterator I = erase.begin(), E = erase.end();
+ I != E; ++I)
+ (*I)->eraseFromParent();
+ }
+
return false;
}