forked from OSchip/llvm-project
Add includes and use std:: for standard library calls to make code
compile on windows. This patch was contributed by Paolo Invernizzi. llvm-svn: 16539
This commit is contained in:
Alkis Evlogimenos
parent
a2bb624e35
commit
20f1b0bafb
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@ -39,14 +39,14 @@ class po_iterator : public forward_iterator<typename GT::NodeType, ptrdiff_t> {
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NodeType *BB = *VisitStack.top().second++;
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if (!Visited.count(BB)) { // If the block is not visited...
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Visited.insert(BB);
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VisitStack.push(make_pair(BB, GT::child_begin(BB)));
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VisitStack.push(std::make_pair(BB, GT::child_begin(BB)));
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}
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}
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}
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inline po_iterator(NodeType *BB) {
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Visited.insert(BB);
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VisitStack.push(make_pair(BB, GT::child_begin(BB)));
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VisitStack.push(std::make_pair(BB, GT::child_begin(BB)));
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traverseChild();
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}
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inline po_iterator() { /* End is when stack is empty */ }
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@ -14,6 +14,7 @@
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#include "llvm/CodeGen/SchedGraphCommon.h"
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#include "llvm/ADT/STLExtras.h"
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#include <algorithm>
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#include <iostream>
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namespace llvm {
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@ -18,6 +18,7 @@
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#include "llvm/Target/TargetInstrInfo.h"
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#include "llvm/Support/Debug.h"
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#include <cstdlib>
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#include <algorithm>
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using namespace llvm;
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MSchedGraphNode::MSchedGraphNode(const MachineInstr* inst,
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@ -67,7 +68,7 @@ bool MSchedGraphNode::isSuccessor(MSchedGraphNode *succ) {
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bool MSchedGraphNode::isPredecessor(MSchedGraphNode *pred) {
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if(find( Predecessors.begin(), Predecessors.end(), pred) != Predecessors.end())
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if(std::find( Predecessors.begin(), Predecessors.end(), pred) != Predecessors.end())
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return true;
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else
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return false;
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@ -25,6 +25,7 @@
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#include "llvm/Support/GraphWriter.h"
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#include "llvm/ADT/StringExtras.h"
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#include <cmath>
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#include <algorithm>
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#include <fstream>
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#include <sstream>
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#include <utility>
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@ -580,7 +581,7 @@ void ModuloSchedulingPass::addReccurrence(std::vector<MSchedGraphNode*> &recurre
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if(R->second.size() == recurrence.size()) {
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for(std::vector<MSchedGraphNode*>::const_iterator node = R->second.begin(), end = R->second.end(); node != end; ++node) {
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if(find(recurrence.begin(), recurrence.end(), *node) == recurrence.end()) {
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if(std::find(recurrence.begin(), recurrence.end(), *node) == recurrence.end()) {
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all_same = all_same && false;
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break;
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}
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@ -623,7 +624,7 @@ void ModuloSchedulingPass::findAllReccurrences(MSchedGraphNode *node,
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std::vector<MSchedGraphNode*> &visitedNodes,
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int II) {
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if(find(visitedNodes.begin(), visitedNodes.end(), node) != visitedNodes.end()) {
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if(std::find(visitedNodes.begin(), visitedNodes.end(), node) != visitedNodes.end()) {
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std::vector<MSchedGraphNode*> recurrence;
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bool first = true;
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int delay = 0;
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@ -714,7 +715,7 @@ void ModuloSchedulingPass::computePartialOrder() {
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for(std::vector<MSchedGraphNode*>::const_iterator N = I->second.begin(), NE = I->second.end(); N != NE; ++N) {
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bool found = false;
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for(std::vector<std::vector<MSchedGraphNode*> >::iterator PO = partialOrder.begin(), PE = partialOrder.end(); PO != PE; ++PO) {
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if(find(PO->begin(), PO->end(), *N) != PO->end())
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if(std::find(PO->begin(), PO->end(), *N) != PO->end())
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found = true;
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}
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if(!found) {
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@ -728,16 +729,16 @@ void ModuloSchedulingPass::computePartialOrder() {
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//Check if we are supposed to ignore this edge or not
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if(!ignoreEdge(*P, *N))
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//Check if already in this recurrence
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if(find(I->second.begin(), I->second.end(), *P) == I->second.end()) {
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if(std::find(I->second.begin(), I->second.end(), *P) == I->second.end()) {
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//Also need to check if in partial order
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bool predFound = false;
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for(std::vector<std::vector<MSchedGraphNode*> >::iterator PO = partialOrder.begin(), PEND = partialOrder.end(); PO != PEND; ++PO) {
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if(find(PO->begin(), PO->end(), *P) != PO->end())
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if(std::find(PO->begin(), PO->end(), *P) != PO->end())
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predFound = true;
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}
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if(!predFound)
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if(find(new_recurrence.begin(), new_recurrence.end(), *P) == new_recurrence.end())
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if(std::find(new_recurrence.begin(), new_recurrence.end(), *P) == new_recurrence.end())
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new_recurrence.push_back(*P);
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}
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@ -756,7 +757,7 @@ void ModuloSchedulingPass::computePartialOrder() {
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bool found = false;
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//Check if its already in our partial order, if not add it to the final vector
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for(std::vector<std::vector<MSchedGraphNode*> >::iterator PO = partialOrder.begin(), PE = partialOrder.end(); PO != PE; ++PO) {
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if(find(PO->begin(), PO->end(), I->first) != PO->end())
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if(std::find(PO->begin(), PO->end(), I->first) != PO->end())
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found = true;
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}
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if(!found)
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@ -772,7 +773,7 @@ void ModuloSchedulingPass::computePartialOrder() {
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void ModuloSchedulingPass::predIntersect(std::vector<MSchedGraphNode*> &CurrentSet, std::vector<MSchedGraphNode*> &IntersectResult) {
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//Sort CurrentSet so we can use lowerbound
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sort(CurrentSet.begin(), CurrentSet.end());
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std::sort(CurrentSet.begin(), CurrentSet.end());
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for(unsigned j=0; j < FinalNodeOrder.size(); ++j) {
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for(MSchedGraphNode::pred_iterator P = FinalNodeOrder[j]->pred_begin(),
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@ -782,9 +783,9 @@ void ModuloSchedulingPass::predIntersect(std::vector<MSchedGraphNode*> &CurrentS
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if(ignoreEdge(*P,FinalNodeOrder[j]))
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continue;
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if(find(CurrentSet.begin(),
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if(std::find(CurrentSet.begin(),
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CurrentSet.end(), *P) != CurrentSet.end())
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if(find(FinalNodeOrder.begin(), FinalNodeOrder.end(), *P) == FinalNodeOrder.end())
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if(std::find(FinalNodeOrder.begin(), FinalNodeOrder.end(), *P) == FinalNodeOrder.end())
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IntersectResult.push_back(*P);
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}
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}
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@ -793,7 +794,7 @@ void ModuloSchedulingPass::predIntersect(std::vector<MSchedGraphNode*> &CurrentS
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void ModuloSchedulingPass::succIntersect(std::vector<MSchedGraphNode*> &CurrentSet, std::vector<MSchedGraphNode*> &IntersectResult) {
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//Sort CurrentSet so we can use lowerbound
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sort(CurrentSet.begin(), CurrentSet.end());
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std::sort(CurrentSet.begin(), CurrentSet.end());
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for(unsigned j=0; j < FinalNodeOrder.size(); ++j) {
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for(MSchedGraphNode::succ_iterator P = FinalNodeOrder[j]->succ_begin(),
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@ -803,9 +804,9 @@ void ModuloSchedulingPass::succIntersect(std::vector<MSchedGraphNode*> &CurrentS
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if(ignoreEdge(FinalNodeOrder[j],*P))
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continue;
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if(find(CurrentSet.begin(),
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if(std::find(CurrentSet.begin(),
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CurrentSet.end(), *P) != CurrentSet.end())
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if(find(FinalNodeOrder.begin(), FinalNodeOrder.end(), *P) == FinalNodeOrder.end())
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if(std::find(FinalNodeOrder.begin(), FinalNodeOrder.end(), *P) == FinalNodeOrder.end())
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IntersectResult.push_back(*P);
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}
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}
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@ -914,13 +915,13 @@ void ModuloSchedulingPass::orderNodes() {
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}
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//Append our node with greatest height to the NodeOrder
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if(find(FinalNodeOrder.begin(), FinalNodeOrder.end(), highestHeightNode) == FinalNodeOrder.end()) {
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if(std::find(FinalNodeOrder.begin(), FinalNodeOrder.end(), highestHeightNode) == FinalNodeOrder.end()) {
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DEBUG(std::cerr << "Adding node to Final Order: " << *highestHeightNode << "\n");
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FinalNodeOrder.push_back(highestHeightNode);
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}
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//Remove V from IntersectOrder
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IntersectCurrent.erase(find(IntersectCurrent.begin(),
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IntersectCurrent.erase(std::find(IntersectCurrent.begin(),
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IntersectCurrent.end(), highestHeightNode));
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@ -929,11 +930,11 @@ void ModuloSchedulingPass::orderNodes() {
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E = highestHeightNode->succ_end(); P != E; ++P) {
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//if(lower_bound(CurrentSet->begin(),
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// CurrentSet->end(), *P) != CurrentSet->end()) {
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if(find(CurrentSet->begin(), CurrentSet->end(), *P) != CurrentSet->end()) {
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if(std::find(CurrentSet->begin(), CurrentSet->end(), *P) != CurrentSet->end()) {
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if(ignoreEdge(highestHeightNode, *P))
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continue;
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//If not already in Intersect, add
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if(find(IntersectCurrent.begin(), IntersectCurrent.end(), *P) == IntersectCurrent.end())
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if(std::find(IntersectCurrent.begin(), IntersectCurrent.end(), *P) == IntersectCurrent.end())
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IntersectCurrent.push_back(*P);
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}
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}
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@ -984,12 +985,12 @@ void ModuloSchedulingPass::orderNodes() {
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//Append highest depth node to the NodeOrder
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if(find(FinalNodeOrder.begin(), FinalNodeOrder.end(), highestDepthNode) == FinalNodeOrder.end()) {
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if(std::find(FinalNodeOrder.begin(), FinalNodeOrder.end(), highestDepthNode) == FinalNodeOrder.end()) {
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DEBUG(std::cerr << "Adding node to Final Order: " << *highestDepthNode << "\n");
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FinalNodeOrder.push_back(highestDepthNode);
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}
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//Remove heightestDepthNode from IntersectOrder
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IntersectCurrent.erase(find(IntersectCurrent.begin(),
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IntersectCurrent.erase(std::find(IntersectCurrent.begin(),
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IntersectCurrent.end(),highestDepthNode));
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@ -998,13 +999,13 @@ void ModuloSchedulingPass::orderNodes() {
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E = highestDepthNode->pred_end(); P != E; ++P) {
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//if(lower_bound(CurrentSet->begin(),
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// CurrentSet->end(), *P) != CurrentSet->end()) {
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if(find(CurrentSet->begin(), CurrentSet->end(), *P) != CurrentSet->end()) {
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if(std::find(CurrentSet->begin(), CurrentSet->end(), *P) != CurrentSet->end()) {
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if(ignoreEdge(*P, highestDepthNode))
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continue;
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//If not already in Intersect, add
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if(find(IntersectCurrent.begin(),
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if(std::find(IntersectCurrent.begin(),
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IntersectCurrent.end(), *P) == IntersectCurrent.end())
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IntersectCurrent.push_back(*P);
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}
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@ -21,8 +21,9 @@
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#include "llvm/Support/DynamicLinker.h"
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#include "llvm/Config/dlfcn.h"
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#include "llvm/Config/windows.h"
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#include <cassert>
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#include <vector>
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#include <cassert>
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#include <cstdio>
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using namespace llvm;
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#if defined(HAVE_WINDOWS_H)
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@ -828,7 +828,7 @@ static bool OperandConvertibleToType(User *U, Value *V, const Type *Ty,
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}
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case Instruction::Call: {
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User::op_iterator OI = find(I->op_begin(), I->op_end(), V);
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User::op_iterator OI = std::find(I->op_begin(), I->op_end(), V);
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assert (OI != I->op_end() && "Not using value!");
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unsigned OpNum = OI - I->op_begin();
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@ -1206,7 +1206,7 @@ static void ConvertOperandToType(User *U, Value *OldVal, Value *NewVal,
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} else { // Changing an argument, must be in vararg area
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std::vector<Value*>::iterator OI =
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find(Params.begin(), Params.end(), OldVal);
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std::find(Params.begin(), Params.end(), OldVal);
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assert (OI != Params.end() && "Not using value!");
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*OI = NewVal;
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