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Updating my versions of ModuloScheduling in cvs. Still not complete.
llvm-svn: 13424
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7cc5d0f106
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@ -29,7 +29,7 @@ MSchedGraphNode::MSchedGraphNode(const MachineInstr* inst,
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}
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}
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void MSchedGraphNode::print(std::ostream &os) const {
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void MSchedGraphNode::print(std::ostream &os) const {
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os << "MSehedGraphNode: Inst=" << *Inst << ", latency= " << latency << "\n";
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os << "MSchedGraphNode: Inst=" << *Inst << ", latency= " << latency << "\n";
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}
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}
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MSchedGraphEdge MSchedGraphNode::getInEdge(MSchedGraphNode *pred) {
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MSchedGraphEdge MSchedGraphNode::getInEdge(MSchedGraphNode *pred) {
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@ -44,6 +44,35 @@ MSchedGraphEdge MSchedGraphNode::getInEdge(MSchedGraphNode *pred) {
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}
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}
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unsigned MSchedGraphNode::getInEdgeNum(MSchedGraphNode *pred) {
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//Loop over all the successors of our predecessor
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//return the edge the corresponds to this in edge
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int count = 0;
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for(MSchedGraphNode::succ_iterator I = pred->succ_begin(), E = pred->succ_end();
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I != E; ++I) {
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if(*I == this)
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return count;
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count++;
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}
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assert(0 && "Should have found edge between this node and its predecessor!");
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abort();
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}
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bool MSchedGraphNode::isSuccessor(MSchedGraphNode *succ) {
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for(succ_iterator I = succ_begin(), E = succ_end(); I != E; ++I)
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if(*I == succ)
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return true;
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return false;
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}
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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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return true;
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else
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return false;
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}
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void MSchedGraph::addNode(const MachineInstr *MI,
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void MSchedGraph::addNode(const MachineInstr *MI,
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MSchedGraphNode *node) {
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MSchedGraphNode *node) {
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@ -92,12 +121,15 @@ void MSchedGraph::buildNodesAndEdges() {
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MachineOpCode MIopCode = MI->getOpcode();
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MachineOpCode MIopCode = MI->getOpcode();
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int delay;
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int delay;
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#if 0 // FIXME: LOOK INTO THIS
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//Check if subsequent instructions can be issued before
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//Check if subsequent instructions can be issued before
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//the result is ready, if so use min delay.
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//the result is ready, if so use min delay.
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if(MTI.hasResultInterlock(MIopCode))
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if(MTI.hasResultInterlock(MIopCode))
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delay = MTI.minLatency(MIopCode);
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delay = MTI.minLatency(MIopCode);
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else
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else
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delay = MTI.maxLatency(MIopCode);
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#endif
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/// FIxME: get this from the sched class.
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delay = 7; //MTI.maxLatency(MIopCode);
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//Create new node for this machine instruction and add to the graph.
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//Create new node for this machine instruction and add to the graph.
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//Create only if not a nop
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//Create only if not a nop
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@ -99,6 +99,10 @@ namespace llvm {
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bool hasSuccessors() { return (Successors.size() > 0); }
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bool hasSuccessors() { return (Successors.size() > 0); }
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int getLatency() { return latency; }
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int getLatency() { return latency; }
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MSchedGraphEdge getInEdge(MSchedGraphNode *pred);
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MSchedGraphEdge getInEdge(MSchedGraphNode *pred);
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unsigned getInEdgeNum(MSchedGraphNode *pred);
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bool isSuccessor(MSchedGraphNode *);
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bool isPredecessor(MSchedGraphNode *);
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//Debug support
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//Debug support
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void print(std::ostream &os) const;
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void print(std::ostream &os) const;
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File diff suppressed because it is too large
Load Diff
@ -41,22 +41,53 @@ namespace llvm {
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//Map that holds node to node attribute information
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//Map that holds node to node attribute information
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std::map<MSchedGraphNode*, MSNodeAttributes> nodeToAttributesMap;
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std::map<MSchedGraphNode*, MSNodeAttributes> nodeToAttributesMap;
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//Map to hold all reccurrences
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std::set<std::pair<int, std::vector<MSchedGraphNode*> > > recurrenceList;
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//Set of edges to ignore, stored as src node and index into vector of successors
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std::set<std::pair<MSchedGraphNode*, unsigned> > edgesToIgnore;
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//Vector containing the partial order
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std::vector<std::vector<MSchedGraphNode*> > partialOrder;
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//Vector containing the final node order
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std::vector<MSchedGraphNode*> FinalNodeOrder;
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//Schedule table, key is the cycle number and the vector is resource, node pairs
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std::map<unsigned, std::vector<std::pair<unsigned, std::vector<MSchedGraphNode*> > > > schedule;
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//Current initiation interval
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int II;
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//Internal functions
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//Internal functions
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bool MachineBBisValid(const MachineBasicBlock *BI);
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bool MachineBBisValid(const MachineBasicBlock *BI);
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int calculateResMII(const MachineBasicBlock *BI);
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int calculateResMII(const MachineBasicBlock *BI);
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int calculateRecMII(MSchedGraph *graph, int MII);
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void calculateNodeAttributes(MSchedGraph *graph, int MII);
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void calculateNodeAttributes(MSchedGraph *graph, int MII);
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void calculateASAP(MSchedGraphNode *node, MSNodeAttributes &attributes,
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int MII,std::set<MSchedGraphNode*> &visitedNodes);
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bool ignoreEdge(MSchedGraphNode *srcNode, MSchedGraphNode *destNode);
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void calculateALAP(MSchedGraphNode *node, MSNodeAttributes &attributes, int MII,
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int maxASAP, std::set<MSchedGraphNode*> &visitedNodes);
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void calculateHeight(MSchedGraphNode *node,
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int calculateASAP(MSchedGraphNode *node, int MII,MSchedGraphNode *destNode);
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MSNodeAttributes &attributes, std::set<MSchedGraphNode*> &visitedNodes);
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int calculateALAP(MSchedGraphNode *node, int MII, int maxASAP, MSchedGraphNode *srcNode);
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void calculateDepth(MSchedGraphNode *node, MSNodeAttributes &attributes,
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std::set<MSchedGraphNode*> &visitedNodes);
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int calculateHeight(MSchedGraphNode *node,MSchedGraphNode *srcNode);
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int calculateDepth(MSchedGraphNode *node, MSchedGraphNode *destNode);
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int findMaxASAP();
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int findMaxASAP();
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void ModuloSchedulingPass::orderNodes();
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void orderNodes();
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void findAllReccurrences(MSchedGraphNode *node, std::vector<MSchedGraphNode*> &visitedNodes);
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void findAllReccurrences(MSchedGraphNode *node,
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std::vector<MSchedGraphNode*> &visitedNodes, int II);
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void addReccurrence(std::vector<MSchedGraphNode*> &recurrence, int II, MSchedGraphNode*, MSchedGraphNode*);
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void computePartialOrder();
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void computeSchedule();
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bool scheduleNode(MSchedGraphNode *node,
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int start, int end);
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void predIntersect(std::vector<MSchedGraphNode*> &CurrentSet, std::vector<MSchedGraphNode*> &IntersectResult);
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void succIntersect(std::vector<MSchedGraphNode*> &CurrentSet, std::vector<MSchedGraphNode*> &IntersectResult);
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public:
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public:
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ModuloSchedulingPass(TargetMachine &targ) : target(targ) {}
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ModuloSchedulingPass(TargetMachine &targ) : target(targ) {}
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virtual bool runOnFunction(Function &F);
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virtual bool runOnFunction(Function &F);
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