//===-- ModuloScheduling.h - Swing Modulo Scheduling------------*- C++ -*-===// // // The LLVM Compiler Infrastructure // // This file was developed by the LLVM research group and is distributed under // the University of Illinois Open Source License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // //===----------------------------------------------------------------------===// #ifndef LLVM_MODULOSCHEDULING_H #define LLVM_MODULOSCHEDULING_H #include "MSchedGraph.h" #include "MSSchedule.h" #include "llvm/Function.h" #include "llvm/Pass.h" #include namespace llvm { //Struct to contain ModuloScheduling Specific Information for each node struct MSNodeAttributes { int ASAP; //Earliest time at which the opreation can be scheduled int ALAP; //Latest time at which the operation can be scheduled. int MOB; int depth; int height; MSNodeAttributes(int asap=-1, int alap=-1, int mob=-1, int d=-1, int h=-1) : ASAP(asap), ALAP(alap), MOB(mob), depth(d), height(h) {} }; class ModuloSchedulingPass : public FunctionPass { const TargetMachine ⌖ //Map that holds node to node attribute information std::map nodeToAttributesMap; //Map to hold all reccurrences std::set > > recurrenceList; //Set of edges to ignore, stored as src node and index into vector of successors std::set > edgesToIgnore; //Vector containing the partial order std::vector > partialOrder; //Vector containing the final node order std::vector FinalNodeOrder; //Schedule table, key is the cycle number and the vector is resource, node pairs MSSchedule schedule; //Current initiation interval int II; //Internal functions bool MachineBBisValid(const MachineBasicBlock *BI); int calculateResMII(const MachineBasicBlock *BI); int calculateRecMII(MSchedGraph *graph, int MII); void calculateNodeAttributes(MSchedGraph *graph, int MII); bool ignoreEdge(MSchedGraphNode *srcNode, MSchedGraphNode *destNode); int calculateASAP(MSchedGraphNode *node, int MII,MSchedGraphNode *destNode); int calculateALAP(MSchedGraphNode *node, int MII, int maxASAP, MSchedGraphNode *srcNode); int calculateHeight(MSchedGraphNode *node,MSchedGraphNode *srcNode); int calculateDepth(MSchedGraphNode *node, MSchedGraphNode *destNode); int findMaxASAP(); void orderNodes(); void findAllReccurrences(MSchedGraphNode *node, std::vector &visitedNodes, int II); void addReccurrence(std::vector &recurrence, int II, MSchedGraphNode*, MSchedGraphNode*); void computePartialOrder(); void computeSchedule(); bool scheduleNode(MSchedGraphNode *node, int start, int end); void predIntersect(std::vector &CurrentSet, std::vector &IntersectResult); void succIntersect(std::vector &CurrentSet, std::vector &IntersectResult); void reconstructLoop(MachineBasicBlock*); //void saveValue(const MachineInstr*, const std::set&, std::vector*); void writePrologues(std::vector &prologues, MachineBasicBlock *origBB, std::vector &llvm_prologues, std::map > &valuesToSave, std::map > > &newValues, std::map &newValLocation); void writeEpilogues(std::vector &epilogues, const MachineBasicBlock *origBB, std::vector &llvm_epilogues, std::map > &valuesToSave,std::map > > &newValues, std::map &newValLocation); void writeKernel(BasicBlock *llvmBB, MachineBasicBlock *machineBB, std::map > &valuesToSave, std::map > > &newValues, std::map &newValLocation); void removePHIs(const MachineBasicBlock *origBB, std::vector &prologues, std::vector &epilogues, MachineBasicBlock *kernelBB, std::map &newValLocation); public: ModuloSchedulingPass(TargetMachine &targ) : target(targ) {} virtual bool runOnFunction(Function &F); }; } #endif