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https://github.com/RPCS3/llvm-mirror.git
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c41e21ef9e
llvm-svn: 6545
377 lines
9.8 KiB
C++
377 lines
9.8 KiB
C++
//===- ModuloSchedGraph.h - Modulo Scheduling Graph and Set -*- C++ -*-----===//
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//
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// This header defines the primative classes that make up a data structure
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// graph.
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//
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//===----------------------------------------------------------------------===//
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#ifndef LLVM_CODEGEN_MODULO_SCHED_GRAPH_H
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#define LLVM_CODEGEN_MODULO_SCHED_GRAPH_H
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#include "llvm/Instruction.h"
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#include "llvm/Target/TargetMachine.h"
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#include "llvm/Target/TargetInstrInfo.h"
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#include "Support/HashExtras.h"
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#include "Support/GraphTraits.h"
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#include "Support/hash_map"
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#include "../InstrSched/SchedGraphCommon.h"
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#include <iostream>
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//===----------------------------------------------------------------------===//
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// ModuloSchedGraphNode - Implement a data structure based on the
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// SchedGraphNodeCommon this class stores informtion needed later to order the
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// nodes in modulo scheduling
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//
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class ModuloSchedGraphNode:public SchedGraphNodeCommon {
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private:
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// the corresponding instruction
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const Instruction *inst;
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// whether this node's property(ASAP,ALAP, ...) has been computed
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bool propertyComputed;
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// ASAP: the earliest time the node could be scheduled
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// ALAP: the latest time the node couldbe scheduled
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// depth: the depth of the node
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// height: the height of the node
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// mov: the mobility function, computed as ALAP - ASAP
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// scheTime: the scheduled time if this node has been scheduled
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// earlyStart: the earliest time to be tried to schedule the node
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// lateStart: the latest time to be tried to schedule the node
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int ASAP, ALAP, depth, height, mov;
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int schTime;
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int earlyStart, lateStart;
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public:
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//get the instruction
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const Instruction *getInst() const {
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return inst;
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}
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//get the instruction op-code name
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const char *getInstOpcodeName() const {
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return inst->getOpcodeName();
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}
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//get the instruction op-code
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const unsigned getInstOpcode() const {
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return inst->getOpcode();
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}
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//return whether the node is NULL
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bool isNullNode() const {
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return (inst == NULL);
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}
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//return whether the property of the node has been computed
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bool getPropertyComputed() {
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return propertyComputed;
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}
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//set the propertyComputed
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void setPropertyComputed(bool _propertyComputed) {
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propertyComputed = _propertyComputed;
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}
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//get the corresponding property
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int getASAP() {
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return ASAP;
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}
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int getALAP() {
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return ALAP;
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}
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int getMov() {
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return mov;
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}
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int getDepth() {
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return depth;
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}
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int getHeight() {
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return height;
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}
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int getSchTime() {
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return schTime;
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}
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int getEarlyStart() {
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return earlyStart;
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}
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int getLateStart() {
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return lateStart;
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}
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void setEarlyStart(int _earlyStart) {
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earlyStart = _earlyStart;
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}
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void setLateStart(int _lateStart) {
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lateStart = _lateStart;
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}
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void setSchTime(int _time) {
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schTime = _time;
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}
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private:
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friend class ModuloSchedGraph;
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friend class SchedGraphNode;
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//constructor:
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//nodeId: the node id, unique within the each BasicBlock
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//_bb: which BasicBlock the corresponding instruction belongs to
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//_inst: the corresponding instruction
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//indexInBB: the corresponding instruction's index in the BasicBlock
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//target: the targetMachine
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ModuloSchedGraphNode(unsigned int _nodeId,
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const BasicBlock * _bb,
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const Instruction * _inst,
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int indexInBB, const TargetMachine &target);
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friend std::ostream & operator<<(std::ostream & os,
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const ModuloSchedGraphNode & edge);
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};
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//FIXME: these two value should not be used
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#define MAXNODE 100
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#define MAXCC 100
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//===----------------------------------------------------------------------===//
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/// ModuloSchedGraph- the data structure to store dependence between nodes
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/// it catches data dependence and constrol dependence
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///
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class ModuloSchedGraph :
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public SchedGraphCommon,
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protected hash_map<const Instruction*,ModuloSchedGraphNode*> {
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private:
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BasicBlock* bb;
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//iteration Interval
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int MII;
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//target machine
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const TargetMachine & target;
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//the circuits in the dependence graph
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unsigned circuits[MAXCC][MAXNODE];
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//the order nodes
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std::vector<ModuloSchedGraphNode*> oNodes;
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typedef std::vector<ModuloSchedGraphNode*> NodeVec;
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//the function to compute properties
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void computeNodeASAP(const BasicBlock * in_bb);
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void computeNodeALAP(const BasicBlock * in_bb);
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void computeNodeMov(const BasicBlock * in_bb);
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void computeNodeDepth(const BasicBlock * in_bb);
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void computeNodeHeight(const BasicBlock * in_bb);
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//the function to compute node property
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void computeNodeProperty(const BasicBlock * in_bb);
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//the function to sort nodes
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void orderNodes();
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//add the resource usage
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void addResourceUsage(std::vector<std::pair<int,int> > &, int);
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//debug functions:
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//dump circuits
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void dumpCircuits();
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//dump the input set of nodes
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void dumpSet(std::vector<ModuloSchedGraphNode*> set);
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//dump the input resource usage table
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void dumpResourceUsage(std::vector<std::pair<int,int> > &);
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public:
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//help functions
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//get the maxium the delay between two nodes
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SchedGraphEdge *getMaxDelayEdge(unsigned srcId, unsigned sinkId);
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//FIXME:
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//get the predessor Set of the set
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NodeVec predSet(NodeVec set, unsigned, unsigned);
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NodeVec predSet(NodeVec set);
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//get the predessor set of the node
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NodeVec predSet(ModuloSchedGraphNode *node, unsigned, unsigned);
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NodeVec predSet(ModuloSchedGraphNode *node);
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//get the successor set of the set
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NodeVec succSet(NodeVec set, unsigned, unsigned);
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NodeVec succSet(NodeVec set);
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//get the succssor set of the node
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NodeVec succSet(ModuloSchedGraphNode *node, unsigned, unsigned);
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NodeVec succSet(ModuloSchedGraphNode *node);
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//return the uniton of the two vectors
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NodeVec vectorUnion(NodeVec set1, NodeVec set2);
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//return the consjuction of the two vectors
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NodeVec vectorConj(NodeVec set1, NodeVec set2);
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//return all nodes in set1 but not set2
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NodeVec vectorSub(NodeVec set1, NodeVec set2);
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typedef hash_map<const Instruction*,ModuloSchedGraphNode*> map_base;
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public:
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using map_base::iterator;
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using map_base::const_iterator;
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public:
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//get target machine
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const TargetMachine & getTarget() {
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return target;
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}
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//get the basic block
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BasicBlock* getBasicBlock() const {
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return bb;
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}
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//get the iteration interval
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const int getMII() {
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return MII;
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}
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//get the ordered nodes
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const NodeVec & getONodes() {
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return oNodes;
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}
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//get the number of nodes (including the root and leaf)
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//note: actually root and leaf is not used
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const unsigned int getNumNodes() const {
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return size() + 2;
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}
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//return wether the BasicBlock 'bb' contains a loop
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bool isLoop(const BasicBlock *bb);
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//return this basibBlock contains a loop
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bool isLoop();
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//return the node for the input instruction
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ModuloSchedGraphNode *getGraphNodeForInst(const Instruction *inst) const {
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const_iterator onePair = this->find(inst);
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return (onePair != this->end()) ? (*onePair).second : NULL;
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}
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// Debugging support
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//dump the graph
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void dump() const;
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// dump the basicBlock
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void dump(const BasicBlock *bb);
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//dump the basicBlock into 'os' stream
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void dump(const BasicBlock *bb, std::ostream &os);
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//dump the node property
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void dumpNodeProperty() const;
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private:
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friend class ModuloSchedGraphSet; //give access to ctor
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public:
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ModuloSchedGraph(BasicBlock * in_bb,
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const TargetMachine & in_target)
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:SchedGraphCommon(), bb(in_bb),target(in_target)
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{
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buildGraph(target);
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}
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~ModuloSchedGraph() {
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for (const_iterator I = begin(); I != end(); ++I)
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delete I->second;
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}
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// Unorder iterators
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// return values are pair<const Instruction*, ModuloSchedGraphNode*>
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using map_base::begin;
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using map_base::end;
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void noteModuloSchedGraphNodeForInst(const Instruction *inst,
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ModuloSchedGraphNode *node)
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{
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assert((*this)[inst] == NULL);
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(*this)[inst] = node;
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}
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// Graph builder
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ModuloSchedGraphNode *getNode(const unsigned nodeId) const;
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// Build the graph from the basicBlock
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void buildGraph(const TargetMachine &target);
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// Build nodes for BasicBlock
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void buildNodesforBB(const TargetMachine &target,
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const BasicBlock *bb,
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NodeVec &memNode,
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RegToRefVecMap ®ToRefVecMap,
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ValueToDefVecMap &valueToDefVecMap);
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//find definitiona and use information for all nodes
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void findDefUseInfoAtInstr(const TargetMachine &target,
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ModuloSchedGraphNode *node,
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NodeVec &memNode,
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RegToRefVecMap ®ToRefVecMap,
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ValueToDefVecMap &valueToDefVecMap);
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//add def-use edge
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void addDefUseEdges(const BasicBlock *bb);
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//add control dependence edges
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void addCDEdges(const BasicBlock *bb);
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//add memory dependence dges
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void addMemEdges(const BasicBlock *bb);
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//add dummy edges
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void addDummyEdges();
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//computer source restrictoin II
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int computeResII(const BasicBlock *bb);
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//computer recurrence II
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int computeRecII(const BasicBlock *bb);
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};
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//==================================-
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// Graph set
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class ModuloSchedGraphSet : public std::vector<ModuloSchedGraph*> {
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private:
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const Function *method;
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public:
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typedef std::vector<ModuloSchedGraph*> baseVector;
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using baseVector::iterator;
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using baseVector::const_iterator;
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public:
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ModuloSchedGraphSet(const Function *function, const TargetMachine &target);
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~ModuloSchedGraphSet();
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// Iterators
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using baseVector::begin;
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using baseVector::end;
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// Debugging support
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void dump() const;
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private:
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void addGraph(ModuloSchedGraph *graph) {
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assert(graph != NULL);
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this->push_back(graph);
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}
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// Graph builder
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void buildGraphsForMethod(const Function *F,
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const TargetMachine &target);
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};
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#endif
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