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37d44e7de9
llvm-svn: 1973
211 lines
6.1 KiB
C++
211 lines
6.1 KiB
C++
// -*-C++-*-
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//***************************************************************************
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// File:
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// SchedPriorities.h
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//
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// Purpose:
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// Encapsulate heuristics for instruction scheduling.
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//
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// Strategy:
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// Priority ordering rules:
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// (1) Max delay, which is the order of the heap S.candsAsHeap.
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// (2) Instruction that frees up a register.
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// (3) Instruction that has the maximum number of dependent instructions.
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// Note that rules 2 and 3 are only used if issue conflicts prevent
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// choosing a higher priority instruction by rule 1.
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//
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// History:
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// 7/30/01 - Vikram Adve - Created
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//**************************************************************************/
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#ifndef LLVM_CODEGEN_SCHEDPRIORITIES_H
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#define LLVM_CODEGEN_SCHEDPRIORITIES_H
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#include "SchedGraph.h"
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#include "llvm/CodeGen/InstrScheduling.h"
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#include "llvm/Target/MachineSchedInfo.h"
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#include "Support/CommandLine.h"
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#include <list>
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#include <ext/hash_set>
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#include <iostream>
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class Function;
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class MachineInstr;
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class SchedulingManager;
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class MethodLiveVarInfo;
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//---------------------------------------------------------------------------
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// Debug option levels for instruction scheduling
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enum SchedDebugLevel_t {
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Sched_NoDebugInfo,
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Sched_Disable,
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Sched_PrintMachineCode,
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Sched_PrintSchedTrace,
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Sched_PrintSchedGraphs,
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};
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extern cl::Enum<SchedDebugLevel_t> SchedDebugLevel;
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//---------------------------------------------------------------------------
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// Function: instrIsFeasible
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//
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// Purpose:
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// Used by the priority analysis to filter out instructions
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// that are not feasible to issue in the current cycle.
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// Should only be used during schedule construction..
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//---------------------------------------------------------------------------
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bool instrIsFeasible(const SchedulingManager &S, MachineOpCode opCode);
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struct NodeDelayPair {
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const SchedGraphNode* node;
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cycles_t delay;
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NodeDelayPair(const SchedGraphNode* n, cycles_t d) : node(n), delay(d) {}
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inline bool operator<(const NodeDelayPair& np) { return delay < np.delay; }
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};
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inline bool
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NDPLessThan(const NodeDelayPair* np1, const NodeDelayPair* np2)
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{
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return np1->delay < np2->delay;
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}
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class NodeHeap: public std::list<NodeDelayPair*>, public NonCopyable {
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public:
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typedef std::list<NodeDelayPair*>::iterator iterator;
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typedef std::list<NodeDelayPair*>::const_iterator const_iterator;
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public:
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NodeHeap() : _size(0) {}
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inline unsigned size() const { return _size; }
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const SchedGraphNode* getNode (const_iterator i) const { return (*i)->node; }
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cycles_t getDelay(const_iterator i) const { return (*i)->delay;}
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inline void makeHeap() {
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// make_heap(begin(), end(), NDPLessThan);
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}
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inline iterator findNode(const SchedGraphNode* node) {
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for (iterator I=begin(); I != end(); ++I)
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if (getNode(I) == node)
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return I;
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return end();
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}
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inline void removeNode (const SchedGraphNode* node) {
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iterator ndpPtr = findNode(node);
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if (ndpPtr != end())
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{
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delete *ndpPtr;
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erase(ndpPtr);
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--_size;
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}
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};
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void insert(const SchedGraphNode* node, cycles_t delay) {
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NodeDelayPair* ndp = new NodeDelayPair(node, delay);
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if (_size == 0 || front()->delay < delay)
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push_front(ndp);
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else
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{
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iterator I=begin();
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for ( ; I != end() && getDelay(I) >= delay; ++I)
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;
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std::list<NodeDelayPair*>::insert(I, ndp);
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}
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_size++;
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}
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private:
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unsigned int _size;
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};
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class SchedPriorities: public NonCopyable {
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public:
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SchedPriorities(const Function *F, const SchedGraph *G,
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MethodLiveVarInfo &LVI);
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// This must be called before scheduling begins.
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void initialize ();
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cycles_t getTime () const { return curTime; }
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cycles_t getEarliestReadyTime () const { return earliestReadyTime; }
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unsigned getNumReady () const { return candsAsHeap.size(); }
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bool nodeIsReady (const SchedGraphNode* node) const {
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return (candsAsSet.find(node) != candsAsSet.end());
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}
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void issuedReadyNodeAt (cycles_t curTime,
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const SchedGraphNode* node);
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void insertReady (const SchedGraphNode* node);
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void updateTime (cycles_t /*unused*/);
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const SchedGraphNode* getNextHighest (const SchedulingManager& S,
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cycles_t curTime);
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// choose next highest priority instr
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private:
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typedef NodeHeap::iterator candIndex;
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private:
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cycles_t curTime;
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const SchedGraph* graph;
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MethodLiveVarInfo &methodLiveVarInfo;
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std::hash_map<const MachineInstr*, bool> lastUseMap;
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std::vector<cycles_t> nodeDelayVec;
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std::vector<cycles_t> earliestForNode;
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cycles_t earliestReadyTime;
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NodeHeap candsAsHeap; // candidate nodes, ready to go
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std::hash_set<const SchedGraphNode*> candsAsSet;//same entries as candsAsHeap,
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// but as set for fast lookup
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std::vector<candIndex> mcands; // holds pointers into cands
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candIndex nextToTry; // next cand after the last
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// one tried in this cycle
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int chooseByRule1 (std::vector<candIndex>& mcands);
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int chooseByRule2 (std::vector<candIndex>& mcands);
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int chooseByRule3 (std::vector<candIndex>& mcands);
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void findSetWithMaxDelay (std::vector<candIndex>& mcands,
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const SchedulingManager& S);
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void computeDelays (const SchedGraph* graph);
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void initializeReadyHeap (const SchedGraph* graph);
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bool instructionHasLastUse (MethodLiveVarInfo& methodLiveVarInfo,
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const SchedGraphNode* graphNode);
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// NOTE: The next two return references to the actual vector entries.
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// Use with care.
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cycles_t& getNodeDelayRef (const SchedGraphNode* node) {
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assert(node->getNodeId() < nodeDelayVec.size());
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return nodeDelayVec[node->getNodeId()];
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}
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cycles_t& getEarliestForNodeRef (const SchedGraphNode* node) {
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assert(node->getNodeId() < earliestForNode.size());
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return earliestForNode[node->getNodeId()];
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}
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};
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inline void SchedPriorities::updateTime(cycles_t c) {
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curTime = c;
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nextToTry = candsAsHeap.begin();
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mcands.clear();
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}
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inline std::ostream &operator<<(std::ostream &os, const NodeDelayPair* nd) {
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return os << "Delay for node " << nd->node->getNodeId()
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<< " = " << (long)nd->delay << "\n";
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}
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#endif
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