Blame - lib/CodeGen/InstrSched/SchedGraph.cpp - fp2-dev/platform/external/llvm

2001-09-18 12:50:40 +0000

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// $Id$

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//***************************************************************************

// File:

// SchedGraph.cpp

//

// Purpose:

// Scheduling graph based on SSA graph plus extra dependence edges

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// capturing dependences due to machine resources (machine registers,

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// CC registers, and any others).

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//

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// History:

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// 7/20/01 - Vikram Adve - Created

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//**************************************************************************/

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Chris Lattner

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#include "SchedGraph.h"

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#include "llvm/CodeGen/InstrSelection.h"

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#include "llvm/CodeGen/MachineInstr.h"

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#include "llvm/CodeGen/MachineCodeForInstruction.h"

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#include "llvm/Target/MachineInstrInfo.h"

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#include "llvm/Target/MachineRegInfo.h"

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#include "llvm/Target/TargetMachine.h"

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#include "llvm/BasicBlock.h"

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#include "llvm/Function.h"

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#include "llvm/iOther.h"

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#include "Support/StringExtras.h"

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#include "Support/STLExtras.h"

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#include <iostream>

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using std::vector;

using std::pair;

using std::hash_map;

using std::cerr;

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//*********************** Internal Data Structures *************************/

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// The following two types need to be classes, not typedefs, so we can use

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// opaque declarations in SchedGraph.h

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//

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struct RefVec: public vector< pair<SchedGraphNode*, int> > {

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typedef vector< pair<SchedGraphNode*, int> >:: iterator iterator;

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typedef vector< pair<SchedGraphNode*, int> >::const_iterator const_iterator;

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};

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struct RegToRefVecMap: public hash_map<int, RefVec> {

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typedef hash_map<int, RefVec>:: iterator iterator;

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typedef hash_map<int, RefVec>::const_iterator const_iterator;

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};

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struct ValueToDefVecMap: public hash_map<const Instruction*, RefVec> {

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typedef hash_map<const Instruction*, RefVec>:: iterator iterator;

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typedef hash_map<const Instruction*, RefVec>::const_iterator const_iterator;

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};

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//

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// class SchedGraphEdge

//

/*ctor*/

SchedGraphEdge::SchedGraphEdge(SchedGraphNode* _src,

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SchedGraphNode* _sink,

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SchedGraphEdgeDepType _depType,

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unsigned int _depOrderType,

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int _minDelay)

: src(_src),

sink(_sink),

depType(_depType),

depOrderType(_depOrderType),

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minDelay((_minDelay >= 0)? _minDelay : _src->getLatency()),

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val(NULL)

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{

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assert(src != sink && "Self-loop in scheduling graph!");

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src->addOutEdge(this);

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sink->addInEdge(this);

}

/*ctor*/

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SchedGraphEdge::SchedGraphEdge(SchedGraphNode* _src,

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SchedGraphNode* _sink,

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const Value* _val,

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unsigned int _depOrderType,

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int _minDelay)

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: src(_src),

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sink(_sink),

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depType(ValueDep),

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depOrderType(_depOrderType),

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minDelay((_minDelay >= 0)? _minDelay : _src->getLatency()),

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val(_val)

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{

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assert(src != sink && "Self-loop in scheduling graph!");

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src->addOutEdge(this);

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sink->addInEdge(this);

}

/*ctor*/

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SchedGraphEdge::SchedGraphEdge(SchedGraphNode* _src,

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SchedGraphNode* _sink,

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unsigned int _regNum,

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unsigned int _depOrderType,

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int _minDelay)

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: src(_src),

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sink(_sink),

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depType(MachineRegister),

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depOrderType(_depOrderType),

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minDelay((_minDelay >= 0)? _minDelay : _src->getLatency()),

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machineRegNum(_regNum)

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{

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assert(src != sink && "Self-loop in scheduling graph!");

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src->addOutEdge(this);

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sink->addInEdge(this);

}

/*ctor*/

SchedGraphEdge::SchedGraphEdge(SchedGraphNode* _src,

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SchedGraphNode* _sink,

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ResourceId _resourceId,

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int _minDelay)

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: src(_src),

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sink(_sink),

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depType(MachineResource),

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depOrderType(NonDataDep),

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minDelay((_minDelay >= 0)? _minDelay : _src->getLatency()),

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resourceId(_resourceId)

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{

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assert(src != sink && "Self-loop in scheduling graph!");

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src->addOutEdge(this);

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sink->addInEdge(this);

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}

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/*dtor*/

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SchedGraphEdge::~SchedGraphEdge()

{

}

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void SchedGraphEdge::dump(int indent=0) const {

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cerr << std::string(indent*2, ' ') << *this;

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}

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//

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// class SchedGraphNode

//

/*ctor*/

SchedGraphNode::SchedGraphNode(unsigned int _nodeId,

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const BasicBlock* _bb,

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const MachineInstr* _minstr,

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int indexInBB,

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const TargetMachine& target)

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: nodeId(_nodeId),

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bb(_bb),

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minstr(_minstr),

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origIndexInBB(indexInBB),

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latency(0)

{

if (minstr)

{

MachineOpCode mopCode = minstr->getOpCode();

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latency = target.getInstrInfo().hasResultInterlock(mopCode)

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? target.getInstrInfo().minLatency(mopCode)

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: target.getInstrInfo().maxLatency(mopCode);

}

}

/*dtor*/

SchedGraphNode::~SchedGraphNode()

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{

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// for each node, delete its out-edges

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std::for_each(beginOutEdges(), endOutEdges(),

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deleter<SchedGraphEdge>);

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}

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void SchedGraphNode::dump(int indent=0) const {

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cerr << std::string(indent*2, ' ') << *this;

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}

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inline void

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SchedGraphNode::addInEdge(SchedGraphEdge* edge)

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{

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inEdges.push_back(edge);

}

inline void

SchedGraphNode::addOutEdge(SchedGraphEdge* edge)

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{

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outEdges.push_back(edge);

}

inline void

SchedGraphNode::removeInEdge(const SchedGraphEdge* edge)

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{

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assert(edge->getSink() == this);

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for (iterator I = beginInEdges(); I != endInEdges(); ++I)

if ((*I) == edge)

{

inEdges.erase(I);

break;

}

}

inline void

SchedGraphNode::removeOutEdge(const SchedGraphEdge* edge)

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{

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assert(edge->getSrc() == this);

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for (iterator I = beginOutEdges(); I != endOutEdges(); ++I)

if ((*I) == edge)

{

outEdges.erase(I);

break;

}

}

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//

// class SchedGraph

//

/*ctor*/

SchedGraph::SchedGraph(const BasicBlock* bb,

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const TargetMachine& target)

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{

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bbVec.push_back(bb);

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buildGraph(target);

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}

/*dtor*/

SchedGraph::~SchedGraph()

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{

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for (const_iterator I = begin(); I != end(); ++I)

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delete I->second;

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delete graphRoot;

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delete graphLeaf;

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}

void

SchedGraph::dump() const

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{

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cerr << " Sched Graph for Basic Blocks: ";

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for (unsigned i=0, N=bbVec.size(); i < N; i++)

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{

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cerr << (bbVec[i]->hasName()? bbVec[i]->getName() : "block")

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<< " (" << bbVec[i] << ")"

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<< ((i == N-1)? "" : ", ");

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}

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cerr << "\n\n Actual Root nodes : ";

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for (unsigned i=0, N=graphRoot->outEdges.size(); i < N; i++)

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cerr << graphRoot->outEdges[i]->getSink()->getNodeId()

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<< ((i == N-1)? "" : ", ");

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cerr << "\n Graph Nodes:\n";

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for (const_iterator I=begin(); I != end(); ++I)

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cerr << "\n" << *I->second;

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cerr << "\n";

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}

void

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SchedGraph::eraseIncomingEdges(SchedGraphNode* node, bool addDummyEdges)

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{

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// Delete and disconnect all in-edges for the node

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for (SchedGraphNode::iterator I = node->beginInEdges();

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I != node->endInEdges(); ++I)

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{

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SchedGraphNode* srcNode = (*I)->getSrc();

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srcNode->removeOutEdge(*I);

delete *I;

if (addDummyEdges &&

srcNode != getRoot() &&

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srcNode->beginOutEdges() == srcNode->endOutEdges())

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{ // srcNode has no more out edges, so add an edge to dummy EXIT node

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assert(node != getLeaf() && "Adding edge that was just removed?");

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(void) new SchedGraphEdge(srcNode, getLeaf(),

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SchedGraphEdge::CtrlDep, SchedGraphEdge::NonDataDep, 0);

}

}

node->inEdges.clear();

}

void

SchedGraph::eraseOutgoingEdges(SchedGraphNode* node, bool addDummyEdges)

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{

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// Delete and disconnect all out-edges for the node

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for (SchedGraphNode::iterator I = node->beginOutEdges();

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I != node->endOutEdges(); ++I)

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{

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SchedGraphNode* sinkNode = (*I)->getSink();

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sinkNode->removeInEdge(*I);

delete *I;

if (addDummyEdges &&

sinkNode != getLeaf() &&

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sinkNode->beginInEdges() == sinkNode->endInEdges())

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{ //sinkNode has no more in edges, so add an edge from dummy ENTRY node

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assert(node != getRoot() && "Adding edge that was just removed?");

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(void) new SchedGraphEdge(getRoot(), sinkNode,

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SchedGraphEdge::CtrlDep, SchedGraphEdge::NonDataDep, 0);

}

}

node->outEdges.clear();

}

void

SchedGraph::eraseIncidentEdges(SchedGraphNode* node, bool addDummyEdges)

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{

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this->eraseIncomingEdges(node, addDummyEdges);

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this->eraseOutgoingEdges(node, addDummyEdges);

}

void

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SchedGraph::addDummyEdges()

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{

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assert(graphRoot->outEdges.size() == 0);

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for (const_iterator I=begin(); I != end(); ++I)

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{

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SchedGraphNode* node = (*I).second;

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assert(node != graphRoot && node != graphLeaf);

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if (node->beginInEdges() == node->endInEdges())

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(void) new SchedGraphEdge(graphRoot, node, SchedGraphEdge::CtrlDep,

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SchedGraphEdge::NonDataDep, 0);

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if (node->beginOutEdges() == node->endOutEdges())

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(void) new SchedGraphEdge(node, graphLeaf, SchedGraphEdge::CtrlDep,

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SchedGraphEdge::NonDataDep, 0);

}

}

void

SchedGraph::addCDEdges(const TerminatorInst* term,

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const TargetMachine& target)

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{

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const MachineInstrInfo& mii = target.getInstrInfo();

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MachineCodeForInstruction &termMvec = MachineCodeForInstruction::get(term);

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// Find the first branch instr in the sequence of machine instrs for term

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//

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unsigned first = 0;

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while (!mii.isBranch(termMvec[first]->getOpCode()))

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++first;

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assert(first < termMvec.size() &&

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"No branch instructions for BR? Ok, but weird! Delete assertion.");

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if (first == termMvec.size())

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return;

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SchedGraphNode* firstBrNode = this->getGraphNodeForInstr(termMvec[first]);

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// Add CD edges from each instruction in the sequence to the

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// *last preceding* branch instr. in the sequence

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// Use a latency of 0 because we only need to prevent out-of-order issue.

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//

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for (int i = (int) termMvec.size()-1; i > (int) first; i--)

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{

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SchedGraphNode* toNode = this->getGraphNodeForInstr(termMvec[i]);

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assert(toNode && "No node for instr generated for branch?");

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for (int j = i-1; j >= 0; j--)

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if (mii.isBranch(termMvec[j]->getOpCode()))

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{

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SchedGraphNode* brNode = this->getGraphNodeForInstr(termMvec[j]);

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assert(brNode && "No node for instr generated for branch?");

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(void) new SchedGraphEdge(brNode, toNode, SchedGraphEdge::CtrlDep,

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SchedGraphEdge::NonDataDep, 0);

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break; // only one incoming edge is enough

}

}

// Add CD edges from each instruction preceding the first branch

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// to the first branch. Use a latency of 0 as above.

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//

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for (int i = first-1; i >= 0; i--)

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{

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SchedGraphNode* fromNode = this->getGraphNodeForInstr(termMvec[i]);

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assert(fromNode && "No node for instr generated for branch?");

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(void) new SchedGraphEdge(fromNode, firstBrNode, SchedGraphEdge::CtrlDep,

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SchedGraphEdge::NonDataDep, 0);

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}

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// Now add CD edges to the first branch instruction in the sequence from

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// all preceding instructions in the basic block. Use 0 latency again.

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//

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const BasicBlock* bb = firstBrNode->getBB();

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const MachineCodeForBasicBlock& mvec = bb->getMachineInstrVec();

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for (unsigned i=0, N=mvec.size(); i < N; i++)

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{

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if (mvec[i] == termMvec[first]) // reached the first branch

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break;

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SchedGraphNode* fromNode = this->getGraphNodeForInstr(mvec[i]);

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if (fromNode == NULL)

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continue; // dummy instruction, e.g., PHI

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(void) new SchedGraphEdge(fromNode, firstBrNode,

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SchedGraphEdge::CtrlDep,

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SchedGraphEdge::NonDataDep, 0);

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// If we find any other machine instructions (other than due to

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// the terminator) that also have delay slots, add an outgoing edge

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// from the instruction to the instructions in the delay slots.

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//

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unsigned d = mii.getNumDelaySlots(mvec[i]->getOpCode());

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assert(i+d < N && "Insufficient delay slots for instruction?");

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419

for (unsigned j=1; j <= d; j++)

420

{

421

SchedGraphNode* toNode = this->getGraphNodeForInstr(mvec[i+j]);

422

assert(toNode && "No node for machine instr in delay slot?");

423

(void) new SchedGraphEdge(fromNode, toNode,

424

SchedGraphEdge::CtrlDep,

425

SchedGraphEdge::NonDataDep, 0);

426

}

Vikram S. Adve

2001-08-28 23:06:02 +0000

[diff] [blame]

}

}

Vikram S. Adve

2001-10-28 21:43:33 +0000

[diff] [blame]

430

static const int SG_LOAD_REF = 0;

431

static const int SG_STORE_REF = 1;

432

static const int SG_CALL_REF = 2;

433

434

static const unsigned int SG_DepOrderArray[][3] = {

435

{ SchedGraphEdge::NonDataDep,

436

SchedGraphEdge::AntiDep,

437

SchedGraphEdge::AntiDep },

438

{ SchedGraphEdge::TrueDep,

439

SchedGraphEdge::OutputDep,

440

SchedGraphEdge::TrueDep | SchedGraphEdge::OutputDep },

441

{ SchedGraphEdge::TrueDep,

442

SchedGraphEdge::AntiDep | SchedGraphEdge::OutputDep,

443

SchedGraphEdge::TrueDep | SchedGraphEdge::AntiDep

444

| SchedGraphEdge::OutputDep }

445

};

446

Vikram S. Adve

2001-08-28 23:06:02 +0000

[diff] [blame]

447

Vikram S. Adve

2001-11-08 05:20:23 +0000

[diff] [blame]

448

// Add a dependence edge between every pair of machine load/store/call

449

// instructions, where at least one is a store or a call.

450

// Use latency 1 just to ensure that memory operations are ordered;

451

// latency does not otherwise matter (true dependences enforce that).

452

//

Vikram S. Adve

2001-08-28 23:06:02 +0000

[diff] [blame]

453

void

Vikram S. Adve

2001-11-08 05:20:23 +0000

[diff] [blame]

454

SchedGraph::addMemEdges(const vector<SchedGraphNode*>& memNodeVec,

Vikram S. Adve

2001-08-28 23:06:02 +0000

[diff] [blame]

455

const TargetMachine& target)

456

{

457

const MachineInstrInfo& mii = target.getInstrInfo();

458

Vikram S. Adve

2001-11-08 05:20:23 +0000

[diff] [blame]

459

// Instructions in memNodeVec are in execution order within the basic block,

460

// so simply look at all pairs <memNodeVec[i], memNodeVec[j: j > i]>.

461

//

462

for (unsigned im=0, NM=memNodeVec.size(); im < NM; im++)

Vikram S. Adve

2001-08-28 23:06:02 +0000

[diff] [blame]

463

{

Vikram S. Adve

2001-11-08 05:20:23 +0000

[diff] [blame]

464

MachineOpCode fromOpCode = memNodeVec[im]->getOpCode();

465

int fromType = mii.isCall(fromOpCode)? SG_CALL_REF

466

: mii.isLoad(fromOpCode)? SG_LOAD_REF

467

: SG_STORE_REF;

Vikram S. Adve

2001-08-28 23:06:02 +0000

[diff] [blame]

468

for (unsigned jm=im+1; jm < NM; jm++)

469

{

Vikram S. Adve

2001-11-08 05:20:23 +0000

[diff] [blame]

470

MachineOpCode toOpCode = memNodeVec[jm]->getOpCode();

471

int toType = mii.isCall(toOpCode)? SG_CALL_REF

472

: mii.isLoad(toOpCode)? SG_LOAD_REF

473

: SG_STORE_REF;

Vikram S. Adve

2001-10-28 21:43:33 +0000

[diff] [blame]

474

Vikram S. Adve

2001-11-08 05:20:23 +0000

[diff] [blame]

475

if (fromType != SG_LOAD_REF || toType != SG_LOAD_REF)

476

(void) new SchedGraphEdge(memNodeVec[im], memNodeVec[jm],

477

SchedGraphEdge::MemoryDep,

478

SG_DepOrderArray[fromType][toType], 1);

479

}

Vikram S. Adve

2001-08-28 23:06:02 +0000

[diff] [blame]

480

}

Vikram S. Adve

2001-11-08 05:20:23 +0000

[diff] [blame]

481

}

Vikram S. Adve

2001-08-28 23:06:02 +0000

[diff] [blame]

482

Vikram S. Adve

2001-11-08 05:20:23 +0000

[diff] [blame]

483

// Add edges from/to CC reg instrs to/from call instrs.

484

// Essentially this prevents anything that sets or uses a CC reg from being

485

// reordered w.r.t. a call.

486

// Use a latency of 0 because we only need to prevent out-of-order issue,

487

// like with control dependences.

488

//

Vikram S. Adve

2001-08-28 23:06:02 +0000

[diff] [blame]

489

void

Vikram S. Adve

2001-11-08 05:20:23 +0000

[diff] [blame]

490

SchedGraph::addCallCCEdges(const vector<SchedGraphNode*>& memNodeVec,

Vikram S. Adve

2001-10-28 21:43:33 +0000

[diff] [blame]

491

MachineCodeForBasicBlock& bbMvec,

492

const TargetMachine& target)

493

{

494

const MachineInstrInfo& mii = target.getInstrInfo();

495

vector<SchedGraphNode*> callNodeVec;

496

Vikram S. Adve

2001-11-08 05:20:23 +0000

[diff] [blame]

497

// Find the call instruction nodes and put them in a vector.

498

for (unsigned im=0, NM=memNodeVec.size(); im < NM; im++)

499

if (mii.isCall(memNodeVec[im]->getOpCode()))

500

callNodeVec.push_back(memNodeVec[im]);

Vikram S. Adve

2001-10-28 21:43:33 +0000

[diff] [blame]

501

Vikram S. Adve

2001-11-08 05:20:23 +0000

[diff] [blame]

502

// Now walk the entire basic block, looking for CC instructions *and*

503

// call instructions, and keep track of the order of the instructions.

504

// Use the call node vec to quickly find earlier and later call nodes

505

// relative to the current CC instruction.

Vikram S. Adve

2001-10-28 21:43:33 +0000

[diff] [blame]

506

//

507

int lastCallNodeIdx = -1;

508

for (unsigned i=0, N=bbMvec.size(); i < N; i++)

509

if (mii.isCall(bbMvec[i]->getOpCode()))

510

{

511

++lastCallNodeIdx;

512

for ( ; lastCallNodeIdx < (int)callNodeVec.size(); ++lastCallNodeIdx)

513

if (callNodeVec[lastCallNodeIdx]->getMachineInstr() == bbMvec[i])

514

break;

515

assert(lastCallNodeIdx < (int)callNodeVec.size() && "Missed Call?");

516

}

517

else if (mii.isCCInstr(bbMvec[i]->getOpCode()))

518

{ // Add incoming/outgoing edges from/to preceding/later calls

519

SchedGraphNode* ccNode = this->getGraphNodeForInstr(bbMvec[i]);

520

int j=0;

521

for ( ; j <= lastCallNodeIdx; j++)

522

(void) new SchedGraphEdge(callNodeVec[j], ccNode,

523

MachineCCRegsRID, 0);

524

for ( ; j < (int) callNodeVec.size(); j++)

525

(void) new SchedGraphEdge(ccNode, callNodeVec[j],

526

MachineCCRegsRID, 0);

}

}

void

Vikram S. Adve

2001-09-30 23:36:58 +0000

[diff] [blame]

532

SchedGraph::addMachineRegEdges(RegToRefVecMap& regToRefVecMap,

Vikram S. Adve

2001-08-28 23:06:02 +0000

[diff] [blame]

533

const TargetMachine& target)

534

{

535

assert(bbVec.size() == 1 && "Only handling a single basic block here");

536

537

// This assumes that such hardwired registers are never allocated

538

// to any LLVM value (since register allocation happens later), i.e.,

539

// any uses or defs of this register have been made explicit!

540

// Also assumes that two registers with different numbers are

541

// not aliased!

542

//

Vikram S. Adve

2001-09-30 23:36:58 +0000

[diff] [blame]

543

for (RegToRefVecMap::iterator I = regToRefVecMap.begin();

Vikram S. Adve

2001-08-28 23:06:02 +0000

[diff] [blame]

544

I != regToRefVecMap.end(); ++I)

545

{

Vikram S. Adve

2001-09-30 23:36:58 +0000

[diff] [blame]

546

int regNum = (*I).first;

547

RefVec& regRefVec = (*I).second;

Vikram S. Adve

2001-08-28 23:06:02 +0000

[diff] [blame]

548

549

// regRefVec is ordered by control flow order in the basic block

Vikram S. Adve

2001-08-28 23:06:02 +0000

[diff] [blame]

550

for (unsigned i=0; i < regRefVec.size(); ++i)

551

{

552

SchedGraphNode* node = regRefVec[i].first;

Vikram S. Adve

2001-09-30 23:36:58 +0000

[diff] [blame]

553

unsigned int opNum = regRefVec[i].second;

554

bool isDef = node->getMachineInstr()->operandIsDefined(opNum);

555

556

for (unsigned p=0; p < i; ++p)

557

{

558

SchedGraphNode* prevNode = regRefVec[p].first;

559

if (prevNode != node)

560

{

561

unsigned int prevOpNum = regRefVec[p].second;

562

bool prevIsDef =

563

prevNode->getMachineInstr()->operandIsDefined(prevOpNum);

564

565

if (isDef)

566

new SchedGraphEdge(prevNode, node, regNum,

567

(prevIsDef)? SchedGraphEdge::OutputDep

568

: SchedGraphEdge::AntiDep);

569

else if (prevIsDef)

570

new SchedGraphEdge(prevNode, node, regNum,

571

SchedGraphEdge::TrueDep);

572

}

573

}

574

}

Vikram S. Adve

2001-08-28 23:06:02 +0000

[diff] [blame]

}

}

Vikram S. Adve

2001-11-05 04:04:23 +0000

[diff] [blame]

578

579

void

Vikram S. Adve

2001-11-12 18:53:43 +0000

[diff] [blame]

580

SchedGraph::addEdgesForValue(SchedGraphNode* refNode,

581

const RefVec& defVec,

582

const Value* defValue,

583

bool refNodeIsDef,

584

const TargetMachine& target)

Vikram S. Adve

2001-11-05 04:04:23 +0000

[diff] [blame]

585

{

Vikram S. Adve

2001-11-12 18:53:43 +0000

[diff] [blame]

586

// Add true or output dep edges from all def nodes before refNode in BB.

587

// Add anti or output dep edges to all def nodes after refNode.

Vikram S. Adve

2001-11-05 04:04:23 +0000

[diff] [blame]

588

for (RefVec::const_iterator I=defVec.begin(), E=defVec.end(); I != E; ++I)

Vikram S. Adve

2001-11-12 18:53:43 +0000

[diff] [blame]

589

{

590

if ((*I).first == refNode)

591

continue; // Dont add any self-loops

592

593

if ((*I).first->getOrigIndexInBB() < refNode->getOrigIndexInBB())

594

// (*).first is before refNode

595

(void) new SchedGraphEdge((*I).first, refNode, defValue,

596

(refNodeIsDef)? SchedGraphEdge::OutputDep

597

: SchedGraphEdge::TrueDep);

598

else

599

// (*).first is after refNode

600

(void) new SchedGraphEdge(refNode, (*I).first, defValue,

601

(refNodeIsDef)? SchedGraphEdge::OutputDep

602

: SchedGraphEdge::AntiDep);

603

}

Vikram S. Adve

2001-11-05 04:04:23 +0000

[diff] [blame]

604

}

605

Vikram S. Adve

2001-08-28 23:06:02 +0000

[diff] [blame]

606

607

void

Vikram S. Adve

2001-09-30 23:36:58 +0000

[diff] [blame]

608

SchedGraph::addEdgesForInstruction(const MachineInstr& minstr,

Vikram S. Adve

2001-11-05 04:04:23 +0000

[diff] [blame]

609

const ValueToDefVecMap& valueToDefVecMap,

Vikram S. Adve

2001-08-28 23:06:02 +0000

[diff] [blame]

610

const TargetMachine& target)

611

{

Vikram S. Adve

2001-09-30 23:36:58 +0000

[diff] [blame]

612

SchedGraphNode* node = this->getGraphNodeForInstr(&minstr);

613

if (node == NULL)

614

return;

Vikram S. Adve

2001-08-28 23:06:02 +0000

[diff] [blame]

615

Vikram S. Adve

2001-09-30 23:36:58 +0000

[diff] [blame]

616

// Add edges for all operands of the machine instruction.

Vikram S. Adve

2001-08-28 23:06:02 +0000

[diff] [blame]

617

//

618

for (unsigned i=0, numOps=minstr.getNumOperands(); i < numOps; i++)

619

{

Vikram S. Adve

2001-11-05 04:04:23 +0000

[diff] [blame]

620

const MachineOperand& mop = minstr.getOperand(i);

Vikram S. Adve

2001-08-28 23:06:02 +0000

[diff] [blame]

621

switch(mop.getOperandType())

622

{

623

case MachineOperand::MO_VirtualRegister:

624

case MachineOperand::MO_CCRegister:

Vikram S. Adve

2001-10-17 23:53:16 +0000

[diff] [blame]

625

if (const Instruction* srcI =

626

dyn_cast_or_null<Instruction>(mop.getVRegValue()))

627

{

Vikram S. Adve

2001-11-05 04:04:23 +0000

[diff] [blame]

628

ValueToDefVecMap::const_iterator I = valueToDefVecMap.find(srcI);

629

if (I != valueToDefVecMap.end())

Vikram S. Adve

2001-11-12 18:53:43 +0000

[diff] [blame]

630

addEdgesForValue(node, (*I).second, mop.getVRegValue(),

631

minstr.operandIsDefined(i), target);

Vikram S. Adve

2001-10-17 23:53:16 +0000

[diff] [blame]

632

}

Vikram S. Adve

2001-08-28 23:06:02 +0000

[diff] [blame]

633

break;

634

635

case MachineOperand::MO_MachineRegister:

636

break;

637

638

case MachineOperand::MO_SignExtendedImmed:

639

case MachineOperand::MO_UnextendedImmed:

640

case MachineOperand::MO_PCRelativeDisp:

641

break; // nothing to do for immediate fields

642

643

default:

644

assert(0 && "Unknown machine operand type in SchedGraph builder");

645

break;

646

}

647

}

Vikram S. Adve

8d0ffa5

2001-10-11 04:22:45 +0000

[diff] [blame]

648

649

// Add edges for values implicitly used by the machine instruction.

650

// Examples include function arguments to a Call instructions or the return

651

// value of a Ret instruction.

Vikram S. Adve

2001-09-30 23:36:58 +0000

[diff] [blame]

652

//

Vikram S. Adve

8d0ffa5

2001-10-11 04:22:45 +0000

[diff] [blame]

653

for (unsigned i=0, N=minstr.getNumImplicitRefs(); i < N; ++i)

654

if (! minstr.implicitRefIsDefined(i))

Vikram S. Adve

2001-10-17 23:53:16 +0000

[diff] [blame]

655

if (const Instruction* srcI =

656

dyn_cast_or_null<Instruction>(minstr.getImplicitRef(i)))

657

{

Vikram S. Adve

2001-11-05 04:04:23 +0000

[diff] [blame]

658

ValueToDefVecMap::const_iterator I = valueToDefVecMap.find(srcI);

659

if (I != valueToDefVecMap.end())

Vikram S. Adve

2001-11-12 18:53:43 +0000

[diff] [blame]

660

addEdgesForValue(node, (*I).second, minstr.getImplicitRef(i),

661

minstr.implicitRefIsDefined(i), target);

Vikram S. Adve

2001-10-17 23:53:16 +0000

[diff] [blame]

662

}

Vikram S. Adve

2001-09-30 23:36:58 +0000

[diff] [blame]

}

Vikram S. Adve

2001-11-12 18:53:43 +0000

[diff] [blame]

666

#undef NEED_SEPARATE_NONSSA_EDGES_CODE

667

#ifdef NEED_SEPARATE_NONSSA_EDGES_CODE

Vikram S. Adve

2001-09-30 23:36:58 +0000

[diff] [blame]

668

void

669

SchedGraph::addNonSSAEdgesForValue(const Instruction* instr,

670

const TargetMachine& target)

671

{

Chris Lattner

b00c582

2001-10-02 03:41:24 +0000

[diff] [blame]

672

if (isa<PHINode>(instr))

Vikram S. Adve

2001-09-30 23:36:58 +0000

[diff] [blame]

673

return;

Vikram S. Adve

2001-11-12 18:53:43 +0000

[diff] [blame]

674

Vikram S. Adve

2001-09-30 23:36:58 +0000

[diff] [blame]

675

MachineCodeForVMInstr& mvec = instr->getMachineInstrVec();

676

const MachineInstrInfo& mii = target.getInstrInfo();

677

RefVec refVec;

678

679

for (unsigned i=0, N=mvec.size(); i < N; i++)

680

for (int o=0, N = mii.getNumOperands(mvec[i]->getOpCode()); o < N; o++)

681

{

Vikram S. Adve

2001-11-05 04:04:23 +0000

[diff] [blame]

682

const MachineOperand& mop = mvec[i]->getOperand(o);

Vikram S. Adve

2001-09-30 23:36:58 +0000

[diff] [blame]

683

Vikram S. Adve

2001-11-05 04:04:23 +0000

[diff] [blame]

684

if ((mop.getOperandType() == MachineOperand::MO_VirtualRegister ||

685

mop.getOperandType() == MachineOperand::MO_CCRegister)

686

&& mop.getVRegValue() == (Value*) instr)

Vikram S. Adve

2001-09-30 23:36:58 +0000

[diff] [blame]

687

{

688

// this operand is a definition or use of value `instr'

689

SchedGraphNode* node = this->getGraphNodeForInstr(mvec[i]);

690

assert(node && "No node for machine instruction in this BB?");

Chris Lattner

2002-01-20 22:54:45 +0000

[diff] [blame]

691

refVec.push_back(std::make_pair(node, o));

Vikram S. Adve

2001-09-30 23:36:58 +0000

[diff] [blame]

}

}

// refVec is ordered by control flow order of the machine instructions

696

for (unsigned i=0; i < refVec.size(); ++i)

697

{

698

SchedGraphNode* node = refVec[i].first;

699

unsigned int opNum = refVec[i].second;

700

bool isDef = node->getMachineInstr()->operandIsDefined(opNum);

701

702

if (isDef)

703

// add output and/or anti deps to this definition

704

for (unsigned p=0; p < i; ++p)

705

{

706

SchedGraphNode* prevNode = refVec[p].first;

707

if (prevNode != node)

708

{

709

bool prevIsDef = prevNode->getMachineInstr()->

710

operandIsDefined(refVec[p].second);

Vikram S. Adve

2001-11-12 18:53:43 +0000

[diff] [blame]

711

new SchedGraphEdge(prevNode, node, SchedGraphEdge::ValueDep,

Vikram S. Adve

2001-09-30 23:36:58 +0000

[diff] [blame]

712

(prevIsDef)? SchedGraphEdge::OutputDep

713

: SchedGraphEdge::AntiDep);

}

}

}

}

Chris Lattner

4ed17ba

2001-11-26 18:56:52 +0000

[diff] [blame]

718

#endif //NEED_SEPARATE_NONSSA_EDGES_CODE

Vikram S. Adve

2001-09-30 23:36:58 +0000

[diff] [blame]

719

720

721

void

Vikram S. Adve

2001-11-05 04:04:23 +0000

[diff] [blame]

722

SchedGraph::findDefUseInfoAtInstr(const TargetMachine& target,

723

SchedGraphNode* node,

Vikram S. Adve

2001-11-08 05:20:23 +0000

[diff] [blame]

724

vector<SchedGraphNode*>& memNodeVec,

Vikram S. Adve

2001-11-05 04:04:23 +0000

[diff] [blame]

725

RegToRefVecMap& regToRefVecMap,

726

ValueToDefVecMap& valueToDefVecMap)

727

{

728

const MachineInstrInfo& mii = target.getInstrInfo();

729

Vikram S. Adve

2001-11-08 05:20:23 +0000

[diff] [blame]

730

731

MachineOpCode opCode = node->getOpCode();

732

if (mii.isLoad(opCode) || mii.isStore(opCode) || mii.isCall(opCode))

733

memNodeVec.push_back(node);

734

Vikram S. Adve

2001-11-05 04:04:23 +0000

[diff] [blame]

735

// Collect the register references and value defs. for explicit operands

736

//

737

const MachineInstr& minstr = * node->getMachineInstr();

738

for (int i=0, numOps = (int) minstr.getNumOperands(); i < numOps; i++)

739

{

740

const MachineOperand& mop = minstr.getOperand(i);

741

742

// if this references a register other than the hardwired

743

// "zero" register, record the reference.

744

if (mop.getOperandType() == MachineOperand::MO_MachineRegister)

745

{

746

int regNum = mop.getMachineRegNum();

747

if (regNum != target.getRegInfo().getZeroRegNum())

Chris Lattner

2002-01-20 22:54:45 +0000

[diff] [blame]

748

regToRefVecMap[mop.getMachineRegNum()].push_back(

749

std::make_pair(node, i));

Vikram S. Adve

2001-11-05 04:04:23 +0000

[diff] [blame]

750

continue; // nothing more to do

751

}

752

753

// ignore all other non-def operands

754

if (! minstr.operandIsDefined(i))

755

continue;

756

757

// We must be defining a value.

758

assert((mop.getOperandType() == MachineOperand::MO_VirtualRegister ||

759

mop.getOperandType() == MachineOperand::MO_CCRegister)

760

&& "Do not expect any other kind of operand to be defined!");

761

762

const Instruction* defInstr = cast<Instruction>(mop.getVRegValue());

Chris Lattner

2002-01-20 22:54:45 +0000

[diff] [blame]

763

valueToDefVecMap[defInstr].push_back(std::make_pair(node, i));

Vikram S. Adve

2001-11-05 04:04:23 +0000

[diff] [blame]

764

}

Vikram S. Adve

2001-11-08 05:20:23 +0000

[diff] [blame]

765

Vikram S. Adve

2001-11-05 04:04:23 +0000

[diff] [blame]

766

//

767

// Collect value defs. for implicit operands. The interface to extract

768

// them assumes they must be virtual registers!

769

//

770

for (int i=0, N = (int) minstr.getNumImplicitRefs(); i < N; ++i)

771

if (minstr.implicitRefIsDefined(i))

772

if (const Instruction* defInstr =

773

dyn_cast_or_null<Instruction>(minstr.getImplicitRef(i)))

774

{

Chris Lattner

2002-01-20 22:54:45 +0000

[diff] [blame]

775

valueToDefVecMap[defInstr].push_back(std::make_pair(node, -i));

Vikram S. Adve

2001-11-05 04:04:23 +0000

[diff] [blame]

}

}

void

Vikram S. Adve

2001-11-11 01:23:27 +0000

[diff] [blame]

781

SchedGraph::buildNodesforBB(const TargetMachine& target,

782

const BasicBlock* bb,

783

vector<SchedGraphNode*>& memNodeVec,

784

RegToRefVecMap& regToRefVecMap,

785

ValueToDefVecMap& valueToDefVecMap)

Vikram S. Adve

2001-09-30 23:36:58 +0000

[diff] [blame]

786

{

787

const MachineInstrInfo& mii = target.getInstrInfo();

Vikram S. Adve

2001-11-11 01:23:27 +0000

[diff] [blame]

788

789

// Build graph nodes for each VM instruction and gather def/use info.

790

// Do both those together in a single pass over all machine instructions.

Vikram S. Adve

2001-11-12 14:18:01 +0000

[diff] [blame]

791

const MachineCodeForBasicBlock& mvec = bb->getMachineInstrVec();

792

for (unsigned i=0; i < mvec.size(); i++)

793

if (! mii.isDummyPhiInstr(mvec[i]->getOpCode()))

794

{

795

SchedGraphNode* node = new SchedGraphNode(getNumNodes(), bb,

796

mvec[i], i, target);

797

this->noteGraphNodeForInstr(mvec[i], node);

798

799

// Remember all register references and value defs

800

findDefUseInfoAtInstr(target, node,

801

memNodeVec, regToRefVecMap,valueToDefVecMap);

802

}

803

804

#undef REALLY_NEED_TO_SEARCH_SUCCESSOR_PHIS

805

#ifdef REALLY_NEED_TO_SEARCH_SUCCESSOR_PHIS

806

// This is a BIG UGLY HACK. IT NEEDS TO BE ELIMINATED.

807

// Look for copy instructions inserted in this BB due to Phi instructions

808

// in the successor BBs.

809

// There MUST be exactly one copy per Phi in successor nodes.

810

//

811

for (BasicBlock::succ_const_iterator SI=bb->succ_begin(), SE=bb->succ_end();

812

SI != SE; ++SI)

813

for (BasicBlock::const_iterator PI=(*SI)->begin(), PE=(*SI)->end();

814

PI != PE; ++PI)

815

{

816

if ((*PI)->getOpcode() != Instruction::PHINode)

817

break; // No more Phis in this successor

818

819

// Find the incoming value from block bb to block (*SI)

820

int bbIndex = cast<PHINode>(*PI)->getBasicBlockIndex(bb);

821

assert(bbIndex >= 0 && "But I know bb is a predecessor of (*SI)?");

822

Value* inVal = cast<PHINode>(*PI)->getIncomingValue(bbIndex);

823

assert(inVal != NULL && "There must be an in-value on every edge");

824

825

// Find the machine instruction that makes a copy of inval to (*PI).

826

// This must be in the current basic block (bb).

827

const MachineCodeForVMInstr& mvec = (*PI)->getMachineInstrVec();

828

const MachineInstr* theCopy = NULL;

829

for (unsigned i=0; i < mvec.size() && theCopy == NULL; i++)

830

if (! mii.isDummyPhiInstr(mvec[i]->getOpCode()))

831

// not a Phi: assume this is a copy and examine its operands

832

for (int o=0, N=(int) mvec[i]->getNumOperands(); o < N; o++)

833

{

834

const MachineOperand& mop = mvec[i]->getOperand(o);

835

if (mvec[i]->operandIsDefined(o))

836

assert(mop.getVRegValue() == (*PI) && "dest shd be my Phi");

837

else if (mop.getVRegValue() == inVal)

{ // found the copy!

theCopy = mvec[i];

break;

}

}

// Found the dang instruction. Now create a node and do the rest...

845

if (theCopy != NULL)

Vikram S. Adve

2001-11-11 01:23:27 +0000

[diff] [blame]

846

{

Vikram S. Adve

2001-11-12 14:18:01 +0000

[diff] [blame]

847

SchedGraphNode* node = new SchedGraphNode(getNumNodes(), bb,

848

theCopy, origIndexInBB++, target);

849

this->noteGraphNodeForInstr(theCopy, node);

Vikram S. Adve

2001-11-11 01:23:27 +0000

[diff] [blame]

850

findDefUseInfoAtInstr(target, node,

851

memNodeVec, regToRefVecMap,valueToDefVecMap);

852

}

Vikram S. Adve

2001-11-12 14:18:01 +0000

[diff] [blame]

853

}

Chris Lattner

4ed17ba

2001-11-26 18:56:52 +0000

[diff] [blame]

854

#endif //REALLY_NEED_TO_SEARCH_SUCCESSOR_PHIS

Vikram S. Adve

2001-08-28 23:06:02 +0000

[diff] [blame]

}

void

SchedGraph::buildGraph(const TargetMachine& target)

860

{

Vikram S. Adve

2001-08-28 23:06:02 +0000

[diff] [blame]

861

const BasicBlock* bb = bbVec[0];

862

863

assert(bbVec.size() == 1 && "Only handling a single basic block here");

864

Vikram S. Adve

2001-11-05 04:04:23 +0000

[diff] [blame]

865

// Use this data structure to note all machine operands that compute

866

// ordinary LLVM values. These must be computed defs (i.e., instructions).

867

// Note that there may be multiple machine instructions that define

868

// each Value.

869

ValueToDefVecMap valueToDefVecMap;

870

Vikram S. Adve

2001-11-08 05:20:23 +0000

[diff] [blame]

871

// Use this data structure to note all memory instructions.

Vikram S. Adve

2001-08-28 23:06:02 +0000

[diff] [blame]

872

// We use this to add memory dependence edges without a second full walk.

873

//

Vikram S. Adve

2001-11-08 05:20:23 +0000

[diff] [blame]

874

// vector<const Instruction*> memVec;

875

vector<SchedGraphNode*> memNodeVec;

Vikram S. Adve

2001-08-28 23:06:02 +0000

[diff] [blame]

876

Vikram S. Adve

2001-11-05 04:04:23 +0000

[diff] [blame]

877

// Use this data structure to note any uses or definitions of

Vikram S. Adve

2001-08-28 23:06:02 +0000

[diff] [blame]

878

// machine registers so we can add edges for those later without

879

// extra passes over the nodes.

880

// The vector holds an ordered list of references to the machine reg,

881

// ordered according to control-flow order. This only works for a

882

// single basic block, hence the assertion. Each reference is identified

883

// by the pair: <node, operand-number>.

884

//

Vikram S. Adve

2001-09-30 23:36:58 +0000

[diff] [blame]

885

RegToRefVecMap regToRefVecMap;

Vikram S. Adve

2001-08-28 23:06:02 +0000

[diff] [blame]

886

887

// Make a dummy root node. We'll add edges to the real roots later.

Vikram S. Adve

2001-11-11 01:23:27 +0000

[diff] [blame]

888

graphRoot = new SchedGraphNode(0, NULL, NULL, -1, target);

889

graphLeaf = new SchedGraphNode(1, NULL, NULL, -1, target);

Vikram S. Adve

2001-08-28 23:06:02 +0000

[diff] [blame]

890

891

//----------------------------------------------------------------

Vikram S. Adve

2001-09-30 23:36:58 +0000

[diff] [blame]

892

// First add nodes for all the machine instructions in the basic block

893

// because this greatly simplifies identifying which edges to add.

894

// Do this one VM instruction at a time since the SchedGraphNode needs that.

Vikram S. Adve

2001-08-28 23:06:02 +0000

[diff] [blame]

895

// Also, remember the load/store instructions to add memory deps later.

896

//----------------------------------------------------------------

897

Vikram S. Adve

2001-11-11 01:23:27 +0000

[diff] [blame]

898

buildNodesforBB(target, bb, memNodeVec, regToRefVecMap, valueToDefVecMap);

Vikram S. Adve

2001-08-28 23:06:02 +0000

[diff] [blame]

899

900

//----------------------------------------------------------------

Vikram S. Adve

2001-09-30 23:36:58 +0000

[diff] [blame]

901

// Now add edges for the following (all are incoming edges except (4)):

902

// (1) operands of the machine instruction, including hidden operands

903

// (2) machine register dependences

904

// (3) memory load/store dependences

905

// (3) other resource dependences for the machine instruction, if any

906

// (4) output dependences when multiple machine instructions define the

907

// same value; all must have been generated from a single VM instrn

908

// (5) control dependences to branch instructions generated for the

909

// terminator instruction of the BB. Because of delay slots and

910

// 2-way conditional branches, multiple CD edges are needed

911

// (see addCDEdges for details).

912

// Also, note any uses or defs of machine registers.

913

//

Vikram S. Adve

2001-08-28 23:06:02 +0000

[diff] [blame]

914

//----------------------------------------------------------------

915

Vikram S. Adve

2001-10-28 21:43:33 +0000

[diff] [blame]

916

MachineCodeForBasicBlock& bbMvec = bb->getMachineInstrVec();

917

Vikram S. Adve

2001-08-28 23:06:02 +0000

[diff] [blame]

918

// First, add edges to the terminator instruction of the basic block.

919

this->addCDEdges(bb->getTerminator(), target);

920

Vikram S. Adve

2001-10-28 21:43:33 +0000

[diff] [blame]

921

// Then add memory dep edges: store->load, load->store, and store->store.

922

// Call instructions are treated as both load and store.

Vikram S. Adve

2001-11-08 05:20:23 +0000

[diff] [blame]

923

this->addMemEdges(memNodeVec, target);

Vikram S. Adve

2001-10-28 21:43:33 +0000

[diff] [blame]

924

925

// Then add edges between call instructions and CC set/use instructions

Vikram S. Adve

2001-11-08 05:20:23 +0000

[diff] [blame]

926

this->addCallCCEdges(memNodeVec, bbMvec, target);

Vikram S. Adve

2001-10-28 21:43:33 +0000

[diff] [blame]

927

Vikram S. Adve

2001-11-05 04:04:23 +0000

[diff] [blame]

928

// Then add incoming def-use (SSA) edges for each machine instruction.

Vikram S. Adve

2001-10-28 21:43:33 +0000

[diff] [blame]

929

for (unsigned i=0, N=bbMvec.size(); i < N; i++)

Vikram S. Adve

2001-11-05 04:04:23 +0000

[diff] [blame]

930

addEdgesForInstruction(*bbMvec[i], valueToDefVecMap, target);

Vikram S. Adve

2001-09-30 23:36:58 +0000

[diff] [blame]

931

Vikram S. Adve

2001-11-12 18:53:43 +0000

[diff] [blame]

932

#ifdef NEED_SEPARATE_NONSSA_EDGES_CODE

Vikram S. Adve

2001-11-05 04:04:23 +0000

[diff] [blame]

933

// Then add non-SSA edges for all VM instructions in the block.

Vikram S. Adve

2001-09-30 23:36:58 +0000

[diff] [blame]

934

// We assume that all machine instructions that define a value are

935

// generated from the VM instruction corresponding to that value.

Vikram S. Adve

2001-11-05 04:04:23 +0000

[diff] [blame]

936

// TODO: This could probably be done much more efficiently.

Vikram S. Adve

2001-09-30 23:36:58 +0000

[diff] [blame]

937

for (BasicBlock::const_iterator II = bb->begin(); II != bb->end(); ++II)

Vikram S. Adve

2001-11-05 04:04:23 +0000

[diff] [blame]

938

this->addNonSSAEdgesForValue(*II, target);

Chris Lattner

4ed17ba

2001-11-26 18:56:52 +0000

[diff] [blame]

939

#endif //NEED_SEPARATE_NONSSA_EDGES_CODE

Vikram S. Adve

2001-08-28 23:06:02 +0000

[diff] [blame]

940

941

// Then add edges for dependences on machine registers

942

this->addMachineRegEdges(regToRefVecMap, target);

943

944

// Finally, add edges from the dummy root and to dummy leaf

945

this->addDummyEdges();

}

//

// class SchedGraphSet

951

//

952

953

/*ctor*/

Chris Lattner

2002-04-07 20:49:59 +0000

[diff] [blame]

954

SchedGraphSet::SchedGraphSet(const Function* _function,

Vikram S. Adve

2001-08-28 23:06:02 +0000

[diff] [blame]

955

const TargetMachine& target) :

Chris Lattner

2002-04-07 20:49:59 +0000

[diff] [blame]

956

method(_function)

Vikram S. Adve

2001-08-28 23:06:02 +0000

[diff] [blame]

957

{

958

buildGraphsForMethod(method, target);

}

/*dtor*/

SchedGraphSet::~SchedGraphSet()

964

{

965

// delete all the graphs

Chris Lattner

f3dd05c

2002-04-09 05:15:33 +0000

[diff] [blame^]

966

for(iterator I = begin(), E = end(); I != E; ++I)

967

delete *I; // destructor is a friend

Vikram S. Adve

2001-08-28 23:06:02 +0000

[diff] [blame]

}

void

SchedGraphSet::dump() const

973

{

Chris Lattner

2002-04-07 20:49:59 +0000

[diff] [blame]

974

cerr << "======== Sched graphs for function `" << method->getName()

Chris Lattner

2002-01-20 22:54:45 +0000

[diff] [blame]

975

<< "' ========\n\n";

Vikram S. Adve

2001-08-28 23:06:02 +0000

[diff] [blame]

976

977

for (const_iterator I=begin(); I != end(); ++I)

Vikram S. Adve

cf8a98f

2002-03-24 03:40:59 +0000

[diff] [blame]

978

(*I)->dump();

Vikram S. Adve

2001-08-28 23:06:02 +0000

[diff] [blame]

979

Chris Lattner

2002-04-07 20:49:59 +0000

[diff] [blame]

980

cerr << "\n====== End graphs for function `" << method->getName()

Chris Lattner

2002-01-20 22:54:45 +0000

[diff] [blame]

981

<< "' ========\n\n";

Vikram S. Adve

2001-08-28 23:06:02 +0000

[diff] [blame]

}

void

Chris Lattner

2002-04-07 20:49:59 +0000

[diff] [blame]

986

SchedGraphSet::buildGraphsForMethod(const Function *F,

Vikram S. Adve

2001-08-28 23:06:02 +0000

[diff] [blame]

987

const TargetMachine& target)

988

{

Chris Lattner

2002-04-07 20:49:59 +0000

[diff] [blame]

989

for (Function::const_iterator BI = F->begin(); BI != F->end(); ++BI)

990

addGraph(new SchedGraph(*BI, target));

Vikram S. Adve

2001-08-28 23:06:02 +0000

[diff] [blame]

}

Chris Lattner

2002-01-20 22:54:45 +0000

[diff] [blame]

994

std::ostream &operator<<(std::ostream &os, const SchedGraphEdge& edge)

Vikram S. Adve

2001-08-28 23:06:02 +0000

[diff] [blame]

995

{

996

os << "edge [" << edge.src->getNodeId() << "] -> ["

997

<< edge.sink->getNodeId() << "] : ";

998

999

switch(edge.depType) {

1000

case SchedGraphEdge::CtrlDep: os<< "Control Dep"; break;

Vikram S. Adve

2001-11-12 18:53:43 +0000

[diff] [blame]

1001

case SchedGraphEdge::ValueDep: os<< "Reg Value " << edge.val; break;

1002

case SchedGraphEdge::MemoryDep: os<< "Memory Dep"; break;

Vikram S. Adve

2001-08-28 23:06:02 +0000

[diff] [blame]

1003

case SchedGraphEdge::MachineRegister: os<< "Reg " <<edge.machineRegNum;break;

1004

case SchedGraphEdge::MachineResource: os<<"Resource "<<edge.resourceId;break;

1005

default: assert(0); break;

1006

}

1007

Chris Lattner

2002-01-20 22:54:45 +0000

[diff] [blame]

1008

os << " : delay = " << edge.minDelay << "\n";

Vikram S. Adve

2001-08-28 23:06:02 +0000

[diff] [blame]

return os;

}

Chris Lattner

2002-01-20 22:54:45 +0000

[diff] [blame]

1013

std::ostream &operator<<(std::ostream &os, const SchedGraphNode& node)

Vikram S. Adve

2001-08-28 23:06:02 +0000

[diff] [blame]

1014

{

Chris Lattner

2002-01-20 22:54:45 +0000

[diff] [blame]

1015

os << std::string(8, ' ')

Chris Lattner

cee8f9a

2001-11-27 00:03:19 +0000

[diff] [blame]

1016

<< "Node " << node.nodeId << " : "

Chris Lattner

2002-01-20 22:54:45 +0000

[diff] [blame]

1017

<< "latency = " << node.latency << "\n" << std::string(12, ' ');

Vikram S. Adve

2001-08-28 23:06:02 +0000

[diff] [blame]

1018

1019

if (node.getMachineInstr() == NULL)

Chris Lattner

2002-01-20 22:54:45 +0000

[diff] [blame]

1020

os << "(Dummy node)\n";

Vikram S. Adve

2001-08-28 23:06:02 +0000

[diff] [blame]

1021

else

1022

{

Chris Lattner

2002-01-20 22:54:45 +0000

[diff] [blame]

1023

os << *node.getMachineInstr() << "\n" << std::string(12, ' ');

1024

os << node.inEdges.size() << " Incoming Edges:\n";

Vikram S. Adve

2001-08-28 23:06:02 +0000

[diff] [blame]

1025

for (unsigned i=0, N=node.inEdges.size(); i < N; i++)

Chris Lattner

2002-01-20 22:54:45 +0000

[diff] [blame]

1026

os << std::string(16, ' ') << *node.inEdges[i];

Vikram S. Adve

2001-08-28 23:06:02 +0000

[diff] [blame]

1027

Chris Lattner

2002-01-20 22:54:45 +0000

[diff] [blame]

1028

os << std::string(12, ' ') << node.outEdges.size()

1029

<< " Outgoing Edges:\n";

Vikram S. Adve

2001-08-28 23:06:02 +0000

[diff] [blame]

1030

for (unsigned i=0, N=node.outEdges.size(); i < N; i++)

Chris Lattner

2002-01-20 22:54:45 +0000

[diff] [blame]

1031

os << std::string(16, ' ') << *node.outEdges[i];

Vikram S. Adve