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gerrit-public.fairphone.software / fp2-dev / platform / external / llvm / 7295eb4ea3e3a81e697600cbca681674e4b35a20 / . / lib / CodeGen / InstrSched / SchedGraph.cpp
blob: 2656cd21cc11838ed6162057ea9896a1714fa444 [file] [log] [blame]
Vikram S. Adve8b6d2452001-09-18 12:50:40 +0000[diff] [blame]1// $Id$
2//***************************************************************************
3// File:
4// SchedGraph.cpp
5//
6// Purpose:
7// Scheduling graph based on SSA graph plus extra dependence edges
8// capturing dependences due to machine resources (machine registers,
9// CC registers, and any others).
10//
11// History:
12// 7/20/01 - Vikram Adve - Created
13//**************************************************************************/
Vikram S. Adve78ef1392001-08-28 23:06:02 +0000[diff] [blame]14
Chris Lattner46cbff62001-09-14 16:56:32 +0000[diff] [blame]15#include "SchedGraph.h"
Vikram S. Adve78ef1392001-08-28 23:06:02 +0000[diff] [blame]16#include "llvm/InstrTypes.h"
17#include "llvm/Instruction.h"
18#include "llvm/BasicBlock.h"
19#include "llvm/Method.h"
Vikram S. Adve78ef1392001-08-28 23:06:02 +0000[diff] [blame]20#include "llvm/CodeGen/MachineInstr.h"
Vikram S. Adve8b6d2452001-09-18 12:50:40 +0000[diff] [blame]21#include "llvm/Target/MachineInstrInfo.h"
22#include "llvm/Target/MachineRegInfo.h"
Chris Lattnerc83e9542001-09-07 21:21:03 +0000[diff] [blame]23#include "llvm/Support/StringExtras.h"
24#include <algorithm>
Vikram S. Adve78ef1392001-08-28 23:06:02 +0000[diff] [blame]25
Vikram S. Adve5316f8f2001-09-30 23:36:58 +0000[diff] [blame]26
27//*********************** Internal Data Structures *************************/
28
29typedef vector< pair<SchedGraphNode*, unsigned int> > RefVec;
30
31// The following needs to be a class, not a typedef, so we can use
32// an opaque declaration in SchedGraph.h
33class RegToRefVecMap: public hash_map<int, RefVec> {
34 typedef hash_map<int, RefVec>:: iterator iterator;
35 typedef hash_map<int, RefVec>::const_iterator const_iterator;
36};
37
Vikram S. Adve78ef1392001-08-28 23:06:02 +0000[diff] [blame]38//
39// class SchedGraphEdge
40//
41
42/*ctor*/
43SchedGraphEdge::SchedGraphEdge(SchedGraphNode* _src,
44 SchedGraphNode* _sink,
45 SchedGraphEdgeDepType _depType,
46 DataDepOrderType _depOrderType,
47 int _minDelay)
48 : src(_src),
49 sink(_sink),
50 depType(_depType),
51 depOrderType(_depOrderType),
52 val(NULL),
53 minDelay((_minDelay >= 0)? _minDelay : _src->getLatency())
54{
55 src->addOutEdge(this);
56 sink->addInEdge(this);
57}
58
59
60/*ctor*/
Vikram S. Adve5316f8f2001-09-30 23:36:58 +0000[diff] [blame]61SchedGraphEdge::SchedGraphEdge(SchedGraphNode* _src,
62 SchedGraphNode* _sink,
63 const Value* _val,
Vikram S. Adve78ef1392001-08-28 23:06:02 +0000[diff] [blame]64 DataDepOrderType _depOrderType,
Vikram S. Adve5316f8f2001-09-30 23:36:58 +0000[diff] [blame]65 int _minDelay)
Vikram S. Adve78ef1392001-08-28 23:06:02 +0000[diff] [blame]66 : src(_src),
67 sink(_sink),
68 depType(DefUseDep),
69 depOrderType(_depOrderType),
70 val(_val),
71 minDelay((_minDelay >= 0)? _minDelay : _src->getLatency())
72{
73 src->addOutEdge(this);
74 sink->addInEdge(this);
75}
76
77
78/*ctor*/
Vikram S. Adve5316f8f2001-09-30 23:36:58 +0000[diff] [blame]79SchedGraphEdge::SchedGraphEdge(SchedGraphNode* _src,
80 SchedGraphNode* _sink,
81 unsigned int _regNum,
Vikram S. Adve78ef1392001-08-28 23:06:02 +0000[diff] [blame]82 DataDepOrderType _depOrderType,
Vikram S. Adve5316f8f2001-09-30 23:36:58 +0000[diff] [blame]83 int _minDelay)
Vikram S. Adve78ef1392001-08-28 23:06:02 +0000[diff] [blame]84 : src(_src),
85 sink(_sink),
86 depType(MachineRegister),
87 depOrderType(_depOrderType),
88 minDelay((_minDelay >= 0)? _minDelay : _src->getLatency()),
89 machineRegNum(_regNum)
90{
91 src->addOutEdge(this);
92 sink->addInEdge(this);
93}
94
95
96/*ctor*/
97SchedGraphEdge::SchedGraphEdge(SchedGraphNode* _src,
98 SchedGraphNode* _sink,
99 ResourceId _resourceId,
Vikram S. Adve5316f8f2001-09-30 23:36:58 +0000[diff] [blame]100 int _minDelay)
Vikram S. Adve78ef1392001-08-28 23:06:02 +0000[diff] [blame]101 : src(_src),
102 sink(_sink),
103 depType(MachineResource),
104 depOrderType(NonDataDep),
105 minDelay((_minDelay >= 0)? _minDelay : _src->getLatency()),
106 resourceId(_resourceId)
107{
108 src->addOutEdge(this);
109 sink->addInEdge(this);
110}
111
Vikram S. Adve8b6d2452001-09-18 12:50:40 +0000[diff] [blame]112/*dtor*/
113SchedGraphEdge::~SchedGraphEdge()
114{
115}
116
Chris Lattnerc83e9542001-09-07 21:21:03 +0000[diff] [blame]117void SchedGraphEdge::dump(int indent=0) const {
118 printIndent(indent); cout << *this;
119}
120
Vikram S. Adve78ef1392001-08-28 23:06:02 +0000[diff] [blame]121
122//
123// class SchedGraphNode
124//
125
126/*ctor*/
127SchedGraphNode::SchedGraphNode(unsigned int _nodeId,
128 const Instruction* _instr,
129 const MachineInstr* _minstr,
130 const TargetMachine& target)
131 : nodeId(_nodeId),
132 instr(_instr),
133 minstr(_minstr),
134 latency(0)
135{
136 if (minstr)
137 {
138 MachineOpCode mopCode = minstr->getOpCode();
139 latency = target.getInstrInfo().hasResultInterlock(mopCode)
140 ? target.getInstrInfo().minLatency(mopCode)
141 : target.getInstrInfo().maxLatency(mopCode);
142 }
143}
144
145
146/*dtor*/
147SchedGraphNode::~SchedGraphNode()
148{
Vikram S. Adve78ef1392001-08-28 23:06:02 +0000[diff] [blame]149}
150
Chris Lattnerc83e9542001-09-07 21:21:03 +0000[diff] [blame]151void SchedGraphNode::dump(int indent=0) const {
152 printIndent(indent); cout << *this;
153}
154
Vikram S. Adve78ef1392001-08-28 23:06:02 +0000[diff] [blame]155
156inline void
157SchedGraphNode::addInEdge(SchedGraphEdge* edge)
158{
159 inEdges.push_back(edge);
160}
161
162
163inline void
164SchedGraphNode::addOutEdge(SchedGraphEdge* edge)
165{
166 outEdges.push_back(edge);
167}
168
169inline void
170SchedGraphNode::removeInEdge(const SchedGraphEdge* edge)
171{
172 assert(edge->getSink() == this);
Vikram S. Adve8b6d2452001-09-18 12:50:40 +0000[diff] [blame]173
Vikram S. Adve78ef1392001-08-28 23:06:02 +0000[diff] [blame]174 for (iterator I = beginInEdges(); I != endInEdges(); ++I)
175 if ((*I) == edge)
176 {
177 inEdges.erase(I);
178 break;
179 }
180}
181
182inline void
183SchedGraphNode::removeOutEdge(const SchedGraphEdge* edge)
184{
185 assert(edge->getSrc() == this);
Vikram S. Adve8b6d2452001-09-18 12:50:40 +0000[diff] [blame]186
Vikram S. Adve78ef1392001-08-28 23:06:02 +0000[diff] [blame]187 for (iterator I = beginOutEdges(); I != endOutEdges(); ++I)
188 if ((*I) == edge)
189 {
190 outEdges.erase(I);
191 break;
192 }
193}
194
Vikram S. Adve78ef1392001-08-28 23:06:02 +0000[diff] [blame]195
196//
197// class SchedGraph
198//
199
200
201/*ctor*/
202SchedGraph::SchedGraph(const BasicBlock* bb,
203 const TargetMachine& target)
204{
205 bbVec.push_back(bb);
206 this->buildGraph(target);
207}
208
209
210/*dtor*/
211SchedGraph::~SchedGraph()
212{
Vikram S. Adve78ef1392001-08-28 23:06:02 +0000[diff] [blame]213 for (iterator I=begin(); I != end(); ++I)
Vikram S. Adve8b6d2452001-09-18 12:50:40 +0000[diff] [blame]214 {
215 SchedGraphNode* node = (*I).second;
216
217 // for each node, delete its out-edges
218 for (SchedGraphNode::iterator I = node->beginOutEdges();
219 I != node->endOutEdges(); ++I)
220 delete *I;
221
222 // then delete the node itself.
223 delete node;
224 }
Vikram S. Adve78ef1392001-08-28 23:06:02 +0000[diff] [blame]225}
226
227
228void
229SchedGraph::dump() const
230{
231 cout << " Sched Graph for Basic Blocks: ";
232 for (unsigned i=0, N=bbVec.size(); i < N; i++)
233 {
234 cout << (bbVec[i]->hasName()? bbVec[i]->getName() : "block")
235 << " (" << bbVec[i] << ")"
236 << ((i == N-1)? "" : ", ");
237 }
238
239 cout << endl << endl << " Actual Root nodes : ";
240 for (unsigned i=0, N=graphRoot->outEdges.size(); i < N; i++)
241 cout << graphRoot->outEdges[i]->getSink()->getNodeId()
242 << ((i == N-1)? "" : ", ");
243
244 cout << endl << " Graph Nodes:" << endl;
245 for (const_iterator I=begin(); I != end(); ++I)
246 cout << endl << * (*I).second;
247
248 cout << endl;
249}
250
251
252void
Vikram S. Adve8b6d2452001-09-18 12:50:40 +0000[diff] [blame]253SchedGraph::eraseIncomingEdges(SchedGraphNode* node, bool addDummyEdges)
254{
255 // Delete and disconnect all in-edges for the node
256 for (SchedGraphNode::iterator I = node->beginInEdges();
257 I != node->endInEdges(); ++I)
258 {
259 SchedGraphNode* srcNode = (*I)->getSrc();
260 srcNode->removeOutEdge(*I);
261 delete *I;
262
263 if (addDummyEdges &&
264 srcNode != getRoot() &&
265 srcNode->beginOutEdges() == srcNode->endOutEdges())
266 { // srcNode has no more out edges, so add an edge to dummy EXIT node
267 assert(node != getLeaf() && "Adding edge that was just removed?");
268 (void) new SchedGraphEdge(srcNode, getLeaf(),
269 SchedGraphEdge::CtrlDep, SchedGraphEdge::NonDataDep, 0);
270 }
271 }
272
273 node->inEdges.clear();
274}
275
276void
277SchedGraph::eraseOutgoingEdges(SchedGraphNode* node, bool addDummyEdges)
278{
279 // Delete and disconnect all out-edges for the node
280 for (SchedGraphNode::iterator I = node->beginOutEdges();
281 I != node->endOutEdges(); ++I)
282 {
283 SchedGraphNode* sinkNode = (*I)->getSink();
284 sinkNode->removeInEdge(*I);
285 delete *I;
286
287 if (addDummyEdges &&
288 sinkNode != getLeaf() &&
289 sinkNode->beginInEdges() == sinkNode->endInEdges())
290 { //sinkNode has no more in edges, so add an edge from dummy ENTRY node
291 assert(node != getRoot() && "Adding edge that was just removed?");
292 (void) new SchedGraphEdge(getRoot(), sinkNode,
293 SchedGraphEdge::CtrlDep, SchedGraphEdge::NonDataDep, 0);
294 }
295 }
296
297 node->outEdges.clear();
298}
299
300void
301SchedGraph::eraseIncidentEdges(SchedGraphNode* node, bool addDummyEdges)
302{
303 this->eraseIncomingEdges(node, addDummyEdges);
304 this->eraseOutgoingEdges(node, addDummyEdges);
305}
306
307
308void
Vikram S. Adve78ef1392001-08-28 23:06:02 +0000[diff] [blame]309SchedGraph::addDummyEdges()
310{
311 assert(graphRoot->outEdges.size() == 0);
312
313 for (const_iterator I=begin(); I != end(); ++I)
314 {
315 SchedGraphNode* node = (*I).second;
316 assert(node != graphRoot && node != graphLeaf);
317 if (node->beginInEdges() == node->endInEdges())
318 (void) new SchedGraphEdge(graphRoot, node, SchedGraphEdge::CtrlDep,
319 SchedGraphEdge::NonDataDep, 0);
320 if (node->beginOutEdges() == node->endOutEdges())
321 (void) new SchedGraphEdge(node, graphLeaf, SchedGraphEdge::CtrlDep,
322 SchedGraphEdge::NonDataDep, 0);
323 }
324}
325
326
327void
328SchedGraph::addCDEdges(const TerminatorInst* term,
329 const TargetMachine& target)
330{
331 const MachineInstrInfo& mii = target.getInstrInfo();
332 MachineCodeForVMInstr& termMvec = term->getMachineInstrVec();
333
334 // Find the first branch instr in the sequence of machine instrs for term
335 //
336 unsigned first = 0;
337 while (! mii.isBranch(termMvec[first]->getOpCode()))
338 ++first;
339 assert(first < termMvec.size() &&
340 "No branch instructions for BR? Ok, but weird! Delete assertion.");
341 if (first == termMvec.size())
342 return;
343
344 SchedGraphNode* firstBrNode = this->getGraphNodeForInstr(termMvec[first]);
345
346 // Add CD edges from each instruction in the sequence to the
347 // *last preceding* branch instr. in the sequence
348 //
349 for (int i = (int) termMvec.size()-1; i > (int) first; i--)
350 {
351 SchedGraphNode* toNode = this->getGraphNodeForInstr(termMvec[i]);
352 assert(toNode && "No node for instr generated for branch?");
353
354 for (int j = i-1; j >= 0; j--)
355 if (mii.isBranch(termMvec[j]->getOpCode()))
356 {
357 SchedGraphNode* brNode = this->getGraphNodeForInstr(termMvec[j]);
358 assert(brNode && "No node for instr generated for branch?");
359 (void) new SchedGraphEdge(brNode, toNode, SchedGraphEdge::CtrlDep,
360 SchedGraphEdge::NonDataDep, 0);
361 break; // only one incoming edge is enough
362 }
363 }
364
365 // Add CD edges from each instruction preceding the first branch
366 // to the first branch
367 //
368 for (int i = first-1; i >= 0; i--)
369 {
370 SchedGraphNode* fromNode = this->getGraphNodeForInstr(termMvec[i]);
371 assert(fromNode && "No node for instr generated for branch?");
372 (void) new SchedGraphEdge(fromNode, firstBrNode, SchedGraphEdge::CtrlDep,
373 SchedGraphEdge::NonDataDep, 0);
374 }
375
376 // Now add CD edges to the first branch instruction in the sequence
377 // from all preceding instructions in the basic block.
378 //
379 const BasicBlock* bb = term->getParent();
380 for (BasicBlock::const_iterator II = bb->begin(); II != bb->end(); ++II)
381 {
382 if ((*II) == (const Instruction*) term) // special case, handled above
383 continue;
384
385 assert(! (*II)->isTerminator() && "Two terminators in basic block?");
386
387 const MachineCodeForVMInstr& mvec = (*II)->getMachineInstrVec();
388 for (unsigned i=0, N=mvec.size(); i < N; i++)
389 {
390 SchedGraphNode* fromNode = this->getGraphNodeForInstr(mvec[i]);
391 if (fromNode == NULL)
392 continue; // dummy instruction, e.g., PHI
393
394 (void) new SchedGraphEdge(fromNode, firstBrNode,
395 SchedGraphEdge::CtrlDep,
396 SchedGraphEdge::NonDataDep, 0);
397
398 // If we find any other machine instructions (other than due to
399 // the terminator) that also have delay slots, add an outgoing edge
400 // from the instruction to the instructions in the delay slots.
401 //
402 unsigned d = mii.getNumDelaySlots(mvec[i]->getOpCode());
403 assert(i+d < N && "Insufficient delay slots for instruction?");
404
405 for (unsigned j=1; j <= d; j++)
406 {
407 SchedGraphNode* toNode = this->getGraphNodeForInstr(mvec[i+j]);
408 assert(toNode && "No node for machine instr in delay slot?");
409 (void) new SchedGraphEdge(fromNode, toNode,
410 SchedGraphEdge::CtrlDep,
411 SchedGraphEdge::NonDataDep, 0);
412 }
413 }
414 }
415}
416
417
418void
419SchedGraph::addMemEdges(const vector<const Instruction*>& memVec,
420 const TargetMachine& target)
421{
422 const MachineInstrInfo& mii = target.getInstrInfo();
423
424 for (unsigned im=0, NM=memVec.size(); im < NM; im++)
425 {
426 const Instruction* fromInstr = memVec[im];
427 bool fromIsLoad = fromInstr->getOpcode() == Instruction::Load;
428
429 for (unsigned jm=im+1; jm < NM; jm++)
430 {
431 const Instruction* toInstr = memVec[jm];
432 bool toIsLoad = toInstr->getOpcode() == Instruction::Load;
433 SchedGraphEdge::DataDepOrderType depOrderType;
434
435 if (fromIsLoad)
436 {
437 if (toIsLoad) continue; // both instructions are loads
438 depOrderType = SchedGraphEdge::AntiDep;
439 }
440 else
441 {
442 depOrderType = (toIsLoad)? SchedGraphEdge::TrueDep
443 : SchedGraphEdge::OutputDep;
444 }
445
446 MachineCodeForVMInstr& fromInstrMvec=fromInstr->getMachineInstrVec();
447 MachineCodeForVMInstr& toInstrMvec = toInstr->getMachineInstrVec();
448
449 // We have two VM memory instructions, and at least one is a store.
450 // Add edges between all machine load/store instructions.
451 //
452 for (unsigned i=0, N=fromInstrMvec.size(); i < N; i++)
453 {
454 MachineOpCode fromOpCode = fromInstrMvec[i]->getOpCode();
455 if (mii.isLoad(fromOpCode) || mii.isStore(fromOpCode))
456 {
457 SchedGraphNode* fromNode =
458 this->getGraphNodeForInstr(fromInstrMvec[i]);
459 assert(fromNode && "No node for memory instr?");
460
461 for (unsigned j=0, M=toInstrMvec.size(); j < M; j++)
462 {
463 MachineOpCode toOpCode = toInstrMvec[j]->getOpCode();
464 if (mii.isLoad(toOpCode) || mii.isStore(toOpCode))
465 {
466 SchedGraphNode* toNode =
467 this->getGraphNodeForInstr(toInstrMvec[j]);
468 assert(toNode && "No node for memory instr?");
469
470 (void) new SchedGraphEdge(fromNode, toNode,
471 SchedGraphEdge::MemoryDep,
472 depOrderType, 1);
473 }
474 }
475 }
476 }
477 }
478 }
479}
480
481
Vikram S. Adve78ef1392001-08-28 23:06:02 +0000[diff] [blame]482void
Vikram S. Adve5316f8f2001-09-30 23:36:58 +0000[diff] [blame]483SchedGraph::addMachineRegEdges(RegToRefVecMap& regToRefVecMap,
Vikram S. Adve78ef1392001-08-28 23:06:02 +0000[diff] [blame]484 const TargetMachine& target)
485{
486 assert(bbVec.size() == 1 && "Only handling a single basic block here");
487
488 // This assumes that such hardwired registers are never allocated
489 // to any LLVM value (since register allocation happens later), i.e.,
490 // any uses or defs of this register have been made explicit!
491 // Also assumes that two registers with different numbers are
492 // not aliased!
493 //
Vikram S. Adve5316f8f2001-09-30 23:36:58 +0000[diff] [blame]494 for (RegToRefVecMap::iterator I = regToRefVecMap.begin();
Vikram S. Adve78ef1392001-08-28 23:06:02 +0000[diff] [blame]495 I != regToRefVecMap.end(); ++I)
496 {
Vikram S. Adve5316f8f2001-09-30 23:36:58 +0000[diff] [blame]497 int regNum = (*I).first;
498 RefVec& regRefVec = (*I).second;
Vikram S. Adve78ef1392001-08-28 23:06:02 +0000[diff] [blame]499
500 // regRefVec is ordered by control flow order in the basic block
Vikram S. Adve78ef1392001-08-28 23:06:02 +0000[diff] [blame]501 for (unsigned i=0; i < regRefVec.size(); ++i)
502 {
503 SchedGraphNode* node = regRefVec[i].first;
Vikram S. Adve5316f8f2001-09-30 23:36:58 +0000[diff] [blame]504 unsigned int opNum = regRefVec[i].second;
505 bool isDef = node->getMachineInstr()->operandIsDefined(opNum);
506
507 for (unsigned p=0; p < i; ++p)
508 {
509 SchedGraphNode* prevNode = regRefVec[p].first;
510 if (prevNode != node)
511 {
512 unsigned int prevOpNum = regRefVec[p].second;
513 bool prevIsDef =
514 prevNode->getMachineInstr()->operandIsDefined(prevOpNum);
515
516 if (isDef)
517 new SchedGraphEdge(prevNode, node, regNum,
518 (prevIsDef)? SchedGraphEdge::OutputDep
519 : SchedGraphEdge::AntiDep);
520 else if (prevIsDef)
521 new SchedGraphEdge(prevNode, node, regNum,
522 SchedGraphEdge::TrueDep);
523 }
524 }
525 }
Vikram S. Adve78ef1392001-08-28 23:06:02 +0000[diff] [blame]526 }
527}
528
529
530void
531SchedGraph::addSSAEdge(SchedGraphNode* node,
Vikram S. Adve5316f8f2001-09-30 23:36:58 +0000[diff] [blame]532 const Value* val,
Vikram S. Adve78ef1392001-08-28 23:06:02 +0000[diff] [blame]533 const TargetMachine& target)
534{
Chris Lattner91975852001-09-10 20:09:28 +0000[diff] [blame]535 if (!val->isInstruction()) return;
Vikram S. Adve5316f8f2001-09-30 23:36:58 +0000[diff] [blame]536
Vikram S. Adve78ef1392001-08-28 23:06:02 +0000[diff] [blame]537 const Instruction* thisVMInstr = node->getInstr();
Vikram S. Adve8b6d2452001-09-18 12:50:40 +0000[diff] [blame]538 const Instruction* defVMInstr = val->castInstructionAsserting();
Vikram S. Adve78ef1392001-08-28 23:06:02 +0000[diff] [blame]539
540 // Phi instructions are the only ones that produce a value but don't get
541 // any non-dummy machine instructions. Return here as an optimization.
542 //
543 if (defVMInstr->isPHINode())
544 return;
545
546 // Now add the graph edge for the appropriate machine instruction(s).
547 // Note that multiple machine instructions generated for the
548 // def VM instruction may modify the register for the def value.
549 //
550 MachineCodeForVMInstr& defMvec = defVMInstr->getMachineInstrVec();
551 const MachineInstrInfo& mii = target.getInstrInfo();
552
553 for (unsigned i=0, N=defMvec.size(); i < N; i++)
554 for (int o=0, N = mii.getNumOperands(defMvec[i]->getOpCode()); o < N; o++)
555 {
556 const MachineOperand& defOp = defMvec[i]->getOperand(o);
557
558 if (defOp.opIsDef()
559 && (defOp.getOperandType() == MachineOperand::MO_VirtualRegister
560 || defOp.getOperandType() == MachineOperand::MO_CCRegister)
561 && (defOp.getVRegValue() == val))
562 {
563 // this instruction does define value `val'.
564 // if there is a node for it in the same graph, add an edge.
565 SchedGraphNode* defNode = this->getGraphNodeForInstr(defMvec[i]);
Vikram S. Adve8b6d2452001-09-18 12:50:40 +0000[diff] [blame]566 if (defNode != NULL && defNode != node)
Vikram S. Adve5316f8f2001-09-30 23:36:58 +0000[diff] [blame]567 (void) new SchedGraphEdge(defNode, node, val);
Vikram S. Adve78ef1392001-08-28 23:06:02 +0000[diff] [blame]568 }
569 }
570}
571
572
573void
Vikram S. Adve5316f8f2001-09-30 23:36:58 +0000[diff] [blame]574SchedGraph::addEdgesForInstruction(const MachineInstr& minstr,
575 RegToRefVecMap& regToRefVecMap,
Vikram S. Adve78ef1392001-08-28 23:06:02 +0000[diff] [blame]576 const TargetMachine& target)
577{
Vikram S. Adve5316f8f2001-09-30 23:36:58 +0000[diff] [blame]578 SchedGraphNode* node = this->getGraphNodeForInstr(&minstr);
579 if (node == NULL)
580 return;
Vikram S. Adve78ef1392001-08-28 23:06:02 +0000[diff] [blame]581
Vikram S. Adve5316f8f2001-09-30 23:36:58 +0000[diff] [blame]582 assert(node->getInstr() && "Should be no dummy nodes here!");
583 const Instruction& instr = * node->getInstr();
584
585 // Add edges for all operands of the machine instruction.
586 // Also, record all machine register references to add reg. deps. later.
Vikram S. Adve78ef1392001-08-28 23:06:02 +0000[diff] [blame]587 //
588 for (unsigned i=0, numOps=minstr.getNumOperands(); i < numOps; i++)
589 {
590 const MachineOperand& mop = minstr.getOperand(i);
591
592 // if this writes to a machine register other than the hardwired
Vikram S. Adve5316f8f2001-09-30 23:36:58 +0000[diff] [blame]593 // "zero" register, record the reference.
Vikram S. Adve78ef1392001-08-28 23:06:02 +0000[diff] [blame]594 if (mop.getOperandType() == MachineOperand::MO_MachineRegister
Vikram S. Adve8b6d2452001-09-18 12:50:40 +0000[diff] [blame]595 && (mop.getMachineRegNum()
Vikram S. Adve5316f8f2001-09-30 23:36:58 +0000[diff] [blame]596 != (unsigned) target.getRegInfo().getZeroRegNum()))
Vikram S. Adve78ef1392001-08-28 23:06:02 +0000[diff] [blame]597 {
Vikram S. Adve5316f8f2001-09-30 23:36:58 +0000[diff] [blame]598 regToRefVecMap[mop.getMachineRegNum()].push_back(make_pair(node, i));
Vikram S. Adve78ef1392001-08-28 23:06:02 +0000[diff] [blame]599 }
600
601 // ignore all other def operands
602 if (minstr.operandIsDefined(i))
603 continue;
604
605 switch(mop.getOperandType())
606 {
607 case MachineOperand::MO_VirtualRegister:
608 case MachineOperand::MO_CCRegister:
609 if (mop.getVRegValue())
610 addSSAEdge(node, mop.getVRegValue(), target);
611 break;
612
613 case MachineOperand::MO_MachineRegister:
614 break;
615
616 case MachineOperand::MO_SignExtendedImmed:
617 case MachineOperand::MO_UnextendedImmed:
618 case MachineOperand::MO_PCRelativeDisp:
619 break; // nothing to do for immediate fields
620
621 default:
622 assert(0 && "Unknown machine operand type in SchedGraph builder");
623 break;
624 }
625 }
Vikram S. Adve78ef1392001-08-28 23:06:02 +0000[diff] [blame]626
Vikram S. Adve5316f8f2001-09-30 23:36:58 +0000[diff] [blame]627 // Add edges for values implicitly used by the machine instruction sequence
628 // for the VM instruction but not made explicit operands. Examples include
629 // function arguments to a Call instructions or the return value of a Ret
630 // instruction. We'll conservatively add the dependences to every machine
631 // machine instruction in the instruction sequence for this VM instr
632 // (at least for now, there is never more than one machine instr).
633 //
634 const vector<const Value*>& implicitUses =
635 instr.getMachineInstrVec().getImplicitUses();
636 for (unsigned i=0; i < implicitUses.size(); ++i)
637 addSSAEdge(node, implicitUses[i], target);
638}
639
640
641void
642SchedGraph::addNonSSAEdgesForValue(const Instruction* instr,
643 const TargetMachine& target)
644{
645 assert(instr->isInstruction());
646 if (instr->isPHINode())
647 return;
648
649 MachineCodeForVMInstr& mvec = instr->getMachineInstrVec();
650 const MachineInstrInfo& mii = target.getInstrInfo();
651 RefVec refVec;
652
653 for (unsigned i=0, N=mvec.size(); i < N; i++)
654 for (int o=0, N = mii.getNumOperands(mvec[i]->getOpCode()); o < N; o++)
655 {
656 const MachineOperand& op = mvec[i]->getOperand(o);
657
658 if ((op.getOperandType() == MachineOperand::MO_VirtualRegister ||
659 op.getOperandType() == MachineOperand::MO_CCRegister)
660 && op.getVRegValue() == (Value*) instr)
661 {
662 // this operand is a definition or use of value `instr'
663 SchedGraphNode* node = this->getGraphNodeForInstr(mvec[i]);
664 assert(node && "No node for machine instruction in this BB?");
665 refVec.push_back(make_pair(node, o));
666 }
667 }
668
669 // refVec is ordered by control flow order of the machine instructions
670 for (unsigned i=0; i < refVec.size(); ++i)
671 {
672 SchedGraphNode* node = refVec[i].first;
673 unsigned int opNum = refVec[i].second;
674 bool isDef = node->getMachineInstr()->operandIsDefined(opNum);
675
676 if (isDef)
677 // add output and/or anti deps to this definition
678 for (unsigned p=0; p < i; ++p)
679 {
680 SchedGraphNode* prevNode = refVec[p].first;
681 if (prevNode != node)
682 {
683 bool prevIsDef = prevNode->getMachineInstr()->
684 operandIsDefined(refVec[p].second);
685 new SchedGraphEdge(prevNode, node, SchedGraphEdge::DefUseDep,
686 (prevIsDef)? SchedGraphEdge::OutputDep
687 : SchedGraphEdge::AntiDep);
688 }
689 }
690 }
691}
692
693
694void
695SchedGraph::buildNodesforVMInstr(const TargetMachine& target,
696 const Instruction* instr)
697{
698 const MachineInstrInfo& mii = target.getInstrInfo();
699 const MachineCodeForVMInstr& mvec = instr->getMachineInstrVec();
700 for (unsigned i=0; i < mvec.size(); i++)
701 if (! mii.isDummyPhiInstr(mvec[i]->getOpCode()))
702 {
703 SchedGraphNode* node = new SchedGraphNode(getNumNodes(),
704 instr, mvec[i], target);
705 this->noteGraphNodeForInstr(mvec[i], node);
706 }
Vikram S. Adve78ef1392001-08-28 23:06:02 +0000[diff] [blame]707}
708
709
710void
711SchedGraph::buildGraph(const TargetMachine& target)
712{
713 const MachineInstrInfo& mii = target.getInstrInfo();
714 const BasicBlock* bb = bbVec[0];
715
716 assert(bbVec.size() == 1 && "Only handling a single basic block here");
717
718 // Use this data structures to note all LLVM memory instructions.
719 // We use this to add memory dependence edges without a second full walk.
720 //
721 vector<const Instruction*> memVec;
722
723 // Use this data structures to note any uses or definitions of
724 // machine registers so we can add edges for those later without
725 // extra passes over the nodes.
726 // The vector holds an ordered list of references to the machine reg,
727 // ordered according to control-flow order. This only works for a
728 // single basic block, hence the assertion. Each reference is identified
729 // by the pair: <node, operand-number>.
730 //
Vikram S. Adve5316f8f2001-09-30 23:36:58 +0000[diff] [blame]731 RegToRefVecMap regToRefVecMap;
Vikram S. Adve78ef1392001-08-28 23:06:02 +0000[diff] [blame]732
733 // Make a dummy root node. We'll add edges to the real roots later.
734 graphRoot = new SchedGraphNode(0, NULL, NULL, target);
735 graphLeaf = new SchedGraphNode(1, NULL, NULL, target);
736
737 //----------------------------------------------------------------
Vikram S. Adve5316f8f2001-09-30 23:36:58 +0000[diff] [blame]738 // First add nodes for all the machine instructions in the basic block
739 // because this greatly simplifies identifying which edges to add.
740 // Do this one VM instruction at a time since the SchedGraphNode needs that.
Vikram S. Adve78ef1392001-08-28 23:06:02 +0000[diff] [blame]741 // Also, remember the load/store instructions to add memory deps later.
742 //----------------------------------------------------------------
743
744 for (BasicBlock::const_iterator II = bb->begin(); II != bb->end(); ++II)
745 {
746 const Instruction *instr = *II;
Vikram S. Adve5316f8f2001-09-30 23:36:58 +0000[diff] [blame]747
748 // Build graph nodes for this VM instruction
749 buildNodesforVMInstr(target, instr);
Vikram S. Adve78ef1392001-08-28 23:06:02 +0000[diff] [blame]750
Vikram S. Adve5316f8f2001-09-30 23:36:58 +0000[diff] [blame]751 // Remember the load/store instructions to add memory deps later.
Vikram S. Adve78ef1392001-08-28 23:06:02 +0000[diff] [blame]752 if (instr->getOpcode() == Instruction::Load ||
753 instr->getOpcode() == Instruction::Store)
754 memVec.push_back(instr);
755 }
756
757 //----------------------------------------------------------------
Vikram S. Adve5316f8f2001-09-30 23:36:58 +0000[diff] [blame]758 // Now add edges for the following (all are incoming edges except (4)):
759 // (1) operands of the machine instruction, including hidden operands
760 // (2) machine register dependences
761 // (3) memory load/store dependences
762 // (3) other resource dependences for the machine instruction, if any
763 // (4) output dependences when multiple machine instructions define the
764 // same value; all must have been generated from a single VM instrn
765 // (5) control dependences to branch instructions generated for the
766 // terminator instruction of the BB. Because of delay slots and
767 // 2-way conditional branches, multiple CD edges are needed
768 // (see addCDEdges for details).
769 // Also, note any uses or defs of machine registers.
770 //
Vikram S. Adve78ef1392001-08-28 23:06:02 +0000[diff] [blame]771 //----------------------------------------------------------------
772
773 // First, add edges to the terminator instruction of the basic block.
774 this->addCDEdges(bb->getTerminator(), target);
775
776 // Then add memory dep edges: store->load, load->store, and store->store
777 this->addMemEdges(memVec, target);
778
779 // Then add other edges for all instructions in the block.
Vikram S. Adve5316f8f2001-09-30 23:36:58 +0000[diff] [blame]780 // Do this in machine code order and find all references to machine regs.
781 MachineCodeForBasicBlock& mvec = bb->getMachineInstrVec();
782 for (unsigned i=0, N=mvec.size(); i < N; i++)
783 addEdgesForInstruction(*mvec[i], regToRefVecMap, target);
784
785 // Since the code is no longer in SSA form, add output dep. edges
786 // between machine instructions that define the same Value, and anti-dep.
787 // edges from those to other machine instructions for the same VM instr.
788 // We assume that all machine instructions that define a value are
789 // generated from the VM instruction corresponding to that value.
790 //
791 for (BasicBlock::const_iterator II = bb->begin(); II != bb->end(); ++II)
Vikram S. Adve78ef1392001-08-28 23:06:02 +0000[diff] [blame]792 {
Vikram S. Adve5316f8f2001-09-30 23:36:58 +0000[diff] [blame]793 const Instruction *instr = *II;
794 this->addNonSSAEdgesForValue(instr, target);
Vikram S. Adve78ef1392001-08-28 23:06:02 +0000[diff] [blame]795 }
796
797 // Then add edges for dependences on machine registers
798 this->addMachineRegEdges(regToRefVecMap, target);
799
800 // Finally, add edges from the dummy root and to dummy leaf
801 this->addDummyEdges();
802}
803
804
805//
806// class SchedGraphSet
807//
808
809/*ctor*/
810SchedGraphSet::SchedGraphSet(const Method* _method,
811 const TargetMachine& target) :
812 method(_method)
813{
814 buildGraphsForMethod(method, target);
815}
816
817
818/*dtor*/
819SchedGraphSet::~SchedGraphSet()
820{
821 // delete all the graphs
822 for (iterator I=begin(); I != end(); ++I)
823 delete (*I).second;
824}
825
826
827void
828SchedGraphSet::dump() const
829{
830 cout << "======== Sched graphs for method `"
831 << (method->hasName()? method->getName() : "???")
832 << "' ========" << endl << endl;
833
834 for (const_iterator I=begin(); I != end(); ++I)
835 (*I).second->dump();
836
837 cout << endl << "====== End graphs for method `"
838 << (method->hasName()? method->getName() : "")
839 << "' ========" << endl << endl;
840}
841
842
843void
844SchedGraphSet::buildGraphsForMethod(const Method *method,
845 const TargetMachine& target)
846{
847 for (Method::const_iterator BI = method->begin(); BI != method->end(); ++BI)
848 {
849 SchedGraph* graph = new SchedGraph(*BI, target);
850 this->noteGraphForBlock(*BI, graph);
851 }
852}
853
854
855
856ostream&
857operator<<(ostream& os, const SchedGraphEdge& edge)
858{
859 os << "edge [" << edge.src->getNodeId() << "] -> ["
860 << edge.sink->getNodeId() << "] : ";
861
862 switch(edge.depType) {
863 case SchedGraphEdge::CtrlDep: os<< "Control Dep"; break;
864 case SchedGraphEdge::DefUseDep: os<< "Reg Value " << edge.val; break;
865 case SchedGraphEdge::MemoryDep: os<< "Mem Value " << edge.val; break;
866 case SchedGraphEdge::MachineRegister: os<< "Reg " <<edge.machineRegNum;break;
867 case SchedGraphEdge::MachineResource: os<<"Resource "<<edge.resourceId;break;
868 default: assert(0); break;
869 }
870
871 os << " : delay = " << edge.minDelay << endl;
872
873 return os;
874}
875
876ostream&
877operator<<(ostream& os, const SchedGraphNode& node)
878{
879 printIndent(4, os);
880 os << "Node " << node.nodeId << " : "
881 << "latency = " << node.latency << endl;
882
883 printIndent(6, os);
884
885 if (node.getMachineInstr() == NULL)
886 os << "(Dummy node)" << endl;
887 else
888 {
889 os << *node.getMachineInstr() << endl;
890
891 printIndent(6, os);
892 os << node.inEdges.size() << " Incoming Edges:" << endl;
893 for (unsigned i=0, N=node.inEdges.size(); i < N; i++)
894 {
895 printIndent(8, os);
896 os << * node.inEdges[i];
897 }
898
899 printIndent(6, os);
900 os << node.outEdges.size() << " Outgoing Edges:" << endl;
901 for (unsigned i=0, N=node.outEdges.size(); i < N; i++)
902 {
903 printIndent(8, os);
904 os << * node.outEdges[i];
905 }
906 }
907
908 return os;
909}