1 //===- GCNMinRegStrategy.cpp ----------------------------------------------===//
2 //
3 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4 // See https://llvm.org/LICENSE.txt for license information.
5 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6 //
7 //===----------------------------------------------------------------------===//
8 ///
9 /// \file
10 /// This file defines and imlements the class GCNMinRegScheduler, which
11 /// implements an experimental, simple scheduler whose main goal is to learn
12 /// ways about consuming less possible registers for a region.
13 ///
14 //===----------------------------------------------------------------------===//
15 
16 #include "llvm/CodeGen/ScheduleDAG.h"
17 using namespace llvm;
18 
19 #define DEBUG_TYPE "machine-scheduler"
20 
21 namespace {
22 
23 class GCNMinRegScheduler {
24   struct Candidate : ilist_node<Candidate> {
25     const SUnit *SU;
26     int Priority;
27 
Candidate__anon5e64532e0111::GCNMinRegScheduler::Candidate28     Candidate(const SUnit *SU_, int Priority_ = 0)
29       : SU(SU_), Priority(Priority_) {}
30   };
31 
32   SpecificBumpPtrAllocator<Candidate> Alloc;
33   using Queue = simple_ilist<Candidate>;
34   Queue RQ; // Ready queue
35 
36   std::vector<unsigned> NumPreds;
37 
isScheduled(const SUnit * SU) const38   bool isScheduled(const SUnit *SU) const {
39     assert(!SU->isBoundaryNode());
40     return NumPreds[SU->NodeNum] == std::numeric_limits<unsigned>::max();
41   }
42 
setIsScheduled(const SUnit * SU)43   void setIsScheduled(const SUnit *SU)  {
44     assert(!SU->isBoundaryNode());
45     NumPreds[SU->NodeNum] = std::numeric_limits<unsigned>::max();
46   }
47 
getNumPreds(const SUnit * SU) const48   unsigned getNumPreds(const SUnit *SU) const {
49     assert(!SU->isBoundaryNode());
50     assert(NumPreds[SU->NodeNum] != std::numeric_limits<unsigned>::max());
51     return NumPreds[SU->NodeNum];
52   }
53 
decNumPreds(const SUnit * SU)54   unsigned decNumPreds(const SUnit *SU) {
55     assert(!SU->isBoundaryNode());
56     assert(NumPreds[SU->NodeNum] != std::numeric_limits<unsigned>::max());
57     return --NumPreds[SU->NodeNum];
58   }
59 
60   void initNumPreds(const decltype(ScheduleDAG::SUnits) &SUnits);
61 
62   int getReadySuccessors(const SUnit *SU) const;
63   int getNotReadySuccessors(const SUnit *SU) const;
64 
65   template <typename Calc>
66   unsigned findMax(unsigned Num, Calc C);
67 
68   Candidate* pickCandidate();
69 
70   void bumpPredsPriority(const SUnit *SchedSU, int Priority);
71   void releaseSuccessors(const SUnit* SU, int Priority);
72 
73 public:
74   std::vector<const SUnit*> schedule(ArrayRef<const SUnit*> TopRoots,
75                                      const ScheduleDAG &DAG);
76 };
77 
78 } // end anonymous namespace
79 
initNumPreds(const decltype(ScheduleDAG::SUnits)& SUnits)80 void GCNMinRegScheduler::initNumPreds(const decltype(ScheduleDAG::SUnits) &SUnits) {
81   NumPreds.resize(SUnits.size());
82   for (unsigned I = 0; I < SUnits.size(); ++I)
83     NumPreds[I] = SUnits[I].NumPredsLeft;
84 }
85 
getReadySuccessors(const SUnit * SU) const86 int GCNMinRegScheduler::getReadySuccessors(const SUnit *SU) const {
87   unsigned NumSchedSuccs = 0;
88   for (auto SDep : SU->Succs) {
89     bool wouldBeScheduled = true;
90     for (auto PDep : SDep.getSUnit()->Preds) {
91       auto PSU = PDep.getSUnit();
92       assert(!PSU->isBoundaryNode());
93       if (PSU != SU && !isScheduled(PSU)) {
94         wouldBeScheduled = false;
95         break;
96       }
97     }
98     NumSchedSuccs += wouldBeScheduled ? 1 : 0;
99   }
100   return NumSchedSuccs;
101 }
102 
getNotReadySuccessors(const SUnit * SU) const103 int GCNMinRegScheduler::getNotReadySuccessors(const SUnit *SU) const {
104   return SU->Succs.size() - getReadySuccessors(SU);
105 }
106 
107 template <typename Calc>
findMax(unsigned Num,Calc C)108 unsigned GCNMinRegScheduler::findMax(unsigned Num, Calc C) {
109   assert(!RQ.empty() && Num <= RQ.size());
110 
111   using T = decltype(C(*RQ.begin())) ;
112 
113   T Max = std::numeric_limits<T>::min();
114   unsigned NumMax = 0;
115   for (auto I = RQ.begin(); Num; --Num) {
116     T Cur = C(*I);
117     if (Cur >= Max) {
118       if (Cur > Max) {
119         Max = Cur;
120         NumMax = 1;
121       } else
122         ++NumMax;
123       auto &Cand = *I++;
124       RQ.remove(Cand);
125       RQ.push_front(Cand);
126       continue;
127     }
128     ++I;
129   }
130   return NumMax;
131 }
132 
pickCandidate()133 GCNMinRegScheduler::Candidate* GCNMinRegScheduler::pickCandidate() {
134   do {
135     unsigned Num = RQ.size();
136     if (Num == 1) break;
137 
138     LLVM_DEBUG(dbgs() << "\nSelecting max priority candidates among " << Num
139                       << '\n');
140     Num = findMax(Num, [=](const Candidate &C) { return C.Priority; });
141     if (Num == 1) break;
142 
143     LLVM_DEBUG(dbgs() << "\nSelecting min non-ready producing candidate among "
144                       << Num << '\n');
145     Num = findMax(Num, [=](const Candidate &C) {
146       auto SU = C.SU;
147       int Res = getNotReadySuccessors(SU);
148       LLVM_DEBUG(dbgs() << "SU(" << SU->NodeNum << ") would left non-ready "
149                         << Res << " successors, metric = " << -Res << '\n');
150       return -Res;
151     });
152     if (Num == 1) break;
153 
154     LLVM_DEBUG(dbgs() << "\nSelecting most producing candidate among " << Num
155                       << '\n');
156     Num = findMax(Num, [=](const Candidate &C) {
157       auto SU = C.SU;
158       auto Res = getReadySuccessors(SU);
159       LLVM_DEBUG(dbgs() << "SU(" << SU->NodeNum << ") would make ready " << Res
160                         << " successors, metric = " << Res << '\n');
161       return Res;
162     });
163     if (Num == 1) break;
164 
165     Num = Num ? Num : RQ.size();
166     LLVM_DEBUG(
167         dbgs()
168         << "\nCan't find best candidate, selecting in program order among "
169         << Num << '\n');
170     Num = findMax(Num, [=](const Candidate &C) { return -(int64_t)C.SU->NodeNum; });
171     assert(Num == 1);
172   } while (false);
173 
174   return &RQ.front();
175 }
176 
bumpPredsPriority(const SUnit * SchedSU,int Priority)177 void GCNMinRegScheduler::bumpPredsPriority(const SUnit *SchedSU, int Priority) {
178   SmallPtrSet<const SUnit*, 32> Set;
179   for (const auto &S : SchedSU->Succs) {
180     if (S.getSUnit()->isBoundaryNode() || isScheduled(S.getSUnit()) ||
181         S.getKind() != SDep::Data)
182       continue;
183     for (const auto &P : S.getSUnit()->Preds) {
184       auto PSU = P.getSUnit();
185       assert(!PSU->isBoundaryNode());
186       if (PSU != SchedSU && !isScheduled(PSU)) {
187         Set.insert(PSU);
188       }
189     }
190   }
191   SmallVector<const SUnit*, 32> Worklist(Set.begin(), Set.end());
192   while (!Worklist.empty()) {
193     auto SU = Worklist.pop_back_val();
194     assert(!SU->isBoundaryNode());
195     for (const auto &P : SU->Preds) {
196       if (!P.getSUnit()->isBoundaryNode() && !isScheduled(P.getSUnit()) &&
197           Set.insert(P.getSUnit()).second)
198         Worklist.push_back(P.getSUnit());
199     }
200   }
201   LLVM_DEBUG(dbgs() << "Make the predecessors of SU(" << SchedSU->NodeNum
202                     << ")'s non-ready successors of " << Priority
203                     << " priority in ready queue: ");
204   for (auto &C : RQ) {
205     if (Set.count(C.SU)) {
206       C.Priority = Priority;
207       LLVM_DEBUG(dbgs() << " SU(" << C.SU->NodeNum << ')');
208     }
209   }
210   LLVM_DEBUG(dbgs() << '\n');
211 }
212 
releaseSuccessors(const SUnit * SU,int Priority)213 void GCNMinRegScheduler::releaseSuccessors(const SUnit* SU, int Priority) {
214   for (const auto &S : SU->Succs) {
215     auto SuccSU = S.getSUnit();
216     if (S.isWeak())
217       continue;
218     assert(SuccSU->isBoundaryNode() || getNumPreds(SuccSU) > 0);
219     if (!SuccSU->isBoundaryNode() && decNumPreds(SuccSU) == 0)
220       RQ.push_front(*new (Alloc.Allocate()) Candidate(SuccSU, Priority));
221   }
222 }
223 
224 std::vector<const SUnit*>
schedule(ArrayRef<const SUnit * > TopRoots,const ScheduleDAG & DAG)225 GCNMinRegScheduler::schedule(ArrayRef<const SUnit*> TopRoots,
226                              const ScheduleDAG &DAG) {
227   const auto &SUnits = DAG.SUnits;
228   std::vector<const SUnit*> Schedule;
229   Schedule.reserve(SUnits.size());
230 
231   initNumPreds(SUnits);
232 
233   int StepNo = 0;
234 
235   for (auto SU : TopRoots) {
236     RQ.push_back(*new (Alloc.Allocate()) Candidate(SU, StepNo));
237   }
238   releaseSuccessors(&DAG.EntrySU, StepNo);
239 
240   while (!RQ.empty()) {
241     LLVM_DEBUG(dbgs() << "\n=== Picking candidate, Step = " << StepNo
242                       << "\n"
243                          "Ready queue:";
244                for (auto &C
245                     : RQ) dbgs()
246                << ' ' << C.SU->NodeNum << "(P" << C.Priority << ')';
247                dbgs() << '\n';);
248 
249     auto C = pickCandidate();
250     assert(C);
251     RQ.remove(*C);
252     auto SU = C->SU;
253     LLVM_DEBUG(dbgs() << "Selected "; DAG.dumpNode(*SU));
254 
255     releaseSuccessors(SU, StepNo);
256     Schedule.push_back(SU);
257     setIsScheduled(SU);
258 
259     if (getReadySuccessors(SU) == 0)
260       bumpPredsPriority(SU, StepNo);
261 
262     ++StepNo;
263   }
264   assert(SUnits.size() == Schedule.size());
265 
266   return Schedule;
267 }
268 
269 namespace llvm {
270 
makeMinRegSchedule(ArrayRef<const SUnit * > TopRoots,const ScheduleDAG & DAG)271 std::vector<const SUnit*> makeMinRegSchedule(ArrayRef<const SUnit*> TopRoots,
272                                              const ScheduleDAG &DAG) {
273   GCNMinRegScheduler S;
274   return S.schedule(TopRoots, DAG);
275 }
276 
277 } // end namespace llvm
278