xref: /freebsd/contrib/llvm-project/llvm/lib/Target/PowerPC/PPCMachineScheduler.cpp (revision e32fecd0c2c3ee37c47ee100f169e7eb0282a873)
1 //===- PPCMachineScheduler.cpp - MI Scheduler for PowerPC -------------===//
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 #include "PPCMachineScheduler.h"
10 #include "MCTargetDesc/PPCMCTargetDesc.h"
11 
12 using namespace llvm;
13 
14 static cl::opt<bool>
15 DisableAddiLoadHeuristic("disable-ppc-sched-addi-load",
16                          cl::desc("Disable scheduling addi instruction before"
17                                   "load for ppc"), cl::Hidden);
18 static cl::opt<bool>
19     EnableAddiHeuristic("ppc-postra-bias-addi",
20                         cl::desc("Enable scheduling addi instruction as early"
21                                  "as possible post ra"),
22                         cl::Hidden, cl::init(true));
23 
24 static bool isADDIInstr(const GenericScheduler::SchedCandidate &Cand) {
25   return Cand.SU->getInstr()->getOpcode() == PPC::ADDI ||
26          Cand.SU->getInstr()->getOpcode() == PPC::ADDI8;
27 }
28 
29 bool PPCPreRASchedStrategy::biasAddiLoadCandidate(SchedCandidate &Cand,
30                                                   SchedCandidate &TryCand,
31                                                   SchedBoundary &Zone) const {
32   if (DisableAddiLoadHeuristic)
33     return false;
34 
35   SchedCandidate &FirstCand = Zone.isTop() ? TryCand : Cand;
36   SchedCandidate &SecondCand = Zone.isTop() ? Cand : TryCand;
37   if (isADDIInstr(FirstCand) && SecondCand.SU->getInstr()->mayLoad()) {
38     TryCand.Reason = Stall;
39     return true;
40   }
41   if (FirstCand.SU->getInstr()->mayLoad() && isADDIInstr(SecondCand)) {
42     TryCand.Reason = NoCand;
43     return true;
44   }
45 
46   return false;
47 }
48 
49 bool PPCPreRASchedStrategy::tryCandidate(SchedCandidate &Cand,
50                                          SchedCandidate &TryCand,
51                                          SchedBoundary *Zone) const {
52   // From GenericScheduler::tryCandidate
53 
54   // Initialize the candidate if needed.
55   if (!Cand.isValid()) {
56     TryCand.Reason = NodeOrder;
57     return true;
58   }
59 
60   // Bias PhysReg Defs and copies to their uses and defined respectively.
61   if (tryGreater(biasPhysReg(TryCand.SU, TryCand.AtTop),
62                  biasPhysReg(Cand.SU, Cand.AtTop), TryCand, Cand, PhysReg))
63     return TryCand.Reason != NoCand;
64 
65   // Avoid exceeding the target's limit.
66   if (DAG->isTrackingPressure() &&
67       tryPressure(TryCand.RPDelta.Excess, Cand.RPDelta.Excess, TryCand, Cand,
68                   RegExcess, TRI, DAG->MF))
69     return TryCand.Reason != NoCand;
70 
71   // Avoid increasing the max critical pressure in the scheduled region.
72   if (DAG->isTrackingPressure() &&
73       tryPressure(TryCand.RPDelta.CriticalMax, Cand.RPDelta.CriticalMax,
74                   TryCand, Cand, RegCritical, TRI, DAG->MF))
75     return TryCand.Reason != NoCand;
76 
77   // We only compare a subset of features when comparing nodes between
78   // Top and Bottom boundary. Some properties are simply incomparable, in many
79   // other instances we should only override the other boundary if something
80   // is a clear good pick on one boundary. Skip heuristics that are more
81   // "tie-breaking" in nature.
82   bool SameBoundary = Zone != nullptr;
83   if (SameBoundary) {
84     // For loops that are acyclic path limited, aggressively schedule for
85     // latency. Within an single cycle, whenever CurrMOps > 0, allow normal
86     // heuristics to take precedence.
87     if (Rem.IsAcyclicLatencyLimited && !Zone->getCurrMOps() &&
88         tryLatency(TryCand, Cand, *Zone))
89       return TryCand.Reason != NoCand;
90 
91     // Prioritize instructions that read unbuffered resources by stall cycles.
92     if (tryLess(Zone->getLatencyStallCycles(TryCand.SU),
93                 Zone->getLatencyStallCycles(Cand.SU), TryCand, Cand, Stall))
94       return TryCand.Reason != NoCand;
95   }
96 
97   // Keep clustered nodes together to encourage downstream peephole
98   // optimizations which may reduce resource requirements.
99   //
100   // This is a best effort to set things up for a post-RA pass. Optimizations
101   // like generating loads of multiple registers should ideally be done within
102   // the scheduler pass by combining the loads during DAG postprocessing.
103   const SUnit *CandNextClusterSU =
104       Cand.AtTop ? DAG->getNextClusterSucc() : DAG->getNextClusterPred();
105   const SUnit *TryCandNextClusterSU =
106       TryCand.AtTop ? DAG->getNextClusterSucc() : DAG->getNextClusterPred();
107   if (tryGreater(TryCand.SU == TryCandNextClusterSU,
108                  Cand.SU == CandNextClusterSU, TryCand, Cand, Cluster))
109     return TryCand.Reason != NoCand;
110 
111   if (SameBoundary) {
112     // Weak edges are for clustering and other constraints.
113     if (tryLess(getWeakLeft(TryCand.SU, TryCand.AtTop),
114                 getWeakLeft(Cand.SU, Cand.AtTop), TryCand, Cand, Weak))
115       return TryCand.Reason != NoCand;
116   }
117 
118   // Avoid increasing the max pressure of the entire region.
119   if (DAG->isTrackingPressure() &&
120       tryPressure(TryCand.RPDelta.CurrentMax, Cand.RPDelta.CurrentMax, TryCand,
121                   Cand, RegMax, TRI, DAG->MF))
122     return TryCand.Reason != NoCand;
123 
124   if (SameBoundary) {
125     // Avoid critical resource consumption and balance the schedule.
126     TryCand.initResourceDelta(DAG, SchedModel);
127     if (tryLess(TryCand.ResDelta.CritResources, Cand.ResDelta.CritResources,
128                 TryCand, Cand, ResourceReduce))
129       return TryCand.Reason != NoCand;
130     if (tryGreater(TryCand.ResDelta.DemandedResources,
131                    Cand.ResDelta.DemandedResources, TryCand, Cand,
132                    ResourceDemand))
133       return TryCand.Reason != NoCand;
134 
135     // Avoid serializing long latency dependence chains.
136     // For acyclic path limited loops, latency was already checked above.
137     if (!RegionPolicy.DisableLatencyHeuristic && TryCand.Policy.ReduceLatency &&
138         !Rem.IsAcyclicLatencyLimited && tryLatency(TryCand, Cand, *Zone))
139       return TryCand.Reason != NoCand;
140 
141     // Fall through to original instruction order.
142     if ((Zone->isTop() && TryCand.SU->NodeNum < Cand.SU->NodeNum) ||
143         (!Zone->isTop() && TryCand.SU->NodeNum > Cand.SU->NodeNum)) {
144       TryCand.Reason = NodeOrder;
145     }
146   }
147 
148   // GenericScheduler::tryCandidate end
149 
150   // Add powerpc specific heuristic only when TryCand isn't selected or
151   // selected as node order.
152   if (TryCand.Reason != NodeOrder && TryCand.Reason != NoCand)
153     return true;
154 
155   // There are some benefits to schedule the ADDI before the load to hide the
156   // latency, as RA may create a true dependency between the load and addi.
157   if (SameBoundary) {
158     if (biasAddiLoadCandidate(Cand, TryCand, *Zone))
159       return TryCand.Reason != NoCand;
160   }
161 
162   return TryCand.Reason != NoCand;
163 }
164 
165 bool PPCPostRASchedStrategy::biasAddiCandidate(SchedCandidate &Cand,
166                                                SchedCandidate &TryCand) const {
167   if (!EnableAddiHeuristic)
168     return false;
169 
170   if (isADDIInstr(TryCand) && !isADDIInstr(Cand)) {
171     TryCand.Reason = Stall;
172     return true;
173   }
174   return false;
175 }
176 
177 bool PPCPostRASchedStrategy::tryCandidate(SchedCandidate &Cand,
178                                           SchedCandidate &TryCand) {
179   // From PostGenericScheduler::tryCandidate
180 
181   // Initialize the candidate if needed.
182   if (!Cand.isValid()) {
183     TryCand.Reason = NodeOrder;
184     return true;
185   }
186 
187   // Prioritize instructions that read unbuffered resources by stall cycles.
188   if (tryLess(Top.getLatencyStallCycles(TryCand.SU),
189               Top.getLatencyStallCycles(Cand.SU), TryCand, Cand, Stall))
190     return TryCand.Reason != NoCand;
191 
192   // Keep clustered nodes together.
193   if (tryGreater(TryCand.SU == DAG->getNextClusterSucc(),
194                  Cand.SU == DAG->getNextClusterSucc(), TryCand, Cand, Cluster))
195     return TryCand.Reason != NoCand;
196 
197   // Avoid critical resource consumption and balance the schedule.
198   if (tryLess(TryCand.ResDelta.CritResources, Cand.ResDelta.CritResources,
199               TryCand, Cand, ResourceReduce))
200     return TryCand.Reason != NoCand;
201   if (tryGreater(TryCand.ResDelta.DemandedResources,
202                  Cand.ResDelta.DemandedResources, TryCand, Cand,
203                  ResourceDemand))
204     return TryCand.Reason != NoCand;
205 
206   // Avoid serializing long latency dependence chains.
207   if (Cand.Policy.ReduceLatency && tryLatency(TryCand, Cand, Top)) {
208     return TryCand.Reason != NoCand;
209   }
210 
211   // Fall through to original instruction order.
212   if (TryCand.SU->NodeNum < Cand.SU->NodeNum)
213     TryCand.Reason = NodeOrder;
214 
215   // PostGenericScheduler::tryCandidate end
216 
217   // Add powerpc post ra specific heuristic only when TryCand isn't selected or
218   // selected as node order.
219   if (TryCand.Reason != NodeOrder && TryCand.Reason != NoCand)
220     return true;
221 
222   // There are some benefits to schedule the ADDI as early as possible post ra
223   // to avoid stalled by vector instructions which take up all the hw units.
224   // And ADDI is usually used to post inc the loop indvar, which matters the
225   // performance.
226   if (biasAddiCandidate(Cand, TryCand))
227     return TryCand.Reason != NoCand;
228 
229   return TryCand.Reason != NoCand;
230 }
231 
232 void PPCPostRASchedStrategy::enterMBB(MachineBasicBlock *MBB) {
233   // Custom PPC PostRA specific behavior here.
234   PostGenericScheduler::enterMBB(MBB);
235 }
236 
237 void PPCPostRASchedStrategy::leaveMBB() {
238   // Custom PPC PostRA specific behavior here.
239   PostGenericScheduler::leaveMBB();
240 }
241 
242 void PPCPostRASchedStrategy::initialize(ScheduleDAGMI *Dag) {
243   // Custom PPC PostRA specific initialization here.
244   PostGenericScheduler::initialize(Dag);
245 }
246 
247 SUnit *PPCPostRASchedStrategy::pickNode(bool &IsTopNode) {
248   // Custom PPC PostRA specific scheduling here.
249   return PostGenericScheduler::pickNode(IsTopNode);
250 }
251 
252