xref: /freebsd/contrib/llvm-project/llvm/lib/CodeGen/MacroFusion.cpp (revision 7ef62cebc2f965b0f640263e179276928885e33d)
1 //===- MacroFusion.cpp - Macro Fusion -------------------------------------===//
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 This file contains the implementation of the DAG scheduling mutation
10 /// to pair instructions back to back.
11 //
12 //===----------------------------------------------------------------------===//
13 
14 #include "llvm/CodeGen/MacroFusion.h"
15 #include "llvm/ADT/Statistic.h"
16 #include "llvm/CodeGen/MachineInstr.h"
17 #include "llvm/CodeGen/ScheduleDAG.h"
18 #include "llvm/CodeGen/ScheduleDAGInstrs.h"
19 #include "llvm/CodeGen/ScheduleDAGMutation.h"
20 #include "llvm/CodeGen/TargetInstrInfo.h"
21 #include "llvm/Support/CommandLine.h"
22 #include "llvm/Support/Debug.h"
23 #include "llvm/Support/raw_ostream.h"
24 
25 #define DEBUG_TYPE "machine-scheduler"
26 
27 STATISTIC(NumFused, "Number of instr pairs fused");
28 
29 using namespace llvm;
30 
31 static cl::opt<bool> EnableMacroFusion("misched-fusion", cl::Hidden,
32   cl::desc("Enable scheduling for macro fusion."), cl::init(true));
33 
34 static bool isHazard(const SDep &Dep) {
35   return Dep.getKind() == SDep::Anti || Dep.getKind() == SDep::Output;
36 }
37 
38 static SUnit *getPredClusterSU(const SUnit &SU) {
39   for (const SDep &SI : SU.Preds)
40     if (SI.isCluster())
41       return SI.getSUnit();
42 
43   return nullptr;
44 }
45 
46 bool llvm::hasLessThanNumFused(const SUnit &SU, unsigned FuseLimit) {
47   unsigned Num = 1;
48   const SUnit *CurrentSU = &SU;
49   while ((CurrentSU = getPredClusterSU(*CurrentSU)) && Num < FuseLimit) Num ++;
50   return Num < FuseLimit;
51 }
52 
53 bool llvm::fuseInstructionPair(ScheduleDAGInstrs &DAG, SUnit &FirstSU,
54                                SUnit &SecondSU) {
55   // Check that neither instr is already paired with another along the edge
56   // between them.
57   for (SDep &SI : FirstSU.Succs)
58     if (SI.isCluster())
59       return false;
60 
61   for (SDep &SI : SecondSU.Preds)
62     if (SI.isCluster())
63       return false;
64   // Though the reachability checks above could be made more generic,
65   // perhaps as part of ScheduleDAGInstrs::addEdge(), since such edges are valid,
66   // the extra computation cost makes it less interesting in general cases.
67 
68   // Create a single weak edge between the adjacent instrs. The only effect is
69   // to cause bottom-up scheduling to heavily prioritize the clustered instrs.
70   if (!DAG.addEdge(&SecondSU, SDep(&FirstSU, SDep::Cluster)))
71     return false;
72 
73   // TODO - If we want to chain more than two instructions, we need to create
74   // artifical edges to make dependencies from the FirstSU also dependent
75   // on other chained instructions, and other chained instructions also
76   // dependent on the dependencies of the SecondSU, to prevent them from being
77   // scheduled into these chained instructions.
78   assert(hasLessThanNumFused(FirstSU, 2) &&
79          "Currently we only support chaining together two instructions");
80 
81   // Adjust the latency between both instrs.
82   for (SDep &SI : FirstSU.Succs)
83     if (SI.getSUnit() == &SecondSU)
84       SI.setLatency(0);
85 
86   for (SDep &SI : SecondSU.Preds)
87     if (SI.getSUnit() == &FirstSU)
88       SI.setLatency(0);
89 
90   LLVM_DEBUG(
91       dbgs() << "Macro fuse: "; DAG.dumpNodeName(FirstSU); dbgs() << " - ";
92       DAG.dumpNodeName(SecondSU); dbgs() << " /  ";
93       dbgs() << DAG.TII->getName(FirstSU.getInstr()->getOpcode()) << " - "
94              << DAG.TII->getName(SecondSU.getInstr()->getOpcode()) << '\n';);
95 
96   // Make data dependencies from the FirstSU also dependent on the SecondSU to
97   // prevent them from being scheduled between the FirstSU and the SecondSU.
98   if (&SecondSU != &DAG.ExitSU)
99     for (const SDep &SI : FirstSU.Succs) {
100       SUnit *SU = SI.getSUnit();
101       if (SI.isWeak() || isHazard(SI) ||
102           SU == &DAG.ExitSU || SU == &SecondSU || SU->isPred(&SecondSU))
103         continue;
104       LLVM_DEBUG(dbgs() << "  Bind "; DAG.dumpNodeName(SecondSU);
105                  dbgs() << " - "; DAG.dumpNodeName(*SU); dbgs() << '\n';);
106       DAG.addEdge(SU, SDep(&SecondSU, SDep::Artificial));
107     }
108 
109   // Make the FirstSU also dependent on the dependencies of the SecondSU to
110   // prevent them from being scheduled between the FirstSU and the SecondSU.
111   if (&FirstSU != &DAG.EntrySU) {
112     for (const SDep &SI : SecondSU.Preds) {
113       SUnit *SU = SI.getSUnit();
114       if (SI.isWeak() || isHazard(SI) || &FirstSU == SU || FirstSU.isSucc(SU))
115         continue;
116       LLVM_DEBUG(dbgs() << "  Bind "; DAG.dumpNodeName(*SU); dbgs() << " - ";
117                  DAG.dumpNodeName(FirstSU); dbgs() << '\n';);
118       DAG.addEdge(&FirstSU, SDep(SU, SDep::Artificial));
119     }
120     // ExitSU comes last by design, which acts like an implicit dependency
121     // between ExitSU and any bottom root in the graph. We should transfer
122     // this to FirstSU as well.
123     if (&SecondSU == &DAG.ExitSU) {
124       for (SUnit &SU : DAG.SUnits) {
125         if (SU.Succs.empty())
126           DAG.addEdge(&FirstSU, SDep(&SU, SDep::Artificial));
127       }
128     }
129   }
130 
131   ++NumFused;
132   return true;
133 }
134 
135 namespace {
136 
137 /// Post-process the DAG to create cluster edges between instrs that may
138 /// be fused by the processor into a single operation.
139 class MacroFusion : public ScheduleDAGMutation {
140   ShouldSchedulePredTy shouldScheduleAdjacent;
141   bool FuseBlock;
142   bool scheduleAdjacentImpl(ScheduleDAGInstrs &DAG, SUnit &AnchorSU);
143 
144 public:
145   MacroFusion(ShouldSchedulePredTy shouldScheduleAdjacent, bool FuseBlock)
146     : shouldScheduleAdjacent(shouldScheduleAdjacent), FuseBlock(FuseBlock) {}
147 
148   void apply(ScheduleDAGInstrs *DAGInstrs) override;
149 };
150 
151 } // end anonymous namespace
152 
153 void MacroFusion::apply(ScheduleDAGInstrs *DAG) {
154   if (FuseBlock)
155     // For each of the SUnits in the scheduling block, try to fuse the instr in
156     // it with one in its predecessors.
157     for (SUnit &ISU : DAG->SUnits)
158         scheduleAdjacentImpl(*DAG, ISU);
159 
160   if (DAG->ExitSU.getInstr())
161     // Try to fuse the instr in the ExitSU with one in its predecessors.
162     scheduleAdjacentImpl(*DAG, DAG->ExitSU);
163 }
164 
165 /// Implement the fusion of instr pairs in the scheduling DAG,
166 /// anchored at the instr in AnchorSU..
167 bool MacroFusion::scheduleAdjacentImpl(ScheduleDAGInstrs &DAG, SUnit &AnchorSU) {
168   const MachineInstr &AnchorMI = *AnchorSU.getInstr();
169   const TargetInstrInfo &TII = *DAG.TII;
170   const TargetSubtargetInfo &ST = DAG.MF.getSubtarget();
171 
172   // Check if the anchor instr may be fused.
173   if (!shouldScheduleAdjacent(TII, ST, nullptr, AnchorMI))
174     return false;
175 
176   // Explorer for fusion candidates among the dependencies of the anchor instr.
177   for (SDep &Dep : AnchorSU.Preds) {
178     // Ignore dependencies other than data or strong ordering.
179     if (Dep.isWeak() || isHazard(Dep))
180       continue;
181 
182     SUnit &DepSU = *Dep.getSUnit();
183     if (DepSU.isBoundaryNode())
184       continue;
185 
186     // Only chain two instructions together at most.
187     const MachineInstr *DepMI = DepSU.getInstr();
188     if (!hasLessThanNumFused(DepSU, 2) ||
189         !shouldScheduleAdjacent(TII, ST, DepMI, AnchorMI))
190       continue;
191 
192     if (fuseInstructionPair(DAG, DepSU, AnchorSU))
193       return true;
194   }
195 
196   return false;
197 }
198 
199 std::unique_ptr<ScheduleDAGMutation>
200 llvm::createMacroFusionDAGMutation(
201      ShouldSchedulePredTy shouldScheduleAdjacent) {
202   if(EnableMacroFusion)
203     return std::make_unique<MacroFusion>(shouldScheduleAdjacent, true);
204   return nullptr;
205 }
206 
207 std::unique_ptr<ScheduleDAGMutation>
208 llvm::createBranchMacroFusionDAGMutation(
209      ShouldSchedulePredTy shouldScheduleAdjacent) {
210   if(EnableMacroFusion)
211     return std::make_unique<MacroFusion>(shouldScheduleAdjacent, false);
212   return nullptr;
213 }
214