xref: /freebsd/contrib/llvm-project/llvm/lib/CodeGen/ExecutionDomainFix.cpp (revision 7fdf597e96a02165cfe22ff357b857d5fa15ed8a)
1 //===- ExecutionDomainFix.cpp - Fix execution domain issues ----*- C++ -*--===//
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 "llvm/CodeGen/ExecutionDomainFix.h"
10 #include "llvm/CodeGen/MachineRegisterInfo.h"
11 #include "llvm/CodeGen/TargetInstrInfo.h"
12 #include "llvm/Support/Debug.h"
13 
14 using namespace llvm;
15 
16 #define DEBUG_TYPE "execution-deps-fix"
17 
18 iterator_range<SmallVectorImpl<int>::const_iterator>
19 ExecutionDomainFix::regIndices(unsigned Reg) const {
20   assert(Reg < AliasMap.size() && "Invalid register");
21   const auto &Entry = AliasMap[Reg];
22   return make_range(Entry.begin(), Entry.end());
23 }
24 
25 DomainValue *ExecutionDomainFix::alloc(int domain) {
26   DomainValue *dv = Avail.empty() ? new (Allocator.Allocate()) DomainValue
27                                   : Avail.pop_back_val();
28   if (domain >= 0)
29     dv->addDomain(domain);
30   assert(dv->Refs == 0 && "Reference count wasn't cleared");
31   assert(!dv->Next && "Chained DomainValue shouldn't have been recycled");
32   return dv;
33 }
34 
35 void ExecutionDomainFix::release(DomainValue *DV) {
36   while (DV) {
37     assert(DV->Refs && "Bad DomainValue");
38     if (--DV->Refs)
39       return;
40 
41     // There are no more DV references. Collapse any contained instructions.
42     if (DV->AvailableDomains && !DV->isCollapsed())
43       collapse(DV, DV->getFirstDomain());
44 
45     DomainValue *Next = DV->Next;
46     DV->clear();
47     Avail.push_back(DV);
48     // Also release the next DomainValue in the chain.
49     DV = Next;
50   }
51 }
52 
53 DomainValue *ExecutionDomainFix::resolve(DomainValue *&DVRef) {
54   DomainValue *DV = DVRef;
55   if (!DV || !DV->Next)
56     return DV;
57 
58   // DV has a chain. Find the end.
59   do
60     DV = DV->Next;
61   while (DV->Next);
62 
63   // Update DVRef to point to DV.
64   retain(DV);
65   release(DVRef);
66   DVRef = DV;
67   return DV;
68 }
69 
70 void ExecutionDomainFix::setLiveReg(int rx, DomainValue *dv) {
71   assert(unsigned(rx) < NumRegs && "Invalid index");
72   assert(!LiveRegs.empty() && "Must enter basic block first.");
73 
74   if (LiveRegs[rx] == dv)
75     return;
76   if (LiveRegs[rx])
77     release(LiveRegs[rx]);
78   LiveRegs[rx] = retain(dv);
79 }
80 
81 void ExecutionDomainFix::kill(int rx) {
82   assert(unsigned(rx) < NumRegs && "Invalid index");
83   assert(!LiveRegs.empty() && "Must enter basic block first.");
84   if (!LiveRegs[rx])
85     return;
86 
87   release(LiveRegs[rx]);
88   LiveRegs[rx] = nullptr;
89 }
90 
91 void ExecutionDomainFix::force(int rx, unsigned domain) {
92   assert(unsigned(rx) < NumRegs && "Invalid index");
93   assert(!LiveRegs.empty() && "Must enter basic block first.");
94   if (DomainValue *dv = LiveRegs[rx]) {
95     if (dv->isCollapsed())
96       dv->addDomain(domain);
97     else if (dv->hasDomain(domain))
98       collapse(dv, domain);
99     else {
100       // This is an incompatible open DomainValue. Collapse it to whatever and
101       // force the new value into domain. This costs a domain crossing.
102       collapse(dv, dv->getFirstDomain());
103       assert(LiveRegs[rx] && "Not live after collapse?");
104       LiveRegs[rx]->addDomain(domain);
105     }
106   } else {
107     // Set up basic collapsed DomainValue.
108     setLiveReg(rx, alloc(domain));
109   }
110 }
111 
112 void ExecutionDomainFix::collapse(DomainValue *dv, unsigned domain) {
113   assert(dv->hasDomain(domain) && "Cannot collapse");
114 
115   // Collapse all the instructions.
116   while (!dv->Instrs.empty())
117     TII->setExecutionDomain(*dv->Instrs.pop_back_val(), domain);
118   dv->setSingleDomain(domain);
119 
120   // If there are multiple users, give them new, unique DomainValues.
121   if (!LiveRegs.empty() && dv->Refs > 1)
122     for (unsigned rx = 0; rx != NumRegs; ++rx)
123       if (LiveRegs[rx] == dv)
124         setLiveReg(rx, alloc(domain));
125 }
126 
127 bool ExecutionDomainFix::merge(DomainValue *A, DomainValue *B) {
128   assert(!A->isCollapsed() && "Cannot merge into collapsed");
129   assert(!B->isCollapsed() && "Cannot merge from collapsed");
130   if (A == B)
131     return true;
132   // Restrict to the domains that A and B have in common.
133   unsigned common = A->getCommonDomains(B->AvailableDomains);
134   if (!common)
135     return false;
136   A->AvailableDomains = common;
137   A->Instrs.append(B->Instrs.begin(), B->Instrs.end());
138 
139   // Clear the old DomainValue so we won't try to swizzle instructions twice.
140   B->clear();
141   // All uses of B are referred to A.
142   B->Next = retain(A);
143 
144   for (unsigned rx = 0; rx != NumRegs; ++rx) {
145     assert(!LiveRegs.empty() && "no space allocated for live registers");
146     if (LiveRegs[rx] == B)
147       setLiveReg(rx, A);
148   }
149   return true;
150 }
151 
152 void ExecutionDomainFix::enterBasicBlock(
153     const LoopTraversal::TraversedMBBInfo &TraversedMBB) {
154 
155   MachineBasicBlock *MBB = TraversedMBB.MBB;
156 
157   // Set up LiveRegs to represent registers entering MBB.
158   // Set default domain values to 'no domain' (nullptr)
159   if (LiveRegs.empty())
160     LiveRegs.assign(NumRegs, nullptr);
161 
162   // This is the entry block.
163   if (MBB->pred_empty()) {
164     LLVM_DEBUG(dbgs() << printMBBReference(*MBB) << ": entry\n");
165     return;
166   }
167 
168   // Try to coalesce live-out registers from predecessors.
169   for (MachineBasicBlock *pred : MBB->predecessors()) {
170     assert(unsigned(pred->getNumber()) < MBBOutRegsInfos.size() &&
171            "Should have pre-allocated MBBInfos for all MBBs");
172     LiveRegsDVInfo &Incoming = MBBOutRegsInfos[pred->getNumber()];
173     // Incoming is null if this is a backedge from a BB
174     // we haven't processed yet
175     if (Incoming.empty())
176       continue;
177 
178     for (unsigned rx = 0; rx != NumRegs; ++rx) {
179       DomainValue *pdv = resolve(Incoming[rx]);
180       if (!pdv)
181         continue;
182       if (!LiveRegs[rx]) {
183         setLiveReg(rx, pdv);
184         continue;
185       }
186 
187       // We have a live DomainValue from more than one predecessor.
188       if (LiveRegs[rx]->isCollapsed()) {
189         // We are already collapsed, but predecessor is not. Force it.
190         unsigned Domain = LiveRegs[rx]->getFirstDomain();
191         if (!pdv->isCollapsed() && pdv->hasDomain(Domain))
192           collapse(pdv, Domain);
193         continue;
194       }
195 
196       // Currently open, merge in predecessor.
197       if (!pdv->isCollapsed())
198         merge(LiveRegs[rx], pdv);
199       else
200         force(rx, pdv->getFirstDomain());
201     }
202   }
203   LLVM_DEBUG(dbgs() << printMBBReference(*MBB)
204                     << (!TraversedMBB.IsDone ? ": incomplete\n"
205                                              : ": all preds known\n"));
206 }
207 
208 void ExecutionDomainFix::leaveBasicBlock(
209     const LoopTraversal::TraversedMBBInfo &TraversedMBB) {
210   assert(!LiveRegs.empty() && "Must enter basic block first.");
211   unsigned MBBNumber = TraversedMBB.MBB->getNumber();
212   assert(MBBNumber < MBBOutRegsInfos.size() &&
213          "Unexpected basic block number.");
214   // Save register clearances at end of MBB - used by enterBasicBlock().
215   for (DomainValue *OldLiveReg : MBBOutRegsInfos[MBBNumber]) {
216     release(OldLiveReg);
217   }
218   MBBOutRegsInfos[MBBNumber] = LiveRegs;
219   LiveRegs.clear();
220 }
221 
222 bool ExecutionDomainFix::visitInstr(MachineInstr *MI) {
223   // Update instructions with explicit execution domains.
224   std::pair<uint16_t, uint16_t> DomP = TII->getExecutionDomain(*MI);
225   if (DomP.first) {
226     if (DomP.second)
227       visitSoftInstr(MI, DomP.second);
228     else
229       visitHardInstr(MI, DomP.first);
230   }
231 
232   return !DomP.first;
233 }
234 
235 void ExecutionDomainFix::processDefs(MachineInstr *MI, bool Kill) {
236   assert(!MI->isDebugInstr() && "Won't process debug values");
237   const MCInstrDesc &MCID = MI->getDesc();
238   for (unsigned i = 0,
239                 e = MI->isVariadic() ? MI->getNumOperands() : MCID.getNumDefs();
240        i != e; ++i) {
241     MachineOperand &MO = MI->getOperand(i);
242     if (!MO.isReg())
243       continue;
244     if (MO.isUse())
245       continue;
246     for (int rx : regIndices(MO.getReg())) {
247       // This instruction explicitly defines rx.
248       LLVM_DEBUG(dbgs() << printReg(RC->getRegister(rx), TRI) << ":\t" << *MI);
249 
250       // Kill off domains redefined by generic instructions.
251       if (Kill)
252         kill(rx);
253     }
254   }
255 }
256 
257 void ExecutionDomainFix::visitHardInstr(MachineInstr *mi, unsigned domain) {
258   // Collapse all uses.
259   for (unsigned i = mi->getDesc().getNumDefs(),
260                 e = mi->getDesc().getNumOperands();
261        i != e; ++i) {
262     MachineOperand &mo = mi->getOperand(i);
263     if (!mo.isReg())
264       continue;
265     for (int rx : regIndices(mo.getReg())) {
266       force(rx, domain);
267     }
268   }
269 
270   // Kill all defs and force them.
271   for (unsigned i = 0, e = mi->getDesc().getNumDefs(); i != e; ++i) {
272     MachineOperand &mo = mi->getOperand(i);
273     if (!mo.isReg())
274       continue;
275     for (int rx : regIndices(mo.getReg())) {
276       kill(rx);
277       force(rx, domain);
278     }
279   }
280 }
281 
282 void ExecutionDomainFix::visitSoftInstr(MachineInstr *mi, unsigned mask) {
283   // Bitmask of available domains for this instruction after taking collapsed
284   // operands into account.
285   unsigned available = mask;
286 
287   // Scan the explicit use operands for incoming domains.
288   SmallVector<int, 4> used;
289   if (!LiveRegs.empty())
290     for (unsigned i = mi->getDesc().getNumDefs(),
291                   e = mi->getDesc().getNumOperands();
292          i != e; ++i) {
293       MachineOperand &mo = mi->getOperand(i);
294       if (!mo.isReg())
295         continue;
296       for (int rx : regIndices(mo.getReg())) {
297         DomainValue *dv = LiveRegs[rx];
298         if (dv == nullptr)
299           continue;
300         // Bitmask of domains that dv and available have in common.
301         unsigned common = dv->getCommonDomains(available);
302         // Is it possible to use this collapsed register for free?
303         if (dv->isCollapsed()) {
304           // Restrict available domains to the ones in common with the operand.
305           // If there are no common domains, we must pay the cross-domain
306           // penalty for this operand.
307           if (common)
308             available = common;
309         } else if (common)
310           // Open DomainValue is compatible, save it for merging.
311           used.push_back(rx);
312         else
313           // Open DomainValue is not compatible with instruction. It is useless
314           // now.
315           kill(rx);
316       }
317     }
318 
319   // If the collapsed operands force a single domain, propagate the collapse.
320   if (isPowerOf2_32(available)) {
321     unsigned domain = llvm::countr_zero(available);
322     TII->setExecutionDomain(*mi, domain);
323     visitHardInstr(mi, domain);
324     return;
325   }
326 
327   // Kill off any remaining uses that don't match available, and build a list of
328   // incoming DomainValues that we want to merge.
329   SmallVector<int, 4> Regs;
330   for (int rx : used) {
331     assert(!LiveRegs.empty() && "no space allocated for live registers");
332     DomainValue *&LR = LiveRegs[rx];
333     // This useless DomainValue could have been missed above.
334     if (!LR->getCommonDomains(available)) {
335       kill(rx);
336       continue;
337     }
338     // Sorted insertion.
339     // Enables giving priority to the latest domains during merging.
340     const int Def = RDA->getReachingDef(mi, RC->getRegister(rx));
341     auto I = partition_point(Regs, [&](int I) {
342       return RDA->getReachingDef(mi, RC->getRegister(I)) <= Def;
343     });
344     Regs.insert(I, rx);
345   }
346 
347   // doms are now sorted in order of appearance. Try to merge them all, giving
348   // priority to the latest ones.
349   DomainValue *dv = nullptr;
350   while (!Regs.empty()) {
351     if (!dv) {
352       dv = LiveRegs[Regs.pop_back_val()];
353       // Force the first dv to match the current instruction.
354       dv->AvailableDomains = dv->getCommonDomains(available);
355       assert(dv->AvailableDomains && "Domain should have been filtered");
356       continue;
357     }
358 
359     DomainValue *Latest = LiveRegs[Regs.pop_back_val()];
360     // Skip already merged values.
361     if (Latest == dv || Latest->Next)
362       continue;
363     if (merge(dv, Latest))
364       continue;
365 
366     // If latest didn't merge, it is useless now. Kill all registers using it.
367     for (int i : used) {
368       assert(!LiveRegs.empty() && "no space allocated for live registers");
369       if (LiveRegs[i] == Latest)
370         kill(i);
371     }
372   }
373 
374   // dv is the DomainValue we are going to use for this instruction.
375   if (!dv) {
376     dv = alloc();
377     dv->AvailableDomains = available;
378   }
379   dv->Instrs.push_back(mi);
380 
381   // Finally set all defs and non-collapsed uses to dv. We must iterate through
382   // all the operators, including imp-def ones.
383   for (const MachineOperand &mo : mi->operands()) {
384     if (!mo.isReg())
385       continue;
386     for (int rx : regIndices(mo.getReg())) {
387       if (!LiveRegs[rx] || (mo.isDef() && LiveRegs[rx] != dv)) {
388         kill(rx);
389         setLiveReg(rx, dv);
390       }
391     }
392   }
393 }
394 
395 void ExecutionDomainFix::processBasicBlock(
396     const LoopTraversal::TraversedMBBInfo &TraversedMBB) {
397   enterBasicBlock(TraversedMBB);
398   // If this block is not done, it makes little sense to make any decisions
399   // based on clearance information. We need to make a second pass anyway,
400   // and by then we'll have better information, so we can avoid doing the work
401   // to try and break dependencies now.
402   for (MachineInstr &MI : *TraversedMBB.MBB) {
403     if (!MI.isDebugInstr()) {
404       bool Kill = false;
405       if (TraversedMBB.PrimaryPass)
406         Kill = visitInstr(&MI);
407       processDefs(&MI, Kill);
408     }
409   }
410   leaveBasicBlock(TraversedMBB);
411 }
412 
413 bool ExecutionDomainFix::runOnMachineFunction(MachineFunction &mf) {
414   if (skipFunction(mf.getFunction()))
415     return false;
416   MF = &mf;
417   TII = MF->getSubtarget().getInstrInfo();
418   TRI = MF->getSubtarget().getRegisterInfo();
419   LiveRegs.clear();
420   assert(NumRegs == RC->getNumRegs() && "Bad regclass");
421 
422   LLVM_DEBUG(dbgs() << "********** FIX EXECUTION DOMAIN: "
423                     << TRI->getRegClassName(RC) << " **********\n");
424 
425   // If no relevant registers are used in the function, we can skip it
426   // completely.
427   bool anyregs = false;
428   const MachineRegisterInfo &MRI = mf.getRegInfo();
429   for (unsigned Reg : *RC) {
430     if (MRI.isPhysRegUsed(Reg)) {
431       anyregs = true;
432       break;
433     }
434   }
435   if (!anyregs)
436     return false;
437 
438   RDA = &getAnalysis<ReachingDefAnalysis>();
439 
440   // Initialize the AliasMap on the first use.
441   if (AliasMap.empty()) {
442     // Given a PhysReg, AliasMap[PhysReg] returns a list of indices into RC and
443     // therefore the LiveRegs array.
444     AliasMap.resize(TRI->getNumRegs());
445     for (unsigned i = 0, e = RC->getNumRegs(); i != e; ++i)
446       for (MCRegAliasIterator AI(RC->getRegister(i), TRI, true); AI.isValid();
447            ++AI)
448         AliasMap[*AI].push_back(i);
449   }
450 
451   // Initialize the MBBOutRegsInfos
452   MBBOutRegsInfos.resize(mf.getNumBlockIDs());
453 
454   // Traverse the basic blocks.
455   LoopTraversal Traversal;
456   LoopTraversal::TraversalOrder TraversedMBBOrder = Traversal.traverse(mf);
457   for (const LoopTraversal::TraversedMBBInfo &TraversedMBB : TraversedMBBOrder)
458     processBasicBlock(TraversedMBB);
459 
460   for (const LiveRegsDVInfo &OutLiveRegs : MBBOutRegsInfos)
461     for (DomainValue *OutLiveReg : OutLiveRegs)
462       if (OutLiveReg)
463         release(OutLiveReg);
464 
465   MBBOutRegsInfos.clear();
466   Avail.clear();
467   Allocator.DestroyAll();
468 
469   return false;
470 }
471