xref: /freebsd/contrib/llvm-project/llvm/lib/Analysis/DomTreeUpdater.cpp (revision 5956d97f4b3204318ceb6aa9c77bd0bc6ea87a41)
1 //===- DomTreeUpdater.cpp - DomTree/Post DomTree Updater --------*- 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 // This file implements the DomTreeUpdater class, which provides a uniform way
10 // to update dominator tree related data structures.
11 //
12 //===----------------------------------------------------------------------===//
13 
14 #include "llvm/Analysis/DomTreeUpdater.h"
15 #include "llvm/ADT/SmallSet.h"
16 #include "llvm/Analysis/PostDominators.h"
17 #include "llvm/IR/Instructions.h"
18 #include "llvm/Support/GenericDomTree.h"
19 #include <algorithm>
20 #include <functional>
21 #include <utility>
22 
23 namespace llvm {
24 
25 bool DomTreeUpdater::isUpdateValid(
26     const DominatorTree::UpdateType Update) const {
27   const auto *From = Update.getFrom();
28   const auto *To = Update.getTo();
29   const auto Kind = Update.getKind();
30 
31   // Discard updates by inspecting the current state of successors of From.
32   // Since isUpdateValid() must be called *after* the Terminator of From is
33   // altered we can determine if the update is unnecessary for batch updates
34   // or invalid for a single update.
35   const bool HasEdge = llvm::is_contained(successors(From), To);
36 
37   // If the IR does not match the update,
38   // 1. In batch updates, this update is unnecessary.
39   // 2. When called by insertEdge*()/deleteEdge*(), this update is invalid.
40   // Edge does not exist in IR.
41   if (Kind == DominatorTree::Insert && !HasEdge)
42     return false;
43 
44   // Edge exists in IR.
45   if (Kind == DominatorTree::Delete && HasEdge)
46     return false;
47 
48   return true;
49 }
50 
51 bool DomTreeUpdater::isSelfDominance(
52     const DominatorTree::UpdateType Update) const {
53   // Won't affect DomTree and PostDomTree.
54   return Update.getFrom() == Update.getTo();
55 }
56 
57 void DomTreeUpdater::applyDomTreeUpdates() {
58   // No pending DomTreeUpdates.
59   if (Strategy != UpdateStrategy::Lazy || !DT)
60     return;
61 
62   // Only apply updates not are applied by DomTree.
63   if (hasPendingDomTreeUpdates()) {
64     const auto I = PendUpdates.begin() + PendDTUpdateIndex;
65     const auto E = PendUpdates.end();
66     assert(I < E && "Iterator range invalid; there should be DomTree updates.");
67     DT->applyUpdates(ArrayRef<DominatorTree::UpdateType>(I, E));
68     PendDTUpdateIndex = PendUpdates.size();
69   }
70 }
71 
72 void DomTreeUpdater::flush() {
73   applyDomTreeUpdates();
74   applyPostDomTreeUpdates();
75   dropOutOfDateUpdates();
76 }
77 
78 void DomTreeUpdater::applyPostDomTreeUpdates() {
79   // No pending PostDomTreeUpdates.
80   if (Strategy != UpdateStrategy::Lazy || !PDT)
81     return;
82 
83   // Only apply updates not are applied by PostDomTree.
84   if (hasPendingPostDomTreeUpdates()) {
85     const auto I = PendUpdates.begin() + PendPDTUpdateIndex;
86     const auto E = PendUpdates.end();
87     assert(I < E &&
88            "Iterator range invalid; there should be PostDomTree updates.");
89     PDT->applyUpdates(ArrayRef<DominatorTree::UpdateType>(I, E));
90     PendPDTUpdateIndex = PendUpdates.size();
91   }
92 }
93 
94 void DomTreeUpdater::tryFlushDeletedBB() {
95   if (!hasPendingUpdates())
96     forceFlushDeletedBB();
97 }
98 
99 bool DomTreeUpdater::forceFlushDeletedBB() {
100   if (DeletedBBs.empty())
101     return false;
102 
103   for (auto *BB : DeletedBBs) {
104     // After calling deleteBB or callbackDeleteBB under Lazy UpdateStrategy,
105     // validateDeleteBB() removes all instructions of DelBB and adds an
106     // UnreachableInst as its terminator. So we check whether the BasicBlock to
107     // delete only has an UnreachableInst inside.
108     assert(BB->getInstList().size() == 1 &&
109            isa<UnreachableInst>(BB->getTerminator()) &&
110            "DelBB has been modified while awaiting deletion.");
111     BB->removeFromParent();
112     eraseDelBBNode(BB);
113     delete BB;
114   }
115   DeletedBBs.clear();
116   Callbacks.clear();
117   return true;
118 }
119 
120 void DomTreeUpdater::recalculate(Function &F) {
121 
122   if (Strategy == UpdateStrategy::Eager) {
123     if (DT)
124       DT->recalculate(F);
125     if (PDT)
126       PDT->recalculate(F);
127     return;
128   }
129 
130   // There is little performance gain if we pend the recalculation under
131   // Lazy UpdateStrategy so we recalculate available trees immediately.
132 
133   // Prevent forceFlushDeletedBB() from erasing DomTree or PostDomTree nodes.
134   IsRecalculatingDomTree = IsRecalculatingPostDomTree = true;
135 
136   // Because all trees are going to be up-to-date after recalculation,
137   // flush awaiting deleted BasicBlocks.
138   forceFlushDeletedBB();
139   if (DT)
140     DT->recalculate(F);
141   if (PDT)
142     PDT->recalculate(F);
143 
144   // Resume forceFlushDeletedBB() to erase DomTree or PostDomTree nodes.
145   IsRecalculatingDomTree = IsRecalculatingPostDomTree = false;
146   PendDTUpdateIndex = PendPDTUpdateIndex = PendUpdates.size();
147   dropOutOfDateUpdates();
148 }
149 
150 bool DomTreeUpdater::hasPendingUpdates() const {
151   return hasPendingDomTreeUpdates() || hasPendingPostDomTreeUpdates();
152 }
153 
154 bool DomTreeUpdater::hasPendingDomTreeUpdates() const {
155   if (!DT)
156     return false;
157   return PendUpdates.size() != PendDTUpdateIndex;
158 }
159 
160 bool DomTreeUpdater::hasPendingPostDomTreeUpdates() const {
161   if (!PDT)
162     return false;
163   return PendUpdates.size() != PendPDTUpdateIndex;
164 }
165 
166 bool DomTreeUpdater::isBBPendingDeletion(llvm::BasicBlock *DelBB) const {
167   if (Strategy == UpdateStrategy::Eager || DeletedBBs.empty())
168     return false;
169   return DeletedBBs.contains(DelBB);
170 }
171 
172 // The DT and PDT require the nodes related to updates
173 // are not deleted when update functions are called.
174 // So BasicBlock deletions must be pended when the
175 // UpdateStrategy is Lazy. When the UpdateStrategy is
176 // Eager, the BasicBlock will be deleted immediately.
177 void DomTreeUpdater::deleteBB(BasicBlock *DelBB) {
178   validateDeleteBB(DelBB);
179   if (Strategy == UpdateStrategy::Lazy) {
180     DeletedBBs.insert(DelBB);
181     return;
182   }
183 
184   DelBB->removeFromParent();
185   eraseDelBBNode(DelBB);
186   delete DelBB;
187 }
188 
189 void DomTreeUpdater::callbackDeleteBB(
190     BasicBlock *DelBB, std::function<void(BasicBlock *)> Callback) {
191   validateDeleteBB(DelBB);
192   if (Strategy == UpdateStrategy::Lazy) {
193     Callbacks.push_back(CallBackOnDeletion(DelBB, Callback));
194     DeletedBBs.insert(DelBB);
195     return;
196   }
197 
198   DelBB->removeFromParent();
199   eraseDelBBNode(DelBB);
200   Callback(DelBB);
201   delete DelBB;
202 }
203 
204 void DomTreeUpdater::eraseDelBBNode(BasicBlock *DelBB) {
205   if (DT && !IsRecalculatingDomTree)
206     if (DT->getNode(DelBB))
207       DT->eraseNode(DelBB);
208 
209   if (PDT && !IsRecalculatingPostDomTree)
210     if (PDT->getNode(DelBB))
211       PDT->eraseNode(DelBB);
212 }
213 
214 void DomTreeUpdater::validateDeleteBB(BasicBlock *DelBB) {
215   assert(DelBB && "Invalid push_back of nullptr DelBB.");
216   assert(pred_empty(DelBB) && "DelBB has one or more predecessors.");
217   // DelBB is unreachable and all its instructions are dead.
218   while (!DelBB->empty()) {
219     Instruction &I = DelBB->back();
220     // Replace used instructions with an arbitrary value (undef).
221     if (!I.use_empty())
222       I.replaceAllUsesWith(llvm::UndefValue::get(I.getType()));
223     DelBB->getInstList().pop_back();
224   }
225   // Make sure DelBB has a valid terminator instruction. As long as DelBB is a
226   // Child of Function F it must contain valid IR.
227   new UnreachableInst(DelBB->getContext(), DelBB);
228 }
229 
230 void DomTreeUpdater::applyUpdates(ArrayRef<DominatorTree::UpdateType> Updates) {
231   if (!DT && !PDT)
232     return;
233 
234   if (Strategy == UpdateStrategy::Lazy) {
235     PendUpdates.reserve(PendUpdates.size() + Updates.size());
236     for (const auto &U : Updates)
237       if (!isSelfDominance(U))
238         PendUpdates.push_back(U);
239 
240     return;
241   }
242 
243   if (DT)
244     DT->applyUpdates(Updates);
245   if (PDT)
246     PDT->applyUpdates(Updates);
247 }
248 
249 void DomTreeUpdater::applyUpdatesPermissive(
250     ArrayRef<DominatorTree::UpdateType> Updates) {
251   if (!DT && !PDT)
252     return;
253 
254   SmallSet<std::pair<BasicBlock *, BasicBlock *>, 8> Seen;
255   SmallVector<DominatorTree::UpdateType, 8> DeduplicatedUpdates;
256   for (const auto &U : Updates) {
257     auto Edge = std::make_pair(U.getFrom(), U.getTo());
258     // Because it is illegal to submit updates that have already been applied
259     // and updates to an edge need to be strictly ordered,
260     // it is safe to infer the existence of an edge from the first update
261     // to this edge.
262     // If the first update to an edge is "Delete", it means that the edge
263     // existed before. If the first update to an edge is "Insert", it means
264     // that the edge didn't exist before.
265     //
266     // For example, if the user submits {{Delete, A, B}, {Insert, A, B}},
267     // because
268     // 1. it is illegal to submit updates that have already been applied,
269     // i.e., user cannot delete an nonexistent edge,
270     // 2. updates to an edge need to be strictly ordered,
271     // So, initially edge A -> B existed.
272     // We can then safely ignore future updates to this edge and directly
273     // inspect the current CFG:
274     // a. If the edge still exists, because the user cannot insert an existent
275     // edge, so both {Delete, A, B}, {Insert, A, B} actually happened and
276     // resulted in a no-op. DTU won't submit any update in this case.
277     // b. If the edge doesn't exist, we can then infer that {Delete, A, B}
278     // actually happened but {Insert, A, B} was an invalid update which never
279     // happened. DTU will submit {Delete, A, B} in this case.
280     if (!isSelfDominance(U) && Seen.count(Edge) == 0) {
281       Seen.insert(Edge);
282       // If the update doesn't appear in the CFG, it means that
283       // either the change isn't made or relevant operations
284       // result in a no-op.
285       if (isUpdateValid(U)) {
286         if (isLazy())
287           PendUpdates.push_back(U);
288         else
289           DeduplicatedUpdates.push_back(U);
290       }
291     }
292   }
293 
294   if (Strategy == UpdateStrategy::Lazy)
295     return;
296 
297   if (DT)
298     DT->applyUpdates(DeduplicatedUpdates);
299   if (PDT)
300     PDT->applyUpdates(DeduplicatedUpdates);
301 }
302 
303 DominatorTree &DomTreeUpdater::getDomTree() {
304   assert(DT && "Invalid acquisition of a null DomTree");
305   applyDomTreeUpdates();
306   dropOutOfDateUpdates();
307   return *DT;
308 }
309 
310 PostDominatorTree &DomTreeUpdater::getPostDomTree() {
311   assert(PDT && "Invalid acquisition of a null PostDomTree");
312   applyPostDomTreeUpdates();
313   dropOutOfDateUpdates();
314   return *PDT;
315 }
316 
317 void DomTreeUpdater::insertEdge(BasicBlock *From, BasicBlock *To) {
318 
319 #ifndef NDEBUG
320   assert(isUpdateValid({DominatorTree::Insert, From, To}) &&
321          "Inserted edge does not appear in the CFG");
322 #endif
323 
324   if (!DT && !PDT)
325     return;
326 
327   // Won't affect DomTree and PostDomTree; discard update.
328   if (From == To)
329     return;
330 
331   if (Strategy == UpdateStrategy::Eager) {
332     if (DT)
333       DT->insertEdge(From, To);
334     if (PDT)
335       PDT->insertEdge(From, To);
336     return;
337   }
338 
339   PendUpdates.push_back({DominatorTree::Insert, From, To});
340 }
341 
342 void DomTreeUpdater::insertEdgeRelaxed(BasicBlock *From, BasicBlock *To) {
343   if (From == To)
344     return;
345 
346   if (!DT && !PDT)
347     return;
348 
349   if (!isUpdateValid({DominatorTree::Insert, From, To}))
350     return;
351 
352   if (Strategy == UpdateStrategy::Eager) {
353     if (DT)
354       DT->insertEdge(From, To);
355     if (PDT)
356       PDT->insertEdge(From, To);
357     return;
358   }
359 
360   PendUpdates.push_back({DominatorTree::Insert, From, To});
361 }
362 
363 void DomTreeUpdater::deleteEdge(BasicBlock *From, BasicBlock *To) {
364 
365 #ifndef NDEBUG
366   assert(isUpdateValid({DominatorTree::Delete, From, To}) &&
367          "Deleted edge still exists in the CFG!");
368 #endif
369 
370   if (!DT && !PDT)
371     return;
372 
373   // Won't affect DomTree and PostDomTree; discard update.
374   if (From == To)
375     return;
376 
377   if (Strategy == UpdateStrategy::Eager) {
378     if (DT)
379       DT->deleteEdge(From, To);
380     if (PDT)
381       PDT->deleteEdge(From, To);
382     return;
383   }
384 
385   PendUpdates.push_back({DominatorTree::Delete, From, To});
386 }
387 
388 void DomTreeUpdater::deleteEdgeRelaxed(BasicBlock *From, BasicBlock *To) {
389   if (From == To)
390     return;
391 
392   if (!DT && !PDT)
393     return;
394 
395   if (!isUpdateValid({DominatorTree::Delete, From, To}))
396     return;
397 
398   if (Strategy == UpdateStrategy::Eager) {
399     if (DT)
400       DT->deleteEdge(From, To);
401     if (PDT)
402       PDT->deleteEdge(From, To);
403     return;
404   }
405 
406   PendUpdates.push_back({DominatorTree::Delete, From, To});
407 }
408 
409 void DomTreeUpdater::dropOutOfDateUpdates() {
410   if (Strategy == DomTreeUpdater::UpdateStrategy::Eager)
411     return;
412 
413   tryFlushDeletedBB();
414 
415   // Drop all updates applied by both trees.
416   if (!DT)
417     PendDTUpdateIndex = PendUpdates.size();
418   if (!PDT)
419     PendPDTUpdateIndex = PendUpdates.size();
420 
421   const size_t dropIndex = std::min(PendDTUpdateIndex, PendPDTUpdateIndex);
422   const auto B = PendUpdates.begin();
423   const auto E = PendUpdates.begin() + dropIndex;
424   assert(B <= E && "Iterator out of range.");
425   PendUpdates.erase(B, E);
426   // Calculate current index.
427   PendDTUpdateIndex -= dropIndex;
428   PendPDTUpdateIndex -= dropIndex;
429 }
430 
431 #if !defined(NDEBUG) || defined(LLVM_ENABLE_DUMP)
432 LLVM_DUMP_METHOD void DomTreeUpdater::dump() const {
433   raw_ostream &OS = llvm::dbgs();
434 
435   OS << "Available Trees: ";
436   if (DT || PDT) {
437     if (DT)
438       OS << "DomTree ";
439     if (PDT)
440       OS << "PostDomTree ";
441     OS << "\n";
442   } else
443     OS << "None\n";
444 
445   OS << "UpdateStrategy: ";
446   if (Strategy == UpdateStrategy::Eager) {
447     OS << "Eager\n";
448     return;
449   } else
450     OS << "Lazy\n";
451   int Index = 0;
452 
453   auto printUpdates =
454       [&](ArrayRef<DominatorTree::UpdateType>::const_iterator begin,
455           ArrayRef<DominatorTree::UpdateType>::const_iterator end) {
456         if (begin == end)
457           OS << "  None\n";
458         Index = 0;
459         for (auto It = begin, ItEnd = end; It != ItEnd; ++It) {
460           auto U = *It;
461           OS << "  " << Index << " : ";
462           ++Index;
463           if (U.getKind() == DominatorTree::Insert)
464             OS << "Insert, ";
465           else
466             OS << "Delete, ";
467           BasicBlock *From = U.getFrom();
468           if (From) {
469             auto S = From->getName();
470             if (!From->hasName())
471               S = "(no name)";
472             OS << S << "(" << From << "), ";
473           } else {
474             OS << "(badref), ";
475           }
476           BasicBlock *To = U.getTo();
477           if (To) {
478             auto S = To->getName();
479             if (!To->hasName())
480               S = "(no_name)";
481             OS << S << "(" << To << ")\n";
482           } else {
483             OS << "(badref)\n";
484           }
485         }
486       };
487 
488   if (DT) {
489     const auto I = PendUpdates.begin() + PendDTUpdateIndex;
490     assert(PendUpdates.begin() <= I && I <= PendUpdates.end() &&
491            "Iterator out of range.");
492     OS << "Applied but not cleared DomTreeUpdates:\n";
493     printUpdates(PendUpdates.begin(), I);
494     OS << "Pending DomTreeUpdates:\n";
495     printUpdates(I, PendUpdates.end());
496   }
497 
498   if (PDT) {
499     const auto I = PendUpdates.begin() + PendPDTUpdateIndex;
500     assert(PendUpdates.begin() <= I && I <= PendUpdates.end() &&
501            "Iterator out of range.");
502     OS << "Applied but not cleared PostDomTreeUpdates:\n";
503     printUpdates(PendUpdates.begin(), I);
504     OS << "Pending PostDomTreeUpdates:\n";
505     printUpdates(I, PendUpdates.end());
506   }
507 
508   OS << "Pending DeletedBBs:\n";
509   Index = 0;
510   for (const auto *BB : DeletedBBs) {
511     OS << "  " << Index << " : ";
512     ++Index;
513     if (BB->hasName())
514       OS << BB->getName() << "(";
515     else
516       OS << "(no_name)(";
517     OS << BB << ")\n";
518   }
519 
520   OS << "Pending Callbacks:\n";
521   Index = 0;
522   for (const auto &BB : Callbacks) {
523     OS << "  " << Index << " : ";
524     ++Index;
525     if (BB->hasName())
526       OS << BB->getName() << "(";
527     else
528       OS << "(no_name)(";
529     OS << BB << ")\n";
530   }
531 }
532 #endif
533 } // namespace llvm
534