1b0aa36f9SDavid Green //===----------------- LoopRotationUtils.cpp -----------------------------===//
2b0aa36f9SDavid Green //
32946cd70SChandler Carruth // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
42946cd70SChandler Carruth // See https://llvm.org/LICENSE.txt for license information.
52946cd70SChandler Carruth // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6b0aa36f9SDavid Green //
7b0aa36f9SDavid Green //===----------------------------------------------------------------------===//
8b0aa36f9SDavid Green //
9b0aa36f9SDavid Green // This file provides utilities to convert a loop into a loop with bottom test.
10b0aa36f9SDavid Green //
11b0aa36f9SDavid Green //===----------------------------------------------------------------------===//
12b0aa36f9SDavid Green 
13b0aa36f9SDavid Green #include "llvm/Transforms/Utils/LoopRotationUtils.h"
14b0aa36f9SDavid Green #include "llvm/ADT/Statistic.h"
15b0aa36f9SDavid Green #include "llvm/Analysis/AssumptionCache.h"
16b0aa36f9SDavid Green #include "llvm/Analysis/BasicAliasAnalysis.h"
17b0aa36f9SDavid Green #include "llvm/Analysis/CodeMetrics.h"
185f436fc5SRichard Trieu #include "llvm/Analysis/DomTreeUpdater.h"
19b0aa36f9SDavid Green #include "llvm/Analysis/GlobalsModRef.h"
20b0aa36f9SDavid Green #include "llvm/Analysis/InstructionSimplify.h"
21b0aa36f9SDavid Green #include "llvm/Analysis/LoopPass.h"
22ad4d0182SAlina Sbirlea #include "llvm/Analysis/MemorySSA.h"
23ad4d0182SAlina Sbirlea #include "llvm/Analysis/MemorySSAUpdater.h"
24b0aa36f9SDavid Green #include "llvm/Analysis/ScalarEvolution.h"
25b0aa36f9SDavid Green #include "llvm/Analysis/ScalarEvolutionAliasAnalysis.h"
26b0aa36f9SDavid Green #include "llvm/Analysis/TargetTransformInfo.h"
27b0aa36f9SDavid Green #include "llvm/Analysis/ValueTracking.h"
28b0aa36f9SDavid Green #include "llvm/IR/CFG.h"
29b0aa36f9SDavid Green #include "llvm/IR/DebugInfoMetadata.h"
30b0aa36f9SDavid Green #include "llvm/IR/Dominators.h"
31b0aa36f9SDavid Green #include "llvm/IR/Function.h"
32b0aa36f9SDavid Green #include "llvm/IR/IntrinsicInst.h"
33b0aa36f9SDavid Green #include "llvm/IR/Module.h"
34b0aa36f9SDavid Green #include "llvm/Support/CommandLine.h"
35b0aa36f9SDavid Green #include "llvm/Support/Debug.h"
36b0aa36f9SDavid Green #include "llvm/Support/raw_ostream.h"
37b0aa36f9SDavid Green #include "llvm/Transforms/Utils/BasicBlockUtils.h"
38659c7bcdSJeroen Dobbelaere #include "llvm/Transforms/Utils/Cloning.h"
3921a8b605SChijun Sima #include "llvm/Transforms/Utils/Local.h"
40b0aa36f9SDavid Green #include "llvm/Transforms/Utils/LoopUtils.h"
41b0aa36f9SDavid Green #include "llvm/Transforms/Utils/SSAUpdater.h"
42b0aa36f9SDavid Green #include "llvm/Transforms/Utils/ValueMapper.h"
43b0aa36f9SDavid Green using namespace llvm;
44b0aa36f9SDavid Green 
45b0aa36f9SDavid Green #define DEBUG_TYPE "loop-rotate"
46b0aa36f9SDavid Green 
47ce4459a0SRoman Lebedev STATISTIC(NumNotRotatedDueToHeaderSize,
48ce4459a0SRoman Lebedev           "Number of loops not rotated due to the header size");
49b0aa36f9SDavid Green STATISTIC(NumRotated, "Number of loops rotated");
50b0aa36f9SDavid Green 
512f6987baSFedor Sergeev static cl::opt<bool>
522f6987baSFedor Sergeev     MultiRotate("loop-rotate-multi", cl::init(false), cl::Hidden,
532f6987baSFedor Sergeev                 cl::desc("Allow loop rotation multiple times in order to reach "
542f6987baSFedor Sergeev                          "a better latch exit"));
552f6987baSFedor Sergeev 
56b0aa36f9SDavid Green namespace {
57b0aa36f9SDavid Green /// A simple loop rotation transformation.
58b0aa36f9SDavid Green class LoopRotate {
59b0aa36f9SDavid Green   const unsigned MaxHeaderSize;
60b0aa36f9SDavid Green   LoopInfo *LI;
61b0aa36f9SDavid Green   const TargetTransformInfo *TTI;
62b0aa36f9SDavid Green   AssumptionCache *AC;
63b0aa36f9SDavid Green   DominatorTree *DT;
64b0aa36f9SDavid Green   ScalarEvolution *SE;
65ad4d0182SAlina Sbirlea   MemorySSAUpdater *MSSAU;
66b0aa36f9SDavid Green   const SimplifyQuery &SQ;
67585f2699SJin Lin   bool RotationOnly;
68585f2699SJin Lin   bool IsUtilMode;
6983daa497SFlorian Hahn   bool PrepareForLTO;
70b0aa36f9SDavid Green 
71b0aa36f9SDavid Green public:
72b0aa36f9SDavid Green   LoopRotate(unsigned MaxHeaderSize, LoopInfo *LI,
73b0aa36f9SDavid Green              const TargetTransformInfo *TTI, AssumptionCache *AC,
74ad4d0182SAlina Sbirlea              DominatorTree *DT, ScalarEvolution *SE, MemorySSAUpdater *MSSAU,
7583daa497SFlorian Hahn              const SimplifyQuery &SQ, bool RotationOnly, bool IsUtilMode,
7683daa497SFlorian Hahn              bool PrepareForLTO)
77b0aa36f9SDavid Green       : MaxHeaderSize(MaxHeaderSize), LI(LI), TTI(TTI), AC(AC), DT(DT), SE(SE),
78ad4d0182SAlina Sbirlea         MSSAU(MSSAU), SQ(SQ), RotationOnly(RotationOnly),
7983daa497SFlorian Hahn         IsUtilMode(IsUtilMode), PrepareForLTO(PrepareForLTO) {}
80b0aa36f9SDavid Green   bool processLoop(Loop *L);
81b0aa36f9SDavid Green 
82b0aa36f9SDavid Green private:
83b0aa36f9SDavid Green   bool rotateLoop(Loop *L, bool SimplifiedLatch);
84b0aa36f9SDavid Green   bool simplifyLoopLatch(Loop *L);
85b0aa36f9SDavid Green };
86b0aa36f9SDavid Green } // end anonymous namespace
87b0aa36f9SDavid Green 
884b698645SAlina Sbirlea /// Insert (K, V) pair into the ValueToValueMap, and verify the key did not
894b698645SAlina Sbirlea /// previously exist in the map, and the value was inserted.
904b698645SAlina Sbirlea static void InsertNewValueIntoMap(ValueToValueMapTy &VM, Value *K, Value *V) {
914b698645SAlina Sbirlea   bool Inserted = VM.insert({K, V}).second;
924b698645SAlina Sbirlea   assert(Inserted);
934b698645SAlina Sbirlea   (void)Inserted;
944b698645SAlina Sbirlea }
95b0aa36f9SDavid Green /// RewriteUsesOfClonedInstructions - We just cloned the instructions from the
96b0aa36f9SDavid Green /// old header into the preheader.  If there were uses of the values produced by
97b0aa36f9SDavid Green /// these instruction that were outside of the loop, we have to insert PHI nodes
98b0aa36f9SDavid Green /// to merge the two values.  Do this now.
99b0aa36f9SDavid Green static void RewriteUsesOfClonedInstructions(BasicBlock *OrigHeader,
100b0aa36f9SDavid Green                                             BasicBlock *OrigPreheader,
101b0aa36f9SDavid Green                                             ValueToValueMapTy &ValueMap,
102b0aa36f9SDavid Green                                 SmallVectorImpl<PHINode*> *InsertedPHIs) {
103b0aa36f9SDavid Green   // Remove PHI node entries that are no longer live.
104b0aa36f9SDavid Green   BasicBlock::iterator I, E = OrigHeader->end();
105b0aa36f9SDavid Green   for (I = OrigHeader->begin(); PHINode *PN = dyn_cast<PHINode>(I); ++I)
106b0aa36f9SDavid Green     PN->removeIncomingValue(PN->getBasicBlockIndex(OrigPreheader));
107b0aa36f9SDavid Green 
108b0aa36f9SDavid Green   // Now fix up users of the instructions in OrigHeader, inserting PHI nodes
109b0aa36f9SDavid Green   // as necessary.
110b0aa36f9SDavid Green   SSAUpdater SSA(InsertedPHIs);
111b0aa36f9SDavid Green   for (I = OrigHeader->begin(); I != E; ++I) {
112b0aa36f9SDavid Green     Value *OrigHeaderVal = &*I;
113b0aa36f9SDavid Green 
114b0aa36f9SDavid Green     // If there are no uses of the value (e.g. because it returns void), there
115b0aa36f9SDavid Green     // is nothing to rewrite.
116b0aa36f9SDavid Green     if (OrigHeaderVal->use_empty())
117b0aa36f9SDavid Green       continue;
118b0aa36f9SDavid Green 
119b0aa36f9SDavid Green     Value *OrigPreHeaderVal = ValueMap.lookup(OrigHeaderVal);
120b0aa36f9SDavid Green 
121b0aa36f9SDavid Green     // The value now exits in two versions: the initial value in the preheader
122b0aa36f9SDavid Green     // and the loop "next" value in the original header.
123b0aa36f9SDavid Green     SSA.Initialize(OrigHeaderVal->getType(), OrigHeaderVal->getName());
124b0aa36f9SDavid Green     SSA.AddAvailableValue(OrigHeader, OrigHeaderVal);
125b0aa36f9SDavid Green     SSA.AddAvailableValue(OrigPreheader, OrigPreHeaderVal);
126b0aa36f9SDavid Green 
127b0aa36f9SDavid Green     // Visit each use of the OrigHeader instruction.
128b0aa36f9SDavid Green     for (Value::use_iterator UI = OrigHeaderVal->use_begin(),
129b0aa36f9SDavid Green                              UE = OrigHeaderVal->use_end();
130b0aa36f9SDavid Green          UI != UE;) {
131b0aa36f9SDavid Green       // Grab the use before incrementing the iterator.
132b0aa36f9SDavid Green       Use &U = *UI;
133b0aa36f9SDavid Green 
134b0aa36f9SDavid Green       // Increment the iterator before removing the use from the list.
135b0aa36f9SDavid Green       ++UI;
136b0aa36f9SDavid Green 
137b0aa36f9SDavid Green       // SSAUpdater can't handle a non-PHI use in the same block as an
138b0aa36f9SDavid Green       // earlier def. We can easily handle those cases manually.
139b0aa36f9SDavid Green       Instruction *UserInst = cast<Instruction>(U.getUser());
140b0aa36f9SDavid Green       if (!isa<PHINode>(UserInst)) {
141b0aa36f9SDavid Green         BasicBlock *UserBB = UserInst->getParent();
142b0aa36f9SDavid Green 
143b0aa36f9SDavid Green         // The original users in the OrigHeader are already using the
144b0aa36f9SDavid Green         // original definitions.
145b0aa36f9SDavid Green         if (UserBB == OrigHeader)
146b0aa36f9SDavid Green           continue;
147b0aa36f9SDavid Green 
148b0aa36f9SDavid Green         // Users in the OrigPreHeader need to use the value to which the
149b0aa36f9SDavid Green         // original definitions are mapped.
150b0aa36f9SDavid Green         if (UserBB == OrigPreheader) {
151b0aa36f9SDavid Green           U = OrigPreHeaderVal;
152b0aa36f9SDavid Green           continue;
153b0aa36f9SDavid Green         }
154b0aa36f9SDavid Green       }
155b0aa36f9SDavid Green 
156b0aa36f9SDavid Green       // Anything else can be handled by SSAUpdater.
157b0aa36f9SDavid Green       SSA.RewriteUse(U);
158b0aa36f9SDavid Green     }
159b0aa36f9SDavid Green 
160b0aa36f9SDavid Green     // Replace MetadataAsValue(ValueAsMetadata(OrigHeaderVal)) uses in debug
161b0aa36f9SDavid Green     // intrinsics.
162b0aa36f9SDavid Green     SmallVector<DbgValueInst *, 1> DbgValues;
163b0aa36f9SDavid Green     llvm::findDbgValues(DbgValues, OrigHeaderVal);
164b0aa36f9SDavid Green     for (auto &DbgValue : DbgValues) {
165b0aa36f9SDavid Green       // The original users in the OrigHeader are already using the original
166b0aa36f9SDavid Green       // definitions.
167b0aa36f9SDavid Green       BasicBlock *UserBB = DbgValue->getParent();
168b0aa36f9SDavid Green       if (UserBB == OrigHeader)
169b0aa36f9SDavid Green         continue;
170b0aa36f9SDavid Green 
171b0aa36f9SDavid Green       // Users in the OrigPreHeader need to use the value to which the
172b0aa36f9SDavid Green       // original definitions are mapped and anything else can be handled by
173b0aa36f9SDavid Green       // the SSAUpdater. To avoid adding PHINodes, check if the value is
174b0aa36f9SDavid Green       // available in UserBB, if not substitute undef.
175b0aa36f9SDavid Green       Value *NewVal;
176b0aa36f9SDavid Green       if (UserBB == OrigPreheader)
177b0aa36f9SDavid Green         NewVal = OrigPreHeaderVal;
178b0aa36f9SDavid Green       else if (SSA.HasValueForBlock(UserBB))
179b0aa36f9SDavid Green         NewVal = SSA.GetValueInMiddleOfBlock(UserBB);
180b0aa36f9SDavid Green       else
181b0aa36f9SDavid Green         NewVal = UndefValue::get(OrigHeaderVal->getType());
182e5d958c4Sgbtozers       DbgValue->replaceVariableLocationOp(OrigHeaderVal, NewVal);
183b0aa36f9SDavid Green     }
184b0aa36f9SDavid Green   }
185b0aa36f9SDavid Green }
186b0aa36f9SDavid Green 
1872f6987baSFedor Sergeev // Assuming both header and latch are exiting, look for a phi which is only
1882f6987baSFedor Sergeev // used outside the loop (via a LCSSA phi) in the exit from the header.
1892f6987baSFedor Sergeev // This means that rotating the loop can remove the phi.
1902f6987baSFedor Sergeev static bool profitableToRotateLoopExitingLatch(Loop *L) {
191f80ebc8dSDavid Green   BasicBlock *Header = L->getHeader();
1922f6987baSFedor Sergeev   BranchInst *BI = dyn_cast<BranchInst>(Header->getTerminator());
1932f6987baSFedor Sergeev   assert(BI && BI->isConditional() && "need header with conditional exit");
1942f6987baSFedor Sergeev   BasicBlock *HeaderExit = BI->getSuccessor(0);
195f80ebc8dSDavid Green   if (L->contains(HeaderExit))
1962f6987baSFedor Sergeev     HeaderExit = BI->getSuccessor(1);
197f80ebc8dSDavid Green 
198f80ebc8dSDavid Green   for (auto &Phi : Header->phis()) {
199f80ebc8dSDavid Green     // Look for uses of this phi in the loop/via exits other than the header.
200f80ebc8dSDavid Green     if (llvm::any_of(Phi.users(), [HeaderExit](const User *U) {
201f80ebc8dSDavid Green           return cast<Instruction>(U)->getParent() != HeaderExit;
202f80ebc8dSDavid Green         }))
203f80ebc8dSDavid Green       continue;
204f80ebc8dSDavid Green     return true;
205f80ebc8dSDavid Green   }
2062f6987baSFedor Sergeev   return false;
2072f6987baSFedor Sergeev }
208f80ebc8dSDavid Green 
2092f6987baSFedor Sergeev // Check that latch exit is deoptimizing (which means - very unlikely to happen)
2102f6987baSFedor Sergeev // and there is another exit from the loop which is non-deoptimizing.
2112f6987baSFedor Sergeev // If we rotate latch to that exit our loop has a better chance of being fully
2122f6987baSFedor Sergeev // canonical.
2132f6987baSFedor Sergeev //
2142f6987baSFedor Sergeev // It can give false positives in some rare cases.
2152f6987baSFedor Sergeev static bool canRotateDeoptimizingLatchExit(Loop *L) {
2162f6987baSFedor Sergeev   BasicBlock *Latch = L->getLoopLatch();
2172f6987baSFedor Sergeev   assert(Latch && "need latch");
2182f6987baSFedor Sergeev   BranchInst *BI = dyn_cast<BranchInst>(Latch->getTerminator());
2192f6987baSFedor Sergeev   // Need normal exiting latch.
2202f6987baSFedor Sergeev   if (!BI || !BI->isConditional())
2212f6987baSFedor Sergeev     return false;
2222f6987baSFedor Sergeev 
2232f6987baSFedor Sergeev   BasicBlock *Exit = BI->getSuccessor(1);
2242f6987baSFedor Sergeev   if (L->contains(Exit))
2252f6987baSFedor Sergeev     Exit = BI->getSuccessor(0);
2262f6987baSFedor Sergeev 
2272f6987baSFedor Sergeev   // Latch exit is non-deoptimizing, no need to rotate.
2282f6987baSFedor Sergeev   if (!Exit->getPostdominatingDeoptimizeCall())
2292f6987baSFedor Sergeev     return false;
2302f6987baSFedor Sergeev 
2312f6987baSFedor Sergeev   SmallVector<BasicBlock *, 4> Exits;
2322f6987baSFedor Sergeev   L->getUniqueExitBlocks(Exits);
2332f6987baSFedor Sergeev   if (!Exits.empty()) {
2342f6987baSFedor Sergeev     // There is at least one non-deoptimizing exit.
2352f6987baSFedor Sergeev     //
2362f6987baSFedor Sergeev     // Note, that BasicBlock::getPostdominatingDeoptimizeCall is not exact,
2372f6987baSFedor Sergeev     // as it can conservatively return false for deoptimizing exits with
2382f6987baSFedor Sergeev     // complex enough control flow down to deoptimize call.
2392f6987baSFedor Sergeev     //
2402f6987baSFedor Sergeev     // That means here we can report success for a case where
2412f6987baSFedor Sergeev     // all exits are deoptimizing but one of them has complex enough
2422f6987baSFedor Sergeev     // control flow (e.g. with loops).
2432f6987baSFedor Sergeev     //
2442f6987baSFedor Sergeev     // That should be a very rare case and false positives for this function
2452f6987baSFedor Sergeev     // have compile-time effect only.
2462f6987baSFedor Sergeev     return any_of(Exits, [](const BasicBlock *BB) {
2472f6987baSFedor Sergeev       return !BB->getPostdominatingDeoptimizeCall();
2482f6987baSFedor Sergeev     });
2492f6987baSFedor Sergeev   }
250f80ebc8dSDavid Green   return false;
251f80ebc8dSDavid Green }
252f80ebc8dSDavid Green 
253b0aa36f9SDavid Green /// Rotate loop LP. Return true if the loop is rotated.
254b0aa36f9SDavid Green ///
255b0aa36f9SDavid Green /// \param SimplifiedLatch is true if the latch was just folded into the final
256b0aa36f9SDavid Green /// loop exit. In this case we may want to rotate even though the new latch is
257b0aa36f9SDavid Green /// now an exiting branch. This rotation would have happened had the latch not
258b0aa36f9SDavid Green /// been simplified. However, if SimplifiedLatch is false, then we avoid
259b0aa36f9SDavid Green /// rotating loops in which the latch exits to avoid excessive or endless
260b0aa36f9SDavid Green /// rotation. LoopRotate should be repeatable and converge to a canonical
261b0aa36f9SDavid Green /// form. This property is satisfied because simplifying the loop latch can only
262b0aa36f9SDavid Green /// happen once across multiple invocations of the LoopRotate pass.
2632f6987baSFedor Sergeev ///
2642f6987baSFedor Sergeev /// If -loop-rotate-multi is enabled we can do multiple rotations in one go
2652f6987baSFedor Sergeev /// so to reach a suitable (non-deoptimizing) exit.
266b0aa36f9SDavid Green bool LoopRotate::rotateLoop(Loop *L, bool SimplifiedLatch) {
267b0aa36f9SDavid Green   // If the loop has only one block then there is not much to rotate.
268b0aa36f9SDavid Green   if (L->getBlocks().size() == 1)
269b0aa36f9SDavid Green     return false;
270b0aa36f9SDavid Green 
2712f6987baSFedor Sergeev   bool Rotated = false;
2722f6987baSFedor Sergeev   do {
273b0aa36f9SDavid Green     BasicBlock *OrigHeader = L->getHeader();
274b0aa36f9SDavid Green     BasicBlock *OrigLatch = L->getLoopLatch();
275b0aa36f9SDavid Green 
276b0aa36f9SDavid Green     BranchInst *BI = dyn_cast<BranchInst>(OrigHeader->getTerminator());
277b0aa36f9SDavid Green     if (!BI || BI->isUnconditional())
2782f6987baSFedor Sergeev       return Rotated;
279b0aa36f9SDavid Green 
280b0aa36f9SDavid Green     // If the loop header is not one of the loop exiting blocks then
281b0aa36f9SDavid Green     // either this loop is already rotated or it is not
282b0aa36f9SDavid Green     // suitable for loop rotation transformations.
283b0aa36f9SDavid Green     if (!L->isLoopExiting(OrigHeader))
2842f6987baSFedor Sergeev       return Rotated;
285b0aa36f9SDavid Green 
286b0aa36f9SDavid Green     // If the loop latch already contains a branch that leaves the loop then the
287b0aa36f9SDavid Green     // loop is already rotated.
288b0aa36f9SDavid Green     if (!OrigLatch)
2892f6987baSFedor Sergeev       return Rotated;
290b0aa36f9SDavid Green 
291b0aa36f9SDavid Green     // Rotate if either the loop latch does *not* exit the loop, or if the loop
292f80ebc8dSDavid Green     // latch was just simplified. Or if we think it will be profitable.
293585f2699SJin Lin     if (L->isLoopExiting(OrigLatch) && !SimplifiedLatch && IsUtilMode == false &&
2942f6987baSFedor Sergeev         !profitableToRotateLoopExitingLatch(L) &&
2952f6987baSFedor Sergeev         !canRotateDeoptimizingLatchExit(L))
2962f6987baSFedor Sergeev       return Rotated;
297b0aa36f9SDavid Green 
298b0aa36f9SDavid Green     // Check size of original header and reject loop if it is very big or we can't
299b0aa36f9SDavid Green     // duplicate blocks inside it.
300b0aa36f9SDavid Green     {
301b0aa36f9SDavid Green       SmallPtrSet<const Value *, 32> EphValues;
302b0aa36f9SDavid Green       CodeMetrics::collectEphemeralValues(L, AC, EphValues);
303b0aa36f9SDavid Green 
304b0aa36f9SDavid Green       CodeMetrics Metrics;
30583daa497SFlorian Hahn       Metrics.analyzeBasicBlock(OrigHeader, *TTI, EphValues, PrepareForLTO);
306b0aa36f9SDavid Green       if (Metrics.notDuplicatable) {
307d34e60caSNicola Zaghen         LLVM_DEBUG(
308d34e60caSNicola Zaghen                    dbgs() << "LoopRotation: NOT rotating - contains non-duplicatable"
309b0aa36f9SDavid Green                    << " instructions: ";
310b0aa36f9SDavid Green                    L->dump());
3112f6987baSFedor Sergeev         return Rotated;
312b0aa36f9SDavid Green       }
313b0aa36f9SDavid Green       if (Metrics.convergent) {
314d34e60caSNicola Zaghen         LLVM_DEBUG(dbgs() << "LoopRotation: NOT rotating - contains convergent "
315b0aa36f9SDavid Green                    "instructions: ";
316b0aa36f9SDavid Green                    L->dump());
3172f6987baSFedor Sergeev         return Rotated;
318b0aa36f9SDavid Green       }
319398b497cSRoman Lebedev       if (Metrics.NumInsts > MaxHeaderSize) {
320398b497cSRoman Lebedev         LLVM_DEBUG(dbgs() << "LoopRotation: NOT rotating - contains "
321398b497cSRoman Lebedev                           << Metrics.NumInsts
322398b497cSRoman Lebedev                           << " instructions, which is more than the threshold ("
323398b497cSRoman Lebedev                           << MaxHeaderSize << " instructions): ";
324398b497cSRoman Lebedev                    L->dump());
325ce4459a0SRoman Lebedev         ++NumNotRotatedDueToHeaderSize;
3262f6987baSFedor Sergeev         return Rotated;
327b0aa36f9SDavid Green       }
32883daa497SFlorian Hahn 
32983daa497SFlorian Hahn       // When preparing for LTO, avoid rotating loops with calls that could be
33083daa497SFlorian Hahn       // inlined during the LTO stage.
33183daa497SFlorian Hahn       if (PrepareForLTO && Metrics.NumInlineCandidates > 0)
33283daa497SFlorian Hahn         return Rotated;
333398b497cSRoman Lebedev     }
334b0aa36f9SDavid Green 
335b0aa36f9SDavid Green     // Now, this loop is suitable for rotation.
336b0aa36f9SDavid Green     BasicBlock *OrigPreheader = L->getLoopPreheader();
337b0aa36f9SDavid Green 
338b0aa36f9SDavid Green     // If the loop could not be converted to canonical form, it must have an
339b0aa36f9SDavid Green     // indirectbr in it, just give up.
340b0aa36f9SDavid Green     if (!OrigPreheader || !L->hasDedicatedExits())
3412f6987baSFedor Sergeev       return Rotated;
342b0aa36f9SDavid Green 
343b0aa36f9SDavid Green     // Anything ScalarEvolution may know about this loop or the PHI nodes
3445a0a40b8SMax Kazantsev     // in its header will soon be invalidated. We should also invalidate
3455a0a40b8SMax Kazantsev     // all outer loops because insertion and deletion of blocks that happens
3465a0a40b8SMax Kazantsev     // during the rotation may violate invariants related to backedge taken
3475a0a40b8SMax Kazantsev     // infos in them.
348b0aa36f9SDavid Green     if (SE)
34991f48166SMax Kazantsev       SE->forgetTopmostLoop(L);
350b0aa36f9SDavid Green 
351d34e60caSNicola Zaghen     LLVM_DEBUG(dbgs() << "LoopRotation: rotating "; L->dump());
352ad4d0182SAlina Sbirlea     if (MSSAU && VerifyMemorySSA)
353ad4d0182SAlina Sbirlea       MSSAU->getMemorySSA()->verifyMemorySSA();
354b0aa36f9SDavid Green 
355b0aa36f9SDavid Green     // Find new Loop header. NewHeader is a Header's one and only successor
356b0aa36f9SDavid Green     // that is inside loop.  Header's other successor is outside the
357b0aa36f9SDavid Green     // loop.  Otherwise loop is not suitable for rotation.
358b0aa36f9SDavid Green     BasicBlock *Exit = BI->getSuccessor(0);
359b0aa36f9SDavid Green     BasicBlock *NewHeader = BI->getSuccessor(1);
360b0aa36f9SDavid Green     if (L->contains(Exit))
361b0aa36f9SDavid Green       std::swap(Exit, NewHeader);
362b0aa36f9SDavid Green     assert(NewHeader && "Unable to determine new loop header");
363b0aa36f9SDavid Green     assert(L->contains(NewHeader) && !L->contains(Exit) &&
364b0aa36f9SDavid Green            "Unable to determine loop header and exit blocks");
365b0aa36f9SDavid Green 
366b0aa36f9SDavid Green     // This code assumes that the new header has exactly one predecessor.
367b0aa36f9SDavid Green     // Remove any single-entry PHI nodes in it.
368b0aa36f9SDavid Green     assert(NewHeader->getSinglePredecessor() &&
369b0aa36f9SDavid Green            "New header doesn't have one pred!");
370b0aa36f9SDavid Green     FoldSingleEntryPHINodes(NewHeader);
371b0aa36f9SDavid Green 
372b0aa36f9SDavid Green     // Begin by walking OrigHeader and populating ValueMap with an entry for
373b0aa36f9SDavid Green     // each Instruction.
374b0aa36f9SDavid Green     BasicBlock::iterator I = OrigHeader->begin(), E = OrigHeader->end();
37558a37754SAlina Sbirlea     ValueToValueMapTy ValueMap, ValueMapMSSA;
376b0aa36f9SDavid Green 
377b0aa36f9SDavid Green     // For PHI nodes, the value available in OldPreHeader is just the
378b0aa36f9SDavid Green     // incoming value from OldPreHeader.
379b0aa36f9SDavid Green     for (; PHINode *PN = dyn_cast<PHINode>(I); ++I)
3804b698645SAlina Sbirlea       InsertNewValueIntoMap(ValueMap, PN,
3814b698645SAlina Sbirlea                             PN->getIncomingValueForBlock(OrigPreheader));
382b0aa36f9SDavid Green 
383b0aa36f9SDavid Green     // For the rest of the instructions, either hoist to the OrigPreheader if
384b0aa36f9SDavid Green     // possible or create a clone in the OldPreHeader if not.
385edb12a83SChandler Carruth     Instruction *LoopEntryBranch = OrigPreheader->getTerminator();
386b0aa36f9SDavid Green 
387*3bfddc25SStephen Tozer     // Record all debug intrinsics preceding LoopEntryBranch to avoid
388*3bfddc25SStephen Tozer     // duplication.
389b0aa36f9SDavid Green     using DbgIntrinsicHash =
390*3bfddc25SStephen Tozer         std::pair<std::pair<hash_code, DILocalVariable *>, DIExpression *>;
391ef72e481SHsiangkai Wang     auto makeHash = [](DbgVariableIntrinsic *D) -> DbgIntrinsicHash {
392*3bfddc25SStephen Tozer       auto VarLocOps = D->location_ops();
393*3bfddc25SStephen Tozer       return {{hash_combine_range(VarLocOps.begin(), VarLocOps.end()),
394*3bfddc25SStephen Tozer                D->getVariable()},
395e5d958c4Sgbtozers               D->getExpression()};
396b0aa36f9SDavid Green     };
397b0aa36f9SDavid Green     SmallDenseSet<DbgIntrinsicHash, 8> DbgIntrinsics;
398b0aa36f9SDavid Green     for (auto I = std::next(OrigPreheader->rbegin()), E = OrigPreheader->rend();
399b0aa36f9SDavid Green          I != E; ++I) {
400ef72e481SHsiangkai Wang       if (auto *DII = dyn_cast<DbgVariableIntrinsic>(&*I))
401b0aa36f9SDavid Green         DbgIntrinsics.insert(makeHash(DII));
402b0aa36f9SDavid Green       else
403b0aa36f9SDavid Green         break;
404b0aa36f9SDavid Green     }
405b0aa36f9SDavid Green 
406659c7bcdSJeroen Dobbelaere     // Remember the local noalias scope declarations in the header. After the
407659c7bcdSJeroen Dobbelaere     // rotation, they must be duplicated and the scope must be cloned. This
408659c7bcdSJeroen Dobbelaere     // avoids unwanted interaction across iterations.
4098b9df70bSNikita Popov     SmallVector<NoAliasScopeDeclInst *, 6> NoAliasDeclInstructions;
410659c7bcdSJeroen Dobbelaere     for (Instruction &I : *OrigHeader)
411659c7bcdSJeroen Dobbelaere       if (auto *Decl = dyn_cast<NoAliasScopeDeclInst>(&I))
412659c7bcdSJeroen Dobbelaere         NoAliasDeclInstructions.push_back(Decl);
413659c7bcdSJeroen Dobbelaere 
414b0aa36f9SDavid Green     while (I != E) {
415b0aa36f9SDavid Green       Instruction *Inst = &*I++;
416b0aa36f9SDavid Green 
417b0aa36f9SDavid Green       // If the instruction's operands are invariant and it doesn't read or write
418b0aa36f9SDavid Green       // memory, then it is safe to hoist.  Doing this doesn't change the order of
419b0aa36f9SDavid Green       // execution in the preheader, but does prevent the instruction from
420b0aa36f9SDavid Green       // executing in each iteration of the loop.  This means it is safe to hoist
421b0aa36f9SDavid Green       // something that might trap, but isn't safe to hoist something that reads
422b0aa36f9SDavid Green       // memory (without proving that the loop doesn't write).
423b0aa36f9SDavid Green       if (L->hasLoopInvariantOperands(Inst) && !Inst->mayReadFromMemory() &&
4249ae926b9SChandler Carruth           !Inst->mayWriteToMemory() && !Inst->isTerminator() &&
425b0aa36f9SDavid Green           !isa<DbgInfoIntrinsic>(Inst) && !isa<AllocaInst>(Inst)) {
426b0aa36f9SDavid Green         Inst->moveBefore(LoopEntryBranch);
427b0aa36f9SDavid Green         continue;
428b0aa36f9SDavid Green       }
429b0aa36f9SDavid Green 
430b0aa36f9SDavid Green       // Otherwise, create a duplicate of the instruction.
431b0aa36f9SDavid Green       Instruction *C = Inst->clone();
432b0aa36f9SDavid Green 
433b0aa36f9SDavid Green       // Eagerly remap the operands of the instruction.
434b0aa36f9SDavid Green       RemapInstruction(C, ValueMap,
435b0aa36f9SDavid Green                        RF_NoModuleLevelChanges | RF_IgnoreMissingLocals);
436b0aa36f9SDavid Green 
437b0aa36f9SDavid Green       // Avoid inserting the same intrinsic twice.
438ef72e481SHsiangkai Wang       if (auto *DII = dyn_cast<DbgVariableIntrinsic>(C))
439b0aa36f9SDavid Green         if (DbgIntrinsics.count(makeHash(DII))) {
440b0aa36f9SDavid Green           C->deleteValue();
441b0aa36f9SDavid Green           continue;
442b0aa36f9SDavid Green         }
443b0aa36f9SDavid Green 
444b0aa36f9SDavid Green       // With the operands remapped, see if the instruction constant folds or is
445b0aa36f9SDavid Green       // otherwise simplifyable.  This commonly occurs because the entry from PHI
446b0aa36f9SDavid Green       // nodes allows icmps and other instructions to fold.
447b0aa36f9SDavid Green       Value *V = SimplifyInstruction(C, SQ);
448b0aa36f9SDavid Green       if (V && LI->replacementPreservesLCSSAForm(C, V)) {
449b0aa36f9SDavid Green         // If so, then delete the temporary instruction and stick the folded value
450b0aa36f9SDavid Green         // in the map.
4514b698645SAlina Sbirlea         InsertNewValueIntoMap(ValueMap, Inst, V);
452b0aa36f9SDavid Green         if (!C->mayHaveSideEffects()) {
453b0aa36f9SDavid Green           C->deleteValue();
454b0aa36f9SDavid Green           C = nullptr;
455b0aa36f9SDavid Green         }
456b0aa36f9SDavid Green       } else {
4574b698645SAlina Sbirlea         InsertNewValueIntoMap(ValueMap, Inst, C);
458b0aa36f9SDavid Green       }
459b0aa36f9SDavid Green       if (C) {
460b0aa36f9SDavid Green         // Otherwise, stick the new instruction into the new block!
461b0aa36f9SDavid Green         C->setName(Inst->getName());
462b0aa36f9SDavid Green         C->insertBefore(LoopEntryBranch);
463b0aa36f9SDavid Green 
464b0aa36f9SDavid Green         if (auto *II = dyn_cast<IntrinsicInst>(C))
465b0aa36f9SDavid Green           if (II->getIntrinsicID() == Intrinsic::assume)
466b0aa36f9SDavid Green             AC->registerAssumption(II);
46758a37754SAlina Sbirlea         // MemorySSA cares whether the cloned instruction was inserted or not, and
46858a37754SAlina Sbirlea         // not whether it can be remapped to a simplified value.
4694b698645SAlina Sbirlea         if (MSSAU)
4704b698645SAlina Sbirlea           InsertNewValueIntoMap(ValueMapMSSA, Inst, C);
471b0aa36f9SDavid Green       }
472b0aa36f9SDavid Green     }
473b0aa36f9SDavid Green 
474659c7bcdSJeroen Dobbelaere     if (!NoAliasDeclInstructions.empty()) {
475659c7bcdSJeroen Dobbelaere       // There are noalias scope declarations:
476659c7bcdSJeroen Dobbelaere       // (general):
477659c7bcdSJeroen Dobbelaere       // Original:    OrigPre              { OrigHeader NewHeader ... Latch }
478659c7bcdSJeroen Dobbelaere       // after:      (OrigPre+OrigHeader') { NewHeader ... Latch OrigHeader }
479659c7bcdSJeroen Dobbelaere       //
480659c7bcdSJeroen Dobbelaere       // with D: llvm.experimental.noalias.scope.decl,
481659c7bcdSJeroen Dobbelaere       //      U: !noalias or !alias.scope depending on D
482659c7bcdSJeroen Dobbelaere       //       ... { D U1 U2 }   can transform into:
483659c7bcdSJeroen Dobbelaere       // (0) : ... { D U1 U2 }        // no relevant rotation for this part
484659c7bcdSJeroen Dobbelaere       // (1) : ... D' { U1 U2 D }     // D is part of OrigHeader
485659c7bcdSJeroen Dobbelaere       // (2) : ... D' U1' { U2 D U1 } // D, U1 are part of OrigHeader
486659c7bcdSJeroen Dobbelaere       //
487659c7bcdSJeroen Dobbelaere       // We now want to transform:
488659c7bcdSJeroen Dobbelaere       // (1) -> : ... D' { D U1 U2 D'' }
489659c7bcdSJeroen Dobbelaere       // (2) -> : ... D' U1' { D U2 D'' U1'' }
490659c7bcdSJeroen Dobbelaere       // D: original llvm.experimental.noalias.scope.decl
491659c7bcdSJeroen Dobbelaere       // D', U1': duplicate with replaced scopes
492659c7bcdSJeroen Dobbelaere       // D'', U1'': different duplicate with replaced scopes
493659c7bcdSJeroen Dobbelaere       // This ensures a safe fallback to 'may_alias' introduced by the rotate,
494659c7bcdSJeroen Dobbelaere       // as U1'' and U1' scopes will not be compatible wrt to the local restrict
495659c7bcdSJeroen Dobbelaere 
496659c7bcdSJeroen Dobbelaere       // Clone the llvm.experimental.noalias.decl again for the NewHeader.
497659c7bcdSJeroen Dobbelaere       Instruction *NewHeaderInsertionPoint = &(*NewHeader->getFirstNonPHI());
4988b9df70bSNikita Popov       for (NoAliasScopeDeclInst *NAD : NoAliasDeclInstructions) {
499659c7bcdSJeroen Dobbelaere         LLVM_DEBUG(dbgs() << "  Cloning llvm.experimental.noalias.scope.decl:"
500659c7bcdSJeroen Dobbelaere                           << *NAD << "\n");
501659c7bcdSJeroen Dobbelaere         Instruction *NewNAD = NAD->clone();
502659c7bcdSJeroen Dobbelaere         NewNAD->insertBefore(NewHeaderInsertionPoint);
503659c7bcdSJeroen Dobbelaere       }
504659c7bcdSJeroen Dobbelaere 
505659c7bcdSJeroen Dobbelaere       // Scopes must now be duplicated, once for OrigHeader and once for
506659c7bcdSJeroen Dobbelaere       // OrigPreHeader'.
507659c7bcdSJeroen Dobbelaere       {
508659c7bcdSJeroen Dobbelaere         auto &Context = NewHeader->getContext();
509659c7bcdSJeroen Dobbelaere 
5108b9df70bSNikita Popov         SmallVector<MDNode *, 8> NoAliasDeclScopes;
5118b9df70bSNikita Popov         for (NoAliasScopeDeclInst *NAD : NoAliasDeclInstructions)
5128b9df70bSNikita Popov           NoAliasDeclScopes.push_back(NAD->getScopeList());
513659c7bcdSJeroen Dobbelaere 
514659c7bcdSJeroen Dobbelaere         LLVM_DEBUG(dbgs() << "  Updating OrigHeader scopes\n");
515659c7bcdSJeroen Dobbelaere         cloneAndAdaptNoAliasScopes(NoAliasDeclScopes, {OrigHeader}, Context,
516659c7bcdSJeroen Dobbelaere                                    "h.rot");
517659c7bcdSJeroen Dobbelaere         LLVM_DEBUG(OrigHeader->dump());
518659c7bcdSJeroen Dobbelaere 
519659c7bcdSJeroen Dobbelaere         // Keep the compile time impact low by only adapting the inserted block
520659c7bcdSJeroen Dobbelaere         // of instructions in the OrigPreHeader. This might result in slightly
521659c7bcdSJeroen Dobbelaere         // more aliasing between these instructions and those that were already
522659c7bcdSJeroen Dobbelaere         // present, but it will be much faster when the original PreHeader is
523659c7bcdSJeroen Dobbelaere         // large.
524659c7bcdSJeroen Dobbelaere         LLVM_DEBUG(dbgs() << "  Updating part of OrigPreheader scopes\n");
525659c7bcdSJeroen Dobbelaere         auto *FirstDecl =
526659c7bcdSJeroen Dobbelaere             cast<Instruction>(ValueMap[*NoAliasDeclInstructions.begin()]);
527659c7bcdSJeroen Dobbelaere         auto *LastInst = &OrigPreheader->back();
528659c7bcdSJeroen Dobbelaere         cloneAndAdaptNoAliasScopes(NoAliasDeclScopes, FirstDecl, LastInst,
529659c7bcdSJeroen Dobbelaere                                    Context, "pre.rot");
530659c7bcdSJeroen Dobbelaere         LLVM_DEBUG(OrigPreheader->dump());
531659c7bcdSJeroen Dobbelaere 
532659c7bcdSJeroen Dobbelaere         LLVM_DEBUG(dbgs() << "  Updated NewHeader:\n");
533659c7bcdSJeroen Dobbelaere         LLVM_DEBUG(NewHeader->dump());
534659c7bcdSJeroen Dobbelaere       }
535659c7bcdSJeroen Dobbelaere     }
536659c7bcdSJeroen Dobbelaere 
537b0aa36f9SDavid Green     // Along with all the other instructions, we just cloned OrigHeader's
538b0aa36f9SDavid Green     // terminator into OrigPreHeader. Fix up the PHI nodes in each of OrigHeader's
539b0aa36f9SDavid Green     // successors by duplicating their incoming values for OrigHeader.
54096fc1de7SChandler Carruth     for (BasicBlock *SuccBB : successors(OrigHeader))
541b0aa36f9SDavid Green       for (BasicBlock::iterator BI = SuccBB->begin();
542b0aa36f9SDavid Green            PHINode *PN = dyn_cast<PHINode>(BI); ++BI)
543b0aa36f9SDavid Green         PN->addIncoming(PN->getIncomingValueForBlock(OrigHeader), OrigPreheader);
544b0aa36f9SDavid Green 
545b0aa36f9SDavid Green     // Now that OrigPreHeader has a clone of OrigHeader's terminator, remove
546b0aa36f9SDavid Green     // OrigPreHeader's old terminator (the original branch into the loop), and
547b0aa36f9SDavid Green     // remove the corresponding incoming values from the PHI nodes in OrigHeader.
548b0aa36f9SDavid Green     LoopEntryBranch->eraseFromParent();
549b0aa36f9SDavid Green 
550ad4d0182SAlina Sbirlea     // Update MemorySSA before the rewrite call below changes the 1:1
55158a37754SAlina Sbirlea     // instruction:cloned_instruction_or_value mapping.
552ad4d0182SAlina Sbirlea     if (MSSAU) {
5534b698645SAlina Sbirlea       InsertNewValueIntoMap(ValueMapMSSA, OrigHeader, OrigPreheader);
55458a37754SAlina Sbirlea       MSSAU->updateForClonedBlockIntoPred(OrigHeader, OrigPreheader,
55558a37754SAlina Sbirlea                                           ValueMapMSSA);
556ad4d0182SAlina Sbirlea     }
557b0aa36f9SDavid Green 
558b0aa36f9SDavid Green     SmallVector<PHINode*, 2> InsertedPHIs;
559b0aa36f9SDavid Green     // If there were any uses of instructions in the duplicated block outside the
560b0aa36f9SDavid Green     // loop, update them, inserting PHI nodes as required
561b0aa36f9SDavid Green     RewriteUsesOfClonedInstructions(OrigHeader, OrigPreheader, ValueMap,
562b0aa36f9SDavid Green                                     &InsertedPHIs);
563b0aa36f9SDavid Green 
564b0aa36f9SDavid Green     // Attach dbg.value intrinsics to the new phis if that phi uses a value that
565b0aa36f9SDavid Green     // previously had debug metadata attached. This keeps the debug info
566b0aa36f9SDavid Green     // up-to-date in the loop body.
567b0aa36f9SDavid Green     if (!InsertedPHIs.empty())
568b0aa36f9SDavid Green       insertDebugValuesForPHIs(OrigHeader, InsertedPHIs);
569b0aa36f9SDavid Green 
570b0aa36f9SDavid Green     // NewHeader is now the header of the loop.
571b0aa36f9SDavid Green     L->moveToHeader(NewHeader);
572b0aa36f9SDavid Green     assert(L->getHeader() == NewHeader && "Latch block is our new header");
573b0aa36f9SDavid Green 
574b0aa36f9SDavid Green     // Inform DT about changes to the CFG.
575b0aa36f9SDavid Green     if (DT) {
576b0aa36f9SDavid Green       // The OrigPreheader branches to the NewHeader and Exit now. Then, inform
577b0aa36f9SDavid Green       // the DT about the removed edge to the OrigHeader (that got removed).
578b0aa36f9SDavid Green       SmallVector<DominatorTree::UpdateType, 3> Updates;
579b0aa36f9SDavid Green       Updates.push_back({DominatorTree::Insert, OrigPreheader, Exit});
580b0aa36f9SDavid Green       Updates.push_back({DominatorTree::Insert, OrigPreheader, NewHeader});
581b0aa36f9SDavid Green       Updates.push_back({DominatorTree::Delete, OrigPreheader, OrigHeader});
582ad4d0182SAlina Sbirlea 
583ad4d0182SAlina Sbirlea       if (MSSAU) {
58463aeaf75SAlina Sbirlea         MSSAU->applyUpdates(Updates, *DT, /*UpdateDT=*/true);
585ad4d0182SAlina Sbirlea         if (VerifyMemorySSA)
586ad4d0182SAlina Sbirlea           MSSAU->getMemorySSA()->verifyMemorySSA();
58763aeaf75SAlina Sbirlea       } else {
58863aeaf75SAlina Sbirlea         DT->applyUpdates(Updates);
589ad4d0182SAlina Sbirlea       }
590b0aa36f9SDavid Green     }
591b0aa36f9SDavid Green 
592b0aa36f9SDavid Green     // At this point, we've finished our major CFG changes.  As part of cloning
593b0aa36f9SDavid Green     // the loop into the preheader we've simplified instructions and the
594b0aa36f9SDavid Green     // duplicated conditional branch may now be branching on a constant.  If it is
595b0aa36f9SDavid Green     // branching on a constant and if that constant means that we enter the loop,
596b0aa36f9SDavid Green     // then we fold away the cond branch to an uncond branch.  This simplifies the
597b0aa36f9SDavid Green     // loop in cases important for nested loops, and it also means we don't have
598b0aa36f9SDavid Green     // to split as many edges.
599b0aa36f9SDavid Green     BranchInst *PHBI = cast<BranchInst>(OrigPreheader->getTerminator());
600b0aa36f9SDavid Green     assert(PHBI->isConditional() && "Should be clone of BI condbr!");
601b0aa36f9SDavid Green     if (!isa<ConstantInt>(PHBI->getCondition()) ||
602b0aa36f9SDavid Green         PHBI->getSuccessor(cast<ConstantInt>(PHBI->getCondition())->isZero()) !=
603b0aa36f9SDavid Green         NewHeader) {
604b0aa36f9SDavid Green       // The conditional branch can't be folded, handle the general case.
605b0aa36f9SDavid Green       // Split edges as necessary to preserve LoopSimplify form.
606b0aa36f9SDavid Green 
607b0aa36f9SDavid Green       // Right now OrigPreHeader has two successors, NewHeader and ExitBlock, and
608b0aa36f9SDavid Green       // thus is not a preheader anymore.
609b0aa36f9SDavid Green       // Split the edge to form a real preheader.
610b0aa36f9SDavid Green       BasicBlock *NewPH = SplitCriticalEdge(
611b0aa36f9SDavid Green                                             OrigPreheader, NewHeader,
612ad4d0182SAlina Sbirlea                                             CriticalEdgeSplittingOptions(DT, LI, MSSAU).setPreserveLCSSA());
613b0aa36f9SDavid Green       NewPH->setName(NewHeader->getName() + ".lr.ph");
614b0aa36f9SDavid Green 
615b0aa36f9SDavid Green       // Preserve canonical loop form, which means that 'Exit' should have only
616b0aa36f9SDavid Green       // one predecessor. Note that Exit could be an exit block for multiple
617b0aa36f9SDavid Green       // nested loops, causing both of the edges to now be critical and need to
618b0aa36f9SDavid Green       // be split.
619b0aa36f9SDavid Green       SmallVector<BasicBlock *, 4> ExitPreds(pred_begin(Exit), pred_end(Exit));
620b0aa36f9SDavid Green       bool SplitLatchEdge = false;
621b0aa36f9SDavid Green       for (BasicBlock *ExitPred : ExitPreds) {
622b0aa36f9SDavid Green         // We only need to split loop exit edges.
623b0aa36f9SDavid Green         Loop *PredLoop = LI->getLoopFor(ExitPred);
624212c8ac2SNick Desaulniers         if (!PredLoop || PredLoop->contains(Exit) ||
625212c8ac2SNick Desaulniers             ExitPred->getTerminator()->isIndirectTerminator())
626b0aa36f9SDavid Green           continue;
627b0aa36f9SDavid Green         SplitLatchEdge |= L->getLoopLatch() == ExitPred;
628b0aa36f9SDavid Green         BasicBlock *ExitSplit = SplitCriticalEdge(
629b0aa36f9SDavid Green                                                   ExitPred, Exit,
630ad4d0182SAlina Sbirlea                                                   CriticalEdgeSplittingOptions(DT, LI, MSSAU).setPreserveLCSSA());
631b0aa36f9SDavid Green         ExitSplit->moveBefore(Exit);
632b0aa36f9SDavid Green       }
633b0aa36f9SDavid Green       assert(SplitLatchEdge &&
634b0aa36f9SDavid Green              "Despite splitting all preds, failed to split latch exit?");
635b0aa36f9SDavid Green     } else {
636b0aa36f9SDavid Green       // We can fold the conditional branch in the preheader, this makes things
637b0aa36f9SDavid Green       // simpler. The first step is to remove the extra edge to the Exit block.
638b0aa36f9SDavid Green       Exit->removePredecessor(OrigPreheader, true /*preserve LCSSA*/);
639b0aa36f9SDavid Green       BranchInst *NewBI = BranchInst::Create(NewHeader, PHBI);
640b0aa36f9SDavid Green       NewBI->setDebugLoc(PHBI->getDebugLoc());
641b0aa36f9SDavid Green       PHBI->eraseFromParent();
642b0aa36f9SDavid Green 
643b0aa36f9SDavid Green       // With our CFG finalized, update DomTree if it is available.
644b0aa36f9SDavid Green       if (DT) DT->deleteEdge(OrigPreheader, Exit);
645ad4d0182SAlina Sbirlea 
646ad4d0182SAlina Sbirlea       // Update MSSA too, if available.
647ad4d0182SAlina Sbirlea       if (MSSAU)
648ad4d0182SAlina Sbirlea         MSSAU->removeEdge(OrigPreheader, Exit);
649b0aa36f9SDavid Green     }
650b0aa36f9SDavid Green 
651b0aa36f9SDavid Green     assert(L->getLoopPreheader() && "Invalid loop preheader after loop rotation");
652b0aa36f9SDavid Green     assert(L->getLoopLatch() && "Invalid loop latch after loop rotation");
653b0aa36f9SDavid Green 
654ad4d0182SAlina Sbirlea     if (MSSAU && VerifyMemorySSA)
655ad4d0182SAlina Sbirlea       MSSAU->getMemorySSA()->verifyMemorySSA();
656ad4d0182SAlina Sbirlea 
657b0aa36f9SDavid Green     // Now that the CFG and DomTree are in a consistent state again, try to merge
658b0aa36f9SDavid Green     // the OrigHeader block into OrigLatch.  This will succeed if they are
659b0aa36f9SDavid Green     // connected by an unconditional branch.  This is just a cleanup so the
660b0aa36f9SDavid Green     // emitted code isn't too gross in this common case.
66121a8b605SChijun Sima     DomTreeUpdater DTU(DT, DomTreeUpdater::UpdateStrategy::Eager);
6625a3ef55aSVedant Kumar     BasicBlock *PredBB = OrigHeader->getUniquePredecessor();
6635a3ef55aSVedant Kumar     bool DidMerge = MergeBlockIntoPredecessor(OrigHeader, &DTU, LI, MSSAU);
6645a3ef55aSVedant Kumar     if (DidMerge)
6655a3ef55aSVedant Kumar       RemoveRedundantDbgInstrs(PredBB);
666ad4d0182SAlina Sbirlea 
667ad4d0182SAlina Sbirlea     if (MSSAU && VerifyMemorySSA)
668ad4d0182SAlina Sbirlea       MSSAU->getMemorySSA()->verifyMemorySSA();
669b0aa36f9SDavid Green 
670d34e60caSNicola Zaghen     LLVM_DEBUG(dbgs() << "LoopRotation: into "; L->dump());
671b0aa36f9SDavid Green 
672b0aa36f9SDavid Green     ++NumRotated;
6732f6987baSFedor Sergeev 
6742f6987baSFedor Sergeev     Rotated = true;
6752f6987baSFedor Sergeev     SimplifiedLatch = false;
6762f6987baSFedor Sergeev 
6772f6987baSFedor Sergeev     // Check that new latch is a deoptimizing exit and then repeat rotation if possible.
6782f6987baSFedor Sergeev     // Deoptimizing latch exit is not a generally typical case, so we just loop over.
6792f6987baSFedor Sergeev     // TODO: if it becomes a performance bottleneck extend rotation algorithm
6802f6987baSFedor Sergeev     // to handle multiple rotations in one go.
6812f6987baSFedor Sergeev   } while (MultiRotate && canRotateDeoptimizingLatchExit(L));
6822f6987baSFedor Sergeev 
6832f6987baSFedor Sergeev 
684b0aa36f9SDavid Green   return true;
685b0aa36f9SDavid Green }
686b0aa36f9SDavid Green 
687b0aa36f9SDavid Green /// Determine whether the instructions in this range may be safely and cheaply
688b0aa36f9SDavid Green /// speculated. This is not an important enough situation to develop complex
689b0aa36f9SDavid Green /// heuristics. We handle a single arithmetic instruction along with any type
690b0aa36f9SDavid Green /// conversions.
691b0aa36f9SDavid Green static bool shouldSpeculateInstrs(BasicBlock::iterator Begin,
692b0aa36f9SDavid Green                                   BasicBlock::iterator End, Loop *L) {
693b0aa36f9SDavid Green   bool seenIncrement = false;
694b0aa36f9SDavid Green   bool MultiExitLoop = false;
695b0aa36f9SDavid Green 
696b0aa36f9SDavid Green   if (!L->getExitingBlock())
697b0aa36f9SDavid Green     MultiExitLoop = true;
698b0aa36f9SDavid Green 
699b0aa36f9SDavid Green   for (BasicBlock::iterator I = Begin; I != End; ++I) {
700b0aa36f9SDavid Green 
701b0aa36f9SDavid Green     if (!isSafeToSpeculativelyExecute(&*I))
702b0aa36f9SDavid Green       return false;
703b0aa36f9SDavid Green 
704b0aa36f9SDavid Green     if (isa<DbgInfoIntrinsic>(I))
705b0aa36f9SDavid Green       continue;
706b0aa36f9SDavid Green 
707b0aa36f9SDavid Green     switch (I->getOpcode()) {
708b0aa36f9SDavid Green     default:
709b0aa36f9SDavid Green       return false;
710b0aa36f9SDavid Green     case Instruction::GetElementPtr:
711b0aa36f9SDavid Green       // GEPs are cheap if all indices are constant.
712b0aa36f9SDavid Green       if (!cast<GEPOperator>(I)->hasAllConstantIndices())
713b0aa36f9SDavid Green         return false;
714b0aa36f9SDavid Green       // fall-thru to increment case
715b0aa36f9SDavid Green       LLVM_FALLTHROUGH;
716b0aa36f9SDavid Green     case Instruction::Add:
717b0aa36f9SDavid Green     case Instruction::Sub:
718b0aa36f9SDavid Green     case Instruction::And:
719b0aa36f9SDavid Green     case Instruction::Or:
720b0aa36f9SDavid Green     case Instruction::Xor:
721b0aa36f9SDavid Green     case Instruction::Shl:
722b0aa36f9SDavid Green     case Instruction::LShr:
723b0aa36f9SDavid Green     case Instruction::AShr: {
724b0aa36f9SDavid Green       Value *IVOpnd =
725b0aa36f9SDavid Green           !isa<Constant>(I->getOperand(0))
726b0aa36f9SDavid Green               ? I->getOperand(0)
727b0aa36f9SDavid Green               : !isa<Constant>(I->getOperand(1)) ? I->getOperand(1) : nullptr;
728b0aa36f9SDavid Green       if (!IVOpnd)
729b0aa36f9SDavid Green         return false;
730b0aa36f9SDavid Green 
731b0aa36f9SDavid Green       // If increment operand is used outside of the loop, this speculation
732b0aa36f9SDavid Green       // could cause extra live range interference.
733b0aa36f9SDavid Green       if (MultiExitLoop) {
734b0aa36f9SDavid Green         for (User *UseI : IVOpnd->users()) {
735b0aa36f9SDavid Green           auto *UserInst = cast<Instruction>(UseI);
736b0aa36f9SDavid Green           if (!L->contains(UserInst))
737b0aa36f9SDavid Green             return false;
738b0aa36f9SDavid Green         }
739b0aa36f9SDavid Green       }
740b0aa36f9SDavid Green 
741b0aa36f9SDavid Green       if (seenIncrement)
742b0aa36f9SDavid Green         return false;
743b0aa36f9SDavid Green       seenIncrement = true;
744b0aa36f9SDavid Green       break;
745b0aa36f9SDavid Green     }
746b0aa36f9SDavid Green     case Instruction::Trunc:
747b0aa36f9SDavid Green     case Instruction::ZExt:
748b0aa36f9SDavid Green     case Instruction::SExt:
749b0aa36f9SDavid Green       // ignore type conversions
750b0aa36f9SDavid Green       break;
751b0aa36f9SDavid Green     }
752b0aa36f9SDavid Green   }
753b0aa36f9SDavid Green   return true;
754b0aa36f9SDavid Green }
755b0aa36f9SDavid Green 
756b0aa36f9SDavid Green /// Fold the loop tail into the loop exit by speculating the loop tail
757b0aa36f9SDavid Green /// instructions. Typically, this is a single post-increment. In the case of a
758b0aa36f9SDavid Green /// simple 2-block loop, hoisting the increment can be much better than
759b0aa36f9SDavid Green /// duplicating the entire loop header. In the case of loops with early exits,
760b0aa36f9SDavid Green /// rotation will not work anyway, but simplifyLoopLatch will put the loop in
761b0aa36f9SDavid Green /// canonical form so downstream passes can handle it.
762b0aa36f9SDavid Green ///
763b0aa36f9SDavid Green /// I don't believe this invalidates SCEV.
764b0aa36f9SDavid Green bool LoopRotate::simplifyLoopLatch(Loop *L) {
765b0aa36f9SDavid Green   BasicBlock *Latch = L->getLoopLatch();
766b0aa36f9SDavid Green   if (!Latch || Latch->hasAddressTaken())
767b0aa36f9SDavid Green     return false;
768b0aa36f9SDavid Green 
769b0aa36f9SDavid Green   BranchInst *Jmp = dyn_cast<BranchInst>(Latch->getTerminator());
770b0aa36f9SDavid Green   if (!Jmp || !Jmp->isUnconditional())
771b0aa36f9SDavid Green     return false;
772b0aa36f9SDavid Green 
773b0aa36f9SDavid Green   BasicBlock *LastExit = Latch->getSinglePredecessor();
774b0aa36f9SDavid Green   if (!LastExit || !L->isLoopExiting(LastExit))
775b0aa36f9SDavid Green     return false;
776b0aa36f9SDavid Green 
777b0aa36f9SDavid Green   BranchInst *BI = dyn_cast<BranchInst>(LastExit->getTerminator());
778b0aa36f9SDavid Green   if (!BI)
779b0aa36f9SDavid Green     return false;
780b0aa36f9SDavid Green 
781b0aa36f9SDavid Green   if (!shouldSpeculateInstrs(Latch->begin(), Jmp->getIterator(), L))
782b0aa36f9SDavid Green     return false;
783b0aa36f9SDavid Green 
784d34e60caSNicola Zaghen   LLVM_DEBUG(dbgs() << "Folding loop latch " << Latch->getName() << " into "
785b0aa36f9SDavid Green                     << LastExit->getName() << "\n");
786b0aa36f9SDavid Green 
7874eb1a573SAlina Sbirlea   DomTreeUpdater DTU(DT, DomTreeUpdater::UpdateStrategy::Eager);
7884eb1a573SAlina Sbirlea   MergeBlockIntoPredecessor(Latch, &DTU, LI, MSSAU, nullptr,
7894eb1a573SAlina Sbirlea                             /*PredecessorWithTwoSuccessors=*/true);
790ad4d0182SAlina Sbirlea 
791ad4d0182SAlina Sbirlea   if (MSSAU && VerifyMemorySSA)
792ad4d0182SAlina Sbirlea     MSSAU->getMemorySSA()->verifyMemorySSA();
793ad4d0182SAlina Sbirlea 
794b0aa36f9SDavid Green   return true;
795b0aa36f9SDavid Green }
796b0aa36f9SDavid Green 
797b0aa36f9SDavid Green /// Rotate \c L, and return true if any modification was made.
798b0aa36f9SDavid Green bool LoopRotate::processLoop(Loop *L) {
799b0aa36f9SDavid Green   // Save the loop metadata.
800b0aa36f9SDavid Green   MDNode *LoopMD = L->getLoopID();
801b0aa36f9SDavid Green 
802585f2699SJin Lin   bool SimplifiedLatch = false;
803585f2699SJin Lin 
804b0aa36f9SDavid Green   // Simplify the loop latch before attempting to rotate the header
805b0aa36f9SDavid Green   // upward. Rotation may not be needed if the loop tail can be folded into the
806b0aa36f9SDavid Green   // loop exit.
807585f2699SJin Lin   if (!RotationOnly)
808585f2699SJin Lin     SimplifiedLatch = simplifyLoopLatch(L);
809b0aa36f9SDavid Green 
810b0aa36f9SDavid Green   bool MadeChange = rotateLoop(L, SimplifiedLatch);
811b0aa36f9SDavid Green   assert((!MadeChange || L->isLoopExiting(L->getLoopLatch())) &&
812b0aa36f9SDavid Green          "Loop latch should be exiting after loop-rotate.");
813b0aa36f9SDavid Green 
814b0aa36f9SDavid Green   // Restore the loop metadata.
815b0aa36f9SDavid Green   // NB! We presume LoopRotation DOESN'T ADD its own metadata.
816b0aa36f9SDavid Green   if ((MadeChange || SimplifiedLatch) && LoopMD)
817b0aa36f9SDavid Green     L->setLoopID(LoopMD);
818b0aa36f9SDavid Green 
819b0aa36f9SDavid Green   return MadeChange || SimplifiedLatch;
820b0aa36f9SDavid Green }
821b0aa36f9SDavid Green 
822b0aa36f9SDavid Green 
823b0aa36f9SDavid Green /// The utility to convert a loop into a loop with bottom test.
824585f2699SJin Lin bool llvm::LoopRotation(Loop *L, LoopInfo *LI, const TargetTransformInfo *TTI,
825585f2699SJin Lin                         AssumptionCache *AC, DominatorTree *DT,
826ad4d0182SAlina Sbirlea                         ScalarEvolution *SE, MemorySSAUpdater *MSSAU,
827ad4d0182SAlina Sbirlea                         const SimplifyQuery &SQ, bool RotationOnly = true,
828585f2699SJin Lin                         unsigned Threshold = unsigned(-1),
82983daa497SFlorian Hahn                         bool IsUtilMode = true, bool PrepareForLTO) {
830ad4d0182SAlina Sbirlea   LoopRotate LR(Threshold, LI, TTI, AC, DT, SE, MSSAU, SQ, RotationOnly,
83183daa497SFlorian Hahn                 IsUtilMode, PrepareForLTO);
832b0aa36f9SDavid Green   return LR.processLoop(L);
833b0aa36f9SDavid Green }
834