LoopNestAnalysis.cpp source code [llvm/lib/Analysis/LoopNestAnalysis.cpp]

1	//===- LoopNestAnalysis.cpp - Loop Nest Analysis --------------------------==//
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
10	/// The implementation for the loop nest analysis.
11	///
12	//===----------------------------------------------------------------------===//
13
14	#include "llvm/Analysis/LoopNestAnalysis.h"
15	#include "llvm/ADT/BreadthFirstIterator.h"
16	#include "llvm/ADT/DepthFirstIterator.h"
17	#include "llvm/Analysis/ValueTracking.h"
18
19	using namespace llvm;
20
21	#define DEBUG_TYPE "loopnest"
22	#ifndef NDEBUG
23	static const char *VerboseDebug = DEBUG_TYPE "-verbose";
24	#endif
25
26	/// Determine whether the loops structure violates basic requirements for
27	/// perfect nesting:
28	/// - the inner loop should be the outer loop's only child
29	/// - the outer loop header should 'flow' into the inner loop preheader
30	/// or jump around the inner loop to the outer loop latch
31	/// - if the inner loop latch exits the inner loop, it should 'flow' into
32	/// the outer loop latch.
33	/// Returns true if the loop structure satisfies the basic requirements and
34	/// false otherwise.
35	static bool checkLoopsStructure(const Loop &OuterLoop, const Loop &InnerLoop,
36	ScalarEvolution &SE);
37
38	//===----------------------------------------------------------------------===//
39	// LoopNest implementation
40	//
41
42	LoopNest::LoopNest(Loop &Root, ScalarEvolution &SE)
43	: MaxPerfectDepth(getMaxPerfectDepth(Root, SE)) {
44	append_range(C&: Loops, R: breadth_first(G: &Root));
45	}
46
47	std::unique_ptr<LoopNest> LoopNest::getLoopNest(Loop &Root,
48	ScalarEvolution &SE) {
49	return std::make_unique<LoopNest>(args&: Root, args&: SE);
50	}
51
52	static CmpInst getOuterLoopLatchCmp(const* Loop &OuterLoop) {
53
54	const BasicBlock *Latch = OuterLoop.getLoopLatch();
55	assert(Latch && "Expecting a valid loop latch");
56
57	const BranchInst *BI = dyn_cast<BranchInst>(Val: Latch->getTerminator());
58	assert(BI && BI->isConditional() &&
59	"Expecting loop latch terminator to be a branch instruction");
60
61	CmpInst *OuterLoopLatchCmp = dyn_cast<CmpInst>(Val: BI->getCondition());
62	DEBUG_WITH_TYPE(
63	VerboseDebug, if (OuterLoopLatchCmp) {
64	dbgs() << "Outer loop latch compare instruction: " << *OuterLoopLatchCmp
65	<< "\n";
66	});
67	return OuterLoopLatchCmp;
68	}
69
70	static CmpInst getInnerLoopGuardCmp(const* Loop &InnerLoop) {
71
72	BranchInst *InnerGuard = InnerLoop.getLoopGuardBranch();
73	CmpInst *InnerLoopGuardCmp =
74	(InnerGuard) ? dyn_cast<CmpInst>(Val: InnerGuard->getCondition()) : nullptr;
75
76	DEBUG_WITH_TYPE(
77	VerboseDebug, if (InnerLoopGuardCmp) {
78	dbgs() << "Inner loop guard compare instruction: " << *InnerLoopGuardCmp
79	<< "\n";
80	});
81	return InnerLoopGuardCmp;
82	}
83
84	static bool checkSafeInstruction(const Instruction &I,
85	const CmpInst *InnerLoopGuardCmp,
86	const CmpInst *OuterLoopLatchCmp,
87	std::optional<Loop::LoopBounds> OuterLoopLB) {
88
89	bool IsAllowed =
90	isSafeToSpeculativelyExecute(I: &I) \|\| isa<PHINode>(Val: I) \|\| isa<BranchInst>(Val: I);
91	if (!IsAllowed)
92	return false;
93	// The only binary instruction allowed is the outer loop step instruction,
94	// the only comparison instructions allowed are the inner loop guard
95	// compare instruction and the outer loop latch compare instruction.
96	if ((isa<BinaryOperator>(Val: I) && &I != &OuterLoopLB ->getStepInst()) \|\|
97	(isa<CmpInst>(Val: I) && &I != OuterLoopLatchCmp && &I != InnerLoopGuardCmp)) {
98	return false;
99	}
100	return true;
101	}
102
103	bool LoopNest::arePerfectlyNested(const Loop &OuterLoop, const Loop &InnerLoop,
104	ScalarEvolution &SE) {
105	return (analyzeLoopNestForPerfectNest(OuterLoop, InnerLoop, SE) ==
106	PerfectLoopNest);
107	}
108
109	LoopNest::LoopNestEnum LoopNest::analyzeLoopNestForPerfectNest(
110	const Loop &OuterLoop, const Loop &InnerLoop, ScalarEvolution &SE) {
111
112	assert(!OuterLoop.isInnermost() && "Outer loop should have subloops");
113	assert(!InnerLoop.isOutermost() && "Inner loop should have a parent");
114	LLVM_DEBUG(dbgs() << "Checking whether loop '" << OuterLoop.getName()
115	<< "' and '" << InnerLoop.getName()
116	<< "' are perfectly nested.\n");
117
118	// Determine whether the loops structure satisfies the following requirements:
119	// - the inner loop should be the outer loop's only child
120	// - the outer loop header should 'flow' into the inner loop preheader
121	// or jump around the inner loop to the outer loop latch
122	// - if the inner loop latch exits the inner loop, it should 'flow' into
123	// the outer loop latch.
124	if (!checkLoopsStructure(OuterLoop, InnerLoop, SE)) {
125	LLVM_DEBUG(dbgs() << "Not perfectly nested: invalid loop structure.\n");
126	return InvalidLoopStructure;
127	}
128
129	// Bail out if we cannot retrieve the outer loop bounds.
130	auto OuterLoopLB = OuterLoop.getBounds(SE);
131	if (OuterLoopLB == std::nullopt) {
132	LLVM_DEBUG(dbgs() << "Cannot compute loop bounds of OuterLoop: "
133	<< OuterLoop << "\n";);
134	return OuterLoopLowerBoundUnknown;
135	}
136
137	CmpInst *OuterLoopLatchCmp = getOuterLoopLatchCmp(OuterLoop);
138	CmpInst *InnerLoopGuardCmp = getInnerLoopGuardCmp(InnerLoop);
139
140	// Determine whether instructions in a basic block are one of:
141	// - the inner loop guard comparison
142	// - the outer loop latch comparison
143	// - the outer loop induction variable increment
144	// - a phi node, a cast or a branch
145	auto containsOnlySafeInstructions = [&](const BasicBlock &BB) {
146	return llvm::all_of(Range: BB, P: [&](const Instruction &I) {
147	bool IsSafeInstr = checkSafeInstruction(I, InnerLoopGuardCmp,
148	OuterLoopLatchCmp, OuterLoopLB);
149	if (IsSafeInstr) {
150	DEBUG_WITH_TYPE(VerboseDebug, {
151	dbgs() << "Instruction: " << I << "\nin basic block:" << BB
152	<< "is unsafe.\n";
153	});
154	}
155	return IsSafeInstr;
156	});
157	};
158
159	// Check the code surrounding the inner loop for instructions that are deemed
160	// unsafe.
161	const BasicBlock *OuterLoopHeader = OuterLoop.getHeader();
162	const BasicBlock *OuterLoopLatch = OuterLoop.getLoopLatch();
163	const BasicBlock *InnerLoopPreHeader = InnerLoop.getLoopPreheader();
164
165	if (!containsOnlySafeInstructions (*OuterLoopHeader) \|\|
166	!containsOnlySafeInstructions (*OuterLoopLatch) \|\|
167	(InnerLoopPreHeader != OuterLoopHeader &&
168	!containsOnlySafeInstructions (*InnerLoopPreHeader)) \|\|
169	!containsOnlySafeInstructions (*InnerLoop.getExitBlock())) {
170	LLVM_DEBUG(dbgs() << "Not perfectly nested: code surrounding inner loop is "
171	"unsafe\n";);
172	return ImperfectLoopNest;
173	}
174
175	LLVM_DEBUG(dbgs() << "Loop '" << OuterLoop.getName() << "' and '"
176	<< InnerLoop.getName() << "' are perfectly nested.\n");
177
178	return PerfectLoopNest;
179	}
180
181	LoopNest::InstrVectorTy LoopNest::getInterveningInstructions(
182	const Loop &OuterLoop, const Loop &InnerLoop, ScalarEvolution &SE) {
183	InstrVectorTy Instr;
184	switch (analyzeLoopNestForPerfectNest(OuterLoop, InnerLoop, SE)) {
185	case PerfectLoopNest:
186	LLVM_DEBUG(dbgs() << "The loop Nest is Perfect, returning empty "
187	"instruction vector. \n";);
188	return Instr;
189
190	case InvalidLoopStructure:
191	LLVM_DEBUG(dbgs() << "Not perfectly nested: invalid loop structure. "
192	"Instruction vector is empty.\n";);
193	return Instr;
194
195	case OuterLoopLowerBoundUnknown:
196	LLVM_DEBUG(dbgs() << "Cannot compute loop bounds of OuterLoop: "
197	<< OuterLoop << "\nInstruction vector is empty.\n";);
198	return Instr;
199
200	case ImperfectLoopNest:
201	break;
202	}
203
204	// Identify the outer loop latch comparison instruction.
205	auto OuterLoopLB = OuterLoop.getBounds(SE);
206
207	CmpInst *OuterLoopLatchCmp = getOuterLoopLatchCmp(OuterLoop);
208	CmpInst *InnerLoopGuardCmp = getInnerLoopGuardCmp(InnerLoop);
209
210	auto GetUnsafeInstructions = [&](const BasicBlock &BB) {
211	for (const Instruction &I : BB) {
212	if (!checkSafeInstruction(I, InnerLoopGuardCmp, OuterLoopLatchCmp,
213	OuterLoopLB)) {
214	Instr.push_back(Elt: &I);
215	DEBUG_WITH_TYPE(VerboseDebug, {
216	dbgs() << "Instruction: " << I << "\nin basic block:" << BB
217	<< "is unsafe.\n";
218	});
219	}
220	}
221	};
222
223	// Check the code surrounding the inner loop for instructions that are deemed
224	// unsafe.
225	const BasicBlock *OuterLoopHeader = OuterLoop.getHeader();
226	const BasicBlock *OuterLoopLatch = OuterLoop.getLoopLatch();
227	const BasicBlock *InnerLoopPreHeader = InnerLoop.getLoopPreheader();
228	const BasicBlock *InnerLoopExitBlock = InnerLoop.getExitBlock();
229
230	GetUnsafeInstructions (*OuterLoopHeader);
231	GetUnsafeInstructions (*OuterLoopLatch);
232	GetUnsafeInstructions (*InnerLoopExitBlock);
233
234	if (InnerLoopPreHeader != OuterLoopHeader) {
235	GetUnsafeInstructions (*InnerLoopPreHeader);
236	}
237	return Instr;
238	}
239
240	SmallVector<LoopVectorTy, `4`>
241	LoopNest::getPerfectLoops(ScalarEvolution &SE) const {
242	SmallVector<LoopVectorTy, `4`> LV;
243	LoopVectorTy PerfectNest;
244
245	for (Loop L : depth_first(G: const_cast<Loop >(Loops.front()))) {
246	if (PerfectNest.empty())
247	PerfectNest.push_back(Elt: L);
248
249	auto &SubLoops = L->getSubLoops();
250	if (SubLoops.size() == `1` && arePerfectlyNested(OuterLoop: L, InnerLoop: SubLoops.front(), SE)) {
251	PerfectNest.push_back(Elt: SubLoops.front());
252	} else {
253	LV.push_back(Elt: PerfectNest);
254	PerfectNest.clear();
255	}
256	}
257
258	return LV;
259	}
260
261	unsigned LoopNest::getMaxPerfectDepth(const Loop &Root, ScalarEvolution &SE) {
262	LLVM_DEBUG(dbgs() << "Get maximum perfect depth of loop nest rooted by loop '"
263	<< Root.getName() << "'\n");
264
265	const Loop *CurrentLoop = &Root;
266	const auto *SubLoops = &CurrentLoop->getSubLoops();
267	unsigned CurrentDepth = `1`;
268
269	while (SubLoops->size() == `1`) {
270	const Loop *InnerLoop = SubLoops->front();
271	if (!arePerfectlyNested(OuterLoop: CurrentLoop, InnerLoop: InnerLoop, SE)) {
272	LLVM_DEBUG({
273	dbgs() << "Not a perfect nest: loop '" << CurrentLoop->getName()
274	<< "' is not perfectly nested with loop '"
275	<< InnerLoop->getName() << "'\n";
276	});
277	break;
278	}
279
280	CurrentLoop = InnerLoop;
281	SubLoops = &CurrentLoop->getSubLoops();
282	++CurrentDepth;
283	}
284
285	return CurrentDepth;
286	}
287
288	const BasicBlock &LoopNest::skipEmptyBlockUntil(const BasicBlock *From,
289	const BasicBlock *End,
290	bool CheckUniquePred) {
291	assert(From && "Expecting valid From");
292	assert(End && "Expecting valid End");
293
294	if (From == End \|\| !From->getUniqueSuccessor())
295	return *From;
296
297	auto IsEmpty = [](const BasicBlock *BB) {
298	return (BB->size() == `1`);
299	};
300
301	// Visited is used to avoid running into an infinite loop.
302	SmallPtrSet<const BasicBlock *, `4`> Visited;
303	const BasicBlock *BB = From->getUniqueSuccessor();
304	const BasicBlock *PredBB = From;
305	while (BB && BB != End && IsEmpty (BB) && !Visited.count(Ptr: BB) &&
306	(!CheckUniquePred \|\| BB->getUniquePredecessor())) {
307	Visited.insert(Ptr: BB);
308	PredBB = BB;
309	BB = BB->getUniqueSuccessor();
310	}
311
312	return (BB == End) ? End : PredBB;
313	}
314
315	static bool checkLoopsStructure(const Loop &OuterLoop, const Loop &InnerLoop,
316	ScalarEvolution &SE) {
317	// The inner loop must be the only outer loop's child.
318	if ((OuterLoop.getSubLoops().size() != `1`) \|\|
319	(InnerLoop.getParentLoop() != &OuterLoop))
320	return false;
321
322	// We expect loops in normal form which have a preheader, header, latch...
323	if (!OuterLoop.isLoopSimplifyForm() \|\| !InnerLoop.isLoopSimplifyForm())
324	return false;
325
326	const BasicBlock *OuterLoopHeader = OuterLoop.getHeader();
327	const BasicBlock *OuterLoopLatch = OuterLoop.getLoopLatch();
328	const BasicBlock *InnerLoopPreHeader = InnerLoop.getLoopPreheader();
329	const BasicBlock *InnerLoopLatch = InnerLoop.getLoopLatch();
330	const BasicBlock *InnerLoopExit = InnerLoop.getExitBlock();
331
332	// We expect rotated loops. The inner loop should have a single exit block.
333	if (OuterLoop.getExitingBlock() != OuterLoopLatch \|\|
334	InnerLoop.getExitingBlock() != InnerLoopLatch \|\| !InnerLoopExit)
335	return false;
336
337	// Returns whether the block `ExitBlock` contains at least one LCSSA Phi node.
338	auto ContainsLCSSAPhi = [](const BasicBlock &ExitBlock) {
339	return any_of(Range: ExitBlock.phis(), P: [](const PHINode &PN) {
340	return PN.getNumIncomingValues() == `1`;
341	});
342	};
343
344	// Returns whether the block `BB` qualifies for being an extra Phi block. The
345	// extra Phi block is the additional block inserted after the exit block of an
346	// "guarded" inner loop which contains "only" Phi nodes corresponding to the
347	// LCSSA Phi nodes in the exit block.
348	auto IsExtraPhiBlock = [&](const BasicBlock &BB) {
349	return BB.getFirstNonPHI() == BB.getTerminator() &&
350	all_of(Range: BB.phis(), P: [&](const PHINode &PN) {
351	return all_of(Range: PN.blocks(), P: [&](const BasicBlock *IncomingBlock) {
352	return IncomingBlock == InnerLoopExit \|\|
353	IncomingBlock == OuterLoopHeader;
354	});
355	});
356	};
357
358	const BasicBlock ExtraPhiBlock = nullptr*;
359	// Ensure the only branch that may exist between the loops is the inner loop
360	// guard.
361	if (OuterLoopHeader != InnerLoopPreHeader) {
362	const BasicBlock &SingleSucc =
363	LoopNest::skipEmptyBlockUntil(From: OuterLoopHeader, End: InnerLoopPreHeader);
364
365	// no conditional branch present
366	if (&SingleSucc != InnerLoopPreHeader) {
367	const BranchInst *BI = dyn_cast<BranchInst>(Val: SingleSucc.getTerminator());
368
369	if (!BI \|\| BI != InnerLoop.getLoopGuardBranch())
370	return false;
371
372	bool InnerLoopExitContainsLCSSA = ContainsLCSSAPhi (*InnerLoopExit);
373
374	// The successors of the inner loop guard should be the inner loop
375	// preheader or the outer loop latch possibly through empty blocks.
376	for (const BasicBlock *Succ : BI->successors()) {
377	const BasicBlock *PotentialInnerPreHeader = Succ;
378	const BasicBlock *PotentialOuterLatch = Succ;
379
380	// Ensure the inner loop guard successor is empty before skipping
381	// blocks.
382	if (Succ->size() == `1`) {
383	PotentialInnerPreHeader =
384	&LoopNest::skipEmptyBlockUntil(From: Succ, End: InnerLoopPreHeader);
385	PotentialOuterLatch =
386	&LoopNest::skipEmptyBlockUntil(From: Succ, End: OuterLoopLatch);
387	}
388
389	if (PotentialInnerPreHeader == InnerLoopPreHeader)
390	continue;
391	if (PotentialOuterLatch == OuterLoopLatch)
392	continue;
393
394	// If `InnerLoopExit` contains LCSSA Phi instructions, additional block
395	// may be inserted before the `OuterLoopLatch` to which `BI` jumps. The
396	// loops are still considered perfectly nested if the extra block only
397	// contains Phi instructions from InnerLoopExit and OuterLoopHeader.
398	if (InnerLoopExitContainsLCSSA && IsExtraPhiBlock (*Succ) &&
399	Succ->getSingleSuccessor() == OuterLoopLatch) {
400	// Points to the extra block so that we can reference it later in the
401	// final check. We can also conclude that the inner loop is
402	// guarded and there exists LCSSA Phi node in the exit block later if
403	// we see a non-null `ExtraPhiBlock`.
404	ExtraPhiBlock = Succ;
405	continue;
406	}
407
408	DEBUG_WITH_TYPE(VerboseDebug, {
409	dbgs() << "Inner loop guard successor " << Succ->getName()
410	<< " doesn't lead to inner loop preheader or "
411	"outer loop latch.\n";
412	});
413	return false;
414	}
415	}
416	}
417
418	// Ensure the inner loop exit block lead to the outer loop latch possibly
419	// through empty blocks.
420	if ((!ExtraPhiBlock \|\|
421	&LoopNest::skipEmptyBlockUntil(From: InnerLoop.getExitBlock(),
422	End: ExtraPhiBlock) != ExtraPhiBlock) &&
423	(&LoopNest::skipEmptyBlockUntil(From: InnerLoop.getExitBlock(),
424	End: OuterLoopLatch) != OuterLoopLatch)) {
425	DEBUG_WITH_TYPE(
426	VerboseDebug,
427	dbgs() << "Inner loop exit block " << *InnerLoopExit
428	<< " does not directly lead to the outer loop latch.\n";);
429	return false;
430	}
431
432	return true;
433	}
434
435	AnalysisKey LoopNestAnalysis::Key;
436
437	raw_ostream &llvm::operator<<(raw_ostream &OS, const LoopNest &LN) {
438	OS << "IsPerfect=";
439	if (LN.getMaxPerfectDepth() == LN.getNestDepth())
440	OS << "true";
441	else
442	OS << "false";
443	OS << ", Depth=" << LN.getNestDepth();
444	OS << ", OutermostLoop: " << LN.getOutermostLoop().getName();
445	OS << ", Loops: ( ";
446	for (const Loop *L : LN.getLoops())
447	OS << L->getName() << " ";
448	OS << ")";
449
450	return OS;
451	}
452
453	//===----------------------------------------------------------------------===//
454	// LoopNestPrinterPass implementation
455	//
456
457	PreservedAnalyses LoopNestPrinterPass::run(Loop &L, LoopAnalysisManager &AM,
458	LoopStandardAnalysisResults &AR,
459	LPMUpdater &U) {
460	if (auto LN = LoopNest::getLoopNest(Root&: L, SE&: AR.SE))
461	OS << *LN << "\n";
462
463	return PreservedAnalyses::all();
464	}
465

source code of llvm/lib/Analysis/LoopNestAnalysis.cpp