1d812efb1SVitaly Buka //===- StackLifetime.cpp - Alloca Lifetime Analysis -----------------------===//
26754a0e2SVitaly Buka //
36754a0e2SVitaly Buka // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
46754a0e2SVitaly Buka // See https://llvm.org/LICENSE.txt for license information.
56754a0e2SVitaly Buka // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
66754a0e2SVitaly Buka //
76754a0e2SVitaly Buka //===----------------------------------------------------------------------===//
86754a0e2SVitaly Buka
96754a0e2SVitaly Buka #include "llvm/Analysis/StackLifetime.h"
106754a0e2SVitaly Buka #include "llvm/ADT/DepthFirstIterator.h"
11f672791eSVitaly Buka #include "llvm/ADT/STLExtras.h"
12f672791eSVitaly Buka #include "llvm/ADT/SmallVector.h"
13f672791eSVitaly Buka #include "llvm/ADT/StringExtras.h"
14e10e7829SVitaly Buka #include "llvm/Analysis/ValueTracking.h"
156754a0e2SVitaly Buka #include "llvm/Config/llvm-config.h"
16f672791eSVitaly Buka #include "llvm/IR/AssemblyAnnotationWriter.h"
176754a0e2SVitaly Buka #include "llvm/IR/BasicBlock.h"
186754a0e2SVitaly Buka #include "llvm/IR/CFG.h"
19f672791eSVitaly Buka #include "llvm/IR/InstIterator.h"
206754a0e2SVitaly Buka #include "llvm/IR/Instructions.h"
216754a0e2SVitaly Buka #include "llvm/IR/IntrinsicInst.h"
22f672791eSVitaly Buka #include "llvm/IR/Value.h"
236754a0e2SVitaly Buka #include "llvm/Support/Casting.h"
246754a0e2SVitaly Buka #include "llvm/Support/Compiler.h"
256754a0e2SVitaly Buka #include "llvm/Support/Debug.h"
26f672791eSVitaly Buka #include "llvm/Support/FormattedStream.h"
27306c257bSVitaly Buka #include <algorithm>
286754a0e2SVitaly Buka #include <tuple>
296754a0e2SVitaly Buka
306754a0e2SVitaly Buka using namespace llvm;
316754a0e2SVitaly Buka
32d812efb1SVitaly Buka #define DEBUG_TYPE "stack-lifetime"
336754a0e2SVitaly Buka
34d812efb1SVitaly Buka const StackLifetime::LiveRange &
getLiveRange(const AllocaInst * AI) const35d812efb1SVitaly Buka StackLifetime::getLiveRange(const AllocaInst *AI) const {
366754a0e2SVitaly Buka const auto IT = AllocaNumbering.find(AI);
376754a0e2SVitaly Buka assert(IT != AllocaNumbering.end());
386754a0e2SVitaly Buka return LiveRanges[IT->second];
396754a0e2SVitaly Buka }
406754a0e2SVitaly Buka
isReachable(const Instruction * I) const41f224f3d0SVitaly Buka bool StackLifetime::isReachable(const Instruction *I) const {
4211efd1cbSKazu Hirata return BlockInstRange.contains(I->getParent());
43f224f3d0SVitaly Buka }
44f224f3d0SVitaly Buka
isAliveAfter(const AllocaInst * AI,const Instruction * I) const45f224f3d0SVitaly Buka bool StackLifetime::isAliveAfter(const AllocaInst *AI,
46f224f3d0SVitaly Buka const Instruction *I) const {
47f224f3d0SVitaly Buka const BasicBlock *BB = I->getParent();
48f224f3d0SVitaly Buka auto ItBB = BlockInstRange.find(BB);
49f224f3d0SVitaly Buka assert(ItBB != BlockInstRange.end() && "Unreachable is not expected");
50f224f3d0SVitaly Buka
510e1bdeafSVitaly Buka // Search the block for the first instruction following 'I'.
52f224f3d0SVitaly Buka auto It = std::upper_bound(Instructions.begin() + ItBB->getSecond().first + 1,
53f224f3d0SVitaly Buka Instructions.begin() + ItBB->getSecond().second, I,
54f224f3d0SVitaly Buka [](const Instruction *L, const Instruction *R) {
55f224f3d0SVitaly Buka return L->comesBefore(R);
56f224f3d0SVitaly Buka });
57f224f3d0SVitaly Buka --It;
58f224f3d0SVitaly Buka unsigned InstNum = It - Instructions.begin();
59f224f3d0SVitaly Buka return getLiveRange(AI).test(InstNum);
60f224f3d0SVitaly Buka }
61f224f3d0SVitaly Buka
62a4066055SVitaly Buka // Returns unique alloca annotated by lifetime marker only if
63a4066055SVitaly Buka // markers has the same size and points to the alloca start.
findMatchingAlloca(const IntrinsicInst & II,const DataLayout & DL)64a4066055SVitaly Buka static const AllocaInst *findMatchingAlloca(const IntrinsicInst &II,
65a4066055SVitaly Buka const DataLayout &DL) {
66a4066055SVitaly Buka const AllocaInst *AI = findAllocaForValue(II.getArgOperand(1), true);
67a4066055SVitaly Buka if (!AI)
68a4066055SVitaly Buka return nullptr;
69a4066055SVitaly Buka
70a6a526ecSNikita Popov auto AllocaSize = AI->getAllocationSize(DL);
71a6a526ecSNikita Popov if (!AllocaSize)
72a4066055SVitaly Buka return nullptr;
73a4066055SVitaly Buka
74a4066055SVitaly Buka auto *Size = dyn_cast<ConstantInt>(II.getArgOperand(0));
75a4066055SVitaly Buka if (!Size)
76a4066055SVitaly Buka return nullptr;
77a4066055SVitaly Buka int64_t LifetimeSize = Size->getSExtValue();
78a4066055SVitaly Buka
79b8576086SNikita Popov if (LifetimeSize != -1 && uint64_t(LifetimeSize) != *AllocaSize)
80a4066055SVitaly Buka return nullptr;
81a4066055SVitaly Buka
82a4066055SVitaly Buka return AI;
83a4066055SVitaly Buka }
84a4066055SVitaly Buka
collectMarkers()85d812efb1SVitaly Buka void StackLifetime::collectMarkers() {
866754a0e2SVitaly Buka InterestingAllocas.resize(NumAllocas);
876754a0e2SVitaly Buka DenseMap<const BasicBlock *, SmallDenseMap<const IntrinsicInst *, Marker>>
886754a0e2SVitaly Buka BBMarkerSet;
896754a0e2SVitaly Buka
90*9df71d76SNikita Popov const DataLayout &DL = F.getDataLayout();
91a4066055SVitaly Buka
926754a0e2SVitaly Buka // Compute the set of start/end markers per basic block.
93e10e7829SVitaly Buka for (const BasicBlock *BB : depth_first(&F)) {
94e10e7829SVitaly Buka for (const Instruction &I : *BB) {
95e10e7829SVitaly Buka const IntrinsicInst *II = dyn_cast<IntrinsicInst>(&I);
96e10e7829SVitaly Buka if (!II || !II->isLifetimeStartOrEnd())
97e10e7829SVitaly Buka continue;
98a4066055SVitaly Buka const AllocaInst *AI = findMatchingAlloca(*II, DL);
99e10e7829SVitaly Buka if (!AI) {
100e10e7829SVitaly Buka HasUnknownLifetimeStartOrEnd = true;
1016754a0e2SVitaly Buka continue;
1026754a0e2SVitaly Buka }
103e10e7829SVitaly Buka auto It = AllocaNumbering.find(AI);
104e10e7829SVitaly Buka if (It == AllocaNumbering.end())
1057547508bSVitaly Buka continue;
106e10e7829SVitaly Buka auto AllocaNo = It->second;
107e10e7829SVitaly Buka bool IsStart = II->getIntrinsicID() == Intrinsic::lifetime_start;
1086754a0e2SVitaly Buka if (IsStart)
1096754a0e2SVitaly Buka InterestingAllocas.set(AllocaNo);
110e10e7829SVitaly Buka BBMarkerSet[BB][II] = {AllocaNo, IsStart};
1116754a0e2SVitaly Buka }
1126754a0e2SVitaly Buka }
1136754a0e2SVitaly Buka
1146754a0e2SVitaly Buka // Compute instruction numbering. Only the following instructions are
1156754a0e2SVitaly Buka // considered:
1166754a0e2SVitaly Buka // * Basic block entries
1176754a0e2SVitaly Buka // * Lifetime markers
1186754a0e2SVitaly Buka // For each basic block, compute
1196754a0e2SVitaly Buka // * the list of markers in the instruction order
1206754a0e2SVitaly Buka // * the sets of allocas whose lifetime starts or ends in this BB
1216754a0e2SVitaly Buka LLVM_DEBUG(dbgs() << "Instructions:\n");
1226754a0e2SVitaly Buka for (const BasicBlock *BB : depth_first(&F)) {
12320b1094aSVitaly Buka LLVM_DEBUG(dbgs() << " " << Instructions.size() << ": BB " << BB->getName()
12420b1094aSVitaly Buka << "\n");
12520b1094aSVitaly Buka auto BBStart = Instructions.size();
12620b1094aSVitaly Buka Instructions.push_back(nullptr);
1276754a0e2SVitaly Buka
1286754a0e2SVitaly Buka BlockLifetimeInfo &BlockInfo =
1296754a0e2SVitaly Buka BlockLiveness.try_emplace(BB, NumAllocas).first->getSecond();
1306754a0e2SVitaly Buka
1316754a0e2SVitaly Buka auto &BlockMarkerSet = BBMarkerSet[BB];
1326754a0e2SVitaly Buka if (BlockMarkerSet.empty()) {
13320b1094aSVitaly Buka BlockInstRange[BB] = std::make_pair(BBStart, Instructions.size());
1346754a0e2SVitaly Buka continue;
1356754a0e2SVitaly Buka }
1366754a0e2SVitaly Buka
1376754a0e2SVitaly Buka auto ProcessMarker = [&](const IntrinsicInst *I, const Marker &M) {
13820b1094aSVitaly Buka LLVM_DEBUG(dbgs() << " " << Instructions.size() << ": "
1396754a0e2SVitaly Buka << (M.IsStart ? "start " : "end ") << M.AllocaNo
1406754a0e2SVitaly Buka << ", " << *I << "\n");
1416754a0e2SVitaly Buka
14220b1094aSVitaly Buka BBMarkers[BB].push_back({Instructions.size(), M});
14320b1094aSVitaly Buka Instructions.push_back(I);
1446754a0e2SVitaly Buka
1456754a0e2SVitaly Buka if (M.IsStart) {
1466754a0e2SVitaly Buka BlockInfo.End.reset(M.AllocaNo);
1476754a0e2SVitaly Buka BlockInfo.Begin.set(M.AllocaNo);
1486754a0e2SVitaly Buka } else {
1496754a0e2SVitaly Buka BlockInfo.Begin.reset(M.AllocaNo);
1506754a0e2SVitaly Buka BlockInfo.End.set(M.AllocaNo);
1516754a0e2SVitaly Buka }
1526754a0e2SVitaly Buka };
1536754a0e2SVitaly Buka
1546754a0e2SVitaly Buka if (BlockMarkerSet.size() == 1) {
1556754a0e2SVitaly Buka ProcessMarker(BlockMarkerSet.begin()->getFirst(),
1566754a0e2SVitaly Buka BlockMarkerSet.begin()->getSecond());
1576754a0e2SVitaly Buka } else {
1586754a0e2SVitaly Buka // Scan the BB to determine the marker order.
1596754a0e2SVitaly Buka for (const Instruction &I : *BB) {
1606754a0e2SVitaly Buka const IntrinsicInst *II = dyn_cast<IntrinsicInst>(&I);
1616754a0e2SVitaly Buka if (!II)
1626754a0e2SVitaly Buka continue;
1636754a0e2SVitaly Buka auto It = BlockMarkerSet.find(II);
1646754a0e2SVitaly Buka if (It == BlockMarkerSet.end())
1656754a0e2SVitaly Buka continue;
1666754a0e2SVitaly Buka ProcessMarker(II, It->getSecond());
1676754a0e2SVitaly Buka }
1686754a0e2SVitaly Buka }
1696754a0e2SVitaly Buka
17020b1094aSVitaly Buka BlockInstRange[BB] = std::make_pair(BBStart, Instructions.size());
1716754a0e2SVitaly Buka }
1726754a0e2SVitaly Buka }
1736754a0e2SVitaly Buka
calculateLocalLiveness()174d812efb1SVitaly Buka void StackLifetime::calculateLocalLiveness() {
1756754a0e2SVitaly Buka bool Changed = true;
17601f3e2d6SVitaly Buka
17701f3e2d6SVitaly Buka // LiveIn, LiveOut and BitsIn have a different meaning deppends on type.
17801f3e2d6SVitaly Buka // ::Maybe true bits represent "may be alive" allocas, ::Must true bits
17901f3e2d6SVitaly Buka // represent "may be dead". After the loop we will convert ::Must bits from
18001f3e2d6SVitaly Buka // "may be dead" to "must be alive".
1816754a0e2SVitaly Buka while (Changed) {
18201f3e2d6SVitaly Buka // TODO: Consider switching to worklist instead of traversing entire graph.
1836754a0e2SVitaly Buka Changed = false;
1846754a0e2SVitaly Buka
1856754a0e2SVitaly Buka for (const BasicBlock *BB : depth_first(&F)) {
1866754a0e2SVitaly Buka BlockLifetimeInfo &BlockInfo = BlockLiveness.find(BB)->getSecond();
1876754a0e2SVitaly Buka
18801f3e2d6SVitaly Buka // Compute BitsIn by unioning together the LiveOut sets of all preds.
18907cf1a25SVitaly Buka BitVector BitsIn;
190601b3a13SKazu Hirata for (const auto *PredBB : predecessors(BB)) {
1916754a0e2SVitaly Buka LivenessMap::const_iterator I = BlockLiveness.find(PredBB);
1926754a0e2SVitaly Buka // If a predecessor is unreachable, ignore it.
1936754a0e2SVitaly Buka if (I == BlockLiveness.end())
1946754a0e2SVitaly Buka continue;
19507cf1a25SVitaly Buka BitsIn |= I->second.LiveOut;
196fcd67665SVitaly Buka }
19701f3e2d6SVitaly Buka
19801f3e2d6SVitaly Buka // Everything is "may be dead" for entry without predecessors.
19901f3e2d6SVitaly Buka if (Type == LivenessType::Must && BitsIn.empty())
20001f3e2d6SVitaly Buka BitsIn.resize(NumAllocas, true);
2016754a0e2SVitaly Buka
202c1bf3df5SVitaly Buka // Update block LiveIn set, noting whether it has changed.
20307cf1a25SVitaly Buka if (BitsIn.test(BlockInfo.LiveIn)) {
20407cf1a25SVitaly Buka BlockInfo.LiveIn |= BitsIn;
205c1bf3df5SVitaly Buka }
206c1bf3df5SVitaly Buka
2076754a0e2SVitaly Buka // Compute LiveOut by subtracting out lifetimes that end in this
2086754a0e2SVitaly Buka // block, then adding in lifetimes that begin in this block. If
2096754a0e2SVitaly Buka // we have both BEGIN and END markers in the same basic block
2106754a0e2SVitaly Buka // then we know that the BEGIN marker comes after the END,
2116754a0e2SVitaly Buka // because we already handle the case where the BEGIN comes
2126754a0e2SVitaly Buka // before the END when collecting the markers (and building the
2136754a0e2SVitaly Buka // BEGIN/END vectors).
21401f3e2d6SVitaly Buka switch (Type) {
21501f3e2d6SVitaly Buka case LivenessType::May:
21607cf1a25SVitaly Buka BitsIn.reset(BlockInfo.End);
21701f3e2d6SVitaly Buka // "may be alive" is set by lifetime start.
21807cf1a25SVitaly Buka BitsIn |= BlockInfo.Begin;
21901f3e2d6SVitaly Buka break;
22001f3e2d6SVitaly Buka case LivenessType::Must:
22101f3e2d6SVitaly Buka BitsIn.reset(BlockInfo.Begin);
22201f3e2d6SVitaly Buka // "may be dead" is set by lifetime end.
22301f3e2d6SVitaly Buka BitsIn |= BlockInfo.End;
22401f3e2d6SVitaly Buka break;
22501f3e2d6SVitaly Buka }
2266754a0e2SVitaly Buka
2276754a0e2SVitaly Buka // Update block LiveOut set, noting whether it has changed.
22807cf1a25SVitaly Buka if (BitsIn.test(BlockInfo.LiveOut)) {
2296754a0e2SVitaly Buka Changed = true;
23007cf1a25SVitaly Buka BlockInfo.LiveOut |= BitsIn;
2316754a0e2SVitaly Buka }
2326754a0e2SVitaly Buka }
2336754a0e2SVitaly Buka } // while changed.
23401f3e2d6SVitaly Buka
23501f3e2d6SVitaly Buka if (Type == LivenessType::Must) {
23601f3e2d6SVitaly Buka // Convert from "may be dead" to "must be alive".
23701f3e2d6SVitaly Buka for (auto &[BB, BlockInfo] : BlockLiveness) {
23801f3e2d6SVitaly Buka BlockInfo.LiveIn.flip();
23901f3e2d6SVitaly Buka BlockInfo.LiveOut.flip();
24001f3e2d6SVitaly Buka }
24101f3e2d6SVitaly Buka }
2426754a0e2SVitaly Buka }
2436754a0e2SVitaly Buka
calculateLiveIntervals()244d812efb1SVitaly Buka void StackLifetime::calculateLiveIntervals() {
2456754a0e2SVitaly Buka for (auto IT : BlockLiveness) {
2466754a0e2SVitaly Buka const BasicBlock *BB = IT.getFirst();
2476754a0e2SVitaly Buka BlockLifetimeInfo &BlockInfo = IT.getSecond();
2486754a0e2SVitaly Buka unsigned BBStart, BBEnd;
2496754a0e2SVitaly Buka std::tie(BBStart, BBEnd) = BlockInstRange[BB];
2506754a0e2SVitaly Buka
2516754a0e2SVitaly Buka BitVector Started, Ended;
2526754a0e2SVitaly Buka Started.resize(NumAllocas);
2536754a0e2SVitaly Buka Ended.resize(NumAllocas);
2546754a0e2SVitaly Buka SmallVector<unsigned, 8> Start;
2556754a0e2SVitaly Buka Start.resize(NumAllocas);
2566754a0e2SVitaly Buka
2576754a0e2SVitaly Buka // LiveIn ranges start at the first instruction.
2586754a0e2SVitaly Buka for (unsigned AllocaNo = 0; AllocaNo < NumAllocas; ++AllocaNo) {
2596754a0e2SVitaly Buka if (BlockInfo.LiveIn.test(AllocaNo)) {
2606754a0e2SVitaly Buka Started.set(AllocaNo);
2616754a0e2SVitaly Buka Start[AllocaNo] = BBStart;
2626754a0e2SVitaly Buka }
2636754a0e2SVitaly Buka }
2646754a0e2SVitaly Buka
2656754a0e2SVitaly Buka for (auto &It : BBMarkers[BB]) {
2666754a0e2SVitaly Buka unsigned InstNo = It.first;
2676754a0e2SVitaly Buka bool IsStart = It.second.IsStart;
2686754a0e2SVitaly Buka unsigned AllocaNo = It.second.AllocaNo;
2696754a0e2SVitaly Buka
2706754a0e2SVitaly Buka if (IsStart) {
2716754a0e2SVitaly Buka if (!Started.test(AllocaNo)) {
2726754a0e2SVitaly Buka Started.set(AllocaNo);
2736754a0e2SVitaly Buka Ended.reset(AllocaNo);
2746754a0e2SVitaly Buka Start[AllocaNo] = InstNo;
2756754a0e2SVitaly Buka }
2766754a0e2SVitaly Buka } else {
2776754a0e2SVitaly Buka if (Started.test(AllocaNo)) {
2786754a0e2SVitaly Buka LiveRanges[AllocaNo].addRange(Start[AllocaNo], InstNo);
2796754a0e2SVitaly Buka Started.reset(AllocaNo);
2806754a0e2SVitaly Buka }
2816754a0e2SVitaly Buka Ended.set(AllocaNo);
2826754a0e2SVitaly Buka }
2836754a0e2SVitaly Buka }
2846754a0e2SVitaly Buka
2856754a0e2SVitaly Buka for (unsigned AllocaNo = 0; AllocaNo < NumAllocas; ++AllocaNo)
2866754a0e2SVitaly Buka if (Started.test(AllocaNo))
2876754a0e2SVitaly Buka LiveRanges[AllocaNo].addRange(Start[AllocaNo], BBEnd);
2886754a0e2SVitaly Buka }
2896754a0e2SVitaly Buka }
2906754a0e2SVitaly Buka
2916754a0e2SVitaly Buka #if !defined(NDEBUG) || defined(LLVM_ENABLE_DUMP)
dumpAllocas() const292d812efb1SVitaly Buka LLVM_DUMP_METHOD void StackLifetime::dumpAllocas() const {
2936754a0e2SVitaly Buka dbgs() << "Allocas:\n";
2946754a0e2SVitaly Buka for (unsigned AllocaNo = 0; AllocaNo < NumAllocas; ++AllocaNo)
2956754a0e2SVitaly Buka dbgs() << " " << AllocaNo << ": " << *Allocas[AllocaNo] << "\n";
2966754a0e2SVitaly Buka }
2976754a0e2SVitaly Buka
dumpBlockLiveness() const298d812efb1SVitaly Buka LLVM_DUMP_METHOD void StackLifetime::dumpBlockLiveness() const {
2996754a0e2SVitaly Buka dbgs() << "Block liveness:\n";
3006754a0e2SVitaly Buka for (auto IT : BlockLiveness) {
3016754a0e2SVitaly Buka const BasicBlock *BB = IT.getFirst();
3026754a0e2SVitaly Buka const BlockLifetimeInfo &BlockInfo = BlockLiveness.find(BB)->getSecond();
3036754a0e2SVitaly Buka auto BlockRange = BlockInstRange.find(BB)->getSecond();
3041fd7dc40SdongAxis dbgs() << " BB (" << BB->getName() << ") [" << BlockRange.first << ", " << BlockRange.second
3056754a0e2SVitaly Buka << "): begin " << BlockInfo.Begin << ", end " << BlockInfo.End
3066754a0e2SVitaly Buka << ", livein " << BlockInfo.LiveIn << ", liveout "
3076754a0e2SVitaly Buka << BlockInfo.LiveOut << "\n";
3086754a0e2SVitaly Buka }
3096754a0e2SVitaly Buka }
3106754a0e2SVitaly Buka
dumpLiveRanges() const311d812efb1SVitaly Buka LLVM_DUMP_METHOD void StackLifetime::dumpLiveRanges() const {
3126754a0e2SVitaly Buka dbgs() << "Alloca liveness:\n";
3136754a0e2SVitaly Buka for (unsigned AllocaNo = 0; AllocaNo < NumAllocas; ++AllocaNo)
3146754a0e2SVitaly Buka dbgs() << " " << AllocaNo << ": " << LiveRanges[AllocaNo] << "\n";
3156754a0e2SVitaly Buka }
3166754a0e2SVitaly Buka #endif
3176754a0e2SVitaly Buka
StackLifetime(const Function & F,ArrayRef<const AllocaInst * > Allocas,LivenessType Type)318d812efb1SVitaly Buka StackLifetime::StackLifetime(const Function &F,
319fcd67665SVitaly Buka ArrayRef<const AllocaInst *> Allocas,
320fcd67665SVitaly Buka LivenessType Type)
321fcd67665SVitaly Buka : F(F), Type(Type), Allocas(Allocas), NumAllocas(Allocas.size()) {
3226754a0e2SVitaly Buka LLVM_DEBUG(dumpAllocas());
3236754a0e2SVitaly Buka
3246754a0e2SVitaly Buka for (unsigned I = 0; I < NumAllocas; ++I)
3256754a0e2SVitaly Buka AllocaNumbering[Allocas[I]] = I;
3266754a0e2SVitaly Buka
3276754a0e2SVitaly Buka collectMarkers();
3286754a0e2SVitaly Buka }
3296754a0e2SVitaly Buka
run()330d812efb1SVitaly Buka void StackLifetime::run() {
331e10e7829SVitaly Buka if (HasUnknownLifetimeStartOrEnd) {
332e10e7829SVitaly Buka // There is marker which we can't assign to a specific alloca, so we
333e10e7829SVitaly Buka // fallback to the most conservative results for the type.
334e10e7829SVitaly Buka switch (Type) {
335e10e7829SVitaly Buka case LivenessType::May:
336e10e7829SVitaly Buka LiveRanges.resize(NumAllocas, getFullLiveRange());
337e10e7829SVitaly Buka break;
338e10e7829SVitaly Buka case LivenessType::Must:
339e10e7829SVitaly Buka LiveRanges.resize(NumAllocas, LiveRange(Instructions.size()));
340e10e7829SVitaly Buka break;
341e10e7829SVitaly Buka }
342e10e7829SVitaly Buka return;
343e10e7829SVitaly Buka }
344e10e7829SVitaly Buka
34520b1094aSVitaly Buka LiveRanges.resize(NumAllocas, LiveRange(Instructions.size()));
3466754a0e2SVitaly Buka for (unsigned I = 0; I < NumAllocas; ++I)
3476754a0e2SVitaly Buka if (!InterestingAllocas.test(I))
3486754a0e2SVitaly Buka LiveRanges[I] = getFullLiveRange();
3496754a0e2SVitaly Buka
3506754a0e2SVitaly Buka calculateLocalLiveness();
3516754a0e2SVitaly Buka LLVM_DEBUG(dumpBlockLiveness());
3526754a0e2SVitaly Buka calculateLiveIntervals();
3536754a0e2SVitaly Buka LLVM_DEBUG(dumpLiveRanges());
3546754a0e2SVitaly Buka }
355f672791eSVitaly Buka
356f672791eSVitaly Buka class StackLifetime::LifetimeAnnotationWriter
357f672791eSVitaly Buka : public AssemblyAnnotationWriter {
358f672791eSVitaly Buka const StackLifetime &SL;
359306c257bSVitaly Buka
printInstrAlive(unsigned InstrNo,formatted_raw_ostream & OS)360f672791eSVitaly Buka void printInstrAlive(unsigned InstrNo, formatted_raw_ostream &OS) {
36120b1094aSVitaly Buka SmallVector<StringRef, 16> Names;
362f672791eSVitaly Buka for (const auto &KV : SL.AllocaNumbering) {
363f672791eSVitaly Buka if (SL.LiveRanges[KV.getSecond()].test(InstrNo))
364f672791eSVitaly Buka Names.push_back(KV.getFirst()->getName());
365f672791eSVitaly Buka }
366f672791eSVitaly Buka llvm::sort(Names);
367f672791eSVitaly Buka OS << " ; Alive: <" << llvm::join(Names, " ") << ">\n";
368f672791eSVitaly Buka }
369f672791eSVitaly Buka
emitBasicBlockStartAnnot(const BasicBlock * BB,formatted_raw_ostream & OS)3707b27c09fSVitaly Buka void emitBasicBlockStartAnnot(const BasicBlock *BB,
3717b27c09fSVitaly Buka formatted_raw_ostream &OS) override {
372f672791eSVitaly Buka auto ItBB = SL.BlockInstRange.find(BB);
373f672791eSVitaly Buka if (ItBB == SL.BlockInstRange.end())
374f672791eSVitaly Buka return; // Unreachable.
3757b27c09fSVitaly Buka printInstrAlive(ItBB->getSecond().first, OS);
376f672791eSVitaly Buka }
377f672791eSVitaly Buka
printInfoComment(const Value & V,formatted_raw_ostream & OS)378f672791eSVitaly Buka void printInfoComment(const Value &V, formatted_raw_ostream &OS) override {
379306c257bSVitaly Buka const Instruction *Instr = dyn_cast<Instruction>(&V);
380f224f3d0SVitaly Buka if (!Instr || !SL.isReachable(Instr))
381306c257bSVitaly Buka return;
382f224f3d0SVitaly Buka
383f224f3d0SVitaly Buka SmallVector<StringRef, 16> Names;
384f224f3d0SVitaly Buka for (const auto &KV : SL.AllocaNumbering) {
385f224f3d0SVitaly Buka if (SL.isAliveAfter(KV.getFirst(), Instr))
386f224f3d0SVitaly Buka Names.push_back(KV.getFirst()->getName());
387f224f3d0SVitaly Buka }
388f224f3d0SVitaly Buka llvm::sort(Names);
389f224f3d0SVitaly Buka OS << "\n ; Alive: <" << llvm::join(Names, " ") << ">\n";
390f672791eSVitaly Buka }
391f672791eSVitaly Buka
392f672791eSVitaly Buka public:
LifetimeAnnotationWriter(const StackLifetime & SL)393f224f3d0SVitaly Buka LifetimeAnnotationWriter(const StackLifetime &SL) : SL(SL) {}
394f672791eSVitaly Buka };
395f672791eSVitaly Buka
print(raw_ostream & OS)396f224f3d0SVitaly Buka void StackLifetime::print(raw_ostream &OS) {
397f224f3d0SVitaly Buka LifetimeAnnotationWriter AAW(*this);
398f672791eSVitaly Buka F.print(OS, &AAW);
399f672791eSVitaly Buka }
400f672791eSVitaly Buka
run(Function & F,FunctionAnalysisManager & AM)401f672791eSVitaly Buka PreservedAnalyses StackLifetimePrinterPass::run(Function &F,
402f672791eSVitaly Buka FunctionAnalysisManager &AM) {
403f672791eSVitaly Buka SmallVector<const AllocaInst *, 8> Allocas;
404f672791eSVitaly Buka for (auto &I : instructions(F))
405f672791eSVitaly Buka if (const AllocaInst *AI = dyn_cast<AllocaInst>(&I))
406f672791eSVitaly Buka Allocas.push_back(AI);
407fcd67665SVitaly Buka StackLifetime SL(F, Allocas, Type);
408f672791eSVitaly Buka SL.run();
409f224f3d0SVitaly Buka SL.print(OS);
410f672791eSVitaly Buka return PreservedAnalyses::all();
411f672791eSVitaly Buka }
4121ac209edSMarkus Lavin
printPipeline(raw_ostream & OS,function_ref<StringRef (StringRef)> MapClassName2PassName)4131ac209edSMarkus Lavin void StackLifetimePrinterPass::printPipeline(
4141ac209edSMarkus Lavin raw_ostream &OS, function_ref<StringRef(StringRef)> MapClassName2PassName) {
4151ac209edSMarkus Lavin static_cast<PassInfoMixin<StackLifetimePrinterPass> *>(this)->printPipeline(
4161ac209edSMarkus Lavin OS, MapClassName2PassName);
417529ee975SLiren Peng OS << '<';
4181ac209edSMarkus Lavin switch (Type) {
4191ac209edSMarkus Lavin case StackLifetime::LivenessType::May:
4201ac209edSMarkus Lavin OS << "may";
4211ac209edSMarkus Lavin break;
4221ac209edSMarkus Lavin case StackLifetime::LivenessType::Must:
4231ac209edSMarkus Lavin OS << "must";
4241ac209edSMarkus Lavin break;
4251ac209edSMarkus Lavin }
426529ee975SLiren Peng OS << '>';
4271ac209edSMarkus Lavin }
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