1384ca190SMehdi Amini //===- ModuleSummaryAnalysis.cpp - Module summary index builder -----------===//
2384ca190SMehdi Amini //
3384ca190SMehdi Amini // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4384ca190SMehdi Amini // See https://llvm.org/LICENSE.txt for license information.
5384ca190SMehdi Amini // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6384ca190SMehdi Amini //
7384ca190SMehdi Amini //===----------------------------------------------------------------------===//
8384ca190SMehdi Amini //
9384ca190SMehdi Amini // This pass builds a ModuleSummaryIndex object for the module, to be written
10384ca190SMehdi Amini // to bitcode or LLVM assembly.
11384ca190SMehdi Amini //
12384ca190SMehdi Amini //===----------------------------------------------------------------------===//
13384ca190SMehdi Amini
14384ca190SMehdi Amini #include "llvm/Analysis/ModuleSummaryAnalysis.h"
15384ca190SMehdi Amini #include "llvm/ADT/ArrayRef.h"
16384ca190SMehdi Amini #include "llvm/ADT/DenseSet.h"
17384ca190SMehdi Amini #include "llvm/ADT/MapVector.h"
18384ca190SMehdi Amini #include "llvm/ADT/STLExtras.h"
19384ca190SMehdi Amini #include "llvm/ADT/SetVector.h"
20384ca190SMehdi Amini #include "llvm/ADT/SmallPtrSet.h"
21384ca190SMehdi Amini #include "llvm/ADT/SmallVector.h"
22384ca190SMehdi Amini #include "llvm/ADT/StringRef.h"
23384ca190SMehdi Amini #include "llvm/Analysis/BlockFrequencyInfo.h"
24384ca190SMehdi Amini #include "llvm/Analysis/BranchProbabilityInfo.h"
25384ca190SMehdi Amini #include "llvm/Analysis/IndirectCallPromotionAnalysis.h"
26384ca190SMehdi Amini #include "llvm/Analysis/LoopInfo.h"
27384ca190SMehdi Amini #include "llvm/Analysis/ProfileSummaryInfo.h"
284666953cSVitaly Buka #include "llvm/Analysis/StackSafetyAnalysis.h"
29384ca190SMehdi Amini #include "llvm/Analysis/TypeMetadataUtils.h"
30384ca190SMehdi Amini #include "llvm/IR/Attributes.h"
31384ca190SMehdi Amini #include "llvm/IR/BasicBlock.h"
32384ca190SMehdi Amini #include "llvm/IR/Constant.h"
33384ca190SMehdi Amini #include "llvm/IR/Constants.h"
34384ca190SMehdi Amini #include "llvm/IR/Dominators.h"
35384ca190SMehdi Amini #include "llvm/IR/Function.h"
36384ca190SMehdi Amini #include "llvm/IR/GlobalAlias.h"
37384ca190SMehdi Amini #include "llvm/IR/GlobalValue.h"
38384ca190SMehdi Amini #include "llvm/IR/GlobalVariable.h"
39384ca190SMehdi Amini #include "llvm/IR/Instructions.h"
40384ca190SMehdi Amini #include "llvm/IR/IntrinsicInst.h"
41384ca190SMehdi Amini #include "llvm/IR/Metadata.h"
42384ca190SMehdi Amini #include "llvm/IR/Module.h"
43384ca190SMehdi Amini #include "llvm/IR/ModuleSummaryIndex.h"
44384ca190SMehdi Amini #include "llvm/IR/Use.h"
45384ca190SMehdi Amini #include "llvm/IR/User.h"
46384ca190SMehdi Amini #include "llvm/InitializePasses.h"
47384ca190SMehdi Amini #include "llvm/Object/ModuleSymbolTable.h"
48384ca190SMehdi Amini #include "llvm/Object/SymbolicFile.h"
49384ca190SMehdi Amini #include "llvm/Pass.h"
50384ca190SMehdi Amini #include "llvm/Support/Casting.h"
51384ca190SMehdi Amini #include "llvm/Support/CommandLine.h"
52ba7a92c0SNico Weber #include "llvm/Support/FileSystem.h"
53384ca190SMehdi Amini #include <algorithm>
54384ca190SMehdi Amini #include <cassert>
55384ca190SMehdi Amini #include <cstdint>
56384ca190SMehdi Amini #include <vector>
57384ca190SMehdi Amini
58384ca190SMehdi Amini using namespace llvm;
59384ca190SMehdi Amini
60384ca190SMehdi Amini #define DEBUG_TYPE "module-summary-analysis"
61384ca190SMehdi Amini
62384ca190SMehdi Amini // Option to force edges cold which will block importing when the
63384ca190SMehdi Amini // -import-cold-multiplier is set to 0. Useful for debugging.
64384ca190SMehdi Amini FunctionSummary::ForceSummaryHotnessType ForceSummaryEdgesCold =
65384ca190SMehdi Amini FunctionSummary::FSHT_None;
66384ca190SMehdi Amini cl::opt<FunctionSummary::ForceSummaryHotnessType, true> FSEC(
67384ca190SMehdi Amini "force-summary-edges-cold", cl::Hidden, cl::location(ForceSummaryEdgesCold),
68384ca190SMehdi Amini cl::desc("Force all edges in the function summary to cold"),
69384ca190SMehdi Amini cl::values(clEnumValN(FunctionSummary::FSHT_None, "none", "None."),
70384ca190SMehdi Amini clEnumValN(FunctionSummary::FSHT_AllNonCritical,
71384ca190SMehdi Amini "all-non-critical", "All non-critical edges."),
72384ca190SMehdi Amini clEnumValN(FunctionSummary::FSHT_All, "all", "All edges.")));
73384ca190SMehdi Amini
74384ca190SMehdi Amini cl::opt<std::string> ModuleSummaryDotFile(
75384ca190SMehdi Amini "module-summary-dot-file", cl::init(""), cl::Hidden,
76384ca190SMehdi Amini cl::value_desc("filename"),
77384ca190SMehdi Amini cl::desc("File to emit dot graph of new summary into."));
78384ca190SMehdi Amini
79384ca190SMehdi Amini // Walk through the operands of a given User via worklist iteration and populate
80384ca190SMehdi Amini // the set of GlobalValue references encountered. Invoked either on an
81384ca190SMehdi Amini // Instruction or a GlobalVariable (which walks its initializer).
82384ca190SMehdi Amini // Return true if any of the operands contains blockaddress. This is important
83384ca190SMehdi Amini // to know when computing summary for global var, because if global variable
84384ca190SMehdi Amini // references basic block address we can't import it separately from function
85384ca190SMehdi Amini // containing that basic block. For simplicity we currently don't import such
86384ca190SMehdi Amini // global vars at all. When importing function we aren't interested if any
87384ca190SMehdi Amini // instruction in it takes an address of any basic block, because instruction
88384ca190SMehdi Amini // can only take an address of basic block located in the same function.
findRefEdges(ModuleSummaryIndex & Index,const User * CurUser,SetVector<ValueInfo> & RefEdges,SmallPtrSet<const User *,8> & Visited)89384ca190SMehdi Amini static bool findRefEdges(ModuleSummaryIndex &Index, const User *CurUser,
90384ca190SMehdi Amini SetVector<ValueInfo> &RefEdges,
91384ca190SMehdi Amini SmallPtrSet<const User *, 8> &Visited) {
92384ca190SMehdi Amini bool HasBlockAddress = false;
93384ca190SMehdi Amini SmallVector<const User *, 32> Worklist;
94e6a10446SFangrui Song if (Visited.insert(CurUser).second)
95384ca190SMehdi Amini Worklist.push_back(CurUser);
96384ca190SMehdi Amini
97384ca190SMehdi Amini while (!Worklist.empty()) {
98384ca190SMehdi Amini const User *U = Worklist.pop_back_val();
99cea6f4d5SMircea Trofin const auto *CB = dyn_cast<CallBase>(U);
100384ca190SMehdi Amini
101384ca190SMehdi Amini for (const auto &OI : U->operands()) {
102384ca190SMehdi Amini const User *Operand = dyn_cast<User>(OI);
103384ca190SMehdi Amini if (!Operand)
104384ca190SMehdi Amini continue;
105384ca190SMehdi Amini if (isa<BlockAddress>(Operand)) {
106384ca190SMehdi Amini HasBlockAddress = true;
107384ca190SMehdi Amini continue;
108384ca190SMehdi Amini }
109384ca190SMehdi Amini if (auto *GV = dyn_cast<GlobalValue>(Operand)) {
110384ca190SMehdi Amini // We have a reference to a global value. This should be added to
111384ca190SMehdi Amini // the reference set unless it is a callee. Callees are handled
112384ca190SMehdi Amini // specially by WriteFunction and are added to a separate list.
113cea6f4d5SMircea Trofin if (!(CB && CB->isCallee(&OI)))
114384ca190SMehdi Amini RefEdges.insert(Index.getOrInsertValueInfo(GV));
115384ca190SMehdi Amini continue;
116384ca190SMehdi Amini }
117e6a10446SFangrui Song if (Visited.insert(Operand).second)
118384ca190SMehdi Amini Worklist.push_back(Operand);
119384ca190SMehdi Amini }
120384ca190SMehdi Amini }
121384ca190SMehdi Amini return HasBlockAddress;
122384ca190SMehdi Amini }
123384ca190SMehdi Amini
getHotness(uint64_t ProfileCount,ProfileSummaryInfo * PSI)124384ca190SMehdi Amini static CalleeInfo::HotnessType getHotness(uint64_t ProfileCount,
125384ca190SMehdi Amini ProfileSummaryInfo *PSI) {
126384ca190SMehdi Amini if (!PSI)
127384ca190SMehdi Amini return CalleeInfo::HotnessType::Unknown;
128384ca190SMehdi Amini if (PSI->isHotCount(ProfileCount))
129384ca190SMehdi Amini return CalleeInfo::HotnessType::Hot;
130384ca190SMehdi Amini if (PSI->isColdCount(ProfileCount))
131384ca190SMehdi Amini return CalleeInfo::HotnessType::Cold;
132384ca190SMehdi Amini return CalleeInfo::HotnessType::None;
133384ca190SMehdi Amini }
134384ca190SMehdi Amini
isNonRenamableLocal(const GlobalValue & GV)135384ca190SMehdi Amini static bool isNonRenamableLocal(const GlobalValue &GV) {
136384ca190SMehdi Amini return GV.hasSection() && GV.hasLocalLinkage();
137384ca190SMehdi Amini }
138384ca190SMehdi Amini
139384ca190SMehdi Amini /// Determine whether this call has all constant integer arguments (excluding
140384ca190SMehdi Amini /// "this") and summarize it to VCalls or ConstVCalls as appropriate.
addVCallToSet(DevirtCallSite Call,GlobalValue::GUID Guid,SetVector<FunctionSummary::VFuncId> & VCalls,SetVector<FunctionSummary::ConstVCall> & ConstVCalls)141384ca190SMehdi Amini static void addVCallToSet(DevirtCallSite Call, GlobalValue::GUID Guid,
142384ca190SMehdi Amini SetVector<FunctionSummary::VFuncId> &VCalls,
143384ca190SMehdi Amini SetVector<FunctionSummary::ConstVCall> &ConstVCalls) {
144384ca190SMehdi Amini std::vector<uint64_t> Args;
145384ca190SMehdi Amini // Start from the second argument to skip the "this" pointer.
14623b0ab2aSKazu Hirata for (auto &Arg : drop_begin(Call.CB.args())) {
147384ca190SMehdi Amini auto *CI = dyn_cast<ConstantInt>(Arg);
148384ca190SMehdi Amini if (!CI || CI->getBitWidth() > 64) {
149384ca190SMehdi Amini VCalls.insert({Guid, Call.Offset});
150384ca190SMehdi Amini return;
151384ca190SMehdi Amini }
152384ca190SMehdi Amini Args.push_back(CI->getZExtValue());
153384ca190SMehdi Amini }
154384ca190SMehdi Amini ConstVCalls.insert({{Guid, Call.Offset}, std::move(Args)});
155384ca190SMehdi Amini }
156384ca190SMehdi Amini
157384ca190SMehdi Amini /// If this intrinsic call requires that we add information to the function
158384ca190SMehdi Amini /// summary, do so via the non-constant reference arguments.
addIntrinsicToSummary(const CallInst * CI,SetVector<GlobalValue::GUID> & TypeTests,SetVector<FunctionSummary::VFuncId> & TypeTestAssumeVCalls,SetVector<FunctionSummary::VFuncId> & TypeCheckedLoadVCalls,SetVector<FunctionSummary::ConstVCall> & TypeTestAssumeConstVCalls,SetVector<FunctionSummary::ConstVCall> & TypeCheckedLoadConstVCalls,DominatorTree & DT)159384ca190SMehdi Amini static void addIntrinsicToSummary(
160384ca190SMehdi Amini const CallInst *CI, SetVector<GlobalValue::GUID> &TypeTests,
161384ca190SMehdi Amini SetVector<FunctionSummary::VFuncId> &TypeTestAssumeVCalls,
162384ca190SMehdi Amini SetVector<FunctionSummary::VFuncId> &TypeCheckedLoadVCalls,
163384ca190SMehdi Amini SetVector<FunctionSummary::ConstVCall> &TypeTestAssumeConstVCalls,
164384ca190SMehdi Amini SetVector<FunctionSummary::ConstVCall> &TypeCheckedLoadConstVCalls,
165384ca190SMehdi Amini DominatorTree &DT) {
166384ca190SMehdi Amini switch (CI->getCalledFunction()->getIntrinsicID()) {
167*2eade1dbSArthur Eubanks case Intrinsic::type_test:
168*2eade1dbSArthur Eubanks case Intrinsic::public_type_test: {
169384ca190SMehdi Amini auto *TypeMDVal = cast<MetadataAsValue>(CI->getArgOperand(1));
170384ca190SMehdi Amini auto *TypeId = dyn_cast<MDString>(TypeMDVal->getMetadata());
171384ca190SMehdi Amini if (!TypeId)
172384ca190SMehdi Amini break;
173384ca190SMehdi Amini GlobalValue::GUID Guid = GlobalValue::getGUID(TypeId->getString());
174384ca190SMehdi Amini
175384ca190SMehdi Amini // Produce a summary from type.test intrinsics. We only summarize type.test
176384ca190SMehdi Amini // intrinsics that are used other than by an llvm.assume intrinsic.
177384ca190SMehdi Amini // Intrinsics that are assumed are relevant only to the devirtualization
178384ca190SMehdi Amini // pass, not the type test lowering pass.
179384ca190SMehdi Amini bool HasNonAssumeUses = llvm::any_of(CI->uses(), [](const Use &CIU) {
180908215b3SPhilip Reames return !isa<AssumeInst>(CIU.getUser());
181384ca190SMehdi Amini });
182384ca190SMehdi Amini if (HasNonAssumeUses)
183384ca190SMehdi Amini TypeTests.insert(Guid);
184384ca190SMehdi Amini
185384ca190SMehdi Amini SmallVector<DevirtCallSite, 4> DevirtCalls;
186384ca190SMehdi Amini SmallVector<CallInst *, 4> Assumes;
187384ca190SMehdi Amini findDevirtualizableCallsForTypeTest(DevirtCalls, Assumes, CI, DT);
188384ca190SMehdi Amini for (auto &Call : DevirtCalls)
189384ca190SMehdi Amini addVCallToSet(Call, Guid, TypeTestAssumeVCalls,
190384ca190SMehdi Amini TypeTestAssumeConstVCalls);
191384ca190SMehdi Amini
192384ca190SMehdi Amini break;
193384ca190SMehdi Amini }
194384ca190SMehdi Amini
195384ca190SMehdi Amini case Intrinsic::type_checked_load: {
196384ca190SMehdi Amini auto *TypeMDVal = cast<MetadataAsValue>(CI->getArgOperand(2));
197384ca190SMehdi Amini auto *TypeId = dyn_cast<MDString>(TypeMDVal->getMetadata());
198384ca190SMehdi Amini if (!TypeId)
199384ca190SMehdi Amini break;
200384ca190SMehdi Amini GlobalValue::GUID Guid = GlobalValue::getGUID(TypeId->getString());
201384ca190SMehdi Amini
202384ca190SMehdi Amini SmallVector<DevirtCallSite, 4> DevirtCalls;
203384ca190SMehdi Amini SmallVector<Instruction *, 4> LoadedPtrs;
204384ca190SMehdi Amini SmallVector<Instruction *, 4> Preds;
205384ca190SMehdi Amini bool HasNonCallUses = false;
206384ca190SMehdi Amini findDevirtualizableCallsForTypeCheckedLoad(DevirtCalls, LoadedPtrs, Preds,
207384ca190SMehdi Amini HasNonCallUses, CI, DT);
208384ca190SMehdi Amini // Any non-call uses of the result of llvm.type.checked.load will
209384ca190SMehdi Amini // prevent us from optimizing away the llvm.type.test.
210384ca190SMehdi Amini if (HasNonCallUses)
211384ca190SMehdi Amini TypeTests.insert(Guid);
212384ca190SMehdi Amini for (auto &Call : DevirtCalls)
213384ca190SMehdi Amini addVCallToSet(Call, Guid, TypeCheckedLoadVCalls,
214384ca190SMehdi Amini TypeCheckedLoadConstVCalls);
215384ca190SMehdi Amini
216384ca190SMehdi Amini break;
217384ca190SMehdi Amini }
218384ca190SMehdi Amini default:
219384ca190SMehdi Amini break;
220384ca190SMehdi Amini }
221384ca190SMehdi Amini }
222384ca190SMehdi Amini
isNonVolatileLoad(const Instruction * I)223384ca190SMehdi Amini static bool isNonVolatileLoad(const Instruction *I) {
224384ca190SMehdi Amini if (const auto *LI = dyn_cast<LoadInst>(I))
225384ca190SMehdi Amini return !LI->isVolatile();
226384ca190SMehdi Amini
227384ca190SMehdi Amini return false;
228384ca190SMehdi Amini }
229384ca190SMehdi Amini
isNonVolatileStore(const Instruction * I)230384ca190SMehdi Amini static bool isNonVolatileStore(const Instruction *I) {
231384ca190SMehdi Amini if (const auto *SI = dyn_cast<StoreInst>(I))
232384ca190SMehdi Amini return !SI->isVolatile();
233384ca190SMehdi Amini
234384ca190SMehdi Amini return false;
235384ca190SMehdi Amini }
236384ca190SMehdi Amini
237cf9e61a9SFangrui Song // Returns true if the function definition must be unreachable.
23809a704c5SMingming Liu //
23909a704c5SMingming Liu // Note if this helper function returns true, `F` is guaranteed
24009a704c5SMingming Liu // to be unreachable; if it returns false, `F` might still
24109a704c5SMingming Liu // be unreachable but not covered by this helper function.
mustBeUnreachableFunction(const Function & F)24209a704c5SMingming Liu static bool mustBeUnreachableFunction(const Function &F) {
243cf9e61a9SFangrui Song // A function must be unreachable if its entry block ends with an
244cf9e61a9SFangrui Song // 'unreachable'.
245cf9e61a9SFangrui Song assert(!F.isDeclaration());
246cf9e61a9SFangrui Song return isa<UnreachableInst>(F.getEntryBlock().getTerminator());
24709a704c5SMingming Liu }
24809a704c5SMingming Liu
computeFunctionSummary(ModuleSummaryIndex & Index,const Module & M,const Function & F,BlockFrequencyInfo * BFI,ProfileSummaryInfo * PSI,DominatorTree & DT,bool HasLocalsInUsedOrAsm,DenseSet<GlobalValue::GUID> & CantBePromoted,bool IsThinLTO,std::function<const StackSafetyInfo * (const Function & F)> GetSSICallback)2494666953cSVitaly Buka static void computeFunctionSummary(
2504666953cSVitaly Buka ModuleSummaryIndex &Index, const Module &M, const Function &F,
2514666953cSVitaly Buka BlockFrequencyInfo *BFI, ProfileSummaryInfo *PSI, DominatorTree &DT,
2524666953cSVitaly Buka bool HasLocalsInUsedOrAsm, DenseSet<GlobalValue::GUID> &CantBePromoted,
2534666953cSVitaly Buka bool IsThinLTO,
2544666953cSVitaly Buka std::function<const StackSafetyInfo *(const Function &F)> GetSSICallback) {
255384ca190SMehdi Amini // Summary not currently supported for anonymous functions, they should
256384ca190SMehdi Amini // have been named.
257384ca190SMehdi Amini assert(F.hasName());
258384ca190SMehdi Amini
259384ca190SMehdi Amini unsigned NumInsts = 0;
260384ca190SMehdi Amini // Map from callee ValueId to profile count. Used to accumulate profile
261384ca190SMehdi Amini // counts for all static calls to a given callee.
262384ca190SMehdi Amini MapVector<ValueInfo, CalleeInfo> CallGraphEdges;
263384ca190SMehdi Amini SetVector<ValueInfo> RefEdges, LoadRefEdges, StoreRefEdges;
264384ca190SMehdi Amini SetVector<GlobalValue::GUID> TypeTests;
265384ca190SMehdi Amini SetVector<FunctionSummary::VFuncId> TypeTestAssumeVCalls,
266384ca190SMehdi Amini TypeCheckedLoadVCalls;
267384ca190SMehdi Amini SetVector<FunctionSummary::ConstVCall> TypeTestAssumeConstVCalls,
268384ca190SMehdi Amini TypeCheckedLoadConstVCalls;
269384ca190SMehdi Amini ICallPromotionAnalysis ICallAnalysis;
270384ca190SMehdi Amini SmallPtrSet<const User *, 8> Visited;
271384ca190SMehdi Amini
272384ca190SMehdi Amini // Add personality function, prefix data and prologue data to function's ref
273384ca190SMehdi Amini // list.
274384ca190SMehdi Amini findRefEdges(Index, &F, RefEdges, Visited);
275384ca190SMehdi Amini std::vector<const Instruction *> NonVolatileLoads;
276384ca190SMehdi Amini std::vector<const Instruction *> NonVolatileStores;
277384ca190SMehdi Amini
278384ca190SMehdi Amini bool HasInlineAsmMaybeReferencingInternal = false;
2791a8087adSWenlei He bool HasIndirBranchToBlockAddress = false;
28020faf789Smodimo bool HasUnknownCall = false;
28120faf789Smodimo bool MayThrow = false;
2821a8087adSWenlei He for (const BasicBlock &BB : F) {
2831a8087adSWenlei He // We don't allow inlining of function with indirect branch to blockaddress.
2841a8087adSWenlei He // If the blockaddress escapes the function, e.g., via a global variable,
2851a8087adSWenlei He // inlining may lead to an invalid cross-function reference. So we shouldn't
2861a8087adSWenlei He // import such function either.
2871a8087adSWenlei He if (BB.hasAddressTaken()) {
2881a8087adSWenlei He for (User *U : BlockAddress::get(const_cast<BasicBlock *>(&BB))->users())
2891a8087adSWenlei He if (!isa<CallBrInst>(*U)) {
2901a8087adSWenlei He HasIndirBranchToBlockAddress = true;
2911a8087adSWenlei He break;
2921a8087adSWenlei He }
2931a8087adSWenlei He }
2941a8087adSWenlei He
295384ca190SMehdi Amini for (const Instruction &I : BB) {
296c5fafc1eSHongtao Yu if (I.isDebugOrPseudoInst())
297384ca190SMehdi Amini continue;
298384ca190SMehdi Amini ++NumInsts;
29920faf789Smodimo
300384ca190SMehdi Amini // Regular LTO module doesn't participate in ThinLTO import,
301384ca190SMehdi Amini // so no reference from it can be read/writeonly, since this
302384ca190SMehdi Amini // would require importing variable as local copy
303384ca190SMehdi Amini if (IsThinLTO) {
304384ca190SMehdi Amini if (isNonVolatileLoad(&I)) {
305384ca190SMehdi Amini // Postpone processing of non-volatile load instructions
306384ca190SMehdi Amini // See comments below
307384ca190SMehdi Amini Visited.insert(&I);
308384ca190SMehdi Amini NonVolatileLoads.push_back(&I);
309384ca190SMehdi Amini continue;
310384ca190SMehdi Amini } else if (isNonVolatileStore(&I)) {
311384ca190SMehdi Amini Visited.insert(&I);
312384ca190SMehdi Amini NonVolatileStores.push_back(&I);
313384ca190SMehdi Amini // All references from second operand of store (destination address)
314384ca190SMehdi Amini // can be considered write-only if they're not referenced by any
315384ca190SMehdi Amini // non-store instruction. References from first operand of store
316384ca190SMehdi Amini // (stored value) can't be treated either as read- or as write-only
317384ca190SMehdi Amini // so we add them to RefEdges as we do with all other instructions
318384ca190SMehdi Amini // except non-volatile load.
319384ca190SMehdi Amini Value *Stored = I.getOperand(0);
320384ca190SMehdi Amini if (auto *GV = dyn_cast<GlobalValue>(Stored))
321384ca190SMehdi Amini // findRefEdges will try to examine GV operands, so instead
322384ca190SMehdi Amini // of calling it we should add GV to RefEdges directly.
323384ca190SMehdi Amini RefEdges.insert(Index.getOrInsertValueInfo(GV));
324384ca190SMehdi Amini else if (auto *U = dyn_cast<User>(Stored))
325384ca190SMehdi Amini findRefEdges(Index, U, RefEdges, Visited);
326384ca190SMehdi Amini continue;
327384ca190SMehdi Amini }
328384ca190SMehdi Amini }
329384ca190SMehdi Amini findRefEdges(Index, &I, RefEdges, Visited);
330cea6f4d5SMircea Trofin const auto *CB = dyn_cast<CallBase>(&I);
33120faf789Smodimo if (!CB) {
33220faf789Smodimo if (I.mayThrow())
33320faf789Smodimo MayThrow = true;
334384ca190SMehdi Amini continue;
33520faf789Smodimo }
336384ca190SMehdi Amini
337384ca190SMehdi Amini const auto *CI = dyn_cast<CallInst>(&I);
338384ca190SMehdi Amini // Since we don't know exactly which local values are referenced in inline
339384ca190SMehdi Amini // assembly, conservatively mark the function as possibly referencing
340384ca190SMehdi Amini // a local value from inline assembly to ensure we don't export a
341384ca190SMehdi Amini // reference (which would require renaming and promotion of the
342384ca190SMehdi Amini // referenced value).
343384ca190SMehdi Amini if (HasLocalsInUsedOrAsm && CI && CI->isInlineAsm())
344384ca190SMehdi Amini HasInlineAsmMaybeReferencingInternal = true;
345384ca190SMehdi Amini
346a58b62b4SCraig Topper auto *CalledValue = CB->getCalledOperand();
347cea6f4d5SMircea Trofin auto *CalledFunction = CB->getCalledFunction();
348384ca190SMehdi Amini if (CalledValue && !CalledFunction) {
349384ca190SMehdi Amini CalledValue = CalledValue->stripPointerCasts();
350384ca190SMehdi Amini // Stripping pointer casts can reveal a called function.
351384ca190SMehdi Amini CalledFunction = dyn_cast<Function>(CalledValue);
352384ca190SMehdi Amini }
353384ca190SMehdi Amini // Check if this is an alias to a function. If so, get the
354384ca190SMehdi Amini // called aliasee for the checks below.
355384ca190SMehdi Amini if (auto *GA = dyn_cast<GlobalAlias>(CalledValue)) {
356384ca190SMehdi Amini assert(!CalledFunction && "Expected null called function in callsite for alias");
35740ec1c0fSItay Bookstein CalledFunction = dyn_cast<Function>(GA->getAliaseeObject());
358384ca190SMehdi Amini }
359384ca190SMehdi Amini // Check if this is a direct call to a known function or a known
360384ca190SMehdi Amini // intrinsic, or an indirect call with profile data.
361384ca190SMehdi Amini if (CalledFunction) {
362384ca190SMehdi Amini if (CI && CalledFunction->isIntrinsic()) {
363384ca190SMehdi Amini addIntrinsicToSummary(
364384ca190SMehdi Amini CI, TypeTests, TypeTestAssumeVCalls, TypeCheckedLoadVCalls,
365384ca190SMehdi Amini TypeTestAssumeConstVCalls, TypeCheckedLoadConstVCalls, DT);
366384ca190SMehdi Amini continue;
367384ca190SMehdi Amini }
368384ca190SMehdi Amini // We should have named any anonymous globals
369384ca190SMehdi Amini assert(CalledFunction->hasName());
370cb56e9b9SMircea Trofin auto ScaledCount = PSI->getProfileCount(*CB, BFI);
3717a47ee51SKazu Hirata auto Hotness = ScaledCount ? getHotness(*ScaledCount, PSI)
372384ca190SMehdi Amini : CalleeInfo::HotnessType::Unknown;
373384ca190SMehdi Amini if (ForceSummaryEdgesCold != FunctionSummary::FSHT_None)
374384ca190SMehdi Amini Hotness = CalleeInfo::HotnessType::Cold;
375384ca190SMehdi Amini
376384ca190SMehdi Amini // Use the original CalledValue, in case it was an alias. We want
377384ca190SMehdi Amini // to record the call edge to the alias in that case. Eventually
378384ca190SMehdi Amini // an alias summary will be created to associate the alias and
379384ca190SMehdi Amini // aliasee.
380384ca190SMehdi Amini auto &ValueInfo = CallGraphEdges[Index.getOrInsertValueInfo(
381384ca190SMehdi Amini cast<GlobalValue>(CalledValue))];
382384ca190SMehdi Amini ValueInfo.updateHotness(Hotness);
383384ca190SMehdi Amini // Add the relative block frequency to CalleeInfo if there is no profile
384384ca190SMehdi Amini // information.
385384ca190SMehdi Amini if (BFI != nullptr && Hotness == CalleeInfo::HotnessType::Unknown) {
386384ca190SMehdi Amini uint64_t BBFreq = BFI->getBlockFreq(&BB).getFrequency();
387384ca190SMehdi Amini uint64_t EntryFreq = BFI->getEntryFreq();
388384ca190SMehdi Amini ValueInfo.updateRelBlockFreq(BBFreq, EntryFreq);
389384ca190SMehdi Amini }
390384ca190SMehdi Amini } else {
39120faf789Smodimo HasUnknownCall = true;
392384ca190SMehdi Amini // Skip inline assembly calls.
393384ca190SMehdi Amini if (CI && CI->isInlineAsm())
394384ca190SMehdi Amini continue;
395384ca190SMehdi Amini // Skip direct calls.
396384ca190SMehdi Amini if (!CalledValue || isa<Constant>(CalledValue))
397384ca190SMehdi Amini continue;
398384ca190SMehdi Amini
399384ca190SMehdi Amini // Check if the instruction has a callees metadata. If so, add callees
400384ca190SMehdi Amini // to CallGraphEdges to reflect the references from the metadata, and
401384ca190SMehdi Amini // to enable importing for subsequent indirect call promotion and
402384ca190SMehdi Amini // inlining.
403384ca190SMehdi Amini if (auto *MD = I.getMetadata(LLVMContext::MD_callees)) {
404601b3a13SKazu Hirata for (const auto &Op : MD->operands()) {
405384ca190SMehdi Amini Function *Callee = mdconst::extract_or_null<Function>(Op);
406384ca190SMehdi Amini if (Callee)
407384ca190SMehdi Amini CallGraphEdges[Index.getOrInsertValueInfo(Callee)];
408384ca190SMehdi Amini }
409384ca190SMehdi Amini }
410384ca190SMehdi Amini
411384ca190SMehdi Amini uint32_t NumVals, NumCandidates;
412384ca190SMehdi Amini uint64_t TotalCount;
413384ca190SMehdi Amini auto CandidateProfileData =
414384ca190SMehdi Amini ICallAnalysis.getPromotionCandidatesForInstruction(
415384ca190SMehdi Amini &I, NumVals, TotalCount, NumCandidates);
416601b3a13SKazu Hirata for (const auto &Candidate : CandidateProfileData)
417384ca190SMehdi Amini CallGraphEdges[Index.getOrInsertValueInfo(Candidate.Value)]
418384ca190SMehdi Amini .updateHotness(getHotness(Candidate.Count, PSI));
419384ca190SMehdi Amini }
420384ca190SMehdi Amini }
4211a8087adSWenlei He }
422a7fa35a6SHiroshi Yamauchi Index.addBlockCount(F.size());
423384ca190SMehdi Amini
424384ca190SMehdi Amini std::vector<ValueInfo> Refs;
425384ca190SMehdi Amini if (IsThinLTO) {
426384ca190SMehdi Amini auto AddRefEdges = [&](const std::vector<const Instruction *> &Instrs,
427384ca190SMehdi Amini SetVector<ValueInfo> &Edges,
428384ca190SMehdi Amini SmallPtrSet<const User *, 8> &Cache) {
429384ca190SMehdi Amini for (const auto *I : Instrs) {
430384ca190SMehdi Amini Cache.erase(I);
431384ca190SMehdi Amini findRefEdges(Index, I, Edges, Cache);
432384ca190SMehdi Amini }
433384ca190SMehdi Amini };
434384ca190SMehdi Amini
435384ca190SMehdi Amini // By now we processed all instructions in a function, except
436384ca190SMehdi Amini // non-volatile loads and non-volatile value stores. Let's find
437384ca190SMehdi Amini // ref edges for both of instruction sets
438384ca190SMehdi Amini AddRefEdges(NonVolatileLoads, LoadRefEdges, Visited);
439384ca190SMehdi Amini // We can add some values to the Visited set when processing load
440384ca190SMehdi Amini // instructions which are also used by stores in NonVolatileStores.
441384ca190SMehdi Amini // For example this can happen if we have following code:
442384ca190SMehdi Amini //
443384ca190SMehdi Amini // store %Derived* @foo, %Derived** bitcast (%Base** @bar to %Derived**)
444384ca190SMehdi Amini // %42 = load %Derived*, %Derived** bitcast (%Base** @bar to %Derived**)
445384ca190SMehdi Amini //
446384ca190SMehdi Amini // After processing loads we'll add bitcast to the Visited set, and if
447384ca190SMehdi Amini // we use the same set while processing stores, we'll never see store
448384ca190SMehdi Amini // to @bar and @bar will be mistakenly treated as readonly.
449384ca190SMehdi Amini SmallPtrSet<const llvm::User *, 8> StoreCache;
450384ca190SMehdi Amini AddRefEdges(NonVolatileStores, StoreRefEdges, StoreCache);
451384ca190SMehdi Amini
452384ca190SMehdi Amini // If both load and store instruction reference the same variable
453384ca190SMehdi Amini // we won't be able to optimize it. Add all such reference edges
454384ca190SMehdi Amini // to RefEdges set.
455601b3a13SKazu Hirata for (const auto &VI : StoreRefEdges)
456384ca190SMehdi Amini if (LoadRefEdges.remove(VI))
457384ca190SMehdi Amini RefEdges.insert(VI);
458384ca190SMehdi Amini
459384ca190SMehdi Amini unsigned RefCnt = RefEdges.size();
460384ca190SMehdi Amini // All new reference edges inserted in two loops below are either
461384ca190SMehdi Amini // read or write only. They will be grouped in the end of RefEdges
462384ca190SMehdi Amini // vector, so we can use a single integer value to identify them.
463601b3a13SKazu Hirata for (const auto &VI : LoadRefEdges)
464384ca190SMehdi Amini RefEdges.insert(VI);
465384ca190SMehdi Amini
466384ca190SMehdi Amini unsigned FirstWORef = RefEdges.size();
467601b3a13SKazu Hirata for (const auto &VI : StoreRefEdges)
468384ca190SMehdi Amini RefEdges.insert(VI);
469384ca190SMehdi Amini
470384ca190SMehdi Amini Refs = RefEdges.takeVector();
471384ca190SMehdi Amini for (; RefCnt < FirstWORef; ++RefCnt)
472384ca190SMehdi Amini Refs[RefCnt].setReadOnly();
473384ca190SMehdi Amini
474384ca190SMehdi Amini for (; RefCnt < Refs.size(); ++RefCnt)
475384ca190SMehdi Amini Refs[RefCnt].setWriteOnly();
476384ca190SMehdi Amini } else {
477384ca190SMehdi Amini Refs = RefEdges.takeVector();
478384ca190SMehdi Amini }
479384ca190SMehdi Amini // Explicit add hot edges to enforce importing for designated GUIDs for
480384ca190SMehdi Amini // sample PGO, to enable the same inlines as the profiled optimized binary.
481384ca190SMehdi Amini for (auto &I : F.getImportGUIDs())
482384ca190SMehdi Amini CallGraphEdges[Index.getOrInsertValueInfo(I)].updateHotness(
483384ca190SMehdi Amini ForceSummaryEdgesCold == FunctionSummary::FSHT_All
484384ca190SMehdi Amini ? CalleeInfo::HotnessType::Cold
485384ca190SMehdi Amini : CalleeInfo::HotnessType::Critical);
486384ca190SMehdi Amini
487384ca190SMehdi Amini bool NonRenamableLocal = isNonRenamableLocal(F);
4881a8087adSWenlei He bool NotEligibleForImport = NonRenamableLocal ||
4891a8087adSWenlei He HasInlineAsmMaybeReferencingInternal ||
4901a8087adSWenlei He HasIndirBranchToBlockAddress;
49154fb3ca9SFangrui Song GlobalValueSummary::GVFlags Flags(
49254fb3ca9SFangrui Song F.getLinkage(), F.getVisibility(), NotEligibleForImport,
493dd29597eSJez Ng /* Live = */ false, F.isDSOLocal(), F.canBeOmittedFromSymbolTable());
494384ca190SMehdi Amini FunctionSummary::FFlags FunFlags{
495384ca190SMehdi Amini F.hasFnAttribute(Attribute::ReadNone),
496384ca190SMehdi Amini F.hasFnAttribute(Attribute::ReadOnly),
497384ca190SMehdi Amini F.hasFnAttribute(Attribute::NoRecurse), F.returnDoesNotAlias(),
498384ca190SMehdi Amini // FIXME: refactor this to use the same code that inliner is using.
499384ca190SMehdi Amini // Don't try to import functions with noinline attribute.
50092ce6db9SArthur Eubanks F.getAttributes().hasFnAttr(Attribute::NoInline),
50120faf789Smodimo F.hasFnAttribute(Attribute::AlwaysInline),
50209a704c5SMingming Liu F.hasFnAttribute(Attribute::NoUnwind), MayThrow, HasUnknownCall,
50309a704c5SMingming Liu mustBeUnreachableFunction(F)};
5044666953cSVitaly Buka std::vector<FunctionSummary::ParamAccess> ParamAccesses;
5054666953cSVitaly Buka if (auto *SSI = GetSSICallback(F))
506fc4fd898SVitaly Buka ParamAccesses = SSI->getParamAccesses(Index);
507384ca190SMehdi Amini auto FuncSummary = std::make_unique<FunctionSummary>(
508384ca190SMehdi Amini Flags, NumInsts, FunFlags, /*EntryCount=*/0, std::move(Refs),
509384ca190SMehdi Amini CallGraphEdges.takeVector(), TypeTests.takeVector(),
510384ca190SMehdi Amini TypeTestAssumeVCalls.takeVector(), TypeCheckedLoadVCalls.takeVector(),
511384ca190SMehdi Amini TypeTestAssumeConstVCalls.takeVector(),
5124666953cSVitaly Buka TypeCheckedLoadConstVCalls.takeVector(), std::move(ParamAccesses));
513384ca190SMehdi Amini if (NonRenamableLocal)
514384ca190SMehdi Amini CantBePromoted.insert(F.getGUID());
515384ca190SMehdi Amini Index.addGlobalValueSummary(F, std::move(FuncSummary));
516384ca190SMehdi Amini }
517384ca190SMehdi Amini
518384ca190SMehdi Amini /// Find function pointers referenced within the given vtable initializer
519384ca190SMehdi Amini /// (or subset of an initializer) \p I. The starting offset of \p I within
520384ca190SMehdi Amini /// the vtable initializer is \p StartingOffset. Any discovered function
521384ca190SMehdi Amini /// pointers are added to \p VTableFuncs along with their cumulative offset
522384ca190SMehdi Amini /// within the initializer.
findFuncPointers(const Constant * I,uint64_t StartingOffset,const Module & M,ModuleSummaryIndex & Index,VTableFuncList & VTableFuncs)523384ca190SMehdi Amini static void findFuncPointers(const Constant *I, uint64_t StartingOffset,
524384ca190SMehdi Amini const Module &M, ModuleSummaryIndex &Index,
525384ca190SMehdi Amini VTableFuncList &VTableFuncs) {
526384ca190SMehdi Amini // First check if this is a function pointer.
527384ca190SMehdi Amini if (I->getType()->isPointerTy()) {
528384ca190SMehdi Amini auto Fn = dyn_cast<Function>(I->stripPointerCasts());
529384ca190SMehdi Amini // We can disregard __cxa_pure_virtual as a possible call target, as
530384ca190SMehdi Amini // calls to pure virtuals are UB.
531384ca190SMehdi Amini if (Fn && Fn->getName() != "__cxa_pure_virtual")
532384ca190SMehdi Amini VTableFuncs.push_back({Index.getOrInsertValueInfo(Fn), StartingOffset});
533384ca190SMehdi Amini return;
534384ca190SMehdi Amini }
535384ca190SMehdi Amini
536384ca190SMehdi Amini // Walk through the elements in the constant struct or array and recursively
537384ca190SMehdi Amini // look for virtual function pointers.
538384ca190SMehdi Amini const DataLayout &DL = M.getDataLayout();
539384ca190SMehdi Amini if (auto *C = dyn_cast<ConstantStruct>(I)) {
540384ca190SMehdi Amini StructType *STy = dyn_cast<StructType>(C->getType());
541384ca190SMehdi Amini assert(STy);
542384ca190SMehdi Amini const StructLayout *SL = DL.getStructLayout(C->getType());
543384ca190SMehdi Amini
544896d0e1aSKazu Hirata for (auto EI : llvm::enumerate(STy->elements())) {
545896d0e1aSKazu Hirata auto Offset = SL->getElementOffset(EI.index());
546384ca190SMehdi Amini unsigned Op = SL->getElementContainingOffset(Offset);
547384ca190SMehdi Amini findFuncPointers(cast<Constant>(I->getOperand(Op)),
548384ca190SMehdi Amini StartingOffset + Offset, M, Index, VTableFuncs);
549384ca190SMehdi Amini }
550384ca190SMehdi Amini } else if (auto *C = dyn_cast<ConstantArray>(I)) {
551384ca190SMehdi Amini ArrayType *ATy = C->getType();
552384ca190SMehdi Amini Type *EltTy = ATy->getElementType();
553384ca190SMehdi Amini uint64_t EltSize = DL.getTypeAllocSize(EltTy);
554384ca190SMehdi Amini for (unsigned i = 0, e = ATy->getNumElements(); i != e; ++i) {
555384ca190SMehdi Amini findFuncPointers(cast<Constant>(I->getOperand(i)),
556384ca190SMehdi Amini StartingOffset + i * EltSize, M, Index, VTableFuncs);
557384ca190SMehdi Amini }
558384ca190SMehdi Amini }
559384ca190SMehdi Amini }
560384ca190SMehdi Amini
561384ca190SMehdi Amini // Identify the function pointers referenced by vtable definition \p V.
computeVTableFuncs(ModuleSummaryIndex & Index,const GlobalVariable & V,const Module & M,VTableFuncList & VTableFuncs)562384ca190SMehdi Amini static void computeVTableFuncs(ModuleSummaryIndex &Index,
563384ca190SMehdi Amini const GlobalVariable &V, const Module &M,
564384ca190SMehdi Amini VTableFuncList &VTableFuncs) {
565384ca190SMehdi Amini if (!V.isConstant())
566384ca190SMehdi Amini return;
567384ca190SMehdi Amini
568384ca190SMehdi Amini findFuncPointers(V.getInitializer(), /*StartingOffset=*/0, M, Index,
569384ca190SMehdi Amini VTableFuncs);
570384ca190SMehdi Amini
571384ca190SMehdi Amini #ifndef NDEBUG
572384ca190SMehdi Amini // Validate that the VTableFuncs list is ordered by offset.
573384ca190SMehdi Amini uint64_t PrevOffset = 0;
574384ca190SMehdi Amini for (auto &P : VTableFuncs) {
575384ca190SMehdi Amini // The findVFuncPointers traversal should have encountered the
576384ca190SMehdi Amini // functions in offset order. We need to use ">=" since PrevOffset
577384ca190SMehdi Amini // starts at 0.
578384ca190SMehdi Amini assert(P.VTableOffset >= PrevOffset);
579384ca190SMehdi Amini PrevOffset = P.VTableOffset;
580384ca190SMehdi Amini }
581384ca190SMehdi Amini #endif
582384ca190SMehdi Amini }
583384ca190SMehdi Amini
584384ca190SMehdi Amini /// Record vtable definition \p V for each type metadata it references.
585384ca190SMehdi Amini static void
recordTypeIdCompatibleVtableReferences(ModuleSummaryIndex & Index,const GlobalVariable & V,SmallVectorImpl<MDNode * > & Types)586384ca190SMehdi Amini recordTypeIdCompatibleVtableReferences(ModuleSummaryIndex &Index,
587384ca190SMehdi Amini const GlobalVariable &V,
588384ca190SMehdi Amini SmallVectorImpl<MDNode *> &Types) {
589384ca190SMehdi Amini for (MDNode *Type : Types) {
590384ca190SMehdi Amini auto TypeID = Type->getOperand(1).get();
591384ca190SMehdi Amini
592384ca190SMehdi Amini uint64_t Offset =
593384ca190SMehdi Amini cast<ConstantInt>(
594384ca190SMehdi Amini cast<ConstantAsMetadata>(Type->getOperand(0))->getValue())
595384ca190SMehdi Amini ->getZExtValue();
596384ca190SMehdi Amini
597384ca190SMehdi Amini if (auto *TypeId = dyn_cast<MDString>(TypeID))
598384ca190SMehdi Amini Index.getOrInsertTypeIdCompatibleVtableSummary(TypeId->getString())
599384ca190SMehdi Amini .push_back({Offset, Index.getOrInsertValueInfo(&V)});
600384ca190SMehdi Amini }
601384ca190SMehdi Amini }
602384ca190SMehdi Amini
computeVariableSummary(ModuleSummaryIndex & Index,const GlobalVariable & V,DenseSet<GlobalValue::GUID> & CantBePromoted,const Module & M,SmallVectorImpl<MDNode * > & Types)603384ca190SMehdi Amini static void computeVariableSummary(ModuleSummaryIndex &Index,
604384ca190SMehdi Amini const GlobalVariable &V,
605384ca190SMehdi Amini DenseSet<GlobalValue::GUID> &CantBePromoted,
606384ca190SMehdi Amini const Module &M,
607384ca190SMehdi Amini SmallVectorImpl<MDNode *> &Types) {
608384ca190SMehdi Amini SetVector<ValueInfo> RefEdges;
609384ca190SMehdi Amini SmallPtrSet<const User *, 8> Visited;
610384ca190SMehdi Amini bool HasBlockAddress = findRefEdges(Index, &V, RefEdges, Visited);
611384ca190SMehdi Amini bool NonRenamableLocal = isNonRenamableLocal(V);
61254fb3ca9SFangrui Song GlobalValueSummary::GVFlags Flags(
61354fb3ca9SFangrui Song V.getLinkage(), V.getVisibility(), NonRenamableLocal,
614dd29597eSJez Ng /* Live = */ false, V.isDSOLocal(), V.canBeOmittedFromSymbolTable());
615384ca190SMehdi Amini
616384ca190SMehdi Amini VTableFuncList VTableFuncs;
617384ca190SMehdi Amini // If splitting is not enabled, then we compute the summary information
618384ca190SMehdi Amini // necessary for index-based whole program devirtualization.
619384ca190SMehdi Amini if (!Index.enableSplitLTOUnit()) {
620384ca190SMehdi Amini Types.clear();
621384ca190SMehdi Amini V.getMetadata(LLVMContext::MD_type, Types);
622384ca190SMehdi Amini if (!Types.empty()) {
623384ca190SMehdi Amini // Identify the function pointers referenced by this vtable definition.
624384ca190SMehdi Amini computeVTableFuncs(Index, V, M, VTableFuncs);
625384ca190SMehdi Amini
626384ca190SMehdi Amini // Record this vtable definition for each type metadata it references.
627384ca190SMehdi Amini recordTypeIdCompatibleVtableReferences(Index, V, Types);
628384ca190SMehdi Amini }
629384ca190SMehdi Amini }
630384ca190SMehdi Amini
631384ca190SMehdi Amini // Don't mark variables we won't be able to internalize as read/write-only.
632384ca190SMehdi Amini bool CanBeInternalized =
633384ca190SMehdi Amini !V.hasComdat() && !V.hasAppendingLinkage() && !V.isInterposable() &&
634384ca190SMehdi Amini !V.hasAvailableExternallyLinkage() && !V.hasDLLExportStorageClass();
635384ca190SMehdi Amini bool Constant = V.isConstant();
636384ca190SMehdi Amini GlobalVarSummary::GVarFlags VarFlags(CanBeInternalized,
637384ca190SMehdi Amini Constant ? false : CanBeInternalized,
638384ca190SMehdi Amini Constant, V.getVCallVisibility());
639384ca190SMehdi Amini auto GVarSummary = std::make_unique<GlobalVarSummary>(Flags, VarFlags,
640384ca190SMehdi Amini RefEdges.takeVector());
641384ca190SMehdi Amini if (NonRenamableLocal)
642384ca190SMehdi Amini CantBePromoted.insert(V.getGUID());
643384ca190SMehdi Amini if (HasBlockAddress)
644384ca190SMehdi Amini GVarSummary->setNotEligibleToImport();
645384ca190SMehdi Amini if (!VTableFuncs.empty())
646384ca190SMehdi Amini GVarSummary->setVTableFuncs(VTableFuncs);
647384ca190SMehdi Amini Index.addGlobalValueSummary(V, std::move(GVarSummary));
648384ca190SMehdi Amini }
649384ca190SMehdi Amini
computeAliasSummary(ModuleSummaryIndex & Index,const GlobalAlias & A,DenseSet<GlobalValue::GUID> & CantBePromoted)65030402720SSchrodinger ZHU Yifan static void computeAliasSummary(ModuleSummaryIndex &Index, const GlobalAlias &A,
651384ca190SMehdi Amini DenseSet<GlobalValue::GUID> &CantBePromoted) {
65230402720SSchrodinger ZHU Yifan // Skip summary for indirect function aliases as summary for aliasee will not
65330402720SSchrodinger ZHU Yifan // be emitted.
65430402720SSchrodinger ZHU Yifan const GlobalObject *Aliasee = A.getAliaseeObject();
65530402720SSchrodinger ZHU Yifan if (isa<GlobalIFunc>(Aliasee))
65630402720SSchrodinger ZHU Yifan return;
657384ca190SMehdi Amini bool NonRenamableLocal = isNonRenamableLocal(A);
65854fb3ca9SFangrui Song GlobalValueSummary::GVFlags Flags(
65954fb3ca9SFangrui Song A.getLinkage(), A.getVisibility(), NonRenamableLocal,
660dd29597eSJez Ng /* Live = */ false, A.isDSOLocal(), A.canBeOmittedFromSymbolTable());
661384ca190SMehdi Amini auto AS = std::make_unique<AliasSummary>(Flags);
662384ca190SMehdi Amini auto AliaseeVI = Index.getValueInfo(Aliasee->getGUID());
663384ca190SMehdi Amini assert(AliaseeVI && "Alias expects aliasee summary to be available");
664384ca190SMehdi Amini assert(AliaseeVI.getSummaryList().size() == 1 &&
665384ca190SMehdi Amini "Expected a single entry per aliasee in per-module index");
666384ca190SMehdi Amini AS->setAliasee(AliaseeVI, AliaseeVI.getSummaryList()[0].get());
667384ca190SMehdi Amini if (NonRenamableLocal)
668384ca190SMehdi Amini CantBePromoted.insert(A.getGUID());
669384ca190SMehdi Amini Index.addGlobalValueSummary(A, std::move(AS));
670384ca190SMehdi Amini }
671384ca190SMehdi Amini
672384ca190SMehdi Amini // Set LiveRoot flag on entries matching the given value name.
setLiveRoot(ModuleSummaryIndex & Index,StringRef Name)673384ca190SMehdi Amini static void setLiveRoot(ModuleSummaryIndex &Index, StringRef Name) {
674384ca190SMehdi Amini if (ValueInfo VI = Index.getValueInfo(GlobalValue::getGUID(Name)))
675601b3a13SKazu Hirata for (const auto &Summary : VI.getSummaryList())
676384ca190SMehdi Amini Summary->setLive(true);
677384ca190SMehdi Amini }
678384ca190SMehdi Amini
buildModuleSummaryIndex(const Module & M,std::function<BlockFrequencyInfo * (const Function & F)> GetBFICallback,ProfileSummaryInfo * PSI,std::function<const StackSafetyInfo * (const Function & F)> GetSSICallback)679384ca190SMehdi Amini ModuleSummaryIndex llvm::buildModuleSummaryIndex(
680384ca190SMehdi Amini const Module &M,
681384ca190SMehdi Amini std::function<BlockFrequencyInfo *(const Function &F)> GetBFICallback,
6824666953cSVitaly Buka ProfileSummaryInfo *PSI,
6834666953cSVitaly Buka std::function<const StackSafetyInfo *(const Function &F)> GetSSICallback) {
684384ca190SMehdi Amini assert(PSI);
685384ca190SMehdi Amini bool EnableSplitLTOUnit = false;
686384ca190SMehdi Amini if (auto *MD = mdconst::extract_or_null<ConstantInt>(
687384ca190SMehdi Amini M.getModuleFlag("EnableSplitLTOUnit")))
688384ca190SMehdi Amini EnableSplitLTOUnit = MD->getZExtValue();
689384ca190SMehdi Amini ModuleSummaryIndex Index(/*HaveGVs=*/true, EnableSplitLTOUnit);
690384ca190SMehdi Amini
691384ca190SMehdi Amini // Identify the local values in the llvm.used and llvm.compiler.used sets,
692384ca190SMehdi Amini // which should not be exported as they would then require renaming and
693384ca190SMehdi Amini // promotion, but we may have opaque uses e.g. in inline asm. We collect them
694384ca190SMehdi Amini // here because we use this information to mark functions containing inline
695384ca190SMehdi Amini // assembly calls as not importable.
696ef312951SFangrui Song SmallPtrSet<GlobalValue *, 4> LocalsUsed;
697ef312951SFangrui Song SmallVector<GlobalValue *, 4> Used;
698384ca190SMehdi Amini // First collect those in the llvm.used set.
699ef312951SFangrui Song collectUsedGlobalVariables(M, Used, /*CompilerUsed=*/false);
700384ca190SMehdi Amini // Next collect those in the llvm.compiler.used set.
701ef312951SFangrui Song collectUsedGlobalVariables(M, Used, /*CompilerUsed=*/true);
702384ca190SMehdi Amini DenseSet<GlobalValue::GUID> CantBePromoted;
703384ca190SMehdi Amini for (auto *V : Used) {
704384ca190SMehdi Amini if (V->hasLocalLinkage()) {
705384ca190SMehdi Amini LocalsUsed.insert(V);
706384ca190SMehdi Amini CantBePromoted.insert(V->getGUID());
707384ca190SMehdi Amini }
708384ca190SMehdi Amini }
709384ca190SMehdi Amini
710384ca190SMehdi Amini bool HasLocalInlineAsmSymbol = false;
711384ca190SMehdi Amini if (!M.getModuleInlineAsm().empty()) {
712384ca190SMehdi Amini // Collect the local values defined by module level asm, and set up
713384ca190SMehdi Amini // summaries for these symbols so that they can be marked as NoRename,
714384ca190SMehdi Amini // to prevent export of any use of them in regular IR that would require
715384ca190SMehdi Amini // renaming within the module level asm. Note we don't need to create a
716384ca190SMehdi Amini // summary for weak or global defs, as they don't need to be flagged as
717384ca190SMehdi Amini // NoRename, and defs in module level asm can't be imported anyway.
718384ca190SMehdi Amini // Also, any values used but not defined within module level asm should
719384ca190SMehdi Amini // be listed on the llvm.used or llvm.compiler.used global and marked as
720384ca190SMehdi Amini // referenced from there.
721384ca190SMehdi Amini ModuleSymbolTable::CollectAsmSymbols(
722384ca190SMehdi Amini M, [&](StringRef Name, object::BasicSymbolRef::Flags Flags) {
723384ca190SMehdi Amini // Symbols not marked as Weak or Global are local definitions.
724384ca190SMehdi Amini if (Flags & (object::BasicSymbolRef::SF_Weak |
725384ca190SMehdi Amini object::BasicSymbolRef::SF_Global))
726384ca190SMehdi Amini return;
727384ca190SMehdi Amini HasLocalInlineAsmSymbol = true;
728384ca190SMehdi Amini GlobalValue *GV = M.getNamedValue(Name);
729384ca190SMehdi Amini if (!GV)
730384ca190SMehdi Amini return;
731384ca190SMehdi Amini assert(GV->isDeclaration() && "Def in module asm already has definition");
73254fb3ca9SFangrui Song GlobalValueSummary::GVFlags GVFlags(
73354fb3ca9SFangrui Song GlobalValue::InternalLinkage, GlobalValue::DefaultVisibility,
734384ca190SMehdi Amini /* NotEligibleToImport = */ true,
735384ca190SMehdi Amini /* Live = */ true,
736dd29597eSJez Ng /* Local */ GV->isDSOLocal(), GV->canBeOmittedFromSymbolTable());
737384ca190SMehdi Amini CantBePromoted.insert(GV->getGUID());
738384ca190SMehdi Amini // Create the appropriate summary type.
739384ca190SMehdi Amini if (Function *F = dyn_cast<Function>(GV)) {
740384ca190SMehdi Amini std::unique_ptr<FunctionSummary> Summary =
741384ca190SMehdi Amini std::make_unique<FunctionSummary>(
742384ca190SMehdi Amini GVFlags, /*InstCount=*/0,
743384ca190SMehdi Amini FunctionSummary::FFlags{
744384ca190SMehdi Amini F->hasFnAttribute(Attribute::ReadNone),
745384ca190SMehdi Amini F->hasFnAttribute(Attribute::ReadOnly),
746384ca190SMehdi Amini F->hasFnAttribute(Attribute::NoRecurse),
747384ca190SMehdi Amini F->returnDoesNotAlias(),
748384ca190SMehdi Amini /* NoInline = */ false,
74920faf789Smodimo F->hasFnAttribute(Attribute::AlwaysInline),
75020faf789Smodimo F->hasFnAttribute(Attribute::NoUnwind),
75120faf789Smodimo /* MayThrow */ true,
75209a704c5SMingming Liu /* HasUnknownCall */ true,
75309a704c5SMingming Liu /* MustBeUnreachable */ false},
754384ca190SMehdi Amini /*EntryCount=*/0, ArrayRef<ValueInfo>{},
755384ca190SMehdi Amini ArrayRef<FunctionSummary::EdgeTy>{},
756384ca190SMehdi Amini ArrayRef<GlobalValue::GUID>{},
757384ca190SMehdi Amini ArrayRef<FunctionSummary::VFuncId>{},
758384ca190SMehdi Amini ArrayRef<FunctionSummary::VFuncId>{},
759384ca190SMehdi Amini ArrayRef<FunctionSummary::ConstVCall>{},
7604666953cSVitaly Buka ArrayRef<FunctionSummary::ConstVCall>{},
7614666953cSVitaly Buka ArrayRef<FunctionSummary::ParamAccess>{});
762384ca190SMehdi Amini Index.addGlobalValueSummary(*GV, std::move(Summary));
763384ca190SMehdi Amini } else {
764384ca190SMehdi Amini std::unique_ptr<GlobalVarSummary> Summary =
765384ca190SMehdi Amini std::make_unique<GlobalVarSummary>(
766384ca190SMehdi Amini GVFlags,
767384ca190SMehdi Amini GlobalVarSummary::GVarFlags(
768384ca190SMehdi Amini false, false, cast<GlobalVariable>(GV)->isConstant(),
769384ca190SMehdi Amini GlobalObject::VCallVisibilityPublic),
770384ca190SMehdi Amini ArrayRef<ValueInfo>{});
771384ca190SMehdi Amini Index.addGlobalValueSummary(*GV, std::move(Summary));
772384ca190SMehdi Amini }
773384ca190SMehdi Amini });
774384ca190SMehdi Amini }
775384ca190SMehdi Amini
776384ca190SMehdi Amini bool IsThinLTO = true;
777384ca190SMehdi Amini if (auto *MD =
778384ca190SMehdi Amini mdconst::extract_or_null<ConstantInt>(M.getModuleFlag("ThinLTO")))
779384ca190SMehdi Amini IsThinLTO = MD->getZExtValue();
780384ca190SMehdi Amini
781384ca190SMehdi Amini // Compute summaries for all functions defined in module, and save in the
782384ca190SMehdi Amini // index.
783601b3a13SKazu Hirata for (const auto &F : M) {
784384ca190SMehdi Amini if (F.isDeclaration())
785384ca190SMehdi Amini continue;
786384ca190SMehdi Amini
787384ca190SMehdi Amini DominatorTree DT(const_cast<Function &>(F));
788384ca190SMehdi Amini BlockFrequencyInfo *BFI = nullptr;
789384ca190SMehdi Amini std::unique_ptr<BlockFrequencyInfo> BFIPtr;
790384ca190SMehdi Amini if (GetBFICallback)
791384ca190SMehdi Amini BFI = GetBFICallback(F);
792384ca190SMehdi Amini else if (F.hasProfileData()) {
793384ca190SMehdi Amini LoopInfo LI{DT};
794384ca190SMehdi Amini BranchProbabilityInfo BPI{F, LI};
795384ca190SMehdi Amini BFIPtr = std::make_unique<BlockFrequencyInfo>(F, BPI, LI);
796384ca190SMehdi Amini BFI = BFIPtr.get();
797384ca190SMehdi Amini }
798384ca190SMehdi Amini
799384ca190SMehdi Amini computeFunctionSummary(Index, M, F, BFI, PSI, DT,
800384ca190SMehdi Amini !LocalsUsed.empty() || HasLocalInlineAsmSymbol,
8014666953cSVitaly Buka CantBePromoted, IsThinLTO, GetSSICallback);
802384ca190SMehdi Amini }
803384ca190SMehdi Amini
804384ca190SMehdi Amini // Compute summaries for all variables defined in module, and save in the
805384ca190SMehdi Amini // index.
806384ca190SMehdi Amini SmallVector<MDNode *, 2> Types;
807384ca190SMehdi Amini for (const GlobalVariable &G : M.globals()) {
808384ca190SMehdi Amini if (G.isDeclaration())
809384ca190SMehdi Amini continue;
810384ca190SMehdi Amini computeVariableSummary(Index, G, CantBePromoted, M, Types);
811384ca190SMehdi Amini }
812384ca190SMehdi Amini
813384ca190SMehdi Amini // Compute summaries for all aliases defined in module, and save in the
814384ca190SMehdi Amini // index.
815384ca190SMehdi Amini for (const GlobalAlias &A : M.aliases())
816384ca190SMehdi Amini computeAliasSummary(Index, A, CantBePromoted);
817384ca190SMehdi Amini
81830402720SSchrodinger ZHU Yifan // Iterate through ifuncs, set their resolvers all alive.
81930402720SSchrodinger ZHU Yifan for (const GlobalIFunc &I : M.ifuncs()) {
82030402720SSchrodinger ZHU Yifan I.applyAlongResolverPath([&Index](const GlobalValue &GV) {
82130402720SSchrodinger ZHU Yifan Index.getGlobalValueSummary(GV)->setLive(true);
82230402720SSchrodinger ZHU Yifan });
82330402720SSchrodinger ZHU Yifan }
82430402720SSchrodinger ZHU Yifan
825384ca190SMehdi Amini for (auto *V : LocalsUsed) {
826384ca190SMehdi Amini auto *Summary = Index.getGlobalValueSummary(*V);
827384ca190SMehdi Amini assert(Summary && "Missing summary for global value");
828384ca190SMehdi Amini Summary->setNotEligibleToImport();
829384ca190SMehdi Amini }
830384ca190SMehdi Amini
831384ca190SMehdi Amini // The linker doesn't know about these LLVM produced values, so we need
832384ca190SMehdi Amini // to flag them as live in the index to ensure index-based dead value
833384ca190SMehdi Amini // analysis treats them as live roots of the analysis.
834384ca190SMehdi Amini setLiveRoot(Index, "llvm.used");
835384ca190SMehdi Amini setLiveRoot(Index, "llvm.compiler.used");
836384ca190SMehdi Amini setLiveRoot(Index, "llvm.global_ctors");
837384ca190SMehdi Amini setLiveRoot(Index, "llvm.global_dtors");
838384ca190SMehdi Amini setLiveRoot(Index, "llvm.global.annotations");
839384ca190SMehdi Amini
840384ca190SMehdi Amini for (auto &GlobalList : Index) {
841384ca190SMehdi Amini // Ignore entries for references that are undefined in the current module.
842384ca190SMehdi Amini if (GlobalList.second.SummaryList.empty())
843384ca190SMehdi Amini continue;
844384ca190SMehdi Amini
845384ca190SMehdi Amini assert(GlobalList.second.SummaryList.size() == 1 &&
846384ca190SMehdi Amini "Expected module's index to have one summary per GUID");
847384ca190SMehdi Amini auto &Summary = GlobalList.second.SummaryList[0];
848384ca190SMehdi Amini if (!IsThinLTO) {
849384ca190SMehdi Amini Summary->setNotEligibleToImport();
850384ca190SMehdi Amini continue;
851384ca190SMehdi Amini }
852384ca190SMehdi Amini
853384ca190SMehdi Amini bool AllRefsCanBeExternallyReferenced =
854384ca190SMehdi Amini llvm::all_of(Summary->refs(), [&](const ValueInfo &VI) {
855384ca190SMehdi Amini return !CantBePromoted.count(VI.getGUID());
856384ca190SMehdi Amini });
857384ca190SMehdi Amini if (!AllRefsCanBeExternallyReferenced) {
858384ca190SMehdi Amini Summary->setNotEligibleToImport();
859384ca190SMehdi Amini continue;
860384ca190SMehdi Amini }
861384ca190SMehdi Amini
862384ca190SMehdi Amini if (auto *FuncSummary = dyn_cast<FunctionSummary>(Summary.get())) {
863384ca190SMehdi Amini bool AllCallsCanBeExternallyReferenced = llvm::all_of(
864384ca190SMehdi Amini FuncSummary->calls(), [&](const FunctionSummary::EdgeTy &Edge) {
865384ca190SMehdi Amini return !CantBePromoted.count(Edge.first.getGUID());
866384ca190SMehdi Amini });
867384ca190SMehdi Amini if (!AllCallsCanBeExternallyReferenced)
868384ca190SMehdi Amini Summary->setNotEligibleToImport();
869384ca190SMehdi Amini }
870384ca190SMehdi Amini }
871384ca190SMehdi Amini
872384ca190SMehdi Amini if (!ModuleSummaryDotFile.empty()) {
873384ca190SMehdi Amini std::error_code EC;
874384ca190SMehdi Amini raw_fd_ostream OSDot(ModuleSummaryDotFile, EC, sys::fs::OpenFlags::OF_None);
875384ca190SMehdi Amini if (EC)
876384ca190SMehdi Amini report_fatal_error(Twine("Failed to open dot file ") +
877384ca190SMehdi Amini ModuleSummaryDotFile + ": " + EC.message() + "\n");
878384ca190SMehdi Amini Index.exportToDot(OSDot, {});
879384ca190SMehdi Amini }
880384ca190SMehdi Amini
881384ca190SMehdi Amini return Index;
882384ca190SMehdi Amini }
883384ca190SMehdi Amini
884384ca190SMehdi Amini AnalysisKey ModuleSummaryIndexAnalysis::Key;
885384ca190SMehdi Amini
886384ca190SMehdi Amini ModuleSummaryIndex
run(Module & M,ModuleAnalysisManager & AM)887384ca190SMehdi Amini ModuleSummaryIndexAnalysis::run(Module &M, ModuleAnalysisManager &AM) {
888384ca190SMehdi Amini ProfileSummaryInfo &PSI = AM.getResult<ProfileSummaryAnalysis>(M);
889384ca190SMehdi Amini auto &FAM = AM.getResult<FunctionAnalysisManagerModuleProxy>(M).getManager();
8904666953cSVitaly Buka bool NeedSSI = needsParamAccessSummary(M);
891384ca190SMehdi Amini return buildModuleSummaryIndex(
892384ca190SMehdi Amini M,
893384ca190SMehdi Amini [&FAM](const Function &F) {
894384ca190SMehdi Amini return &FAM.getResult<BlockFrequencyAnalysis>(
895384ca190SMehdi Amini *const_cast<Function *>(&F));
896384ca190SMehdi Amini },
8974666953cSVitaly Buka &PSI,
8984666953cSVitaly Buka [&FAM, NeedSSI](const Function &F) -> const StackSafetyInfo * {
8994666953cSVitaly Buka return NeedSSI ? &FAM.getResult<StackSafetyAnalysis>(
9004666953cSVitaly Buka const_cast<Function &>(F))
9014666953cSVitaly Buka : nullptr;
9024666953cSVitaly Buka });
903384ca190SMehdi Amini }
904384ca190SMehdi Amini
905384ca190SMehdi Amini char ModuleSummaryIndexWrapperPass::ID = 0;
906384ca190SMehdi Amini
907384ca190SMehdi Amini INITIALIZE_PASS_BEGIN(ModuleSummaryIndexWrapperPass, "module-summary-analysis",
908384ca190SMehdi Amini "Module Summary Analysis", false, true)
INITIALIZE_PASS_DEPENDENCY(BlockFrequencyInfoWrapperPass)909384ca190SMehdi Amini INITIALIZE_PASS_DEPENDENCY(BlockFrequencyInfoWrapperPass)
910384ca190SMehdi Amini INITIALIZE_PASS_DEPENDENCY(ProfileSummaryInfoWrapperPass)
9114666953cSVitaly Buka INITIALIZE_PASS_DEPENDENCY(StackSafetyInfoWrapperPass)
912384ca190SMehdi Amini INITIALIZE_PASS_END(ModuleSummaryIndexWrapperPass, "module-summary-analysis",
913384ca190SMehdi Amini "Module Summary Analysis", false, true)
914384ca190SMehdi Amini
915384ca190SMehdi Amini ModulePass *llvm::createModuleSummaryIndexWrapperPass() {
916384ca190SMehdi Amini return new ModuleSummaryIndexWrapperPass();
917384ca190SMehdi Amini }
918384ca190SMehdi Amini
ModuleSummaryIndexWrapperPass()919384ca190SMehdi Amini ModuleSummaryIndexWrapperPass::ModuleSummaryIndexWrapperPass()
920384ca190SMehdi Amini : ModulePass(ID) {
921384ca190SMehdi Amini initializeModuleSummaryIndexWrapperPassPass(*PassRegistry::getPassRegistry());
922384ca190SMehdi Amini }
923384ca190SMehdi Amini
runOnModule(Module & M)924384ca190SMehdi Amini bool ModuleSummaryIndexWrapperPass::runOnModule(Module &M) {
925384ca190SMehdi Amini auto *PSI = &getAnalysis<ProfileSummaryInfoWrapperPass>().getPSI();
9264666953cSVitaly Buka bool NeedSSI = needsParamAccessSummary(M);
927384ca190SMehdi Amini Index.emplace(buildModuleSummaryIndex(
928384ca190SMehdi Amini M,
929384ca190SMehdi Amini [this](const Function &F) {
930384ca190SMehdi Amini return &(this->getAnalysis<BlockFrequencyInfoWrapperPass>(
931384ca190SMehdi Amini *const_cast<Function *>(&F))
932384ca190SMehdi Amini .getBFI());
933384ca190SMehdi Amini },
9344666953cSVitaly Buka PSI,
9354666953cSVitaly Buka [&](const Function &F) -> const StackSafetyInfo * {
9364666953cSVitaly Buka return NeedSSI ? &getAnalysis<StackSafetyInfoWrapperPass>(
9374666953cSVitaly Buka const_cast<Function &>(F))
9384666953cSVitaly Buka .getResult()
9394666953cSVitaly Buka : nullptr;
9404666953cSVitaly Buka }));
941384ca190SMehdi Amini return false;
942384ca190SMehdi Amini }
943384ca190SMehdi Amini
doFinalization(Module & M)944384ca190SMehdi Amini bool ModuleSummaryIndexWrapperPass::doFinalization(Module &M) {
945384ca190SMehdi Amini Index.reset();
946384ca190SMehdi Amini return false;
947384ca190SMehdi Amini }
948384ca190SMehdi Amini
getAnalysisUsage(AnalysisUsage & AU) const949384ca190SMehdi Amini void ModuleSummaryIndexWrapperPass::getAnalysisUsage(AnalysisUsage &AU) const {
950384ca190SMehdi Amini AU.setPreservesAll();
951384ca190SMehdi Amini AU.addRequired<BlockFrequencyInfoWrapperPass>();
952384ca190SMehdi Amini AU.addRequired<ProfileSummaryInfoWrapperPass>();
9534666953cSVitaly Buka AU.addRequired<StackSafetyInfoWrapperPass>();
954384ca190SMehdi Amini }
9555b1c70a4SVitaly Buka
9565b1c70a4SVitaly Buka char ImmutableModuleSummaryIndexWrapperPass::ID = 0;
9575b1c70a4SVitaly Buka
ImmutableModuleSummaryIndexWrapperPass(const ModuleSummaryIndex * Index)9585b1c70a4SVitaly Buka ImmutableModuleSummaryIndexWrapperPass::ImmutableModuleSummaryIndexWrapperPass(
9595b1c70a4SVitaly Buka const ModuleSummaryIndex *Index)
9605b1c70a4SVitaly Buka : ImmutablePass(ID), Index(Index) {
9615b1c70a4SVitaly Buka initializeImmutableModuleSummaryIndexWrapperPassPass(
9625b1c70a4SVitaly Buka *PassRegistry::getPassRegistry());
9635b1c70a4SVitaly Buka }
9645b1c70a4SVitaly Buka
getAnalysisUsage(AnalysisUsage & AU) const9655b1c70a4SVitaly Buka void ImmutableModuleSummaryIndexWrapperPass::getAnalysisUsage(
9665b1c70a4SVitaly Buka AnalysisUsage &AU) const {
9675b1c70a4SVitaly Buka AU.setPreservesAll();
9685b1c70a4SVitaly Buka }
9695b1c70a4SVitaly Buka
createImmutableModuleSummaryIndexWrapperPass(const ModuleSummaryIndex * Index)9705b1c70a4SVitaly Buka ImmutablePass *llvm::createImmutableModuleSummaryIndexWrapperPass(
9715b1c70a4SVitaly Buka const ModuleSummaryIndex *Index) {
9725b1c70a4SVitaly Buka return new ImmutableModuleSummaryIndexWrapperPass(Index);
9735b1c70a4SVitaly Buka }
9745b1c70a4SVitaly Buka
9755b1c70a4SVitaly Buka INITIALIZE_PASS(ImmutableModuleSummaryIndexWrapperPass, "module-summary-info",
9765b1c70a4SVitaly Buka "Module summary info", false, true)
977