forked from OSchip/llvm-project
454 lines
16 KiB
C++
454 lines
16 KiB
C++
//===-- ModuleSummaryIndex.cpp - Module Summary Index ---------------------===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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//
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// This file implements the module index and summary classes for the
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// IR library.
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/IR/ModuleSummaryIndex.h"
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#include "llvm/ADT/SCCIterator.h"
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#include "llvm/ADT/Statistic.h"
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#include "llvm/ADT/StringMap.h"
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#include "llvm/Support/Path.h"
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#include "llvm/Support/raw_ostream.h"
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using namespace llvm;
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#define DEBUG_TYPE "module-summary-index"
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STATISTIC(ReadOnlyLiveGVars,
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"Number of live global variables marked read only");
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FunctionSummary FunctionSummary::ExternalNode =
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FunctionSummary::makeDummyFunctionSummary({});
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bool ValueInfo::isDSOLocal() const {
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// Need to check all summaries are local in case of hash collisions.
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return getSummaryList().size() &&
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llvm::all_of(getSummaryList(),
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[](const std::unique_ptr<GlobalValueSummary> &Summary) {
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return Summary->isDSOLocal();
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});
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}
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// Gets the number of immutable refs in RefEdgeList
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unsigned FunctionSummary::immutableRefCount() const {
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// Here we take advantage of having all readonly references
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// located in the end of the RefEdgeList.
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auto Refs = refs();
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unsigned ImmutableRefCnt = 0;
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for (int I = Refs.size() - 1; I >= 0 && Refs[I].isReadOnly(); --I)
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ImmutableRefCnt++;
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return ImmutableRefCnt;
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}
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// Collect for the given module the list of function it defines
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// (GUID -> Summary).
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void ModuleSummaryIndex::collectDefinedFunctionsForModule(
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StringRef ModulePath, GVSummaryMapTy &GVSummaryMap) const {
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for (auto &GlobalList : *this) {
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auto GUID = GlobalList.first;
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for (auto &GlobSummary : GlobalList.second.SummaryList) {
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auto *Summary = dyn_cast_or_null<FunctionSummary>(GlobSummary.get());
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if (!Summary)
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// Ignore global variable, focus on functions
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continue;
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// Ignore summaries from other modules.
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if (Summary->modulePath() != ModulePath)
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continue;
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GVSummaryMap[GUID] = Summary;
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}
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}
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}
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GlobalValueSummary *
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ModuleSummaryIndex::getGlobalValueSummary(uint64_t ValueGUID,
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bool PerModuleIndex) const {
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auto VI = getValueInfo(ValueGUID);
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assert(VI && "GlobalValue not found in index");
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assert((!PerModuleIndex || VI.getSummaryList().size() == 1) &&
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"Expected a single entry per global value in per-module index");
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auto &Summary = VI.getSummaryList()[0];
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return Summary.get();
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}
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bool ModuleSummaryIndex::isGUIDLive(GlobalValue::GUID GUID) const {
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auto VI = getValueInfo(GUID);
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if (!VI)
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return true;
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const auto &SummaryList = VI.getSummaryList();
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if (SummaryList.empty())
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return true;
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for (auto &I : SummaryList)
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if (isGlobalValueLive(I.get()))
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return true;
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return false;
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}
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static void propagateConstantsToRefs(GlobalValueSummary *S) {
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// If reference is not readonly then referenced summary is not
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// readonly either. Note that:
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// - All references from GlobalVarSummary are conservatively considered as
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// not readonly. Tracking them properly requires more complex analysis
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// then we have now.
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//
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// - AliasSummary objects have no refs at all so this function is a no-op
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// for them.
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for (auto &VI : S->refs()) {
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if (VI.isReadOnly()) {
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// We only mark refs as readonly when computing function summaries on
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// analysis phase.
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assert(isa<FunctionSummary>(S));
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continue;
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}
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for (auto &Ref : VI.getSummaryList())
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// If references to alias is not readonly then aliasee is not readonly
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if (auto *GVS = dyn_cast<GlobalVarSummary>(Ref->getBaseObject()))
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GVS->setReadOnly(false);
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}
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}
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// Do the constant propagation in combined index.
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// The goal of constant propagation is internalization of readonly
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// variables. To determine which variables are readonly and which
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// are not we take following steps:
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// - During analysis we speculatively assign readonly attribute to
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// all variables which can be internalized. When computing function
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// summary we also assign readonly attribute to a reference if
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// function doesn't modify referenced variable.
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//
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// - After computing dead symbols in combined index we do the constant
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// propagation. During this step we clear readonly attribute from
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// all variables which:
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// a. are preserved or can't be imported
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// b. referenced by any global variable initializer
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// c. referenced by a function and reference is not readonly
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//
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// Internalization itself happens in the backend after import is finished
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// See internalizeImmutableGVs.
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void ModuleSummaryIndex::propagateConstants(
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const DenseSet<GlobalValue::GUID> &GUIDPreservedSymbols) {
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for (auto &P : *this)
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for (auto &S : P.second.SummaryList) {
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if (!isGlobalValueLive(S.get()))
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// We don't examine references from dead objects
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continue;
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// Global variable can't be marked read only if it is not eligible
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// to import since we need to ensure that all external references
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// get a local (imported) copy. It also can't be marked read only
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// if it or any alias (since alias points to the same memory) are
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// preserved or notEligibleToImport, since either of those means
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// there could be writes that are not visible (because preserved
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// means it could have external to DSO writes, and notEligibleToImport
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// means it could have writes via inline assembly leading it to be
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// in the @llvm.*used).
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if (auto *GVS = dyn_cast<GlobalVarSummary>(S->getBaseObject()))
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// Here we intentionally pass S.get() not GVS, because S could be
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// an alias.
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if (!canImportGlobalVar(S.get()) || GUIDPreservedSymbols.count(P.first))
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GVS->setReadOnly(false);
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propagateConstantsToRefs(S.get());
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}
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if (llvm::AreStatisticsEnabled())
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for (auto &P : *this)
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if (P.second.SummaryList.size())
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if (auto *GVS = dyn_cast<GlobalVarSummary>(
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P.second.SummaryList[0]->getBaseObject()))
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if (isGlobalValueLive(GVS) && GVS->isReadOnly())
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ReadOnlyLiveGVars++;
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}
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// TODO: write a graphviz dumper for SCCs (see ModuleSummaryIndex::exportToDot)
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// then delete this function and update its tests
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LLVM_DUMP_METHOD
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void ModuleSummaryIndex::dumpSCCs(raw_ostream &O) {
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for (scc_iterator<ModuleSummaryIndex *> I =
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scc_begin<ModuleSummaryIndex *>(this);
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!I.isAtEnd(); ++I) {
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O << "SCC (" << utostr(I->size()) << " node" << (I->size() == 1 ? "" : "s")
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<< ") {\n";
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for (const ValueInfo V : *I) {
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FunctionSummary *F = nullptr;
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if (V.getSummaryList().size())
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F = cast<FunctionSummary>(V.getSummaryList().front().get());
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O << " " << (F == nullptr ? "External" : "") << " " << utostr(V.getGUID())
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<< (I.hasLoop() ? " (has loop)" : "") << "\n";
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}
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O << "}\n";
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}
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}
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namespace {
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struct Attributes {
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void add(const Twine &Name, const Twine &Value,
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const Twine &Comment = Twine());
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void addComment(const Twine &Comment);
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std::string getAsString() const;
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std::vector<std::string> Attrs;
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std::string Comments;
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};
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struct Edge {
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uint64_t SrcMod;
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int Hotness;
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GlobalValue::GUID Src;
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GlobalValue::GUID Dst;
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};
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}
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void Attributes::add(const Twine &Name, const Twine &Value,
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const Twine &Comment) {
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std::string A = Name.str();
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A += "=\"";
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A += Value.str();
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A += "\"";
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Attrs.push_back(A);
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addComment(Comment);
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}
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void Attributes::addComment(const Twine &Comment) {
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if (!Comment.isTriviallyEmpty()) {
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if (Comments.empty())
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Comments = " // ";
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else
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Comments += ", ";
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Comments += Comment.str();
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}
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}
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std::string Attributes::getAsString() const {
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if (Attrs.empty())
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return "";
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std::string Ret = "[";
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for (auto &A : Attrs)
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Ret += A + ",";
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Ret.pop_back();
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Ret += "];";
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Ret += Comments;
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return Ret;
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}
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static std::string linkageToString(GlobalValue::LinkageTypes LT) {
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switch (LT) {
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case GlobalValue::ExternalLinkage:
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return "extern";
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case GlobalValue::AvailableExternallyLinkage:
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return "av_ext";
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case GlobalValue::LinkOnceAnyLinkage:
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return "linkonce";
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case GlobalValue::LinkOnceODRLinkage:
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return "linkonce_odr";
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case GlobalValue::WeakAnyLinkage:
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return "weak";
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case GlobalValue::WeakODRLinkage:
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return "weak_odr";
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case GlobalValue::AppendingLinkage:
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return "appending";
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case GlobalValue::InternalLinkage:
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return "internal";
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case GlobalValue::PrivateLinkage:
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return "private";
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case GlobalValue::ExternalWeakLinkage:
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return "extern_weak";
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case GlobalValue::CommonLinkage:
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return "common";
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}
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return "<unknown>";
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}
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static std::string fflagsToString(FunctionSummary::FFlags F) {
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auto FlagValue = [](unsigned V) { return V ? '1' : '0'; };
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char FlagRep[] = {FlagValue(F.ReadNone), FlagValue(F.ReadOnly),
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FlagValue(F.NoRecurse), FlagValue(F.ReturnDoesNotAlias),
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FlagValue(F.NoInline), 0};
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return FlagRep;
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}
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// Get string representation of function instruction count and flags.
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static std::string getSummaryAttributes(GlobalValueSummary* GVS) {
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auto *FS = dyn_cast_or_null<FunctionSummary>(GVS);
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if (!FS)
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return "";
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return std::string("inst: ") + std::to_string(FS->instCount()) +
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", ffl: " + fflagsToString(FS->fflags());
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}
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static std::string getNodeVisualName(GlobalValue::GUID Id) {
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return std::string("@") + std::to_string(Id);
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}
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static std::string getNodeVisualName(const ValueInfo &VI) {
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return VI.name().empty() ? getNodeVisualName(VI.getGUID()) : VI.name().str();
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}
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static std::string getNodeLabel(const ValueInfo &VI, GlobalValueSummary *GVS) {
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if (isa<AliasSummary>(GVS))
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return getNodeVisualName(VI);
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std::string Attrs = getSummaryAttributes(GVS);
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std::string Label =
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getNodeVisualName(VI) + "|" + linkageToString(GVS->linkage());
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if (!Attrs.empty())
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Label += std::string(" (") + Attrs + ")";
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Label += "}";
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return Label;
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}
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// Write definition of external node, which doesn't have any
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// specific module associated with it. Typically this is function
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// or variable defined in native object or library.
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static void defineExternalNode(raw_ostream &OS, const char *Pfx,
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const ValueInfo &VI, GlobalValue::GUID Id) {
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auto StrId = std::to_string(Id);
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OS << " " << StrId << " [label=\"";
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if (VI) {
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OS << getNodeVisualName(VI);
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} else {
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OS << getNodeVisualName(Id);
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}
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OS << "\"]; // defined externally\n";
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}
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static bool hasReadOnlyFlag(const GlobalValueSummary *S) {
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if (auto *GVS = dyn_cast<GlobalVarSummary>(S))
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return GVS->isReadOnly();
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return false;
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}
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void ModuleSummaryIndex::exportToDot(raw_ostream &OS) const {
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std::vector<Edge> CrossModuleEdges;
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DenseMap<GlobalValue::GUID, std::vector<uint64_t>> NodeMap;
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using GVSOrderedMapTy = std::map<GlobalValue::GUID, GlobalValueSummary *>;
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std::map<StringRef, GVSOrderedMapTy> ModuleToDefinedGVS;
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collectDefinedGVSummariesPerModule(ModuleToDefinedGVS);
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// Get node identifier in form MXXX_<GUID>. The MXXX prefix is required,
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// because we may have multiple linkonce functions summaries.
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auto NodeId = [](uint64_t ModId, GlobalValue::GUID Id) {
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return ModId == (uint64_t)-1 ? std::to_string(Id)
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: std::string("M") + std::to_string(ModId) +
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"_" + std::to_string(Id);
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};
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auto DrawEdge = [&](const char *Pfx, uint64_t SrcMod, GlobalValue::GUID SrcId,
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uint64_t DstMod, GlobalValue::GUID DstId,
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int TypeOrHotness) {
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// 0 - alias
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// 1 - reference
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// 2 - constant reference
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// Other value: (hotness - 3).
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TypeOrHotness += 3;
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static const char *EdgeAttrs[] = {
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" [style=dotted]; // alias",
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" [style=dashed]; // ref",
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" [style=dashed,color=forestgreen]; // const-ref",
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" // call (hotness : Unknown)",
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" [color=blue]; // call (hotness : Cold)",
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" // call (hotness : None)",
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" [color=brown]; // call (hotness : Hot)",
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" [style=bold,color=red]; // call (hotness : Critical)"};
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assert(static_cast<size_t>(TypeOrHotness) <
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sizeof(EdgeAttrs) / sizeof(EdgeAttrs[0]));
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OS << Pfx << NodeId(SrcMod, SrcId) << " -> " << NodeId(DstMod, DstId)
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<< EdgeAttrs[TypeOrHotness] << "\n";
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};
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OS << "digraph Summary {\n";
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for (auto &ModIt : ModuleToDefinedGVS) {
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auto ModId = getModuleId(ModIt.first);
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OS << " // Module: " << ModIt.first << "\n";
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OS << " subgraph cluster_" << std::to_string(ModId) << " {\n";
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OS << " style = filled;\n";
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OS << " color = lightgrey;\n";
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OS << " label = \"" << sys::path::filename(ModIt.first) << "\";\n";
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OS << " node [style=filled,fillcolor=lightblue];\n";
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auto &GVSMap = ModIt.second;
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auto Draw = [&](GlobalValue::GUID IdFrom, GlobalValue::GUID IdTo, int Hotness) {
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if (!GVSMap.count(IdTo)) {
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CrossModuleEdges.push_back({ModId, Hotness, IdFrom, IdTo});
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return;
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}
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DrawEdge(" ", ModId, IdFrom, ModId, IdTo, Hotness);
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};
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for (auto &SummaryIt : GVSMap) {
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NodeMap[SummaryIt.first].push_back(ModId);
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auto Flags = SummaryIt.second->flags();
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Attributes A;
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if (isa<FunctionSummary>(SummaryIt.second)) {
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A.add("shape", "record", "function");
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} else if (isa<AliasSummary>(SummaryIt.second)) {
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A.add("style", "dotted,filled", "alias");
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A.add("shape", "box");
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} else {
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A.add("shape", "Mrecord", "variable");
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if (Flags.Live && hasReadOnlyFlag(SummaryIt.second))
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A.addComment("immutable");
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}
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auto VI = getValueInfo(SummaryIt.first);
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A.add("label", getNodeLabel(VI, SummaryIt.second));
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if (!Flags.Live)
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A.add("fillcolor", "red", "dead");
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else if (Flags.NotEligibleToImport)
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A.add("fillcolor", "yellow", "not eligible to import");
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OS << " " << NodeId(ModId, SummaryIt.first) << " " << A.getAsString()
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<< "\n";
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}
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OS << " // Edges:\n";
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for (auto &SummaryIt : GVSMap) {
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auto *GVS = SummaryIt.second;
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for (auto &R : GVS->refs())
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Draw(SummaryIt.first, R.getGUID(), R.isReadOnly() ? -1 : -2);
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if (auto *AS = dyn_cast_or_null<AliasSummary>(SummaryIt.second)) {
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Draw(SummaryIt.first, AS->getAliaseeGUID(), -3);
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continue;
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}
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if (auto *FS = dyn_cast_or_null<FunctionSummary>(SummaryIt.second))
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for (auto &CGEdge : FS->calls())
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Draw(SummaryIt.first, CGEdge.first.getGUID(),
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static_cast<int>(CGEdge.second.Hotness));
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}
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OS << " }\n";
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}
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OS << " // Cross-module edges:\n";
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for (auto &E : CrossModuleEdges) {
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auto &ModList = NodeMap[E.Dst];
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if (ModList.empty()) {
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defineExternalNode(OS, " ", getValueInfo(E.Dst), E.Dst);
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// Add fake module to the list to draw an edge to an external node
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// in the loop below.
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ModList.push_back(-1);
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}
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for (auto DstMod : ModList)
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// The edge representing call or ref is drawn to every module where target
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// symbol is defined. When target is a linkonce symbol there can be
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// multiple edges representing a single call or ref, both intra-module and
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// cross-module. As we've already drawn all intra-module edges before we
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// skip it here.
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if (DstMod != E.SrcMod)
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DrawEdge(" ", E.SrcMod, E.Src, DstMod, E.Dst, E.Hotness);
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}
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OS << "}";
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}
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