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e3e43d9d57
I did this a long time ago with a janky python script, but now clang-format has built-in support for this. I fed clang-format every line with a #include and let it re-sort things according to the precise LLVM rules for include ordering baked into clang-format these days. I've reverted a number of files where the results of sorting includes isn't healthy. Either places where we have legacy code relying on particular include ordering (where possible, I'll fix these separately) or where we have particular formatting around #include lines that I didn't want to disturb in this patch. This patch is *entirely* mechanical. If you get merge conflicts or anything, just ignore the changes in this patch and run clang-format over your #include lines in the files. Sorry for any noise here, but it is important to keep these things stable. I was seeing an increasing number of patches with irrelevant re-ordering of #include lines because clang-format was used. This patch at least isolates that churn, makes it easy to skip when resolving conflicts, and gets us to a clean baseline (again). git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@304787 91177308-0d34-0410-b5e6-96231b3b80d8
335 lines
11 KiB
C++
335 lines
11 KiB
C++
//===- LexicalScopes.cpp - Collecting lexical scope info ------------------===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// This file implements LexicalScopes analysis.
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//
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// This pass collects lexical scope information and maps machine instructions
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// to respective lexical scopes.
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/CodeGen/LexicalScopes.h"
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#include "llvm/ADT/DenseMap.h"
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#include "llvm/ADT/SmallVector.h"
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#include "llvm/CodeGen/MachineBasicBlock.h"
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#include "llvm/CodeGen/MachineFunction.h"
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#include "llvm/CodeGen/MachineInstr.h"
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#include "llvm/IR/DebugInfoMetadata.h"
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#include "llvm/IR/Metadata.h"
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#include "llvm/Support/Casting.h"
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#include "llvm/Support/Compiler.h"
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#include "llvm/Support/Debug.h"
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#include "llvm/Support/raw_ostream.h"
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#include <cassert>
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#include <string>
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#include <tuple>
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#include <utility>
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using namespace llvm;
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#define DEBUG_TYPE "lexicalscopes"
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/// reset - Reset the instance so that it's prepared for another function.
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void LexicalScopes::reset() {
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MF = nullptr;
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CurrentFnLexicalScope = nullptr;
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LexicalScopeMap.clear();
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AbstractScopeMap.clear();
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InlinedLexicalScopeMap.clear();
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AbstractScopesList.clear();
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}
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/// initialize - Scan machine function and constuct lexical scope nest.
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void LexicalScopes::initialize(const MachineFunction &Fn) {
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// Don't attempt any lexical scope creation for a NoDebug compile unit.
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if (Fn.getFunction()->getSubprogram()->getUnit()->getEmissionKind() ==
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DICompileUnit::NoDebug)
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return;
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reset();
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MF = &Fn;
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SmallVector<InsnRange, 4> MIRanges;
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DenseMap<const MachineInstr *, LexicalScope *> MI2ScopeMap;
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extractLexicalScopes(MIRanges, MI2ScopeMap);
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if (CurrentFnLexicalScope) {
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constructScopeNest(CurrentFnLexicalScope);
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assignInstructionRanges(MIRanges, MI2ScopeMap);
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}
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}
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/// extractLexicalScopes - Extract instruction ranges for each lexical scopes
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/// for the given machine function.
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void LexicalScopes::extractLexicalScopes(
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SmallVectorImpl<InsnRange> &MIRanges,
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DenseMap<const MachineInstr *, LexicalScope *> &MI2ScopeMap) {
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// Scan each instruction and create scopes. First build working set of scopes.
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for (const auto &MBB : *MF) {
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const MachineInstr *RangeBeginMI = nullptr;
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const MachineInstr *PrevMI = nullptr;
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const DILocation *PrevDL = nullptr;
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for (const auto &MInsn : MBB) {
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// Check if instruction has valid location information.
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const DILocation *MIDL = MInsn.getDebugLoc();
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if (!MIDL) {
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PrevMI = &MInsn;
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continue;
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}
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// If scope has not changed then skip this instruction.
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if (MIDL == PrevDL) {
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PrevMI = &MInsn;
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continue;
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}
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// Ignore DBG_VALUE and similar instruction that do not contribute to any
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// instruction in the output.
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if (MInsn.isMetaInstruction())
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continue;
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if (RangeBeginMI) {
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// If we have already seen a beginning of an instruction range and
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// current instruction scope does not match scope of first instruction
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// in this range then create a new instruction range.
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InsnRange R(RangeBeginMI, PrevMI);
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MI2ScopeMap[RangeBeginMI] = getOrCreateLexicalScope(PrevDL);
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MIRanges.push_back(R);
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}
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// This is a beginning of a new instruction range.
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RangeBeginMI = &MInsn;
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// Reset previous markers.
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PrevMI = &MInsn;
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PrevDL = MIDL;
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}
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// Create last instruction range.
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if (RangeBeginMI && PrevMI && PrevDL) {
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InsnRange R(RangeBeginMI, PrevMI);
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MIRanges.push_back(R);
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MI2ScopeMap[RangeBeginMI] = getOrCreateLexicalScope(PrevDL);
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}
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}
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}
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/// findLexicalScope - Find lexical scope, either regular or inlined, for the
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/// given DebugLoc. Return NULL if not found.
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LexicalScope *LexicalScopes::findLexicalScope(const DILocation *DL) {
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DILocalScope *Scope = DL->getScope();
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if (!Scope)
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return nullptr;
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// The scope that we were created with could have an extra file - which
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// isn't what we care about in this case.
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Scope = Scope->getNonLexicalBlockFileScope();
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if (auto *IA = DL->getInlinedAt()) {
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auto I = InlinedLexicalScopeMap.find(std::make_pair(Scope, IA));
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return I != InlinedLexicalScopeMap.end() ? &I->second : nullptr;
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}
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return findLexicalScope(Scope);
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}
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/// getOrCreateLexicalScope - Find lexical scope for the given DebugLoc. If
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/// not available then create new lexical scope.
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LexicalScope *LexicalScopes::getOrCreateLexicalScope(const DILocalScope *Scope,
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const DILocation *IA) {
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if (IA) {
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// Skip scopes inlined from a NoDebug compile unit.
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if (Scope->getSubprogram()->getUnit()->getEmissionKind() ==
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DICompileUnit::NoDebug)
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return getOrCreateLexicalScope(IA);
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// Create an abstract scope for inlined function.
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getOrCreateAbstractScope(Scope);
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// Create an inlined scope for inlined function.
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return getOrCreateInlinedScope(Scope, IA);
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}
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return getOrCreateRegularScope(Scope);
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}
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/// getOrCreateRegularScope - Find or create a regular lexical scope.
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LexicalScope *
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LexicalScopes::getOrCreateRegularScope(const DILocalScope *Scope) {
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assert(Scope && "Invalid Scope encoding!");
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Scope = Scope->getNonLexicalBlockFileScope();
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auto I = LexicalScopeMap.find(Scope);
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if (I != LexicalScopeMap.end())
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return &I->second;
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// FIXME: Should the following dyn_cast be DILexicalBlock?
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LexicalScope *Parent = nullptr;
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if (auto *Block = dyn_cast<DILexicalBlockBase>(Scope))
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Parent = getOrCreateLexicalScope(Block->getScope());
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I = LexicalScopeMap.emplace(std::piecewise_construct,
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std::forward_as_tuple(Scope),
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std::forward_as_tuple(Parent, Scope, nullptr,
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false)).first;
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if (!Parent) {
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assert(cast<DISubprogram>(Scope)->describes(MF->getFunction()));
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assert(!CurrentFnLexicalScope);
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CurrentFnLexicalScope = &I->second;
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}
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return &I->second;
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}
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/// getOrCreateInlinedScope - Find or create an inlined lexical scope.
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LexicalScope *
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LexicalScopes::getOrCreateInlinedScope(const DILocalScope *Scope,
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const DILocation *InlinedAt) {
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assert(Scope && "Invalid Scope encoding!");
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Scope = Scope->getNonLexicalBlockFileScope();
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std::pair<const DILocalScope *, const DILocation *> P(Scope, InlinedAt);
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auto I = InlinedLexicalScopeMap.find(P);
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if (I != InlinedLexicalScopeMap.end())
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return &I->second;
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LexicalScope *Parent;
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if (auto *Block = dyn_cast<DILexicalBlockBase>(Scope))
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Parent = getOrCreateInlinedScope(Block->getScope(), InlinedAt);
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else
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Parent = getOrCreateLexicalScope(InlinedAt);
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I = InlinedLexicalScopeMap
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.emplace(std::piecewise_construct, std::forward_as_tuple(P),
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std::forward_as_tuple(Parent, Scope, InlinedAt, false))
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.first;
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return &I->second;
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}
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/// getOrCreateAbstractScope - Find or create an abstract lexical scope.
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LexicalScope *
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LexicalScopes::getOrCreateAbstractScope(const DILocalScope *Scope) {
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assert(Scope && "Invalid Scope encoding!");
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Scope = Scope->getNonLexicalBlockFileScope();
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auto I = AbstractScopeMap.find(Scope);
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if (I != AbstractScopeMap.end())
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return &I->second;
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// FIXME: Should the following isa be DILexicalBlock?
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LexicalScope *Parent = nullptr;
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if (auto *Block = dyn_cast<DILexicalBlockBase>(Scope))
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Parent = getOrCreateAbstractScope(Block->getScope());
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I = AbstractScopeMap.emplace(std::piecewise_construct,
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std::forward_as_tuple(Scope),
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std::forward_as_tuple(Parent, Scope,
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nullptr, true)).first;
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if (isa<DISubprogram>(Scope))
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AbstractScopesList.push_back(&I->second);
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return &I->second;
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}
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/// constructScopeNest
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void LexicalScopes::constructScopeNest(LexicalScope *Scope) {
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assert(Scope && "Unable to calculate scope dominance graph!");
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SmallVector<LexicalScope *, 4> WorkStack;
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WorkStack.push_back(Scope);
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unsigned Counter = 0;
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while (!WorkStack.empty()) {
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LexicalScope *WS = WorkStack.back();
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const SmallVectorImpl<LexicalScope *> &Children = WS->getChildren();
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bool visitedChildren = false;
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for (auto &ChildScope : Children)
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if (!ChildScope->getDFSOut()) {
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WorkStack.push_back(ChildScope);
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visitedChildren = true;
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ChildScope->setDFSIn(++Counter);
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break;
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}
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if (!visitedChildren) {
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WorkStack.pop_back();
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WS->setDFSOut(++Counter);
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}
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}
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}
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/// assignInstructionRanges - Find ranges of instructions covered by each
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/// lexical scope.
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void LexicalScopes::assignInstructionRanges(
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SmallVectorImpl<InsnRange> &MIRanges,
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DenseMap<const MachineInstr *, LexicalScope *> &MI2ScopeMap) {
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LexicalScope *PrevLexicalScope = nullptr;
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for (const auto &R : MIRanges) {
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LexicalScope *S = MI2ScopeMap.lookup(R.first);
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assert(S && "Lost LexicalScope for a machine instruction!");
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if (PrevLexicalScope && !PrevLexicalScope->dominates(S))
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PrevLexicalScope->closeInsnRange(S);
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S->openInsnRange(R.first);
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S->extendInsnRange(R.second);
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PrevLexicalScope = S;
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}
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if (PrevLexicalScope)
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PrevLexicalScope->closeInsnRange();
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}
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/// getMachineBasicBlocks - Populate given set using machine basic blocks which
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/// have machine instructions that belong to lexical scope identified by
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/// DebugLoc.
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void LexicalScopes::getMachineBasicBlocks(
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const DILocation *DL, SmallPtrSetImpl<const MachineBasicBlock *> &MBBs) {
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MBBs.clear();
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LexicalScope *Scope = getOrCreateLexicalScope(DL);
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if (!Scope)
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return;
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if (Scope == CurrentFnLexicalScope) {
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for (const auto &MBB : *MF)
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MBBs.insert(&MBB);
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return;
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}
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SmallVectorImpl<InsnRange> &InsnRanges = Scope->getRanges();
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for (auto &R : InsnRanges)
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MBBs.insert(R.first->getParent());
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}
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/// dominates - Return true if DebugLoc's lexical scope dominates at least one
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/// machine instruction's lexical scope in a given machine basic block.
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bool LexicalScopes::dominates(const DILocation *DL, MachineBasicBlock *MBB) {
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LexicalScope *Scope = getOrCreateLexicalScope(DL);
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if (!Scope)
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return false;
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// Current function scope covers all basic blocks in the function.
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if (Scope == CurrentFnLexicalScope && MBB->getParent() == MF)
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return true;
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bool Result = false;
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for (auto &I : *MBB) {
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if (const DILocation *IDL = I.getDebugLoc())
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if (LexicalScope *IScope = getOrCreateLexicalScope(IDL))
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if (Scope->dominates(IScope))
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return true;
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}
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return Result;
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}
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#if !defined(NDEBUG) || defined(LLVM_ENABLE_DUMP)
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LLVM_DUMP_METHOD void LexicalScope::dump(unsigned Indent) const {
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raw_ostream &err = dbgs();
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err.indent(Indent);
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err << "DFSIn: " << DFSIn << " DFSOut: " << DFSOut << "\n";
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const MDNode *N = Desc;
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err.indent(Indent);
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N->dump();
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if (AbstractScope)
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err << std::string(Indent, ' ') << "Abstract Scope\n";
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if (!Children.empty())
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err << std::string(Indent + 2, ' ') << "Children ...\n";
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for (unsigned i = 0, e = Children.size(); i != e; ++i)
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if (Children[i] != this)
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Children[i]->dump(Indent + 2);
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}
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#endif
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