forked from OSchip/llvm-project
594 lines
18 KiB
C++
594 lines
18 KiB
C++
//===-- CGException.h - Classes for exceptions IR generation ----*- C++ -*-===//
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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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// These classes support the generation of LLVM IR for exceptions in
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// C++ and Objective C.
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//
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//===----------------------------------------------------------------------===//
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#ifndef CLANG_CODEGEN_CGEXCEPTION_H
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#define CLANG_CODEGEN_CGEXCEPTION_H
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/// EHScopeStack is defined in CodeGenFunction.h, but its
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/// implementation is in this file and in CGException.cpp.
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#include "CodeGenFunction.h"
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namespace llvm {
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class Value;
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class BasicBlock;
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}
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namespace clang {
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namespace CodeGen {
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/// The exceptions personality for a function. When
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class EHPersonality {
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const char *PersonalityFn;
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// If this is non-null, this personality requires a non-standard
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// function for rethrowing an exception after a catchall cleanup.
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// This function must have prototype void(void*).
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const char *CatchallRethrowFn;
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EHPersonality(const char *PersonalityFn,
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const char *CatchallRethrowFn = 0)
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: PersonalityFn(PersonalityFn),
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CatchallRethrowFn(CatchallRethrowFn) {}
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public:
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static const EHPersonality &get(const LangOptions &Lang);
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static const EHPersonality GNU_C;
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static const EHPersonality GNU_ObjC;
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static const EHPersonality NeXT_ObjC;
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static const EHPersonality GNU_CPlusPlus;
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static const EHPersonality GNU_CPlusPlus_SJLJ;
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const char *getPersonalityFnName() const { return PersonalityFn; }
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const char *getCatchallRethrowFnName() const { return CatchallRethrowFn; }
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};
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/// A protected scope for zero-cost EH handling.
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class EHScope {
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llvm::BasicBlock *CachedLandingPad;
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unsigned K : 2;
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protected:
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enum { BitsRemaining = 30 };
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public:
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enum Kind { Cleanup, Catch, Terminate, Filter };
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EHScope(Kind K) : CachedLandingPad(0), K(K) {}
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Kind getKind() const { return static_cast<Kind>(K); }
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llvm::BasicBlock *getCachedLandingPad() const {
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return CachedLandingPad;
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}
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void setCachedLandingPad(llvm::BasicBlock *Block) {
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CachedLandingPad = Block;
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}
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};
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/// A scope which attempts to handle some, possibly all, types of
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/// exceptions.
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///
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/// Objective C @finally blocks are represented using a cleanup scope
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/// after the catch scope.
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class EHCatchScope : public EHScope {
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unsigned NumHandlers : BitsRemaining;
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// In effect, we have a flexible array member
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// Handler Handlers[0];
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// But that's only standard in C99, not C++, so we have to do
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// annoying pointer arithmetic instead.
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public:
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struct Handler {
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/// A type info value, or null (C++ null, not an LLVM null pointer)
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/// for a catch-all.
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llvm::Value *Type;
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/// The catch handler for this type.
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llvm::BasicBlock *Block;
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/// The unwind destination index for this handler.
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unsigned Index;
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};
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private:
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friend class EHScopeStack;
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Handler *getHandlers() {
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return reinterpret_cast<Handler*>(this+1);
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}
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const Handler *getHandlers() const {
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return reinterpret_cast<const Handler*>(this+1);
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}
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public:
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static size_t getSizeForNumHandlers(unsigned N) {
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return sizeof(EHCatchScope) + N * sizeof(Handler);
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}
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EHCatchScope(unsigned NumHandlers)
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: EHScope(Catch), NumHandlers(NumHandlers) {
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}
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unsigned getNumHandlers() const {
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return NumHandlers;
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}
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void setCatchAllHandler(unsigned I, llvm::BasicBlock *Block) {
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setHandler(I, /*catchall*/ 0, Block);
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}
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void setHandler(unsigned I, llvm::Value *Type, llvm::BasicBlock *Block) {
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assert(I < getNumHandlers());
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getHandlers()[I].Type = Type;
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getHandlers()[I].Block = Block;
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}
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const Handler &getHandler(unsigned I) const {
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assert(I < getNumHandlers());
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return getHandlers()[I];
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}
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typedef const Handler *iterator;
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iterator begin() const { return getHandlers(); }
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iterator end() const { return getHandlers() + getNumHandlers(); }
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static bool classof(const EHScope *Scope) {
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return Scope->getKind() == Catch;
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}
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};
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/// A cleanup scope which generates the cleanup blocks lazily.
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class EHCleanupScope : public EHScope {
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/// Whether this cleanup needs to be run along normal edges.
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bool IsNormalCleanup : 1;
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/// Whether this cleanup needs to be run along exception edges.
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bool IsEHCleanup : 1;
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/// Whether this cleanup was activated before all normal uses.
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bool ActivatedBeforeNormalUse : 1;
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/// Whether this cleanup was activated before all EH uses.
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bool ActivatedBeforeEHUse : 1;
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/// The amount of extra storage needed by the Cleanup.
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/// Always a multiple of the scope-stack alignment.
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unsigned CleanupSize : 12;
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/// The number of fixups required by enclosing scopes (not including
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/// this one). If this is the top cleanup scope, all the fixups
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/// from this index onwards belong to this scope.
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unsigned FixupDepth : BitsRemaining - 16;
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/// The nearest normal cleanup scope enclosing this one.
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EHScopeStack::stable_iterator EnclosingNormal;
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/// The nearest EH cleanup scope enclosing this one.
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EHScopeStack::stable_iterator EnclosingEH;
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/// The dual entry/exit block along the normal edge. This is lazily
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/// created if needed before the cleanup is popped.
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llvm::BasicBlock *NormalBlock;
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/// The dual entry/exit block along the EH edge. This is lazily
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/// created if needed before the cleanup is popped.
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llvm::BasicBlock *EHBlock;
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/// An optional i1 variable indicating whether this cleanup has been
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/// activated yet. This has one of three states:
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/// - it is null if the cleanup is inactive
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/// - it is activeSentinel() if the cleanup is active and was not
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/// required before activation
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/// - it points to a valid variable
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llvm::AllocaInst *ActiveVar;
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/// Extra information required for cleanups that have resolved
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/// branches through them. This has to be allocated on the side
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/// because everything on the cleanup stack has be trivially
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/// movable.
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struct ExtInfo {
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/// The destinations of normal branch-afters and branch-throughs.
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llvm::SmallPtrSet<llvm::BasicBlock*, 4> Branches;
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/// Normal branch-afters.
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llvm::SmallVector<std::pair<llvm::BasicBlock*,llvm::ConstantInt*>, 4>
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BranchAfters;
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/// The destinations of EH branch-afters and branch-throughs.
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/// TODO: optimize for the extremely common case of a single
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/// branch-through.
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llvm::SmallPtrSet<llvm::BasicBlock*, 4> EHBranches;
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/// EH branch-afters.
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llvm::SmallVector<std::pair<llvm::BasicBlock*,llvm::ConstantInt*>, 4>
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EHBranchAfters;
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};
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mutable struct ExtInfo *ExtInfo;
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struct ExtInfo &getExtInfo() {
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if (!ExtInfo) ExtInfo = new struct ExtInfo();
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return *ExtInfo;
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}
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const struct ExtInfo &getExtInfo() const {
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if (!ExtInfo) ExtInfo = new struct ExtInfo();
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return *ExtInfo;
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}
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public:
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/// Gets the size required for a lazy cleanup scope with the given
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/// cleanup-data requirements.
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static size_t getSizeForCleanupSize(size_t Size) {
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return sizeof(EHCleanupScope) + Size;
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}
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size_t getAllocatedSize() const {
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return sizeof(EHCleanupScope) + CleanupSize;
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}
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EHCleanupScope(bool IsNormal, bool IsEH, bool IsActive,
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unsigned CleanupSize, unsigned FixupDepth,
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EHScopeStack::stable_iterator EnclosingNormal,
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EHScopeStack::stable_iterator EnclosingEH)
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: EHScope(EHScope::Cleanup),
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IsNormalCleanup(IsNormal), IsEHCleanup(IsEH),
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ActivatedBeforeNormalUse(IsActive),
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ActivatedBeforeEHUse(IsActive),
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CleanupSize(CleanupSize), FixupDepth(FixupDepth),
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EnclosingNormal(EnclosingNormal), EnclosingEH(EnclosingEH),
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NormalBlock(0), EHBlock(0),
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ActiveVar(IsActive ? activeSentinel() : 0),
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ExtInfo(0)
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{
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assert(this->CleanupSize == CleanupSize && "cleanup size overflow");
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}
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~EHCleanupScope() {
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delete ExtInfo;
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}
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bool isNormalCleanup() const { return IsNormalCleanup; }
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llvm::BasicBlock *getNormalBlock() const { return NormalBlock; }
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void setNormalBlock(llvm::BasicBlock *BB) { NormalBlock = BB; }
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bool isEHCleanup() const { return IsEHCleanup; }
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llvm::BasicBlock *getEHBlock() const { return EHBlock; }
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void setEHBlock(llvm::BasicBlock *BB) { EHBlock = BB; }
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static llvm::AllocaInst *activeSentinel() {
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return reinterpret_cast<llvm::AllocaInst*>(1);
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}
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bool isActive() const { return ActiveVar != 0; }
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llvm::AllocaInst *getActiveVar() const { return ActiveVar; }
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void setActiveVar(llvm::AllocaInst *Var) { ActiveVar = Var; }
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bool wasActivatedBeforeNormalUse() const { return ActivatedBeforeNormalUse; }
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void setActivatedBeforeNormalUse(bool B) { ActivatedBeforeNormalUse = B; }
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bool wasActivatedBeforeEHUse() const { return ActivatedBeforeEHUse; }
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void setActivatedBeforeEHUse(bool B) { ActivatedBeforeEHUse = B; }
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unsigned getFixupDepth() const { return FixupDepth; }
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EHScopeStack::stable_iterator getEnclosingNormalCleanup() const {
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return EnclosingNormal;
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}
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EHScopeStack::stable_iterator getEnclosingEHCleanup() const {
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return EnclosingEH;
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}
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size_t getCleanupSize() const { return CleanupSize; }
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void *getCleanupBuffer() { return this + 1; }
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EHScopeStack::Cleanup *getCleanup() {
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return reinterpret_cast<EHScopeStack::Cleanup*>(getCleanupBuffer());
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}
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/// True if this cleanup scope has any branch-afters or branch-throughs.
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bool hasBranches() const { return ExtInfo && !ExtInfo->Branches.empty(); }
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/// Add a branch-after to this cleanup scope. A branch-after is a
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/// branch from a point protected by this (normal) cleanup to a
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/// point in the normal cleanup scope immediately containing it.
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/// For example,
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/// for (;;) { A a; break; }
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/// contains a branch-after.
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///
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/// Branch-afters each have their own destination out of the
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/// cleanup, guaranteed distinct from anything else threaded through
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/// it. Therefore branch-afters usually force a switch after the
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/// cleanup.
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void addBranchAfter(llvm::ConstantInt *Index,
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llvm::BasicBlock *Block) {
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struct ExtInfo &ExtInfo = getExtInfo();
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if (ExtInfo.Branches.insert(Block))
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ExtInfo.BranchAfters.push_back(std::make_pair(Block, Index));
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}
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/// Return the number of unique branch-afters on this scope.
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unsigned getNumBranchAfters() const {
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return ExtInfo ? ExtInfo->BranchAfters.size() : 0;
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}
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llvm::BasicBlock *getBranchAfterBlock(unsigned I) const {
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assert(I < getNumBranchAfters());
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return ExtInfo->BranchAfters[I].first;
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}
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llvm::ConstantInt *getBranchAfterIndex(unsigned I) const {
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assert(I < getNumBranchAfters());
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return ExtInfo->BranchAfters[I].second;
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}
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/// Add a branch-through to this cleanup scope. A branch-through is
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/// a branch from a scope protected by this (normal) cleanup to an
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/// enclosing scope other than the immediately-enclosing normal
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/// cleanup scope.
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///
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/// In the following example, the branch through B's scope is a
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/// branch-through, while the branch through A's scope is a
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/// branch-after:
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/// for (;;) { A a; B b; break; }
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///
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/// All branch-throughs have a common destination out of the
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/// cleanup, one possibly shared with the fall-through. Therefore
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/// branch-throughs usually don't force a switch after the cleanup.
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///
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/// \return true if the branch-through was new to this scope
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bool addBranchThrough(llvm::BasicBlock *Block) {
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return getExtInfo().Branches.insert(Block);
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}
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/// Determines if this cleanup scope has any branch throughs.
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bool hasBranchThroughs() const {
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if (!ExtInfo) return false;
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return (ExtInfo->BranchAfters.size() != ExtInfo->Branches.size());
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}
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// Same stuff, only for EH branches instead of normal branches.
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// It's quite possible that we could find a better representation
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// for this.
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bool hasEHBranches() const { return ExtInfo && !ExtInfo->EHBranches.empty(); }
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void addEHBranchAfter(llvm::ConstantInt *Index,
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llvm::BasicBlock *Block) {
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struct ExtInfo &ExtInfo = getExtInfo();
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if (ExtInfo.EHBranches.insert(Block))
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ExtInfo.EHBranchAfters.push_back(std::make_pair(Block, Index));
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}
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unsigned getNumEHBranchAfters() const {
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return ExtInfo ? ExtInfo->EHBranchAfters.size() : 0;
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}
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llvm::BasicBlock *getEHBranchAfterBlock(unsigned I) const {
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assert(I < getNumEHBranchAfters());
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return ExtInfo->EHBranchAfters[I].first;
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}
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llvm::ConstantInt *getEHBranchAfterIndex(unsigned I) const {
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assert(I < getNumEHBranchAfters());
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return ExtInfo->EHBranchAfters[I].second;
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}
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bool addEHBranchThrough(llvm::BasicBlock *Block) {
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return getExtInfo().EHBranches.insert(Block);
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}
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bool hasEHBranchThroughs() const {
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if (!ExtInfo) return false;
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return (ExtInfo->EHBranchAfters.size() != ExtInfo->EHBranches.size());
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}
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static bool classof(const EHScope *Scope) {
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return (Scope->getKind() == Cleanup);
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}
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};
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/// An exceptions scope which filters exceptions thrown through it.
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/// Only exceptions matching the filter types will be permitted to be
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/// thrown.
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///
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/// This is used to implement C++ exception specifications.
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class EHFilterScope : public EHScope {
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unsigned NumFilters : BitsRemaining;
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// Essentially ends in a flexible array member:
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// llvm::Value *FilterTypes[0];
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llvm::Value **getFilters() {
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return reinterpret_cast<llvm::Value**>(this+1);
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}
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llvm::Value * const *getFilters() const {
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return reinterpret_cast<llvm::Value* const *>(this+1);
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}
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public:
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EHFilterScope(unsigned NumFilters) :
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EHScope(Filter), NumFilters(NumFilters) {}
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static size_t getSizeForNumFilters(unsigned NumFilters) {
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return sizeof(EHFilterScope) + NumFilters * sizeof(llvm::Value*);
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}
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unsigned getNumFilters() const { return NumFilters; }
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void setFilter(unsigned I, llvm::Value *FilterValue) {
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assert(I < getNumFilters());
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getFilters()[I] = FilterValue;
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}
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llvm::Value *getFilter(unsigned I) const {
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assert(I < getNumFilters());
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return getFilters()[I];
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}
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static bool classof(const EHScope *Scope) {
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return Scope->getKind() == Filter;
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}
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};
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/// An exceptions scope which calls std::terminate if any exception
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/// reaches it.
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class EHTerminateScope : public EHScope {
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unsigned DestIndex : BitsRemaining;
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public:
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EHTerminateScope(unsigned Index) : EHScope(Terminate), DestIndex(Index) {}
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static size_t getSize() { return sizeof(EHTerminateScope); }
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unsigned getDestIndex() const { return DestIndex; }
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static bool classof(const EHScope *Scope) {
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return Scope->getKind() == Terminate;
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}
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};
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/// A non-stable pointer into the scope stack.
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class EHScopeStack::iterator {
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char *Ptr;
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friend class EHScopeStack;
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explicit iterator(char *Ptr) : Ptr(Ptr) {}
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public:
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iterator() : Ptr(0) {}
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EHScope *get() const {
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return reinterpret_cast<EHScope*>(Ptr);
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}
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EHScope *operator->() const { return get(); }
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EHScope &operator*() const { return *get(); }
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iterator &operator++() {
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switch (get()->getKind()) {
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case EHScope::Catch:
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Ptr += EHCatchScope::getSizeForNumHandlers(
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static_cast<const EHCatchScope*>(get())->getNumHandlers());
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break;
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case EHScope::Filter:
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Ptr += EHFilterScope::getSizeForNumFilters(
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static_cast<const EHFilterScope*>(get())->getNumFilters());
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break;
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case EHScope::Cleanup:
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Ptr += static_cast<const EHCleanupScope*>(get())
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->getAllocatedSize();
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break;
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case EHScope::Terminate:
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Ptr += EHTerminateScope::getSize();
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break;
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}
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return *this;
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}
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iterator next() {
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iterator copy = *this;
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++copy;
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return copy;
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}
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iterator operator++(int) {
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iterator copy = *this;
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operator++();
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return copy;
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}
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bool encloses(iterator other) const { return Ptr >= other.Ptr; }
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bool strictlyEncloses(iterator other) const { return Ptr > other.Ptr; }
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bool operator==(iterator other) const { return Ptr == other.Ptr; }
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bool operator!=(iterator other) const { return Ptr != other.Ptr; }
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};
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inline EHScopeStack::iterator EHScopeStack::begin() const {
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return iterator(StartOfData);
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}
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inline EHScopeStack::iterator EHScopeStack::end() const {
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return iterator(EndOfBuffer);
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}
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inline void EHScopeStack::popCatch() {
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assert(!empty() && "popping exception stack when not empty");
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assert(isa<EHCatchScope>(*begin()));
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StartOfData += EHCatchScope::getSizeForNumHandlers(
|
|
cast<EHCatchScope>(*begin()).getNumHandlers());
|
|
|
|
if (empty()) NextEHDestIndex = FirstEHDestIndex;
|
|
|
|
assert(CatchDepth > 0 && "mismatched catch/terminate push/pop");
|
|
CatchDepth--;
|
|
}
|
|
|
|
inline void EHScopeStack::popTerminate() {
|
|
assert(!empty() && "popping exception stack when not empty");
|
|
|
|
assert(isa<EHTerminateScope>(*begin()));
|
|
StartOfData += EHTerminateScope::getSize();
|
|
|
|
if (empty()) NextEHDestIndex = FirstEHDestIndex;
|
|
|
|
assert(CatchDepth > 0 && "mismatched catch/terminate push/pop");
|
|
CatchDepth--;
|
|
}
|
|
|
|
inline EHScopeStack::iterator EHScopeStack::find(stable_iterator sp) const {
|
|
assert(sp.isValid() && "finding invalid savepoint");
|
|
assert(sp.Size <= stable_begin().Size && "finding savepoint after pop");
|
|
return iterator(EndOfBuffer - sp.Size);
|
|
}
|
|
|
|
inline EHScopeStack::stable_iterator
|
|
EHScopeStack::stabilize(iterator ir) const {
|
|
assert(StartOfData <= ir.Ptr && ir.Ptr <= EndOfBuffer);
|
|
return stable_iterator(EndOfBuffer - ir.Ptr);
|
|
}
|
|
|
|
inline EHScopeStack::stable_iterator
|
|
EHScopeStack::getInnermostActiveNormalCleanup() const {
|
|
for (EHScopeStack::stable_iterator
|
|
I = getInnermostNormalCleanup(), E = stable_end(); I != E; ) {
|
|
EHCleanupScope &S = cast<EHCleanupScope>(*find(I));
|
|
if (S.isActive()) return I;
|
|
I = S.getEnclosingNormalCleanup();
|
|
}
|
|
return stable_end();
|
|
}
|
|
|
|
inline EHScopeStack::stable_iterator
|
|
EHScopeStack::getInnermostActiveEHCleanup() const {
|
|
for (EHScopeStack::stable_iterator
|
|
I = getInnermostEHCleanup(), E = stable_end(); I != E; ) {
|
|
EHCleanupScope &S = cast<EHCleanupScope>(*find(I));
|
|
if (S.isActive()) return I;
|
|
I = S.getEnclosingEHCleanup();
|
|
}
|
|
return stable_end();
|
|
}
|
|
|
|
}
|
|
}
|
|
|
|
#endif
|