#pragma once #ifdef __GNUC__ #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wunused-parameter" #endif //===- Redeclarable.h - Base for Decls that can be redeclared --*- C++ -*-====// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// // // This file defines the Redeclarable interface. // //===----------------------------------------------------------------------===// #ifndef LLVM_CLANG_AST_REDECLARABLE_H #define LLVM_CLANG_AST_REDECLARABLE_H #include "clang/AST/ExternalASTSource.h" #include "llvm/ADT/DenseMapInfo.h" #include "llvm/ADT/PointerUnion.h" #include "llvm/ADT/iterator_range.h" #include "llvm/Support/Casting.h" #include #include #include namespace clang { class ASTContext; class Decl; // Some notes on redeclarables: // // - Every redeclarable is on a circular linked list. // // - Every decl has a pointer to the first element of the chain _and_ a // DeclLink that may point to one of 3 possible states: // - the "previous" (temporal) element in the chain // - the "latest" (temporal) element in the chain // - the "uninitialized-latest" value (when newly-constructed) // // - The first element is also often called the canonical element. Every // element has a pointer to it so that "getCanonical" can be fast. // // - Most links in the chain point to previous, except the link out of // the first; it points to latest. // // - Elements are called "first", "previous", "latest" or // "most-recent" when referring to temporal order: order of addition // to the chain. // // - It's easiest to just ignore the implementation of DeclLink when making // sense of the redeclaration chain. // // - There's also a "definition" link for several types of // redeclarable, where only one definition should exist at any given // time (and the defn pointer is stored in the decl's "data" which // is copied to every element on the chain when it's changed). // // Here is some ASCII art: // // "first" "latest" // "canonical" "most recent" // +------------+ first +--------------+ // | | <--------------------------- | | // | | | | // | | | | // | | +--------------+ | | // | | first | | | | // | | <---- | | | | // | | | | | | // | @class A | link | @interface A | link | @class A | // | seen first | <---- | seen second | <---- | seen third | // | | | | | | // +------------+ +--------------+ +--------------+ // | data | defn | data | defn | data | // | | ----> | | <---- | | // +------------+ +--------------+ +--------------+ // | | ^ ^ // | |defn | | // | link +-----+ | // +-->-------------------------------------------+ /// Provides common interface for the Decls that can be redeclared. template class Redeclarable { protected: class DeclLink { /// A pointer to a known latest declaration, either statically known or /// generationally updated as decls are added by an external source. using KnownLatest = LazyGenerationalUpdatePtr; /// We store a pointer to the ASTContext in the UninitializedLatest /// pointer, but to avoid circular type dependencies when we steal the low /// bits of this pointer, we use a raw void* here. using UninitializedLatest = const void *; using Previous = Decl *; /// A pointer to either an uninitialized latest declaration (where either /// we've not yet set the previous decl or there isn't one), or to a known /// previous declaration. using NotKnownLatest = llvm::PointerUnion; mutable llvm::PointerUnion Link; public: enum PreviousTag { PreviousLink }; enum LatestTag { LatestLink }; DeclLink(LatestTag, const ASTContext &Ctx) : Link(NotKnownLatest(reinterpret_cast(&Ctx))) {} DeclLink(PreviousTag, decl_type *D) : Link(NotKnownLatest(Previous(D))) {} bool isFirst() const { return Link.is() || // FIXME: 'template' is required on the next line due to an // apparent clang bug. Link.get().template is(); } decl_type *getPrevious(const decl_type *D) const { if (Link.is()) { NotKnownLatest NKL = Link.get(); if (NKL.is()) return static_cast(NKL.get()); // Allocate the generational 'most recent' cache now, if needed. Link = KnownLatest(*reinterpret_cast( NKL.get()), const_cast(D)); } return static_cast(Link.get().get(D)); } void setPrevious(decl_type *D) { assert(!isFirst() && "decl became non-canonical unexpectedly"); Link = Previous(D); } void setLatest(decl_type *D) { assert(isFirst() && "decl became canonical unexpectedly"); if (Link.is()) { NotKnownLatest NKL = Link.get(); Link = KnownLatest(*reinterpret_cast( NKL.get()), D); } else { auto Latest = Link.get(); Latest.set(D); Link = Latest; } } void markIncomplete() { Link.get().markIncomplete(); } Decl *getLatestNotUpdated() const { assert(isFirst() && "expected a canonical decl"); if (Link.is()) return nullptr; return Link.get().getNotUpdated(); } }; static DeclLink PreviousDeclLink(decl_type *D) { return DeclLink(DeclLink::PreviousLink, D); } static DeclLink LatestDeclLink(const ASTContext &Ctx) { return DeclLink(DeclLink::LatestLink, Ctx); } /// Points to the next redeclaration in the chain. /// /// If isFirst() is false, this is a link to the previous declaration /// of this same Decl. If isFirst() is true, this is the first /// declaration and Link points to the latest declaration. For example: /// /// #1 int f(int x, int y = 1); // /// #2 int f(int x = 0, int y); // /// #3 int f(int x, int y) { return x + y; } // /// /// If there is only one declaration, it is DeclLink RedeclLink; decl_type *First; decl_type *getNextRedeclaration() const { return RedeclLink.getPrevious(static_cast(this)); } public: friend class ASTDeclReader; friend class ASTDeclWriter; friend class IncrementalParser; Redeclarable(const ASTContext &Ctx) : RedeclLink(LatestDeclLink(Ctx)), First(static_cast(this)) {} /// Return the previous declaration of this declaration or NULL if this /// is the first declaration. decl_type *getPreviousDecl() { if (!RedeclLink.isFirst()) return getNextRedeclaration(); return nullptr; } const decl_type *getPreviousDecl() const { return const_cast( static_cast(this))->getPreviousDecl(); } /// Return the first declaration of this declaration or itself if this /// is the only declaration. decl_type *getFirstDecl() { return First; } /// Return the first declaration of this declaration or itself if this /// is the only declaration. const decl_type *getFirstDecl() const { return First; } /// True if this is the first declaration in its redeclaration chain. bool isFirstDecl() const { return RedeclLink.isFirst(); } /// Returns the most recent (re)declaration of this declaration. decl_type *getMostRecentDecl() { return getFirstDecl()->getNextRedeclaration(); } /// Returns the most recent (re)declaration of this declaration. const decl_type *getMostRecentDecl() const { return getFirstDecl()->getNextRedeclaration(); } /// Set the previous declaration. If PrevDecl is NULL, set this as the /// first and only declaration. void setPreviousDecl(decl_type *PrevDecl); /// Iterates through all the redeclarations of the same decl. class redecl_iterator { /// Current - The current declaration. decl_type *Current = nullptr; decl_type *Starter; bool PassedFirst = false; public: using value_type = decl_type *; using reference = decl_type *; using pointer = decl_type *; using iterator_category = std::forward_iterator_tag; using difference_type = std::ptrdiff_t; redecl_iterator() = default; explicit redecl_iterator(decl_type *C) : Current(C), Starter(C) {} reference operator*() const { return Current; } pointer operator->() const { return Current; } redecl_iterator& operator++() { assert(Current && "Advancing while iterator has reached end"); // Make sure we don't infinitely loop on an invalid redecl chain. This // should never happen. if (Current->isFirstDecl()) { if (PassedFirst) { assert(0 && "Passed first decl twice, invalid redecl chain!"); Current = nullptr; return *this; } PassedFirst = true; } // Get either previous decl or latest decl. decl_type *Next = Current->getNextRedeclaration(); Current = (Next != Starter) ? Next : nullptr; return *this; } redecl_iterator operator++(int) { redecl_iterator tmp(*this); ++(*this); return tmp; } friend bool operator==(redecl_iterator x, redecl_iterator y) { return x.Current == y.Current; } friend bool operator!=(redecl_iterator x, redecl_iterator y) { return x.Current != y.Current; } }; using redecl_range = llvm::iterator_range; /// Returns an iterator range for all the redeclarations of the same /// decl. It will iterate at least once (when this decl is the only one). redecl_range redecls() const { return redecl_range(redecl_iterator(const_cast( static_cast(this))), redecl_iterator()); } redecl_iterator redecls_begin() const { return redecls().begin(); } redecl_iterator redecls_end() const { return redecls().end(); } }; /// Get the primary declaration for a declaration from an AST file. That /// will be the first-loaded declaration. Decl *getPrimaryMergedDecl(Decl *D); /// Provides common interface for the Decls that cannot be redeclared, /// but can be merged if the same declaration is brought in from multiple /// modules. template class Mergeable { public: Mergeable() = default; /// Return the first declaration of this declaration or itself if this /// is the only declaration. decl_type *getFirstDecl() { auto *D = static_cast(this); if (!D->isFromASTFile()) return D; return cast(getPrimaryMergedDecl(const_cast(D))); } /// Return the first declaration of this declaration or itself if this /// is the only declaration. const decl_type *getFirstDecl() const { const auto *D = static_cast(this); if (!D->isFromASTFile()) return D; return cast(getPrimaryMergedDecl(const_cast(D))); } /// Returns true if this is the first declaration. bool isFirstDecl() const { return getFirstDecl() == this; } }; /// A wrapper class around a pointer that always points to its canonical /// declaration. /// /// CanonicalDeclPtr behaves just like decl_type*, except we call /// decl_type::getCanonicalDecl() on construction. /// /// This is useful for hashtables that you want to be keyed on a declaration's /// canonical decl -- if you use CanonicalDeclPtr as the key, you don't need to /// remember to call getCanonicalDecl() everywhere. template class CanonicalDeclPtr { public: CanonicalDeclPtr() = default; CanonicalDeclPtr(decl_type *Ptr) : Ptr(Ptr ? Ptr->getCanonicalDecl() : nullptr) {} CanonicalDeclPtr(const CanonicalDeclPtr &) = default; CanonicalDeclPtr &operator=(const CanonicalDeclPtr &) = default; operator decl_type *() { return Ptr; } operator const decl_type *() const { return Ptr; } decl_type *operator->() { return Ptr; } const decl_type *operator->() const { return Ptr; } decl_type &operator*() { return *Ptr; } const decl_type &operator*() const { return *Ptr; } friend bool operator==(CanonicalDeclPtr LHS, CanonicalDeclPtr RHS) { return LHS.Ptr == RHS.Ptr; } friend bool operator!=(CanonicalDeclPtr LHS, CanonicalDeclPtr RHS) { return LHS.Ptr != RHS.Ptr; } private: friend struct llvm::DenseMapInfo>; friend struct llvm::PointerLikeTypeTraits>; decl_type *Ptr = nullptr; }; } // namespace clang namespace llvm { template struct DenseMapInfo> { using CanonicalDeclPtr = clang::CanonicalDeclPtr; using BaseInfo = DenseMapInfo; static CanonicalDeclPtr getEmptyKey() { // Construct our CanonicalDeclPtr this way because the regular constructor // would dereference P.Ptr, which is not allowed. CanonicalDeclPtr P; P.Ptr = BaseInfo::getEmptyKey(); return P; } static CanonicalDeclPtr getTombstoneKey() { CanonicalDeclPtr P; P.Ptr = BaseInfo::getTombstoneKey(); return P; } static unsigned getHashValue(const CanonicalDeclPtr &P) { return BaseInfo::getHashValue(P); } static bool isEqual(const CanonicalDeclPtr &LHS, const CanonicalDeclPtr &RHS) { return BaseInfo::isEqual(LHS, RHS); } }; template struct PointerLikeTypeTraits> { static inline void *getAsVoidPointer(clang::CanonicalDeclPtr P) { return P.Ptr; } static inline clang::CanonicalDeclPtr getFromVoidPointer(void *P) { clang::CanonicalDeclPtr C; C.Ptr = PointerLikeTypeTraits::getFromVoidPtr(P); return C; } static constexpr int NumLowBitsAvailable = PointerLikeTypeTraits::NumLowBitsAvailable; }; } // namespace llvm #endif // LLVM_CLANG_AST_REDECLARABLE_H #ifdef __GNUC__ #pragma GCC diagnostic pop #endif