forked from OSchip/llvm-project
188 lines
8.6 KiB
C++
188 lines
8.6 KiB
C++
//===--- AST.h - Utility AST functions -------------------------*- C++ -*-===//
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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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// Various code that examines C++ source code using AST.
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//
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//===----------------------------------------------------------------------===//
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#ifndef LLVM_CLANG_TOOLS_EXTRA_CLANGD_AST_H_
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#define LLVM_CLANG_TOOLS_EXTRA_CLANGD_AST_H_
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#include "index/SymbolID.h"
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#include "clang/AST/Decl.h"
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#include "clang/AST/DeclObjC.h"
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#include "clang/AST/NestedNameSpecifier.h"
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#include "clang/Basic/SourceLocation.h"
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#include "clang/Lex/MacroInfo.h"
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#include "llvm/ADT/DenseSet.h"
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#include "llvm/ADT/StringRef.h"
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#include <string>
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#include <vector>
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namespace clang {
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class SourceManager;
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class Decl;
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class DynTypedNode;
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namespace clangd {
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/// Returns true if the declaration is considered implementation detail based on
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/// heuristics. For example, a declaration whose name is not explicitly spelled
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/// in code is considered implementation detail.
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bool isImplementationDetail(const Decl *D);
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/// Find the source location of the identifier for \p D.
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/// Transforms macro locations to locations spelled inside files. All code
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/// that needs locations of declaration names (e.g. the index) should go through
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/// this function.
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SourceLocation nameLocation(const clang::Decl &D, const SourceManager &SM);
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/// Returns the qualified name of ND. The scope doesn't contain unwritten scopes
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/// like inline namespaces.
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std::string printQualifiedName(const NamedDecl &ND);
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/// Returns the first enclosing namespace scope starting from \p DC.
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std::string printNamespaceScope(const DeclContext &DC);
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/// Returns the name of the namespace inside the 'using namespace' directive, as
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/// written in the code. E.g., passing 'using namespace ::std' will result in
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/// '::std'.
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std::string printUsingNamespaceName(const ASTContext &Ctx,
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const UsingDirectiveDecl &D);
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/// Prints unqualified name of the decl for the purpose of displaying it to the
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/// user. Anonymous decls return names of the form "(anonymous {kind})", e.g.
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/// "(anonymous struct)" or "(anonymous namespace)".
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std::string printName(const ASTContext &Ctx, const NamedDecl &ND);
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/// Prints template arguments of a decl as written in the source code, including
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/// enclosing '<' and '>', e.g for a partial specialization like: template
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/// <typename U> struct Foo<int, U> will return '<int, U>'. Returns an empty
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/// string if decl is not a template specialization.
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std::string printTemplateSpecializationArgs(const NamedDecl &ND);
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/// Print the Objective-C method name, including the full container name, e.g.
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/// `-[MyClass(Category) method:]`
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std::string printObjCMethod(const ObjCMethodDecl &Method);
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/// Print the Objective-C container name including categories, e.g. `MyClass`,
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// `MyClass()`, `MyClass(Category)`, and `MyProtocol`.
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std::string printObjCContainer(const ObjCContainerDecl &C);
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/// Gets the symbol ID for a declaration. Returned SymbolID might be null.
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SymbolID getSymbolID(const Decl *D);
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/// Gets the symbol ID for a macro. Returned SymbolID might be null.
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/// Currently, this is an encoded USR of the macro, which incorporates macro
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/// locations (e.g. file name, offset in file).
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/// FIXME: the USR semantics might not be stable enough as the ID for index
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/// macro (e.g. a change in definition offset can result in a different USR). We
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/// could change these semantics in the future by reimplementing this funcure
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/// (e.g. avoid USR for macros).
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SymbolID getSymbolID(const llvm::StringRef MacroName, const MacroInfo *MI,
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const SourceManager &SM);
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/// Returns a QualType as string. The result doesn't contain unwritten scopes
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/// like anonymous/inline namespace.
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std::string printType(const QualType QT, const DeclContext &CurContext);
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/// Indicates if \p D is a template instantiation implicitly generated by the
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/// compiler, e.g.
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/// template <class T> struct vector {};
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/// vector<int> v; // 'vector<int>' is an implicit instantiation
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bool isImplicitTemplateInstantiation(const NamedDecl *D);
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/// Indicates if \p D is an explicit template specialization, e.g.
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/// template <class T> struct vector {};
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/// template <> struct vector<bool> {}; // <-- explicit specialization
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///
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/// Note that explicit instantiations are NOT explicit specializations, albeit
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/// they look similar.
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/// template struct vector<bool>; // <-- explicit instantiation, NOT an
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/// explicit specialization.
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bool isExplicitTemplateSpecialization(const NamedDecl *D);
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/// Returns a nested name specifier loc of \p ND if it was present in the
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/// source, e.g.
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/// void ns::something::foo() -> returns 'ns::something'
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/// void foo() -> returns null
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NestedNameSpecifierLoc getQualifierLoc(const NamedDecl &ND);
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// Returns a type corresponding to a declaration of that type.
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// Unlike the method on ASTContext, attempts to preserve the type as-written
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// (i.e. vector<T*> rather than vector<type-parameter-0-0 *>.
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QualType declaredType(const TypeDecl *D);
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/// Retrieves the deduced type at a given location (auto, decltype).
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/// It will return the underlying type.
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/// If the type is an undeduced auto, returns the type itself.
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llvm::Optional<QualType> getDeducedType(ASTContext &, SourceLocation Loc);
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/// Return attributes attached directly to a node.
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std::vector<const Attr *> getAttributes(const DynTypedNode &);
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/// Gets the nested name specifier necessary for spelling \p ND in \p
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/// DestContext, at \p InsertionPoint. It selects the shortest suffix of \p ND
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/// such that it is visible in \p DestContext.
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/// Returns an empty string if no qualification is necessary. For example, if
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/// you want to qualify clang::clangd::bar::foo in clang::clangd::x, this
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/// function will return bar. Note that the result might be sub-optimal for
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/// classes, e.g. when the \p ND is a member of the base class.
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///
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/// This version considers all the using namespace directives before \p
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/// InsertionPoint. i.e, if you have `using namespace
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/// clang::clangd::bar`, this function will return an empty string for the
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/// example above since no qualification is necessary in that case.
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/// FIXME: Also take using directives and namespace aliases inside function body
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/// into account.
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std::string getQualification(ASTContext &Context,
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const DeclContext *DestContext,
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SourceLocation InsertionPoint,
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const NamedDecl *ND);
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/// This function uses the \p VisibleNamespaces to figure out if a shorter
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/// qualification is sufficient for \p ND, and ignores any using namespace
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/// directives. It can be useful if there's no AST for the DestContext, but some
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/// pseudo-parsing is done. i.e. if \p ND is ns1::ns2::X and \p DestContext is
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/// ns1::, users can provide `ns2::` as visible to change the result to be
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/// empty.
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/// Elements in VisibleNamespaces should be in the form: `ns::`, with trailing
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/// "::".
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/// Note that this is just textual and might be incorrect. e.g. when there are
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/// two namespaces ns1::a and ns2::a, the function will early exit if "a::" is
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/// present in \p VisibleNamespaces, no matter whether it is from ns1:: or ns2::
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std::string getQualification(ASTContext &Context,
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const DeclContext *DestContext,
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const NamedDecl *ND,
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llvm::ArrayRef<std::string> VisibleNamespaces);
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/// Whether we must avoid computing linkage for D during code completion.
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/// Clang aggressively caches linkage computation, which is stable after the AST
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/// is built. Unfortunately the AST is incomplete during code completion, so
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/// linkage may still change.
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///
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/// Example: `auto x = []{^}` at file scope.
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/// During code completion, the initializer for x hasn't been parsed yet.
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/// x has type `undeduced auto`, and external linkage.
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/// If we compute linkage at this point, the external linkage will be cached.
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///
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/// After code completion the initializer is attached, and x has a lambda type.
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/// This means x has "unique external" linkage. If we computed linkage above,
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/// the cached value is incorrect. (clang catches this with an assertion).
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bool hasUnstableLinkage(const Decl *D);
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/// Checks whether \p D is more than \p MaxDepth away from translation unit
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/// scope.
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/// This is useful for limiting traversals to keep operation latencies
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/// reasonable.
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bool isDeeplyNested(const Decl *D, unsigned MaxDepth = 10);
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} // namespace clangd
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} // namespace clang
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#endif // LLVM_CLANG_TOOLS_EXTRA_CLANGD_AST_H_
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