//===--- Context.h - Mechanism for passing implicit data --------*- 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 // //===----------------------------------------------------------------------===// // // Context for storing and retrieving implicit data. Useful for passing implicit // parameters on a per-request basis. // //===----------------------------------------------------------------------===// #ifndef LLVM_CLANG_TOOLS_EXTRA_CLANGD_CONTEXT_H_ #define LLVM_CLANG_TOOLS_EXTRA_CLANGD_CONTEXT_H_ #include "llvm/ADT/STLExtras.h" #include "llvm/Support/Compiler.h" #include #include namespace clang { namespace clangd { /// Values in a Context are indexed by typed keys. /// Key serves two purposes: /// - it provides a lookup key for the context (each Key is unique), /// - it makes lookup type-safe: a Key can only map to a T (or nothing). /// /// Example: /// Key RequestID; /// Key Version; /// /// Context Ctx = Context::empty().derive(RequestID, 10).derive(Version, 3); /// assert(*Ctx.get(RequestID) == 10); /// assert(*Ctx.get(Version) == 3); /// /// Keys are typically used across multiple functions, so most of the time you /// would want to make them static class members or global variables. template class Key { public: static_assert(!std::is_reference::value, "Reference arguments to Key<> are not allowed"); constexpr Key() = default; Key(Key const &) = delete; Key &operator=(Key const &) = delete; Key(Key &&) = delete; Key &operator=(Key &&) = delete; }; /// A context is an immutable container for per-request data that must be /// propagated through layers that don't care about it. An example is a request /// ID that we may want to use when logging. /// /// Conceptually, a context is a heterogeneous map, T>. Each key has /// an associated value type, which allows the map to be typesafe. /// /// There is an "ambient" context for each thread, Context::current(). /// Most functions should read from this, and use WithContextValue or /// WithContext to extend or replace the context within a block scope. /// Only code dealing with threads and extension points should need to use /// other Context objects. /// /// You can't add data to an existing context, instead you create a new /// immutable context derived from it with extra data added. When you retrieve /// data, the context will walk up the parent chain until the key is found. class Context { public: /// Returns an empty root context that contains no data. static Context empty(); /// Returns the context for the current thread, creating it if needed. static const Context ¤t(); // Sets the current() context to Replacement, and returns the old context. // Prefer to use WithContext or WithContextValue to do this safely. static Context swapCurrent(Context Replacement); private: struct Data; Context(std::shared_ptr DataPtr); public: /// Same as Context::empty(), please use Context::empty() instead. /// Constructor is defined to workaround a bug in MSVC's version of STL. /// (arguments of std::future<> must be default-construcitble in MSVC). Context() = default; /// Copy operations for this class are deleted, use an explicit clone() method /// when you need a copy of the context instead. Context(Context const &) = delete; Context &operator=(const Context &) = delete; Context(Context &&) = default; Context &operator=(Context &&) = default; /// Get data stored for a typed \p Key. If values are not found /// \returns Pointer to the data associated with \p Key. If no data is /// specified for \p Key, return null. template const Type *get(const Key &Key) const { for (const Data *DataPtr = this->DataPtr.get(); DataPtr != nullptr; DataPtr = DataPtr->Parent.get()) { if (DataPtr->KeyPtr == &Key) return static_cast(DataPtr->Value->getValuePtr()); } return nullptr; } /// A helper to get a reference to a \p Key that must exist in the map. /// Must not be called for keys that are not in the map. template const Type &getExisting(const Key &Key) const { auto Val = get(Key); assert(Val && "Key does not exist"); return *Val; } /// Derives a child context /// It is safe to move or destroy a parent context after calling derive(). /// The child will keep its parent alive, and its data remains accessible. template Context derive(const Key &Key, typename std::decay::type Value) const & { return Context(std::make_shared(Data{ /*Parent=*/DataPtr, &Key, llvm::make_unique::type>>( std::move(Value))})); } template Context derive(const Key &Key, typename std::decay::type Value) && /* takes ownership */ { return Context(std::make_shared(Data{ /*Parent=*/std::move(DataPtr), &Key, llvm::make_unique::type>>( std::move(Value))})); } /// Derives a child context, using an anonymous key. /// Intended for objects stored only for their destructor's side-effect. template Context derive(Type &&Value) const & { static Key::type> Private; return derive(Private, std::forward(Value)); } template Context derive(Type &&Value) && { static Key::type> Private; return std::move(*this).derive(Private, std::forward(Value)); } /// Clone this context object. Context clone() const; private: class AnyStorage { public: virtual ~AnyStorage() = default; virtual void *getValuePtr() = 0; }; template class TypedAnyStorage : public Context::AnyStorage { static_assert(std::is_same::type, T>::value, "Argument to TypedAnyStorage must be decayed"); public: TypedAnyStorage(T &&Value) : Value(std::move(Value)) {} void *getValuePtr() override { return &Value; } private: T Value; }; struct Data { // We need to make sure Parent outlives the Value, so the order of members // is important. We do that to allow classes stored in Context's child // layers to store references to the data in the parent layers. std::shared_ptr Parent; const void *KeyPtr; std::unique_ptr Value; }; std::shared_ptr DataPtr; }; /// WithContext replaces Context::current() with a provided scope. /// When the WithContext is destroyed, the original scope is restored. /// For extending the current context with new value, prefer WithContextValue. class LLVM_NODISCARD WithContext { public: WithContext(Context C) : Restore(Context::swapCurrent(std::move(C))) {} ~WithContext() { Context::swapCurrent(std::move(Restore)); } WithContext(const WithContext &) = delete; WithContext &operator=(const WithContext &) = delete; WithContext(WithContext &&) = delete; WithContext &operator=(WithContext &&) = delete; private: Context Restore; }; /// WithContextValue extends Context::current() with a single value. /// When the WithContextValue is destroyed, the original scope is restored. class LLVM_NODISCARD WithContextValue { public: template WithContextValue(const Key &K, typename std::decay::type V) : Restore(Context::current().derive(K, std::move(V))) {} // Anonymous values can be used for the destructor side-effect. template WithContextValue(T &&V) : Restore(Context::current().derive(std::forward(V))) {} private: WithContext Restore; }; } // namespace clangd } // namespace clang #endif // LLVM_CLANG_TOOLS_EXTRA_CLANGD_CONTEXT_H_