// Copyright 2014 The Chromium OS Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. // This is an implementation of a "true" variant class in C++. // The brillo::Any class can hold any C++ type, but both the setter and // getter sites need to know the actual type of data. // Note that C-style arrays when stored in Any are reduced to simple // data pointers. Any will not copy a contents of the array. // const int data[] = [1,2,3]; // Any v(data); // stores const int*, effectively "Any v(&data[0]);" // brillo::Any is a value type. Which means, the data is copied into it // and Any owns it. The owned object (stored by value) will be destroyed // when Any is cleared or reassigned. The contained value type must be // copy-constructible. You can also store pointers and references to objects. // Storing pointers is trivial. In order to store a reference, you can // use helper functions std::ref() and std::cref() to create non-const and // const references respectively. In such a case, the type of contained data // will be std::reference_wrapper<T>. See 'References' unit tests in // any_unittest.cc for examples. #ifndef LIBBRILLO_BRILLO_ANY_H_ #define LIBBRILLO_BRILLO_ANY_H_ #include <brillo/any_internal_impl.h> #include <algorithm> #include <brillo/brillo_export.h> #include <brillo/type_name_undecorate.h> namespace dbus { class MessageWriter; } // namespace dbus namespace brillo { class BRILLO_EXPORT Any final { public: Any(); // Do not inline to hide internal_details::Buffer from export table. // Standard copy/move constructors. This is a value-class container // that must be copy-constructible and movable. The copy constructors // should not be marked as explicit. Any(const Any& rhs); Any(Any&& rhs); // NOLINT(build/c++11) // Typed constructor that stores a value of type T in the Any. template<class T> inline Any(T value) { // NOLINT(runtime/explicit) data_buffer_.Assign(std::move(value)); } // Not declaring the destructor as virtual since this is a sealed class // and there is no need to introduce a virtual table to it. ~Any(); // Assignment operators. Any& operator=(const Any& rhs); Any& operator=(Any&& rhs); // NOLINT(build/c++11) template<class T> inline Any& operator=(T value) { data_buffer_.Assign(std::move(value)); return *this; } // Compares the contents of two Any objects for equality. Note that the // contained type must be equality-comparable (must have operator== defined). // If operator==() is not available for contained type, comparison operation // always returns false (as if the data were different). bool operator==(const Any& rhs) const; inline bool operator!=(const Any& rhs) const { return !operator==(rhs); } // Checks if the given type DestType can be obtained from the Any. // For example, to check if Any has a 'double' value in it: // any.IsTypeCompatible<double>() template<typename DestType> bool IsTypeCompatible() const { // Make sure the requested type DestType conforms to the storage // requirements of Any. We always store the data by value, which means we // strip away any references as well as cv-qualifiers. So, if the user // stores "const int&", we actually store just an "int". // When calling IsTypeCompatible, we need to do a similar "type cleansing" // to make sure the requested type matches the type of data actually stored, // so this "canonical" type is used for type checking below. using CanonicalDestType = typename std::decay<DestType>::type; const char* contained_type = GetTypeTagInternal(); if (strcmp(GetTypeTag<CanonicalDestType>(), contained_type) == 0) return true; if (!std::is_pointer<CanonicalDestType>::value) return false; // If asking for a const pointer from a variant containing non-const // pointer, still satisfy the request. So, we need to remove the pointer // specification first, then strip the const/volatile qualifiers, then // re-add the pointer back, so "const int*" would become "int*". using NonPointer = typename std::remove_pointer<CanonicalDestType>::type; using CanonicalDestTypeNoConst = typename std::add_pointer< typename std::remove_const<NonPointer>::type>::type; if (strcmp(GetTypeTag<CanonicalDestTypeNoConst>(), contained_type) == 0) return true; using CanonicalDestTypeNoVolatile = typename std::add_pointer< typename std::remove_volatile<NonPointer>::type>::type; if (strcmp(GetTypeTag<CanonicalDestTypeNoVolatile>(), contained_type) == 0) return true; using CanonicalDestTypeNoConstOrVolatile = typename std::add_pointer< typename std::remove_cv<NonPointer>::type>::type; return strcmp(GetTypeTag<CanonicalDestTypeNoConstOrVolatile>(), contained_type) == 0; } // Returns immutable data contained in Any. // Aborts if Any doesn't contain a value of type T, or trivially // convertible to/compatible with it. template<typename T> const T& Get() const { CHECK(IsTypeCompatible<T>()) << "Requesting value of type '" << brillo::GetUndecoratedTypeName<T>() << "' from variant containing '" << GetUndecoratedTypeName() << "'"; return data_buffer_.GetData<T>(); } // Returns a copy of data in Any and returns true when that data is // compatible with T. Returns false if contained data is incompatible. template<typename T> bool GetValue(T* value) const { if (!IsTypeCompatible<T>()) { return false; } *value = Get<T>(); return true; } // Returns a pointer to mutable value of type T contained within Any. // No data copying is made, the data pointed to is still owned by Any. // If Any doesn't contain a value of type T, or trivially // convertible/compatible to/with it, then it returns nullptr. template<typename T> T* GetPtr() { if (!IsTypeCompatible<T>()) return nullptr; return &(data_buffer_.GetData<T>()); } // Returns a copy of the data contained in Any. // If the Any doesn't contain a compatible value, the provided default // |def_val| is returned instead. template<typename T> T TryGet(typename std::decay<T>::type const& def_val) const { if (!IsTypeCompatible<T>()) return def_val; return data_buffer_.GetData<T>(); } // A convenience specialization of the above function where the default // value of type T is returned in case the underlying Get() fails. template<typename T> T TryGet() const { return TryGet<T>(typename std::decay<T>::type()); } // Returns the undecorated name of the type contained within Any. inline std::string GetUndecoratedTypeName() const { return GetUndecoratedTypeNameForTag(GetTypeTagInternal()); } // Swaps the value of this object with that of |other|. void Swap(Any& other); // Checks if Any is empty, that is, not containing a value of any type. bool IsEmpty() const; // Clears the Any and destroys any contained object. Makes it empty. void Clear(); // Checks if Any contains a type convertible to integer. // Any type that match std::is_integral<T> and std::is_enum<T> is accepted. // That includes signed and unsigned char, short, int, long, etc as well as // 'bool' and enumerated types. // For 'integer' type, you can call GetAsInteger to do implicit type // conversion to intmax_t. bool IsConvertibleToInteger() const; // For integral types and enums contained in the Any, get the integer value // of data. This is a useful function to obtain an integer value when // any can possibly have unspecified integer, such as 'short', 'unsigned long' // and so on. intmax_t GetAsInteger() const; // Writes the contained data to D-Bus message writer, if the appropriate // serialization method for contained data of the given type is provided // (an appropriate specialization of AppendValueToWriter<T>() is available). // Returns false if the Any is empty or if there is no serialization method // defined for the contained data. void AppendToDBusMessageWriter(dbus::MessageWriter* writer) const; private: // Returns a pointer to a static buffer containing type tag (sort of a type // name) of the contained value. const char* GetTypeTagInternal() const; // The data buffer for contained object. internal_details::Buffer data_buffer_; }; } // namespace brillo namespace std { // Specialize std::swap() algorithm for brillo::Any class. inline void swap(brillo::Any& lhs, brillo::Any& rhs) { lhs.Swap(rhs); } } // namespace std #endif // LIBBRILLO_BRILLO_ANY_H_