// // Copyright (c) 2019 Vinnie Falco (vinnie.falco@gmail.com) // // Distributed under the Boost Software License, Version 1.0. (See accompanying // file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt) // // Official repository: https://github.com/boostorg/json // #ifndef BOOST_JSON_OBJECT_HPP #define BOOST_JSON_OBJECT_HPP #include #include #include #include #include #include #include #include #include #include #include #include BOOST_JSON_NS_BEGIN class value; class value_ref; class key_value_pair; /** A dynamically sized associative container of JSON key/value pairs. This is an associative container whose elements are key/value pairs with unique keys. \n The elements are stored contiguously; iterators are ordinary pointers, allowing random access pointer arithmetic for retrieving elements. In addition, the container maintains an internal index to speed up find operations, reducing the average complexity for most lookups and insertions. \n Reallocations are usually costly operations in terms of performance, as elements are copied and the internal index must be rebuilt. The @ref reserve function can be used to eliminate reallocations if the number of elements is known beforehand. @par Allocators All elements stored in the container, and their children if any, will use the same memory resource that was used to construct the container. @par Thread Safety Non-const member functions may not be called concurrently with any other member functions. @par Satisfies ContiguousContainer, ReversibleContainer, and SequenceContainer. */ class object { struct table; class revert_construct; class revert_insert; friend class value; friend class object_test; using access = detail::access; using index_t = std::uint32_t; static index_t constexpr null_index_ = std::uint32_t(-1); storage_ptr sp_; // must come first kind k_ = kind::object; // must come second table* t_; BOOST_JSON_DECL static table empty_; template using is_inputit = typename std::enable_if< std::is_constructible::value_type >::value>::type; BOOST_JSON_DECL explicit object(detail::unchecked_object&& uo); public: /** The type of _Allocator_ returned by @ref get_allocator This type is a @ref polymorphic_allocator. */ #ifdef BOOST_JSON_DOCS // VFALCO doc toolchain renders this incorrectly using allocator_type = __see_below__; #else using allocator_type = polymorphic_allocator; #endif /** The type of keys. The function @ref string::max_size returns the maximum allowed size of strings used as keys. */ using key_type = string_view; /// The type of mapped values using mapped_type = value; /// The element type using value_type = key_value_pair; /// The type used to represent unsigned integers using size_type = std::size_t; /// The type used to represent signed integers using difference_type = std::ptrdiff_t; /// A reference to an element using reference = value_type&; /// A const reference to an element using const_reference = value_type const&; /// A pointer to an element using pointer = value_type*; /// A const pointer to an element using const_pointer = value_type const*; /// A random access iterator to an element using iterator = value_type*; /// A const random access iterator to an element using const_iterator = value_type const*; /// A reverse random access iterator to an element using reverse_iterator = std::reverse_iterator; /// A const reverse random access iterator to an element using const_reverse_iterator = std::reverse_iterator; //------------------------------------------------------ /** Destructor. The destructor for each element is called if needed, any used memory is deallocated, and shared ownership of the @ref memory_resource is released. @par Complexity Constant, or linear in @ref size(). @par Exception Safety No-throw guarantee. */ BOOST_JSON_DECL ~object() noexcept; //------------------------------------------------------ /** Default constructor. The constructed object is empty with zero capacity, using the default memory resource. @par Complexity Constant. @par Exception Safety No-throw guarantee. */ object() noexcept : t_(&empty_) { } /** Constructor. The constructed object is empty with zero capacity, using the specified memory resource. @par Complexity Constant. @par Exception Safety No-throw guarantee. @param sp A pointer to the @ref memory_resource to use. The container will acquire shared ownership of the memory resource. */ explicit object(storage_ptr sp) noexcept : sp_(std::move(sp)) , t_(&empty_) { } /** Constructor. The constructed object is empty with capacity equal to the specified minimum capacity, using the specified memory resource. @par Complexity Constant. @par Exception Safety Strong guarantee. Calls to `memory_resource::allocate` may throw. @param min_capacity The minimum number of elements for which capacity is guaranteed without a subsequent reallocation. @param sp A pointer to the @ref memory_resource to use. The container will acquire shared ownership of the memory resource. */ BOOST_JSON_DECL object( std::size_t min_capacity, storage_ptr sp = {}); /** Constructor. The object is constructed with the elements in the range `{first, last)`, preserving order, using the specified memory resource. If there are elements with duplicate keys; that is, if multiple elements in the range have keys that compare equal, only the first equivalent element will be inserted. @par Constraints @code std::is_constructible_v< key_value_pair, std::iterator_traits::value_type> @endcode @par Complexity Linear in `std::distance(first, last)`. @par Exception Safety Strong guarantee. Calls to `memory_resource::allocate` may throw. @param first An input iterator pointing to the first element to insert, or pointing to the end of the range. @param last An input iterator pointing to the end of the range. @param min_capacity The minimum number of elements for which capacity is guaranteed without a subsequent reallocation. Upon construction, @ref capacity() will be greater than or equal to this number. @param sp A pointer to the @ref memory_resource to use. The container will acquire shared ownership of the memory resource. @tparam InputIt a type satisfying the requirements of __InputIterator__. */ template< class InputIt #ifndef BOOST_JSON_DOCS ,class = is_inputit #endif > object( InputIt first, InputIt last, std::size_t min_capacity = 0, storage_ptr sp = {}) : sp_(std::move(sp)) , t_(&empty_) { construct( first, last, min_capacity, typename std::iterator_traits< InputIt>::iterator_category{}); } /** Move constructor. The object is constructed by acquiring ownership of the contents of `other` and shared ownership of `other`'s memory resource. @note After construction, the moved-from object behaves as if newly constructed with its current memory resource. @par Complexity Constant. @par Exception Safety No-throw guarantee. @param other The object to move. */ BOOST_JSON_DECL object(object&& other) noexcept; /** Move constructor. The object is constructed with the contents of `other` by move semantics, using the specified memory resource: @li If `*other.storage() == *sp`, ownership of the underlying memory is transferred in constant time, with no possibility of exceptions. After construction, the moved-from object behaves as if newly constructed with its current storage pointer. @li If `*other.storage() != *sp`, an element-wise copy is performed, which may throw. In this case, the moved-from object is not changed. @par Complexity Constant or linear in `other.size()`. @par Exception Safety Strong guarantee. Calls to `memory_resource::allocate` may throw. @param other The object to move. @param sp A pointer to the @ref memory_resource to use. The container will acquire shared ownership of the memory resource. */ BOOST_JSON_DECL object( object&& other, storage_ptr sp); /** Pilfer constructor. The object is constructed by acquiring ownership of the contents of `other` using pilfer semantics. This is more efficient than move construction, when it is known that the moved-from object will be immediately destroyed afterwards. @par Complexity Constant. @par Exception Safety No-throw guarantee. @param other The value to pilfer. After pilfer construction, `other` is not in a usable state and may only be destroyed. @see @ref pilfer, Valueless Variants Considered Harmful */ object(pilfered other) noexcept : sp_(std::move(other.get().sp_)) , t_(detail::exchange( other.get().t_, &empty_)) { } /** Copy constructor. The object is constructed with a copy of the contents of `other`, using `other`'s memory resource. @par Complexity Linear in `other.size()`. @par Exception Safety Strong guarantee. Calls to `memory_resource::allocate` may throw. @param other The object to copy. */ object( object const& other) : object(other, other.sp_) { } /** Copy constructor. The object is constructed with a copy of the contents of `other`, using the specified memory resource. @par Complexity Linear in `other.size()`. @par Exception Safety Strong guarantee. Calls to `memory_resource::allocate` may throw. @param other The object to copy. @param sp A pointer to the @ref memory_resource to use. The container will acquire shared ownership of the memory resource. */ BOOST_JSON_DECL object( object const& other, storage_ptr sp); /** Construct from initializer-list. The object is constructed with a copy of the values in the initializer-list in order, using the specified memory resource. If there are elements with duplicate keys; that is, if multiple elements in the range have keys that compare equal, only the first equivalent element will be inserted. @par Complexity Linear in `init.size()`. @par Exception Safety Strong guarantee. Calls to `memory_resource::allocate` may throw. @param init The initializer list to insert. @param sp A pointer to the @ref memory_resource to use. The container will acquire shared ownership of the memory resource. */ object( std::initializer_list< std::pair> init, storage_ptr sp = {}) : object(init, 0, std::move(sp)) { } /** Construct from initializer-list. Storage for at least `min_capacity` elements is reserved, and then the object is constructed with a copy of the values in the initializer-list in order, using the specified memory resource. If there are elements with duplicate keys; that is, if multiple elements in the range have keys that compare equal, only the first equivalent element will be inserted. @par Complexity Linear in `init.size()`. @par Exception Safety Strong guarantee. Calls to `memory_resource::allocate` may throw. @param init The initializer list to insert. @param min_capacity The minimum number of elements for which capacity is guaranteed without a subsequent reallocation. Upon construction, @ref capacity() will be greater than or equal to this number. @param sp A pointer to the @ref memory_resource to use. The container will acquire shared ownership of the memory resource. */ BOOST_JSON_DECL object( std::initializer_list< std::pair> init, std::size_t min_capacity, storage_ptr sp = {}); //------------------------------------------------------ // // Assignment // //------------------------------------------------------ /** Copy assignment. The contents of the object are replaced with an element-wise copy of `other`. @par Complexity Linear in @ref size() plus `other.size()`. @par Exception Safety Strong guarantee. Calls to `memory_resource::allocate` may throw. @param other The object to copy. */ BOOST_JSON_DECL object& operator=(object const& other); /** Move assignment. The contents of the object are replaced with the contents of `other` using move semantics: @li If `*other.storage() == *sp`, ownership of the underlying memory is transferred in constant time, with no possibility of exceptions. After assignment, the moved-from object behaves as if newly constructed with its current storage pointer. @li If `*other.storage() != *sp`, an element-wise copy is performed, which may throw. In this case, the moved-from object is not changed. @par Complexity Constant or linear in @ref size() plus `other.size()`. @par Exception Safety Strong guarantee. Calls to `memory_resource::allocate` may throw. @param other The object to move. */ BOOST_JSON_DECL object& operator=(object&& other); /** Assignment. Replaces the contents with the contents of an initializer list. @par Complexity Linear in @ref size() plus average case linear in `init.size()`, worst case quadratic in `init.size()`. @par Exception Safety Strong guarantee. Calls to `memory_resource::allocate` may throw. @param init The initializer list to copy. */ BOOST_JSON_DECL object& operator=(std::initializer_list< std::pair> init); //------------------------------------------------------ /** Return the associated @ref memory_resource This returns the @ref memory_resource used by the container. @par Complexity Constant. @par Exception Safety No-throw guarantee. */ storage_ptr const& storage() const noexcept { return sp_; } /** Return the associated @ref memory_resource This function returns an instance of @ref polymorphic_allocator constructed from the associated @ref memory_resource. @par Complexity Constant. @par Exception Safety No-throw guarantee. */ allocator_type get_allocator() const noexcept { return sp_.get(); } //------------------------------------------------------ // // Iterators // //------------------------------------------------------ /** Return an iterator to the first element. If the container is empty, @ref end() is returned. @par Complexity Constant. @par Exception Safety No-throw guarantee. */ inline iterator begin() noexcept; /** Return a const iterator to the first element. If the container is empty, @ref end() is returned. @par Complexity Constant. @par Exception Safety No-throw guarantee. */ inline const_iterator begin() const noexcept; /** Return a const iterator to the first element. If the container is empty, @ref cend() is returned. @par Complexity Constant. @par Exception Safety No-throw guarantee. */ inline const_iterator cbegin() const noexcept; /** Return an iterator to the element following the last element. The element acts as a placeholder; attempting to access it results in undefined behavior. @par Complexity Constant. @par Exception Safety No-throw guarantee. */ inline iterator end() noexcept; /** Return a const iterator to the element following the last element. The element acts as a placeholder; attempting to access it results in undefined behavior. @par Complexity Constant. @par Exception Safety No-throw guarantee. */ inline const_iterator end() const noexcept; /** Return a const iterator to the element following the last element. The element acts as a placeholder; attempting to access it results in undefined behavior. @par Complexity Constant. @par Exception Safety No-throw guarantee. */ inline const_iterator cend() const noexcept; /** Return a reverse iterator to the first element of the reversed container. The pointed-to element corresponds to the last element of the non-reversed container. If the container is empty, @ref rend() is returned. @par Complexity Constant. @par Exception Safety No-throw guarantee. */ inline reverse_iterator rbegin() noexcept; /** Return a const reverse iterator to the first element of the reversed container. The pointed-to element corresponds to the last element of the non-reversed container. If the container is empty, @ref rend() is returned. @par Complexity Constant. @par Exception Safety No-throw guarantee. */ inline const_reverse_iterator rbegin() const noexcept; /** Return a const reverse iterator to the first element of the reversed container. The pointed-to element corresponds to the last element of the non-reversed container. If the container is empty, @ref crend() is returned. @par Complexity Constant. @par Exception Safety No-throw guarantee. */ inline const_reverse_iterator crbegin() const noexcept; /** Return a reverse iterator to the element following the last element of the reversed container. The pointed-to element corresponds to the element preceding the first element of the non-reversed container. This element acts as a placeholder, attempting to access it results in undefined behavior. @par Complexity Constant. @par Exception Safety No-throw guarantee. */ inline reverse_iterator rend() noexcept; /** Return a const reverse iterator to the element following the last element of the reversed container. The pointed-to element corresponds to the element preceding the first element of the non-reversed container. This element acts as a placeholder, attempting to access it results in undefined behavior. @par Complexity Constant. @par Exception Safety No-throw guarantee. */ inline const_reverse_iterator rend() const noexcept; /** Return a const reverse iterator to the element following the last element of the reversed container. The pointed-to element corresponds to the element preceding the first element of the non-reversed container. This element acts as a placeholder, attempting to access it results in undefined behavior. @par Complexity Constant. @par Exception Safety No-throw guarantee. */ inline const_reverse_iterator crend() const noexcept; //------------------------------------------------------ // // Capacity // //------------------------------------------------------ /** Return whether there are no elements. Returns `true` if there are no elements in the container, i.e. @ref size() returns 0. @par Complexity Constant. @par Exception Safety No-throw guarantee. */ inline bool empty() const noexcept; /** Return the number of elements. This returns the number of elements in the container. @par Complexity Constant. @par Exception Safety No-throw guarantee. */ inline std::size_t size() const noexcept; /** Return the maximum number of elements any object can hold The maximum is an implementation-defined number dependent on system or library implementation. This value is a theoretical limit; at runtime, the actual maximum size may be less due to resource limits. @par Complexity Constant. @par Exception Safety No-throw guarantee. */ static constexpr std::size_t max_size() noexcept; /** Return the number of elements that can be held in currently allocated memory This number may be larger than the value returned by @ref size(). @par Complexity Constant. @par Exception Safety No-throw guarantee. */ inline std::size_t capacity() const noexcept; /** Increase the capacity to at least a certain amount. This increases the @ref capacity() to a value that is greater than or equal to `new_capacity`. If `new_capacity > capacity()`, new memory is allocated. Otherwise, the call has no effect. The number of elements and therefore the @ref size() of the container is not changed. \n If new memory is allocated, all iterators including any past-the-end iterators, and all references to the elements are invalidated. Otherwise, no iterators or references are invalidated. @par Complexity Constant or average case linear in @ref size(), worst case quadratic. @par Exception Safety Strong guarantee. Calls to `memory_resource::allocate` may throw. @param new_capacity The new minimum capacity. @throw std::length_error `new_capacity > max_size()` */ void reserve(std::size_t new_capacity) { if(new_capacity <= capacity()) return; rehash(new_capacity); } //------------------------------------------------------ // // Modifiers // //------------------------------------------------------ /** Erase all elements. Erases all elements from the container without changing the capacity. After this call, @ref size() returns zero. All references, pointers, and iterators are invalidated. @par Complexity Linear in @ref size(). @par Exception Safety No-throw guarantee. */ BOOST_JSON_DECL void clear() noexcept; /** Insert elements. Inserts `p`, from which @ref value_type must be constructible. @par Constraints @code std::is_constructible_v @endcode @par Complexity Average case amortized constant, worst case linear in @ref size(). @par Exception Safety Strong guarantee. Calls to `memory_resource::allocate` may throw. @param p The value to insert. @throw std::length_error key is too long. @throw std::length_error @ref size() >= max_size(). @return A pair where `first` is an iterator to the existing or inserted element, and `second` is `true` if the insertion took place or `false` if the assignment took place. */ template::value>::type #endif > std::pair insert(P&& p); /** Insert elements. The elements in the range `{first, last)` whose keys are unique are inserted one at a time, in order. If there are elements with duplicate keys; that is, if multiple elements in the range have keys that compare equal, only the first equivalent element will be inserted. @par Precondition `first` and `last` are not iterators into `*this`. @par Constraints @code std::is_constructible_v::value_type> @endcode @par Complexity Linear in `std::distance(first, last)`. @par Exception Safety Strong guarantee. Calls to `memory_resource::allocate` may throw. @param first An input iterator pointing to the first element to insert, or pointing to the end of the range. @param last An input iterator pointing to the end of the range. @tparam InputIt a type satisfying the requirements of __InputIterator__. */ template< class InputIt #ifndef BOOST_JSON_DOCS ,class = is_inputit #endif > void insert(InputIt first, InputIt last) { insert(first, last, typename std::iterator_traits::iterator_category{}); } /** Insert elements. The elements in the initializer list whose keys are unique are inserted one at a time, in order. If there are elements with duplicate keys; that is, if multiple elements in the range have keys that compare equal, only the first equivalent element will be inserted. @par Complexity Linear in `init.size()`. @par Exception Safety Strong guarantee. Calls to `memory_resource::allocate` may throw. @param init The initializer list to insert */ BOOST_JSON_DECL void insert(std::initializer_list< std::pair> init); /** Insert an element or assign to the current element if the key already exists. If the key equivalent to `key` already exists in the container. assigns `std::forward(obj)` to the `mapped type` corresponding to the key. Otherwise, inserts the new value at the end as if by insert, constructing it from `value_type(key, std::forward(obj))`. If the insertion occurs and results in a rehashing of the container, all iterators are invalidated. Otherwise, iterators are not affected. References are not invalidated. Rehashing occurs only if the new number of elements is greater than @ref capacity(). @par Complexity Amortized constant on average, worst case linear in @ref size(). @par Exception Safety Strong guarantee. Calls to `memory_resource::allocate` may throw. @return A `std::pair` where `first` is an iterator to the existing or inserted element, and `second` is `true` if the insertion took place or `false` if the assignment took place. @param key The key used for lookup and insertion @param m The value to insert or assign @throw std::length_error if key is too long */ template std::pair insert_or_assign( string_view key, M&& m); /** Construct an element in-place. Inserts a new element into the container constructed in-place with the given argument if there is no element with the key in the container. The element is inserted after all the existing elements. If the insertion occurs and results in a rehashing of the container, all iterators are invalidated. Otherwise, iterators are not affected. References are not invalidated. Rehashing occurs only if the new number of elements is greater than @ref capacity(). @par Complexity Amortized constant on average, worst case linear in @ref size(). @par Exception Safety Strong guarantee. Calls to `memory_resource::allocate` may throw. @return A `std::pair` where `first` is an iterator to the existing or inserted element, and `second` is `true` if the insertion took place or `false` if the assignment took place. @param key The key used for lookup and insertion @param arg The argument used to construct the value. This will be passed as `std::forward(arg)` to the @ref value constructor. @throw std::length_error if key is too long */ template std::pair emplace(string_view key, Arg&& arg); /** Erase an element Remove the element pointed to by `pos`, which must be valid and dereferenceable. Thus the @ref end() iterator (which is valid but cannot be dereferenced) cannot be used as a value for `pos`. References and iterators to the erased element are invalidated. Other iterators and references are not invalidated. @par Complexity Constant on average, worst case linear in @ref size(). @par Exception Safety No-throw guarantee. @return An iterator following the last removed element. @param pos An iterator pointing to the element to be removed. */ BOOST_JSON_DECL iterator erase(const_iterator pos) noexcept; /** Erase an element Remove the element which matches `key`, if it exists. References and iterators to the erased element are invalidated. Other iterators and references are not invalidated. @par Complexity Constant on average, worst case linear in @ref size(). @par Exception Safety No-throw guarantee. @return The number of elements removed, which will be either 0 or 1. @param key The key to match. */ BOOST_JSON_DECL std::size_t erase(string_view key) noexcept; /** Swap two objects. Exchanges the contents of this object with another object. Ownership of the respective @ref memory_resource objects is not transferred. @li If `*other.storage() == *this->storage()`, ownership of the underlying memory is swapped in constant time, with no possibility of exceptions. All iterators and references remain valid. @li If `*other.storage() != *this->storage()`, the contents are logically swapped by making copies, which can throw. In this case all iterators and references are invalidated. @par Complexity Constant or linear in @ref size() plus `other.size()`. @par Exception Safety Strong guarantee. Calls to `memory_resource::allocate` may throw. @param other The object to swap with. If `this == &other`, this function call has no effect. */ BOOST_JSON_DECL void swap(object& other); /** Swap two objects. Exchanges the contents of the object `lhs` with another object `rhs`. Ownership of the respective @ref memory_resource objects is not transferred. @li If `*lhs.storage() == *rhs.storage()`, ownership of the underlying memory is swapped in constant time, with no possibility of exceptions. All iterators and references remain valid. @li If `*lhs.storage() != *rhs.storage()`, the contents are logically swapped by making a copy, which can throw. In this case all iterators and references are invalidated. @par Effects @code lhs.swap( rhs ); @endcode @par Complexity Constant or linear in `lhs.size() + rhs.size()`. @par Exception Safety Strong guarantee. Calls to `memory_resource::allocate` may throw. @param lhs The object to exchange. @param rhs The object to exchange. If `&lhs == &rhs`, this function call has no effect. @see @ref object::swap */ friend void swap(object& lhs, object& rhs) { lhs.swap(rhs); } //------------------------------------------------------ // // Lookup // //------------------------------------------------------ /** Access the specified element, with bounds checking. Returns a reference to the mapped value of the element that matches `key`, otherwise throws. @par Complexity Constant on average, worst case linear in @ref size(). @par Exception Safety Strong guarantee. @return A reference to the mapped value. @param key The key of the element to find. @throw std::out_of_range if no such element exists. */ inline value& at(string_view key); /** Access the specified element, with bounds checking. Returns a constant reference to the mapped value of the element that matches `key`, otherwise throws. @par Complexity Constant on average, worst case linear in @ref size(). @par Exception Safety Strong guarantee. @return A reference to the mapped value. @param key The key of the element to find. @throw std::out_of_range if no such element exists. */ inline value const& at(string_view key) const; /** Access or insert the specified element Returns a reference to the value that is mapped to a key equivalent to key, performing an insertion of a null value if such key does not already exist. \n If an insertion occurs and results in a rehashing of the container, all iterators are invalidated. Otherwise iterators are not affected. References are not invalidated. Rehashing occurs only if the new number of elements is greater than @ref capacity(). @par Complexity Constant on average, worst case linear in @ref size(). @par Exception Safety Strong guarantee. Calls to `memory_resource::allocate` may throw. @return A reference to the mapped value. @param key The key of the element to find. */ BOOST_JSON_DECL value& operator[](string_view key); /** Count the number of elements with a specific key This function returns the count of the number of elements match `key`. The only possible return values are 0 and 1. @par Complexity Constant on average, worst case linear in @ref size(). @par Exception Safety No-throw guarantee. @param key The key of the element to find. */ BOOST_JSON_DECL std::size_t count(string_view key) const noexcept; /** Find an element with a specific key This function returns an iterator to the element matching `key` if it exists, otherwise returns @ref end(). @par Complexity Constant on average, worst case linear in @ref size(). @par Exception Safety No-throw guarantee. @param key The key of the element to find. */ BOOST_JSON_DECL iterator find(string_view key) noexcept; /** Find an element with a specific key This function returns a constant iterator to the element matching `key` if it exists, otherwise returns @ref end(). @par Complexity Constant on average, worst case linear in @ref size(). @par Exception Safety No-throw guarantee. @param key The key of the element to find. */ BOOST_JSON_DECL const_iterator find(string_view key) const noexcept; /** Return `true` if the key is found This function returns `true` if a key with the specified string is found. @par Effects @code return this->find(key) != this->end(); @endcode @par Complexity Constant on average, worst case linear in @ref size(). @par Exception Safety No-throw guarantee. @param key The key of the element to find. @see @ref find */ BOOST_JSON_DECL bool contains(string_view key) const noexcept; /** Return a pointer to the value if the key is found, or null This function searches for a value with the given key, and returns a pointer to it if found. Otherwise it returns null. @par Example @code if( auto p = obj.if_contains( "key" ) ) std::cout << *p; @endcode @par Complexity Constant on average, worst case linear in @ref size(). @par Exception Safety No-throw guarantee. @param key The key of the element to find. @see @ref find */ BOOST_JSON_DECL value const* if_contains(string_view key) const noexcept; /** Return a pointer to the value if the key is found, or null This function searches for a value with the given key, and returns a pointer to it if found. Otherwise it returns null. @par Example @code if( auto p = obj.if_contains( "key" ) ) std::cout << *p; @endcode @par Complexity Constant on average, worst case linear in @ref size(). @par Exception Safety No-throw guarantee. @param key The key of the element to find. @see @ref find */ BOOST_JSON_DECL value* if_contains(string_view key) noexcept; /** Return `true` if two objects are equal. Objects are equal when their sizes are the same, and when for each key in `lhs` there is a matching key in `rhs` with the same value. @par Complexity Constant, or linear (worst case quadratic) in `lhs.size()`. @par Exception Safety No-throw guarantee. */ // inline friend speeds up overload resolution friend bool operator==( object const& lhs, object const& rhs) noexcept { return lhs.equal(rhs); } /** Return `true` if two objects are not equal. Objects are equal when their sizes are the same, and when for each key in `lhs` there is a matching key in `rhs` with the same value. @par Complexity Constant, or linear (worst case quadratic) in `lhs.size()`. @par Exception Safety No-throw guarantee. */ // inline friend speeds up overload resolution friend bool operator!=( object const& lhs, object const& rhs) noexcept { return ! (lhs == rhs); } private: template void construct( InputIt first, InputIt last, std::size_t min_capacity, std::input_iterator_tag); template void construct( InputIt first, InputIt last, std::size_t min_capacity, std::forward_iterator_tag); template void insert( InputIt first, InputIt last, std::input_iterator_tag); template void insert( InputIt first, InputIt last, std::forward_iterator_tag); BOOST_JSON_DECL std::pair find_impl(string_view key) const noexcept; BOOST_JSON_DECL std::pair insert_impl( pilfered p); BOOST_JSON_DECL key_value_pair* insert_impl( pilfered p, std::size_t hash); BOOST_JSON_DECL void rehash(std::size_t new_capacity); BOOST_JSON_DECL bool equal(object const& other) const noexcept; inline std::size_t growth( std::size_t new_size) const; inline void remove( index_t& head, key_value_pair& p) noexcept; inline void destroy() noexcept; inline void destroy( key_value_pair* first, key_value_pair* last) noexcept; }; BOOST_JSON_NS_END // std::hash specialization #ifndef BOOST_JSON_DOCS namespace std { template <> struct hash< ::boost::json::object > { BOOST_JSON_DECL std::size_t operator()(::boost::json::object const& jo) const noexcept; }; } // std #endif // Must be included here for this file to stand alone #include // includes are at the bottom of #endif