//# This file is a part of toml++ and is subject to the the terms of the MIT license. //# Copyright (c) 2019-2020 Mark Gillard //# See https://github.com/marzer/tomlplusplus/blob/master/LICENSE for the full license text. // SPDX-License-Identifier: MIT #pragma once #include "toml_value.h" TOML_PUSH_WARNINGS TOML_DISABLE_MISC_WARNINGS TOML_IMPL_NAMESPACE_START { template class TOML_TRIVIAL_ABI array_iterator final { private: friend class ::toml::array; using raw_mutable_iterator = std::vector>::iterator; using raw_const_iterator = std::vector>::const_iterator; using raw_iterator = std::conditional_t; mutable raw_iterator raw_; array_iterator(raw_mutable_iterator raw) noexcept : raw_{ raw } {} template > TOML_NODISCARD_CTOR array_iterator(raw_const_iterator raw) noexcept : raw_{ raw } {} public: using value_type = std::conditional_t; using reference = value_type&; using pointer = value_type*; using difference_type = ptrdiff_t; array_iterator() noexcept = default; array_iterator(const array_iterator&) noexcept = default; array_iterator& operator = (const array_iterator&) noexcept = default; array_iterator& operator++() noexcept // ++pre { ++raw_; return *this; } array_iterator operator++(int) noexcept // post++ { array_iterator out{ raw_ }; ++raw_; return out; } array_iterator& operator--() noexcept // --pre { --raw_; return *this; } array_iterator operator--(int) noexcept // post-- { array_iterator out{ raw_ }; --raw_; return out; } [[nodiscard]] reference operator * () const noexcept { return *raw_->get(); } [[nodiscard]] pointer operator -> () const noexcept { return raw_->get(); } array_iterator& operator += (ptrdiff_t rhs) noexcept { raw_ += rhs; return *this; } array_iterator& operator -= (ptrdiff_t rhs) noexcept { raw_ -= rhs; return *this; } [[nodiscard]] friend constexpr array_iterator operator + (const array_iterator& lhs, ptrdiff_t rhs) noexcept { return { lhs.raw_ + rhs }; } [[nodiscard]] friend constexpr array_iterator operator + (ptrdiff_t lhs, const array_iterator& rhs) noexcept { return { rhs.raw_ + lhs }; } [[nodiscard]] friend constexpr array_iterator operator - (const array_iterator& lhs, ptrdiff_t rhs) noexcept { return { lhs.raw_ - rhs }; } [[nodiscard]] friend constexpr ptrdiff_t operator - (const array_iterator& lhs, const array_iterator& rhs) noexcept { return lhs.raw_ - rhs.raw_; } [[nodiscard]] friend constexpr bool operator == (const array_iterator& lhs, const array_iterator& rhs) noexcept { return lhs.raw_ == rhs.raw_; } [[nodiscard]] friend constexpr bool operator != (const array_iterator& lhs, const array_iterator& rhs) noexcept { return lhs.raw_ != rhs.raw_; } [[nodiscard]] friend constexpr bool operator < (const array_iterator& lhs, const array_iterator& rhs) noexcept { return lhs.raw_ < rhs.raw_; } [[nodiscard]] friend constexpr bool operator <= (const array_iterator& lhs, const array_iterator& rhs) noexcept { return lhs.raw_ <= rhs.raw_; } [[nodiscard]] friend constexpr bool operator > (const array_iterator& lhs, const array_iterator& rhs) noexcept { return lhs.raw_ > rhs.raw_; } [[nodiscard]] friend constexpr bool operator >= (const array_iterator& lhs, const array_iterator& rhs) noexcept { return lhs.raw_ >= rhs.raw_; } [[nodiscard]] reference operator[] (ptrdiff_t idx) const noexcept { return *(raw_ + idx)->get(); } TOML_PUSH_WARNINGS TOML_DISABLE_ALL_WARNINGS template > [[nodiscard]] operator array_iterator() const noexcept { return array_iterator{ raw_ }; } TOML_POP_WARNINGS }; template [[nodiscard]] TOML_ATTR(returns_nonnull) auto* make_node_specialized(T&& val) noexcept { using type = unwrap_node>; static_assert(!std::is_same_v); if constexpr (is_one_of) { return new type{ std::forward(val) }; } else { static_assert( !is_wide_string || TOML_WINDOWS_COMPAT, "Instantiating values from wide-character strings is only " "supported on Windows with TOML_WINDOWS_COMPAT enabled." ); static_assert( is_native || is_losslessly_convertible_to_native, "Value initializers must be (or be promotable to) one of the TOML value types" ); if constexpr (is_wide_string) { #if TOML_WINDOWS_COMPAT return new value{ narrow(std::forward(val)) }; #else static_assert(dependent_false, "Evaluated unreachable branch!"); #endif } else return new value{ std::forward(val) }; } } template [[nodiscard]] TOML_ATTR(returns_nonnull) auto* make_node(T&& val) noexcept { using type = unwrap_node>; if constexpr (std::is_same_v) { return std::forward(val).visit([](auto&& concrete) noexcept { return static_cast(make_node_specialized(std::forward(concrete))); }); } else return make_node_specialized(std::forward(val)); } template [[nodiscard]] TOML_ATTR(returns_nonnull) auto* make_node(inserter&& val) noexcept { return make_node(std::move(val.value)); } } TOML_IMPL_NAMESPACE_END TOML_NAMESPACE_START { /// \brief A RandomAccessIterator for iterating over elements in a toml::array. using array_iterator = impl::array_iterator; /// \brief A RandomAccessIterator for iterating over const elements in a toml::array. using const_array_iterator = impl::array_iterator; /// \brief A TOML array. /// /// \detail The interface of this type is modeled after std::vector, with some /// additional considerations made for the heterogeneous nature of a /// TOML array. /// /// \godbolt{sjK4da} /// /// \cpp /// /// toml::table tbl = toml::parse(R"( /// arr = [1, 2, 3, 4, 'five'] /// )"sv); /// /// // get the element as an array /// toml::array& arr = *tbl.get_as("arr"); /// std::cout << arr << "\n"; /// /// // increment each element with visit() /// for (auto&& elem : arr) /// { /// elem.visit([](auto&& el) noexcept /// { /// if constexpr (toml::is_number) /// (*el)++; /// else if constexpr (toml::is_string) /// el = "six"sv; /// }); /// } /// std::cout << arr << "\n"; /// /// // add and remove elements /// arr.push_back(7); /// arr.push_back(8.0f); /// arr.push_back("nine"sv); /// arr.erase(arr.cbegin()); /// std::cout << arr << "\n"; /// /// // emplace elements /// arr.emplace_back("ten"); /// arr.emplace_back(11, 12.0); /// std::cout << arr << "\n"; /// /// \ecpp /// /// \out /// [ 1, 2, 3, 4, 'five' ] /// [ 2, 3, 4, 5, 'six' ] /// [ 3, 4, 5, 'six', 7, 8.0, 'nine' ] /// [ 3, 4, 5, 'six', 7, 8.0, 'nine', 'ten', [ 11, 12.0 ] ] /// \eout class TOML_API array final : public node { private: friend class TOML_PARSER_TYPENAME; std::vector> elements; void preinsertion_resize(size_t idx, size_t count) noexcept; public: using value_type = node; using size_type = size_t; using difference_type = ptrdiff_t; using reference = node&; using const_reference = const node&; /// \brief A RandomAccessIterator for iterating over elements in a toml::array. using iterator = array_iterator; /// \brief A RandomAccessIterator for iterating over const elements in a toml::array. using const_iterator = const_array_iterator; /// \brief Default constructor. TOML_NODISCARD_CTOR array() noexcept; /// \brief Copy constructor. TOML_NODISCARD_CTOR array(const array&) noexcept; /// \brief Move constructor. TOML_NODISCARD_CTOR array(array&& other) noexcept; /// \brief Copy-assignment operator. array& operator= (const array&) noexcept; /// \brief Move-assignment operator. array& operator= (array&& rhs) noexcept; /// \brief Constructs an array with one or more initial elements. /// /// \detail \cpp /// auto arr = toml::array{ 1, 2.0, "three"sv, toml::array{ 4, 5 } }; /// std::cout << arr << "\n"; /// /// \ecpp /// /// \out /// [ 1, 2.0, 'three', [ 4, 5 ] ] /// \eout /// /// \remark \parblock If you need to construct an array with one child array element, the array's move constructor /// will take precedence and perform a move-construction instead. You can use toml::inserter to /// suppress this behaviour: \cpp /// // desired result: [ [ 42 ] ] /// auto bad = toml::array{ toml::array{ 42 } } /// auto good = toml::array{ toml::inserter{ toml::array{ 42 } } } /// std::cout << "bad: " << bad << "\n"; /// std::cout << "good:" << good << "\n"; /// \ecpp /// /// \out /// bad: [ 42 ] /// good: [ [ 42 ] ] /// \eout /// /// \endparblock /// /// \tparam ElemType One of the TOML node or value types (or a type promotable to one). /// \tparam ElemTypes One of the TOML node or value types (or a type promotable to one). /// \param val The node or value used to initialize element 0. /// \param vals The nodes or values used to initialize elements 1...N. template 0_sz) || !std::is_same_v, array> >> TOML_NODISCARD_CTOR explicit array(ElemType&& val, ElemTypes&&... vals) { elements.reserve(sizeof...(ElemTypes) + 1_sz); elements.emplace_back(impl::make_node(std::forward(val))); if constexpr (sizeof...(ElemTypes) > 0) { ( elements.emplace_back(impl::make_node(std::forward(vals))), ... ); } } /// \brief Always returns node_type::array for array nodes. [[nodiscard]] node_type type() const noexcept override; /// \brief Always returns `false` for array nodes. [[nodiscard]] bool is_table() const noexcept override; /// \brief Always returns `true` for array nodes. [[nodiscard]] bool is_array() const noexcept override; /// \brief Always returns `false` for array nodes. [[nodiscard]] bool is_value() const noexcept override; [[nodiscard]] array* as_array() noexcept override; [[nodiscard]] const array* as_array() const noexcept override; /// \brief Checks if the array contains elements of only one type. /// /// \detail \cpp /// auto arr = toml::array{ 1, 2, 3 }; /// std::cout << "homogenous: "sv << arr.is_homogeneous(toml::node_type::none) << "\n"; /// std::cout << "all floats: "sv << arr.is_homogeneous(toml::node_type::floating_point) << "\n"; /// std::cout << "all arrays: "sv << arr.is_homogeneous(toml::node_type::array) << "\n"; /// std::cout << "all ints: "sv << arr.is_homogeneous(toml::node_type::integer) << "\n"; /// /// \ecpp /// /// \out /// homogeneous: true /// all floats: false /// all arrays: false /// all ints: true /// \eout /// /// \param type A TOML node type.
/// toml::node_type::none: "is every node the same type?"
/// Anything else: "is every node one of these?" /// /// \returns True if the array was homogeneous. /// /// \remarks Always returns `false` for empty arrays. [[nodiscard]] bool is_homogeneous(node_type type) const noexcept; /// \brief Checks if the array contains elements of only one type. /// /// \detail \cpp /// auto arr = toml::array{ 1, 2, 3 }; /// std::cout << "homogenous: "sv << arr.is_homogeneous() << "\n"; /// std::cout << "all doubles: "sv << arr.is_homogeneous() << "\n"; /// std::cout << "all arrays: "sv << arr.is_homogeneous() << "\n"; /// std::cout << "all integers: "sv << arr.is_homogeneous() << "\n"; /// /// \ecpp /// /// \out /// homogeneous: true /// all doubles: false /// all arrays: false /// all integers: true /// \eout /// /// \tparam ElemType A TOML node or value type.
/// Left as `void`: "is every node the same type?"
/// Explicitly specified: "is every node a T?" /// /// \returns True if the array was homogeneous. /// /// \remarks Always returns `false` for empty arrays. template [[nodiscard]] bool is_homogeneous() const noexcept { using type = impl::unwrap_node; static_assert( std::is_void_v || ((impl::is_native || impl::is_one_of) && !impl::is_cvref), "The template type argument of array::is_homogeneous() must be void or one of:" TOML_SA_UNWRAPPED_NODE_TYPE_LIST ); if constexpr (std::is_void_v) return is_homogeneous(node_type::none); else return is_homogeneous(impl::node_type_of); } /// \brief Returns true if this array contains only tables. [[nodiscard]] bool is_array_of_tables() const noexcept override; /// \brief Gets a reference to the element at a specific index. [[nodiscard]] node& operator[] (size_t index) noexcept; /// \brief Gets a reference to the element at a specific index. [[nodiscard]] const node& operator[] (size_t index) const noexcept; /// \brief Returns a reference to the first element in the array. [[nodiscard]] node& front() noexcept; /// \brief Returns a reference to the first element in the array. [[nodiscard]] const node& front() const noexcept; /// \brief Returns a reference to the last element in the array. [[nodiscard]] node& back() noexcept; /// \brief Returns a reference to the last element in the array. [[nodiscard]] const node& back() const noexcept; /// \brief Returns an iterator to the first element. [[nodiscard]] iterator begin() noexcept; /// \brief Returns an iterator to the first element. [[nodiscard]] const_iterator begin() const noexcept; /// \brief Returns an iterator to the first element. [[nodiscard]] const_iterator cbegin() const noexcept; /// \brief Returns an iterator to one-past-the-last element. [[nodiscard]] iterator end() noexcept; /// \brief Returns an iterator to one-past-the-last element. [[nodiscard]] const_iterator end() const noexcept; /// \brief Returns an iterator to one-past-the-last element. [[nodiscard]] const_iterator cend() const noexcept; /// \brief Returns true if the array is empty. [[nodiscard]] bool empty() const noexcept; /// \brief Returns the number of elements in the array. [[nodiscard]] size_t size() const noexcept; /// \brief Reserves internal storage capacity up to a pre-determined number of elements. void reserve(size_t new_capacity); /// \brief Removes all elements from the array. void clear() noexcept; /// \brief Returns the maximum number of elements that can be stored in an array on the current platform. [[nodiscard]] size_t max_size() const noexcept; /// \brief Returns the current max number of elements that may be held in the array's internal storage. [[nodiscard]] size_t capacity() const noexcept; /// \brief Requests the removal of any unused internal storage capacity. void shrink_to_fit(); /// \brief Inserts a new element at a specific position in the array. /// /// \detail \cpp /// auto arr = toml::array{ 1, 3 }; /// arr.insert(arr.cbegin() + 1, "two"); /// arr.insert(arr.cend(), toml::array{ 4, 5 }); /// std::cout << arr << "\n"; /// /// \ecpp /// /// \out /// [ 1, 'two', 3, [ 4, 5 ] ] /// \eout /// /// \tparam ElemType One of the TOML node or value types (or a type promotable to one). /// \param pos The insertion position. /// \param val The node or value being inserted. /// /// \returns An iterator to the newly-inserted element. template iterator insert(const_iterator pos, ElemType&& val) noexcept { return { elements.emplace(pos.raw_, impl::make_node(std::forward(val))) }; } /// \brief Repeatedly inserts a new element starting at a specific position in the array. /// /// \detail \cpp /// auto arr = toml::array{ /// "with an evil twinkle in its eye the goose said", /// "and immediately we knew peace was never an option." /// }; /// arr.insert(arr.cbegin() + 1, 3, "honk"); /// std::cout << arr << "\n"; /// /// \ecpp /// /// \out /// [ /// 'with an evil twinkle in its eye the goose said', /// 'honk', /// 'honk', /// 'honk', /// 'and immediately we knew peace was never an option.' /// ] /// \eout /// /// \tparam ElemType One of the TOML node or value types (or a type promotable to one). /// \param pos The insertion position. /// \param count The number of times the node or value should be inserted. /// \param val The node or value being inserted. /// /// \returns An iterator to the first newly-inserted element (or a copy of `pos` if count was 0). template iterator insert(const_iterator pos, size_t count, ElemType&& val) noexcept { switch (count) { case 0: return { elements.begin() + (pos.raw_ - elements.cbegin()) }; case 1: return insert(pos, std::forward(val)); default: { const auto start_idx = static_cast(pos.raw_ - elements.cbegin()); preinsertion_resize(start_idx, count); size_t i = start_idx; for (size_t e = start_idx + count - 1_sz; i < e; i++) elements[i].reset(impl::make_node(val)); //# potentially move the initial value into the last element elements[i].reset(impl::make_node(std::forward(val))); return { elements.begin() + static_cast(start_idx) }; } } } /// \brief Inserts a range of elements into the array at a specific position. /// /// \tparam Iter An iterator type. Must satisfy ForwardIterator. /// \param pos The insertion position. /// \param first Iterator to the first node or value being inserted. /// \param last Iterator to the one-past-the-last node or value being inserted. /// /// \returns An iterator to the first newly-inserted element (or a copy of `pos` if `first` >= `last`). template iterator insert(const_iterator pos, Iter first, Iter last) noexcept { const auto count = std::distance(first, last); if (count <= 0) return { elements.begin() + (pos.raw_ - elements.cbegin()) }; else if (count == 1) return insert(pos, *first); else { const auto start_idx = static_cast(pos.raw_ - elements.cbegin()); preinsertion_resize(start_idx, static_cast(count)); size_t i = start_idx; for (auto it = first; it != last; it++) elements[i++].reset(impl::make_node(*it)); return { elements.begin() + static_cast(start_idx) }; } } /// \brief Inserts a range of elements into the array at a specific position. /// /// \tparam ElemType One of the TOML node or value types (or a type promotable to one). /// \param pos The insertion position. /// \param ilist An initializer list containing the values to be inserted. /// /// \returns An iterator to the first newly-inserted element (or a copy of `pos` if `ilist` was empty). template iterator insert(const_iterator pos, std::initializer_list ilist) noexcept { switch (ilist.size()) { case 0: return { elements.begin() + (pos.raw_ - elements.cbegin()) }; case 1: return insert(pos, *ilist.begin()); default: { const auto start_idx = static_cast(pos.raw_ - elements.cbegin()); preinsertion_resize(start_idx, ilist.size()); size_t i = start_idx; for (auto& val : ilist) elements[i++].reset(impl::make_node(val)); return { elements.begin() + static_cast(start_idx) }; } } } /// \brief Emplaces a new element at a specific position in the array. /// /// \detail \cpp /// auto arr = toml::array{ 1, 2 }; /// /// //add a string using std::string's substring constructor /// arr.emplace(arr.cbegin() + 1, "this is not a drill"sv, 14, 5); /// std::cout << arr << "\n"; /// /// \ecpp /// /// \out /// [ 1, 'drill', 2 ] /// \eout /// /// \tparam ElemType One of the TOML node or value types. /// \tparam Args Value constructor argument types. /// \param pos The insertion position. /// \param args Arguments to forward to the value's constructor. /// /// \returns An iterator to the inserted element. /// /// \remarks There is no difference between insert() and emplace() /// for trivial value types (floats, ints, bools). template iterator emplace(const_iterator pos, Args&&... args) noexcept { using type = impl::unwrap_node; static_assert( (impl::is_native || impl::is_one_of) && !impl::is_cvref, "Emplacement type parameter must be one of:" TOML_SA_UNWRAPPED_NODE_TYPE_LIST ); return { elements.emplace(pos.raw_, new impl::wrap_node{ std::forward(args)...} ) }; } /// \brief Removes the specified element from the array. /// /// \detail \cpp /// auto arr = toml::array{ 1, 2, 3 }; /// std::cout << arr << "\n"; /// /// arr.erase(arr.cbegin() + 1); /// std::cout << arr << "\n"; /// /// \ecpp /// /// \out /// [ 1, 2, 3 ] /// [ 1, 3 ] /// \eout /// /// \param pos Iterator to the element being erased. /// /// \returns Iterator to the first element immediately following the removed element. iterator erase(const_iterator pos) noexcept; /// \brief Removes the elements in the range [first, last) from the array. /// /// \detail \cpp /// auto arr = toml::array{ 1, "bad", "karma" 2 }; /// std::cout << arr << "\n"; /// /// arr.erase(arr.cbegin() + 1, arr.cbegin() + 3); /// std::cout << arr << "\n"; /// /// \ecpp /// /// \out /// [ 1, 'bad', 'karma', 3 ] /// [ 1, 3 ] /// \eout /// /// \param first Iterator to the first element being erased. /// \param last Iterator to the one-past-the-last element being erased. /// /// \returns Iterator to the first element immediately following the last removed element. iterator erase(const_iterator first, const_iterator last) noexcept; /// \brief Resizes the array. /// /// \detail \godbolt{W5zqx3} /// /// \cpp /// auto arr = toml::array{ 1, 2, 3 }; /// std::cout << arr << "\n"; /// /// arr.resize(6, 42); /// std::cout << arr << "\n"; /// /// arr.resize(2, 0); /// std::cout << arr << "\n"; /// /// \ecpp /// /// \out /// [ 1, 2, 3 ] /// [ 1, 2, 3, 42, 42, 42 ] /// [ 1, 2 ] /// \eout /// /// \tparam ElemType One of the TOML node or value types (or a type promotable to one). /// /// \param new_size The number of elements the array will have after resizing. /// \param default_init_val The node or value used to initialize new elements if the array needs to grow. template void resize(size_t new_size, ElemType&& default_init_val) noexcept { if (!new_size) elements.clear(); else if (new_size < elements.size()) elements.resize(new_size); else if (new_size > elements.size()) insert(cend(), new_size - elements.size(), std::forward(default_init_val)); } /// \brief Shrinks the array to the given size. /// /// \detail \godbolt{rxEzK5} /// /// \cpp /// auto arr = toml::array{ 1, 2, 3 }; /// std::cout << arr << "\n"; /// /// arr.truncate(5); // no-op /// std::cout << arr << "\n"; /// /// arr.truncate(1); /// std::cout << arr << "\n"; /// /// \ecpp /// /// \out /// [ 1, 2, 3 ] /// [ 1, 2, 3 ] /// [ 1] /// \eout /// /// \remarks Does nothing if the requested size is larger than or equal to the current size. void truncate(size_t new_size); /// \brief Appends a new element to the end of the array. /// /// \detail \cpp /// auto arr = toml::array{ 1, 2 }; /// arr.push_back(3); /// arr.push_back(4.0); /// arr.push_back(toml::array{ 5, "six"sv }); /// std::cout << arr << "\n"; /// /// \ecpp /// /// \out /// [ 1, 2, 3, 4.0, [ 5, 'six' ] ] /// \eout /// /// \tparam ElemType One of the TOML node or value types (or a type promotable to one). /// \param val The node or value being added. /// /// \returns A reference to the newly-constructed element. template decltype(auto) push_back(ElemType&& val) noexcept { auto nde = impl::make_node(std::forward(val)); elements.emplace_back(nde); return *nde; } /// \brief Emplaces a new element at the end of the array. /// /// \detail \cpp /// auto arr = toml::array{ 1, 2 }; /// arr.emplace_back(3, "four"sv); /// std::cout << arr << "\n"; /// /// \ecpp /// /// \out /// [ 1, 2, [ 3, 'four' ] ] /// \eout /// /// \tparam ElemType One of the TOML node or value types. /// \tparam Args Value constructor argument types. /// \param args Arguments to forward to the value's constructor. /// /// \returns A reference to the newly-constructed element. /// /// \remarks There is no difference between push_back() and emplace_back() /// For trivial value types (floats, ints, bools). template decltype(auto) emplace_back(Args&&... args) noexcept { using type = impl::unwrap_node; static_assert( (impl::is_native || impl::is_one_of) && !impl::is_cvref, "Emplacement type parameter must be one of:" TOML_SA_UNWRAPPED_NODE_TYPE_LIST ); auto nde = new impl::wrap_node{ std::forward(args)... }; elements.emplace_back(nde); return *nde; } /// \brief Removes the last element from the array. void pop_back() noexcept; /// \brief Gets the element at a specific index. /// /// \detail \cpp /// auto arr = toml::array{ 99, "bottles of beer on the wall" }; /// std::cout << "element [0] exists: "sv << !!arr.get(0) << "\n"; /// std::cout << "element [1] exists: "sv << !!arr.get(1) << "\n"; /// std::cout << "element [2] exists: "sv << !!arr.get(2) << "\n"; /// if (toml::node* val = arr.get(0)) /// std::cout << "element [0] is an "sv << val->type() << "\n"; /// /// \ecpp /// /// \out /// element [0] exists: true /// element [1] exists: true /// element [2] exists: false /// element [0] is an integer /// \eout /// /// \param index The element's index. /// /// \returns A pointer to the element at the specified index if one existed, or nullptr. [[nodiscard]] node* get(size_t index) noexcept; /// \brief Gets the element at a specific index (const overload). /// /// \param index The element's index. /// /// \returns A pointer to the element at the specified index if one existed, or nullptr. [[nodiscard]] const node* get(size_t index) const noexcept; /// \brief Gets the element at a specific index if it is a particular type. /// /// \detail \cpp /// auto arr = toml::array{ 42, "is the meaning of life, apparently."sv }; /// if (toml::value* val = arr.get_as(0)) /// std::cout << "element [0] is an integer with value "sv << *val << "\n"; /// /// \ecpp /// /// \out /// element [0] is an integer with value 42 /// \eout /// /// \tparam ElemType The element's type. /// \param index The element's index. /// /// \returns A pointer to the selected element if it existed and was of the specified type, or nullptr. template [[nodiscard]] impl::wrap_node* get_as(size_t index) noexcept { if (auto val = get(index)) return val->as(); return nullptr; } /// \brief Gets the element at a specific index if it is a particular type (const overload). /// /// \tparam ElemType The element's type. /// \param index The element's index. /// /// \returns A pointer to the selected element if it existed and was of the specified type, or nullptr. template [[nodiscard]] const impl::wrap_node* get_as(size_t index) const noexcept { if (auto val = get(index)) return val->as(); return nullptr; } /// \brief Equality operator. /// /// \param lhs The LHS array. /// \param rhs The RHS array. /// /// \returns True if the arrays contained the same elements. friend bool operator == (const array& lhs, const array& rhs) noexcept; /// \brief Inequality operator. /// /// \param lhs The LHS array. /// \param rhs The RHS array. /// /// \returns True if the arrays did not contain the same elements. friend bool operator != (const array& lhs, const array& rhs) noexcept; private: template [[nodiscard]] static bool container_equality(const array& lhs, const T& rhs) noexcept { using element_type = std::remove_const_t; static_assert( impl::is_native || impl::is_losslessly_convertible_to_native, "Container element type must be (or be promotable to) one of the TOML value types" ); if (lhs.size() != rhs.size()) return false; if (rhs.size() == 0_sz) return true; size_t i{}; for (auto& list_elem : rhs) { const auto elem = lhs.get_as>(i++); if (!elem || *elem != list_elem) return false; } return true; } [[nodiscard]] size_t total_leaf_count() const noexcept; void flatten_child(array&& child, size_t& dest_index) noexcept; public: /// \brief Initializer list equality operator. template [[nodiscard]] friend bool operator == (const array& lhs, const std::initializer_list& rhs) noexcept { return container_equality(lhs, rhs); } TOML_ASYMMETRICAL_EQUALITY_OPS(const array&, const std::initializer_list&, template ) /// \brief Vector equality operator. template [[nodiscard]] friend bool operator == (const array& lhs, const std::vector& rhs) noexcept { return container_equality(lhs, rhs); } TOML_ASYMMETRICAL_EQUALITY_OPS(const array&, const std::vector&, template ) /// \brief Flattens this array, recursively hoisting the contents of child arrays up into itself. /// /// \detail \cpp /// /// auto arr = toml::array{ 1, 2, toml::array{ 3, 4, toml::array{ 5 } }, 6, toml::array{} }; /// std::cout << arr << "\n"; /// /// arr.flatten(); /// std::cout << arr << "\n"; /// /// \ecpp /// /// \out /// [ 1, 2, [ 3, 4, [ 5 ] ], 6, [] ] /// [ 1, 2, 3, 4, 5, 6 ] /// \eout /// /// \remarks Arrays inside child tables are not flattened. /// /// \returns A reference to the array. array& flatten() &; /// \brief Flattens this array, recursively hoisting the contents of child arrays up into itself (rvalue overload). /// \returns An rvalue reference to the array. array&& flatten() && { return static_cast(static_cast(*this).flatten()); } /// \brief Prints the array out to a stream as formatted TOML. template friend std::basic_ostream& operator << (std::basic_ostream&, const array&); }; } TOML_NAMESPACE_END TOML_POP_WARNINGS //TOML_DISABLE_MISC_WARNINGS