boost/static_string/static_string.hpp
// // Copyright (c) 2016-2019 Vinnie Falco (vinnie dot falco at gmail dot com) // Copyright (c) 2019-2020 Krystian Stasiowski (sdkrystian at gmail dot 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/static_string // #ifndef BOOST_STATIC_STRING_STATIC_STRING_HPP #define BOOST_STATIC_STRING_STATIC_STRING_HPP #if defined(__GNUC__) && __GNUC__ >= 8 #pragma GCC diagnostic push #pragma GCC system_header // false positives #pragma GCC diagnostic ignored "-Warray-bounds" #pragma GCC diagnostic ignored "-Wrestrict" #pragma GCC diagnostic ignored "-Wstringop-overflow" #endif #if defined(__GNUC__) && __GNUC__ >= 7 #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wnoexcept-type" #endif // External include guard #ifndef BOOST_STATIC_STRING_CONFIG_HPP #include <boost/static_string/config.hpp> #include <boost/config/workaround.hpp> #endif #include <algorithm> #include <cstdint> #include <cstdio> #include <cwchar> #include <functional> #include <initializer_list> #include <limits> #include <iosfwd> #include <type_traits> namespace boost { namespace static_strings { #ifndef BOOST_STATIC_STRING_DOCS template<std::size_t N, typename CharT, typename Traits> class basic_static_string; //------------------------------------------------------------------------------ // // Aliases // //------------------------------------------------------------------------------ template<std::size_t N> using static_string = basic_static_string<N, char, std::char_traits<char>>; template<std::size_t N> using static_wstring = basic_static_string<N, wchar_t, std::char_traits<wchar_t>>; template<std::size_t N> using static_u16string = basic_static_string<N, char16_t, std::char_traits<char16_t>>; template<std::size_t N> using static_u32string = basic_static_string<N, char32_t, std::char_traits<char32_t>>; #ifdef __cpp_char8_t template<std::size_t N> using static_u8string = basic_static_string<N, char8_t, std::char_traits<char8_t>>; #endif //-------------------------------------------------------------------------- // // Detail // //-------------------------------------------------------------------------- namespace detail { // Find the smallest width integral type that can hold a value as large as N (Glen Fernandes) template<std::size_t N> using smallest_width = typename std::conditional<(N <= (std::numeric_limits<unsigned char>::max)()), unsigned char, typename std::conditional<(N <= (std::numeric_limits<unsigned short>::max)()), unsigned short, typename std::conditional<(N <= (std::numeric_limits<unsigned int>::max)()), unsigned int, typename std::conditional<(N <= (std::numeric_limits<unsigned long>::max)()), unsigned long, typename std::conditional<(N <= (std::numeric_limits<unsigned long long>::max)()), unsigned long long, std::size_t>::type>::type>::type>::type>::type; // std::is_nothrow_convertible is C++20 template<typename To> void is_nothrow_convertible_helper(To) noexcept; // MSVC is unable to parse this as a single expression, so a helper is needed template<typename From, typename To, typename = decltype(is_nothrow_convertible_helper<To>(std::declval<From>()))> struct is_nothrow_convertible_msvc_helper { static const bool value = noexcept(is_nothrow_convertible_helper<To>(std::declval<From>())); }; template<typename From, typename To, typename = void> struct is_nothrow_convertible : std::false_type { }; template<typename From, typename To> struct is_nothrow_convertible<From, To, typename std::enable_if< is_nothrow_convertible_msvc_helper<From, To>::value>::type> : std::true_type { }; // GCC 4.8, 4.9 workaround for void_t to make the defining-type-id dependant template<typename...> struct void_t_helper { using type = void; }; // void_t for c++11 template<typename... Ts> using void_t = typename void_t_helper<Ts...>::type; template <class T, typename CharT, typename = void> struct is_string_like : std::false_type {}; template<typename T, typename CharT> struct is_string_like< T, CharT, void_t< decltype(std::declval<CharT const*&>() = std::declval<T>().data()), decltype(std::declval<std::size_t&>() = std::declval<T>().size())>> : std::true_type {}; // Check if a type can be used for templated // overloads string_view_type // This will be used by overloads that accept the string_view types // directly and other convertible types such as std::string. // When no string_view type is available, then we check for the // data and size member functions, and use them directly for assignments. template<typename T, typename CharT, typename Traits, typename = void> struct enable_if_viewable { }; template<typename T, typename CharT, typename Traits> struct enable_if_viewable<T, CharT, Traits, typename std::enable_if< #if !defined(BOOST_STATIC_STRING_HAS_ANY_STRING_VIEW) is_string_like<T, CharT>::value #elif defined(BOOST_STATIC_STRING_STANDALONE) std::is_convertible<const T&, std::basic_string_view<CharT, Traits>>::value && !std::is_convertible<const T&, const CharT*>::value #else ( std::is_convertible<const T&, basic_string_view<CharT, Traits>>::value || std::is_convertible<const T&, core::basic_string_view<CharT>>::value ) && !std::is_convertible<const T&, const CharT*>::value #endif >::type> { using type = void; }; template<typename T, typename CharT, typename Traits> using enable_if_viewable_t = typename enable_if_viewable<T, CharT, Traits>::type; // The common string_view type used in private operations with enable_if_viewable_t // - T const& itself when no string_view type is available // - basic_string_view (boost::string_view or std::string_view) when in // standalone because core::detail::string_view is unavailable // - core::detail::basic_string_view otherwise because it's convertible // to and from most types, including std::string_view // After converting a parameter to a common_string_view_type reference, we // can use the data() and size() member functions. #if !defined(BOOST_STATIC_STRING_HAS_ANY_STRING_VIEW) template<typename T, typename CharT, typename Traits> using common_string_view_type = T const&; #elif defined(BOOST_STATIC_STRING_STANDALONE) template<typename T, typename CharT, typename Traits> using common_string_view_type = basic_string_view<CharT, Traits>; #else template <class T, typename CharT, typename Traits, typename = void> struct common_string_view_type_impl {}; template<typename T, typename CharT, typename Traits> struct common_string_view_type_impl< T, CharT, Traits, typename std::enable_if< is_string_like<T, CharT>::value && !std::is_convertible<const T&, basic_string_view<CharT, Traits>>::value && !std::is_convertible<const T&, core::basic_string_view<CharT>>::value>::type> { using type = T const&; }; template<typename T, typename CharT, typename Traits> struct common_string_view_type_impl< T, CharT, Traits, typename std::enable_if< std::is_convertible<const T&, basic_string_view<CharT, Traits>>::value && !std::is_convertible<const T&, core::basic_string_view<CharT>>::value>::type> { using type = basic_string_view<CharT, Traits>; }; template<typename T, typename CharT, typename Traits> struct common_string_view_type_impl< T, CharT, Traits, typename std::enable_if< std::is_convertible<const T&, core::basic_string_view<CharT>>::value>::type> { using type = core::basic_string_view<CharT>; }; template<typename T, typename CharT, typename Traits> using common_string_view_type = typename common_string_view_type_impl<T, CharT, Traits>::type; #endif // Simplified check for if a type is an iterator template<typename T, typename = void> struct is_iterator : std::false_type { }; template<typename T> struct is_iterator<T, typename std::enable_if<std::is_class<T>::value, void_t<typename T::iterator_category>>::type> : std::true_type { }; template<typename T> struct is_iterator<T*, void> : std::true_type { }; template<typename T, typename = void> struct is_input_iterator : std::false_type { }; template<typename T> struct is_input_iterator<T, typename std::enable_if<is_iterator<T>::value && std::is_convertible<typename std::iterator_traits<T>::iterator_category, std::input_iterator_tag>::value>::type> : std::true_type { }; template<typename T, typename = void> struct is_forward_iterator : std::false_type { }; template<typename T> struct is_forward_iterator<T, typename std::enable_if<is_iterator<T>::value && std::is_convertible<typename std::iterator_traits<T>::iterator_category, std::forward_iterator_tag>::value>::type> : std::true_type { }; template<typename T, typename = void> struct is_subtractable : std::false_type { }; template<typename T> struct is_subtractable<T, void_t<decltype(std::declval<T&>() - std::declval<T&>())>> : std::true_type { }; // constexpr distance for c++14 template< typename ForwardIt, typename std::enable_if<!is_subtractable<ForwardIt>::value>::type* = nullptr> BOOST_STATIC_STRING_CPP14_CONSTEXPR std::size_t distance(ForwardIt first, ForwardIt last) { std::size_t dist = 0; for (; first != last; ++first, ++dist); return dist; } template< typename RandomIt, typename std::enable_if<is_subtractable<RandomIt>::value>::type* = nullptr> BOOST_STATIC_STRING_CPP14_CONSTEXPR std::size_t distance(RandomIt first, RandomIt last) { return last - first; } // Copy using traits, respecting iterator rules template<typename Traits, typename InputIt, typename CharT> BOOST_STATIC_STRING_CPP14_CONSTEXPR void copy_with_traits( InputIt first, InputIt last, CharT* out) { for (; first != last; ++first, ++out) Traits::assign(*out, *first); } // Optimization for using the smallest possible type template<std::size_t N, typename CharT, typename Traits> class static_string_base { private: using size_type = smallest_width<N>; using value_type = typename Traits::char_type; using pointer = value_type*; using const_pointer = const value_type*; public: BOOST_STATIC_STRING_CPP11_CONSTEXPR static_string_base() noexcept { }; BOOST_STATIC_STRING_CPP14_CONSTEXPR pointer data_impl() noexcept { return data_; } BOOST_STATIC_STRING_CPP14_CONSTEXPR const_pointer data_impl() const noexcept { return data_; } BOOST_STATIC_STRING_CPP11_CONSTEXPR std::size_t size_impl() const noexcept { return size_; } BOOST_STATIC_STRING_CPP14_CONSTEXPR std::size_t set_size(std::size_t n) noexcept { // Functions that set size will throw // if the new size would exceed max_size() // therefore we can guarantee that this will // not lose data. return size_ = size_type(n); } BOOST_STATIC_STRING_CPP14_CONSTEXPR void term_impl() noexcept { Traits::assign(data_[size_], value_type()); } size_type size_ = 0; value_type data_[N + 1]{}; }; // Optimization for when the size is 0 template<typename CharT, typename Traits> class static_string_base<0, CharT, Traits> { private: using value_type = typename Traits::char_type; using pointer = value_type*; public: BOOST_STATIC_STRING_CPP11_CONSTEXPR static_string_base() noexcept { } // Modifying the null terminator is UB BOOST_STATIC_STRING_CPP11_CONSTEXPR pointer data_impl() const noexcept { return const_cast<pointer>(&null_); } BOOST_STATIC_STRING_CPP11_CONSTEXPR std::size_t size_impl() const noexcept { return 0; } BOOST_STATIC_STRING_CPP11_CONSTEXPR std::size_t set_size(std::size_t) const noexcept { return 0; } BOOST_STATIC_STRING_CPP14_CONSTEXPR void term_impl() const noexcept { } private: static constexpr const value_type null_{}; }; // This is only needed in C++14 and lower. // see http://eel.is/c++draft/depr.static.constexpr #ifndef BOOST_STATIC_STRING_CPP17 template<typename CharT, typename Traits> constexpr const typename static_string_base<0, CharT, Traits>::value_type static_string_base<0, CharT, Traits>:: null_; #endif template<typename CharT, typename Traits> BOOST_STATIC_STRING_CPP14_CONSTEXPR inline int lexicographical_compare( const CharT* s1, std::size_t n1, const CharT* s2, std::size_t n2) noexcept { if(n1 < n2) return Traits::compare( s1, s2, n1) <= 0 ? -1 : 1; if(n1 > n2) return Traits::compare( s1, s2, n2) >= 0 ? 1 : -1; return Traits::compare(s1, s2, n1); } template<typename Traits, typename Integer> inline char* integer_to_string( char* str_end, Integer value, std::true_type) noexcept { if (value == 0) { Traits::assign(*--str_end, '0'); return str_end; } if (value < 0) { const bool is_min = value == (std::numeric_limits<Integer>::min)(); // negation of a min value cannot be represented if (is_min) value = (std::numeric_limits<Integer>::max)(); else value = -value; const auto last_char = str_end - 1; for (; value > 0; value /= 10) Traits::assign(*--str_end, "0123456789"[value % 10]); // minimum values are powers of 2, so it will // never terminate with a 9. if (is_min) Traits::assign(*last_char, Traits::to_char_type( Traits::to_int_type(*last_char) + 1)); Traits::assign(*--str_end, '-'); return str_end; } for (; value > 0; value /= 10) Traits::assign(*--str_end, "0123456789"[value % 10]); return str_end; } template<typename Traits, typename Integer> inline char* integer_to_string( char* str_end, Integer value, std::false_type) noexcept { if (value == 0) { Traits::assign(*--str_end, '0'); return str_end; } for (; value > 0; value /= 10) Traits::assign(*--str_end, "0123456789"[value % 10]); return str_end; } template<typename Traits, typename Integer> inline wchar_t* integer_to_wstring( wchar_t* str_end, Integer value, std::true_type) noexcept { if (value == 0) { Traits::assign(*--str_end, L'0'); return str_end; } if (value < 0) { const bool is_min = value == (std::numeric_limits<Integer>::min)(); // negation of a min value cannot be represented if (is_min) value = (std::numeric_limits<Integer>::max)(); else value = -value; const auto last_char = str_end - 1; for (; value > 0; value /= 10) Traits::assign(*--str_end, L"0123456789"[value % 10]); // minimum values are powers of 2, so it will // never terminate with a 9. if (is_min) Traits::assign(*last_char, Traits::to_char_type( Traits::to_int_type(*last_char) + 1)); Traits::assign(*--str_end, L'-'); return str_end; } for (; value > 0; value /= 10) Traits::assign(*--str_end, L"0123456789"[value % 10]); return str_end; } template<typename Traits, typename Integer> inline wchar_t* integer_to_wstring( wchar_t* str_end, Integer value, std::false_type) noexcept { if (value == 0) { Traits::assign(*--str_end, L'0'); return str_end; } for (; value > 0; value /= 10) Traits::assign(*--str_end, L"0123456789"[value % 10]); return str_end; } template<std::size_t N, typename Integer> inline static_string<N> to_static_string_int_impl(Integer value) noexcept { char buffer[N]; const auto digits_end = std::end(buffer); const auto digits_begin = integer_to_string<std::char_traits<char>, Integer>( digits_end, value, std::is_signed<Integer>{}); return static_string<N>(digits_begin, std::distance(digits_begin, digits_end)); } template<std::size_t N, typename Integer> inline static_wstring<N> to_static_wstring_int_impl(Integer value) noexcept { wchar_t buffer[N]; const auto digits_end = std::end(buffer); const auto digits_begin = integer_to_wstring<std::char_traits<wchar_t>, Integer>( digits_end, value, std::is_signed<Integer>{}); return static_wstring<N>(digits_begin, std::distance(digits_begin, digits_end)); } BOOST_STATIC_STRING_CPP11_CONSTEXPR inline int count_digits(std::size_t value) { return value < 10 ? 1 : count_digits(value / 10) + 1; } // Ignore -Wformat-truncation, we know what // we are doing here. The version check does // not need to be extremely precise. #if defined(__GNUC__) && __GNUC__ >= 7 #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wformat-truncation" #endif template<std::size_t N> inline static_string<N> to_static_string_float_impl(double value) noexcept { // we have to assume here that no reasonable implementation // will require more than 2^63 chars to represent a float value. const long long narrow = static_cast<long long>(N); // extra one needed for null terminator char buffer[N + 1]; // we know that a formatting error will not occur, so // we assume that the result is always positive if (std::size_t(std::snprintf(buffer, N + 1, "%f", value)) > N) { // the + 4 is for the decimal, 'e', // its sign, and the sign of the integral portion const int reserved_count = (std::max)(2, count_digits( std::numeric_limits<double>::max_exponent10)) + 4; const int precision = narrow > reserved_count ? N - reserved_count : 0; // switch to scientific notation std::snprintf(buffer, N + 1, "%.*e", precision, value); } // this will not throw return static_string<N>(buffer); } template<std::size_t N> inline static_string<N> to_static_string_float_impl(long double value) noexcept { // we have to assume here that no reasonable implementation // will require more than 2^63 chars to represent a float value. const long long narrow = static_cast<long long>(N); // extra one needed for null terminator char buffer[N + 1]; // snprintf returns the number of characters // that would have been written // we know that a formatting error will not occur, so // we assume that the result is always positive if (std::size_t(std::snprintf(buffer, N + 1, "%Lf", value)) > N) { // the + 4 is for the decimal, 'e', // its sign, and the sign of the integral portion const int reserved_count = (std::max)(2, count_digits( std::numeric_limits<long double>::max_exponent10)) + 4; const int precision = narrow > reserved_count ? N - reserved_count : 0; // switch to scientific notation std::snprintf(buffer, N + 1, "%.*Le", precision, value); } // this will not throw return static_string<N>(buffer); } template<std::size_t N> inline static_wstring<N> to_static_wstring_float_impl(double value) noexcept { // we have to assume here that no reasonable implementation // will require more than 2^63 chars to represent a float value. const long long narrow = static_cast<long long>(N); // extra one needed for null terminator wchar_t buffer[N + 1]; // swprintf returns a negative number if it can't // fit all the characters in the buffer. // mingw has a non-standard swprintf, so // this just covers all the bases. short // circuit evaluation will ensure that the // second operand is not evaluated on conforming // implementations. const long long num_written = std::swprintf(buffer, N + 1, L"%f", value); if (num_written < 0 || num_written > narrow) { // the + 4 is for the decimal, 'e', // its sign, and the sign of the integral portion const int reserved_count = (std::max)(2, count_digits( std::numeric_limits<double>::max_exponent10)) + 4; const int precision = narrow > reserved_count ? N - reserved_count : 0; // switch to scientific notation std::swprintf(buffer, N + 1, L"%.*e", precision, value); } // this will not throw return static_wstring<N>(buffer); } template<std::size_t N> inline static_wstring<N> to_static_wstring_float_impl(long double value) noexcept { // we have to assume here that no reasonable implementation // will require more than 2^63 chars to represent a float value. const long long narrow = static_cast<long long>(N); // extra one needed for null terminator wchar_t buffer[N + 1]; // swprintf returns a negative number if it can't // fit all the characters in the buffer. // mingw has a non-standard swprintf, so // this just covers all the bases. short // circuit evaluation will ensure that the // second operand is not evaluated on conforming // implementations. const long long num_written = std::swprintf(buffer, N + 1, L"%Lf", value); if (num_written < 0 || num_written > narrow) { // the + 4 is for the decimal, 'e', // its sign, and the sign of the integral portion const int reserved_count = (std::max)(2, count_digits( std::numeric_limits<long double>::max_exponent10)) + 4; const int precision = narrow > reserved_count ? N - reserved_count : 0; // switch to scientific notation std::swprintf(buffer, N + 1, L"%.*Le", precision, value); } // this will not throw return static_wstring<N>(buffer); } #if defined(__GNUC__) && __GNUC__ >= 7 #pragma GCC diagnostic pop #endif template<typename Traits, typename CharT, typename ForwardIterator> BOOST_STATIC_STRING_CPP14_CONSTEXPR inline ForwardIterator find_not_of( ForwardIterator first, ForwardIterator last, const CharT* str, std::size_t n) noexcept { for (; first != last; ++first) if (!Traits::find(str, n, *first)) return first; return last; } // constexpr search for C++14 template<typename ForwardIt1, typename ForwardIt2, typename BinaryPredicate> BOOST_STATIC_STRING_CPP14_CONSTEXPR inline ForwardIt1 search( ForwardIt1 first, ForwardIt1 last, ForwardIt2 s_first, ForwardIt2 s_last, BinaryPredicate p) { for (; ; ++first) { ForwardIt1 it = first; for (ForwardIt2 s_it = s_first; ; ++it, ++s_it) { if (s_it == s_last) return first; if (it == last) return last; if (!p(*it, *s_it)) break; } } } template<typename InputIt, typename ForwardIt, typename BinaryPredicate> BOOST_STATIC_STRING_CPP14_CONSTEXPR inline InputIt find_first_of( InputIt first, InputIt last, ForwardIt s_first, ForwardIt s_last, BinaryPredicate p) { for (; first != last; ++first) for (ForwardIt it = s_first; it != s_last; ++it) if (p(*first, *it)) return first; return last; } // KRYSTIAN TODO: add a constexpr rotate // Check if a pointer lies within the range {src_first, src_last) // without unspecified behavior, allowing it to be used // in a constant evaluation. template<typename T> BOOST_STATIC_STRING_CPP14_CONSTEXPR inline bool ptr_in_range( const T* src_first, const T* src_last, const T* ptr) { #if defined(BOOST_STATIC_STRING_CPP14) && \ defined(BOOST_STATIC_STRING_IS_CONST_EVAL) // Our second best option is to use is_constant_evaluated // and a loop that checks for equality, since equality for // pointer to object types is never unspecified in this case. if (BOOST_STATIC_STRING_IS_CONST_EVAL) { for (; src_first != src_last; ++src_first) if (ptr == src_first) return true; return false; } #endif // We want to make this usable in constant expressions as much as possible // while retaining the guarentee that the comparison has a strict total ordering. // We also want this to be fast. Since different compilers have differing levels // of conformance, we will settle for the best option that is available. // We don't care about this in C++11, since this function would have // no applications in constant expressions. #if defined(BOOST_STATIC_STRING_CPP14) && \ defined(BOOST_STATIC_STRING_NO_PTR_COMP_FUNCTIONS) // If library comparison functions don't work, // we can use try builtin comparison operators instead. return ptr >= src_first && ptr < src_last; #else // Use the library comparison functions if we can't use // is_constant_evaluated or if we don't need to. return std::greater_equal<const T*>()(ptr, src_first) && std::less<const T*>()(ptr, src_last); #endif } // This workaround is for gcc 5, // which prohibits throw expressions in constexpr // functions, but for some reason permits them in // constructors. #ifdef BOOST_STATIC_STRING_GCC5_BAD_CONSTEXPR template<typename Exception> struct throw_exception { BOOST_STATIC_STRING_NORETURN BOOST_STATIC_STRING_CPP14_CONSTEXPR throw_exception(const char* msg) { BOOST_STATIC_STRING_THROW(Exception(msg)); } }; #else template<typename Exception> BOOST_STATIC_STRING_NORETURN inline void throw_exception(const char* msg) { BOOST_STATIC_STRING_THROW(Exception(msg)); } #endif } // detail #endif //-------------------------------------------------------------------------- // // static_string // //-------------------------------------------------------------------------- /** A fixed-capacity string. These objects behave like `std::string` except that the storage is not dynamically allocated but rather fixed in size, and stored in the object itself. These strings offer performance advantages when an algorithm can execute with a reasonable upper limit on the size of a value. @par Aliases The following alias templates are provided for convenience: @code template<std::size_t N> using static_string = basic_static_string<N, char, std::char_traits<char>>; @endcode @code template<std::size_t N> using static_wstring = basic_static_string<N, wchar_t, std::char_traits<wchar_t>>; @endcode @code template<std::size_t N> using static_u16string = basic_static_string<N, char16_t, std::char_traits<char16_t>>; @endcode @code template<std::size_t N> using static_u32string = basic_static_string<N, char32_t, std::char_traits<char32_t>>; @endcode Addtionally, the alias template `static_u8string` is provided in C++20 @code template<std::size_t N> using static_u8string = basic_static_string<N, char8_t, std::char_traits<char8_t>>; @endcode @see to_static_string */ template<std::size_t N, typename CharT, typename Traits = std::char_traits<CharT>> class basic_static_string #ifndef BOOST_STATIC_STRING_DOCS : private detail::static_string_base<N, CharT, Traits> #endif { private: template<std::size_t, class, class> friend class basic_static_string; public: //-------------------------------------------------------------------------- // // Member types // //-------------------------------------------------------------------------- /// The traits type. using traits_type = Traits; /// The character type. using value_type = typename traits_type::char_type; /// The size type. using size_type = std::size_t; /// The difference type. using difference_type = std::ptrdiff_t; /// The pointer type. using pointer = value_type*; /// The reference type. using reference = value_type&; /// The constant pointer type. using const_pointer = const value_type*; /// The constant reference type. using const_reference = const value_type&; /// The iterator type. using iterator = value_type*; /// The constant iterator type. using const_iterator = const value_type*; /// The reverse iterator type. using reverse_iterator = std::reverse_iterator<iterator>; /// The constant reverse iterator type. using const_reverse_iterator = std::reverse_iterator<const_iterator>; #ifdef BOOST_STATIC_STRING_HAS_ANY_STRING_VIEW /// The string view type. using string_view_type = basic_string_view<value_type, traits_type>; #endif //-------------------------------------------------------------------------- // // Constants // //-------------------------------------------------------------------------- /// Maximum size of the string excluding any null terminator static constexpr size_type static_capacity = N; /// A special index static constexpr size_type npos = size_type(-1); //-------------------------------------------------------------------------- // // Construction // //-------------------------------------------------------------------------- /** Constructor. Construct an empty string */ BOOST_STATIC_STRING_CPP11_CONSTEXPR basic_static_string() noexcept { #ifdef BOOST_STATIC_STRING_CPP20 term(); #endif } /** Constructor. Construct the string with `count` copies of character `ch`. The behavior is undefined if `count >= npos` */ BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string( size_type count, value_type ch) { assign(count, ch); } /** Constructor. Construct with a substring (pos, other.size()) of `other`. */ template<std::size_t M> BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string( const basic_static_string<M, CharT, Traits>& other, size_type pos) { assign(other, pos); } /** Constructor. Construct with a substring (pos, count) of `other`. */ template<std::size_t M> BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string( const basic_static_string<M, CharT, Traits>& other, size_type pos, size_type count) { assign(other, pos, count); } /** Constructor. Construct with the first `count` characters of `s`, including nulls. */ BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string( const_pointer s, size_type count) { assign(s, count); } /** Constructor. Construct from a null terminated string. */ BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string(const_pointer s) { assign(s); } /** Constructor. Construct from a range of characters */ template<typename InputIterator #ifndef BOOST_STATIC_STRING_DOCS , typename std::enable_if< detail::is_input_iterator<InputIterator> ::value>::type* = nullptr #endif > BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string( InputIterator first, InputIterator last) { // KRYSTIAN TODO: we can use a better algorithm if this is a forward iterator assign(first, last); } /** Constructor. Copy constructor. */ BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string(const basic_static_string& other) noexcept { assign(other); } /** Constructor. Copy constructor. */ template<std::size_t M> BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string( const basic_static_string<M, CharT, Traits>& other) { assign(other); } /** Constructor. Construct from an initializer list */ BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string(std::initializer_list<value_type> init) { assign(init.begin(), init.size()); } /** Constructor. Construct from a object convertible to `string_view_type` */ template<typename T #ifndef BOOST_STATIC_STRING_DOCS , typename = detail::enable_if_viewable_t<T, CharT, Traits> #endif > explicit BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string(const T& t) { assign(t); } /** Constructor. Construct from any object convertible to `string_view_type`. The range (pos, n) is extracted from the value obtained by converting `t` to `string_view_type`, and used to construct the string. */ template<typename T #ifndef BOOST_STATIC_STRING_DOCS , typename = detail::enable_if_viewable_t<T, CharT, Traits> #endif > BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string( const T& t, size_type pos, size_type n) { assign(t, pos, n); } //-------------------------------------------------------------------------- // // Assignment // //-------------------------------------------------------------------------- /** Assign to the string. Replaces the contents with those of the string `s`. @par Complexity Linear in `s.size()`. @par Exception Safety Strong guarantee. @return `*this` @param s The string to replace the contents with. @throw std::length_error `s.size() > max_size()`. */ BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string& operator=(const basic_static_string& s) { return assign(s); } /** Assign to the string. Replaces the contents with those of the string `s`. @par Complexity Linear in `s.size()`. @par Exception Safety Strong guarantee. @tparam M The size of the other string. @return `*this` @param s The string to replace the contents with. @throw std::length_error `s.size() > max_size()`. */ template<std::size_t M> BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string& operator=(const basic_static_string<M, CharT, Traits>& s) { return assign(s); } /** Assign to the string. Replaces the contents with those of `{s, s + traits_type::length(s))`. @par Complexity Linear in `count`. @par Exception Safety Strong guarantee. @return `*this` @param s A pointer to the string to copy from. @throw std::length_error `traits_type::length(s) > max_size()`. */ BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string& operator=(const_pointer s) { return assign(s); } /** Assign to the string. Replaces the contents with a single copy of the character `ch`. @par Complexity Constant. @par Exception Safety Strong guarantee. @return `*this` @param ch The character to assign to. @throw std::length_error `count > max_size()`. */ BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string& operator=(value_type ch) { return assign_char(ch, std::integral_constant<bool, (N > 0)>{}); } /** Assign to the string. Replaces the contents with those of the initializer list `ilist`. @par Complexity Linear in `init.size()`. @par Exception Safety Strong guarantee. @return `*this` @param ilist The initializer list to copy from. @throw std::length_error `ilist.size() > max_size()`. */ BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string& operator=(std::initializer_list<value_type> ilist) { return assign(ilist); } /** Assign to the string. Replaces the contents with those of `sv`, where `sv` is `string_view_type(t)`. @par Complexity Linear in `sv.size()`. @par Exception Safety Strong guarantee. @note The view can contain null characters. @tparam T A type convertible to `string_view_type`. @par Constraints @code std::is_convertible<const T&, string_view>::value && !std::is_convertible<const T&, const CharT*>::value @endcode @return `*this` @param t The object to assign from. @throw std::length_error `sv.size() > max_size()`. */ template<typename T #ifndef BOOST_STATIC_STRING_DOCS , typename = detail::enable_if_viewable_t<T, CharT, Traits> #endif > BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string& operator=(const T& t) { return assign(t); } /** Assign to the string. Replaces the contents with `count` copies of character `ch`. @par Complexity Linear in `count`. @par Exception Safety Strong guarantee. @return `*this` @param count The size of the resulting string. @param ch The value to initialize characters of the string with. @throw std::length_error `count > max_size()`. */ BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string& assign( size_type count, value_type ch); /** Assign to the string. Replaces the contents with those of the string `s`. @par Complexity Linear in `s.size()`. @par Exception Safety Strong guarantee. @tparam M The size of the other string. @return `*this` @param s The string to replace the contents with. @throw std::length_error `s.size() > max_size()`. */ template<std::size_t M #ifndef BOOST_STATIC_STRING_DOCS , typename std::enable_if<(M < N)>::type* = nullptr #endif > BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string& assign(const basic_static_string<M, CharT, Traits>& s) { return assign_unchecked(s.data(), s.size()); } #ifndef BOOST_STATIC_STRING_DOCS BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string& assign(const basic_static_string& s) noexcept { if (data() == s.data()) return *this; return assign_unchecked(s.data(), s.size()); } template<std::size_t M, typename std::enable_if<(M > N)>::type* = nullptr> BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string& assign(const basic_static_string<M, CharT, Traits>& s) { return assign(s.data(), s.size()); } #endif /** Assign to the string. Replaces the contents with those of the string `sub`, where `sub` is `s.substr(pos, count)`. @par Complexity Linear in `sub.size()`. @par Exception Safety Strong guarantee. @tparam M The capacity of the other string. @return `*this` @param s The string to replace the contents with. @param pos The index at which to begin the substring. @param count The size of the substring. The default argument for this parameter is @ref npos. @throw std::length_error `sub.size() > max_size()`. */ template<std::size_t M> BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string& assign( const basic_static_string<M, CharT, Traits>& s, size_type pos, size_type count = npos) { return assign(s.data() + pos, s.capped_length(pos, count)); } /** Assign to the string. Replaces the contents with those of `{s, s + count)`. @par Complexity Linear in `count`. @par Exception Safety Strong guarantee. @note The range can contain null characters. @return `*this` @param count The number of characters to copy. @param s A pointer to the string to copy from. @throw std::length_error `count > max_size()`. */ BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string& assign( const_pointer s, size_type count); /** Assign to the string. Replaces the contents with those of `{s, s + traits_type::length(s))`. @par Complexity Linear in `count`. @par Exception Safety Strong guarantee. @return `*this` @param s A pointer to the string to copy from. @throw std::length_error `traits_type::length(s) > max_size()`. */ BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string& assign(const_pointer s) { return assign(s, traits_type::length(s)); } /** Assign to the string. Replaces the contents with the characters in the range `{first, last)`. @par Complexity Linear in `std::distance(first, last)`. @par Exception Safety Strong guarantee. @tparam InputIterator The type of the iterators. @par Constraints `InputIterator` satisfies __InputIterator__. @return `*this` @param first An iterator referring to the first character to assign. @param last An iterator past the end of the range to assign from. @throw std::length_error `std::distance(first, last) > max_size()`. */ template<typename InputIterator> BOOST_STATIC_STRING_CPP14_CONSTEXPR #ifdef BOOST_STATIC_STRING_DOCS basic_static_string& #else typename std::enable_if< detail::is_input_iterator<InputIterator>::value, basic_static_string&>::type #endif assign( InputIterator first, InputIterator last); /** Assign to the string. Replaces the contents with those of the initializer list `ilist`. @par Complexity Linear in `init.size()`. @par Exception Safety Strong guarantee. @return `*this` @param ilist The initializer list to copy from. @throw std::length_error `ilist.size() > max_size()`. */ BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string& assign( std::initializer_list<value_type> ilist) { return assign(ilist.begin(), ilist.end()); } /** Assign to the string. Replaces the contents with those of `sv`, where `sv` is `string_view_type(t)`. @par Complexity Linear in `sv.size()`. @par Exception Safety Strong guarantee. @note The view can contain null characters. @tparam T A type convertible to `string_view_type`. @par Constraints @code std::is_convertible<const T&, string_view>::value && !std::is_convertible<const T&, const CharT*>::value @endcode @return `*this` @param t The object to assign from. @throw std::length_error `sv.size() > max_size()`. */ template<typename T #ifndef BOOST_STATIC_STRING_DOCS , typename = detail::enable_if_viewable_t<T, CharT, Traits> #endif > BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string& assign(const T& t) { detail::common_string_view_type<T, CharT, Traits> sv = t; return assign(sv.data(), sv.size()); } /** Assign to the string. Replaces the contents with those of the substring `sv`, where `sv` is `string_view_type(t).substr(pos, count)`. @par Complexity Linear in `sv.size()`. @par Exception Safety Strong guarantee. @note The view can contain null characters. @tparam T A type convertible to `string_view_type`. @par Constraints @code std::is_convertible<const T&, string_view>::value && !std::is_convertible<const T&, const CharT*>::value @endcode @return `*this` @param t The object to assign from. @param pos The index at which to begin the substring. @param count The size of the substring. The default argument for this parameter is @ref npos. @throw std::length_error `sv.size() > max_size()`. */ template<typename T #ifndef BOOST_STATIC_STRING_DOCS , typename = detail::enable_if_viewable_t<T, CharT, Traits> #endif > basic_static_string& assign( const T& t, size_type pos, size_type count = npos) { detail::common_string_view_type<T, CharT, Traits> sv = t; if( pos > sv.size() ) detail::throw_exception<std::out_of_range>( "pos >= t.size()"); std::size_t rlen = (std::min)( count, sv.size() - pos ); return assign(sv.data() + pos, rlen); } //-------------------------------------------------------------------------- // // Element access // //-------------------------------------------------------------------------- /** Access a character with bounds checking. Returns a reference to the character at index `pos`. @par Complexity Constant. @par Exception Safety Strong guarantee. @param pos The index to access. @throw std::out_of_range `pos >= size()` */ BOOST_STATIC_STRING_CPP14_CONSTEXPR reference at(size_type pos) { if (pos >= size()) detail::throw_exception<std::out_of_range>( "pos >= size()"); return data()[pos]; } /** Access a character with bounds checking. Returns a reference to the character at index `pos`. @par Complexity Constant. @par Exception Safety Strong guarantee. @param pos The index to access. @throw std::out_of_range `pos >= size()` */ BOOST_STATIC_STRING_CPP14_CONSTEXPR const_reference at(size_type pos) const { if (pos >= size()) detail::throw_exception<std::out_of_range>( "pos >= size()"); return data()[pos]; } /** Access a character. Returns a reference to the character at index `pos`. @par Complexity Constant. @par Precondition `pos >= size` @param pos The index to access. */ BOOST_STATIC_STRING_CPP14_CONSTEXPR reference operator[](size_type pos) noexcept { return data()[pos]; } /** Access a character. Returns a reference to the character at index `pos`. @par Complexity Constant. @par Precondition `pos >= size` @param pos The index to access. */ BOOST_STATIC_STRING_CPP14_CONSTEXPR const_reference operator[](size_type pos) const noexcept { return data()[pos]; } /** Return the first character. Returns a reference to the first character. @par Complexity Constant. @par Precondition `not empty()` */ BOOST_STATIC_STRING_CPP14_CONSTEXPR reference front() noexcept { return data()[0]; } /** Return the first character. Returns a reference to the first character. @par Complexity Constant. @par Precondition `not empty()` */ BOOST_STATIC_STRING_CPP14_CONSTEXPR const_reference front() const noexcept { return data()[0]; } /** Return the last character. Returns a reference to the last character. @par Complexity Constant. @par Precondition `not empty()` */ BOOST_STATIC_STRING_CPP14_CONSTEXPR reference back() noexcept { return data()[size() - 1]; } /** Return the last character. Returns a reference to the last character. @par Complexity Constant. @par Precondition `not empty()` */ BOOST_STATIC_STRING_CPP14_CONSTEXPR const_reference back() const noexcept { return data()[size() - 1]; } /** Return a pointer to the string. Returns a pointer to the underlying array serving as storage. The value returned is such that the range `{data(), data() + size())` is always a valid range, even if the container is empty. @par Complexity Constant. @note The value returned from this function is never never a null pointer value. */ BOOST_STATIC_STRING_CPP14_CONSTEXPR pointer data() noexcept { return this->data_impl(); } /** Return a pointer to the string. Returns a pointer to the underlying array serving as storage. The value returned is such that the range `{data(), data() + size())` is always a valid range, even if the container is empty. @par Complexity Constant. @note The value returned from this function is never never a null pointer value. */ BOOST_STATIC_STRING_CPP14_CONSTEXPR const_pointer data() const noexcept { return this->data_impl(); } /** Return a pointer to the string. Returns a pointer to the underlying array serving as storage. The value returned is such that the range `{c_str(), c_str() + size())` is always a valid range, even if the container is empty. @par Complexity Constant. @note The value returned from this function is never never a null pointer value. */ BOOST_STATIC_STRING_CPP14_CONSTEXPR const_pointer c_str() const noexcept { return data(); } #ifdef BOOST_STATIC_STRING_DOCS /** Convert to a string view referring to the string. Returns a string view referring to the underlying character string. @par Complexity Constant. */ BOOST_STATIC_STRING_CPP11_CONSTEXPR operator string_view_type() const noexcept { return string_view_type(data(), size()); } #else #ifdef BOOST_STATIC_STRING_HAS_STD_STRING_VIEW BOOST_STATIC_STRING_CPP11_CONSTEXPR operator std::basic_string_view<CharT, Traits>() const noexcept { return std::basic_string_view<CharT, Traits>(data(), size()); } #endif #ifndef BOOST_STATIC_STRING_STANDALONE BOOST_STATIC_STRING_CPP11_CONSTEXPR operator ::boost::basic_string_view<CharT, Traits>() const noexcept { return ::boost::basic_string_view<CharT, Traits>(data(), size()); } BOOST_STATIC_STRING_CPP11_CONSTEXPR operator ::boost::core::basic_string_view<CharT>() const noexcept { return ::boost::core::basic_string_view<CharT>(data(), size()); } #endif #endif //-------------------------------------------------------------------------- // // Iterators // //-------------------------------------------------------------------------- /// Return an iterator to the beginning. BOOST_STATIC_STRING_CPP14_CONSTEXPR iterator begin() noexcept { return data(); } /// Return an iterator to the beginning. BOOST_STATIC_STRING_CPP14_CONSTEXPR const_iterator begin() const noexcept { return data(); } /// Return an iterator to the beginning. BOOST_STATIC_STRING_CPP14_CONSTEXPR const_iterator cbegin() const noexcept { return data(); } /// Return an iterator to the end. BOOST_STATIC_STRING_CPP14_CONSTEXPR iterator end() noexcept { return data() + size(); } /// Return an iterator to the end. BOOST_STATIC_STRING_CPP14_CONSTEXPR const_iterator end() const noexcept { return data() + size(); } /// Return an iterator to the end. BOOST_STATIC_STRING_CPP14_CONSTEXPR const_iterator cend() const noexcept { return data() + size(); } /// Return a reverse iterator to the beginning. BOOST_STATIC_STRING_CPP17_CONSTEXPR reverse_iterator rbegin() noexcept { return reverse_iterator{end()}; } /// Return a reverse iterator to the beginning. BOOST_STATIC_STRING_CPP17_CONSTEXPR const_reverse_iterator rbegin() const noexcept { return const_reverse_iterator{cend()}; } /// Return a reverse iterator to the beginning. BOOST_STATIC_STRING_CPP17_CONSTEXPR const_reverse_iterator crbegin() const noexcept { return const_reverse_iterator{cend()}; } /// Return a reverse iterator to the end. BOOST_STATIC_STRING_CPP17_CONSTEXPR reverse_iterator rend() noexcept { return reverse_iterator{begin()}; } /// Return a reverse iterator to the end. BOOST_STATIC_STRING_CPP17_CONSTEXPR const_reverse_iterator rend() const noexcept { return const_reverse_iterator{cbegin()}; } /// Return a reverse iterator to the end. BOOST_STATIC_STRING_CPP17_CONSTEXPR const_reverse_iterator crend() const noexcept { return const_reverse_iterator{cbegin()}; } //-------------------------------------------------------------------------- // // Capacity // //-------------------------------------------------------------------------- /** Return if the string is empty. Returns whether the string contains no characters. @par Complexity Constant. @return `size() == 0` */ BOOST_STATIC_STRING_NODISCARD BOOST_STATIC_STRING_CPP11_CONSTEXPR bool empty() const noexcept { return size() == 0; } /** Return the size of the string. Returns the number of characters stored in the string, excluding the null terminator. @par Complexity Constant. */ BOOST_STATIC_STRING_CPP11_CONSTEXPR size_type size() const noexcept { return this->size_impl(); } /** Return the size of the string. Returns the number of characters stored in the string, excluding the null terminator. @par Complexity Constant. */ BOOST_STATIC_STRING_CPP11_CONSTEXPR size_type length() const noexcept { return size(); } /** Return the number of characters that can be stored. Returns the maximum size of the string, excluding the null terminator. The returned value is always `N`. @par Complexity Constant. */ BOOST_STATIC_STRING_CPP11_CONSTEXPR size_type max_size() const noexcept { return N; } /** Increase the capacity. This function has no effect. @throw std::length_error `n > max_size()` */ BOOST_STATIC_STRING_CPP14_CONSTEXPR void reserve(size_type n) { if (n > max_size()) detail::throw_exception<std::length_error>( "n > max_size()"); } /** Return the number of characters that can be stored. Returns the maximum size of the string, excluding the null terminator. The returned value is always `N`. @par Complexity Constant. */ BOOST_STATIC_STRING_CPP11_CONSTEXPR size_type capacity() const noexcept { return max_size(); } /** Request the removal of unused capacity. This function has no effect. */ BOOST_STATIC_STRING_CPP14_CONSTEXPR void shrink_to_fit() noexcept { } //-------------------------------------------------------------------------- // // Operations // //-------------------------------------------------------------------------- /** Clear the contents. Erases all characters from the string. After this call, @ref size() returns zero. @par Complexity Linear in @ref size(). @note All references, pointers, or iterators referring to contained elements are invalidated. Any past-the-end iterators are also invalidated. */ BOOST_STATIC_STRING_CPP14_CONSTEXPR void clear() noexcept { this->set_size(0); term(); } /** Insert into the string. Inserts `count` copies of `ch` at the position `index`. @par Exception Safety Strong guarantee. @note All references, pointers, or iterators referring to contained elements are invalidated. Any past-the-end iterators are also invalidated. @return `*this` @param index The index to insert at. @param count The number of characters to insert. @param ch The character to insert. @throw std::length_error `size() + count > max_size()` @throw std::out_of_range `index > size()` */ BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string& insert( size_type index, size_type count, value_type ch) { if (index > size()) detail::throw_exception<std::out_of_range>( "index > size()"); insert(begin() + index, count, ch); return *this; } /** Insert into the string. Inserts the null-terminated character string pointed to by `s` of length `count` at the position `index` where `count` is `traits_type::length(s)`. @par Exception Safety Strong guarantee. @note All references, pointers, or iterators referring to contained elements are invalidated. Any past-the-end iterators are also invalidated. @return `*this` @param index The index to insert at. @param s The string to insert. @throw std::length_error `size() + count > max_size()` @throw std::out_of_range `index > size()` */ BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string& insert( size_type index, const_pointer s) { return insert(index, s, traits_type::length(s)); } /** Insert into the string. Inserts `count` characters of the string pointed to by `s` at the position `index`. @par Exception Safety Strong guarantee. @note All references, pointers, or iterators referring to contained elements are invalidated. Any past-the-end iterators are also invalidated. @return `*this` @param index The index to insert at. @param s The string to insert. @param count The length of the string to insert. @throw std::length_error `size() + count > max_size()` @throw std::out_of_range `index > size()` */ BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string& insert( size_type index, const_pointer s, size_type count) { if (index > size()) detail::throw_exception<std::out_of_range>( "index > size()"); insert(data() + index, s, s + count); return *this; } /** Insert into the string. Inserts the string `str` at the position `index`. @par Exception Safety Strong guarantee. @note The insertion is done unchecked when the capacity of `str` differs from that of the string the function is called on. @note All references, pointers, or iterators referring to contained elements are invalidated. Any past-the-end iterators are also invalidated. @tparam M The size of the input string. @return `*this` @param index The index to insert at. @param str The string to insert. @throw std::length_error `size() + str.size() > max_size()` @throw std::out_of_range `index > size()` */ template<std::size_t M> BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string& insert( size_type index, const basic_static_string<M, CharT, Traits>& str) { return insert_unchecked(index, str.data(), str.size()); } #ifndef BOOST_STATIC_STRING_DOCS BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string& insert( size_type index, const basic_static_string& str) { return insert(index, str.data(), str.size()); } #endif /** Insert into the string. Inserts a string, obtained by `str.substr(index_str, count)` at the position `index`. @par Exception Safety Strong guarantee. @note The insertion is done unchecked when the capacity of `str` differs from that of the string the function is called on. @note All references, pointers, or iterators referring to contained elements are invalidated. Any past-the-end iterators are also invalidated. @tparam M The size of the input string. @return `*this` @param index The index to insert at. @param str The string from which to insert. @param index_str The index in `str` to start inserting from. @param count The number of characters to insert. The default argument for this parameter is @ref npos. @throw std::length_error `size() + str.substr(index_str, count).size() > max_size()` @throw std::out_of_range `index > size()` @throw std::out_of_range `index_str > str.size()` */ template<std::size_t M> BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string& insert( size_type index, const basic_static_string<M, CharT, Traits>& str, size_type index_str, size_type count = npos) { return insert_unchecked(index, str.data() + index_str, str.capped_length(index_str, count)); } #ifndef BOOST_STATIC_STRING_DOCS BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string& insert( size_type index, const basic_static_string& str, size_type index_str, size_type count = npos) { return insert(index, str.data() + index_str, str.capped_length(index_str, count)); } #endif /** Insert into the string. Inserts the character `ch` before the character pointed by `pos`. @par Precondition `pos` shall be vaild within `{data(), data() + size()}` @par Exception Safety Strong guarantee. @note All references, pointers, or iterators referring to contained elements are invalidated. Any past-the-end iterators are also invalidated. @return An iterator which refers to the first inserted character or `pos` if no characters were inserted @param pos The index to insert at. @param ch The character to insert. @throw std::length_error `size() + 1 > max_size()` */ BOOST_STATIC_STRING_CPP14_CONSTEXPR iterator insert( const_iterator pos, value_type ch) { return insert(pos, 1, ch); } /** Insert into the string. Inserts `count` copies of `ch` before the character pointed by `pos`. @par Precondition `pos` shall be valid within `{data(), data() + size()}` @par Exception Safety Strong guarantee. @note All references, pointers, or iterators referring to contained elements are invalidated. Any past-the-end iterators are also invalidated. @return An iterator which refers to the first inserted character or `pos` if no characters were inserted @param pos The position to insert at. @param count The number of characters to insert. @param ch The character to insert. @throw std::length_error `size() + count > max_size()` */ BOOST_STATIC_STRING_CPP14_CONSTEXPR iterator insert( const_iterator pos, size_type count, value_type ch); /** Insert into the string. Inserts characters from the range `{first, last)` before the character pointed to by `pos`. @par Precondition `pos` shall be valid within `{data(), data() + size()}`, `{first, last)` shall be a valid range @par Exception Safety Strong guarantee. @note All references, pointers, or iterators referring to contained elements are invalidated. Any past-the-end iterators are also invalidated. @tparam InputIterator The type of the iterators. @par Constraints `InputIterator` satisfies __InputIterator__ and does not satisfy __ForwardIterator__. @return An iterator which refers to the first inserted character or `pos` if no characters were inserted @param pos The position to insert at. @param first An iterator representing the first character to insert. @param last An iterator representing one past the last character to insert. @throw std::length_error `size() + insert_count > max_size()` */ template<typename InputIterator> BOOST_STATIC_STRING_CPP14_CONSTEXPR #ifdef BOOST_STATIC_STRING_DOCS iterator #else typename std::enable_if< detail::is_input_iterator< InputIterator>::value && !detail::is_forward_iterator< InputIterator>::value, iterator>::type #endif insert( const_iterator pos, InputIterator first, InputIterator last); #ifndef BOOST_STATIC_STRING_DOCS template<typename ForwardIterator> BOOST_STATIC_STRING_CPP14_CONSTEXPR typename std::enable_if< detail::is_forward_iterator< ForwardIterator>::value, iterator>::type insert( const_iterator pos, ForwardIterator first, ForwardIterator last); #endif /** Insert into the string. Inserts characters from `ilist` before `pos`. @par Precondition `pos` shall be valid within `{data(), data() + size()}` @par Exception Safety Strong guarantee. @note All references, pointers, or iterators referring to contained elements are invalidated. Any past-the-end iterators are also invalidated. @return An iterator which refers to the first inserted character or `pos` if no characters were inserted @param pos The position to insert at. @param ilist The initializer list from which to insert. @throw std::length_error `size() + ilist.size() > max_size()` */ BOOST_STATIC_STRING_CPP14_CONSTEXPR iterator insert( const_iterator pos, std::initializer_list<value_type> ilist) { return insert_unchecked(pos, ilist.begin(), ilist.size()); } /** Insert into the string. Constructs a temporary `string_view_type` object `sv` from `t` and inserts `{sv.begin(), sv.end())` at `index`. @par Precondition `index` shall be valid within `{data(), data() + size()}` @par Exception Safety Strong guarantee. @note All references, pointers, or iterators referring to contained elements are invalidated. Any past-the-end iterators are also invalidated. @return `*this` @tparam T The type of the object to convert. @par Constraints `std::is_convertible<const T&, string_view>::value && !std::is_convertible<const T&, const CharT*>::value`. @param index The index to insert at. @param t The string to insert from. @throw std::length_error `size() + sv.size() > max_size()` @throw std::out_of_range `index > size()` */ template<typename T #ifndef BOOST_STATIC_STRING_DOCS , typename = detail::enable_if_viewable_t<T, CharT, Traits> #endif > BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string& insert( size_type index, const T& t) { detail::common_string_view_type<T, CharT, Traits> sv = t; return insert(index, sv.data(), sv.size()); } /** Insert into the string. Constructs a temporary `string_view_type` object `sv` from `t` and inserts `sv.substr(index_str, count)` at `index`. @par Exception Safety Strong guarantee. @note All references, pointers, or iterators referring to contained elements are invalidated. Any past-the-end iterators are also invalidated. @tparam T The type of the object to convert. @par Constraints `std::is_convertible<const T&, string_view>::value && !std::is_convertible<const T&, const_pointer>::value`. @return `*this` @param index The index to insert at. @param t The string to insert from. @param index_str The index in the temporary `string_view_type` object to start the substring from. @param count The number of characters to insert. @throw std::length_error `size() + sv.size() > max_size()` @throw std::out_of_range `index > size()` @throw std::out_of_range `index_str > sv.size()` */ template<typename T #ifndef BOOST_STATIC_STRING_DOCS , typename = detail::enable_if_viewable_t<T, CharT, Traits> #endif > BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string& insert( size_type index, const T& t, size_type index_str, size_type count = npos) { detail::common_string_view_type<T, CharT, Traits> sv(t); if ( index_str > sv.size() ) detail::throw_exception<std::out_of_range>("index_str > t.size()"); return insert(index, sv.data() + index_str, (std::min)(sv.size() - index_str, count)); } /** Erase from the string. Erases `num` characters from the string, starting at `index`. `num` is determined as the smaller of `count` and `size() - index`. @par Exception Safety Strong guarantee. @note All references, pointers, or iterators referring to contained elements are invalidated. Any past-the-end iterators are also invalidated. @return `*this` @param index The index to erase at. The default argument for this parameter is `0`. @param count The number of characters to erase. The default argument for this parameter is @ref npos. @throw std::out_of_range `index > size()` */ BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string& erase( size_type index = 0, size_type count = npos) { erase(data() + index, data() + index + capped_length(index, count)); return *this; } /** Erase from the string. Erases the character at `pos`. @par Preconditions `pos` shall be valid within `{data(), data() + size()}` @par Exception Safety Strong guarantee. @note All references, pointers, or iterators referring to contained elements are invalidated. Any past-the-end iterators are also invalidated. @return An iterator referring to character immediately following the erased character, or @ref end() if one does not exist. @param pos An iterator referring to the character to erase. */ BOOST_STATIC_STRING_CPP14_CONSTEXPR iterator erase(const_iterator pos) { BOOST_STATIC_STRING_ASSERT(!empty()); return erase(pos, pos + 1); } /** Erase from the string. Erases the characters in the range `{first, last)`. @par Precondition `{first, last}` shall be valid within `{data(), data() + size()}` @par Exception Safety Strong guarantee. @note All references, pointers, or iterators referring to contained elements are invalidated. Any past-the-end iterators are also invalidated. @return An iterator referring to the character `last` previously referred to, or @ref end() if one does not exist. @param first An iterator referring to the first character to erase. @param last An iterator past the last character to erase. */ BOOST_STATIC_STRING_CPP14_CONSTEXPR iterator erase( const_iterator first, const_iterator last); /** Append a character. Appends a character to the end of the string. @par Exception Safety Strong guarantee. @param ch The character to append. @throw std::length_error `size() >= max_size()` */ BOOST_STATIC_STRING_CPP14_CONSTEXPR void push_back(value_type ch); /** Remove the last character. Removes a character from the end of the string. @par Precondition `not empty()` */ BOOST_STATIC_STRING_CPP14_CONSTEXPR void pop_back() noexcept { BOOST_STATIC_STRING_ASSERT(!empty()); this->set_size(size() - 1); term(); } /** Append to the string. Appends `count` copies of `ch` to the end of the string. @par Exception Safety Strong guarantee. @return `*this` @param count The number of characters to append. @param ch The character to append. @throw std::length_error `size() + count > max_size()` */ BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string& append( size_type count, value_type ch); /** Append to the string. Appends `s` to the end of the string. @par Exception Safety Strong guarantee. @tparam M The size of the string to append. @return `*this` @param s The string to append. @throw std::length_error `size() + s.size() > max_size()` */ template<std::size_t M> BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string& append( const basic_static_string<M, CharT, Traits>& s) { return append(s.data(), s.size()); } /** Append to the string. Appends the substring `sub` to the end of the string, where `sub` is `s.substr(pos, count)`. @par Exception Safety Strong guarantee. @tparam M The size of the string to append. @return `*this` @param s The string to append. @param pos The index at which to begin the substring. @param count The size of the substring. The default argument for this parameter is @ref npos. @throw std::length_error `size() + sub.size() > max_size()` @throw std::out_of_range `pos > s.size()` */ template<std::size_t M> BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string& append( const basic_static_string<M, CharT, Traits>& s, size_type pos, size_type count = npos) { return append(s.data() + pos, s.capped_length(pos, count)); } /** Append to the string. Appends `count` characters from the string pointed to by `s` to the end of the string. @par Exception Safety Strong guarantee. @note The string can contain null characters. @return `*this` @param s The string to append. @param count The number of characters to append. @throw std::length_error `size() + count > max_size()` */ BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string& append( const_pointer s, size_type count); /** Append to the string. Appends `count` characters from the string pointed to by `s` to the end of the string, where `count` is `traits_type::length(s)`. @par Exception Safety Strong guarantee. @return `*this` @param s The string to append. @throw std::length_error `size() + count > max_size()` */ BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string& append(const_pointer s) { return append(s, traits_type::length(s)); } // KRYSTIAN TODO: change exception safety /** Append to the string. Appends characters from the range `{first, last)` to the end of the string. @par Precondition `{first, last)` shall be a valid range @par Exception Safety Strong guarantee. @tparam InputIterator The type of the iterators. @par Constraints `InputIterator` satisfies __InputIterator__. @return `*this` @param first An iterator referring to the first character to append. @param last An iterator past the end of last character to append. @throw std::length_error `size() + std::distance(first, last) > max_size()` */ template<typename InputIterator> BOOST_STATIC_STRING_CPP14_CONSTEXPR #ifdef BOOST_STATIC_STRING_DOCS basic_static_string& #else typename std::enable_if< detail::is_input_iterator<InputIterator>::value, basic_static_string&>::type #endif append( InputIterator first, InputIterator last) { this->set_size(size() + read_back(true, first, last)); return term(); } /** Append to the string. Appends the characters from `ilist` to the end of the string. @par Exception Safety Strong guarantee. @return `*this` @param ilist The initializer list to append. @throw std::length_error `size() + ilist.size() > max_size()` */ BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string& append( std::initializer_list<value_type> ilist) { return append(ilist.begin(), ilist.size()); } /** Append to the string. Appends `sv` to the end of the string, where `sv` is `string_view_type(t)`. @par Exception Safety Strong guarantee. @tparam T The type of the object to convert. @par Constraints @code std::is_convertible<T const&, string_view>::value && !std::is_convertible<T const&, char const*>::value @endcode @return `*this` @param t The string to append. @throw std::length_error `size() + sv.size() > max_size()` */ template<typename T #ifndef BOOST_STATIC_STRING_DOCS , typename = detail::enable_if_viewable_t<T, CharT, Traits> #endif > BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string& append(const T& t) { detail::common_string_view_type<T, CharT, Traits> sv = t; return append(sv.data(), sv.size()); } /** Append to the string. Appends the substring `sv` to the end of the string, where `sv` is `string_view_type(t).substr(pos, count)`. @par Exception Safety Strong guarantee. @tparam T The type of the object to convert. @par Constraints @code std::is_convertible<T const&, string_view>::value && !std::is_convertible<T const&, char const*>::value @endcode @return `*this` @param t The object to append. @param pos The index at which to begin the substring. @param count The size of the substring. The default argument for this parameter is @ref npos. @throw std::length_error `size() + sv.size() > max_size()` */ template<typename T #ifndef BOOST_STATIC_STRING_DOCS , typename = detail::enable_if_viewable_t<T, CharT, Traits> #endif > BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string& append( const T& t, size_type pos, size_type count = npos) { detail::common_string_view_type<T, CharT, Traits> sv = t; if ( pos > sv.size() ) detail::throw_exception<std::out_of_range>("pos > t.size()"); return append(sv.data() + pos, (std::min)(sv.size() - pos, count)); } /** Append to the string. Appends `s` to the end of the string. @par Exception Safety Strong guarantee. @tparam M The size of the string to append. @return `*this` @param s The string to append. @throw std::length_error `size() + s.size() > max_size()` */ template<std::size_t M> BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string& operator+=( const basic_static_string<M, CharT, Traits>& s) { return append(s); } /** Append to the string. Appends a character to the end of the string. @par Exception Safety Strong guarantee. @param ch The character to append. @throw std::length_error `size() >= max_size()` */ BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string& operator+=(value_type ch) { push_back(ch); return *this; } /** Append to the string. Appends `count` characters from the string pointed to by `s` to the end of the string, where `count` is `traits_type::length(s)`. @par Exception Safety Strong guarantee. @return `*this` @param s The string to append. @throw std::length_error `size() + count > max_size()` */ BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string& operator+=(const_pointer s) { return append(s); } /** Append to the string. Appends the characters from `ilist` to the end of the string. @par Exception Safety Strong guarantee. @return `*this` @param ilist The initializer list to append. @throw std::length_error `size() + ilist.size() > max_size()` */ BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string& operator+=( std::initializer_list<value_type> ilist) { return append(ilist); } /** Append to the string. Appends `sv` to the end of the string, where `sv` is `string_view_type(t)`. @par Exception Safety Strong guarantee. @tparam T The type of the object to convert. @par Constraints @code std::is_convertible<T const&, string_view>::value && !std::is_convertible<T const&, char const*>::value @endcode @return `*this` @param t The string to append. @throw std::length_error `size() + sv.size() > max_size()` */ template<typename T #ifndef BOOST_STATIC_STRING_DOCS , typename = detail::enable_if_viewable_t<T, CharT, Traits> #endif > BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string& operator+=(const T& t) { return append(t); } /** Compare a string with the string. Let `comp` be `traits_type::compare(data(), s.data(), std::min(size(), s.size())`. If `comp != 0`, then the result is `comp`. Otherwise, the result is `0` if `size() == s.size()`, `-1` if `size() < s.size()`, and `1` otherwise. @par Complexity Linear. @return The result of lexicographically comparing `s` and the string. @tparam M The size of the string to compare with. @param s The string to compare. */ template<std::size_t M> BOOST_STATIC_STRING_CPP14_CONSTEXPR int compare( const basic_static_string<M, CharT, Traits>& s) const noexcept { return detail::lexicographical_compare<CharT, Traits>( data(), size(), s.data(), s.size()); } /** Compare a string with the string. Let `sub` be `substr(pos1, count1)` and `comp` be `traits_type::compare(sub.data(), s.data(), std::min(sub.size(), s.size())`. If `comp != 0`, then the result is `comp`. Otherwise, the result is `0` if `sub.size() == s.size()`, `-1` if `sub.size() < s.size()`, and `1` otherwise. @par Complexity Linear. @par Exception Safety Strong guarantee. @return The result of lexicographically comparing `sub` and `s`. @tparam M The size of the string to compare with. @param pos1 The index at which to begin the substring. @param count1 The size of the substring. @param s The string to compare. @throw std::out_of_range `pos1 > size()` */ template<std::size_t M> BOOST_STATIC_STRING_CPP14_CONSTEXPR int compare( size_type pos1, size_type count1, const basic_static_string<M, CharT, Traits>& s) const { return detail::lexicographical_compare<CharT, Traits>( data() + pos1, capped_length(pos1, count1), s.data(), s.size()); } /** Compare a string with the string. Let `sub1` be `substr(pos1, count1)`, `sub2` be `s.substr(pos2, count2)`, and `comp` be `traits_type::compare(sub1.data(), sub2.data(), std::min(sub1.size(), sub2.size())`. If `comp != 0`, then the result is `comp`. Otherwise, the result is `0` if `sub1.size() == sub2.size()`, `-1` if `sub1.size() < sub2.size()`, and `1` otherwise. @par Complexity Linear. @par Exception Safety Strong guarantee. @return The result of lexicographically comparing `sub1` and `sub2`. @param pos1 The index at which to begin the substring. @param count1 The size of the substring. @param s The string to compare. @param pos2 The index at which to begin the substring to compare. @param count2 The size of the substring to compare. @throw std::out_of_range `pos1 > size()` @throw std::out_of_range `pos2 > s.size()` */ template<std::size_t M> BOOST_STATIC_STRING_CPP14_CONSTEXPR int compare( size_type pos1, size_type count1, const basic_static_string<M, CharT, Traits>& s, size_type pos2, size_type count2 = npos) const { return detail::lexicographical_compare<CharT, Traits>( data() + pos1, capped_length(pos1, count1), s.data() + pos2, s.capped_length(pos2, count2)); } /** Compare a string with the string. Let `len` be `traits_type::length(s)` and `comp` be `traits_type::compare(data(), s, std::min(size(), len)`. If `comp != 0`, then the result is `comp`. Otherwise, the result is `0` if `size() == len`, `-1` if `size() < len`, and `1` otherwise. @par Complexity Linear. @return The result of lexicographically comparing `s` and the string. @param s The string to compare. */ BOOST_STATIC_STRING_CPP14_CONSTEXPR int compare(const_pointer s) const noexcept { return detail::lexicographical_compare<CharT, Traits>( data(), size(), s, traits_type::length(s)); } /** Compare a string with the string. Let `sub` be `substr(pos1, count1)`, `len` be `traits_type::length(s)`, and `comp` be `traits_type::compare(sub.data(), s, std::min(size(), len)`. If `comp != 0`, then the result is `comp`. Otherwise, the result is `0` if `sub.size() == len`, `-1` if `sub.size() < len`, and `1` otherwise. @par Complexity Linear. @par Exception Safety Strong guarantee. @return The result of lexicographically comparing `s` and `sub`. @param pos1 The index at which to begin the substring. @param count1 The size of the substring. @param s The string to compare. @throw std::out_of_range `pos1 > size()` */ BOOST_STATIC_STRING_CPP14_CONSTEXPR int compare( size_type pos1, size_type count1, const_pointer s) const { return detail::lexicographical_compare<CharT, Traits>( data() + pos1, capped_length(pos1, count1), s, traits_type::length(s)); } /** Compare a string with the string. Let `sub` be `substr(pos1, count1)`, and `comp` be `traits_type::compare(sub.data(), s, std::min(size(), count2)`. If `comp != 0`, then the result is `comp`. Otherwise, the result is `0` if `sub.size() == count2`, `-1` if `sub.size() < count2`, and `1` otherwise. @par Complexity Linear. @par Exception Safety Strong guarantee. @return The result of lexicographically comparing `s` and `sub`. @param pos1 The index at which to begin the substring. @param count1 The size of the substring. @param s The string to compare. @param count2 The length of the string to compare. @throw std::out_of_range `pos1 > size()` */ BOOST_STATIC_STRING_CPP14_CONSTEXPR int compare( size_type pos1, size_type count1, const_pointer s, size_type count2) const { return detail::lexicographical_compare<CharT, Traits>( data() + pos1, capped_length(pos1, count1), s, count2); } /** Compare a string with the string. Let `s` be `string_view_type(t)` and `comp` be `traits_type::compare(data(), s.data(), std::min(size(), s.size())`. If `comp != 0`, then the result is `comp`. Otherwise, the result is `0` if `size() == s.size()`, `-1` if `size() < s.size()`, and `1` otherwise. @par Complexity Linear. @par Exception Safety Strong guarantee. @tparam T The type of the object to convert. @par Constraints @code std::is_convertible<const T&, string_view>::value && !std::is_convertible<const T&, const_pointer>::value. @endcode @return The result of lexicographically comparing `s` and the string. @param t The string to compare. */ template<typename T #ifndef BOOST_STATIC_STRING_DOCS , typename = detail::enable_if_viewable_t<T, CharT, Traits> #endif > BOOST_STATIC_STRING_CPP14_CONSTEXPR int compare(const T& t) const noexcept { detail::common_string_view_type<T, CharT, Traits> sv = t; return detail::lexicographical_compare<CharT, Traits>( data(), size(), sv.data(), sv.size()); } /** Compare a string with the string. Let `s` be `string_view_type(t)`, `sub` be `substr(pos1, count1)`, and `comp` be `traits_type::compare(sub.data(), s.data(), std::min(sub.size(), s.size())`. If `comp != 0`, then the result is `comp`. Otherwise, the result is `0` if `sub.size() == s.size()`, `-1` if `sub.size() < s.size()`, and `1` otherwise. @par Complexity Linear. @par Exception Safety Strong guarantee. @tparam T The type of the object to convert. @par Constraints @code std::is_convertible<const T&, string_view>::value && !std::is_convertible<const T&, const_pointer>::value. @endcode @return The result of lexicographically comparing `s` and `sub`. @param pos1 The index at which to begin the substring. @param count1 The length of the substring. @param t The string to compare. */ template<typename T #ifndef BOOST_STATIC_STRING_DOCS , typename = detail::enable_if_viewable_t<T, CharT, Traits> #endif > BOOST_STATIC_STRING_CPP14_CONSTEXPR int compare( size_type pos1, size_type count1, const T& t) const { detail::common_string_view_type<T, CharT, Traits> sv = t; return detail::lexicographical_compare<CharT, Traits>( data() + pos1, capped_length(pos1, count1), sv.data(), sv.size()); } /** Compare a string with the string. Let `sub1` be `substr(pos1, count1)`, `sub2` be `string_view_type(t).substr(pos2, count2)`, and `comp` be `traits_type::compare(sub1.data(), sub2.data(), std::min(sub1.size(), sub2.size())`. If `comp != 0`, then the result is `comp`. Otherwise, the result is `0` if `sub1.size() == sub2.size()`, `-1` if `sub1.size() < sub2.size()`, and `1` otherwise. @par Complexity Linear. @par Exception Safety Strong guarantee. @tparam T The type of the object to convert. @par Constraints @code std::is_convertible<const T&, string_view>::value && !std::is_convertible<const T&, const_pointer>::value. @endcode @return The result of lexicographically comparing `sub1` and `sub2`. @param pos1 The index at which to begin the substring in the string. @param count1 The length of the substring in the string. @param t The string to compare. @param pos2 The index at which to begin the substring in the string view. @param count2 The length of the substring in the string view. */ template<typename T #ifndef BOOST_STATIC_STRING_DOCS , typename = detail::enable_if_viewable_t<T, CharT, Traits> #endif > BOOST_STATIC_STRING_CPP14_CONSTEXPR int compare( size_type pos1, size_type count1, const T& t, size_type pos2, size_type count2 = npos) const { detail::common_string_view_type<T, CharT, Traits> sv = t; if ( pos2 > sv.size()) detail::throw_exception<std::out_of_range>("pos2 > sv.size()"); return compare( pos1, count1, sv.data() + pos2, (std::min)(sv.size() - pos2, count2)); } /** Return a substring. Returns a substring of the string. @par Exception Safety Strong guarantee. @return A string object containing the characters `{data() + pos, std::min(count, size() - pos))`. @param pos The index to being the substring at. The default arugment for this parameter is `0`. @param count The length of the substring. The default arugment for this parameter is @ref npos. @throw std::out_of_range `pos > size()` */ #ifndef BOOST_STATIC_STRING_GCC5_BAD_CONSTEXPR BOOST_STATIC_STRING_CPP14_CONSTEXPR #endif basic_static_string substr( size_type pos = 0, size_type count = npos) const { return basic_static_string( data() + pos, capped_length(pos, count)); } #ifdef BOOST_STATIC_STRING_HAS_ANY_STRING_VIEW /** Return a string view of a substring. Returns a view of a substring. @par Exception Safety Strong guarantee. @return A `string_view_type` object referring to `{data() + pos, std::min(count, size() - pos))`. @param pos The index to being the substring at. The default arugment for this parameter is `0`. @param count The length of the substring. The default arugment for this parameter is @ref npos. @throw std::out_of_range `pos > size()` */ BOOST_STATIC_STRING_CPP14_CONSTEXPR string_view_type subview( size_type pos = 0, size_type count = npos) const { return string_view_type( data() + pos, capped_length(pos, count)); } #endif /** Copy a substring to another string. Copies `std::min(count, size() - pos)` characters starting at index `pos` to the string pointed to by `dest`. @note The resulting string is not null terminated. @return The number of characters copied. @param count The number of characters to copy. @param dest The string to copy to. @param pos The index to begin copying from. The default argument for this parameter is `0`. @throw std::out_of_range `pos > max_size()` */ BOOST_STATIC_STRING_CPP14_CONSTEXPR size_type copy( pointer dest, size_type count, size_type pos = 0) const { const auto num_copied = capped_length(pos, count); traits_type::copy(dest, data() + pos, num_copied); return num_copied; } /** Change the size of the string. Resizes the string to contain `n` characters. If `n > size()`, characters with the value `CharT()` are appended. Otherwise, `size()` is reduced to `n`. @param n The size to resize the string to. @throw std::out_of_range `n > max_size()` */ BOOST_STATIC_STRING_CPP14_CONSTEXPR void resize(size_type n) { resize(n, value_type()); } /** Change the size of the string. Resizes the string to contain `n` characters. If `n > size()`, copies of `c` are appended. Otherwise, `size()` is reduced to `n`. @param n The size to resize the string to. @param c The characters to append if the size increases. @throw std::out_of_range `n > max_size()` */ BOOST_STATIC_STRING_CPP14_CONSTEXPR void resize( size_type n, value_type c); /** Swap two strings. Swaps the contents of the string and `s`. @par Exception Safety Strong guarantee. @note All references, pointers, or iterators referring to contained elements are invalidated. Any past-the-end iterators are also invalidated. @param s The string to swap with. */ BOOST_STATIC_STRING_CPP14_CONSTEXPR void swap(basic_static_string& s) noexcept; /** Swap two strings. Swaps the contents of the string and `s`. @par Exception Safety Strong guarantee. @note All references, pointers, or iterators referring to contained elements are invalidated. Any past-the-end iterators are also invalidated. @tparam M The size of the string to swap with. @param s The string to swap with. @throw std::length_error `s.size() > max_size() || size() > s.max_size()` */ template<std::size_t M> BOOST_STATIC_STRING_CPP14_CONSTEXPR void swap(basic_static_string<M, CharT, Traits>& s); /** Replace a part of the string. Replaces `rcount` characters starting at index `pos1` with those of `str`, where `rcount` is `std::min(n1, size() - pos1)`. @par Exception Safety Strong guarantee. @note The replacement is done unchecked when the capacity of `str` differs from that of the string the function is called on. All references, pointers, or iterators referring to contained elements are invalidated. Any past-the-end iterators are also invalidated. @tparam M The size of the input string. @return `*this` @param pos1 The index to replace at. @param n1 The number of characters to replace. @param str The string to replace with. @throw std::length_error `size() + (str.size() - rcount) > max_size()` @throw std::out_of_range `pos1 > size()` */ template<size_t M> BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string& replace( size_type pos1, size_type n1, const basic_static_string<M, CharT, Traits>& str) { return replace_unchecked(pos1, n1, str.data(), str.size()); } #ifndef BOOST_STATIC_STRING_DOCS BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string& replace( size_type pos1, size_type n1, const basic_static_string& str) { return replace(pos1, n1, str.data(), str.size()); } #endif /** Replace a part of the string. Replaces `rcount` characters starting at index `pos1` with those of `str.subview(pos2, n2)`, where `rcount` is `std::min(n1, size() - pos1)`. @par Exception Safety Strong guarantee. @note The replacement is done unchecked when the capacity of `str` differs from that of the string the function is called on. All references, pointers, or iterators referring to contained elements are invalidated. Any past-the-end iterators are also invalidated. @return `*this` @param pos1 The index to replace at. @param n1 The number of characters to replace. @param str The string to replace with. @param pos2 The index to begin the substring. @param n2 The length of the substring. The default argument for this parameter is @ref npos. @throw std::length_error `size() + (std::min(str.size(), n2) - rcount) > max_size()` @throw std::out_of_range `pos1 > size()` @throw std::out_of_range `pos2 > str.size()` */ template<std::size_t M> BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string& replace( size_type pos1, size_type n1, const basic_static_string<M, CharT, Traits>& str, size_type pos2, size_type n2 = npos) { return replace_unchecked(pos1, n1, str.data() + pos2, str.capped_length(pos2, n2)); } #ifndef BOOST_STATIC_STRING_DOCS BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string& replace( size_type pos1, size_type n1, const basic_static_string& str, size_type pos2, size_type n2 = npos) { return replace(pos1, n1, str.data() + pos2, str.capped_length(pos2, n2)); } #endif /** Replace a part of the string. Constructs a temporary `string_view_type` object `sv` from `t`, and replaces `rcount` characters starting at index `pos1` with those of `sv`, where `rcount` is `std::min(n1, size() - pos1)`. @par Exception Safety Strong guarantee. @note All references, pointers, or iterators referring to contained elements are invalidated. Any past-the-end iterators are also invalidated. @tparam T The type of the object to convert. @par Constraints `std::is_convertible<const T&, string_view>::value && !std::is_convertible<const T&, const CharT*>::value`. @return `*this` @param pos1 The index to replace at. @param n1 The number of characters to replace. @param t The object to replace with. @throw std::length_error `size() + (sv.size() - rcount) > max_size()` @throw std::out_of_range `pos1 > size()` */ template<typename T #ifndef BOOST_STATIC_STRING_DOCS , typename = detail::enable_if_viewable_t<T, CharT, Traits> #endif > BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string& replace( size_type pos1, size_type n1, const T& t) { detail::common_string_view_type<T, CharT, Traits> sv = t; return replace(pos1, n1, sv.data(), sv.size()); } /** Replace a part of the string. Constructs a temporary `string_view_type` object `sv` from `t`, and replaces `rcount` characters starting at index `pos1` with those of `sv.substr(pos2, n2)`, where `rcount` is `std::min(n1, size() - pos)`. @par Exception Safety Strong guarantee. @note All references, pointers, or iterators referring to contained elements are invalidated. Any past-the-end iterators are also invalidated. @tparam T The type of the object to convert. @par Constraints `std::is_convertible<const T&, string_view>::value && !std::is_convertible<const T&, const CharT*>::value`. @return `*this` @param pos1 The index to replace at. @param n1 The number of characters to replace. @param t The object to replace with. @param pos2 The index to begin the substring. @param n2 The length of the substring. The default argument for this parameter is @ref npos. @throw std::length_error `size() + (std::min(n2, sv.size()) - rcount) > max_size()` @throw std::out_of_range `pos1 > size()` @throw std::out_of_range `pos2 > sv.size()` */ template<typename T #ifndef BOOST_STATIC_STRING_DOCS , typename = detail::enable_if_viewable_t<T, CharT, Traits> #endif > BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string& replace( size_type pos1, size_type n1, const T& t, size_type pos2, size_type n2 = npos) { detail::common_string_view_type<T, CharT, Traits> sv = t; if ( pos2 > sv.size()) detail::throw_exception<std::out_of_range>("pos2 > t.size()"); return replace( pos1, n1, sv.data() + pos2, (std::min)(sv.size() - pos2, n2)); } /** Replace a part of the string. Replaces `rcount` characters starting at index `pos` with those of `{s, s + n2)`, where `rcount` is `std::min(n1, size() - pos)`. @par Exception Safety Strong guarantee. @note All references, pointers, or iterators referring to contained elements are invalidated. Any past-the-end iterators are also invalidated. @return `*this` @param pos The index to replace at. @param n1 The number of characters to replace. @param s The string to replace with. @param n2 The length of the string to replace with. @throw std::length_error `size() + (n2 - rcount) > max_size()` @throw std::out_of_range `pos > size()` */ BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string& replace( size_type pos, size_type n1, const_pointer s, size_type n2) { return replace(data() + pos, data() + pos + capped_length(pos, n1), s, n2); } /** Replace a part of the string. Replaces `rcount` characters starting at index `pos` with those of `{s, s + len)`, where the length of the string `len` is `traits_type::length(s)` and `rcount` is `std::min(n1, size() - pos)`. @par Exception Safety Strong guarantee. @note All references, pointers, or iterators referring to contained elements are invalidated. Any past-the-end iterators are also invalidated. @return `*this` @param pos The index to replace at. @param n1 The number of characters to replace. @param s The string to replace with. @throw std::length_error `size() + (len - rcount) > max_size()` @throw std::out_of_range `pos > size()` */ BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string& replace( size_type pos, size_type n1, const_pointer s) { return replace(pos, n1, s, traits_type::length(s)); } /** Replace a part of the string. Replaces `rcount` characters starting at index `pos` with `n2` copies of `c`, where `rcount` is `std::min(n1, size() - pos)`. @par Exception Safety Strong guarantee. @note All references, pointers, or iterators referring to contained elements are invalidated. Any past-the-end iterators are also invalidated. @return `*this` @param pos The index to replace at. @param n1 The number of characters to replace. @param n2 The number of characters to replace with. @param c The character to replace with. @throw std::length_error `size() + (n2 - rcount) > max_size()` @throw std::out_of_range `pos > size()` */ BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string& replace( size_type pos, size_type n1, size_type n2, value_type c) { return replace(data() + pos, data() + pos + capped_length(pos, n1), n2, c); } /** Replace a part of the string. Replaces the characters in the range `{i1, i2)` with those of `str`. @par Precondition `{i1, i2)` is a valid range. @par Exception Safety Strong guarantee. @note The replacement is done unchecked when the capacity of `str` differs from that of the string the function is called on. All references, pointers, or iterators referring to contained elements are invalidated. Any past-the-end iterators are also invalidated. @tparam M The size of the input string. @return `*this` @param i1 An iterator referring to the first character to replace. @param i2 An iterator referring past the end of the last character to replace. @param str The string to replace with. @throw std::length_error `size() + (str.size() - std::distance(i1, i2)) > max_size()` */ template<std::size_t M> BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string& replace( const_iterator i1, const_iterator i2, const basic_static_string<M, CharT, Traits>& str) { return replace_unchecked(i1, i2, str.data(), str.size()); } #ifndef BOOST_STATIC_STRING_DOCS BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string& replace( const_iterator i1, const_iterator i2, const basic_static_string& str) { return replace(i1, i2, str.data(), str.size()); } #endif /** Replace a part of the string. Constructs a temporary `string_view_type` object `sv` from `t`, and replaces the characters in the range `{i1, i2)` with those of `sv`. @par Precondition `{i1, i2)` is a valid range. @par Exception Safety Strong guarantee. @note All references, pointers, or iterators referring to contained elements are invalidated. Any past-the-end iterators are also invalidated. @tparam T The type of the object to convert. @par Constraints `std::is_convertible<const T&, string_view>::value && !std::is_convertible<const T&, const CharT*>::value`. @return `*this` @param i1 An iterator referring to the first character to replace. @param i2 An iterator referring past the end of the last character to replace. @param t The object to replace with. @throw std::length_error `size() + (sv.size() - std::distance(i1, i2)) > max_size()` */ template<typename T #ifndef BOOST_STATIC_STRING_DOCS , typename = detail::enable_if_viewable_t<T, CharT, Traits> #endif > BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string& replace( const_iterator i1, const_iterator i2, const T& t) { detail::common_string_view_type<T, CharT, Traits> sv = t; return replace(i1, i2, sv.data(), sv.data() + sv.size()); } /** Replace a part of the string. Replaces the characters in the range `{i1, i2)` with those of `{s, s + n)`. @par Precondition `{i1, i2)` is a valid range. @par Exception Safety Strong guarantee. @note All references, pointers, or iterators referring to contained elements are invalidated. Any past-the-end iterators are also invalidated. @return `*this` @param i1 An iterator referring to the first character to replace. @param i2 An iterator referring past the end of the last character to replace. @param s The string to replace with. @param n The length of the string to replace with. @throw std::length_error `size() + (n - std::distance(i1, i2)) > max_size()` */ BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string& replace( const_iterator i1, const_iterator i2, const_pointer s, size_type n) { return replace(i1, i2, s, s + n); } /** Replace a part of the string. Replaces the characters in the range `{i1, i2)` with those of `{s, s + len)`, where the length of the string `len` is `traits_type::length(s)`. @par Precondition `{i1, i2)` shall be a valid range. @par Exception Safety Strong guarantee. @note All references, pointers, or iterators referring to contained elements are invalidated. Any past-the-end iterators are also invalidated. @return `*this` @param i1 An iterator referring to the first character to replace. @param i2 An iterator referring past the end of the last character to replace. @param s The string to replace with. @throw std::length_error `size() + (len - std::distance(i1, i2)) > max_size()` */ BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string& replace( const_iterator i1, const_iterator i2, const_pointer s) { return replace(i1, i2, s, traits_type::length(s)); } /** Replace a part of the string. Replaces the characters in the range `{i1, i2)` with `n` copies of `c`. @par Precondition `{i1, i2)` is a valid range. @par Exception Safety Strong guarantee. @note All references, pointers, or iterators referring to contained elements are invalidated. Any past-the-end iterators are also invalidated. @return `*this` @param i1 An iterator referring to the first character to replace. @param i2 An iterator past the end of the last character to replace. @param n The number of characters to replace with. @param c The character to replace with. @throw std::length_error `size() + (n - std::distance(i1, i2)) > max_size()` */ BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string& replace( const_iterator i1, const_iterator i2, size_type n, value_type c); /** Replace a part of the string. Replaces the characters in the range `{i1, i2)` with those of `{j1, j2)`. @par Precondition `{i1, i2)` is a valid range. `{j1, j2)` is a valid range. @par Exception Safety Strong guarantee. @note All references, pointers, or iterators referring to contained elements are invalidated. Any past-the-end iterators are also invalidated. @tparam InputIterator The type of the iterators. @par Constraints `InputIterator` satisfies __InputIterator__ and does not satisfy __ForwardIterator__. @return `*this` @param i1 An iterator referring to the first character to replace. @param i2 An iterator referring past the end of the last character to replace. @param j1 An iterator referring to the first character to replace with. @param j2 An iterator referring past the end of the last character to replace with. @throw std::length_error `size() + (inserted - std::distance(i1, i2)) > max_size()` */ template<typename InputIterator> BOOST_STATIC_STRING_CPP14_CONSTEXPR #ifdef BOOST_STATIC_STRING_DOCS basic_static_string& #else typename std::enable_if< detail::is_input_iterator< InputIterator>::value && !detail::is_forward_iterator< InputIterator>::value, basic_static_string<N, CharT, Traits>&>::type #endif replace( const_iterator i1, const_iterator i2, InputIterator j1, InputIterator j2); #ifndef BOOST_STATIC_STRING_DOCS template<typename ForwardIterator> BOOST_STATIC_STRING_CPP14_CONSTEXPR typename std::enable_if< detail::is_forward_iterator< ForwardIterator>::value, basic_static_string<N, CharT, Traits>&>::type replace( const_iterator i1, const_iterator i2, ForwardIterator j1, ForwardIterator j2); #endif /** Replace a part of the string. Replaces the characters in the range `{i1, i2)` with those of contained in the initializer list `il`. @par Precondition `{i1, i2)` is a valid range. @par Exception Safety Strong guarantee. @note All references, pointers, or iterators referring to contained elements are invalidated. Any past-the-end iterators are also invalidated. @return `*this` @param i1 An iterator referring to the first character to replace. @param i2 An iterator past the end of the last character to replace. @param il The initializer list to replace with. @throw std::length_error `size() + (il.size() - std::distance(i1, i2)) > max_size()` */ BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string& replace( const_iterator i1, const_iterator i2, std::initializer_list<value_type> il) { return replace_unchecked(i1, i2, il.begin(), il.size()); } //-------------------------------------------------------------------------- // // Search // //-------------------------------------------------------------------------- /** Find the first occurrence of a string within the string. Constructs a temporary `string_view_type` object `sv` from `t`, and finds the first occurrence of `sv` within the string starting at the index `pos`. @par Complexity Linear. @note An empty string is always found. @tparam T The type of the object to convert. @par Constraints `std::is_convertible<const T&, string_view>::value && !std::is_convertible<const T&, const CharT*>::value`. @return The lowest index `idx` greater than or equal to `pos` where each element of `{sv.begin(), sv.end())` is equal to that of `{begin() + idx, begin() + idx + count)` if one exists, and @ref npos otherwise. @param t The string to search for. @param pos The index to start searching at. The default argument for this parameter is `0`. */ template<typename T #ifndef BOOST_STATIC_STRING_DOCS , typename = detail::enable_if_viewable_t<T, CharT, Traits> #endif > BOOST_STATIC_STRING_CPP14_CONSTEXPR size_type find( const T& t, size_type pos = 0) const #ifdef BOOST_STATIC_STRING_DOCS noexcept(detail::is_nothrow_convertible<const T&, string_view_type>::value) #else noexcept(detail::is_nothrow_convertible<const T&, detail::common_string_view_type<T, CharT, Traits>>::value) #endif { detail::common_string_view_type<T, CharT, Traits> sv = t; return find(sv.data(), pos, sv.size()); } /** Find the first occurrence of a string within the string. Finds the first occurrence of `str` within the string starting at the index `pos`. @par Complexity Linear. @return The lowest index `idx` greater than or equal to `pos` where each element of `str` is equal to that of `{begin() + idx, begin() + idx + str.size())` if one exists, and @ref npos otherwise. @param str The string to search for. @param pos The index to start searching at. The default argument for this parameter is `0`. */ template<std::size_t M> BOOST_STATIC_STRING_CPP14_CONSTEXPR size_type find( const basic_static_string<M, CharT, Traits>& str, size_type pos = 0) const noexcept { return find(str.data(), pos, str.size()); } /** Find the first occurrence of a string within the string. Finds the first occurrence of the string pointed to by `s` within the string starting at the index `pos`. @par Complexity Linear. @note An empty string is always found. @return The lowest index `idx` greater than or equal to `pos` where each element of `{s, s + n)` is equal to that of `{begin() + idx, begin() + idx + n)` if one exists, and @ref npos otherwise. @param s The string to search for. @param pos The index to start searching at. @param n The length of the string to search for. */ BOOST_STATIC_STRING_CPP14_CONSTEXPR size_type find( const_pointer s, size_type pos, size_type n) const noexcept; /** Find the first occurrence of a string within the string. Finds the first occurrence of the string pointed to by `s` of length `count` within the string starting at the index `pos`, where `count` is `traits_type::length(s)`. @par Complexity Linear. @note An empty string is always found. @return The lowest index `idx` greater than or equal to `pos` where each element of `{s, s + count)` is equal to that of `{begin() + idx, begin() + idx + count)` if one exists, and @ref npos otherwise. @param s The string to search for. @param pos The index to start searching at. The default argument for this parameter is `0`. */ BOOST_STATIC_STRING_CPP14_CONSTEXPR size_type find( const_pointer s, size_type pos = 0) const noexcept { return find(s, pos, traits_type::length(s)); } /** Find the first occurrence of a character within the string. Finds the first occurrence of `c` within the string starting at the index `pos`. @par Complexity Linear. @return The index corrosponding to the first occurrence of `c` within `{begin() + pos, end())` if it exists, and @ref npos otherwise. @param c The character to search for. @param pos The index to start searching at. The default argument for this parameter is `0`. */ BOOST_STATIC_STRING_CPP14_CONSTEXPR size_type find( value_type c, size_type pos = 0) const noexcept { return find(&c, pos, 1); } /** Find the last occurrence of a string within the string. Constructs a temporary `string_view_type` object `sv` from `t`, and finds the last occurrence of `sv` within the string starting before or at the index `pos`. @par Complexity Linear. @tparam T The type of the object to convert. @par Constraints `std::is_convertible<const T&, string_view>::value && !std::is_convertible<const T&, const CharT*>::value`. @return The highest index `idx` less than or equal to `pos` where each element of `{sv.begin(), sv.end())` is equal to that of `{begin() + idx, begin() + idx + count)` if one exists, and @ref npos otherwise. @param t The string to search for. @param pos The index to start searching at. The default argument for this parameter is @ref npos. */ template<typename T #ifndef BOOST_STATIC_STRING_DOCS , typename = detail::enable_if_viewable_t<T, CharT, Traits> #endif > BOOST_STATIC_STRING_CPP14_CONSTEXPR size_type rfind( const T& t, size_type pos = npos) const #ifdef BOOST_STATIC_STRING_DOCS noexcept(detail::is_nothrow_convertible<const T&, string_view_type>::value) #else noexcept(detail::is_nothrow_convertible<const T&, detail::common_string_view_type<T, CharT, Traits>>::value) #endif { detail::common_string_view_type<T, CharT, Traits> sv = t; return rfind(sv.data(), pos, sv.size()); } /** Find the last occurrence of a string within the string. Finds the last occurrence of `str` within the string starting before or at the index `pos`. @par Complexity Linear. @return The highest index `idx` less than or equal to `pos` where each element of `str` is equal to that of `{begin() + idx, begin() + idx + str.size())` if one exists, and @ref npos otherwise. @param str The string to search for. @param pos The index to start searching at. The default argument for this parameter is @ref npos. */ template<std::size_t M> BOOST_STATIC_STRING_CPP14_CONSTEXPR size_type rfind( const basic_static_string<M, CharT, Traits>& str, size_type pos = npos) const noexcept { return rfind(str.data(), pos, str.size()); } /** Find the last occurrence of a string within the string. Finds the last occurrence of the string pointed to by `s` within the string starting before or at the index `pos`. @par Complexity Linear. @return The highest index `idx` less than or equal to `pos` where each element of `{s, s + n)` is equal to that of `{begin() + idx, begin() + idx + n)` if one exists, and @ref npos otherwise. @param s The string to search for. @param pos The index to start searching at. @param n The length of the string to search for. */ BOOST_STATIC_STRING_CPP14_CONSTEXPR size_type rfind( const_pointer s, size_type pos, size_type n) const noexcept; /** Find the last occurrence of a string within the string. Finds the last occurrence of the string pointed to by `s` of length `count` within the string starting before or at the index `pos`, where `count` is `traits_type::length(s)`. @par Complexity Linear. @return The highest index `idx` less than or equal to `pos` where each element of `{s, s + count)` is equal to that of `{begin() + idx, begin() + idx + count)` if one exists, and @ref npos otherwise. @param s The string to search for. @param pos The index to stop searching at. The default argument for this parameter is @ref npos. */ BOOST_STATIC_STRING_CPP14_CONSTEXPR size_type rfind( const_pointer s, size_type pos = npos) const noexcept { return rfind(s, pos, traits_type::length(s)); } /** Find the last occurrence of a character within the string. Finds the last occurrence of `c` within the string starting before or at the index `pos`. @par Complexity Linear. @return The index corrosponding to the last occurrence of `c` within `{begin(), begin() + pos}` if it exists, and @ref npos otherwise. @param c The character to search for. @param pos The index to stop searching at. The default argument for this parameter is @ref npos. */ BOOST_STATIC_STRING_CPP14_CONSTEXPR size_type rfind( value_type c, size_type pos = npos) const noexcept { return rfind(&c, pos, 1); } /** Find the first occurrence of any of the characters within the string. Constructs a temporary `string_view_type` object `sv` from `t`, and finds the first occurrence of any of the characters in `sv` within the string starting at the index `pos`. @par Complexity Linear. @tparam T The type of the object to convert. @par Constraints `std::is_convertible<const T&, string_view>::value && !std::is_convertible<const T&, const CharT*>::value`. @return The index corrosponding to the first occurrence of any of the characters in `{sv.begin(), sv.end())` within `{begin() + pos, end())` if it exists, and @ref npos otherwise. @param t The characters to search for. @param pos The index to start searching at. The default argument for this parameter is `0`. */ template<typename T #ifndef BOOST_STATIC_STRING_DOCS , typename = detail::enable_if_viewable_t<T, CharT, Traits> #endif > BOOST_STATIC_STRING_CPP14_CONSTEXPR size_type find_first_of( const T& t, size_type pos = 0) const #ifdef BOOST_STATIC_STRING_DOCS noexcept(detail::is_nothrow_convertible<const T&, string_view_type>::value) #else noexcept(detail::is_nothrow_convertible<const T&, detail::common_string_view_type<T, CharT, Traits>>::value) #endif { detail::common_string_view_type<T, CharT, Traits> sv = t; return find_first_of(sv.data(), pos, sv.size()); } /** Find the first occurrence of any of the characters within the string. Finds the first occurrence of any of the characters within `str` within the string starting at the index `pos`. @par Complexity Linear. @return The index corrosponding to the first occurrence of any of the characters of `str` within `{begin() + pos, end())` if it exists, and @ref npos otherwise. @param str The characters to search for. @param pos The index to start searching at. The default argument for this parameter is `0`. */ template<std::size_t M> BOOST_STATIC_STRING_CPP14_CONSTEXPR size_type find_first_of( const basic_static_string<M, CharT, Traits>& str, size_type pos = 0) const noexcept { return find_first_of(str.data(), pos, str.size()); } /** Find the first occurrence of any of the characters within the string. Finds the first occurrence of any of the characters within the string pointed to by `s` within the string starting at the index `pos`. @par Complexity Linear. @return The index corrosponding to the first occurrence of any of the characters in `{s, s + n)` within `{begin() + pos, end())` if it exists, and @ref npos otherwise. @param s The characters to search for. @param pos The index to start searching at. @param n The length of the string to search for. */ BOOST_STATIC_STRING_CPP14_CONSTEXPR size_type find_first_of( const_pointer s, size_type pos, size_type n) const noexcept; /** Find the first occurrence of any of the characters within the string. Finds the first occurrence of the any of the characters within string pointed to by `s` of length `count` within the string starting at the index `pos`, where `count` is `traits_type::length(s)`. @par Complexity Linear. @return The index corrosponding to the first occurrence of any of the characters in `{s, s + count)` within `{begin() + pos, end())` if it exists, and @ref npos otherwise. @param s The characters to search for. @param pos The index to start searching at. The default argument for this parameter is `0`. */ BOOST_STATIC_STRING_CPP14_CONSTEXPR size_type find_first_of( const_pointer s, size_type pos = 0) const noexcept { return find_first_of(s, pos, traits_type::length(s)); } /** Find the first occurrence of a character within the string. Finds the first occurrence of `c` within the string starting at the index `pos`. @par Complexity Linear. @return The index corrosponding to the first occurrence of `c` within `{begin() + pos, end())` if it exists, and @ref npos otherwise. @param c The character to search for. @param pos The index to start searching at. The default argument for this parameter is `0`. */ BOOST_STATIC_STRING_CPP14_CONSTEXPR size_type find_first_of( value_type c, size_type pos = 0) const noexcept { return find_first_of(&c, pos, 1); } /** Find the last occurrence of any of the characters within the string. Constructs a temporary `string_view_type` object `sv` from `t`, and finds the last occurrence of any of the characters in `sv` within the string before or at the index `pos`. @par Complexity Linear. @tparam T The type of the object to convert. @par Constraints `std::is_convertible<const T&, string_view>::value && !std::is_convertible<const T&, const CharT*>::value`. @return The index corrosponding to the last occurrence of any of the characters in `{sv.begin(), sv.end())` within `{begin(), begin() + pos}` if it exists, and @ref npos otherwise. @param t The characters to search for. @param pos The index to stop searching at. The default argument for this parameter is @ref npos. */ template<typename T #ifndef BOOST_STATIC_STRING_DOCS , typename = detail::enable_if_viewable_t<T, CharT, Traits> #endif > BOOST_STATIC_STRING_CPP14_CONSTEXPR size_type find_last_of( const T& t, size_type pos = npos) const #ifdef BOOST_STATIC_STRING_DOCS noexcept(detail::is_nothrow_convertible<const T&, string_view_type>::value) #else noexcept(detail::is_nothrow_convertible<const T&, detail::common_string_view_type<T, CharT, Traits>>::value) #endif { detail::common_string_view_type<T, CharT, Traits> sv = t; return find_last_of(sv.data(), pos, sv.size()); } /** Find the last occurrence of any of the characters within the string. Finds the last occurrence of any of the characters within `str` within the string starting before or at the index `pos`. @par Complexity Linear. @return The index corrosponding to the last occurrence of any of the characters of `str` within `{begin(), begin() + pos}` if it exists, and @ref npos otherwise. @param str The characters to search for. @param pos The index to stop searching at. The default argument for this parameter is @ref npos. */ template<std::size_t M> BOOST_STATIC_STRING_CPP14_CONSTEXPR size_type find_last_of( const basic_static_string<M, CharT, Traits>& str, size_type pos = npos) const noexcept { return find_last_of(str.data(), pos, str.size()); } /** Find the last occurrence of any of the characters within the string. Finds the last occurrence of any of the characters within the string pointed to by `s` within the string before or at the index `pos`. @par Complexity Linear. @return The index corrosponding to the last occurrence of any of the characters in `{s, s + n)` within `{begin(), begin() + pos}` if it exists, and @ref npos otherwise. @param s The characters to search for. @param pos The index to stop searching at. @param n The length of the string to search for. */ BOOST_STATIC_STRING_CPP14_CONSTEXPR size_type find_last_of( const_pointer s, size_type pos, size_type n) const noexcept; /** Find the last occurrence of any of the characters within the string. Finds the last occurrence of any of the characters within the string pointed to by `s` of length `count` within the string before or at the index `pos`, where `count` is `traits_type::length(s)`. @par Complexity Linear. @return The index corrosponding to the last occurrence of any of the characters in `{s, s + count)` within `{begin(), begin() + pos}` if it exists, and @ref npos otherwise. @param s The characters to search for. @param pos The index to stop searching at. The default argument for this parameter is @ref npos. */ BOOST_STATIC_STRING_CPP14_CONSTEXPR size_type find_last_of( const_pointer s, size_type pos = npos) const noexcept { return find_last_of(s, pos, traits_type::length(s)); } /** Find the last occurrence of a character within the string. Finds the last occurrence of `c` within the string before or at the index `pos`. @par Complexity Linear. @return The index corrosponding to the last occurrence of `c` within `{begin(), begin() + pos}` if it exists, and @ref npos otherwise. @param c The character to search for. @param pos The index to stop searching at. The default argument for this parameter is @ref npos. */ BOOST_STATIC_STRING_CPP14_CONSTEXPR size_type find_last_of( value_type c, size_type pos = npos) const noexcept { return find_last_of(&c, pos, 1); } /** Find the first occurrence of a character not within the string. Constructs a temporary `string_view_type` object `sv` from `t`, and finds the first character that is not within `sv`, starting at the index `pos`. @par Complexity Linear. @tparam T The type of the object to convert. @par Constraints `std::is_convertible<const T&, string_view>::value && !std::is_convertible<const T&, const CharT*>::value`. @return The index corrosponding to the first occurrence of a character that is not in `{sv.begin(), sv.end())` within `{begin() + pos, end())` if it exists, and @ref npos otherwise. @param t The characters to ignore. @param pos The index to start searching at. The default argument for this parameter is `0`. */ template<typename T #ifndef BOOST_STATIC_STRING_DOCS , typename = detail::enable_if_viewable_t<T, CharT, Traits> #endif > BOOST_STATIC_STRING_CPP14_CONSTEXPR size_type find_first_not_of( const T& t, size_type pos = 0) const #ifdef BOOST_STATIC_STRING_DOCS noexcept(detail::is_nothrow_convertible<const T&, string_view_type>::value) #else noexcept(detail::is_nothrow_convertible<const T&, detail::common_string_view_type<T, CharT, Traits>>::value) #endif { detail::common_string_view_type<T, CharT, Traits> sv = t; return find_first_not_of(sv.data(), pos, sv.size()); } /** Find the first occurrence of any of the characters not within the string. Finds the first occurrence of a character that is not within `str` within the string starting at the index `pos`. @par Complexity Linear. @return The index corrosponding to the first character of `{begin() + pos, end())` that is not within `str` if it exists, and @ref npos otherwise. @param str The characters to ignore. @param pos The index to start searching at. The default argument for this parameter is `0`. */ template<std::size_t M> BOOST_STATIC_STRING_CPP14_CONSTEXPR size_type find_first_not_of( const basic_static_string<M, CharT, Traits>& str, size_type pos = 0) const noexcept { return find_first_not_of(str.data(), pos, str.size()); } /** Find the first occurrence of any of the characters not within the string. Finds the first occurrence of a character that is not within the string pointed to by `s` within the string starting at the index `pos`. @par Complexity Linear. @return The index corrosponding to the first character of `{begin() + pos, end())` that is not within `{s, s + n)` if it exists, and @ref npos otherwise. @param s The characters to ignore. @param pos The index to start searching at. The default argument for this parameter is `0`. @param n The length of the characters to ignore. */ BOOST_STATIC_STRING_CPP14_CONSTEXPR size_type find_first_not_of( const_pointer s, size_type pos, size_type n) const noexcept; /** Find the first occurrence of any of the characters not within the string. Finds the first occurrence of a character that is not within the string pointed to by `s` of length `count` within the string starting at the index `pos`, where `count` is `traits_type::length(s)`. @par Complexity Linear. @return The index corrosponding to the first character of `{begin() + pos, end())` that is not within `{s, s + count)` if it exists, and @ref npos otherwise. @param s The characters to ignore. @param pos The index to start searching at. The default argument for this parameter is `0`. */ BOOST_STATIC_STRING_CPP14_CONSTEXPR size_type find_first_not_of( const_pointer s, size_type pos = 0) const noexcept { return find_first_not_of(s, pos, traits_type::length(s)); } /** Find the first occurrence of a character not equal to `c`. Finds the first occurrence of a character that is not equal to `c`. @par Complexity Linear. @return The index corrosponding to the first character of `{begin() + pos, end())` that is not equal to `c` if it exists, and @ref npos otherwise. @param c The character to ignore. @param pos The index to start searching at. The default argument for this parameter is `0`. */ BOOST_STATIC_STRING_CPP14_CONSTEXPR size_type find_first_not_of( value_type c, size_type pos = 0) const noexcept { return find_first_not_of(&c, pos, 1); } /** Find the last occurrence of a character not within the string. Constructs a temporary `string_view_type` object `sv` from `t`, and finds the last character that is not within `sv`, starting at the index `pos`. @par Complexity Linear. @tparam T The type of the object to convert. @par Constraints `std::is_convertible<const T&, string_view>::value && !std::is_convertible<const T&, const CharT*>::value`. @return The index corrosponding to the last occurrence of a character that is not in `{sv.begin(), sv.end())` within `{begin(), begin() + pos}` if it exists, and @ref npos otherwise. @param t The characters to ignore. @param pos The index to start searching at. The default argument for this parameter is @ref npos. */ template<typename T #ifndef BOOST_STATIC_STRING_DOCS , typename = detail::enable_if_viewable_t<T, CharT, Traits> #endif > BOOST_STATIC_STRING_CPP14_CONSTEXPR size_type find_last_not_of( const T& t, size_type pos = npos) const #ifdef BOOST_STATIC_STRING_DOCS noexcept(detail::is_nothrow_convertible<const T&, string_view_type>::value) #else noexcept(detail::is_nothrow_convertible<const T&, detail::common_string_view_type<T, CharT, Traits>>::value) #endif { detail::common_string_view_type<T, CharT, Traits> sv = t; return find_last_not_of(sv.data(), pos, sv.size()); } /** Find the last occurrence of a character not within the string. Finds the last occurrence of a character that is not within `str` within the string before or at the index `pos`. @par Complexity Linear. @return The index corrosponding to the last character of `{begin(), begin() + pos}` that is not within `str` if it exists, and @ref npos otherwise. @param str The characters to ignore. @param pos The index to stop searching at. The default argument for this parameter is @ref npos. */ template<size_t M> BOOST_STATIC_STRING_CPP14_CONSTEXPR size_type find_last_not_of( const basic_static_string<M, CharT, Traits>& str, size_type pos = npos) const noexcept { return find_last_not_of(str.data(), pos, str.size()); } /** Find the last occurrence of a character not within the string. Finds the last occurrence of a character that is not within the string pointed to by `s` within the string before or at the index `pos`. @par Complexity Linear. @return The index corrosponding to the last character of `{begin(), begin() + pos}` that is not within `{s, s + n)` if it exists, and @ref npos otherwise. @param s The characters to ignore. @param pos The index to stop searching at. The default argument for this parameter is @ref npos. @param n The length of the characters to ignore. */ BOOST_STATIC_STRING_CPP14_CONSTEXPR size_type find_last_not_of( const_pointer s, size_type pos, size_type n) const noexcept; /** Find the last occurrence of a character not within the string. Finds the last occurrence of a character that is not within the string pointed to by `s` of length `count` within the string before or at the index `pos`, where `count` is `traits_type::length(s)`. @par Complexity Linear. @return The index corrosponding to the last character of `{begin(), begin() + pos}` that is not within `{s, s + count)` if it exists, and @ref npos otherwise. @param s The characters to ignore. @param pos The index to stop searching at. The default argument for this parameter is @ref npos. */ BOOST_STATIC_STRING_CPP14_CONSTEXPR size_type find_last_not_of( const_pointer s, size_type pos = npos) const noexcept { return find_last_not_of(s, pos, traits_type::length(s)); } /** Find the last occurrence of a character not equal to `c`. Finds the last occurrence of a character that is not equal to `c` before or at the index `pos`. @par Complexity Linear. @return The index corrosponding to the last character of `{begin(), begin() + pos}` that is not equal to `c` if it exists, and @ref npos otherwise. @param c The character to ignore. @param pos The index to start searching at. The default argument for this parameter is @ref npos. */ BOOST_STATIC_STRING_CPP14_CONSTEXPR size_type find_last_not_of( value_type c, size_type pos = npos) const noexcept { return find_last_not_of(&c, pos, 1); } /** Return whether the string begins with a string. Returns `true` if the string begins with `s`, and `false` otherwise. @par Complexity Linear. @param t The string view to check for. */ template<typename T #ifndef BOOST_STATIC_STRING_DOCS , typename = detail::enable_if_viewable_t<T, CharT, Traits> #endif > BOOST_STATIC_STRING_CPP14_CONSTEXPR bool starts_with( T const& t) const noexcept { detail::common_string_view_type<T, CharT, Traits> sv = t; const size_type len = sv.size(); return size() >= len && !traits_type::compare(data(), sv.data(), len); } /** Return whether the string begins with a character. Returns `true` if the string begins with `c`, and `false` otherwise. @par Complexity Constant. @param c The character to check for. */ BOOST_STATIC_STRING_CPP14_CONSTEXPR bool starts_with( value_type c) const noexcept { return !empty() && traits_type::eq(front(), c); } /** Return whether the string begins with a string. Returns `true` if the string begins with the string pointed to be `s` of length `traits_type::length(s)`, and `false` otherwise. @par Complexity Linear. @param s The string to check for. */ BOOST_STATIC_STRING_CPP14_CONSTEXPR bool starts_with( const_pointer s) const noexcept { const size_type len = traits_type::length(s); return size() >= len && !traits_type::compare(data(), s, len); } /** Return whether the string ends with a string. Returns `true` if the string ends with `s`, and `false` otherwise. @par Complexity Linear. @param t The string view to check for. */ template<typename T #ifndef BOOST_STATIC_STRING_DOCS , typename = detail::enable_if_viewable_t<T, CharT, Traits> #endif > BOOST_STATIC_STRING_CPP14_CONSTEXPR bool ends_with( T const& t) const noexcept { detail::common_string_view_type<T, CharT, Traits> sv = t; const size_type len = sv.size(); return size() >= len && !traits_type::compare(data() + (size() - len), sv.data(), len); } /** Return whether the string ends with a character. Returns `true` if the string ends with `c`, and `false` otherwise. @par Complexity Constant. @param c The character to check for. */ BOOST_STATIC_STRING_CPP14_CONSTEXPR bool ends_with( value_type c) const noexcept { return !empty() && traits_type::eq(back(), c); } /** Return whether the string ends with a string. Returns `true` if the string ends with the string pointed to be `s` of length `traits_type::length(s)`, and `false` otherwise. @par Complexity Linear. @param s The string to check for. */ BOOST_STATIC_STRING_CPP14_CONSTEXPR bool ends_with( const_pointer s) const noexcept { const size_type len = traits_type::length(s); return size() >= len && !traits_type::compare(data() + (size() - len), s, len); } private: BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string& term() noexcept { this->term_impl(); return *this; } BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string& assign_char(value_type ch, std::true_type) noexcept { this->set_size(1); traits_type::assign(data()[0], ch); return term(); } BOOST_STATIC_STRING_NORETURN basic_static_string& assign_char(value_type, std::false_type) { detail::throw_exception<std::length_error>("max_size() == 0"); // This eliminates any potential warnings #ifdef BOOST_STATIC_STRING_NO_NORETURN return *this; #endif } // Returns the size of data read from input iterator. Read data begins at data() + size() + 1. template<typename InputIterator> BOOST_STATIC_STRING_CPP14_CONSTEXPR size_type read_back( bool overwrite_null, InputIterator first, InputIterator last); BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string& replace_unchecked( size_type pos, size_type n1, const_pointer s, size_type n2) { if (pos > size()) detail::throw_exception<std::out_of_range>( "pos > size()"); return replace_unchecked(data() + pos, data() + pos + capped_length(pos, n1), s, n2); } BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string& replace_unchecked( const_iterator i1, const_iterator i2, const_pointer s, size_type n2); BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string& insert_unchecked( size_type index, const_pointer s, size_type count) { if (index > size()) detail::throw_exception<std::out_of_range>( "index > size()"); insert_unchecked(data() + index, s, count); return *this; } BOOST_STATIC_STRING_CPP14_CONSTEXPR iterator insert_unchecked( const_iterator pos, const_pointer s, size_type count); BOOST_STATIC_STRING_CPP14_CONSTEXPR basic_static_string& assign_unchecked( const_pointer s, size_type count) noexcept { this->set_size(count); traits_type::copy(data(), s, size() + 1); return *this; } BOOST_STATIC_STRING_CPP14_CONSTEXPR size_type capped_length( size_type index, size_type length) const { if (index > size()) detail::throw_exception<std::out_of_range>( "index > size()"); return (std::min)(size() - index, length); } }; //------------------------------------------------------------------------------ // // Non-member functions // //------------------------------------------------------------------------------ template< std::size_t N, std::size_t M, typename CharT, typename Traits> BOOST_STATIC_STRING_CPP14_CONSTEXPR inline bool operator==( const basic_static_string<N, CharT, Traits>& lhs, const basic_static_string<M, CharT, Traits>& rhs) { return lhs.compare(rhs) == 0; } template< std::size_t N, std::size_t M, typename CharT, typename Traits> BOOST_STATIC_STRING_CPP14_CONSTEXPR inline bool operator!=( const basic_static_string<N, CharT, Traits>& lhs, const basic_static_string<M, CharT, Traits>& rhs) { return lhs.compare(rhs) != 0; } template< std::size_t N, std::size_t M, typename CharT, typename Traits> BOOST_STATIC_STRING_CPP14_CONSTEXPR inline bool operator<( const basic_static_string<N, CharT, Traits>& lhs, const basic_static_string<M, CharT, Traits>& rhs) { return lhs.compare(rhs) < 0; } template< std::size_t N, std::size_t M, typename CharT, typename Traits> BOOST_STATIC_STRING_CPP14_CONSTEXPR inline bool operator<=( const basic_static_string<N, CharT, Traits>& lhs, const basic_static_string<M, CharT, Traits>& rhs) { return lhs.compare(rhs) <= 0; } template< std::size_t N, std::size_t M, typename CharT, typename Traits> BOOST_STATIC_STRING_CPP14_CONSTEXPR inline bool operator>( const basic_static_string<N, CharT, Traits>& lhs, const basic_static_string<M, CharT, Traits>& rhs) { return lhs.compare(rhs) > 0; } template< std::size_t N, std::size_t M, typename CharT, typename Traits> BOOST_STATIC_STRING_CPP14_CONSTEXPR inline bool operator>=( const basic_static_string<N, CharT, Traits>& lhs, const basic_static_string<M, CharT, Traits>& rhs) { return lhs.compare(rhs) >= 0; } template<std::size_t N, typename CharT, typename Traits> BOOST_STATIC_STRING_CPP14_CONSTEXPR inline bool operator==( const CharT* lhs, const basic_static_string<N, CharT, Traits>& rhs) { return detail::lexicographical_compare<CharT, Traits>( lhs, Traits::length(lhs), rhs.data(), rhs.size()) == 0; } template<std::size_t N, typename CharT, typename Traits> BOOST_STATIC_STRING_CPP14_CONSTEXPR inline bool operator==( const basic_static_string<N, CharT, Traits>& lhs, const CharT* rhs) { return detail::lexicographical_compare<CharT, Traits>( lhs.data(), lhs.size(), rhs, Traits::length(rhs)) == 0; } template<std::size_t N, typename CharT, typename Traits, class T #ifndef BOOST_STATIC_STRING_DOCS , typename = detail::enable_if_viewable_t<T, CharT, Traits> #endif > BOOST_STATIC_STRING_CPP14_CONSTEXPR inline bool operator==( const T& lhs, const basic_static_string<N, CharT, Traits>& rhs) { detail::common_string_view_type<T, CharT, Traits> lhsv = lhs; return detail::lexicographical_compare<CharT, Traits>( lhsv.data(), lhsv.size(), rhs.data(), rhs.size()) == 0; } template<std::size_t N, typename CharT, typename Traits, class T #ifndef BOOST_STATIC_STRING_DOCS , typename = detail::enable_if_viewable_t<T, CharT, Traits> #endif > BOOST_STATIC_STRING_CPP14_CONSTEXPR inline bool operator==( const basic_static_string<N, CharT, Traits>& lhs, const T& rhs) { detail::common_string_view_type<T, CharT, Traits> rhsv = rhs; return detail::lexicographical_compare<CharT, Traits>( lhs.data(), lhs.size(), rhsv.data(), rhsv.size()) == 0; } template<std::size_t N, typename CharT, typename Traits> BOOST_STATIC_STRING_CPP14_CONSTEXPR inline bool operator!=( const CharT* lhs, const basic_static_string<N, CharT, Traits>& rhs) { return detail::lexicographical_compare<CharT, Traits>( lhs, Traits::length(lhs), rhs.data(), rhs.size()) != 0; } template<std::size_t N, typename CharT, typename Traits> BOOST_STATIC_STRING_CPP14_CONSTEXPR inline bool operator!=( const basic_static_string<N, CharT, Traits>& lhs, const CharT* rhs) { return detail::lexicographical_compare<CharT, Traits>( lhs.data(), lhs.size(), rhs, Traits::length(rhs)) != 0; } template<std::size_t N, typename CharT, typename Traits, class T #ifndef BOOST_STATIC_STRING_DOCS , typename = detail::enable_if_viewable_t<T, CharT, Traits> #endif > BOOST_STATIC_STRING_CPP14_CONSTEXPR inline bool operator!=( const T& lhs, const basic_static_string<N, CharT, Traits>& rhs) { detail::common_string_view_type<T, CharT, Traits> lhsv = lhs; return detail::lexicographical_compare<CharT, Traits>( lhsv.data(), lhsv.size(), rhs.data(), rhs.size()) != 0; } template<std::size_t N, typename CharT, typename Traits, class T #ifndef BOOST_STATIC_STRING_DOCS , typename = detail::enable_if_viewable_t<T, CharT, Traits> #endif > BOOST_STATIC_STRING_CPP14_CONSTEXPR inline bool operator!=( const basic_static_string<N, CharT, Traits>& lhs, const T& rhs) { detail::common_string_view_type<T, CharT, Traits> rhsv = rhs; return detail::lexicographical_compare<CharT, Traits>( lhs.data(), lhs.size(), rhsv.data(), rhsv.size()) != 0; } template<std::size_t N, typename CharT, typename Traits> BOOST_STATIC_STRING_CPP14_CONSTEXPR inline bool operator<( const CharT* lhs, const basic_static_string<N, CharT, Traits>& rhs) { return detail::lexicographical_compare<CharT, Traits>( lhs, Traits::length(lhs), rhs.data(), rhs.size()) < 0; } template<std::size_t N, typename CharT, typename Traits> BOOST_STATIC_STRING_CPP14_CONSTEXPR inline bool operator<( const basic_static_string<N, CharT, Traits>& lhs, const CharT* rhs) { return detail::lexicographical_compare<CharT, Traits>( lhs.data(), lhs.size(), rhs, Traits::length(rhs)) < 0; } template<std::size_t N, typename CharT, typename Traits, class T #ifndef BOOST_STATIC_STRING_DOCS , typename = detail::enable_if_viewable_t<T, CharT, Traits> #endif > BOOST_STATIC_STRING_CPP14_CONSTEXPR inline bool operator<( const T& lhs, const basic_static_string<N, CharT, Traits>& rhs) { detail::common_string_view_type<T, CharT, Traits> lhsv = lhs; return detail::lexicographical_compare<CharT, Traits>( lhsv.data(), lhsv.size(), rhs.data(), rhs.size()) < 0; } template<std::size_t N, typename CharT, typename Traits, class T #ifndef BOOST_STATIC_STRING_DOCS , typename = detail::enable_if_viewable_t<T, CharT, Traits> #endif > BOOST_STATIC_STRING_CPP14_CONSTEXPR inline bool operator<( const basic_static_string<N, CharT, Traits>& lhs, const T& rhs) { detail::common_string_view_type<T, CharT, Traits> rhsv = rhs; return detail::lexicographical_compare<CharT, Traits>( lhs.data(), lhs.size(), rhsv.data(), rhsv.size()) < 0; } template<std::size_t N, typename CharT, typename Traits> BOOST_STATIC_STRING_CPP14_CONSTEXPR inline bool operator<=( const CharT* lhs, const basic_static_string<N, CharT, Traits>& rhs) { return detail::lexicographical_compare<CharT, Traits>( lhs, Traits::length(lhs), rhs.data(), rhs.size()) <= 0; } template<std::size_t N, typename CharT, typename Traits> BOOST_STATIC_STRING_CPP14_CONSTEXPR inline bool operator<=( const basic_static_string<N, CharT, Traits>& lhs, const CharT* rhs) { return detail::lexicographical_compare<CharT, Traits>( lhs.data(), lhs.size(), rhs, Traits::length(rhs)) <= 0; } template<std::size_t N, typename CharT, typename Traits, class T #ifndef BOOST_STATIC_STRING_DOCS , typename = detail::enable_if_viewable_t<T, CharT, Traits> #endif > BOOST_STATIC_STRING_CPP14_CONSTEXPR inline bool operator<=( const T& lhs, const basic_static_string<N, CharT, Traits>& rhs) { detail::common_string_view_type<T, CharT, Traits> lhsv = lhs; return detail::lexicographical_compare<CharT, Traits>( lhsv.data(), lhsv.size(), rhs.data(), rhs.size()) <= 0; } template<std::size_t N, typename CharT, typename Traits, class T #ifndef BOOST_STATIC_STRING_DOCS , typename = detail::enable_if_viewable_t<T, CharT, Traits> #endif > BOOST_STATIC_STRING_CPP14_CONSTEXPR inline bool operator<=( const basic_static_string<N, CharT, Traits>& lhs, const T& rhs) { detail::common_string_view_type<T, CharT, Traits> rhsv = rhs; return detail::lexicographical_compare<CharT, Traits>( lhs.data(), lhs.size(), rhsv.data(), rhsv.size()) <= 0; } template<std::size_t N, typename CharT, typename Traits> BOOST_STATIC_STRING_CPP14_CONSTEXPR inline bool operator>( const CharT* lhs, const basic_static_string<N, CharT, Traits>& rhs) { return detail::lexicographical_compare<CharT, Traits>( lhs, Traits::length(lhs), rhs.data(), rhs.size()) > 0; } template<std::size_t N, typename CharT, typename Traits> BOOST_STATIC_STRING_CPP14_CONSTEXPR inline bool operator>( const basic_static_string<N, CharT, Traits>& lhs, const CharT* rhs) { return detail::lexicographical_compare<CharT, Traits>( lhs.data(), lhs.size(), rhs, Traits::length(rhs)) > 0; } template<std::size_t N, typename CharT, typename Traits, class T #ifndef BOOST_STATIC_STRING_DOCS , typename = detail::enable_if_viewable_t<T, CharT, Traits> #endif > BOOST_STATIC_STRING_CPP14_CONSTEXPR inline bool operator>( const T& lhs, const basic_static_string<N, CharT, Traits>& rhs) { detail::common_string_view_type<T, CharT, Traits> lhsv = lhs; return detail::lexicographical_compare<CharT, Traits>( lhsv.data(), lhsv.size(), rhs.data(), rhs.size()) > 0; } template<std::size_t N, typename CharT, typename Traits, class T #ifndef BOOST_STATIC_STRING_DOCS , typename = detail::enable_if_viewable_t<T, CharT, Traits> #endif > BOOST_STATIC_STRING_CPP14_CONSTEXPR inline bool operator>( const basic_static_string<N, CharT, Traits>& lhs, const T& rhs) { detail::common_string_view_type<T, CharT, Traits> rhsv = rhs; return detail::lexicographical_compare<CharT, Traits>( lhs.data(), lhs.size(), rhsv.data(), rhsv.size()) > 0; } template<std::size_t N, typename CharT, typename Traits> BOOST_STATIC_STRING_CPP14_CONSTEXPR inline bool operator>=( const CharT* lhs, const basic_static_string<N, CharT, Traits>& rhs) { return detail::lexicographical_compare<CharT, Traits>( lhs, Traits::length(lhs), rhs.data(), rhs.size()) >= 0; } template<std::size_t N, typename CharT, typename Traits> BOOST_STATIC_STRING_CPP14_CONSTEXPR inline bool operator>=( const basic_static_string<N, CharT, Traits>& lhs, const CharT* rhs) { return detail::lexicographical_compare<CharT, Traits>( lhs.data(), lhs.size(), rhs, Traits::length(rhs)) >= 0; } template<std::size_t N, typename CharT, typename Traits, class T #ifndef BOOST_STATIC_STRING_DOCS , typename = detail::enable_if_viewable_t<T, CharT, Traits> #endif > BOOST_STATIC_STRING_CPP14_CONSTEXPR inline bool operator>=( const T& lhs, const basic_static_string<N, CharT, Traits>& rhs) { detail::common_string_view_type<T, CharT, Traits> lhsv = lhs; return detail::lexicographical_compare<CharT, Traits>( lhsv.data(), lhsv.size(), rhs.data(), rhs.size()) >= 0; } template<std::size_t N, typename CharT, typename Traits, class T #ifndef BOOST_STATIC_STRING_DOCS , typename = detail::enable_if_viewable_t<T, CharT, Traits> #endif > BOOST_STATIC_STRING_CPP14_CONSTEXPR inline bool operator>=( const basic_static_string<N, CharT, Traits>& lhs, const T& rhs) { detail::common_string_view_type<T, CharT, Traits> rhsv = rhs; return detail::lexicographical_compare<CharT, Traits>( lhs.data(), lhs.size(), rhsv.data(), rhsv.size()) >= 0; } template< std::size_t N, std::size_t M, typename CharT, typename Traits> BOOST_STATIC_STRING_CPP14_CONSTEXPR inline basic_static_string<N + M, CharT, Traits> operator+( const basic_static_string<N, CharT, Traits>& lhs, const basic_static_string<M, CharT, Traits>& rhs) { return basic_static_string<N + M, CharT, Traits>(lhs) += rhs; } template<std::size_t N, typename CharT, typename Traits> BOOST_STATIC_STRING_CPP14_CONSTEXPR inline basic_static_string<N + 1, CharT, Traits> operator+( const basic_static_string<N, CharT, Traits>& lhs, CharT rhs) { return basic_static_string<N + 1, CharT, Traits>(lhs) += rhs; } template<std::size_t N, typename CharT, typename Traits> BOOST_STATIC_STRING_CPP14_CONSTEXPR inline basic_static_string<N + 1, CharT, Traits> operator+( CharT lhs, const basic_static_string<N, CharT, Traits>& rhs) { // The cast to std::size_t is needed here since 0 is a null pointer constant return basic_static_string<N + 1, CharT, Traits>(rhs).insert( std::size_t(0), 1, lhs); } // Add a null terminated character array to a string. template< std::size_t N, std::size_t M, typename CharT, typename Traits> BOOST_STATIC_STRING_CPP14_CONSTEXPR inline basic_static_string<N + M, CharT, Traits> operator+( const basic_static_string<N, CharT, Traits>& lhs, const CharT(&rhs)[M]) { return basic_static_string<N + M, CharT, Traits>(lhs).append(+rhs); } // Add a string to a null terminated character array. template< std::size_t N, std::size_t M, typename CharT, typename Traits> BOOST_STATIC_STRING_CPP14_CONSTEXPR inline basic_static_string<N + M, CharT, Traits> operator+( const CharT(&lhs)[N], const basic_static_string<M, CharT, Traits>& rhs) { // The cast to std::size_t is needed here since 0 is a null pointer constant return basic_static_string<N + M, CharT, Traits>(rhs).insert( std::size_t(0), +lhs); } //------------------------------------------------------------------------------ // // erase_if // //------------------------------------------------------------------------------ template< std::size_t N, typename CharT, typename Traits, typename UnaryPredicate> BOOST_STATIC_STRING_CPP14_CONSTEXPR typename basic_static_string<N, CharT, Traits>::size_type erase_if( basic_static_string<N, CharT, Traits>& str, UnaryPredicate pred) { auto first = str.begin(); for (auto it = first; it != str.end(); ++it) if (!pred(*it)) *first++ = std::move(*it); const auto count = str.end() - first; str.erase(first, str.end()); return count; } //------------------------------------------------------------------------------ // // swap // //------------------------------------------------------------------------------ template<std::size_t N, typename CharT, typename Traits> BOOST_STATIC_STRING_CPP14_CONSTEXPR inline void swap( basic_static_string<N, CharT, Traits>& lhs, basic_static_string<N, CharT, Traits>& rhs) { lhs.swap(rhs); } template< std::size_t N, std::size_t M, typename CharT, typename Traits> BOOST_STATIC_STRING_CPP14_CONSTEXPR inline void swap( basic_static_string<N, CharT, Traits>& lhs, basic_static_string<M, CharT, Traits>& rhs) { lhs.swap(rhs); } //------------------------------------------------------------------------------ // // Input/Output // //------------------------------------------------------------------------------ template<std::size_t N, typename CharT, typename Traits> inline std::basic_ostream<CharT, Traits>& operator<<( std::basic_ostream<CharT, Traits>& os, const basic_static_string<N, CharT, Traits>& s) { #ifdef BOOST_STATIC_STRING_HAS_ANY_STRING_VIEW return os << basic_string_view<CharT, Traits>(s.data(), s.size()); #else for (auto c: s) os << c; return os; #endif } //------------------------------------------------------------------------------ // // Numeric conversions // //------------------------------------------------------------------------------ // Signed overloads have a + 2, one for the missing digit, // and one for the sign. // Unsigned overloads have a + 1, for the missing digit. // Floating point overloads have a + 4, for the sign // of the integral part, sign of the exponent, the 'e', // and the decimal. /// Converts `value` to a `static_string` static_string<std::numeric_limits<int>::digits10 + 2> inline to_static_string(int value) noexcept { return detail::to_static_string_int_impl< std::numeric_limits<int>::digits10 + 2>(value); } /// Converts `value` to a `static_string` static_string<std::numeric_limits<long>::digits10 + 2> inline to_static_string(long value) noexcept { return detail::to_static_string_int_impl< std::numeric_limits<long>::digits10 + 2>(value); } /// Converts `value` to a `static_string` static_string<std::numeric_limits<long long>::digits10 + 2> inline to_static_string(long long value) noexcept { return detail::to_static_string_int_impl< std::numeric_limits<long long>::digits10 + 2>(value); } /// Converts `value` to a `static_string` static_string<std::numeric_limits<unsigned int>::digits10 + 1> inline to_static_string(unsigned int value) noexcept { return detail::to_static_string_int_impl< std::numeric_limits<unsigned int>::digits10 + 1>(value); } /// Converts `value` to a `static_string` static_string<std::numeric_limits<unsigned long>::digits10 + 1> inline to_static_string(unsigned long value) noexcept { return detail::to_static_string_int_impl< std::numeric_limits<unsigned long>::digits10 + 1>(value); } /// Converts `value` to a `static_string` static_string<std::numeric_limits<unsigned long long>::digits10 + 1> inline to_static_string(unsigned long long value) noexcept { return detail::to_static_string_int_impl< std::numeric_limits<unsigned long long>::digits10 + 1>(value); } /// Converts `value` to a `static_string` static_string<std::numeric_limits<float>::max_digits10 + 4> inline to_static_string(float value) noexcept { return detail::to_static_string_float_impl< std::numeric_limits<float>::max_digits10 + 4>(value); } /// Converts `value` to a `static_string` static_string<std::numeric_limits<double>::max_digits10 + 4> inline to_static_string(double value) noexcept { return detail::to_static_string_float_impl< std::numeric_limits<double>::max_digits10 + 4>(value); } /// Converts `value` to a `static_string` static_string<std::numeric_limits<long double>::max_digits10 + 4> inline to_static_string(long double value) noexcept { return detail::to_static_string_float_impl< std::numeric_limits<long double>::max_digits10 + 4>(value); } /// Converts `value` to a `static_wstring` static_wstring<std::numeric_limits<int>::digits10 + 2> inline to_static_wstring(int value) noexcept { return detail::to_static_wstring_int_impl< std::numeric_limits<int>::digits10 + 2>(value); } /// Converts `value` to a `static_wstring` static_wstring<std::numeric_limits<long>::digits10 + 2> inline to_static_wstring(long value) noexcept { return detail::to_static_wstring_int_impl< std::numeric_limits<long>::digits10 + 2>(value); } /// Converts `value` to a `static_wstring` static_wstring<std::numeric_limits<long long>::digits10 + 2> inline to_static_wstring(long long value) noexcept { return detail::to_static_wstring_int_impl< std::numeric_limits<long long>::digits10 + 2>(value); } /// Converts `value` to a `static_wstring` static_wstring<std::numeric_limits<unsigned int>::digits10 + 1> inline to_static_wstring(unsigned int value) noexcept { return detail::to_static_wstring_int_impl< std::numeric_limits<unsigned int>::digits10 + 1>(value); } /// Converts `value` to a `static_wstring` static_wstring<std::numeric_limits<unsigned long>::digits10 + 1> inline to_static_wstring(unsigned long value) noexcept { return detail::to_static_wstring_int_impl< std::numeric_limits<unsigned long>::digits10 + 1>(value); } /// Converts `value` to a `static_wstring` static_wstring<std::numeric_limits<unsigned long long>::digits10 + 1> inline to_static_wstring(unsigned long long value) noexcept { return detail::to_static_wstring_int_impl< std::numeric_limits<unsigned long long>::digits10 + 1>(value); } /// Converts `value` to a `static_wstring` static_wstring<std::numeric_limits<float>::max_digits10 + 4> inline to_static_wstring(float value) noexcept { return detail::to_static_wstring_float_impl< std::numeric_limits<float>::max_digits10 + 4>(value); } /// Converts `value` to a `static_wstring` static_wstring<std::numeric_limits<double>::max_digits10 + 4> inline to_static_wstring(double value) noexcept { return detail::to_static_wstring_float_impl< std::numeric_limits<double>::max_digits10 + 4>(value); } /// Converts `value` to a `static_wstring` static_wstring<std::numeric_limits<long double>::max_digits10 + 4> inline to_static_wstring(long double value) noexcept { return detail::to_static_wstring_float_impl< std::numeric_limits<long double>::max_digits10 + 4>(value); } //------------------------------------------------------------------------------ // // Deduction Guides // //------------------------------------------------------------------------------ #ifdef BOOST_STATIC_STRING_USE_DEDUCT template<std::size_t N, typename CharT> basic_static_string(const CharT(&)[N]) -> basic_static_string<N, CharT, std::char_traits<CharT>>; #endif //------------------------------------------------------------------------------ // // Hashing // //------------------------------------------------------------------------------ #ifndef BOOST_STATIC_STRING_STANDALONE /// hash_value overload for Boost.Container_Hash template <std::size_t N, typename CharT, typename Traits> std::size_t hash_value( const basic_static_string<N, CharT, Traits>& str) { return boost::hash_range(str.begin(), str.end()); } #endif } // static_strings //------------------------------------------------------------------------------ // // using Declarations // //------------------------------------------------------------------------------ using static_strings::static_string; using static_strings::static_wstring; using static_strings::static_u16string; using static_strings::static_u32string; } // boost /// std::hash partial specialization for basic_static_string namespace std { template<std::size_t N, typename CharT, typename Traits> struct hash< #ifdef BOOST_STATIC_STRING_DOCS basic_static_string #else boost::static_strings::basic_static_string<N, CharT, Traits> #endif > { std::size_t operator()( const boost::static_strings::basic_static_string<N, CharT, Traits>& str) const noexcept { #if !defined(BOOST_STATIC_STRING_STANDALONE) return boost::hash_range(str.begin(), str.end()); #elif defined(BOOST_STATIC_STRING_HAS_ANY_STRING_VIEW) using view_type = typename boost::static_strings::basic_string_view<CharT, Traits>; return std::hash<view_type>()(view_type(str.data(), str.size())); #else std::size_t seed = 0; for (CharT const& c : str) { mix_impl(std::integral_constant<bool, sizeof(std::size_t) >= 8>{}, seed, c); } return seed; #endif } static void mix_impl(std::true_type, std::size_t& seed, CharT c) { seed += 0x9e3779b9 + std::hash<CharT>()( c ); std::size_t const m = (std::size_t(0xe9846af) << 32) + 0x9b1a615d; seed ^= seed >> 32; seed *= m; seed ^= seed >> 32; seed *= m; seed ^= seed >> 28; } static void mix_impl(std::false_type, std::size_t& seed, CharT c) { seed += 0x9e3779b9 + std::hash<CharT>()( c ); std::size_t const m1 = 0x21f0aaad; std::size_t const m2 = 0x735a2d97; seed ^= seed >> 16; seed *= m1; seed ^= seed >> 15; seed *= m2; seed ^= seed >> 15; } }; } // std //-------------------------------------------------------------------------- // // Implementation // //-------------------------------------------------------------------------- #ifndef BOOST_STATIC_STRING_DOCS namespace boost { namespace static_strings { template<std::size_t N, typename CharT, typename Traits> BOOST_STATIC_STRING_CPP14_CONSTEXPR auto basic_static_string<N, CharT, Traits>:: assign( size_type count, value_type ch) -> basic_static_string& { if (count > max_size()) detail::throw_exception<std::length_error>( "count > max_size()"); this->set_size(count); traits_type::assign(data(), size(), ch); return term(); } template<std::size_t N, typename CharT, typename Traits> BOOST_STATIC_STRING_CPP14_CONSTEXPR auto basic_static_string<N, CharT, Traits>:: assign( const_pointer s, size_type count) -> basic_static_string& { if (count > max_size()) detail::throw_exception<std::length_error>( "count > max_size()"); this->set_size(count); traits_type::move(data(), s, size()); return term(); } template<std::size_t N, typename CharT, typename Traits> template<typename InputIterator> BOOST_STATIC_STRING_CPP14_CONSTEXPR auto basic_static_string<N, CharT, Traits>:: assign( InputIterator first, InputIterator last) -> typename std::enable_if< detail::is_input_iterator<InputIterator>::value, basic_static_string&>::type { auto ptr = data(); for (std::size_t i = 0; first != last; ++first, ++ptr, ++i) { if (i >= max_size()) { this->set_size(i); term(); detail::throw_exception<std::length_error>("n > max_size()"); } traits_type::assign(*ptr, *first); } this->set_size(ptr - data()); return term(); } template<std::size_t N, typename CharT, typename Traits> BOOST_STATIC_STRING_CPP14_CONSTEXPR auto basic_static_string<N, CharT, Traits>:: insert( const_iterator pos, size_type count, value_type ch) -> iterator { const auto curr_size = size(); const auto curr_data = data(); if (count > max_size() - curr_size) detail::throw_exception<std::length_error>( "count > max_size() - curr_size"); const auto index = pos - curr_data; traits_type::move(&curr_data[index + count], &curr_data[index], curr_size - index + 1); traits_type::assign(&curr_data[index], count, ch); this->set_size(curr_size + count); return &curr_data[index]; } template<std::size_t N, typename CharT, typename Traits> template<typename ForwardIterator> BOOST_STATIC_STRING_CPP14_CONSTEXPR auto basic_static_string<N, CharT, Traits>:: insert( const_iterator pos, ForwardIterator first, ForwardIterator last) -> typename std::enable_if< detail::is_forward_iterator< ForwardIterator>::value, iterator>::type { // input const std::size_t count = detail::distance(first, last); const auto first_addr = &*first; const auto last_addr = first_addr + count; // output const auto curr_size = size(); const auto curr_data = data(); const std::size_t index = pos - curr_data; auto dest = &curr_data[index]; if (count > max_size() - curr_size) detail::throw_exception<std::length_error>( "count > max_size() - curr_size"); traits_type::move(dest + count, dest, curr_size - index + 1); const bool inside = detail::ptr_in_range(curr_data, curr_data + curr_size, first_addr); if (!inside || last_addr <= pos) { detail::copy_with_traits<Traits>(first, last, dest); } else /* if (inside) */ { const size_type offset = first_addr - curr_data; if (offset < index) { const size_type diff = index - offset; traits_type::copy(dest, &curr_data[offset], diff); traits_type::copy(&curr_data[index + diff], dest + count, count - diff); } else { auto src = &curr_data[offset + count]; traits_type::copy(dest, src, count); } } this->set_size(curr_size + count); return curr_data + index; } template<std::size_t N, typename CharT, typename Traits> template<typename InputIterator> BOOST_STATIC_STRING_CPP14_CONSTEXPR auto basic_static_string<N, CharT, Traits>:: insert( const_iterator pos, InputIterator first, InputIterator last) -> typename std::enable_if< detail::is_input_iterator< InputIterator>::value && !detail::is_forward_iterator< InputIterator>::value, iterator>::type { const auto curr_size = size(); const auto curr_data = data(); const auto count = read_back(false, first, last); const std::size_t index = pos - curr_data; std::rotate(&curr_data[index], &curr_data[curr_size + 1], &curr_data[curr_size + count + 1]); this->set_size(curr_size + count); return curr_data + index; } template<std::size_t N, typename CharT, typename Traits> BOOST_STATIC_STRING_CPP14_CONSTEXPR auto basic_static_string<N, CharT, Traits>:: erase( const_iterator first, const_iterator last) -> iterator { const auto curr_data = data(); const std::size_t index = first - curr_data; traits_type::move(&curr_data[index], last, (end() - last) + 1); this->set_size(size() - std::size_t(last - first)); return curr_data + index; } template<std::size_t N, typename CharT, typename Traits> BOOST_STATIC_STRING_CPP14_CONSTEXPR void basic_static_string<N, CharT, Traits>:: push_back( value_type ch) { const auto curr_size = size(); if (curr_size >= max_size()) detail::throw_exception<std::length_error>( "curr_size >= max_size()"); traits_type::assign(data()[curr_size], ch); this->set_size(curr_size + 1); term(); } template<std::size_t N, typename CharT, typename Traits> BOOST_STATIC_STRING_CPP14_CONSTEXPR auto basic_static_string<N, CharT, Traits>:: append( size_type count, value_type ch) -> basic_static_string& { const auto curr_size = size(); if (count > max_size() - curr_size) detail::throw_exception<std::length_error>( "count > max_size() - size()"); traits_type::assign(end(), count, ch); this->set_size(curr_size + count); return term(); } template<std::size_t N, typename CharT, typename Traits> BOOST_STATIC_STRING_CPP14_CONSTEXPR auto basic_static_string<N, CharT, Traits>:: append( const_pointer s, size_type count) -> basic_static_string& { const auto curr_size = size(); if (count > max_size() - curr_size) detail::throw_exception<std::length_error>( "count > max_size() - size()"); traits_type::copy(end(), s, count); this->set_size(curr_size + count); return term(); } template<std::size_t N, typename CharT, typename Traits> BOOST_STATIC_STRING_CPP14_CONSTEXPR void basic_static_string<N, CharT, Traits>:: resize(size_type n, value_type c) { if (n > max_size()) detail::throw_exception<std::length_error>( "n > max_size()"); const auto curr_size = size(); if(n > curr_size) traits_type::assign(data() + curr_size, n - curr_size, c); this->set_size(n); term(); } template<std::size_t N, typename CharT, typename Traits> BOOST_STATIC_STRING_CPP14_CONSTEXPR void basic_static_string<N, CharT, Traits>:: swap(basic_static_string& s) noexcept { const auto curr_size = size(); basic_static_string tmp(s); s.set_size(curr_size); traits_type::copy(&s.data()[0], data(), curr_size + 1); this->set_size(tmp.size()); traits_type::copy(data(), tmp.data(), size() + 1); } template<std::size_t N, typename CharT, typename Traits> template<std::size_t M> BOOST_STATIC_STRING_CPP14_CONSTEXPR void basic_static_string<N, CharT, Traits>:: swap(basic_static_string<M, CharT, Traits>& s) { const auto curr_size = size(); if (curr_size > s.max_size()) detail::throw_exception<std::length_error>( "curr_size > s.max_size()"); if (s.size() > max_size()) detail::throw_exception<std::length_error>( "s.size() > max_size()"); basic_static_string tmp(s); s.set_size(curr_size); traits_type::copy(&s.data()[0], data(), curr_size + 1); this->set_size(tmp.size()); traits_type::copy(data(), &tmp.data()[0], size() + 1); } template<std::size_t N, typename CharT, typename Traits> BOOST_STATIC_STRING_CPP14_CONSTEXPR auto basic_static_string<N, CharT, Traits>:: replace( const_iterator i1, const_iterator i2, size_type n, value_type c) -> basic_static_string<N, CharT, Traits>& { const auto curr_size = size(); const auto curr_data = data(); const std::size_t n1 = i2 - i1; if (n > max_size() || curr_size - n1 >= max_size() - n) detail::throw_exception<std::length_error>( "replaced string exceeds max_size()"); const auto pos = i1 - curr_data; traits_type::move(&curr_data[pos + n], i2, (end() - i2) + 1); traits_type::assign(&curr_data[pos], n, c); this->set_size((curr_size - n1) + n); return *this; } template<std::size_t N, typename CharT, typename Traits> template<typename ForwardIterator> BOOST_STATIC_STRING_CPP14_CONSTEXPR auto basic_static_string<N, CharT, Traits>:: replace( const_iterator i1, const_iterator i2, ForwardIterator j1, ForwardIterator j2) -> typename std::enable_if< detail::is_forward_iterator<ForwardIterator>::value, basic_static_string<N, CharT, Traits>&>::type { const auto curr_size = size(); const auto curr_data = data(); const auto first_addr = &*j1; const std::size_t n1 = i2 - i1; const std::size_t n2 = detail::distance(j1, j2); const std::size_t pos = i1 - curr_data; if (n2 > max_size() || curr_size - (std::min)(n1, curr_size - pos) >= max_size() - n2) detail::throw_exception<std::length_error>( "replaced string exceeds max_size()"); const bool inside = detail::ptr_in_range(curr_data, curr_data + curr_size, first_addr); if (inside && first_addr == i1 && n1 == n2) return *this; // Short circuit evaluation ensures that the pointer arithmetic is valid if (!inside || (inside && (first_addr + n2 <= i1))) { // source outside traits_type::move(&curr_data[pos + n2], &curr_data[pos + n1], curr_size - pos - n1 + 1); detail::copy_with_traits<Traits>(j1, j2, &curr_data[pos]); } else { // source inside const size_type offset = first_addr - curr_data; if (n2 >= n1) { // grow/unchanged const size_type diff = offset <= pos + n1 ? (std::min)((pos + n1) - offset, n2) : 0; // shift all right of splice point by n2 - n1 to the right traits_type::move(&curr_data[pos + n2], &curr_data[pos + n1], curr_size - pos - n1 + 1); // copy all before splice point traits_type::move(&curr_data[pos], &curr_data[offset], diff); // copy all after splice point traits_type::move(&curr_data[pos + diff], &curr_data[(offset - n1) + n2 + diff], n2 - diff); } else { // shrink // copy all elements into place traits_type::move(&curr_data[pos], &curr_data[offset], n2); // shift all elements after splice point left traits_type::move(&curr_data[pos + n2], &curr_data[pos + n1], curr_size - pos - n1 + 1); } } this->set_size((curr_size - n1) + n2); return *this; } template<std::size_t N, typename CharT, typename Traits> template<typename InputIterator> BOOST_STATIC_STRING_CPP14_CONSTEXPR auto basic_static_string<N, CharT, Traits>:: replace( const_iterator i1, const_iterator i2, InputIterator j1, InputIterator j2) -> typename std::enable_if< detail::is_input_iterator< InputIterator>::value && !detail::is_forward_iterator< InputIterator>::value, basic_static_string<N, CharT, Traits>&>::type { const auto curr_size = size(); const auto curr_data = data(); const std::size_t n1 = detail::distance(i1, i2); const std::size_t n2 = read_back(false, j1, j2); const std::size_t pos = i1 - curr_data; // Rotate to the correct order. [i2, end] will now start with the replaced string, // continue to the existing string not being replaced, and end with a null terminator std::rotate(&curr_data[pos], &curr_data[curr_size + 1], &curr_data[curr_size + n2 + 1]); // Move everything from the end of the splice point to the end of the rotated string to // the begining of the splice point traits_type::move(&curr_data[pos + n2], &curr_data[pos + n2 + n1], ((curr_size - n1) + n2) - pos); this->set_size((curr_size - n1) + n2); return *this; } template<std::size_t N, typename CharT, typename Traits> BOOST_STATIC_STRING_CPP14_CONSTEXPR auto basic_static_string<N, CharT, Traits>:: find( const_pointer s, size_type pos, size_type n) const noexcept -> size_type { const auto curr_size = size(); if (pos > curr_size || n > curr_size - pos) return npos; if (!n) return pos; const auto res = detail::search(data() + pos, data() + curr_size, s, s + n, traits_type::eq); return res == end() ? npos : detail::distance(data(), res); } template<std::size_t N, typename CharT, typename Traits> BOOST_STATIC_STRING_CPP14_CONSTEXPR auto basic_static_string<N, CharT, Traits>:: rfind( const_pointer s, size_type pos, size_type n) const noexcept -> size_type { const auto curr_size = size(); const auto curr_data = data(); if (curr_size < n) return npos; if (pos > curr_size - n) pos = curr_size - n; if (!n) return pos; for (auto sub = &curr_data[pos]; sub >= curr_data; --sub) if (!traits_type::compare(sub, s, n)) return detail::distance(curr_data, sub); return npos; } template<std::size_t N, typename CharT, typename Traits> BOOST_STATIC_STRING_CPP14_CONSTEXPR auto basic_static_string<N, CharT, Traits>:: find_first_of( const_pointer s, size_type pos, size_type n) const noexcept -> size_type { const auto curr_data = data(); if (pos >= size() || !n) return npos; const auto res = detail::find_first_of(&curr_data[pos], &curr_data[size()], s, &s[n], traits_type::eq); return res == end() ? npos : detail::distance(curr_data, res); } template<std::size_t N, typename CharT, typename Traits> BOOST_STATIC_STRING_CPP14_CONSTEXPR auto basic_static_string<N, CharT, Traits>:: find_last_of( const_pointer s, size_type pos, size_type n) const noexcept -> size_type { const auto curr_size = size(); if (!n) return npos; if (pos >= curr_size) pos = 0; else pos = curr_size - (pos + 1); const auto res = detail::find_first_of(rbegin() + pos, rend(), s, &s[n], traits_type::eq); return res == rend() ? npos : curr_size - 1 - detail::distance(rbegin(), res); } template<std::size_t N, typename CharT, typename Traits> BOOST_STATIC_STRING_CPP14_CONSTEXPR auto basic_static_string<N, CharT, Traits>:: find_first_not_of( const_pointer s, size_type pos, size_type n) const noexcept -> size_type { if (pos >= size()) return npos; if (!n) return pos; const auto res = detail::find_not_of<Traits>(data() + pos, data() + size(), s, n); return res == end() ? npos : detail::distance(data(), res); } template<std::size_t N, typename CharT, typename Traits> BOOST_STATIC_STRING_CPP14_CONSTEXPR auto basic_static_string<N, CharT, Traits>:: find_last_not_of( const_pointer s, size_type pos, size_type n) const noexcept -> size_type { const auto curr_size = size(); if (pos >= curr_size) pos = curr_size - 1; if (!n) return pos; pos = curr_size - (pos + 1); const auto res = detail::find_not_of<Traits>(rbegin() + pos, rend(), s, n); return res == rend() ? npos : curr_size - 1 - detail::distance(rbegin(), res); } template<std::size_t N, typename CharT, typename Traits> template<typename InputIterator> BOOST_STATIC_STRING_CPP14_CONSTEXPR auto basic_static_string<N, CharT, Traits>:: read_back( bool overwrite_null, InputIterator first, InputIterator last) -> size_type { const auto curr_data = data(); auto new_size = size(); for (; first != last; ++first) { if (new_size >= max_size()) { // if we overwrote the null terminator, // put it back if (overwrite_null) term(); detail::throw_exception<std::length_error>( "count > max_size() - size()"); } traits_type::assign(curr_data[new_size++ + (!overwrite_null)], *first); } return new_size - size(); } template<std::size_t N, typename CharT, typename Traits> BOOST_STATIC_STRING_CPP14_CONSTEXPR auto basic_static_string<N, CharT, Traits>:: replace_unchecked( const_iterator i1, const_iterator i2, const_pointer s, size_type n2) -> basic_static_string& { const auto curr_data = data(); const auto curr_size = size(); const std::size_t pos = i1 - curr_data; const std::size_t n1 = i2 - i1; if (n2 > max_size() || curr_size - (std::min)(n1, curr_size - pos) >= max_size() - n2) detail::throw_exception<std::length_error>( "replaced string exceeds max_size()"); traits_type::move(&curr_data[pos + n2], i2, (end() - i2) + 1); traits_type::copy(&curr_data[pos], s, n2); this->set_size((curr_size - n1) + n2); return *this; } template<std::size_t N, typename CharT, typename Traits> BOOST_STATIC_STRING_CPP14_CONSTEXPR auto basic_static_string<N, CharT, Traits>:: insert_unchecked( const_iterator pos, const_pointer s, size_type count) -> iterator { const auto curr_data = data(); const auto curr_size = size(); if (count > max_size() - curr_size) detail::throw_exception<std::length_error>( "count > max_size() - curr_size"); const std::size_t index = pos - curr_data; traits_type::move(&curr_data[index + count], pos, (end() - pos) + 1); traits_type::copy(&curr_data[index], s, count); this->set_size(curr_size + count); return curr_data + index; } } // static_strings } // boost #if defined(__GNUC__) && __GNUC__ >= 7 #pragma GCC diagnostic pop #endif #if defined(__GNUC__) && __GNUC__ >= 8 #pragma GCC diagnostic pop #endif #endif #endif