/* * Copyright (c) 2018-2022, Andreas Kling * Copyright (c) 2023, Tim Flynn * * SPDX-License-Identifier: BSD-2-Clause */ #pragma once #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include namespace AK { namespace Detail { class StringData; } // FIXME: Remove this when Apple Clang and OpenBSD Clang fully supports consteval. #if defined(AK_OS_MACOS) || defined(AK_OS_OPENBSD) # define AK_SHORT_STRING_CONSTEVAL constexpr #else # define AK_SHORT_STRING_CONSTEVAL consteval #endif // String is a strongly owned sequence of Unicode code points encoded as UTF-8. // The data may or may not be heap-allocated, and may or may not be reference counted. // There is no guarantee that the underlying bytes are null-terminated. class String { public: // NOTE: For short strings, we avoid heap allocations by storing them in the data pointer slot. static constexpr size_t MAX_SHORT_STRING_BYTE_COUNT = sizeof(Detail::StringData*) - 1; String(String const&); String(String&&); String& operator=(String&&); String& operator=(String const&); constexpr ~String() { if (!is_constant_evaluated()) destroy_string(); } // Creates an empty (zero-length) String. constexpr String() : String(ShortString { SHORT_STRING_FLAG, {} }) { } // Creates a new String from a sequence of UTF-8 encoded code points. static ErrorOr from_utf8(StringView); // Creates a new String by reading byte_count bytes from a UTF-8 encoded Stream. static ErrorOr from_stream(Stream&, size_t byte_count); // Creates a new String from a short sequence of UTF-8 encoded code points. If the provided string // does not fit in the short string storage, a compilation error will be emitted. static AK_SHORT_STRING_CONSTEVAL String from_utf8_short_string(StringView string) { VERIFY(string.length() <= MAX_SHORT_STRING_BYTE_COUNT); VERIFY(Utf8View { string }.validate()); ShortString short_string; for (size_t i = 0; i < string.length(); ++i) short_string.storage[i] = string.characters_without_null_termination()[i]; short_string.byte_count_and_short_string_flag = (string.length() << 1) | SHORT_STRING_FLAG; return String { short_string }; } // Creates a new String from a single code point. static constexpr String from_code_point(u32 code_point) { VERIFY(is_unicode(code_point)); ShortString short_string; size_t i = 0; auto length = UnicodeUtils::code_point_to_utf8(code_point, [&](auto byte) { short_string.storage[i++] = static_cast(byte); }); short_string.byte_count_and_short_string_flag = (length << 1) | SHORT_STRING_FLAG; return String { short_string }; } // Creates a new String with a single code point repeated N times. static ErrorOr repeated(u32 code_point, size_t count); // Creates a new String by case-transforming this String. Using these methods require linking LibUnicode into your application. ErrorOr to_lowercase(Optional const& locale = {}) const; ErrorOr to_uppercase(Optional const& locale = {}) const; ErrorOr to_titlecase(Optional const& locale = {}) const; ErrorOr to_casefold() const; // Compare this String against another string with caseless matching. Using this method requires linking LibUnicode into your application. [[nodiscard]] bool equals_ignoring_case(String const&) const; [[nodiscard]] bool starts_with(u32 code_point) const; [[nodiscard]] bool starts_with_bytes(StringView) const; [[nodiscard]] bool ends_with(u32 code_point) const; [[nodiscard]] bool ends_with_bytes(StringView) const; // Creates a substring with a deep copy of the specified data window. ErrorOr substring_from_byte_offset(size_t start, size_t byte_count) const; ErrorOr substring_from_byte_offset(size_t start) const; // Creates a substring that strongly references the origin superstring instead of making a deep copy of the data. ErrorOr substring_from_byte_offset_with_shared_superstring(size_t start, size_t byte_count) const; ErrorOr substring_from_byte_offset_with_shared_superstring(size_t start) const; // Returns an iterable view over the Unicode code points. [[nodiscard]] Utf8View code_points() const; // Returns the underlying UTF-8 encoded bytes. // NOTE: There is no guarantee about null-termination. [[nodiscard]] ReadonlyBytes bytes() const; // Returns true if the String is zero-length. [[nodiscard]] bool is_empty() const; // Returns a StringView covering the full length of the string. Note that iterating this will go byte-at-a-time, not code-point-at-a-time. [[nodiscard]] StringView bytes_as_string_view() const; [[nodiscard]] size_t count(StringView needle) const { return StringUtils::count(bytes_as_string_view(), needle); } ErrorOr replace(StringView needle, StringView replacement, ReplaceMode replace_mode) const; ErrorOr reverse() const; ErrorOr trim(Utf8View const& code_points_to_trim, TrimMode mode = TrimMode::Both) const; ErrorOr trim(StringView code_points_to_trim, TrimMode mode = TrimMode::Both) const; ErrorOr> split_limit(u32 separator, size_t limit, SplitBehavior = SplitBehavior::Nothing) const; ErrorOr> split(u32 separator, SplitBehavior = SplitBehavior::Nothing) const; Optional find_byte_offset(u32 code_point, size_t from_byte_offset = 0) const; Optional find_byte_offset(StringView substring, size_t from_byte_offset = 0) const; [[nodiscard]] bool operator==(String const&) const; [[nodiscard]] bool operator!=(String const& other) const { return !(*this == other); } [[nodiscard]] bool operator==(FlyString const&) const; [[nodiscard]] bool operator!=(FlyString const& other) const { return !(*this == other); } [[nodiscard]] bool operator==(StringView) const; [[nodiscard]] bool operator!=(StringView other) const { return !(*this == other); } [[nodiscard]] bool operator==(char const* cstring) const; [[nodiscard]] bool operator!=(char const* cstring) const { return !(*this == cstring); } // NOTE: UTF-8 is defined in a way that lexicographic ordering of code points is equivalent to lexicographic ordering of bytes. [[nodiscard]] int operator<=>(String const& other) const { return this->bytes_as_string_view().compare(other.bytes_as_string_view()); } template [[nodiscard]] ALWAYS_INLINE constexpr bool is_one_of(Ts&&... strings) const { return (this->operator==(forward(strings)) || ...); } [[nodiscard]] bool contains(StringView, CaseSensitivity = CaseSensitivity::CaseSensitive) const; [[nodiscard]] bool contains(u32, CaseSensitivity = CaseSensitivity::CaseSensitive) const; [[nodiscard]] u32 hash() const; template static ErrorOr number(T value) { return formatted("{}", value); } template Optional to_number(TrimWhitespace trim_whitespace = TrimWhitespace::Yes) const { if constexpr (IsSigned) return StringUtils::convert_to_int(bytes_as_string_view(), trim_whitespace); else return StringUtils::convert_to_uint(bytes_as_string_view(), trim_whitespace); } static ErrorOr vformatted(StringView fmtstr, TypeErasedFormatParams&); template static ErrorOr formatted(CheckedFormatString&& fmtstr, Parameters const&... parameters) { VariadicFormatParams variadic_format_parameters { parameters... }; return vformatted(fmtstr.view(), variadic_format_parameters); } template static ErrorOr join(SeparatorType const& separator, CollectionType const& collection, StringView fmtstr = "{}"sv) { StringBuilder builder; TRY(builder.try_join(separator, collection, fmtstr)); return builder.to_string(); } // NOTE: This is primarily interesting to unit tests. [[nodiscard]] bool is_short_string() const; [[nodiscard]] static String fly_string_data_to_string(Badge, uintptr_t const&); [[nodiscard]] static StringView fly_string_data_to_string_view(Badge, uintptr_t const&); [[nodiscard]] static u32 fly_string_data_to_hash(Badge, uintptr_t const&); [[nodiscard]] uintptr_t to_fly_string_data(Badge) const; static void ref_fly_string_data(Badge, uintptr_t); static void unref_fly_string_data(Badge, uintptr_t); void did_create_fly_string(Badge) const; // FIXME: Remove these once all code has been ported to String [[nodiscard]] DeprecatedString to_deprecated_string() const; static ErrorOr from_deprecated_string(DeprecatedString const&); private: // NOTE: If the least significant bit of the pointer is set, this is a short string. static constexpr uintptr_t SHORT_STRING_FLAG = 1; static constexpr bool has_short_string_bit(uintptr_t data) { return (data & SHORT_STRING_FLAG) != 0; } struct ShortString { ReadonlyBytes bytes() const; size_t byte_count() const; // NOTE: This is the byte count shifted left 1 step and or'ed with a 1 (the SHORT_STRING_FLAG) u8 byte_count_and_short_string_flag { 0 }; u8 storage[MAX_SHORT_STRING_BYTE_COUNT] = { 0 }; }; explicit String(NonnullRefPtr); explicit constexpr String(ShortString short_string) : m_short_string(short_string) { } void destroy_string(); union { ShortString m_short_string; Detail::StringData const* m_data { nullptr }; }; }; template<> struct Traits : public GenericTraits { static unsigned hash(String const&); }; template<> struct Formatter : Formatter { ErrorOr format(FormatBuilder&, String const&); }; } [[nodiscard]] ALWAYS_INLINE AK::ErrorOr operator""_string(char const* cstring, size_t length) { return AK::String::from_utf8(AK::StringView(cstring, length)); } [[nodiscard]] ALWAYS_INLINE AK_SHORT_STRING_CONSTEVAL AK::String operator""_short_string(char const* cstring, size_t length) { return AK::String::from_utf8_short_string(AK::StringView(cstring, length)); }