/* * Copyright (c) 2019-2020, Sergey Bugaev * Copyright (c) 2021, Max Wipfli * * SPDX-License-Identifier: BSD-2-Clause */ #pragma once #include #include #include #ifndef KERNEL # include #endif namespace AK { class Utf8View; class Utf8CodePointIterator { friend class Utf8View; public: Utf8CodePointIterator() = default; ~Utf8CodePointIterator() = default; bool operator==(Utf8CodePointIterator const&) const = default; bool operator!=(Utf8CodePointIterator const&) const = default; Utf8CodePointIterator& operator++(); u32 operator*() const; // NOTE: This returns {} if the peek is at or past EOF. Optional peek(size_t offset = 0) const; ssize_t operator-(Utf8CodePointIterator const& other) const { return m_ptr - other.m_ptr; } // Note : These methods return the information about the underlying UTF-8 bytes. // If the UTF-8 string encoding is not valid at the iterator's position, then the underlying bytes might be different from the // decoded character's re-encoded bytes (which will be an `0xFFFD REPLACEMENT CHARACTER` with an UTF-8 length of three bytes). // If your code relies on the decoded character being equivalent to the re-encoded character, use the `UTF8View::validate()` // method on the view prior to using its iterator. size_t underlying_code_point_length_in_bytes() const; ReadonlyBytes underlying_code_point_bytes() const; bool done() const { return m_length == 0; } private: Utf8CodePointIterator(u8 const* ptr, size_t length) : m_ptr(ptr) , m_length(length) { } u8 const* m_ptr { nullptr }; size_t m_length { 0 }; }; class Utf8View { public: using Iterator = Utf8CodePointIterator; Utf8View() = default; explicit constexpr Utf8View(StringView string) : m_string(string) { } #ifndef KERNEL explicit Utf8View(DeprecatedString& string) : m_string(string.view()) { } explicit Utf8View(DeprecatedString&&) = delete; #endif ~Utf8View() = default; StringView as_string() const { return m_string; } Utf8CodePointIterator begin() const { return { begin_ptr(), m_string.length() }; } Utf8CodePointIterator end() const { return { end_ptr(), 0 }; } Utf8CodePointIterator iterator_at_byte_offset(size_t) const; Utf8CodePointIterator iterator_at_byte_offset_without_validation(size_t) const; unsigned char const* bytes() const { return begin_ptr(); } size_t byte_length() const { return m_string.length(); } size_t byte_offset_of(Utf8CodePointIterator const&) const; size_t byte_offset_of(size_t code_point_offset) const; Utf8View substring_view(size_t byte_offset, size_t byte_length) const { return Utf8View { m_string.substring_view(byte_offset, byte_length) }; } Utf8View substring_view(size_t byte_offset) const { return substring_view(byte_offset, byte_length() - byte_offset); } Utf8View unicode_substring_view(size_t code_point_offset, size_t code_point_length) const; Utf8View unicode_substring_view(size_t code_point_offset) const { return unicode_substring_view(code_point_offset, length() - code_point_offset); } bool is_empty() const { return m_string.is_empty(); } bool is_null() const { return m_string.is_null(); } bool starts_with(Utf8View const&) const; bool contains(u32) const; Utf8View trim(Utf8View const& characters, TrimMode mode = TrimMode::Both) const; size_t iterator_offset(Utf8CodePointIterator const& it) const { return byte_offset_of(it); } size_t length() const { if (!m_have_length) { m_length = calculate_length(); m_have_length = true; } return m_length; } constexpr bool validate() const { size_t valid_bytes = 0; return validate(valid_bytes); } constexpr bool validate(size_t& valid_bytes) const { valid_bytes = 0; for (auto it = m_string.begin(); it != m_string.end(); ++it) { auto [byte_length, code_point, is_valid] = decode_leading_byte(static_cast(*it)); if (!is_valid) return false; for (size_t i = 1; i < byte_length; ++i) { if (++it == m_string.end()) return false; auto [code_point_bits, is_valid] = decode_continuation_byte(static_cast(*it)); if (!is_valid) return false; code_point <<= 6; code_point |= code_point_bits; } if (!is_valid_code_point(code_point, byte_length)) return false; valid_bytes += byte_length; } return true; } private: friend class Utf8CodePointIterator; u8 const* begin_ptr() const { return reinterpret_cast(m_string.characters_without_null_termination()); } u8 const* end_ptr() const { return begin_ptr() + m_string.length(); } size_t calculate_length() const; struct Utf8EncodedByteData { size_t byte_length { 0 }; u8 encoding_bits { 0 }; u8 encoding_mask { 0 }; u32 first_code_point { 0 }; u32 last_code_point { 0 }; }; static constexpr Array utf8_encoded_byte_data { { { 1, 0b0000'0000, 0b1000'0000, 0x0000, 0x007F }, { 2, 0b1100'0000, 0b1110'0000, 0x0080, 0x07FF }, { 3, 0b1110'0000, 0b1111'0000, 0x0800, 0xFFFF }, { 4, 0b1111'0000, 0b1111'1000, 0x10000, 0x10FFFF }, } }; struct LeadingByte { size_t byte_length { 0 }; u32 code_point_bits { 0 }; bool is_valid { false }; }; static constexpr LeadingByte decode_leading_byte(u8 byte) { for (auto const& data : utf8_encoded_byte_data) { if ((byte & data.encoding_mask) != data.encoding_bits) continue; byte &= ~data.encoding_mask; return { data.byte_length, byte, true }; } return { .is_valid = false }; } struct ContinuationByte { u32 code_point_bits { 0 }; bool is_valid { false }; }; static constexpr ContinuationByte decode_continuation_byte(u8 byte) { constexpr u8 continuation_byte_encoding_bits = 0b1000'0000; constexpr u8 continuation_byte_encoding_mask = 0b1100'0000; if ((byte & continuation_byte_encoding_mask) == continuation_byte_encoding_bits) { byte &= ~continuation_byte_encoding_mask; return { byte, true }; } return { .is_valid = false }; } static constexpr bool is_valid_code_point(u32 code_point, size_t byte_length) { for (auto const& data : utf8_encoded_byte_data) { if (code_point >= data.first_code_point && code_point <= data.last_code_point) return byte_length == data.byte_length; } return false; } StringView m_string; mutable size_t m_length { 0 }; mutable bool m_have_length { false }; }; #ifndef KERNEL class DeprecatedStringCodePointIterator { public: Optional next() { if (m_it.done()) return {}; auto value = *m_it; ++m_it; return value; } [[nodiscard]] Optional peek() const { if (m_it.done()) return {}; return *m_it; } [[nodiscard]] size_t byte_offset() const { return Utf8View(m_string).byte_offset_of(m_it); } DeprecatedStringCodePointIterator(DeprecatedString string) : m_string(move(string)) , m_it(Utf8View(m_string).begin()) { } private: DeprecatedString m_string; Utf8CodePointIterator m_it; }; #endif template<> struct Formatter : Formatter { ErrorOr format(FormatBuilder&, Utf8View const&); }; } #if USING_AK_GLOBALLY # ifndef KERNEL using AK::DeprecatedStringCodePointIterator; # endif using AK::Utf8CodePointIterator; using AK::Utf8View; #endif