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e7ba03ddd1
Unlike iterator_at_byte_offset(), this function assumes the provided byte offset is a valid offset into the UTF-8 character stream. This avoids walking the stream from the start.
307 lines
9.0 KiB
C++
307 lines
9.0 KiB
C++
/*
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* Copyright (c) 2019-2020, Sergey Bugaev <bugaevc@serenityos.org>
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* Copyright (c) 2021, Max Wipfli <mail@maxwipfli.ch>
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*
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* SPDX-License-Identifier: BSD-2-Clause
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*/
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#include <AK/Assertions.h>
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#include <AK/CharacterTypes.h>
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#include <AK/Debug.h>
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#include <AK/Format.h>
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#include <AK/Utf8View.h>
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namespace AK {
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Utf8CodePointIterator Utf8View::iterator_at_byte_offset(size_t byte_offset) const
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{
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size_t current_offset = 0;
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for (auto iterator = begin(); !iterator.done(); ++iterator) {
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if (current_offset >= byte_offset)
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return iterator;
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current_offset += iterator.underlying_code_point_length_in_bytes();
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}
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return end();
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}
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Utf8CodePointIterator Utf8View::iterator_at_byte_offset_without_validation(size_t byte_offset) const
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{
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return Utf8CodePointIterator { reinterpret_cast<u8 const*>(m_string.characters_without_null_termination()) + byte_offset, m_string.length() - byte_offset };
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}
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size_t Utf8View::byte_offset_of(Utf8CodePointIterator const& it) const
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{
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VERIFY(it.m_ptr >= begin_ptr());
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VERIFY(it.m_ptr <= end_ptr());
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return it.m_ptr - begin_ptr();
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}
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size_t Utf8View::byte_offset_of(size_t code_point_offset) const
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{
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size_t byte_offset = 0;
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for (auto it = begin(); !it.done(); ++it) {
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if (code_point_offset == 0)
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return byte_offset;
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byte_offset += it.underlying_code_point_length_in_bytes();
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--code_point_offset;
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}
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return byte_offset;
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}
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Utf8View Utf8View::unicode_substring_view(size_t code_point_offset, size_t code_point_length) const
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{
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if (code_point_length == 0)
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return {};
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size_t code_point_index = 0, offset_in_bytes = 0;
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for (auto iterator = begin(); !iterator.done(); ++iterator) {
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if (code_point_index == code_point_offset)
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offset_in_bytes = byte_offset_of(iterator);
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if (code_point_index == code_point_offset + code_point_length - 1) {
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size_t length_in_bytes = byte_offset_of(++iterator) - offset_in_bytes;
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return substring_view(offset_in_bytes, length_in_bytes);
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}
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++code_point_index;
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}
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VERIFY_NOT_REACHED();
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}
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static inline bool decode_first_byte(
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unsigned char byte,
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size_t& out_code_point_length_in_bytes,
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u32& out_value)
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{
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if ((byte & 128) == 0) {
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out_value = byte;
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out_code_point_length_in_bytes = 1;
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return true;
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}
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if ((byte & 64) == 0) {
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return false;
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}
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if ((byte & 32) == 0) {
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out_value = byte & 31;
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out_code_point_length_in_bytes = 2;
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return true;
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}
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if ((byte & 16) == 0) {
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out_value = byte & 15;
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out_code_point_length_in_bytes = 3;
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return true;
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}
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if ((byte & 8) == 0) {
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out_value = byte & 7;
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out_code_point_length_in_bytes = 4;
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return true;
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}
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return false;
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}
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bool Utf8View::validate(size_t& valid_bytes) const
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{
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valid_bytes = 0;
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for (auto ptr = begin_ptr(); ptr < end_ptr(); ptr++) {
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size_t code_point_length_in_bytes = 0;
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u32 code_point = 0;
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bool first_byte_makes_sense = decode_first_byte(*ptr, code_point_length_in_bytes, code_point);
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if (!first_byte_makes_sense)
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return false;
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for (size_t i = 1; i < code_point_length_in_bytes; i++) {
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ptr++;
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if (ptr >= end_ptr())
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return false;
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if (*ptr >> 6 != 2)
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return false;
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code_point <<= 6;
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code_point |= *ptr & 63;
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}
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if (!is_unicode(code_point))
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return false;
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valid_bytes += code_point_length_in_bytes;
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}
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return true;
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}
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size_t Utf8View::calculate_length() const
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{
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size_t length = 0;
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for ([[maybe_unused]] auto code_point : *this) {
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++length;
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}
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return length;
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}
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bool Utf8View::starts_with(Utf8View const& start) const
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{
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if (start.is_empty())
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return true;
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if (is_empty())
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return false;
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if (start.length() > length())
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return false;
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if (begin_ptr() == start.begin_ptr())
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return true;
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for (auto k = begin(), l = start.begin(); l != start.end(); ++k, ++l) {
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if (*k != *l)
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return false;
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}
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return true;
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}
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bool Utf8View::contains(u32 needle) const
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{
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for (u32 code_point : *this) {
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if (code_point == needle)
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return true;
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}
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return false;
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}
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Utf8View Utf8View::trim(Utf8View const& characters, TrimMode mode) const
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{
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size_t substring_start = 0;
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size_t substring_length = byte_length();
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if (mode == TrimMode::Left || mode == TrimMode::Both) {
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for (auto code_point = begin(); code_point != end(); ++code_point) {
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if (substring_length == 0)
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return {};
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if (!characters.contains(*code_point))
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break;
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substring_start += code_point.underlying_code_point_length_in_bytes();
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substring_length -= code_point.underlying_code_point_length_in_bytes();
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}
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}
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if (mode == TrimMode::Right || mode == TrimMode::Both) {
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size_t seen_whitespace_length = 0;
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for (auto code_point = begin(); code_point != end(); ++code_point) {
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if (characters.contains(*code_point))
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seen_whitespace_length += code_point.underlying_code_point_length_in_bytes();
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else
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seen_whitespace_length = 0;
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}
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if (seen_whitespace_length >= substring_length)
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return {};
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substring_length -= seen_whitespace_length;
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}
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return substring_view(substring_start, substring_length);
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}
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Utf8CodePointIterator& Utf8CodePointIterator::operator++()
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{
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VERIFY(m_length > 0);
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size_t code_point_length_in_bytes = underlying_code_point_length_in_bytes();
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if (code_point_length_in_bytes > m_length) {
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// We don't have enough data for the next code point. Skip one character and try again.
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// The rest of the code will output replacement characters as needed for any eventual extension bytes we might encounter afterwards.
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dbgln_if(UTF8_DEBUG, "Expected code point size {} is too big for the remaining length {}. Moving forward one byte.", code_point_length_in_bytes, m_length);
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m_ptr += 1;
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m_length -= 1;
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return *this;
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}
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m_ptr += code_point_length_in_bytes;
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m_length -= code_point_length_in_bytes;
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return *this;
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}
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size_t Utf8CodePointIterator::underlying_code_point_length_in_bytes() const
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{
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VERIFY(m_length > 0);
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size_t code_point_length_in_bytes = 0;
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u32 value;
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bool first_byte_makes_sense = decode_first_byte(*m_ptr, code_point_length_in_bytes, value);
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// If any of these tests fail, we will output a replacement character for this byte and treat it as a code point of size 1.
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if (!first_byte_makes_sense)
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return 1;
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if (code_point_length_in_bytes > m_length)
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return 1;
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for (size_t offset = 1; offset < code_point_length_in_bytes; offset++) {
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if (m_ptr[offset] >> 6 != 2)
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return 1;
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}
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return code_point_length_in_bytes;
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}
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ReadonlyBytes Utf8CodePointIterator::underlying_code_point_bytes() const
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{
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return { m_ptr, underlying_code_point_length_in_bytes() };
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}
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u32 Utf8CodePointIterator::operator*() const
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{
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VERIFY(m_length > 0);
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u32 code_point_value_so_far = 0;
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size_t code_point_length_in_bytes = 0;
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bool first_byte_makes_sense = decode_first_byte(m_ptr[0], code_point_length_in_bytes, code_point_value_so_far);
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if (!first_byte_makes_sense) {
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// The first byte of the code point doesn't make sense: output a replacement character
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dbgln_if(UTF8_DEBUG, "First byte doesn't make sense: {:#02x}.", m_ptr[0]);
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return 0xFFFD;
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}
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if (code_point_length_in_bytes > m_length) {
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// There is not enough data left for the full code point: output a replacement character
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dbgln_if(UTF8_DEBUG, "Not enough bytes (need {}, have {}), first byte is: {:#02x}.", code_point_length_in_bytes, m_length, m_ptr[0]);
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return 0xFFFD;
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}
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for (size_t offset = 1; offset < code_point_length_in_bytes; offset++) {
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if (m_ptr[offset] >> 6 != 2) {
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// One of the extension bytes of the code point doesn't make sense: output a replacement character
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dbgln_if(UTF8_DEBUG, "Extension byte {:#02x} in {} position after first byte {:#02x} doesn't make sense.", m_ptr[offset], offset, m_ptr[0]);
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return 0xFFFD;
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}
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code_point_value_so_far <<= 6;
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code_point_value_so_far |= m_ptr[offset] & 63;
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}
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if (code_point_value_so_far > 0x10FFFF) {
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dbgln_if(UTF8_DEBUG, "Multi-byte sequence is otherwise valid, but code point {:#x} is not permissible.", code_point_value_so_far);
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return 0xFFFD;
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}
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return code_point_value_so_far;
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}
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Optional<u32> Utf8CodePointIterator::peek(size_t offset) const
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{
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if (offset == 0) {
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if (this->done())
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return {};
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return this->operator*();
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}
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auto new_iterator = *this;
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for (size_t index = 0; index < offset; ++index) {
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++new_iterator;
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if (new_iterator.done())
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return {};
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}
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return *new_iterator;
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}
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}
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