ladybird/AK/GenericLexer.cpp
Idan Horowitz 67ce9e28a5 AK: Standardize the behaviour of GenericLexer::consume_until overloads
Before this commit all consume_until overloads aside from the Predicate
one would consume (and ignore) the stop char/string, while the
Predicate overload would not, in order to keep behaviour consistent,
the other overloads no longer consume the stop char/string as well.
2022-01-25 13:41:09 +03:30

210 lines
5.5 KiB
C++

/*
* Copyright (c) 2020, Benoit Lormeau <blormeau@outlook.com>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <AK/Assertions.h>
#include <AK/CharacterTypes.h>
#include <AK/GenericLexer.h>
#include <AK/String.h>
#include <AK/StringBuilder.h>
#include <AK/Utf16View.h>
namespace AK {
// Consume a number of characters
StringView GenericLexer::consume(size_t count)
{
if (count == 0)
return {};
size_t start = m_index;
size_t length = min(count, m_input.length() - m_index);
m_index += length;
return m_input.substring_view(start, length);
}
// Consume the rest of the input
StringView GenericLexer::consume_all()
{
if (is_eof())
return {};
auto rest = m_input.substring_view(m_index, m_input.length() - m_index);
m_index = m_input.length();
return rest;
}
// Consume until a new line is found
StringView GenericLexer::consume_line()
{
size_t start = m_index;
while (!is_eof() && peek() != '\r' && peek() != '\n')
m_index++;
size_t length = m_index - start;
consume_specific('\r');
consume_specific('\n');
if (length == 0)
return {};
return m_input.substring_view(start, length);
}
// Consume and return characters until `stop` is peek'd
StringView GenericLexer::consume_until(char stop)
{
size_t start = m_index;
while (!is_eof() && peek() != stop)
m_index++;
size_t length = m_index - start;
if (length == 0)
return {};
return m_input.substring_view(start, length);
}
// Consume and return characters until the string `stop` is found
StringView GenericLexer::consume_until(const char* stop)
{
size_t start = m_index;
while (!is_eof() && !next_is(stop))
m_index++;
size_t length = m_index - start;
if (length == 0)
return {};
return m_input.substring_view(start, length);
}
// Consume and return characters until the string `stop` is found
StringView GenericLexer::consume_until(StringView stop)
{
size_t start = m_index;
while (!is_eof() && !next_is(stop))
m_index++;
size_t length = m_index - start;
if (length == 0)
return {};
return m_input.substring_view(start, length);
}
/*
* Consume a string surrounded by single or double quotes. The returned
* StringView does not include the quotes. An escape character can be provided
* to capture the enclosing quotes. Please note that the escape character will
* still be in the resulting StringView
*/
StringView GenericLexer::consume_quoted_string(char escape_char)
{
if (!next_is(is_quote))
return {};
char quote_char = consume();
size_t start = m_index;
while (!is_eof()) {
if (next_is(escape_char))
m_index++;
else if (next_is(quote_char))
break;
m_index++;
}
size_t length = m_index - start;
if (peek() != quote_char) {
// Restore the index in case the string is unterminated
m_index = start - 1;
return {};
}
// Ignore closing quote
ignore();
return m_input.substring_view(start, length);
}
String GenericLexer::consume_and_unescape_string(char escape_char)
{
auto view = consume_quoted_string(escape_char);
if (view.is_null())
return {};
StringBuilder builder;
for (size_t i = 0; i < view.length(); ++i)
builder.append(consume_escaped_character(escape_char));
return builder.to_string();
}
auto GenericLexer::consume_escaped_code_point(bool combine_surrogate_pairs) -> Result<u32, UnicodeEscapeError>
{
if (!consume_specific("\\u"sv))
return UnicodeEscapeError::MalformedUnicodeEscape;
if (next_is('{'))
return decode_code_point();
return decode_single_or_paired_surrogate(combine_surrogate_pairs);
}
auto GenericLexer::decode_code_point() -> Result<u32, UnicodeEscapeError>
{
bool starts_with_open_bracket = consume_specific('{');
VERIFY(starts_with_open_bracket);
u32 code_point = 0;
while (true) {
if (!next_is(is_ascii_hex_digit))
return UnicodeEscapeError::MalformedUnicodeEscape;
auto new_code_point = (code_point << 4u) | parse_ascii_hex_digit(consume());
if (new_code_point < code_point)
return UnicodeEscapeError::UnicodeEscapeOverflow;
code_point = new_code_point;
if (consume_specific('}'))
break;
}
if (is_unicode(code_point))
return code_point;
return UnicodeEscapeError::UnicodeEscapeOverflow;
}
auto GenericLexer::decode_single_or_paired_surrogate(bool combine_surrogate_pairs) -> Result<u32, UnicodeEscapeError>
{
constexpr size_t surrogate_length = 4;
auto decode_one_surrogate = [&]() -> Optional<u16> {
u16 surrogate = 0;
for (size_t i = 0; i < surrogate_length; ++i) {
if (!next_is(is_ascii_hex_digit))
return {};
surrogate = (surrogate << 4u) | parse_ascii_hex_digit(consume());
}
return surrogate;
};
auto high_surrogate = decode_one_surrogate();
if (!high_surrogate.has_value())
return UnicodeEscapeError::MalformedUnicodeEscape;
if (!Utf16View::is_high_surrogate(*high_surrogate))
return *high_surrogate;
if (!combine_surrogate_pairs || !consume_specific("\\u"sv))
return *high_surrogate;
auto low_surrogate = decode_one_surrogate();
if (!low_surrogate.has_value())
return UnicodeEscapeError::MalformedUnicodeEscape;
if (Utf16View::is_low_surrogate(*low_surrogate))
return Utf16View::decode_surrogate_pair(*high_surrogate, *low_surrogate);
retreat(6);
return *high_surrogate;
}
}