/* * Copyright (c) 2018-2020, Andreas Kling * * SPDX-License-Identifier: BSD-2-Clause */ #include #include #include #include #include #include #include #include namespace AK { bool String::operator==(const FlyString& fly_string) const { return *this == String(fly_string.impl()); } bool String::operator==(const String& other) const { if (!m_impl) return !other.m_impl; if (!other.m_impl) return false; return *m_impl == *other.m_impl; } bool String::operator==(const StringView& other) const { if (!m_impl) return !other.m_characters; if (!other.m_characters) return false; if (length() != other.length()) return false; return !memcmp(characters(), other.characters_without_null_termination(), length()); } bool String::operator<(const String& other) const { if (!m_impl) return other.m_impl; if (!other.m_impl) return false; return strcmp(characters(), other.characters()) < 0; } bool String::operator>(const String& other) const { if (!m_impl) return other.m_impl; if (!other.m_impl) return false; return strcmp(characters(), other.characters()) > 0; } bool String::copy_characters_to_buffer(char* buffer, size_t buffer_size) const { // We must fit at least the NUL-terminator. VERIFY(buffer_size > 0); size_t characters_to_copy = min(length(), buffer_size - 1); __builtin_memcpy(buffer, characters(), characters_to_copy); buffer[characters_to_copy] = 0; return characters_to_copy == length(); } String String::isolated_copy() const { if (!m_impl) return {}; if (!m_impl->length()) return empty(); char* buffer; auto impl = StringImpl::create_uninitialized(length(), buffer); memcpy(buffer, m_impl->characters(), m_impl->length()); return String(move(*impl)); } String String::substring(size_t start, size_t length) const { if (!length) return String::empty(); VERIFY(m_impl); VERIFY(!Checked::addition_would_overflow(start, length)); VERIFY(start + length <= m_impl->length()); return { characters() + start, length }; } String String::substring(size_t start) const { VERIFY(m_impl); VERIFY(start <= length()); return { characters() + start, length() - start }; } StringView String::substring_view(size_t start, size_t length) const { VERIFY(m_impl); VERIFY(!Checked::addition_would_overflow(start, length)); VERIFY(start + length <= m_impl->length()); return { characters() + start, length }; } StringView String::substring_view(size_t start) const { VERIFY(m_impl); VERIFY(start <= length()); return { characters() + start, length() - start }; } Vector String::split(char separator, bool keep_empty) const { return split_limit(separator, 0, keep_empty); } Vector String::split_limit(char separator, size_t limit, bool keep_empty) const { if (is_empty()) return {}; Vector v; size_t substart = 0; for (size_t i = 0; i < length() && (v.size() + 1) != limit; ++i) { char ch = characters()[i]; if (ch == separator) { size_t sublen = i - substart; if (sublen != 0 || keep_empty) v.append(substring(substart, sublen)); substart = i + 1; } } size_t taillen = length() - substart; if (taillen != 0 || keep_empty) v.append(substring(substart, taillen)); return v; } Vector String::split_view(const char separator, bool keep_empty) const { if (is_empty()) return {}; Vector v; size_t substart = 0; for (size_t i = 0; i < length(); ++i) { char ch = characters()[i]; if (ch == separator) { size_t sublen = i - substart; if (sublen != 0 || keep_empty) v.append(substring_view(substart, sublen)); substart = i + 1; } } size_t taillen = length() - substart; if (taillen != 0 || keep_empty) v.append(substring_view(substart, taillen)); return v; } ByteBuffer String::to_byte_buffer() const { if (!m_impl) return {}; // FIXME: Handle OOM failure. return ByteBuffer::copy(bytes()).release_value(); } template Optional String::to_int(TrimWhitespace trim_whitespace) const { return StringUtils::convert_to_int(view(), trim_whitespace); } template Optional String::to_int(TrimWhitespace) const; template Optional String::to_int(TrimWhitespace) const; template Optional String::to_int(TrimWhitespace) const; template Optional String::to_int(TrimWhitespace) const; template Optional String::to_uint(TrimWhitespace trim_whitespace) const { return StringUtils::convert_to_uint(view(), trim_whitespace); } template Optional String::to_uint(TrimWhitespace) const; template Optional String::to_uint(TrimWhitespace) const; template Optional String::to_uint(TrimWhitespace) const; template Optional String::to_uint(TrimWhitespace) const; bool String::starts_with(const StringView& str, CaseSensitivity case_sensitivity) const { return StringUtils::starts_with(*this, str, case_sensitivity); } bool String::starts_with(char ch) const { if (is_empty()) return false; return characters()[0] == ch; } bool String::ends_with(const StringView& str, CaseSensitivity case_sensitivity) const { return StringUtils::ends_with(*this, str, case_sensitivity); } bool String::ends_with(char ch) const { if (is_empty()) return false; return characters()[length() - 1] == ch; } String String::repeated(char ch, size_t count) { if (!count) return empty(); char* buffer; auto impl = StringImpl::create_uninitialized(count, buffer); memset(buffer, ch, count); return *impl; } String String::repeated(const StringView& string, size_t count) { if (!count || string.is_empty()) return empty(); char* buffer; auto impl = StringImpl::create_uninitialized(count * string.length(), buffer); for (size_t i = 0; i < count; i++) __builtin_memcpy(buffer + i * string.length(), string.characters_without_null_termination(), string.length()); return *impl; } String String::bijective_base_from(size_t value, unsigned base, StringView map) { if (map.is_null()) map = "ABCDEFGHIJKLMNOPQRSTUVWXYZ"sv; VERIFY(base >= 2 && base <= map.length()); // The '8 bits per byte' assumption may need to go? Array buffer; size_t i = 0; do { buffer[i++] = map[value % base]; value /= base; } while (value > 0); // NOTE: Weird as this may seem, the thing that comes after 'Z' is 'AA', which as a number would be '00' // to make this work, only the most significant digit has to be in a range of (1..25) as opposed to (0..25), // but only if it's not the only digit in the string. if (i > 1) --buffer[i - 1]; for (size_t j = 0; j < i / 2; ++j) swap(buffer[j], buffer[i - j - 1]); return String { ReadonlyBytes(buffer.data(), i) }; } String String::roman_number_from(size_t value) { if (value > 3999) return String::number(value); StringBuilder builder; while (value > 0) { if (value >= 1000) { builder.append('M'); value -= 1000; } else if (value >= 900) { builder.append("CM"sv); value -= 900; } else if (value >= 500) { builder.append('D'); value -= 500; } else if (value >= 400) { builder.append("CD"sv); value -= 400; } else if (value >= 100) { builder.append('C'); value -= 100; } else if (value >= 90) { builder.append("XC"sv); value -= 90; } else if (value >= 50) { builder.append('L'); value -= 50; } else if (value >= 40) { builder.append("XL"sv); value -= 40; } else if (value >= 10) { builder.append('X'); value -= 10; } else if (value == 9) { builder.append("IX"sv); value -= 9; } else if (value >= 5 && value <= 8) { builder.append('V'); value -= 5; } else if (value == 4) { builder.append("IV"sv); value -= 4; } else if (value <= 3) { builder.append('I'); value -= 1; } } return builder.to_string(); } bool String::matches(const StringView& mask, Vector& mask_spans, CaseSensitivity case_sensitivity) const { return StringUtils::matches(*this, mask, case_sensitivity, &mask_spans); } bool String::matches(const StringView& mask, CaseSensitivity case_sensitivity) const { return StringUtils::matches(*this, mask, case_sensitivity); } bool String::contains(const StringView& needle, CaseSensitivity case_sensitivity) const { return StringUtils::contains(*this, needle, case_sensitivity); } bool String::contains(char needle, CaseSensitivity case_sensitivity) const { return StringUtils::contains(*this, StringView(&needle, 1), case_sensitivity); } bool String::equals_ignoring_case(const StringView& other) const { return StringUtils::equals_ignoring_case(view(), other); } String String::reverse() const { StringBuilder reversed_string(length()); for (size_t i = length(); i-- > 0;) { reversed_string.append(characters()[i]); } return reversed_string.to_string(); } String escape_html_entities(const StringView& html) { StringBuilder builder; for (size_t i = 0; i < html.length(); ++i) { if (html[i] == '<') builder.append("<"); else if (html[i] == '>') builder.append(">"); else if (html[i] == '&') builder.append("&"); else if (html[i] == '"') builder.append("""); else builder.append(html[i]); } return builder.to_string(); } String::String(const FlyString& string) : m_impl(string.impl()) { } String String::to_lowercase() const { if (!m_impl) return {}; return m_impl->to_lowercase(); } String String::to_uppercase() const { if (!m_impl) return {}; return m_impl->to_uppercase(); } String String::to_snakecase() const { return StringUtils::to_snakecase(*this); } String String::to_titlecase() const { return StringUtils::to_titlecase(*this); } bool operator<(const char* characters, const String& string) { if (!characters) return !string.is_null(); if (string.is_null()) return false; return __builtin_strcmp(characters, string.characters()) < 0; } bool operator>=(const char* characters, const String& string) { return !(characters < string); } bool operator>(const char* characters, const String& string) { if (!characters) return !string.is_null(); if (string.is_null()) return false; return __builtin_strcmp(characters, string.characters()) > 0; } bool operator<=(const char* characters, const String& string) { return !(characters > string); } bool String::operator==(const char* cstring) const { if (is_null()) return !cstring; if (!cstring) return false; return !__builtin_strcmp(characters(), cstring); } InputStream& operator>>(InputStream& stream, String& string) { StringBuilder builder; for (;;) { char next_char; stream >> next_char; if (stream.has_any_error()) { stream.set_fatal_error(); string = nullptr; return stream; } if (next_char) { builder.append(next_char); } else { string = builder.to_string(); return stream; } } } String String::vformatted(StringView fmtstr, TypeErasedFormatParams& params) { StringBuilder builder; vformat(builder, fmtstr, params); return builder.to_string(); } Vector String::find_all(StringView needle) const { return StringUtils::find_all(*this, needle); } }