/* * Copyright (c) 2022, Matthew Olsson * Copyright (c) 2022, Julian Offenhäuser * * SPDX-License-Identifier: BSD-2-Clause */ #include #include #include namespace PDF { NonnullRefPtr Encoding::create() { return adopt_ref(*new Encoding()); } PDFErrorOr> Encoding::from_object(Document* document, NonnullRefPtr const& obj) { if (obj->is()) { auto name = obj->cast()->name(); if (name == "StandardEncoding") return standard_encoding(); if (name == "MacRomanEncoding") return mac_encoding(); if (name == "WinAnsiEncoding") return windows_encoding(); VERIFY_NOT_REACHED(); } // Make a custom encoding auto dict = obj->cast(); RefPtr base_encoding; if (dict->contains(CommonNames::BaseEncoding)) { auto base_encoding_obj = MUST(dict->get_object(document, CommonNames::BaseEncoding)); base_encoding = TRY(Encoding::from_object(document, base_encoding_obj)); } else { base_encoding = Encoding::standard_encoding(); } auto encoding = adopt_ref(*new Encoding()); encoding->m_descriptors = TRY(base_encoding->m_descriptors.clone()); encoding->m_name_mapping = TRY(base_encoding->m_name_mapping.clone()); auto differences_array = TRY(dict->get_array(document, CommonNames::Differences)); u16 current_code_point = 0; bool first = true; for (auto& item : *differences_array) { if (item.has_u32()) { current_code_point = item.to_int(); first = false; } else { VERIFY(item.has>()); VERIFY(!first); auto& object = item.get>(); auto name = object->cast()->name(); encoding->set(current_code_point, name); current_code_point++; } } return encoding; } void Encoding::set(CharCodeType char_code, DeprecatedFlyString const& glyph_name) { m_descriptors.set(char_code, glyph_name); m_name_mapping.set(glyph_name, char_code); } NonnullRefPtr Encoding::standard_encoding() { static NonnullRefPtr encoding = adopt_ref(*new Encoding()); if (encoding->m_descriptors.is_empty()) { #define ENUMERATE(name, standard_code, mac_code, win_code, pdf_code) \ encoding->set(standard_code, #name); ENUMERATE_LATIN_CHARACTER_SET(ENUMERATE) #undef ENUMERATE } return encoding; } NonnullRefPtr Encoding::mac_encoding() { static NonnullRefPtr encoding = adopt_ref(*new Encoding()); if (encoding->m_descriptors.is_empty()) { #define ENUMERATE(name, standard_code, mac_code, win_code, pdf_code) \ encoding->set(mac_code, #name); ENUMERATE_LATIN_CHARACTER_SET(ENUMERATE) #undef ENUMERATE } return encoding; } NonnullRefPtr Encoding::windows_encoding() { static NonnullRefPtr encoding = adopt_ref(*new Encoding()); if (encoding->m_descriptors.is_empty()) { #define ENUMERATE(name, standard_code, mac_code, win_code, pdf_code) \ encoding->set(win_code, #name); ENUMERATE_LATIN_CHARACTER_SET(ENUMERATE) #undef ENUMERATE // PDF Annex D table D.2, note 3: // In WinAnsiEncoding, all unused codes greater than 40 (octal) map to the bullet character. However, only // code 225 (octal) shall be specifically assigned to the bullet character; other codes are subject to future re-assignment. // // Since CharCodeType is u8 *and* we need to include 255, we iterate in reverse order to have more readable code. for (CharCodeType char_code = 255; char_code > 040; char_code--) { if (!encoding->m_descriptors.contains(char_code)) encoding->set(char_code, "bullet"); } } return encoding; } NonnullRefPtr Encoding::pdf_doc_encoding() { static NonnullRefPtr encoding = adopt_ref(*new Encoding()); if (encoding->m_descriptors.is_empty()) { #define ENUMERATE(name, standard_code, mac_code, win_code, pdf_code) \ encoding->set(pdf_code, #name); ENUMERATE_LATIN_CHARACTER_SET(ENUMERATE) #undef ENUMERATE } return encoding; } NonnullRefPtr Encoding::symbol_encoding() { static NonnullRefPtr encoding = adopt_ref(*new Encoding()); if (encoding->m_descriptors.is_empty()) { #define ENUMERATE(name, code) \ encoding->set(code, #name); ENUMERATE_SYMBOL_CHARACTER_SET(ENUMERATE) #undef ENUMERATE } return encoding; } NonnullRefPtr Encoding::zapf_encoding() { static NonnullRefPtr encoding = adopt_ref(*new Encoding()); if (encoding->m_descriptors.is_empty()) { #define ENUMERATE(name, code) \ encoding->set(code, #name); ENUMERATE_ZAPF_DINGBATS_CHARACTER_SET(ENUMERATE) #undef ENUMERATE } return encoding; } u16 Encoding::get_char_code(DeprecatedString const& name) const { auto code_iterator = m_name_mapping.find(name); if (code_iterator != m_name_mapping.end()) return code_iterator->value; return 0; } DeprecatedFlyString Encoding::get_name(u8 char_code) const { auto name_iterator = m_descriptors.find(char_code); if (name_iterator != m_descriptors.end()) return name_iterator->value; return 0; } }