/* * Copyright (c) 2021, Matthew Olsson * * SPDX-License-Identifier: BSD-2-Clause */ #include #include #include namespace PDF { NonnullRefPtr ArrayObject::get_object_at(Document* document, size_t index) const { return document->resolve_to(m_elements[index]); } NonnullRefPtr DictObject::get_object(Document* document, const FlyString& key) const { return document->resolve_to(get_value(key)); } #define DEFINE_ACCESSORS(class_name, snake_name) \ NonnullRefPtr ArrayObject::get_##snake_name##_at(Document* document, size_t index) const \ { \ return document->resolve_to(m_elements[index]); \ } \ \ NonnullRefPtr DictObject::get_##snake_name(Document* document, const FlyString& key) const \ { \ return document->resolve_to(get(key).value()); \ } ENUMERATE_DIRECT_OBJECT_TYPES(DEFINE_ACCESSORS) #undef DEFINE_INDEXER static void append_indent(StringBuilder& builder, int indent) { for (int i = 0; i < indent; i++) builder.append(" "); } String StringObject::to_string(int) const { if (is_binary()) return String::formatted("<{}>", encode_hex(string().bytes()).to_uppercase()); return String::formatted("({})", string()); } String NameObject::to_string(int) const { StringBuilder builder; builder.appendff("/{}", this->name()); return builder.to_string(); } String ArrayObject::to_string(int indent) const { StringBuilder builder; builder.append("[\n"); bool first = true; for (auto& element : elements()) { if (!first) builder.append(",\n"); first = false; append_indent(builder, indent + 1); builder.appendff("{}", element.to_string(indent)); } builder.append('\n'); append_indent(builder, indent); builder.append(']'); return builder.to_string(); } String DictObject::to_string(int indent) const { StringBuilder builder; builder.append("<<\n"); bool first = true; for (auto& [key, value] : map()) { if (!first) builder.append(",\n"); first = false; append_indent(builder, indent + 1); builder.appendff("/{} ", key); builder.appendff("{}", value.to_string(indent + 1)); } builder.append('\n'); append_indent(builder, indent); builder.append(">>"); return builder.to_string(); } String StreamObject::to_string(int indent) const { StringBuilder builder; builder.append("stream\n"); append_indent(builder, indent); builder.appendff("{}\n", dict()->to_string(indent + 1)); append_indent(builder, indent + 1); auto string = encode_hex(bytes()); while (true) { if (string.length() > 60) { builder.appendff("{}\n", string.substring(0, 60)); append_indent(builder, indent); string = string.substring(60); continue; } builder.appendff("{}\n", string); break; } append_indent(builder, indent); builder.append("endstream"); return builder.to_string(); } String IndirectValue::to_string(int indent) const { StringBuilder builder; builder.appendff("{} {} obj\n", index(), generation_index()); append_indent(builder, indent + 1); builder.append(value().to_string(indent + 1)); builder.append('\n'); append_indent(builder, indent); builder.append("endobj"); return builder.to_string(); } String IndirectValueRef::to_string(int) const { return String::formatted("{} {} R", index(), generation_index()); } }