/* * Copyright (c) 2021, Matthew Olsson * * SPDX-License-Identifier: BSD-2-Clause */ #include #include #include namespace PDF { String OutlineItem::to_string(int indent) const { auto indent_str = String::repeated(" ", indent + 1); StringBuilder child_builder; child_builder.append('['); for (auto& child : children) child_builder.appendff("{}\n", child.to_string(indent + 1)); child_builder.appendff("{}]", indent_str); StringBuilder builder; builder.append("OutlineItem {{\n"); builder.appendff("{}title={}\n", indent_str, title); builder.appendff("{}count={}\n", indent_str, count); builder.appendff("{}dest={}\n", indent_str, dest); builder.appendff("{}color={}\n", indent_str, color); builder.appendff("{}italic={}\n", indent_str, italic); builder.appendff("{}bold={}\n", indent_str, bold); builder.appendff("{}children={}\n", indent_str, child_builder.to_string()); builder.appendff("{}}}", String::repeated(" ", indent)); return builder.to_string(); } RefPtr Document::create(ReadonlyBytes bytes) { auto parser = adopt_ref(*new Parser({}, bytes)); auto document = adopt_ref(*new Document(parser)); if (!parser->initialize()) return {}; document->m_catalog = parser->trailer()->get_dict(document, CommonNames::Root); document->build_page_tree(); document->build_outline(); return document; } Document::Document(NonnullRefPtr const& parser) : m_parser(parser) { m_parser->set_document(this); } Value Document::get_or_load_value(u32 index) { auto value = get_value(index); if (!value.has()) // FIXME: Use Optional instead? return value; auto object = m_parser->parse_object_with_index(index); m_values.set(index, object); return object; } u32 Document::get_first_page_index() const { // FIXME: A PDF can have a different default first page, which // should be fetched and returned here return 0; } u32 Document::get_page_count() const { return m_page_object_indices.size(); } Page Document::get_page(u32 index) { VERIFY(index < m_page_object_indices.size()); auto cached_page = m_pages.get(index); if (cached_page.has_value()) return cached_page.value(); auto page_object_index = m_page_object_indices[index]; auto raw_page_object = resolve_to(get_or_load_value(page_object_index)); if (!raw_page_object->contains(CommonNames::Resources)) { // This page inherits its resource dictionary TODO(); } auto resources = raw_page_object->get_dict(this, CommonNames::Resources); auto contents = raw_page_object->get_object(this, CommonNames::Contents); auto media_box_array = raw_page_object->get_array(this, CommonNames::MediaBox); auto media_box = Rectangle { media_box_array->at(0).to_float(), media_box_array->at(1).to_float(), media_box_array->at(2).to_float(), media_box_array->at(3).to_float(), }; auto crop_box = media_box; if (raw_page_object->contains(CommonNames::CropBox)) { auto crop_box_array = raw_page_object->get_array(this, CommonNames::CropBox); crop_box = Rectangle { crop_box_array->at(0).to_float(), crop_box_array->at(1).to_float(), crop_box_array->at(2).to_float(), crop_box_array->at(3).to_float(), }; } float user_unit = 1.0f; if (raw_page_object->contains(CommonNames::UserUnit)) user_unit = raw_page_object->get_value(CommonNames::UserUnit).to_float(); int rotate = 0; if (raw_page_object->contains(CommonNames::Rotate)) { rotate = raw_page_object->get_value(CommonNames::Rotate).get(); VERIFY(rotate % 90 == 0); } Page page { move(resources), move(contents), media_box, crop_box, user_unit, rotate }; m_pages.set(index, page); return page; } Value Document::resolve(Value const& value) { if (value.has()) { // FIXME: Surely indirect PDF objects can't contain another indirect PDF object, // right? Unsure from the spec, but if they can, these return values would have // to be wrapped with another resolve() call. return get_or_load_value(value.as_ref_index()); } if (!value.has>()) return value; auto& obj = value.get>(); if (obj->is_indirect_value()) return static_ptr_cast(obj)->value(); return value; } bool Document::build_page_tree() { if (!m_catalog->contains(CommonNames::Pages)) return false; auto page_tree = m_catalog->get_dict(this, CommonNames::Pages); return add_page_tree_node_to_page_tree(page_tree); } bool Document::add_page_tree_node_to_page_tree(NonnullRefPtr const& page_tree) { if (!page_tree->contains(CommonNames::Kids) || !page_tree->contains(CommonNames::Count)) return false; auto kids_array = page_tree->get_array(this, CommonNames::Kids); auto page_count = page_tree->get(CommonNames::Count).value().get(); if (static_cast(page_count) != kids_array->elements().size()) { // This page tree contains child page trees, so we recursively add // these pages to the overall page tree for (auto& value : *kids_array) { auto reference_index = value.as_ref_index(); bool ok; auto maybe_page_tree_node = m_parser->conditionally_parse_page_tree_node(reference_index, ok); if (!ok) return false; if (maybe_page_tree_node) { if (!add_page_tree_node_to_page_tree(maybe_page_tree_node.release_nonnull())) return false; } else { m_page_object_indices.append(reference_index); } } } else { // We know all of the kids are leaf nodes for (auto& value : *kids_array) m_page_object_indices.append(value.as_ref_index()); } return true; } void Document::build_outline() { if (!m_catalog->contains(CommonNames::Outlines)) return; auto outline_dict = m_catalog->get_dict(this, CommonNames::Outlines); if (!outline_dict->contains(CommonNames::First)) return; if (!outline_dict->contains(CommonNames::Last)) return; auto first_ref = outline_dict->get_value(CommonNames::First); auto last_ref = outline_dict->get_value(CommonNames::Last); auto children = build_outline_item_chain(first_ref, last_ref); m_outline = adopt_ref(*new OutlineDict()); m_outline->children = move(children); if (outline_dict->contains(CommonNames::Count)) m_outline->count = outline_dict->get_value(CommonNames::Count).get(); } NonnullRefPtr Document::build_outline_item(NonnullRefPtr const& outline_item_dict) { auto outline_item = adopt_ref(*new OutlineItem {}); if (outline_item_dict->contains(CommonNames::First)) { VERIFY(outline_item_dict->contains(CommonNames::Last)); auto first_ref = outline_item_dict->get_value(CommonNames::First); auto last_ref = outline_item_dict->get_value(CommonNames::Last); auto children = build_outline_item_chain(first_ref, last_ref); outline_item->children = move(children); } outline_item->title = outline_item_dict->get_string(this, CommonNames::Title)->string(); if (outline_item_dict->contains(CommonNames::Count)) outline_item->count = outline_item_dict->get_value(CommonNames::Count).get(); if (outline_item_dict->contains(CommonNames::Dest)) { auto dest_arr = outline_item_dict->get_array(this, CommonNames::Dest); auto page_ref = dest_arr->at(0); auto type_name = dest_arr->get_name_at(this, 1)->name(); Vector parameters; for (size_t i = 2; i < dest_arr->size(); i++) parameters.append(dest_arr->at(i).to_float()); Destination::Type type; if (type_name == CommonNames::XYZ) { type = Destination::Type::XYZ; } else if (type_name == CommonNames::Fit) { type = Destination::Type::Fit; } else if (type_name == CommonNames::FitH) { type = Destination::Type::FitH; } else if (type_name == CommonNames::FitV) { type = Destination::Type::FitV; } else if (type_name == CommonNames::FitR) { type = Destination::Type::FitR; } else if (type_name == CommonNames::FitB) { type = Destination::Type::FitB; } else if (type_name == CommonNames::FitBH) { type = Destination::Type::FitBH; } else if (type_name == CommonNames::FitBV) { type = Destination::Type::FitBV; } else { VERIFY_NOT_REACHED(); } outline_item->dest = Destination { type, page_ref, parameters }; } if (outline_item_dict->contains(CommonNames::C)) { auto color_array = outline_item_dict->get_array(this, CommonNames::C); auto r = static_cast(255.0f * color_array->at(0).get()); auto g = static_cast(255.0f * color_array->at(1).get()); auto b = static_cast(255.0f * color_array->at(2).get()); outline_item->color = Color(r, g, b); } if (outline_item_dict->contains(CommonNames::F)) { auto bitfield = outline_item_dict->get_value(CommonNames::F).get(); outline_item->italic = bitfield & 0x1; outline_item->bold = bitfield & 0x2; } return outline_item; } NonnullRefPtrVector Document::build_outline_item_chain(Value const& first_ref, Value const& last_ref) { VERIFY(first_ref.has()); VERIFY(last_ref.has()); NonnullRefPtrVector children; auto first_dict = object_cast( get_or_load_value(first_ref.as_ref_index()).get>()); auto first = build_outline_item(first_dict); children.append(first); auto current_child_dict = first_dict; u32 current_child_index = first_ref.as_ref_index(); while (current_child_dict->contains(CommonNames::Next)) { auto next_child_dict_ref = current_child_dict->get_value(CommonNames::Next); current_child_index = next_child_dict_ref.as_ref_index(); auto next_child_dict = object_cast(get_or_load_value(current_child_index).get>()); auto next_child = build_outline_item(next_child_dict); children.append(next_child); current_child_dict = move(next_child_dict); } VERIFY(last_ref.as_ref_index() == current_child_index); return children; } }