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ladybird/Userland/Libraries/LibPDF/Document.cpp
Matthew Olsson d5f94aaa7b LibPDF/PDFViewer: Support rotated pages
2021-05-18 16:35:23 +02:00

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/*
* Copyright (c) 2021, Matthew Olsson <mattco@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <LibPDF/Document.h>
#include <LibPDF/Parser.h>
namespace PDF {
Document::Document(const ReadonlyBytes& bytes)
: m_parser(Parser({}, bytes))
{
m_parser.set_document(this);
VERIFY(m_parser.perform_validation());
auto [xref_table, trailer] = m_parser.parse_last_xref_table_and_trailer();
m_xref_table = xref_table;
m_trailer = trailer;
m_catalog = m_trailer->get_dict(this, "Root");
build_page_tree();
}
Value Document::get_or_load_value(u32 index)
{
auto value = get_value(index);
if (value)
return value;
VERIFY(m_xref_table.has_object(index));
auto byte_offset = m_xref_table.byte_offset_for_object(index);
auto indirect_value = m_parser.parse_indirect_value_at_offset(byte_offset);
VERIFY(indirect_value->index() == index);
value = indirect_value->value();
m_values.set(index, value);
return value;
}
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<DictObject>(get_or_load_value(page_object_index));
auto resources = raw_page_object->get_dict(this, "Resources");
auto contents = raw_page_object->get_object(this, "Contents");
auto media_box_array = raw_page_object->get_array(this, "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("CropBox")) {
auto crop_box_array = raw_page_object->get_array(this, "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("UserUnit"))
user_unit = raw_page_object->get_value("UserUnit").to_float();
int rotate = 0;
if (raw_page_object->contains("Rotate")) {
rotate = raw_page_object->get_value("Rotate").as_int();
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(const Value& value)
{
if (!value.is_object())
return value;
auto obj = value.as_object();
// 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.
if (obj->is_indirect_value_ref()) {
auto object_index = static_cast<NonnullRefPtr<IndirectValueRef>>(obj)->index();
return get_or_load_value(object_index);
}
if (obj->is_indirect_value())
return static_cast<NonnullRefPtr<IndirectValue>>(obj)->value();
return obj;
}
void Document::build_page_tree()
{
auto page_tree = m_catalog->get_dict(this, "Pages");
add_page_tree_node_to_page_tree(page_tree);
}
void Document::add_page_tree_node_to_page_tree(NonnullRefPtr<DictObject> page_tree)
{
auto kids_array = page_tree->get_array(this, "Kids");
auto page_count = page_tree->get("Count").value().as_int();
if (static_cast<size_t>(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 = object_cast<IndirectValueRef>(value.as_object());
auto byte_offset = m_xref_table.byte_offset_for_object(reference->index());
auto maybe_page_tree_node = m_parser.conditionally_parse_page_tree_node_at_offset(byte_offset);
if (maybe_page_tree_node) {
add_page_tree_node_to_page_tree(maybe_page_tree_node.release_nonnull());
} else {
m_page_object_indices.append(reference->index());
}
}
return;
}
// We know all of the kids are leaf nodes
for (auto& value : *kids_array) {
auto reference = object_cast<IndirectValueRef>(value.as_object());
m_page_object_indices.append(reference->index());
}
}
}
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