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413 lines
14 KiB
C++
413 lines
14 KiB
C++
// See the "Optimization" section of the manual.
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#include <qpdf/assert_debug.h>
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#include <qpdf/QPDF.hh>
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#include <qpdf/QPDFExc.hh>
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#include <qpdf/QPDF_Array.hh>
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#include <qpdf/QPDF_Dictionary.hh>
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#include <qpdf/QTC.hh>
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QPDF::ObjUser::ObjUser() :
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ou_type(ou_bad),
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pageno(0)
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{
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}
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QPDF::ObjUser::ObjUser(user_e type) :
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ou_type(type),
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pageno(0)
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{
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qpdf_assert_debug(type == ou_root);
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}
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QPDF::ObjUser::ObjUser(user_e type, int pageno) :
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ou_type(type),
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pageno(pageno)
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{
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qpdf_assert_debug((type == ou_page) || (type == ou_thumb));
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}
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QPDF::ObjUser::ObjUser(user_e type, std::string const& key) :
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ou_type(type),
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pageno(0),
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key(key)
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{
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qpdf_assert_debug((type == ou_trailer_key) || (type == ou_root_key));
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}
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bool
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QPDF::ObjUser::operator<(ObjUser const& rhs) const
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{
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if (this->ou_type < rhs.ou_type) {
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return true;
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} else if (this->ou_type == rhs.ou_type) {
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if (this->pageno < rhs.pageno) {
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return true;
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} else if (this->pageno == rhs.pageno) {
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return (this->key < rhs.key);
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}
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}
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return false;
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}
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void
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QPDF::optimize(
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std::map<int, int> const& object_stream_data,
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bool allow_changes,
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std::function<int(QPDFObjectHandle&)> skip_stream_parameters)
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{
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if (!this->m->obj_user_to_objects.empty()) {
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// already optimized
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return;
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}
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// The PDF specification indicates that /Outlines is supposed to
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// be an indirect reference. Force it to be so if it exists and
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// is direct. (This has been seen in the wild.)
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QPDFObjectHandle root = getRoot();
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if (root.getKey("/Outlines").isDictionary()) {
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QPDFObjectHandle outlines = root.getKey("/Outlines");
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if (!outlines.isIndirect()) {
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QTC::TC("qpdf", "QPDF_optimization indirect outlines");
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root.replaceKey("/Outlines", makeIndirectObject(outlines));
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}
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}
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// Traverse pages tree pushing all inherited resources down to the
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// page level. This also initializes this->m->all_pages.
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pushInheritedAttributesToPage(allow_changes, false);
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// Traverse pages
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int n = toI(this->m->all_pages.size());
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for (int pageno = 0; pageno < n; ++pageno) {
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updateObjectMaps(
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ObjUser(ObjUser::ou_page, pageno),
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this->m->all_pages.at(toS(pageno)),
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skip_stream_parameters);
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}
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// Traverse document-level items
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for (auto const& key: this->m->trailer.getKeys()) {
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if (key == "/Root") {
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// handled separately
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} else {
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updateObjectMaps(
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ObjUser(ObjUser::ou_trailer_key, key),
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this->m->trailer.getKey(key),
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skip_stream_parameters);
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}
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}
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for (auto const& key: root.getKeys()) {
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// Technically, /I keys from /Thread dictionaries are supposed
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// to be handled separately, but we are going to disregard
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// that specification for now. There is loads of evidence
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// that pdlin and Acrobat both disregard things like this from
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// time to time, so this is almost certain not to cause any
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// problems.
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updateObjectMaps(
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ObjUser(ObjUser::ou_root_key, key),
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root.getKey(key),
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skip_stream_parameters);
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}
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ObjUser root_ou = ObjUser(ObjUser::ou_root);
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QPDFObjGen root_og = QPDFObjGen(root.getObjGen());
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this->m->obj_user_to_objects[root_ou].insert(root_og);
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this->m->object_to_obj_users[root_og].insert(root_ou);
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filterCompressedObjects(object_stream_data);
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}
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void
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QPDF::pushInheritedAttributesToPage()
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{
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// Public API should not have access to allow_changes.
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pushInheritedAttributesToPage(true, false);
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}
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void
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QPDF::pushInheritedAttributesToPage(bool allow_changes, bool warn_skipped_keys)
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{
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// Traverse pages tree pushing all inherited resources down to the
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// page level.
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// The record of whether we've done this is cleared by
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// updateAllPagesCache(). If we're warning for skipped keys,
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// re-traverse unconditionally.
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if (this->m->pushed_inherited_attributes_to_pages && (!warn_skipped_keys)) {
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return;
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}
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// Calling getAllPages() resolves any duplicated page objects,
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// repairs broken nodes, and detects loops, so we don't have to do
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// those activities here.
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getAllPages();
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// key_ancestors is a mapping of page attribute keys to a stack of
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// Pages nodes that contain values for them.
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std::map<std::string, std::vector<QPDFObjectHandle>> key_ancestors;
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pushInheritedAttributesToPageInternal(
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this->m->trailer.getKey("/Root").getKey("/Pages"),
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key_ancestors,
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allow_changes,
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warn_skipped_keys);
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if (!key_ancestors.empty()) {
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throw std::logic_error("key_ancestors not empty after"
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" pushing inherited attributes to pages");
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}
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this->m->pushed_inherited_attributes_to_pages = true;
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this->m->ever_pushed_inherited_attributes_to_pages = true;
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}
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void
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QPDF::pushInheritedAttributesToPageInternal(
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QPDFObjectHandle cur_pages,
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std::map<std::string, std::vector<QPDFObjectHandle>>& key_ancestors,
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bool allow_changes,
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bool warn_skipped_keys)
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{
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// Make a list of inheritable keys. Only the keys /MediaBox,
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// /CropBox, /Resources, and /Rotate are inheritable
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// attributes. Push this object onto the stack of pages nodes
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// that have values for this attribute.
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std::set<std::string> inheritable_keys;
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for (auto const& key: cur_pages.getKeys()) {
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if ((key == "/MediaBox") || (key == "/CropBox") ||
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(key == "/Resources") || (key == "/Rotate")) {
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if (!allow_changes) {
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throw QPDFExc(
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qpdf_e_internal,
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this->m->file->getName(),
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this->m->last_object_description,
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this->m->file->getLastOffset(),
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"optimize detected an "
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"inheritable attribute when called "
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"in no-change mode");
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}
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// This is an inheritable resource
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inheritable_keys.insert(key);
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QPDFObjectHandle oh = cur_pages.getKey(key);
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QTC::TC(
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"qpdf",
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"QPDF opt direct pages resource",
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oh.isIndirect() ? 0 : 1);
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if (!oh.isIndirect()) {
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if (!oh.isScalar()) {
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// Replace shared direct object non-scalar
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// resources with indirect objects to avoid
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// copying large structures around.
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cur_pages.replaceKey(key, makeIndirectObject(oh));
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oh = cur_pages.getKey(key);
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} else {
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// It's okay to copy scalars.
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QTC::TC("qpdf", "QPDF opt inherited scalar");
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}
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}
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key_ancestors[key].push_back(oh);
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if (key_ancestors[key].size() > 1) {
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QTC::TC("qpdf", "QPDF opt key ancestors depth > 1");
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}
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// Remove this resource from this node. It will be
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// reattached at the page level.
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cur_pages.removeKey(key);
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} else if (!((key == "/Type") || (key == "/Parent") ||
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(key == "/Kids") || (key == "/Count"))) {
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// Warn when flattening, but not if the key is at the top
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// level (i.e. "/Parent" not set), as we don't change these;
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// but flattening removes intermediate /Pages nodes.
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if ((warn_skipped_keys) && (cur_pages.hasKey("/Parent"))) {
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QTC::TC("qpdf", "QPDF unknown key not inherited");
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setLastObjectDescription("Pages object", cur_pages.getObjGen());
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warn(
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qpdf_e_pages,
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this->m->last_object_description,
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0,
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("Unknown key " + key +
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" in /Pages object"
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" is being discarded as a result of"
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" flattening the /Pages tree"));
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}
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}
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}
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// Process descendant nodes. This method does not perform loop
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// detection because all code paths that lead here follow a call
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// to getAllPages, which already throws an exception in the event
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// of a loop in the pages tree.
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for (auto& kid: cur_pages.getKey("/Kids").aitems()) {
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if (kid.isDictionaryOfType("/Pages")) {
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pushInheritedAttributesToPageInternal(
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kid, key_ancestors, allow_changes, warn_skipped_keys);
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} else {
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// Add all available inheritable attributes not present in
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// this object to this object.
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for (auto const& iter: key_ancestors) {
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std::string const& key = iter.first;
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if (!kid.hasKey(key)) {
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QTC::TC("qpdf", "QPDF opt resource inherited");
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kid.replaceKey(key, iter.second.back());
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} else {
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QTC::TC("qpdf", "QPDF opt page resource hides ancestor");
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}
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}
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}
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}
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// For each inheritable key, pop the stack. If the stack
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// becomes empty, remove it from the map. That way, the
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// invariant that the list of keys in key_ancestors is exactly
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// those keys for which inheritable attributes are available.
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if (!inheritable_keys.empty()) {
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QTC::TC("qpdf", "QPDF opt inheritable keys");
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for (auto const& key: inheritable_keys) {
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key_ancestors[key].pop_back();
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if (key_ancestors[key].empty()) {
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QTC::TC("qpdf", "QPDF opt erase empty key ancestor");
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key_ancestors.erase(key);
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}
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}
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} else {
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QTC::TC("qpdf", "QPDF opt no inheritable keys");
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}
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}
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void
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QPDF::updateObjectMaps(
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ObjUser const& ou,
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QPDFObjectHandle oh,
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std::function<int(QPDFObjectHandle&)> skip_stream_parameters)
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{
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std::set<QPDFObjGen> visited;
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updateObjectMapsInternal(ou, oh, skip_stream_parameters, visited, true);
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}
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void
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QPDF::updateObjectMapsInternal(
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ObjUser const& ou,
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QPDFObjectHandle oh,
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std::function<int(QPDFObjectHandle&)> skip_stream_parameters,
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std::set<QPDFObjGen>& visited,
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bool top)
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{
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// Traverse the object tree from this point taking care to avoid
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// crossing page boundaries.
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bool is_page_node = false;
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if (oh.isDictionaryOfType("/Page")) {
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is_page_node = true;
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if (!top) {
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return;
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}
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}
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if (oh.isIndirect()) {
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QPDFObjGen og(oh.getObjGen());
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if (visited.count(og)) {
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QTC::TC("qpdf", "QPDF opt loop detected");
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return;
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}
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this->m->obj_user_to_objects[ou].insert(og);
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this->m->object_to_obj_users[og].insert(ou);
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visited.insert(og);
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}
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if (oh.isArray()) {
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int n = oh.getArrayNItems();
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for (int i = 0; i < n; ++i) {
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updateObjectMapsInternal(
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ou, oh.getArrayItem(i), skip_stream_parameters, visited, false);
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}
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} else if (oh.isDictionary() || oh.isStream()) {
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QPDFObjectHandle dict = oh;
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bool is_stream = oh.isStream();
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int ssp = 0;
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if (is_stream) {
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dict = oh.getDict();
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if (skip_stream_parameters) {
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ssp = skip_stream_parameters(oh);
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}
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}
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for (auto const& key: dict.getKeys()) {
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if (is_page_node && (key == "/Thumb")) {
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// Traverse page thumbnail dictionaries as a special
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// case.
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updateObjectMapsInternal(
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ObjUser(ObjUser::ou_thumb, ou.pageno),
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dict.getKey(key),
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skip_stream_parameters,
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visited,
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false);
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} else if (is_page_node && (key == "/Parent")) {
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// Don't traverse back up the page tree
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} else if (
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((ssp >= 1) && (key == "/Length")) ||
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((ssp >= 2) &&
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((key == "/Filter") || (key == "/DecodeParms")))) {
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// Don't traverse into stream parameters that we are
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// not going to write.
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} else {
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updateObjectMapsInternal(
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ou,
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dict.getKey(key),
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skip_stream_parameters,
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visited,
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false);
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}
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}
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}
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}
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void
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QPDF::filterCompressedObjects(std::map<int, int> const& object_stream_data)
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{
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if (object_stream_data.empty()) {
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return;
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}
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// Transform object_to_obj_users and obj_user_to_objects so that
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// they refer only to uncompressed objects. If something is a
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// user of a compressed object, then it is really a user of the
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// object stream that contains it.
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std::map<ObjUser, std::set<QPDFObjGen>> t_obj_user_to_objects;
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std::map<QPDFObjGen, std::set<ObjUser>> t_object_to_obj_users;
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for (auto const& i1: this->m->obj_user_to_objects) {
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ObjUser const& ou = i1.first;
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// Loop over objects.
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for (auto const& og: i1.second) {
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auto i2 = object_stream_data.find(og.getObj());
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if (i2 == object_stream_data.end()) {
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t_obj_user_to_objects[ou].insert(og);
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} else {
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t_obj_user_to_objects[ou].insert(QPDFObjGen(i2->second, 0));
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}
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}
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}
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for (auto const& i1: this->m->object_to_obj_users) {
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QPDFObjGen const& og = i1.first;
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// Loop over obj_users.
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for (auto const& ou: i1.second) {
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auto i2 = object_stream_data.find(og.getObj());
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if (i2 == object_stream_data.end()) {
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t_object_to_obj_users[og].insert(ou);
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} else {
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t_object_to_obj_users[QPDFObjGen(i2->second, 0)].insert(ou);
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}
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}
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}
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this->m->obj_user_to_objects = t_obj_user_to_objects;
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this->m->object_to_obj_users = t_object_to_obj_users;
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}
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