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mirror of https://github.com/qpdf/qpdf.git synced 2024-12-22 19:08:59 +00:00
qpdf/libqpdf/QPDF_optimization.cc
Jay Berkenbilt 4f24617e1e Code clean up: use range-style for loops wherever possible
Where not possible, use "auto" to get the iterator type.

Editorial note: I have avoid this change for a long time because of
not wanting to make gratuitous changes to version history, which can
obscure when certain changes were made, but with having recently
touched every single file to apply automatic code formatting and with
making several broad changes to the API, I decided it was time to take
the plunge and get rid of the older (pre-C++11) verbose iterator
syntax. The new code is just easier to read and understand, and in
many cases, it will be more effecient as fewer temporary copies are
being made.

m-holger, if you're reading, you can see that I've finally come
around. :-)
2022-04-30 13:27:18 -04:00

466 lines
16 KiB
C++

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