office/okular
office/okular
1
0
Fork 0
mirror of https://invent.kde.org/graphics/okular synced 2024-06-30 22:54:24 +00:00
Code Issues Projects Releases Wiki Activity
master
okular/core/document.cpp
Sune Vuorela d211a6a9e9 More cppcheck fixes
2024-06-26 12:48:44 +00:00

6095 lines
212 KiB
C++
Raw Permalink Blame History

/*
SPDX-FileCopyrightText: 2004-2005 Enrico Ros <eros.kde@email.it>
SPDX-FileCopyrightText: 2004-2008 Albert Astals Cid <aacid@kde.org>
Work sponsored by the LiMux project of the city of Munich:
SPDX-FileCopyrightText: 2017, 2018 Klarälvdalens Datakonsult AB a KDAB Group company <info@kdab.com>
SPDX-License-Identifier: GPL-2.0-or-later
*/
#include "document.h"
#include "document_p.h"
#include "documentcommands_p.h"
#include <limits.h>
#include <memory>
#ifdef Q_OS_WIN
#define _WIN32_WINNT 0x0500
#include <windows.h>
#elif defined(Q_OS_FREEBSD)
// clang-format off
// FreeBSD really wants this include order
#include <sys/types.h>
#include <sys/sysctl.h>
// clang-format on
#include <vm/vm_param.h>
#endif
// qt/kde/system includes
#include <QApplication>
#include <QDesktopServices>
#include <QDir>
#include <QFile>
#include <QFileInfo>
#include <QLabel>
#include <QMap>
#include <QMimeDatabase>
#include <QPageSize>
#include <QPrintDialog>
#include <QRegularExpression>
#include <QScreen>
#include <QStack>
#include <QStandardPaths>
#include <QTemporaryFile>
#include <QTextStream>
#include <QTimer>
#include <QUndoCommand>
#include <QWindow>
#include <QtAlgorithms>
#include <KApplicationTrader>
#include <KAuthorized>
#include <KConfigDialog>
#include <KFormat>
#include <KIO/Global>
#include <KIO/JobUiDelegate>
#include <KIO/JobUiDelegateFactory>
#include <KIO/OpenUrlJob>
#include <KLocalizedString>
#include <KMacroExpander>
#include <KPluginMetaData>
#include <KProcess>
#include <KShell>
#include <kio_version.h>
#include <kzip.h>
// local includes
#include "action.h"
#include "annotations.h"
#include "annotations_p.h"
#include "audioplayer.h"
#include "bookmarkmanager.h"
#include "chooseenginedialog_p.h"
#include "debug_p.h"
#include "form.h"
#include "generator_p.h"
#include "interfaces/configinterface.h"
#include "interfaces/guiinterface.h"
#include "interfaces/printinterface.h"
#include "interfaces/saveinterface.h"
#include "misc.h"
#include "observer.h"
#include "page.h"
#include "page_p.h"
#include "pagecontroller_p.h"
#include "script/event_p.h"
#include "scripter.h"
#include "settings_core.h"
#include "sourcereference.h"
#include "sourcereference_p.h"
#include "texteditors_p.h"
#include "tile.h"
#include "tilesmanager_p.h"
#include "utils.h"
#include "utils_p.h"
#include "view.h"
#include "view_p.h"
#include <config-okular.h>
#if HAVE_MALLOC_TRIM
#include "malloc.h"
#endif
using namespace Okular;
struct AllocatedPixmap {
// owner of the page
DocumentObserver *observer;
int page;
qulonglong memory;
// public constructor: initialize data
AllocatedPixmap(DocumentObserver *o, int p, qulonglong m)
: observer(o)
, page(p)
, memory(m)
{
}
};
struct ArchiveData {
ArchiveData()
{
}
QString originalFileName;
QTemporaryFile document;
QTemporaryFile metadataFile;
};
struct RunningSearch {
// store search properties
int continueOnPage;
RegularAreaRect continueOnMatch;
QSet<int> highlightedPages;
// fields related to previous searches (used for 'continueSearch')
QString cachedString;
Document::SearchType cachedType;
Qt::CaseSensitivity cachedCaseSensitivity;
bool cachedViewportMove : 1;
bool isCurrentlySearching : 1;
QColor cachedColor;
int pagesDone;
};
#define foreachObserver(cmd) \
{ \
QSet<DocumentObserver *>::const_iterator it = d->m_observers.constBegin(), end = d->m_observers.constEnd(); \
for (; it != end; ++it) { \
(*it)->cmd; \
} \
}
#define foreachObserverD(cmd) \
{ \
QSet<DocumentObserver *>::const_iterator it = m_observers.constBegin(), end = m_observers.constEnd(); \
for (; it != end; ++it) { \
(*it)->cmd; \
} \
}
#define OKULAR_HISTORY_MAXSTEPS 100
#define OKULAR_HISTORY_SAVEDSTEPS 10
// how often to run slotTimedMemoryCheck
constexpr int kMemCheckTime = 2000; // in msec
// getFreeMemory is called every two seconds when checking to see if the system is low on memory. If this timeout was left at kMemCheckTime, half of these checks are useless (when okular is idle) since the cache is used when the cache is
// <=2 seconds old. This means that after the system is out of memory, up to 4 seconds (instead of 2) could go by before okular starts to free memory.
constexpr int kFreeMemCacheTimeout = kMemCheckTime - 100;
/***** Document ******/
QString DocumentPrivate::pagesSizeString() const
{
if (m_generator) {
if (m_generator->pagesSizeMetric() != Generator::None) {
QSizeF size = m_parent->allPagesSize();
// Single page size
if (size.isValid()) {
return localizedSize(size);
}
// Multiple page sizes
QHash<QString, int> pageSizeFrequencies;
// Compute frequencies of each page size
for (int i = 0; i < m_pagesVector.count(); ++i) {
const Page *p = m_pagesVector.at(i);
QString sizeString = localizedSize(QSizeF(p->width(), p->height()));
pageSizeFrequencies[sizeString] = pageSizeFrequencies.value(sizeString, 0) + 1;
}
// Figure out which page size is most frequent
int largestFrequencySeen = 0;
QString mostCommonPageSize = QString();
QHash<QString, int>::const_iterator i = pageSizeFrequencies.constBegin();
while (i != pageSizeFrequencies.constEnd()) {
if (i.value() > largestFrequencySeen) {
largestFrequencySeen = i.value();
mostCommonPageSize = i.key();
}
++i;
}
QString finalText = i18nc("@info %1 is a page size", "Most pages are %1.", mostCommonPageSize);
return finalText;
} else {
return QString();
}
} else {
return QString();
}
}
QString DocumentPrivate::namePaperSize(double inchesWidth, double inchesHeight) const
{
const QPageLayout::Orientation orientation = inchesWidth > inchesHeight ? QPageLayout::Landscape : QPageLayout::Portrait;
const QSize pointsSize(inchesWidth * 72.0, inchesHeight * 72.0);
const QPageSize::PageSizeId paperSize = QPageSize::id(pointsSize, QPageSize::FuzzyOrientationMatch);
const QString paperName = QPageSize::name(paperSize);
if (orientation == QPageLayout::Portrait) {
return i18nc("paper type and orientation (eg: Portrait A4)", "Portrait %1", paperName);
} else {
return i18nc("paper type and orientation (eg: Portrait A4)", "Landscape %1", paperName);
}
}
QString DocumentPrivate::localizedSize(const QSizeF size) const
{
double inchesWidth = 0, inchesHeight = 0;
switch (m_generator->pagesSizeMetric()) {
case Generator::Points:
inchesWidth = size.width() / 72.0;
inchesHeight = size.height() / 72.0;
break;
case Generator::Pixels: {
const QSizeF dpi = m_generator->dpi();
inchesWidth = size.width() / dpi.width();
inchesHeight = size.height() / dpi.height();
} break;
case Generator::None:
break;
}
if (QLocale::system().measurementSystem() == QLocale::ImperialSystem) {
return i18nc("%1 is width, %2 is height, %3 is paper size name", "%1 x %2 in (%3)", inchesWidth, inchesHeight, namePaperSize(inchesWidth, inchesHeight));
} else {
return i18nc("%1 is width, %2 is height, %3 is paper size name", "%1 x %2 mm (%3)", QString::number(inchesWidth * 25.4, 'd', 0), QString::number(inchesHeight * 25.4, 'd', 0), namePaperSize(inchesWidth, inchesHeight));
}
}
qulonglong DocumentPrivate::calculateMemoryToFree()
{
// [MEM] choose memory parameters based on configuration profile
qulonglong clipValue = 0;
qulonglong memoryToFree = 0;
switch (SettingsCore::memoryLevel()) {
case SettingsCore::EnumMemoryLevel::Low:
memoryToFree = m_allocatedPixmapsTotalMemory;
break;
case SettingsCore::EnumMemoryLevel::Normal: {
qulonglong thirdTotalMemory = getTotalMemory() / 3;
qulonglong freeMemory = getFreeMemory();
if (m_allocatedPixmapsTotalMemory > thirdTotalMemory) {
memoryToFree = m_allocatedPixmapsTotalMemory - thirdTotalMemory;
}
if (m_allocatedPixmapsTotalMemory > freeMemory) {
clipValue = (m_allocatedPixmapsTotalMemory - freeMemory) / 2;
}
} break;
case SettingsCore::EnumMemoryLevel::Aggressive: {
qulonglong freeMemory = getFreeMemory();
if (m_allocatedPixmapsTotalMemory > freeMemory) {
clipValue = (m_allocatedPixmapsTotalMemory - freeMemory) / 2;
}
} break;
case SettingsCore::EnumMemoryLevel::Greedy: {
qulonglong freeSwap;
qulonglong freeMemory = getFreeMemory(&freeSwap);
const qulonglong memoryLimit = qMin(qMax(freeMemory, getTotalMemory() / 2), freeMemory + freeSwap);
if (m_allocatedPixmapsTotalMemory > memoryLimit) {
clipValue = (m_allocatedPixmapsTotalMemory - memoryLimit) / 2;
}
} break;
}
if (clipValue > memoryToFree) {
memoryToFree = clipValue;
}
return memoryToFree;
}
void DocumentPrivate::cleanupPixmapMemory()
{
cleanupPixmapMemory(calculateMemoryToFree());
}
void DocumentPrivate::cleanupPixmapMemory(qulonglong memoryToFree)
{
if (memoryToFree < 1) {
return;
}
const int currentViewportPage = (*m_viewportIterator).pageNumber;
// Create a QMap of visible rects, indexed by page number
QMap<int, VisiblePageRect *> visibleRects;
QVector<Okular::VisiblePageRect *>::const_iterator vIt = m_pageRects.constBegin(), vEnd = m_pageRects.constEnd();
for (; vIt != vEnd; ++vIt) {
visibleRects.insert((*vIt)->pageNumber, (*vIt));
}
// Free memory starting from pages that are farthest from the current one
int pagesFreed = 0;
while (memoryToFree > 0) {
AllocatedPixmap *p = searchLowestPriorityPixmap(true, true);
if (!p) { // No pixmap to remove
break;
}
qCDebug(OkularCoreDebug).nospace() << "Evicting cache pixmap observer=" << p->observer << " page=" << p->page;
// m_allocatedPixmapsTotalMemory can't underflow because we always add or remove
// the memory used by the AllocatedPixmap so at most it can reach zero
m_allocatedPixmapsTotalMemory -= p->memory;
// Make sure memoryToFree does not underflow
if (p->memory > memoryToFree) {
memoryToFree = 0;
} else {
memoryToFree -= p->memory;
}
pagesFreed++;
// delete pixmap
m_pagesVector.at(p->page)->deletePixmap(p->observer);
// delete allocation descriptor
delete p;
}
// If we're still on low memory, try to free individual tiles
// Store pages that weren't completely removed
std::list<AllocatedPixmap *> pixmapsToKeep;
while (memoryToFree > 0) {
int clean_hits = 0;
for (DocumentObserver *observer : std::as_const(m_observers)) {
AllocatedPixmap *p = searchLowestPriorityPixmap(false, true, observer);
if (!p) { // No pixmap to remove
continue;
}
clean_hits++;
TilesManager *tilesManager = m_pagesVector.at(p->page)->d->tilesManager(observer);
if (tilesManager && tilesManager->totalMemory() > 0) {
qulonglong memoryDiff = p->memory;
NormalizedRect visibleRect;
if (visibleRects.contains(p->page)) {
visibleRect = visibleRects[p->page]->rect;
}
// Free non visible tiles
tilesManager->cleanupPixmapMemory(memoryToFree, visibleRect, currentViewportPage);
p->memory = tilesManager->totalMemory();
memoryDiff -= p->memory;
memoryToFree = (memoryDiff < memoryToFree) ? (memoryToFree - memoryDiff) : 0;
m_allocatedPixmapsTotalMemory -= memoryDiff;
if (p->memory > 0) {
pixmapsToKeep.push_back(p);
} else {
delete p;
}
} else {
pixmapsToKeep.push_back(p);
}
}
if (clean_hits == 0) {
break;
}
}
m_allocatedPixmaps.splice(m_allocatedPixmaps.end(), pixmapsToKeep);
Q_UNUSED(pagesFreed);
// p--rintf("freeMemory A:[%d -%d = %d] \n", m_allocatedPixmaps.count() + pagesFreed, pagesFreed, m_allocatedPixmaps.count() );
}
/* Returns the next pixmap to evict from cache, or NULL if no suitable pixmap
* if found. If unloadableOnly is set, only unloadable pixmaps are returned. If
* thenRemoveIt is set, the pixmap is removed from m_allocatedPixmaps before
* returning it
*/
AllocatedPixmap *DocumentPrivate::searchLowestPriorityPixmap(bool unloadableOnly, bool thenRemoveIt, DocumentObserver *observer)
{
std::list<AllocatedPixmap *>::iterator pIt = m_allocatedPixmaps.begin();
std::list<AllocatedPixmap *>::iterator pEnd = m_allocatedPixmaps.end();
std::list<AllocatedPixmap *>::iterator farthestPixmap = pEnd;
const int currentViewportPage = (*m_viewportIterator).pageNumber;
/* Find the pixmap that is farthest from the current viewport */
int maxDistance = -1;
while (pIt != pEnd) {
const AllocatedPixmap *p = *pIt;
// Filter by observer
if (observer == nullptr || p->observer == observer) {
const int distance = qAbs(p->page - currentViewportPage);
if (maxDistance < distance && (!unloadableOnly || p->observer->canUnloadPixmap(p->page))) {
maxDistance = distance;
farthestPixmap = pIt;
}
}
++pIt;
}
/* No pixmap to remove */
if (farthestPixmap == pEnd) {
return nullptr;
}
AllocatedPixmap *selectedPixmap = *farthestPixmap;
if (thenRemoveIt) {
m_allocatedPixmaps.erase(farthestPixmap);
}
return selectedPixmap;
}
qulonglong DocumentPrivate::getTotalMemory()
{
static qulonglong cachedValue = 0;
if (cachedValue) {
return cachedValue;
}
#if defined(Q_OS_LINUX)
// if /proc/meminfo doesn't exist, return 128MB
QFile memFile(QStringLiteral("/proc/meminfo"));
if (!memFile.open(QIODevice::ReadOnly)) {
return (cachedValue = 134217728);
}
QTextStream readStream(&memFile);
while (true) {
QString entry = readStream.readLine();
if (entry.isNull()) {
break;
}
if (entry.startsWith(QLatin1String("MemTotal:"))) {
return (cachedValue = (Q_UINT64_C(1024) * entry.section(QLatin1Char(' '), -2, -2).toULongLong()));
}
}
#elif defined(Q_OS_FREEBSD)
qulonglong physmem;
int mib[] = {CTL_HW, HW_PHYSMEM};
size_t len = sizeof(physmem);
if (sysctl(mib, 2, &physmem, &len, NULL, 0) == 0)
return (cachedValue = physmem);
#elif defined(Q_OS_WIN)
MEMORYSTATUSEX stat;
stat.dwLength = sizeof(stat);
GlobalMemoryStatusEx(&stat);
return (cachedValue = stat.ullTotalPhys);
#endif
return (cachedValue = 134217728);
}
qulonglong DocumentPrivate::getFreeMemory(qulonglong *freeSwap)
{
static QDeadlineTimer cacheTimer(0);
static qulonglong cachedValue = 0;
static qulonglong cachedFreeSwap = 0;
if (!cacheTimer.hasExpired()) {
if (freeSwap) {
*freeSwap = cachedFreeSwap;
}
return cachedValue;
}
/* Initialize the returned free swap value to 0. It is overwritten if the
* actual value is available */
if (freeSwap) {
*freeSwap = 0;
}
#if defined(Q_OS_LINUX)
// if /proc/meminfo doesn't exist, return MEMORY FULL
QFile memFile(QStringLiteral("/proc/meminfo"));
if (!memFile.open(QIODevice::ReadOnly)) {
return 0;
}
// read /proc/meminfo and sum up the contents of 'MemFree', 'Buffers'
// and 'Cached' fields. consider swapped memory as used memory.
qulonglong memoryFree = 0;
QString entry;
QTextStream readStream(&memFile);
static const int nElems = 5;
QString names[nElems] = {QStringLiteral("MemFree:"), QStringLiteral("Buffers:"), QStringLiteral("Cached:"), QStringLiteral("SwapFree:"), QStringLiteral("SwapTotal:")};
qulonglong values[nElems] = {0, 0, 0, 0, 0};
bool foundValues[nElems] = {false, false, false, false, false};
while (true) {
entry = readStream.readLine();
if (entry.isNull()) {
break;
}
for (int i = 0; i < nElems; ++i) {
if (entry.startsWith(names[i])) {
values[i] = entry.section(QLatin1Char(' '), -2, -2).toULongLong(&foundValues[i]);
}
}
}
memFile.close();
bool found = true;
for (int i = 0; found && i < nElems; ++i) {
found = found && foundValues[i];
}
if (found) {
/* MemFree + Buffers + Cached - SwapUsed =
* = MemFree + Buffers + Cached - (SwapTotal - SwapFree) =
* = MemFree + Buffers + Cached + SwapFree - SwapTotal */
memoryFree = values[0] + values[1] + values[2] + values[3];
if (values[4] > memoryFree) {
memoryFree = 0;
} else {
memoryFree -= values[4];
}
} else {
return 0;
}
cacheTimer.setRemainingTime(kFreeMemCacheTimeout);
if (freeSwap) {
*freeSwap = (cachedFreeSwap = (Q_UINT64_C(1024) * values[3]));
}
return (cachedValue = (Q_UINT64_C(1024) * memoryFree));
#elif defined(Q_OS_FREEBSD)
qulonglong cache, inact, free, psize;
size_t cachelen, inactlen, freelen, psizelen;
cachelen = sizeof(cache);
inactlen = sizeof(inact);
freelen = sizeof(free);
psizelen = sizeof(psize);
// sum up inactive, cached and free memory
if (sysctlbyname("vm.stats.vm.v_cache_count", &cache, &cachelen, NULL, 0) == 0 && sysctlbyname("vm.stats.vm.v_inactive_count", &inact, &inactlen, NULL, 0) == 0 &&
sysctlbyname("vm.stats.vm.v_free_count", &free, &freelen, NULL, 0) == 0 && sysctlbyname("vm.stats.vm.v_page_size", &psize, &psizelen, NULL, 0) == 0) {
cacheTimer.setRemainingTime(kFreeMemCacheTimeout);
return (cachedValue = (cache + inact + free) * psize);
} else {
return 0;
}
#elif defined(Q_OS_WIN)
MEMORYSTATUSEX stat;
stat.dwLength = sizeof(stat);
GlobalMemoryStatusEx(&stat);
cacheTimer.setRemainingTime(kFreeMemCacheTimeout);
if (freeSwap)
*freeSwap = (cachedFreeSwap = stat.ullAvailPageFile);
return (cachedValue = stat.ullAvailPhys);
#else
// tell the memory is full.. will act as in LOW profile
return 0;
#endif
}
bool DocumentPrivate::loadDocumentInfo(LoadDocumentInfoFlags loadWhat)
// note: load data and stores it internally (document or pages). observers
// are still uninitialized at this point so don't access them
{
// qCDebug(OkularCoreDebug).nospace() << "Using '" << d->m_xmlFileName << "' as document info file.";
if (m_xmlFileName.isEmpty()) {
return false;
}
QFile infoFile(m_xmlFileName);
return loadDocumentInfo(infoFile, loadWhat);
}
bool DocumentPrivate::loadDocumentInfo(QFile &infoFile, LoadDocumentInfoFlags loadWhat)
{
if (!infoFile.exists() || !infoFile.open(QIODevice::ReadOnly)) {
return false;
}
// Load DOM from XML file
QDomDocument doc(QStringLiteral("documentInfo"));
if (!doc.setContent(&infoFile)) {
qCDebug(OkularCoreDebug) << "Can't load XML pair! Check for broken xml.";
infoFile.close();
return false;
}
infoFile.close();
QDomElement root = doc.documentElement();
if (root.tagName() != QLatin1String("documentInfo")) {
return false;
}
bool loadedAnything = false; // set if something gets actually loaded
// Parse the DOM tree
QDomNode topLevelNode = root.firstChild();
while (topLevelNode.isElement()) {
QString catName = topLevelNode.toElement().tagName();
// Restore page attributes (bookmark, annotations, ...) from the DOM
if (catName == QLatin1String("pageList") && (loadWhat & LoadPageInfo)) {
QDomNode pageNode = topLevelNode.firstChild();
while (pageNode.isElement()) {
QDomElement pageElement = pageNode.toElement();
if (pageElement.hasAttribute(QStringLiteral("number"))) {
// get page number (node's attribute)
bool ok;
int pageNumber = pageElement.attribute(QStringLiteral("number")).toInt(&ok);
// pass the domElement to the right page, to read config data from
if (ok && pageNumber >= 0 && pageNumber < (int)m_pagesVector.count()) {
if (m_pagesVector[pageNumber]->d->restoreLocalContents(pageElement)) {
loadedAnything = true;
}
}
}
pageNode = pageNode.nextSibling();
}
}
// Restore 'general info' from the DOM
else if (catName == QLatin1String("generalInfo") && (loadWhat & LoadGeneralInfo)) {
QDomNode infoNode = topLevelNode.firstChild();
while (infoNode.isElement()) {
QDomElement infoElement = infoNode.toElement();
// restore viewports history
if (infoElement.tagName() == QLatin1String("history")) {
// clear history
m_viewportHistory.clear();
// append old viewports
QDomNode historyNode = infoNode.firstChild();
while (historyNode.isElement()) {
QDomElement historyElement = historyNode.toElement();
if (historyElement.hasAttribute(QStringLiteral("viewport"))) {
QString vpString = historyElement.attribute(QStringLiteral("viewport"));
m_viewportIterator = m_viewportHistory.insert(m_viewportHistory.end(), DocumentViewport(vpString));
loadedAnything = true;
}
historyNode = historyNode.nextSibling();
}
// consistency check
if (m_viewportHistory.empty()) {
m_viewportIterator = m_viewportHistory.insert(m_viewportHistory.end(), DocumentViewport());
}
} else if (infoElement.tagName() == QLatin1String("rotation")) {
QString str = infoElement.text();
bool ok = true;
int newrotation = !str.isEmpty() ? (str.toInt(&ok) % 4) : 0;
if (ok && newrotation != 0) {
setRotationInternal(newrotation, false);
loadedAnything = true;
}
} else if (infoElement.tagName() == QLatin1String("views")) {
QDomNode viewNode = infoNode.firstChild();
while (viewNode.isElement()) {
QDomElement viewElement = viewNode.toElement();
if (viewElement.tagName() == QLatin1String("view")) {
const QString viewName = viewElement.attribute(QStringLiteral("name"));
for (View *view : std::as_const(m_views)) {
if (view->name() == viewName) {
loadViewsInfo(view, viewElement);
loadedAnything = true;
break;
}
}
}
viewNode = viewNode.nextSibling();
}
}
infoNode = infoNode.nextSibling();
}
}
topLevelNode = topLevelNode.nextSibling();
} // </documentInfo>
return loadedAnything;
}
void DocumentPrivate::loadViewsInfo(View *view, const QDomElement &e)
{
QDomNode viewNode = e.firstChild();
while (viewNode.isElement()) {
QDomElement viewElement = viewNode.toElement();
if (viewElement.tagName() == QLatin1String("zoom")) {
const QString valueString = viewElement.attribute(QStringLiteral("value"));
bool newzoom_ok = true;
const double newzoom = !valueString.isEmpty() ? valueString.toDouble(&newzoom_ok) : 1.0;
if (newzoom_ok && newzoom != 0 && view->supportsCapability(View::Zoom) && (view->capabilityFlags(View::Zoom) & (View::CapabilityRead | View::CapabilitySerializable))) {
view->setCapability(View::Zoom, newzoom);
}
const QString modeString = viewElement.attribute(QStringLiteral("mode"));
bool newmode_ok = true;
const int newmode = !modeString.isEmpty() ? modeString.toInt(&newmode_ok) : 2;
if (newmode_ok && view->supportsCapability(View::ZoomModality) && (view->capabilityFlags(View::ZoomModality) & (View::CapabilityRead | View::CapabilitySerializable))) {
view->setCapability(View::ZoomModality, newmode);
}
} else if (viewElement.tagName() == QLatin1String("viewMode")) {
const QString modeString = viewElement.attribute(QStringLiteral("mode"));
bool newmode_ok = true;
const int newmode = !modeString.isEmpty() ? modeString.toInt(&newmode_ok) : 2;
if (newmode_ok && view->supportsCapability(View::ViewModeModality) && (view->capabilityFlags(View::ViewModeModality) & (View::CapabilityRead | View::CapabilitySerializable))) {
view->setCapability(View::ViewModeModality, newmode);
}
} else if (viewElement.tagName() == QLatin1String("continuous")) {
const QString modeString = viewElement.attribute(QStringLiteral("mode"));
bool newmode_ok = true;
const int newmode = !modeString.isEmpty() ? modeString.toInt(&newmode_ok) : 2;
if (newmode_ok && view->supportsCapability(View::Continuous) && (view->capabilityFlags(View::Continuous) & (View::CapabilityRead | View::CapabilitySerializable))) {
view->setCapability(View::Continuous, newmode);
}
} else if (viewElement.tagName() == QLatin1String("trimMargins")) {
const QString valueString = viewElement.attribute(QStringLiteral("value"));
bool newmode_ok = true;
const int newmode = !valueString.isEmpty() ? valueString.toInt(&newmode_ok) : 2;
if (newmode_ok && view->supportsCapability(View::TrimMargins) && (view->capabilityFlags(View::TrimMargins) & (View::CapabilityRead | View::CapabilitySerializable))) {
view->setCapability(View::TrimMargins, newmode);
}
}
viewNode = viewNode.nextSibling();
}
}
void DocumentPrivate::saveViewsInfo(View *view, QDomElement &e) const
{
if (view->supportsCapability(View::Zoom) && (view->capabilityFlags(View::Zoom) & (View::CapabilityRead | View::CapabilitySerializable)) && view->supportsCapability(View::ZoomModality) &&
(view->capabilityFlags(View::ZoomModality) & (View::CapabilityRead | View::CapabilitySerializable))) {
QDomElement zoomEl = e.ownerDocument().createElement(QStringLiteral("zoom"));
e.appendChild(zoomEl);
bool ok = true;
const double zoom = view->capability(View::Zoom).toDouble(&ok);
if (ok && zoom != 0) {
zoomEl.setAttribute(QStringLiteral("value"), QString::number(zoom));
}
const int mode = view->capability(View::ZoomModality).toInt(&ok);
if (ok) {
zoomEl.setAttribute(QStringLiteral("mode"), mode);
}
}
if (view->supportsCapability(View::Continuous) && (view->capabilityFlags(View::Continuous) & (View::CapabilityRead | View::CapabilitySerializable))) {
QDomElement contEl = e.ownerDocument().createElement(QStringLiteral("continuous"));
e.appendChild(contEl);
const bool mode = view->capability(View::Continuous).toBool();
contEl.setAttribute(QStringLiteral("mode"), mode);
}
if (view->supportsCapability(View::ViewModeModality) && (view->capabilityFlags(View::ViewModeModality) & (View::CapabilityRead | View::CapabilitySerializable))) {
QDomElement viewEl = e.ownerDocument().createElement(QStringLiteral("viewMode"));
e.appendChild(viewEl);
bool ok = true;
const int mode = view->capability(View::ViewModeModality).toInt(&ok);
if (ok) {
viewEl.setAttribute(QStringLiteral("mode"), mode);
}
}
if (view->supportsCapability(View::TrimMargins) && (view->capabilityFlags(View::TrimMargins) & (View::CapabilityRead | View::CapabilitySerializable))) {
QDomElement contEl = e.ownerDocument().createElement(QStringLiteral("trimMargins"));
e.appendChild(contEl);
const bool value = view->capability(View::TrimMargins).toBool();
contEl.setAttribute(QStringLiteral("value"), value);
}
}
QUrl DocumentPrivate::giveAbsoluteUrl(const QString &fileName) const
{
if (!QDir::isRelativePath(fileName)) {
return QUrl::fromLocalFile(fileName);
}
if (!m_url.isValid()) {
return QUrl();
}
return QUrl(KIO::upUrl(m_url).toString() + fileName);
}
bool DocumentPrivate::openRelativeFile(const QString &fileName)
{
const QUrl newUrl = giveAbsoluteUrl(fileName);
if (newUrl.isEmpty()) {
return false;
}
qCDebug(OkularCoreDebug).nospace() << "openRelativeFile: '" << newUrl << "'";
Q_EMIT m_parent->openUrl(newUrl);
return m_url == newUrl;
}
Generator *DocumentPrivate::loadGeneratorLibrary(const KPluginMetaData &service)
{
const auto result = KPluginFactory::instantiatePlugin<Okular::Generator>(service);
if (!result) {
qCWarning(OkularCoreDebug).nospace() << "Failed to load plugin " << service.fileName() << ": " << result.errorText;
return nullptr;
}
GeneratorInfo info(result.plugin, service);
m_loadedGenerators.insert(service.pluginId(), info);
return result.plugin;
}
void DocumentPrivate::loadAllGeneratorLibraries()
{
if (m_generatorsLoaded) {
return;
}
loadServiceList(availableGenerators());
m_generatorsLoaded = true;
}
void DocumentPrivate::loadServiceList(const QVector<KPluginMetaData> &offers)
{
int count = offers.count();
if (count <= 0) {
return;
}
for (int i = 0; i < count; ++i) {
QString id = offers.at(i).pluginId();
// don't load already loaded generators
QHash<QString, GeneratorInfo>::const_iterator genIt = m_loadedGenerators.constFind(id);
if (!m_loadedGenerators.isEmpty() && genIt != m_loadedGenerators.constEnd()) {
continue;
}
Generator *g = loadGeneratorLibrary(offers.at(i));
(void)g;
}
}
void DocumentPrivate::unloadGenerator(const GeneratorInfo &info)
{
delete info.generator;
}
void DocumentPrivate::cacheExportFormats()
{
if (m_exportCached) {
return;
}
const ExportFormat::List formats = m_generator->exportFormats();
for (int i = 0; i < formats.count(); ++i) {
if (formats.at(i).mimeType().name() == QLatin1String("text/plain")) {
m_exportToText = formats.at(i);
} else {
m_exportFormats.append(formats.at(i));
}
}
m_exportCached = true;
}
ConfigInterface *DocumentPrivate::generatorConfig(GeneratorInfo &info)
{
if (info.configChecked) {
return info.config;
}
info.config = qobject_cast<Okular::ConfigInterface *>(info.generator);
info.configChecked = true;
return info.config;
}
SaveInterface *DocumentPrivate::generatorSave(GeneratorInfo &info)
{
if (info.saveChecked) {
return info.save;
}
info.save = qobject_cast<Okular::SaveInterface *>(info.generator);
info.saveChecked = true;
return info.save;
}
Document::OpenResult DocumentPrivate::openDocumentInternal(const KPluginMetaData &offer, bool isstdin, const QString &docFile, const QByteArray &filedata, const QString &password)
{
QString propName = offer.pluginId();
QHash<QString, GeneratorInfo>::const_iterator genIt = m_loadedGenerators.constFind(propName);
m_walletGenerator = nullptr;
if (genIt != m_loadedGenerators.constEnd()) {
m_generator = genIt.value().generator;
} else {
m_generator = loadGeneratorLibrary(offer);
if (!m_generator) {
return Document::OpenError;
}
genIt = m_loadedGenerators.constFind(propName);
Q_ASSERT(genIt != m_loadedGenerators.constEnd());
}
Q_ASSERT_X(m_generator, "Document::load()", "null generator?!");
m_generator->d_func()->m_document = this;
// connect error reporting signals
m_openError.clear();
QMetaObject::Connection errorToOpenErrorConnection = QObject::connect(m_generator, &Generator::error, m_parent, [this](const QString &message) { m_openError = message; });
QObject::connect(m_generator, &Generator::warning, m_parent, &Document::warning);
QObject::connect(m_generator, &Generator::notice, m_parent, &Document::notice);
QApplication::setOverrideCursor(Qt::WaitCursor);
const QWindow *window = m_widget && m_widget->window() ? m_widget->window()->windowHandle() : nullptr;
const QSizeF dpi = Utils::realDpi(window);
qCDebug(OkularCoreDebug) << "Output DPI:" << dpi;
m_generator->setDPI(dpi);
Document::OpenResult openResult = Document::OpenError;
if (!isstdin) {
openResult = m_generator->loadDocumentWithPassword(docFile, m_pagesVector, password);
} else if (!filedata.isEmpty()) {
if (m_generator->hasFeature(Generator::ReadRawData)) {
openResult = m_generator->loadDocumentFromDataWithPassword(filedata, m_pagesVector, password);
} else {
m_tempFile = new QTemporaryFile();
if (!m_tempFile->open()) {
delete m_tempFile;
m_tempFile = nullptr;
} else {
m_tempFile->write(filedata);
QString tmpFileName = m_tempFile->fileName();
m_tempFile->close();
openResult = m_generator->loadDocumentWithPassword(tmpFileName, m_pagesVector, password);
}
}
}
QApplication::restoreOverrideCursor();
if (openResult != Document::OpenSuccess || m_pagesVector.size() <= 0) {
m_generator->d_func()->m_document = nullptr;
QObject::disconnect(m_generator, nullptr, m_parent, nullptr);
// TODO this is a bit of a hack, since basically means that
// you can only call walletDataForFile after calling openDocument
// but since in reality it's what happens I've decided not to refactor/break API
// One solution is just kill walletDataForFile and make OpenResult be an object
// where the wallet data is also returned when OpenNeedsPassword
m_walletGenerator = m_generator;
m_generator = nullptr;
qDeleteAll(m_pagesVector);
m_pagesVector.clear();
delete m_tempFile;
m_tempFile = nullptr;
// TODO: Q_EMIT a message telling the document is empty
if (openResult == Document::OpenSuccess) {
openResult = Document::OpenError;
}
} else {
/*
* Now that the documen is opened, the tab (if using tabs) is visible, which mean that
* we can now connect the error reporting signal directly to the parent
*/
QObject::disconnect(errorToOpenErrorConnection);
QObject::connect(m_generator, &Generator::error, m_parent, &Document::error);
}
return openResult;
}
bool DocumentPrivate::savePageDocumentInfo(QTemporaryFile *infoFile, int what) const
{
if (infoFile->open()) {
// 1. Create DOM
QDomDocument doc(QStringLiteral("documentInfo"));
QDomProcessingInstruction xmlPi = doc.createProcessingInstruction(QStringLiteral("xml"), QStringLiteral("version=\"1.0\" encoding=\"utf-8\""));
doc.appendChild(xmlPi);
QDomElement root = doc.createElement(QStringLiteral("documentInfo"));
doc.appendChild(root);
// 2.1. Save page attributes (bookmark state, annotations, ... ) to DOM
QDomElement pageList = doc.createElement(QStringLiteral("pageList"));
root.appendChild(pageList);
// <page list><page number='x'>.... </page> save pages that hold data
QVector<Page *>::const_iterator pIt = m_pagesVector.constBegin(), pEnd = m_pagesVector.constEnd();
for (; pIt != pEnd; ++pIt) {
(*pIt)->d->saveLocalContents(pageList, doc, PageItems(what));
}
// 3. Save DOM to XML file
QString xml = doc.toString();
QTextStream os(infoFile);
os.setEncoding(QStringConverter::Utf8);
os << xml;
return true;
}
return false;
}
DocumentViewport DocumentPrivate::nextDocumentViewport() const
{
DocumentViewport ret = m_nextDocumentViewport;
if (!m_nextDocumentDestination.isEmpty() && m_generator) {
DocumentViewport vp(m_parent->metaData(QStringLiteral("NamedViewport"), m_nextDocumentDestination).toString());
if (vp.isValid()) {
ret = vp;
}
}
return ret;
}
void DocumentPrivate::performAddPageAnnotation(int page, Annotation *annotation)
{
Okular::SaveInterface *iface = qobject_cast<Okular::SaveInterface *>(m_generator);
AnnotationProxy *proxy = iface ? iface->annotationProxy() : nullptr;
// find out the page to attach annotation
Page *kp = m_pagesVector[page];
if (!m_generator || !kp) {
return;
}
// the annotation belongs already to a page
if (annotation->d_ptr->m_page) {
return;
}
// add annotation to the page
kp->addAnnotation(annotation);
// tell the annotation proxy
if (proxy && proxy->supports(AnnotationProxy::Addition)) {
proxy->notifyAddition(annotation, page);
}
// notify observers about the change
notifyAnnotationChanges(page);
if (annotation->flags() & Annotation::ExternallyDrawn) {
// Redraw everything, including ExternallyDrawn annotations
refreshPixmaps(page);
}
}
void DocumentPrivate::performRemovePageAnnotation(int page, Annotation *annotation)
{
Okular::SaveInterface *iface = qobject_cast<Okular::SaveInterface *>(m_generator);
AnnotationProxy *proxy = iface ? iface->annotationProxy() : nullptr;
bool isExternallyDrawn;
// find out the page
Page *kp = m_pagesVector[page];
if (!m_generator || !kp) {
return;
}
if (annotation->flags() & Annotation::ExternallyDrawn) {
isExternallyDrawn = true;
} else {
isExternallyDrawn = false;
}
// try to remove the annotation
if (m_parent->canRemovePageAnnotation(annotation)) {
// tell the annotation proxy
if (proxy && proxy->supports(AnnotationProxy::Removal)) {
proxy->notifyRemoval(annotation, page);
}
kp->removeAnnotation(annotation); // Also destroys the object
// in case of success, notify observers about the change
notifyAnnotationChanges(page);
if (isExternallyDrawn) {
// Redraw everything, including ExternallyDrawn annotations
refreshPixmaps(page);
}
}
}
void DocumentPrivate::performModifyPageAnnotation(int page, Annotation *annotation, bool appearanceChanged)
{
Okular::SaveInterface *iface = qobject_cast<Okular::SaveInterface *>(m_generator);
AnnotationProxy *proxy = iface ? iface->annotationProxy() : nullptr;
// find out the page
const Page *kp = m_pagesVector[page];
if (!m_generator || !kp) {
return;
}
// tell the annotation proxy
if (proxy && proxy->supports(AnnotationProxy::Modification)) {
proxy->notifyModification(annotation, page, appearanceChanged);
}
// notify observers about the change
notifyAnnotationChanges(page);
if (appearanceChanged && (annotation->flags() & Annotation::ExternallyDrawn)) {
/* When an annotation is being moved, the generator will not render it.
* Therefore there's no need to refresh pixmaps after the first time */
if (annotation->flags() & (Annotation::BeingMoved | Annotation::BeingResized)) {
if (m_annotationBeingModified) {
return;
} else { // First time: take note
m_annotationBeingModified = true;
}
} else {
m_annotationBeingModified = false;
}
// Redraw everything, including ExternallyDrawn annotations
qCDebug(OkularCoreDebug) << "Refreshing Pixmaps";
refreshPixmaps(page);
}
}
void DocumentPrivate::performSetAnnotationContents(const QString &newContents, Annotation *annot, int pageNumber)
{
bool appearanceChanged = false;
// Check if appearanceChanged should be true
switch (annot->subType()) {
// If it's an in-place TextAnnotation, set the inplace text
case Okular::Annotation::AText: {
const Okular::TextAnnotation *txtann = static_cast<Okular::TextAnnotation *>(annot);
if (txtann->textType() == Okular::TextAnnotation::InPlace) {
appearanceChanged = true;
}
break;
}
// If it's a LineAnnotation, check if caption text is visible
case Okular::Annotation::ALine: {
const Okular::LineAnnotation *lineann = static_cast<Okular::LineAnnotation *>(annot);
if (lineann->showCaption()) {
appearanceChanged = true;
}
break;
}
default:
break;
}
// Set contents
annot->setContents(newContents);
// Tell the document the annotation has been modified
performModifyPageAnnotation(pageNumber, annot, appearanceChanged);
}
void DocumentPrivate::recalculateForms()
{
const QVariant fco = m_parent->metaData(QStringLiteral("FormCalculateOrder"));
const QVector<int> formCalculateOrder = fco.value<QVector<int>>();
for (int formId : formCalculateOrder) {
for (uint pageIdx = 0; pageIdx < m_parent->pages(); pageIdx++) {
const Page *p = m_parent->page(pageIdx);
if (p) {
bool pageNeedsRefresh = false;
const QList<Okular::FormField *> forms = p->formFields();
for (FormField *form : forms) {
if (form->id() == formId) {
const Action *action = form->additionalAction(FormField::CalculateField);
if (action) {
FormFieldText *fft = dynamic_cast<FormFieldText *>(form);
std::shared_ptr<Event> event;
QString oldVal;
if (fft) {
// Prepare text calculate event
event = Event::createFormCalculateEvent(fft, m_pagesVector[pageIdx]);
if (!m_scripter) {
m_scripter = new Scripter(this);
}
m_scripter->setEvent(event.get());
// The value maybe changed in javascript so save it first.
oldVal = fft->text();
}
m_parent->processAction(action);
if (event && fft) {
// Update text field from calculate
m_scripter->setEvent(nullptr);
const QString newVal = event->value().toString();
if (newVal != oldVal) {
fft->setText(newVal);
fft->setAppearanceText(newVal);
if (const Okular::Action *action = fft->additionalAction(Okular::FormField::FormatField)) {
// The format action handles the refresh.
m_parent->processFormatAction(action, fft);
} else {
Q_EMIT m_parent->refreshFormWidget(fft);
pageNeedsRefresh = true;
}
}
}
} else {
qWarning() << "Form that is part of calculate order doesn't have a calculate action";
}
}
}
if (pageNeedsRefresh) {
refreshPixmaps(p->number());
}
}
}
}
}
void DocumentPrivate::saveDocumentInfo() const
{
if (m_xmlFileName.isEmpty()) {
return;
}
QFile infoFile(m_xmlFileName);
qCDebug(OkularCoreDebug) << "About to save document info to" << m_xmlFileName;
if (!infoFile.open(QIODevice::WriteOnly | QIODevice::Truncate)) {
qCWarning(OkularCoreDebug) << "Failed to open docdata file" << m_xmlFileName;
return;
}
// 1. Create DOM
QDomDocument doc(QStringLiteral("documentInfo"));
QDomProcessingInstruction xmlPi = doc.createProcessingInstruction(QStringLiteral("xml"), QStringLiteral("version=\"1.0\" encoding=\"utf-8\""));
doc.appendChild(xmlPi);
QDomElement root = doc.createElement(QStringLiteral("documentInfo"));
root.setAttribute(QStringLiteral("url"), m_url.toDisplayString(QUrl::PreferLocalFile));
doc.appendChild(root);
// 2.1. Save page attributes (bookmark state, annotations, ... ) to DOM
// -> do this if there are not-yet-migrated annots or forms in docdata/
if (m_docdataMigrationNeeded) {
QDomElement pageList = doc.createElement(QStringLiteral("pageList"));
root.appendChild(pageList);
// OriginalAnnotationPageItems and OriginalFormFieldPageItems tell to
// store the same unmodified annotation list and form contents that we
// read when we opened the file and ignore any change made by the user.
// Since we don't store annotations and forms in docdata/ any more, this is
// necessary to preserve annotations/forms that previous Okular version
// had stored there.
const PageItems saveWhat = AllPageItems | OriginalAnnotationPageItems | OriginalFormFieldPageItems;
// <page list><page number='x'>.... </page> save pages that hold data
QVector<Page *>::const_iterator pIt = m_pagesVector.constBegin(), pEnd = m_pagesVector.constEnd();
for (; pIt != pEnd; ++pIt) {
(*pIt)->d->saveLocalContents(pageList, doc, saveWhat);
}
}
// 2.2. Save document info (current viewport, history, ... ) to DOM
QDomElement generalInfo = doc.createElement(QStringLiteral("generalInfo"));
root.appendChild(generalInfo);
// create rotation node
if (m_rotation != Rotation0) {
QDomElement rotationNode = doc.createElement(QStringLiteral("rotation"));
generalInfo.appendChild(rotationNode);
rotationNode.appendChild(doc.createTextNode(QString::number((int)m_rotation)));
}
// <general info><history> ... </history> save history up to OKULAR_HISTORY_SAVEDSTEPS viewports
const auto currentViewportIterator = std::list<DocumentViewport>::const_iterator(m_viewportIterator);
std::list<DocumentViewport>::const_iterator backIterator = currentViewportIterator;
if (backIterator != m_viewportHistory.end()) {
// go back up to OKULAR_HISTORY_SAVEDSTEPS steps from the current viewportIterator
int backSteps = OKULAR_HISTORY_SAVEDSTEPS;
while (backSteps-- && backIterator != m_viewportHistory.begin()) {
--backIterator;
}
// create history root node
QDomElement historyNode = doc.createElement(QStringLiteral("history"));
generalInfo.appendChild(historyNode);
// add old[backIterator] and present[viewportIterator] items
std::list<DocumentViewport>::const_iterator endIt = currentViewportIterator;
++endIt;
while (backIterator != endIt) {
QString name = (backIterator == currentViewportIterator) ? QStringLiteral("current") : QStringLiteral("oldPage");
QDomElement historyEntry = doc.createElement(name);
historyEntry.setAttribute(QStringLiteral("viewport"), (*backIterator).toString());
historyNode.appendChild(historyEntry);
++backIterator;
}
}
// create views root node
QDomElement viewsNode = doc.createElement(QStringLiteral("views"));
generalInfo.appendChild(viewsNode);
for (View *view : std::as_const(m_views)) {
QDomElement viewEntry = doc.createElement(QStringLiteral("view"));
viewEntry.setAttribute(QStringLiteral("name"), view->name());
viewsNode.appendChild(viewEntry);
saveViewsInfo(view, viewEntry);
}
// 3. Save DOM to XML file
QString xml = doc.toString();
QTextStream os(&infoFile);
os.setEncoding(QStringConverter::Utf8);
os << xml;
infoFile.close();
}
void DocumentPrivate::slotTimedMemoryCheck()
{
// [MEM] clean memory (for 'free mem dependent' profiles only)
if (SettingsCore::memoryLevel() != SettingsCore::EnumMemoryLevel::Low && m_allocatedPixmapsTotalMemory > 1024 * 1024) {
cleanupPixmapMemory();
}
}
void DocumentPrivate::sendGeneratorPixmapRequest()
{
/* If the pixmap cache will have to be cleaned in order to make room for the
* next request, get the distance from the current viewport of the page
* whose pixmap will be removed. We will ignore preload requests for pages
* that are at the same distance or farther */
const qulonglong memoryToFree = calculateMemoryToFree();
const int currentViewportPage = (*m_viewportIterator).pageNumber;
int maxDistance = INT_MAX; // Default: No maximum
if (memoryToFree) {
const AllocatedPixmap *pixmapToReplace = searchLowestPriorityPixmap(true);
if (pixmapToReplace) {
maxDistance = qAbs(pixmapToReplace->page - currentViewportPage);
}
}
// find a request
PixmapRequest *request = nullptr;
m_pixmapRequestsMutex.lock();
while (!m_pixmapRequestsStack.empty() && !request) {
PixmapRequest *r = m_pixmapRequestsStack.back();
if (!r) {
m_pixmapRequestsStack.pop_back();
continue;
}
QRect requestRect = r->isTile() ? r->normalizedRect().geometry(r->width(), r->height()) : QRect(0, 0, r->width(), r->height());
TilesManager *tilesManager = r->d->tilesManager();
const double normalizedArea = r->normalizedRect().width() * r->normalizedRect().height();
const QScreen *screen = nullptr;
if (m_widget) {
const QWindow *window = m_widget->window()->windowHandle();
if (window) {
screen = window->screen();
}
}
if (!screen) {
screen = QGuiApplication::primaryScreen();
}
const long screenSize = screen->devicePixelRatio() * screen->size().width() * screen->devicePixelRatio() * screen->size().height();
// Make sure the page is the right size to receive the pixmap
r->page()->setPageSize(r->observer(), r->width(), r->height());
// If it's a preload but the generator is not threaded no point in trying to preload
if (r->preload() && !m_generator->hasFeature(Generator::Threaded)) {
m_pixmapRequestsStack.pop_back();
delete r;
}
// request only if page isn't already present and request has valid id
else if ((!r->d->mForce && r->page()->hasPixmap(r->observer(), r->width(), r->height(), r->normalizedRect())) || !m_observers.contains(r->observer())) {
m_pixmapRequestsStack.pop_back();
delete r;
} else if (!r->d->mForce && r->preload() && qAbs(r->pageNumber() - currentViewportPage) >= maxDistance) {
m_pixmapRequestsStack.pop_back();
// qCDebug(OkularCoreDebug) << "Ignoring request that doesn't fit in cache";
delete r;
}
// Ignore requests for pixmaps that are already being generated
else if (tilesManager && tilesManager->isRequesting(r->normalizedRect(), r->width(), r->height())) {
m_pixmapRequestsStack.pop_back();
delete r;
}
// If the requested area is above 4*screenSize pixels, and we're not rendering most of the page, switch on the tile manager
else if (!tilesManager && m_generator->hasFeature(Generator::TiledRendering) && (long)r->width() * (long)r->height() > 4L * screenSize && normalizedArea < 0.75) {
// if the image is too big. start using tiles
qCDebug(OkularCoreDebug).nospace() << "Start using tiles on page " << r->pageNumber() << " (" << r->width() << "x" << r->height() << " px);";
// fill the tiles manager with the last rendered pixmap
const QPixmap *pixmap = r->page()->_o_nearestPixmap(r->observer(), r->width(), r->height());
if (pixmap) {
tilesManager = new TilesManager(r->pageNumber(), pixmap->width(), pixmap->height(), r->page()->rotation());
tilesManager->setPixmap(pixmap, NormalizedRect(0, 0, 1, 1), true /*isPartialPixmap*/);
tilesManager->setSize(r->width(), r->height());
} else {
// create new tiles manager
tilesManager = new TilesManager(r->pageNumber(), r->width(), r->height(), r->page()->rotation());
}
tilesManager->setRequest(r->normalizedRect(), r->width(), r->height());
r->page()->deletePixmap(r->observer());
r->page()->d->setTilesManager(r->observer(), tilesManager);
r->setTile(true);
// Change normalizedRect to the smallest rect that contains all
// visible tiles.
if (!r->normalizedRect().isNull()) {
NormalizedRect tilesRect;
const QList<Tile> tiles = tilesManager->tilesAt(r->normalizedRect(), TilesManager::TerminalTile);
QList<Tile>::const_iterator tIt = tiles.constBegin(), tEnd = tiles.constEnd();
while (tIt != tEnd) {
Tile tile = *tIt;
if (tilesRect.isNull()) {
tilesRect = tile.rect();
} else {
tilesRect |= tile.rect();
}
++tIt;
}
r->setNormalizedRect(tilesRect);
request = r;
} else {
// Discard request if normalizedRect is null. This happens in
// preload requests issued by PageView if the requested page is
// not visible and the user has just switched from a non-tiled
// zoom level to a tiled one
m_pixmapRequestsStack.pop_back();
delete r;
}
}
// If the requested area is below 3*screenSize pixels, switch off the tile manager
else if (tilesManager && (long)r->width() * (long)r->height() < 3L * screenSize) {
qCDebug(OkularCoreDebug).nospace() << "Stop using tiles on page " << r->pageNumber() << " (" << r->width() << "x" << r->height() << " px);";
// page is too small. stop using tiles.
r->page()->deletePixmap(r->observer());
r->setTile(false);
request = r;
} else if ((long)requestRect.width() * (long)requestRect.height() > 100L * screenSize && (SettingsCore::memoryLevel() != SettingsCore::EnumMemoryLevel::Greedy)) {
m_pixmapRequestsStack.pop_back();
if (!m_warnedOutOfMemory) {
qCWarning(OkularCoreDebug).nospace() << "Running out of memory on page " << r->pageNumber() << " (" << r->width() << "x" << r->height() << " px);";
qCWarning(OkularCoreDebug) << "this message will be reported only once.";
m_warnedOutOfMemory = true;
}
delete r;
} else {
request = r;
}
}
// if no request found (or already generated), return
if (!request) {
m_pixmapRequestsMutex.unlock();
return;
}
// [MEM] preventive memory freeing
qulonglong pixmapBytes = 0;
TilesManager *tm = request->d->tilesManager();
if (tm) {
pixmapBytes = tm->totalMemory();
} else {
pixmapBytes = 4 * request->width() * request->height();
}
if (pixmapBytes > (1024 * 1024)) {
cleanupPixmapMemory(memoryToFree /* previously calculated value */);
}
// submit the request to the generator
if (m_generator->canGeneratePixmap()) {
QRect requestRect = !request->isTile() ? QRect(0, 0, request->width(), request->height()) : request->normalizedRect().geometry(request->width(), request->height());
qCDebug(OkularCoreDebug).nospace() << "sending request observer=" << request->observer() << " " << requestRect.width() << "x" << requestRect.height() << "@" << request->pageNumber() << " async == " << request->asynchronous()
<< " isTile == " << request->isTile();
m_pixmapRequestsStack.remove(request);
if (tm) {
tm->setRequest(request->normalizedRect(), request->width(), request->height());
}
if ((int)m_rotation % 2) {
request->d->swap();
}
if (m_rotation != Rotation0 && !request->normalizedRect().isNull()) {
request->setNormalizedRect(TilesManager::fromRotatedRect(request->normalizedRect(), m_rotation));
}
// If set elsewhere we already know we want it to be partial
if (!request->partialUpdatesWanted()) {
request->setPartialUpdatesWanted(request->asynchronous() && !request->page()->hasPixmap(request->observer()));
}
// we always have to unlock _before_ the generatePixmap() because
// a sync generation would end with requestDone() -> deadlock, and
// we can not really know if the generator can do async requests
m_executingPixmapRequests.push_back(request);
m_pixmapRequestsMutex.unlock();
m_generator->generatePixmap(request);
} else {
m_pixmapRequestsMutex.unlock();
// pino (7/4/2006): set the polling interval from 10 to 30
QTimer::singleShot(30, m_parent, [this] { sendGeneratorPixmapRequest(); });
}
}
void DocumentPrivate::rotationFinished(int page, Okular::Page *okularPage)
{
const Okular::Page *wantedPage = m_pagesVector.value(page, nullptr);
if (!wantedPage || wantedPage != okularPage) {
return;
}
for (DocumentObserver *o : std::as_const(m_observers)) {
o->notifyPageChanged(page, DocumentObserver::Pixmap | DocumentObserver::Annotations);
}
}
void DocumentPrivate::slotFontReadingProgress(int page)
{
Q_EMIT m_parent->fontReadingProgress(page);
if (page >= (int)m_parent->pages() - 1) {
Q_EMIT m_parent->fontReadingEnded();
m_fontThread = nullptr;
m_fontsCached = true;
}
}
void DocumentPrivate::fontReadingGotFont(const Okular::FontInfo &font)
{
// Try to avoid duplicate fonts
if (m_fontsCache.indexOf(font) == -1) {
m_fontsCache.append(font);
Q_EMIT m_parent->gotFont(font);
}
}
void DocumentPrivate::slotGeneratorConfigChanged()
{
if (!m_generator) {
return;
}
// reparse generator config and if something changed clear Pages
bool configchanged = false;
QHash<QString, GeneratorInfo>::iterator it = m_loadedGenerators.begin(), itEnd = m_loadedGenerators.end();
for (; it != itEnd; ++it) {
Okular::ConfigInterface *iface = generatorConfig(it.value());
if (iface) {
bool it_changed = iface->reparseConfig();
if (it_changed && (m_generator == it.value().generator)) {
configchanged = true;
}
}
}
if (configchanged) {
// invalidate pixmaps
QVector<Page *>::const_iterator it = m_pagesVector.constBegin(), end = m_pagesVector.constEnd();
for (; it != end; ++it) {
(*it)->deletePixmaps();
}
// [MEM] remove allocation descriptors
qDeleteAll(m_allocatedPixmaps);
m_allocatedPixmaps.clear();
m_allocatedPixmapsTotalMemory = 0;
// send reload signals to observers
foreachObserverD(notifyContentsCleared(DocumentObserver::Pixmap));
}
// free memory if in 'low' profile
if (SettingsCore::memoryLevel() == SettingsCore::EnumMemoryLevel::Low && !m_allocatedPixmaps.empty() && !m_pagesVector.isEmpty()) {
cleanupPixmapMemory();
}
}
void DocumentPrivate::refreshPixmaps(int pageNumber)
{
Page *page = m_pagesVector.value(pageNumber, nullptr);
if (!page) {
return;
}
QMap<DocumentObserver *, PagePrivate::PixmapObject>::ConstIterator it = page->d->m_pixmaps.constBegin(), itEnd = page->d->m_pixmaps.constEnd();
QVector<Okular::PixmapRequest *> pixmapsToRequest;
for (; it != itEnd; ++it) {
const QSize size = (*it).m_pixmap->size();
PixmapRequest *p = new PixmapRequest(it.key(), pageNumber, size.width(), size.height(), 1 /* dpr */, 1, PixmapRequest::Asynchronous);
p->d->mForce = true;
pixmapsToRequest << p;
}
// Need to do this ↑↓ in two steps since requestPixmaps can end up calling cancelRenderingBecauseOf
// which changes m_pixmaps and thus breaks the loop above
for (PixmapRequest *pr : std::as_const(pixmapsToRequest)) {
QList<Okular::PixmapRequest *> requestedPixmaps;
requestedPixmaps.push_back(pr);
m_parent->requestPixmaps(requestedPixmaps, Okular::Document::NoOption);
}
for (DocumentObserver *observer : std::as_const(m_observers)) {
QList<Okular::PixmapRequest *> requestedPixmaps;
TilesManager *tilesManager = page->d->tilesManager(observer);
if (tilesManager) {
tilesManager->markDirty();
PixmapRequest *p = new PixmapRequest(observer, pageNumber, tilesManager->width(), tilesManager->height(), 1 /* dpr */, 1, PixmapRequest::Asynchronous);
// Get the visible page rect
NormalizedRect visibleRect;
QVector<Okular::VisiblePageRect *>::const_iterator vIt = m_pageRects.constBegin(), vEnd = m_pageRects.constEnd();
for (; vIt != vEnd; ++vIt) {
if ((*vIt)->pageNumber == pageNumber) {
visibleRect = (*vIt)->rect;
break;
}
}
if (!visibleRect.isNull()) {
p->setNormalizedRect(visibleRect);
p->setTile(true);
p->d->mForce = true;
requestedPixmaps.push_back(p);
} else {
delete p;
}
}
m_parent->requestPixmaps(requestedPixmaps, Okular::Document::NoOption);
}
}
void DocumentPrivate::_o_configChanged()
{
// free text pages if needed
calculateMaxTextPages();
while (m_allocatedTextPagesFifo.count() > m_maxAllocatedTextPages) {
int pageToKick = m_allocatedTextPagesFifo.takeFirst();
m_pagesVector.at(pageToKick)->setTextPage(nullptr); // deletes the textpage
}
}
void DocumentPrivate::doContinueDirectionMatchSearch(void *doContinueDirectionMatchSearchStruct)
{
DoContinueDirectionMatchSearchStruct *searchStruct = static_cast<DoContinueDirectionMatchSearchStruct *>(doContinueDirectionMatchSearchStruct);
RunningSearch *search = m_searches.value(searchStruct->searchID);
if ((m_searchCancelled && !searchStruct->match) || !search) {
// if the user cancelled but he just got a match, give him the match!
QApplication::restoreOverrideCursor();
if (search) {
search->isCurrentlySearching = false;
}
Q_EMIT m_parent->searchFinished(searchStruct->searchID, Document::SearchCancelled);
delete searchStruct->pagesToNotify;
delete searchStruct;
return;
}
const bool forward = search->cachedType == Document::NextMatch;
bool doContinue = false;
// if no match found, loop through the whole doc, starting from currentPage
if (!searchStruct->match) {
const int pageCount = m_pagesVector.count();
if (search->pagesDone < pageCount) {
doContinue = true;
if (searchStruct->currentPage >= pageCount) {
searchStruct->currentPage = 0;
Q_EMIT m_parent->notice(i18n("Continuing search from beginning"), 3000);
} else if (searchStruct->currentPage < 0) {
searchStruct->currentPage = pageCount - 1;
Q_EMIT m_parent->notice(i18n("Continuing search from bottom"), 3000);
}
}
}
if (doContinue) {
// get page
const Page *page = m_pagesVector[searchStruct->currentPage];
// request search page if needed
if (!page->hasTextPage()) {
m_parent->requestTextPage(page->number());
}
// if found a match on the current page, end the loop
searchStruct->match = page->findText(searchStruct->searchID, search->cachedString, forward ? FromTop : FromBottom, search->cachedCaseSensitivity);
if (!searchStruct->match) {
if (forward) {
searchStruct->currentPage++;
} else {
searchStruct->currentPage--;
}
search->pagesDone++;
} else {
search->pagesDone = 1;
}
// Both of the previous if branches need to call doContinueDirectionMatchSearch
QTimer::singleShot(0, m_parent, [this, searchStruct] { doContinueDirectionMatchSearch(searchStruct); });
} else {
doProcessSearchMatch(searchStruct->match, search, searchStruct->pagesToNotify, searchStruct->currentPage, searchStruct->searchID, search->cachedViewportMove, search->cachedColor);
delete searchStruct;
}
}
void DocumentPrivate::doProcessSearchMatch(RegularAreaRect *match, RunningSearch *search, QSet<int> *pagesToNotify, int currentPage, int searchID, bool moveViewport, const QColor &color)
{
// reset cursor to previous shape
QApplication::restoreOverrideCursor();
bool foundAMatch = false;
search->isCurrentlySearching = false;
// if a match has been found..
if (match) {
// update the RunningSearch structure adding this match..
foundAMatch = true;
search->continueOnPage = currentPage;
search->continueOnMatch = *match;
search->highlightedPages.insert(currentPage);
// ..add highlight to the page..
m_pagesVector[currentPage]->d->setHighlight(searchID, match, color);
// ..queue page for notifying changes..
pagesToNotify->insert(currentPage);
// Create a normalized rectangle around the search match that includes a 5% buffer on all sides.
const Okular::NormalizedRect matchRectWithBuffer = Okular::NormalizedRect(match->first().left - 0.05, match->first().top - 0.05, match->first().right + 0.05, match->first().bottom + 0.05);
const bool matchRectFullyVisible = isNormalizedRectangleFullyVisible(matchRectWithBuffer, currentPage);
// ..move the viewport to show the first of the searched word sequence centered
if (moveViewport && !matchRectFullyVisible) {
DocumentViewport searchViewport(currentPage);
searchViewport.rePos.enabled = true;
searchViewport.rePos.normalizedX = (match->first().left + match->first().right) / 2.0;
searchViewport.rePos.normalizedY = (match->first().top + match->first().bottom) / 2.0;
m_parent->setViewport(searchViewport, nullptr, true);
}
delete match;
}
// notify observers about highlights changes
for (int pageNumber : std::as_const(*pagesToNotify)) {
for (DocumentObserver *observer : std::as_const(m_observers)) {
observer->notifyPageChanged(pageNumber, DocumentObserver::Highlights);
}
}
if (foundAMatch) {
Q_EMIT m_parent->searchFinished(searchID, Document::MatchFound);
} else {
Q_EMIT m_parent->searchFinished(searchID, Document::NoMatchFound);
}
delete pagesToNotify;
}
void DocumentPrivate::doContinueAllDocumentSearch(void *pagesToNotifySet, void *pageMatchesMap, int currentPage, int searchID)
{
QMap<Page *, QVector<RegularAreaRect *>> *pageMatches = static_cast<QMap<Page *, QVector<RegularAreaRect *>> *>(pageMatchesMap);
QSet<int> *pagesToNotify = static_cast<QSet<int> *>(pagesToNotifySet);
RunningSearch *search = m_searches.value(searchID);
if (m_searchCancelled || !search) {
typedef QVector<RegularAreaRect *> MatchesVector;
QApplication::restoreOverrideCursor();
if (search) {
search->isCurrentlySearching = false;
}
Q_EMIT m_parent->searchFinished(searchID, Document::SearchCancelled);
for (const MatchesVector &mv : std::as_const(*pageMatches)) {
qDeleteAll(mv);
}
delete pageMatches;
delete pagesToNotify;
return;
}
if (currentPage < m_pagesVector.count()) {
// get page (from the first to the last)
Page *page = m_pagesVector.at(currentPage);
int pageNumber = page->number(); // redundant? is it == currentPage ?
// request search page if needed
if (!page->hasTextPage()) {
m_parent->requestTextPage(pageNumber);
}
// loop on a page adding highlights for all found items
RegularAreaRect *lastMatch = nullptr;
while (true) {
if (lastMatch) {
lastMatch = page->findText(searchID, search->cachedString, NextResult, search->cachedCaseSensitivity, lastMatch);
} else {
lastMatch = page->findText(searchID, search->cachedString, FromTop, search->cachedCaseSensitivity);
}
if (!lastMatch) {
break;
}
// add highlight rect to the matches map
(*pageMatches)[page].append(lastMatch);
}
delete lastMatch;
QTimer::singleShot(0, m_parent, [this, pagesToNotifySet, pageMatches, currentPage, searchID] { doContinueAllDocumentSearch(pagesToNotifySet, pageMatches, currentPage + 1, searchID); });
} else {
// reset cursor to previous shape
QApplication::restoreOverrideCursor();
search->isCurrentlySearching = false;
bool foundAMatch = pageMatches->count() != 0;
QMap<Page *, QVector<RegularAreaRect *>>::const_iterator it, itEnd;
it = pageMatches->constBegin();
itEnd = pageMatches->constEnd();
for (; it != itEnd; ++it) {
for (RegularAreaRect *match : it.value()) {
it.key()->d->setHighlight(searchID, match, search->cachedColor);
delete match;
}
search->highlightedPages.insert(it.key()->number());
pagesToNotify->insert(it.key()->number());
}
for (DocumentObserver *observer : std::as_const(m_observers)) {
observer->notifySetup(m_pagesVector, 0);
}
// notify observers about highlights changes
for (int pageNumber : std::as_const(*pagesToNotify)) {
for (DocumentObserver *observer : std::as_const(m_observers)) {
observer->notifyPageChanged(pageNumber, DocumentObserver::Highlights);
}
}
if (foundAMatch) {
Q_EMIT m_parent->searchFinished(searchID, Document::MatchFound);
} else {
Q_EMIT m_parent->searchFinished(searchID, Document::NoMatchFound);
}
delete pageMatches;
delete pagesToNotify;
}
}
void DocumentPrivate::doContinueGooglesDocumentSearch(void *pagesToNotifySet, void *pageMatchesMap, int currentPage, int searchID, const QStringList &words)
{
typedef QPair<RegularAreaRect *, QColor> MatchColor;
QMap<Page *, QVector<MatchColor>> *pageMatches = static_cast<QMap<Page *, QVector<MatchColor>> *>(pageMatchesMap);
QSet<int> *pagesToNotify = static_cast<QSet<int> *>(pagesToNotifySet);
RunningSearch *search = m_searches.value(searchID);
if (m_searchCancelled || !search) {
typedef QVector<MatchColor> MatchesVector;
QApplication::restoreOverrideCursor();
if (search) {
search->isCurrentlySearching = false;
}
Q_EMIT m_parent->searchFinished(searchID, Document::SearchCancelled);
for (const MatchesVector &mv : std::as_const(*pageMatches)) {
for (const MatchColor &mc : mv) {
delete mc.first;
}
}
delete pageMatches;
delete pagesToNotify;
return;
}
const int wordCount = words.count();
const int hueStep = (wordCount > 1) ? (60 / (wordCount - 1)) : 60;
int baseHue, baseSat, baseVal;
search->cachedColor.getHsv(&baseHue, &baseSat, &baseVal);
if (currentPage < m_pagesVector.count()) {
// get page (from the first to the last)
Page *page = m_pagesVector.at(currentPage);
int pageNumber = page->number(); // redundant? is it == currentPage ?
// request search page if needed
if (!page->hasTextPage()) {
m_parent->requestTextPage(pageNumber);
}
// loop on a page adding highlights for all found items
bool allMatched = wordCount > 0, anyMatched = false;
for (int w = 0; w < wordCount; w++) {
const QString &word = words[w];
int newHue = baseHue - w * hueStep;
if (newHue < 0) {
newHue += 360;
}
QColor wordColor = QColor::fromHsv(newHue, baseSat, baseVal);
RegularAreaRect *lastMatch = nullptr;
// add all highlights for current word
bool wordMatched = false;
while (true) {
if (lastMatch) {
lastMatch = page->findText(searchID, word, NextResult, search->cachedCaseSensitivity, lastMatch);
} else {
lastMatch = page->findText(searchID, word, FromTop, search->cachedCaseSensitivity);
}
if (!lastMatch) {
break;
}
// add highligh rect to the matches map
(*pageMatches)[page].append(MatchColor(lastMatch, wordColor));
wordMatched = true;
}
allMatched = allMatched && wordMatched;
anyMatched = anyMatched || wordMatched;
}
// if not all words are present in page, remove partial highlights
const bool matchAll = search->cachedType == Document::GoogleAll;
if (!allMatched && matchAll) {
const QVector<MatchColor> &matches = (*pageMatches)[page];
for (const MatchColor &mc : matches) {
delete mc.first;
}
pageMatches->remove(page);
}
QTimer::singleShot(0, m_parent, [this, pagesToNotifySet, pageMatches, currentPage, searchID, words] { doContinueGooglesDocumentSearch(pagesToNotifySet, pageMatches, currentPage + 1, searchID, words); });
} else {
// reset cursor to previous shape
QApplication::restoreOverrideCursor();
search->isCurrentlySearching = false;
bool foundAMatch = pageMatches->count() != 0;
QMap<Page *, QVector<MatchColor>>::const_iterator it, itEnd;
it = pageMatches->constBegin();
itEnd = pageMatches->constEnd();
for (; it != itEnd; ++it) {
for (const MatchColor &mc : it.value()) {
it.key()->d->setHighlight(searchID, mc.first, mc.second);
delete mc.first;
}
search->highlightedPages.insert(it.key()->number());
pagesToNotify->insert(it.key()->number());
}
// send page lists to update observers (since some filter on bookmarks)
for (DocumentObserver *observer : std::as_const(m_observers)) {
observer->notifySetup(m_pagesVector, 0);
}
// notify observers about highlights changes
for (int pageNumber : std::as_const(*pagesToNotify)) {
for (DocumentObserver *observer : std::as_const(m_observers)) {
observer->notifyPageChanged(pageNumber, DocumentObserver::Highlights);
}
}
if (foundAMatch) {
Q_EMIT m_parent->searchFinished(searchID, Document::MatchFound);
} else {
Q_EMIT m_parent->searchFinished(searchID, Document::NoMatchFound);
}
delete pageMatches;
delete pagesToNotify;
}
}
QVariant DocumentPrivate::documentMetaData(const Generator::DocumentMetaDataKey key, const QVariant &option) const
{
switch (key) {
case Generator::PaperColorMetaData: {
bool giveDefault = option.toBool();
QColor color;
if ((SettingsCore::renderMode() == SettingsCore::EnumRenderMode::Paper) && SettingsCore::changeColors()) {
color = SettingsCore::paperColor();
} else if (giveDefault) {
color = Qt::white;
}
return color;
} break;
case Generator::TextAntialiasMetaData:
switch (SettingsCore::textAntialias()) {
case SettingsCore::EnumTextAntialias::Enabled:
return true;
break;
case SettingsCore::EnumTextAntialias::Disabled:
return false;
break;
}
break;
case Generator::GraphicsAntialiasMetaData:
switch (SettingsCore::graphicsAntialias()) {
case SettingsCore::EnumGraphicsAntialias::Enabled:
return true;
break;
case SettingsCore::EnumGraphicsAntialias::Disabled:
return false;
break;
}
break;
case Generator::TextHintingMetaData:
switch (SettingsCore::textHinting()) {
case SettingsCore::EnumTextHinting::Enabled:
return true;
break;
case SettingsCore::EnumTextHinting::Disabled:
return false;
break;
}
break;
}
return QVariant();
}
bool DocumentPrivate::isNormalizedRectangleFullyVisible(const Okular::NormalizedRect &rectOfInterest, int rectPage)
{
bool rectFullyVisible = false;
const QVector<Okular::VisiblePageRect *> &visibleRects = m_parent->visiblePageRects();
QVector<Okular::VisiblePageRect *>::const_iterator vEnd = visibleRects.end();
QVector<Okular::VisiblePageRect *>::const_iterator vIt = visibleRects.begin();
for (; (vIt != vEnd) && !rectFullyVisible; ++vIt) {
if ((*vIt)->pageNumber == rectPage && (*vIt)->rect.contains(rectOfInterest.left, rectOfInterest.top) && (*vIt)->rect.contains(rectOfInterest.right, rectOfInterest.bottom)) {
rectFullyVisible = true;
}
}
return rectFullyVisible;
}
struct pdfsyncpoint {
QString file;
qlonglong x;
qlonglong y;
int row;
int column;
int page;
};
void DocumentPrivate::loadSyncFile(const QString &filePath)
{
QFile f(filePath + QLatin1String("sync"));
if (!f.open(QIODevice::ReadOnly)) {
return;
}
QTextStream ts(&f);
// first row: core name of the pdf output
const QString coreName = ts.readLine();
// second row: version string, in the form 'Version %u'
const QString versionstr = ts.readLine();
// anchor the pattern with \A and \z to match the entire subject string
// TODO: with Qt 5.12 QRegularExpression::anchoredPattern() can be used instead
static QRegularExpression versionre(QStringLiteral("\\AVersion \\d+\\z"), QRegularExpression::CaseInsensitiveOption);
QRegularExpressionMatch match = versionre.match(versionstr);
if (!match.hasMatch()) {
return;
}
QHash<int, pdfsyncpoint> points;
QStack<QString> fileStack;
int currentpage = -1;
const QLatin1String texStr(".tex");
const QChar spaceChar = QChar::fromLatin1(' ');
fileStack.push(coreName + texStr);
const QSizeF dpi = m_generator->dpi();
QString line;
while (!ts.atEnd()) {
line = ts.readLine();
const QStringList tokens = line.split(spaceChar, Qt::SkipEmptyParts);
const int tokenSize = tokens.count();
if (tokenSize < 1) {
continue;
}
if (tokens.first() == QLatin1String("l") && tokenSize >= 3) {
int id = tokens.at(1).toInt();
QHash<int, pdfsyncpoint>::const_iterator it = points.constFind(id);
if (it == points.constEnd()) {
pdfsyncpoint pt;
pt.x = 0;
pt.y = 0;
pt.row = tokens.at(2).toInt();
pt.column = 0; // TODO
pt.page = -1;
pt.file = fileStack.top();
points[id] = pt;
}
} else if (tokens.first() == QLatin1String("s") && tokenSize >= 2) {
currentpage = tokens.at(1).toInt() - 1;
} else if (tokens.first() == QLatin1String("p*") && tokenSize >= 4) {
// TODO
qCDebug(OkularCoreDebug) << "PdfSync: 'p*' line ignored";
} else if (tokens.first() == QLatin1String("p") && tokenSize >= 4) {
int id = tokens.at(1).toInt();
QHash<int, pdfsyncpoint>::iterator it = points.find(id);
if (it != points.end()) {
it->x = tokens.at(2).toInt();
it->y = tokens.at(3).toInt();
it->page = currentpage;
}
} else if (line.startsWith(QLatin1Char('(')) && tokenSize == 1) {
QString newfile = line;
// chop the leading '('
newfile.remove(0, 1);
if (!newfile.endsWith(texStr)) {
newfile += texStr;
}
fileStack.push(newfile);
} else if (line == QLatin1String(")")) {
if (!fileStack.isEmpty()) {
fileStack.pop();
} else {
qCDebug(OkularCoreDebug) << "PdfSync: going one level down too much";
}
} else {
qCDebug(OkularCoreDebug).nospace() << "PdfSync: unknown line format: '" << line << "'";
}
}
QVector<QList<Okular::SourceRefObjectRect *>> refRects(m_pagesVector.size());
for (const pdfsyncpoint &pt : std::as_const(points)) {
// drop pdfsync points not completely valid
if (pt.page < 0 || pt.page >= m_pagesVector.size()) {
continue;
}
// magic numbers for TeX's RSU's (Ridiculously Small Units) conversion to pixels
Okular::NormalizedPoint p((pt.x * dpi.width()) / (72.27 * 65536.0 * m_pagesVector[pt.page]->width()), (pt.y * dpi.height()) / (72.27 * 65536.0 * m_pagesVector[pt.page]->height()));
QString file = pt.file;
Okular::SourceReference *sourceRef = new Okular::SourceReference(file, pt.row, pt.column);
refRects[pt.page].append(new Okular::SourceRefObjectRect(p, sourceRef));
}
for (int i = 0; i < refRects.size(); ++i) {
if (!refRects.at(i).isEmpty()) {
m_pagesVector[i]->setSourceReferences(refRects.at(i));
}
}
}
void DocumentPrivate::clearAndWaitForRequests()
{
m_pixmapRequestsMutex.lock();
std::list<PixmapRequest *>::const_iterator sIt = m_pixmapRequestsStack.begin();
std::list<PixmapRequest *>::const_iterator sEnd = m_pixmapRequestsStack.end();
for (; sIt != sEnd; ++sIt) {
delete *sIt;
}
m_pixmapRequestsStack.clear();
m_pixmapRequestsMutex.unlock();
QEventLoop loop;
bool startEventLoop = false;
do {
m_pixmapRequestsMutex.lock();
startEventLoop = !m_executingPixmapRequests.empty();
if (m_generator->hasFeature(Generator::SupportsCancelling)) {
for (PixmapRequest *executingRequest : std::as_const(m_executingPixmapRequests)) {
executingRequest->d->mShouldAbortRender = 1;
}
if (m_generator->d_ptr->mTextPageGenerationThread) {
m_generator->d_ptr->mTextPageGenerationThread->abortExtraction();
}
}
m_pixmapRequestsMutex.unlock();
if (startEventLoop) {
m_closingLoop = &loop;
loop.exec();
m_closingLoop = nullptr;
}
} while (startEventLoop);
}
int DocumentPrivate::findFieldPageNumber(Okular::FormField *field)
{
// Lookup the page of the FormField
int foundPage = -1;
for (uint pageIdx = 0, nPages = m_parent->pages(); pageIdx < nPages; pageIdx++) {
const Page *p = m_parent->page(pageIdx);
if (p && p->formFields().contains(field)) {
foundPage = static_cast<int>(pageIdx);
break;
}
}
return foundPage;
}
void DocumentPrivate::executeScriptEvent(const std::shared_ptr<Event> &event, const Okular::ScriptAction *linkscript)
{
if (!m_scripter) {
m_scripter = new Scripter(this);
}
m_scripter->setEvent(event.get());
m_scripter->execute(linkscript->scriptType(), linkscript->script());
// Clear out the event after execution
m_scripter->setEvent(nullptr);
}
Document::Document(QWidget *widget)
: QObject(nullptr)
, d(new DocumentPrivate(this))
{
d->m_widget = widget;
d->m_bookmarkManager = new BookmarkManager(d);
d->m_viewportIterator = d->m_viewportHistory.insert(d->m_viewportHistory.end(), DocumentViewport());
d->m_undoStack = new QUndoStack(this);
connect(SettingsCore::self(), &SettingsCore::configChanged, this, [this] { d->_o_configChanged(); });
connect(d->m_undoStack, &QUndoStack::canUndoChanged, this, &Document::canUndoChanged);
connect(d->m_undoStack, &QUndoStack::canRedoChanged, this, &Document::canRedoChanged);
connect(d->m_undoStack, &QUndoStack::cleanChanged, this, &Document::undoHistoryCleanChanged);
qRegisterMetaType<Okular::FontInfo>();
}
Document::~Document()
{
// delete generator, pages, and related stuff
closeDocument();
QSet<View *>::const_iterator viewIt = d->m_views.constBegin(), viewEnd = d->m_views.constEnd();
for (; viewIt != viewEnd; ++viewIt) {
View *v = *viewIt;
v->d_func()->document = nullptr;
}
// delete the bookmark manager
delete d->m_bookmarkManager;
// delete the loaded generators
QHash<QString, GeneratorInfo>::const_iterator it = d->m_loadedGenerators.constBegin(), itEnd = d->m_loadedGenerators.constEnd();
for (; it != itEnd; ++it) {
d->unloadGenerator(it.value());
}
d->m_loadedGenerators.clear();
// delete the private structure
delete d;
}
QString DocumentPrivate::docDataFileName(const QUrl &url, qint64 document_size)
{
QString fn = url.fileName();
fn = QString::number(document_size) + QLatin1Char('.') + fn + QStringLiteral(".xml");
QString docdataDir = QStandardPaths::writableLocation(QStandardPaths::GenericDataLocation) + QStringLiteral("/okular/docdata");
// make sure that the okular/docdata/ directory exists (probably this used to be handled by KStandardDirs)
if (!QFileInfo::exists(docdataDir)) {
qCDebug(OkularCoreDebug) << "creating docdata folder" << docdataDir;
QDir().mkpath(docdataDir);
}
QString newokularfile = docdataDir + QLatin1Char('/') + fn;
return newokularfile;
}
QVector<KPluginMetaData> DocumentPrivate::availableGenerators()
{
static QVector<KPluginMetaData> result;
if (result.isEmpty()) {
result = KPluginMetaData::findPlugins(QStringLiteral("okular_generators"));
}
return result;
}
KPluginMetaData DocumentPrivate::generatorForMimeType(const QMimeType &type, QWidget *widget, const QVector<KPluginMetaData> &triedOffers)
{
// First try to find an exact match, and then look for more general ones (e. g. the plain text one)
// Ideally we would rank these by "closeness", but that might be overdoing it
const QVector<KPluginMetaData> available = availableGenerators();
QVector<KPluginMetaData> offers;
QVector<KPluginMetaData> exactMatches;
QMimeDatabase mimeDatabase;
for (const KPluginMetaData &md : available) {
if (triedOffers.contains(md)) {
continue;
}
const QStringList mimetypes = md.mimeTypes();
for (const QString &supported : mimetypes) {
QMimeType mimeType = mimeDatabase.mimeTypeForName(supported);
if (mimeType == type && !exactMatches.contains(md)) {
exactMatches << md;
}
if (type.inherits(supported) && !offers.contains(md)) {
offers << md;
}
}
}
if (!exactMatches.isEmpty()) {
offers = exactMatches;
}
if (offers.isEmpty()) {
return KPluginMetaData();
}
int hRank = 0;
// best ranked offer search
int offercount = offers.size();
if (offercount > 1) {
// sort the offers: the offers with an higher priority come before
auto cmp = [](const KPluginMetaData &s1, const KPluginMetaData &s2) {
const QString property = QStringLiteral("X-KDE-Priority");
return s1.rawData().value(property).toInt() > s2.rawData().value(property).toInt();
};
std::stable_sort(offers.begin(), offers.end(), cmp);
if (SettingsCore::chooseGenerators()) {
QStringList list;
for (int i = 0; i < offercount; ++i) {
list << offers.at(i).pluginId();
}
ChooseEngineDialog choose(list, type, widget);
if (choose.exec() == QDialog::Rejected) {
return KPluginMetaData();
}
hRank = choose.selectedGenerator();
}
}
Q_ASSERT(hRank < offers.size());
return offers.at(hRank);
}
Document::OpenResult Document::openDocument(const QString &docFile, const QUrl &url, const QMimeType &_mime, const QString &password)
{
QMimeDatabase db;
QMimeType mime = _mime;
QByteArray filedata;
int fd = -1;
if (url.scheme() == QLatin1String("fd")) {
bool ok;
fd = QStringView {url.path()}.mid(1).toInt(&ok);
if (!ok) {
return OpenError;
}
} else if (url.fileName() == QLatin1String("-")) {
fd = 0;
}
bool triedMimeFromFileContent = false;
if (fd < 0) {
if (!mime.isValid()) {
return OpenError;
}
d->m_url = url;
d->m_docFileName = docFile;
if (!d->updateMetadataXmlNameAndDocSize()) {
return OpenError;
}
} else {
QFile qstdin;
const bool ret = qstdin.open(fd, QIODevice::ReadOnly, QFileDevice::AutoCloseHandle);
if (!ret) {
qWarning() << "failed to read" << url << filedata;
return OpenError;
}
filedata = qstdin.readAll();
mime = db.mimeTypeForData(filedata);
if (!mime.isValid() || mime.isDefault()) {
return OpenError;
}
d->m_docSize = filedata.size();
triedMimeFromFileContent = true;
}
const bool fromFileDescriptor = fd >= 0;
// 0. load Generator
// request only valid non-disabled plugins suitable for the mimetype
KPluginMetaData offer = DocumentPrivate::generatorForMimeType(mime, d->m_widget);
if (!offer.isValid() && !triedMimeFromFileContent) {
QMimeType newmime = db.mimeTypeForFile(docFile, QMimeDatabase::MatchContent);
triedMimeFromFileContent = true;
if (newmime != mime) {
mime = newmime;
offer = DocumentPrivate::generatorForMimeType(mime, d->m_widget);
}
if (!offer.isValid()) {
// There's still no offers, do a final mime search based on the filename
// We need this because sometimes (e.g. when downloading from a webserver) the mimetype we
// use is the one fed by the server, that may be wrong
newmime = db.mimeTypeForUrl(url);
if (!newmime.isDefault() && newmime != mime) {
mime = newmime;
offer = DocumentPrivate::generatorForMimeType(mime, d->m_widget);
}
}
}
if (!offer.isValid()) {
d->m_openError = i18n("Can not find a plugin which is able to handle the document being passed.");
Q_EMIT error(d->m_openError, -1);
qCWarning(OkularCoreDebug).nospace() << "No plugin for mimetype '" << mime.name() << "'.";
return OpenError;
}
// 1. load Document
OpenResult openResult = d->openDocumentInternal(offer, fromFileDescriptor, docFile, filedata, password);
if (openResult == OpenError) {
QVector<KPluginMetaData> triedOffers;
triedOffers << offer;
offer = DocumentPrivate::generatorForMimeType(mime, d->m_widget, triedOffers);
while (offer.isValid()) {
openResult = d->openDocumentInternal(offer, fromFileDescriptor, docFile, filedata, password);
if (openResult == OpenError) {
triedOffers << offer;
offer = DocumentPrivate::generatorForMimeType(mime, d->m_widget, triedOffers);
} else {
break;
}
}
if (openResult == OpenError && !triedMimeFromFileContent) {
QMimeType newmime = db.mimeTypeForFile(docFile, QMimeDatabase::MatchContent);
triedMimeFromFileContent = true;
if (newmime != mime) {
mime = newmime;
offer = DocumentPrivate::generatorForMimeType(mime, d->m_widget, triedOffers);
while (offer.isValid()) {
openResult = d->openDocumentInternal(offer, fromFileDescriptor, docFile, filedata, password);
if (openResult == OpenError) {
triedOffers << offer;
offer = DocumentPrivate::generatorForMimeType(mime, d->m_widget, triedOffers);
} else {
break;
}
}
}
}
if (openResult == OpenSuccess) {
// Clear errors, since we're trying various generators, maybe one of them errored out
// but we finally succeeded
// TODO one can still see the error message animating out but since this is a very rare
// condition we can leave this for future work
Q_EMIT error(QString(), -1);
}
}
if (openResult != OpenSuccess) {
return openResult;
}
// no need to check for the existence of a synctex file, no parser will be
// created if none exists
d->m_synctex_scanner = synctex_scanner_new_with_output_file(QFile::encodeName(docFile).constData(), nullptr, 1);
if (!d->m_synctex_scanner && QFile::exists(docFile + QLatin1String("sync"))) {
d->loadSyncFile(docFile);
}
d->m_generatorName = offer.pluginId();
d->m_pageController = new PageController();
connect(d->m_pageController, &PageController::rotationFinished, this, [this](int p, Okular::Page *op) { d->rotationFinished(p, op); });
for (Page *p : std::as_const(d->m_pagesVector)) {
p->d->m_doc = d;
}
d->m_docdataMigrationNeeded = false;
// 2. load Additional Data (bookmarks, local annotations and metadata) about the document
if (d->m_archiveData) {
// QTemporaryFile is weird and will return false in exists if fileName wasn't called before
d->m_archiveData->metadataFile.fileName();
d->loadDocumentInfo(d->m_archiveData->metadataFile, LoadPageInfo);
d->loadDocumentInfo(LoadGeneralInfo);
} else {
if (d->loadDocumentInfo(LoadPageInfo)) {
d->m_docdataMigrationNeeded = true;
}
d->loadDocumentInfo(LoadGeneralInfo);
}
d->m_bookmarkManager->setUrl(d->m_url);
// 3. setup observers internal lists and data
foreachObserver(notifySetup(d->m_pagesVector, DocumentObserver::DocumentChanged | DocumentObserver::UrlChanged));
// 4. set initial page (restoring the page saved in xml if loaded)
DocumentViewport loadedViewport = (*d->m_viewportIterator);
if (loadedViewport.isValid()) {
(*d->m_viewportIterator) = DocumentViewport();
if (loadedViewport.pageNumber >= (int)d->m_pagesVector.size()) {
loadedViewport.pageNumber = d->m_pagesVector.size() - 1;
}
} else {
loadedViewport.pageNumber = 0;
}
setViewport(loadedViewport);
// start bookmark saver timer
if (!d->m_saveBookmarksTimer) {
d->m_saveBookmarksTimer = new QTimer(this);
connect(d->m_saveBookmarksTimer, &QTimer::timeout, this, [this] { d->saveDocumentInfo(); });
}
d->m_saveBookmarksTimer->start(5 * 60 * 1000);
// start memory check timer
if (!d->m_memCheckTimer) {
d->m_memCheckTimer = new QTimer(this);
connect(d->m_memCheckTimer, &QTimer::timeout, this, [this] { d->slotTimedMemoryCheck(); });
}
d->m_memCheckTimer->start(kMemCheckTime);
const DocumentViewport nextViewport = d->nextDocumentViewport();
if (nextViewport.isValid()) {
setViewport(nextViewport);
d->m_nextDocumentViewport = DocumentViewport();
d->m_nextDocumentDestination = QString();
}
AudioPlayer::instance()->setDocument(fromFileDescriptor ? QUrl() : d->m_url, this);
const QStringList docScripts = d->m_generator->metaData(QStringLiteral("DocumentScripts"), QStringLiteral("JavaScript")).toStringList();
if (!docScripts.isEmpty()) {
d->m_scripter = new Scripter(d);
for (const QString &docscript : docScripts) {
const Okular::ScriptAction *linkScript = new Okular::ScriptAction(Okular::JavaScript, docscript);
std::shared_ptr<Event> event = Event::createDocEvent(Event::DocOpen);
d->executeScriptEvent(event, linkScript);
}
}
return OpenSuccess;
}
bool DocumentPrivate::updateMetadataXmlNameAndDocSize()
{
// m_docFileName is always local so we can use QFileInfo on it
QFileInfo fileReadTest(m_docFileName);
if (!fileReadTest.isFile() && !fileReadTest.isReadable()) {
return false;
}
m_docSize = fileReadTest.size();
// determine the related "xml document-info" filename
if (m_url.isLocalFile()) {
const QString filePath = docDataFileName(m_url, m_docSize);
qCDebug(OkularCoreDebug) << "Metadata file is now:" << filePath;
m_xmlFileName = filePath;
} else {
qCDebug(OkularCoreDebug) << "Metadata file: disabled";
m_xmlFileName = QString();
}
return true;
}
KXMLGUIClient *Document::guiClient()
{
if (d->m_generator) {
Okular::GuiInterface *iface = qobject_cast<Okular::GuiInterface *>(d->m_generator);
if (iface) {
return iface->guiClient();
}
}
return nullptr;
}
void Document::closeDocument()
{
// check if there's anything to close...
if (!d->m_generator) {
return;
}
Q_EMIT aboutToClose();
delete d->m_pageController;
d->m_pageController = nullptr;
delete d->m_scripter;
d->m_scripter = nullptr;
// remove requests left in queue
d->clearAndWaitForRequests();
if (d->m_fontThread) {
disconnect(d->m_fontThread, nullptr, this, nullptr);
d->m_fontThread->stopExtraction();
d->m_fontThread->wait();
d->m_fontThread = nullptr;
}
// stop any audio playback
AudioPlayer::instance()->stopPlaybacks();
// close the current document and save document info if a document is still opened
if (d->m_generator && d->m_pagesVector.size() > 0) {
d->saveDocumentInfo();
// free the content of the opaque backend actions (if any)
// this is a bit awkward since backends can store "random stuff" in the
// BackendOpaqueAction nativeId qvariant so we need to tell them to free it
// ideally we would just do that in the BackendOpaqueAction destructor
// but that's too late in the cleanup process, i.e. the generator has already closed its document
// and the document generator is nullptr
for (const Page *p : std::as_const(d->m_pagesVector)) {
const QList<ObjectRect *> &oRects = p->objectRects();
for (const ObjectRect *oRect : oRects) {
if (oRect->objectType() == ObjectRect::Action) {
const Action *a = static_cast<const Action *>(oRect->object());
const BackendOpaqueAction *backendAction = dynamic_cast<const BackendOpaqueAction *>(a);
if (backendAction) {
d->m_generator->freeOpaqueActionContents(*backendAction);
}
}
}
const QList<FormField *> forms = p->formFields();
for (const FormField *form : forms) {
const QList<Action *> additionalActions = form->additionalActions();
for (const Action *a : additionalActions) {
const BackendOpaqueAction *backendAction = dynamic_cast<const BackendOpaqueAction *>(a);
if (backendAction) {
d->m_generator->freeOpaqueActionContents(*backendAction);
}
}
}
}
d->m_generator->closeDocument();
}
if (d->m_synctex_scanner) {
synctex_scanner_free(d->m_synctex_scanner);
d->m_synctex_scanner = nullptr;
}
// stop timers
if (d->m_memCheckTimer) {
d->m_memCheckTimer->stop();
}
if (d->m_saveBookmarksTimer) {
d->m_saveBookmarksTimer->stop();
}
if (d->m_generator) {
// disconnect the generator from this document ...
d->m_generator->d_func()->m_document = nullptr;
// .. and this document from the generator signals
disconnect(d->m_generator, nullptr, this, nullptr);
QHash<QString, GeneratorInfo>::const_iterator genIt = d->m_loadedGenerators.constFind(d->m_generatorName);
Q_ASSERT(genIt != d->m_loadedGenerators.constEnd());
}
d->m_generator = nullptr;
d->m_generatorName = QString();
d->m_url = QUrl();
d->m_walletGenerator = nullptr;
d->m_docFileName = QString();
d->m_xmlFileName = QString();
delete d->m_tempFile;
d->m_tempFile = nullptr;
delete d->m_archiveData;
d->m_archiveData = nullptr;
d->m_docSize = -1;
d->m_exportCached = false;
d->m_exportFormats.clear();
d->m_exportToText = ExportFormat();
d->m_fontsCached = false;
d->m_fontsCache.clear();
d->m_rotation = Rotation0;
// send an empty list to observers (to free their data)
foreachObserver(notifySetup(QVector<Page *>(), DocumentObserver::DocumentChanged | DocumentObserver::UrlChanged));
// delete pages and clear 'd->m_pagesVector' container
QVector<Page *>::const_iterator pIt = d->m_pagesVector.constBegin();
QVector<Page *>::const_iterator pEnd = d->m_pagesVector.constEnd();
for (; pIt != pEnd; ++pIt) {
delete *pIt;
}
d->m_pagesVector.clear();
// clear 'memory allocation' descriptors
qDeleteAll(d->m_allocatedPixmaps);
d->m_allocatedPixmaps.clear();
// clear 'running searches' descriptors
QMap<int, RunningSearch *>::const_iterator rIt = d->m_searches.constBegin();
QMap<int, RunningSearch *>::const_iterator rEnd = d->m_searches.constEnd();
for (; rIt != rEnd; ++rIt) {
delete *rIt;
}
d->m_searches.clear();
// clear the visible areas and notify the observers
QVector<VisiblePageRect *>::const_iterator vIt = d->m_pageRects.constBegin();
QVector<VisiblePageRect *>::const_iterator vEnd = d->m_pageRects.constEnd();
for (; vIt != vEnd; ++vIt) {
delete *vIt;
}
d->m_pageRects.clear();
foreachObserver(notifyVisibleRectsChanged());
// reset internal variables
d->m_viewportHistory.clear();
d->m_viewportHistory.emplace_back();
d->m_viewportIterator = d->m_viewportHistory.begin();
d->m_allocatedPixmapsTotalMemory = 0;
d->m_allocatedTextPagesFifo.clear();
d->m_pageSize = PageSize();
d->m_pageSizes.clear();
d->m_documentInfo = DocumentInfo();
d->m_documentInfoAskedKeys.clear();
AudioPlayer::instance()->resetDocument();
d->m_undoStack->clear();
d->m_docdataMigrationNeeded = false;
#if HAVE_MALLOC_TRIM
// trim unused memory, glibc should do this but it seems it does not
// this can greatly decrease the [perceived] memory consumption of okular
// see: https://sourceware.org/bugzilla/show_bug.cgi?id=14827
malloc_trim(0);
#endif
}
void Document::addObserver(DocumentObserver *pObserver)
{
Q_ASSERT(!d->m_observers.contains(pObserver));
d->m_observers << pObserver;
// if the observer is added while a document is already opened, tell it
if (!d->m_pagesVector.isEmpty()) {
pObserver->notifySetup(d->m_pagesVector, DocumentObserver::DocumentChanged | DocumentObserver::UrlChanged);
pObserver->notifyViewportChanged(false /*disables smoothMove*/);
}
}
void Document::removeObserver(DocumentObserver *pObserver)
{
// remove observer from the set. it won't receive notifications anymore
if (d->m_observers.contains(pObserver)) {
// free observer's pixmap data
QVector<Page *>::const_iterator it = d->m_pagesVector.constBegin(), end = d->m_pagesVector.constEnd();
for (; it != end; ++it) {
(*it)->deletePixmap(pObserver);
}
// [MEM] free observer's allocation descriptors
std::list<AllocatedPixmap *>::iterator aIt = d->m_allocatedPixmaps.begin();
std::list<AllocatedPixmap *>::iterator aEnd = d->m_allocatedPixmaps.end();
while (aIt != aEnd) {
AllocatedPixmap *p = *aIt;
if (p->observer == pObserver) {
aIt = d->m_allocatedPixmaps.erase(aIt);
delete p;
} else {
++aIt;
}
}
for (PixmapRequest *executingRequest : std::as_const(d->m_executingPixmapRequests)) {
if (executingRequest->observer() == pObserver) {
d->cancelRenderingBecauseOf(executingRequest, nullptr);
}
}
// remove observer entry from the set
d->m_observers.remove(pObserver);
}
}
void Document::reparseConfig()
{
// reparse generator config and if something changed clear Pages
bool configchanged = false;
if (d->m_generator) {
Okular::ConfigInterface *iface = qobject_cast<Okular::ConfigInterface *>(d->m_generator);
if (iface) {
configchanged = iface->reparseConfig();
}
}
if (configchanged) {
// invalidate pixmaps
QVector<Page *>::const_iterator it = d->m_pagesVector.constBegin(), end = d->m_pagesVector.constEnd();
for (; it != end; ++it) {
(*it)->deletePixmaps();
}
// [MEM] remove allocation descriptors
qDeleteAll(d->m_allocatedPixmaps);
d->m_allocatedPixmaps.clear();
d->m_allocatedPixmapsTotalMemory = 0;
// send reload signals to observers
foreachObserver(notifyContentsCleared(DocumentObserver::Pixmap));
}
// free memory if in 'low' profile
if (SettingsCore::memoryLevel() == SettingsCore::EnumMemoryLevel::Low && !d->m_allocatedPixmaps.empty() && !d->m_pagesVector.isEmpty()) {
d->cleanupPixmapMemory();
}
}
bool Document::isOpened() const
{
return d->m_generator;
}
bool Document::canConfigurePrinter() const
{
if (d->m_generator) {
const Okular::PrintInterface *iface = qobject_cast<Okular::PrintInterface *>(d->m_generator);
return iface ? true : false;
} else {
return false;
}
}
bool Document::sign(const NewSignatureData &data, const QString &newPath)
{
if (d->m_generator->canSign()) {
return d->m_generator->sign(data, newPath);
} else {
return false;
}
}
Okular::CertificateStore *Document::certificateStore() const
{
return d->m_generator ? d->m_generator->certificateStore() : nullptr;
}
void Document::setEditorCommandOverride(const QString &editCmd)
{
d->editorCommandOverride = editCmd;
}
QString Document::editorCommandOverride() const
{
return d->editorCommandOverride;
}
DocumentInfo Document::documentInfo() const
{
QSet<DocumentInfo::Key> keys;
for (Okular::DocumentInfo::Key ks = Okular::DocumentInfo::Title; ks < Okular::DocumentInfo::Invalid; ks = Okular::DocumentInfo::Key(ks + 1)) {
keys << ks;
}
return documentInfo(keys);
}
DocumentInfo Document::documentInfo(const QSet<DocumentInfo::Key> &keys) const
{
DocumentInfo result = d->m_documentInfo;
const QSet<DocumentInfo::Key> missingKeys = keys - d->m_documentInfoAskedKeys;
if (d->m_generator && !missingKeys.isEmpty()) {
DocumentInfo info = d->m_generator->generateDocumentInfo(missingKeys);
if (missingKeys.contains(DocumentInfo::FilePath)) {
info.set(DocumentInfo::FilePath, currentDocument().toDisplayString());
}
if (d->m_docSize != -1 && missingKeys.contains(DocumentInfo::DocumentSize)) {
const QString sizeString = KFormat().formatByteSize(d->m_docSize);
info.set(DocumentInfo::DocumentSize, sizeString);
}
if (missingKeys.contains(DocumentInfo::PagesSize)) {
const QString pagesSize = d->pagesSizeString();
if (!pagesSize.isEmpty()) {
info.set(DocumentInfo::PagesSize, pagesSize);
}
}
if (missingKeys.contains(DocumentInfo::Pages) && info.get(DocumentInfo::Pages).isEmpty()) {
info.set(DocumentInfo::Pages, QString::number(this->pages()));
}
d->m_documentInfo.d->values.insert(info.d->values);
d->m_documentInfo.d->titles.insert(info.d->titles);
result.d->values.insert(info.d->values);
result.d->titles.insert(info.d->titles);
}
d->m_documentInfoAskedKeys += keys;
return result;
}
const DocumentSynopsis *Document::documentSynopsis() const
{
return d->m_generator ? d->m_generator->generateDocumentSynopsis() : nullptr;
}
void Document::startFontReading()
{
if (!d->m_generator || !d->m_generator->hasFeature(Generator::FontInfo) || d->m_fontThread) {
return;
}
if (d->m_fontsCached) {
// in case we have cached fonts, simulate a reading
// this way the API is the same, and users no need to care about the
// internal caching
for (int i = 0; i < d->m_fontsCache.count(); ++i) {
Q_EMIT gotFont(d->m_fontsCache.at(i));
Q_EMIT fontReadingProgress(i / pages());
}
Q_EMIT fontReadingEnded();
return;
}
d->m_fontThread = new FontExtractionThread(d->m_generator, pages());
connect(d->m_fontThread, &FontExtractionThread::gotFont, this, [this](const Okular::FontInfo &f) { d->fontReadingGotFont(f); });
connect(d->m_fontThread.data(), &FontExtractionThread::progress, this, [this](int p) { d->slotFontReadingProgress(p); });
d->m_fontThread->startExtraction(/*d->m_generator->hasFeature( Generator::Threaded )*/ true);
}
void Document::stopFontReading()
{
if (!d->m_fontThread) {
return;
}
disconnect(d->m_fontThread, nullptr, this, nullptr);
d->m_fontThread->stopExtraction();
d->m_fontThread = nullptr;
d->m_fontsCache.clear();
}
bool Document::canProvideFontInformation() const
{
return d->m_generator ? d->m_generator->hasFeature(Generator::FontInfo) : false;
}
bool Document::canSign() const
{
return d->m_generator ? d->m_generator->canSign() : false;
}
const QList<EmbeddedFile *> *Document::embeddedFiles() const
{
return d->m_generator ? d->m_generator->embeddedFiles() : nullptr;
}
const Page *Document::page(int n) const
{
return (n >= 0 && n < d->m_pagesVector.count()) ? d->m_pagesVector.at(n) : nullptr;
}
const DocumentViewport &Document::viewport() const
{
return (*d->m_viewportIterator);
}
const QVector<VisiblePageRect *> &Document::visiblePageRects() const
{
return d->m_pageRects;
}
void Document::setVisiblePageRects(const QVector<VisiblePageRect *> &visiblePageRects, DocumentObserver *excludeObserver)
{
QVector<VisiblePageRect *>::const_iterator vIt = d->m_pageRects.constBegin();
QVector<VisiblePageRect *>::const_iterator vEnd = d->m_pageRects.constEnd();
for (; vIt != vEnd; ++vIt) {
delete *vIt;
}
d->m_pageRects = visiblePageRects;
// notify change to all other (different from id) observers
for (DocumentObserver *o : std::as_const(d->m_observers)) {
if (o != excludeObserver) {
o->notifyVisibleRectsChanged();
}
}
}
uint Document::currentPage() const
{
return (*d->m_viewportIterator).pageNumber;
}
uint Document::pages() const
{
return d->m_pagesVector.size();
}
QUrl Document::currentDocument() const
{
return d->m_url;
}
bool Document::isAllowed(Permission action) const
{
if (action == Okular::AllowNotes && (d->m_docdataMigrationNeeded || !d->m_annotationEditingEnabled)) {
return false;
}
if (action == Okular::AllowFillForms && d->m_docdataMigrationNeeded) {
return false;
}
#if !OKULAR_FORCE_DRM
if (KAuthorized::authorize(QStringLiteral("skip_drm")) && !SettingsCore::obeyDRM()) {
return true;
}
#endif
return d->m_generator ? d->m_generator->isAllowed(action) : false;
}
bool Document::supportsSearching() const
{
return d->m_generator ? d->m_generator->hasFeature(Generator::TextExtraction) : false;
}
bool Document::supportsPageSizes() const
{
return d->m_generator ? d->m_generator->hasFeature(Generator::PageSizes) : false;
}
bool Document::supportsTiles() const
{
return d->m_generator ? d->m_generator->hasFeature(Generator::TiledRendering) : false;
}
PageSize::List Document::pageSizes() const
{
if (d->m_generator) {
if (d->m_pageSizes.isEmpty()) {
d->m_pageSizes = d->m_generator->pageSizes();
}
return d->m_pageSizes;
}
return PageSize::List();
}
bool Document::canExportToText() const
{
if (!d->m_generator) {
return false;
}
d->cacheExportFormats();
return !d->m_exportToText.isNull();
}
bool Document::exportToText(const QString &fileName) const
{
if (!d->m_generator) {
return false;
}
d->cacheExportFormats();
if (d->m_exportToText.isNull()) {
return false;
}
return d->m_generator->exportTo(fileName, d->m_exportToText);
}
ExportFormat::List Document::exportFormats() const
{
if (!d->m_generator) {
return ExportFormat::List();
}
d->cacheExportFormats();
return d->m_exportFormats;
}
bool Document::exportTo(const QString &fileName, const ExportFormat &format) const
{
return d->m_generator ? d->m_generator->exportTo(fileName, format) : false;
}
bool Document::historyAtBegin() const
{
return d->m_viewportIterator == d->m_viewportHistory.begin();
}
bool Document::historyAtEnd() const
{
return d->m_viewportIterator == --(d->m_viewportHistory.end());
}
QVariant Document::metaData(const QString &key, const QVariant &option) const
{
// if option starts with "src:" assume that we are handling a
// source reference
if (key == QLatin1String("NamedViewport") && option.toString().startsWith(QLatin1String("src:"), Qt::CaseInsensitive) && d->m_synctex_scanner) {
const QString reference = option.toString();
// The reference is of form "src:1111Filename", where "1111"
// points to line number 1111 in the file "Filename".
// Extract the file name and the numeral part from the reference string.
// This will fail if Filename starts with a digit.
QString name, lineString;
// Remove "src:". Presence of substring has been checked before this
// function is called.
name = reference.mid(4);
// split
int nameLength = name.length();
int i = 0;
for (i = 0; i < nameLength; ++i) {
if (!name[i].isDigit()) {
break;
}
}
lineString = name.left(i);
name = name.mid(i);
// Remove spaces.
name = name.trimmed();
lineString = lineString.trimmed();
// Convert line to integer.
bool ok;
int line = lineString.toInt(&ok);
if (!ok) {
line = -1;
}
// Use column == -1 for now.
if (synctex_display_query(d->m_synctex_scanner, QFile::encodeName(name).constData(), line, -1, 0) > 0) {
synctex_node_p node;
// For now use the first hit. Could possibly be made smarter
// in case there are multiple hits.
while ((node = synctex_scanner_next_result(d->m_synctex_scanner))) {
Okular::DocumentViewport viewport;
// TeX pages start at 1.
viewport.pageNumber = synctex_node_page(node) - 1;
if (viewport.pageNumber >= 0) {
const QSizeF dpi = d->m_generator->dpi();
// TeX small points ...
double px = (synctex_node_visible_h(node) * dpi.width()) / 72.27;
double py = (synctex_node_visible_v(node) * dpi.height()) / 72.27;
viewport.rePos.normalizedX = px / page(viewport.pageNumber)->width();
viewport.rePos.normalizedY = (py + 0.5) / page(viewport.pageNumber)->height();
viewport.rePos.enabled = true;
viewport.rePos.pos = Okular::DocumentViewport::Center;
return viewport.toString();
}
}
}
}
return d->m_generator ? d->m_generator->metaData(key, option) : QVariant();
}
Rotation Document::rotation() const
{
return d->m_rotation;
}
QSizeF Document::allPagesSize() const
{
bool allPagesSameSize = true;
QSizeF size;
for (int i = 0; allPagesSameSize && i < d->m_pagesVector.count(); ++i) {
const Page *p = d->m_pagesVector.at(i);
if (i == 0) {
size = QSizeF(p->width(), p->height());
} else {
allPagesSameSize = (size == QSizeF(p->width(), p->height()));
}
}
if (allPagesSameSize) {
return size;
} else {
return QSizeF();
}
}
QString Document::pageSizeString(int page) const
{
if (d->m_generator) {
if (d->m_generator->pagesSizeMetric() != Generator::None) {
const Page *p = d->m_pagesVector.at(page);
return d->localizedSize(QSizeF(p->width(), p->height()));
}
}
return QString();
}
static bool shouldCancelRenderingBecauseOf(const PixmapRequest &executingRequest, const PixmapRequest &otherRequest)
{
// New request has higher priority -> cancel
if (executingRequest.priority() > otherRequest.priority()) {
return true;
}
// New request has lower priority -> don't cancel
if (executingRequest.priority() < otherRequest.priority()) {
return false;
}
// New request has same priority and is from a different observer -> don't cancel
// AFAIK this never happens since all observers have different priorities
if (executingRequest.observer() != otherRequest.observer()) {
return false;
}
// Same priority and observer, different page number -> don't cancel
// may still end up cancelled later in the parent caller if none of the requests
// is of the executingRequest page and RemoveAllPrevious is specified
if (executingRequest.pageNumber() != otherRequest.pageNumber()) {
return false;
}
// Same priority, observer, page, different size -> cancel
if (executingRequest.width() != otherRequest.width()) {
return true;
}
// Same priority, observer, page, different size -> cancel
if (executingRequest.height() != otherRequest.height()) {
return true;
}
// Same priority, observer, page, different tiling -> cancel
if (executingRequest.isTile() != otherRequest.isTile()) {
return true;
}
// Same priority, observer, page, different tiling -> cancel
if (executingRequest.isTile()) {
const NormalizedRect bothRequestsRect = executingRequest.normalizedRect() | otherRequest.normalizedRect();
if (!(bothRequestsRect == executingRequest.normalizedRect())) {
return true;
}
}
return false;
}
bool DocumentPrivate::cancelRenderingBecauseOf(PixmapRequest *executingRequest, PixmapRequest *newRequest)
{
// No point in aborting the rendering already finished, let it go through
if (!executingRequest->d->mResultImage.isNull()) {
return false;
}
if (newRequest && newRequest->asynchronous() && executingRequest->partialUpdatesWanted()) {
newRequest->setPartialUpdatesWanted(true);
}
TilesManager *tm = executingRequest->d->tilesManager();
if (tm) {
tm->setPixmap(nullptr, executingRequest->normalizedRect(), true /*isPartialPixmap*/);
tm->setRequest(NormalizedRect(), 0, 0);
}
PagePrivate::PixmapObject object = executingRequest->page()->d->m_pixmaps.take(executingRequest->observer());
delete object.m_pixmap;
if (executingRequest->d->mShouldAbortRender != 0) {
return false;
}
executingRequest->d->mShouldAbortRender = 1;
if (m_generator->d_ptr->mTextPageGenerationThread && m_generator->d_ptr->mTextPageGenerationThread->page() == executingRequest->page()) {
m_generator->d_ptr->mTextPageGenerationThread->abortExtraction();
}
return true;
}
void Document::requestPixmaps(const QList<PixmapRequest *> &requests)
{
requestPixmaps(requests, RemoveAllPrevious);
}
void Document::requestPixmaps(const QList<PixmapRequest *> &requests, PixmapRequestFlags reqOptions)
{
if (requests.isEmpty()) {
return;
}
if (!d->m_pageController) {
// delete requests..
qDeleteAll(requests);
// ..and return
return;
}
QSet<DocumentObserver *> observersPixmapCleared;
// 1. [CLEAN STACK] remove previous requests of requesterID
const DocumentObserver *requesterObserver = requests.first()->observer();
QSet<int> requestedPages;
{
for (const PixmapRequest *request : requests) {
Q_ASSERT(request->observer() == requesterObserver);
requestedPages.insert(request->pageNumber());
}
}
const bool removeAllPrevious = reqOptions & RemoveAllPrevious;
d->m_pixmapRequestsMutex.lock();
std::list<PixmapRequest *>::iterator sIt = d->m_pixmapRequestsStack.begin(), sEnd = d->m_pixmapRequestsStack.end();
while (sIt != sEnd) {
if ((*sIt)->observer() == requesterObserver && (removeAllPrevious || requestedPages.contains((*sIt)->pageNumber()))) {
// delete request and remove it from stack
delete *sIt;
sIt = d->m_pixmapRequestsStack.erase(sIt);
} else {
++sIt;
}
}
// 1.B [PREPROCESS REQUESTS] tweak some values of the requests
for (PixmapRequest *request : requests) {
// set the 'page field' (see PixmapRequest) and check if it is valid
qCDebug(OkularCoreDebug).nospace() << "request observer=" << request->observer() << " " << request->width() << "x" << request->height() << "@" << request->pageNumber();
if (d->m_pagesVector.value(request->pageNumber()) == nullptr) {
// skip requests referencing an invalid page (must not happen)
delete request;
continue;
}
request->d->mPage = d->m_pagesVector.value(request->pageNumber());
if (request->isTile()) {
// Change the current request rect so that only invalid tiles are
// requested. Also make sure the rect is tile-aligned.
NormalizedRect tilesRect;
const QList<Tile> tiles = request->d->tilesManager()->tilesAt(request->normalizedRect(), TilesManager::TerminalTile);
QList<Tile>::const_iterator tIt = tiles.constBegin(), tEnd = tiles.constEnd();
while (tIt != tEnd) {
const Tile &tile = *tIt;
if (!tile.isValid()) {
if (tilesRect.isNull()) {
tilesRect = tile.rect();
} else {
tilesRect |= tile.rect();
}
}
tIt++;
}
request->setNormalizedRect(tilesRect);
}
if (!request->asynchronous()) {
request->d->mPriority = 0;
}
}
// 1.C [CANCEL REQUESTS] cancel those requests that are running and should be cancelled because of the new requests coming in
if (d->m_generator->hasFeature(Generator::SupportsCancelling)) {
for (PixmapRequest *executingRequest : std::as_const(d->m_executingPixmapRequests)) {
bool newRequestsContainExecutingRequestPage = false;
bool requestCancelled = false;
for (PixmapRequest *newRequest : requests) {
if (newRequest->pageNumber() == executingRequest->pageNumber() && requesterObserver == executingRequest->observer()) {
newRequestsContainExecutingRequestPage = true;
}
if (shouldCancelRenderingBecauseOf(*executingRequest, *newRequest)) {
requestCancelled = d->cancelRenderingBecauseOf(executingRequest, newRequest);
}
}
// If we were told to remove all the previous requests and the executing request page is not part of the new requests, cancel it
if (!requestCancelled && removeAllPrevious && requesterObserver == executingRequest->observer() && !newRequestsContainExecutingRequestPage) {
requestCancelled = d->cancelRenderingBecauseOf(executingRequest, nullptr);
}
if (requestCancelled) {
observersPixmapCleared << executingRequest->observer();
}
}
}
// 2. [ADD TO STACK] add requests to stack
for (PixmapRequest *request : requests) {
// add request to the 'stack' at the right place
if (!request->priority()) {
// add priority zero requests to the top of the stack
d->m_pixmapRequestsStack.push_back(request);
} else {
// insert in stack sorted by priority
sIt = d->m_pixmapRequestsStack.begin();
sEnd = d->m_pixmapRequestsStack.end();
while (sIt != sEnd && (*sIt)->priority() > request->priority()) {
++sIt;
}
d->m_pixmapRequestsStack.insert(sIt, request);
}
}
d->m_pixmapRequestsMutex.unlock();
// 3. [START FIRST GENERATION] if <NO>generator is ready, start a new generation,
// or else (if gen is running) it will be started when the new contents will
// come from generator (in requestDone())</NO>
// all handling of requests put into sendGeneratorPixmapRequest
// if ( generator->canRequestPixmap() )
d->sendGeneratorPixmapRequest();
for (DocumentObserver *o : std::as_const(observersPixmapCleared)) {
o->notifyContentsCleared(Okular::DocumentObserver::Pixmap);
}
}
void Document::requestTextPage(uint pageNumber)
{
Page *kp = d->m_pagesVector[pageNumber];
if (!d->m_generator || !kp) {
return;
}
// Memory management for TextPages
d->m_generator->generateTextPage(kp);
}
void DocumentPrivate::notifyAnnotationChanges(int page)
{
foreachObserverD(notifyPageChanged(page, DocumentObserver::Annotations));
}
void DocumentPrivate::notifyFormChanges(int /*page*/)
{
recalculateForms();
}
void Document::addPageAnnotation(int page, Annotation *annotation)
{
// Transform annotation's base boundary rectangle into unrotated coordinates
Page *p = d->m_pagesVector[page];
QTransform t = p->d->rotationMatrix();
annotation->d_ptr->baseTransform(t.inverted());
QUndoCommand *uc = new AddAnnotationCommand(this->d, annotation, page);
d->m_undoStack->push(uc);
}
bool Document::canModifyPageAnnotation(const Annotation *annotation) const
{
if (!annotation || (annotation->flags() & Annotation::DenyWrite)) {
return false;
}
if (!isAllowed(Okular::AllowNotes)) {
return false;
}
if ((annotation->flags() & Annotation::External) && !d->canModifyExternalAnnotations()) {
return false;
}
switch (annotation->subType()) {
case Annotation::AText:
case Annotation::ALine:
case Annotation::AGeom:
case Annotation::AHighlight:
case Annotation::AStamp:
case Annotation::AInk:
return true;
default:
return false;
}
}
void Document::prepareToModifyAnnotationProperties(Annotation *annotation)
{
Q_ASSERT(d->m_prevPropsOfAnnotBeingModified.isNull());
if (!d->m_prevPropsOfAnnotBeingModified.isNull()) {
qCCritical(OkularCoreDebug) << "Error: Document::prepareToModifyAnnotationProperties has already been called since last call to Document::modifyPageAnnotationProperties";
return;
}
d->m_prevPropsOfAnnotBeingModified = annotation->getAnnotationPropertiesDomNode();
}
void Document::modifyPageAnnotationProperties(int page, Annotation *annotation)
{
Q_ASSERT(!d->m_prevPropsOfAnnotBeingModified.isNull());
if (d->m_prevPropsOfAnnotBeingModified.isNull()) {
qCCritical(OkularCoreDebug) << "Error: Document::prepareToModifyAnnotationProperties must be called before Annotation is modified";
return;
}
QDomNode prevProps = d->m_prevPropsOfAnnotBeingModified;
QUndoCommand *uc = new Okular::ModifyAnnotationPropertiesCommand(d, annotation, page, prevProps, annotation->getAnnotationPropertiesDomNode());
d->m_undoStack->push(uc);
d->m_prevPropsOfAnnotBeingModified.clear();
}
void Document::translatePageAnnotation(int page, Annotation *annotation, const NormalizedPoint &delta)
{
int complete = (annotation->flags() & Okular::Annotation::BeingMoved) == 0;
QUndoCommand *uc = new Okular::TranslateAnnotationCommand(d, annotation, page, delta, complete);
d->m_undoStack->push(uc);
}
void Document::adjustPageAnnotation(int page, Annotation *annotation, const Okular::NormalizedPoint &delta1, const Okular::NormalizedPoint &delta2)
{
const bool complete = (annotation->flags() & Okular::Annotation::BeingResized) == 0;
QUndoCommand *uc = new Okular::AdjustAnnotationCommand(d, annotation, page, delta1, delta2, complete);
d->m_undoStack->push(uc);
}
void Document::editPageAnnotationContents(int page, Annotation *annotation, const QString &newContents, int newCursorPos, int prevCursorPos, int prevAnchorPos)
{
QString prevContents = annotation->contents();
QUndoCommand *uc = new EditAnnotationContentsCommand(d, annotation, page, newContents, newCursorPos, prevContents, prevCursorPos, prevAnchorPos);
d->m_undoStack->push(uc);
}
bool Document::canRemovePageAnnotation(const Annotation *annotation) const
{
if (!annotation || (annotation->flags() & Annotation::DenyDelete)) {
return false;
}
if ((annotation->flags() & Annotation::External) && !d->canRemoveExternalAnnotations()) {
return false;
}
switch (annotation->subType()) {
case Annotation::AText:
case Annotation::ALine:
case Annotation::AGeom:
case Annotation::AHighlight:
case Annotation::AStamp:
case Annotation::AInk:
case Annotation::ACaret:
return true;
default:
return false;
}
}
void Document::removePageAnnotation(int page, Annotation *annotation)
{
QUndoCommand *uc = new RemoveAnnotationCommand(this->d, annotation, page);
d->m_undoStack->push(uc);
}
void Document::removePageAnnotations(int page, const QList<Annotation *> &annotations)
{
d->m_undoStack->beginMacro(i18nc("remove a collection of annotations from the page", "remove annotations"));
for (Annotation *annotation : annotations) {
QUndoCommand *uc = new RemoveAnnotationCommand(this->d, annotation, page);
d->m_undoStack->push(uc);
}
d->m_undoStack->endMacro();
}
bool DocumentPrivate::canAddAnnotationsNatively() const
{
Okular::SaveInterface *iface = qobject_cast<Okular::SaveInterface *>(m_generator);
if (iface && iface->supportsOption(Okular::SaveInterface::SaveChanges) && iface->annotationProxy() && iface->annotationProxy()->supports(AnnotationProxy::Addition)) {
return true;
}
return false;
}
bool DocumentPrivate::canModifyExternalAnnotations() const
{
Okular::SaveInterface *iface = qobject_cast<Okular::SaveInterface *>(m_generator);
if (iface && iface->supportsOption(Okular::SaveInterface::SaveChanges) && iface->annotationProxy() && iface->annotationProxy()->supports(AnnotationProxy::Modification)) {
return true;
}
return false;
}
bool DocumentPrivate::canRemoveExternalAnnotations() const
{
Okular::SaveInterface *iface = qobject_cast<Okular::SaveInterface *>(m_generator);
if (iface && iface->supportsOption(Okular::SaveInterface::SaveChanges) && iface->annotationProxy() && iface->annotationProxy()->supports(AnnotationProxy::Removal)) {
return true;
}
return false;
}
void Document::setPageTextSelection(int page, std::unique_ptr<RegularAreaRect> &&rect, const QColor &color)
{
Page *kp = d->m_pagesVector[page];
if (!d->m_generator || !kp) {
return;
}
// add or remove the selection basing whether rect is null or not
if (rect) {
kp->d->setTextSelections(*rect, color);
} else {
kp->d->deleteTextSelections();
}
// notify observers about the change
foreachObserver(notifyPageChanged(page, DocumentObserver::TextSelection));
}
bool Document::canUndo() const
{
return d->m_undoStack->canUndo();
}
bool Document::canRedo() const
{
return d->m_undoStack->canRedo();
}
/* REFERENCE IMPLEMENTATION: better calling setViewport from other code
void Document::setNextPage()
{
// advance page and set viewport on observers
if ( (*d->m_viewportIterator).pageNumber < (int)d->m_pagesVector.count() - 1 )
setViewport( DocumentViewport( (*d->m_viewportIterator).pageNumber + 1 ) );
}
void Document::setPrevPage()
{
// go to previous page and set viewport on observers
if ( (*d->m_viewportIterator).pageNumber > 0 )
setViewport( DocumentViewport( (*d->m_viewportIterator).pageNumber - 1 ) );
}
*/
void Document::setViewport(const DocumentViewport &viewport, DocumentObserver *excludeObserver, bool smoothMove, bool updateHistory)
{
if (!viewport.isValid()) {
qCDebug(OkularCoreDebug) << "invalid viewport:" << viewport.toString();
return;
}
if (viewport.pageNumber >= int(d->m_pagesVector.count())) {
// qCDebug(OkularCoreDebug) << "viewport out of document:" << viewport.toString();
return;
}
// if already broadcasted, don't redo it
DocumentViewport &oldViewport = *d->m_viewportIterator;
// disabled by enrico on 2005-03-18 (less debug output)
// if ( viewport == oldViewport )
// qCDebug(OkularCoreDebug) << "setViewport with the same viewport.";
const int oldPageNumber = oldViewport.pageNumber;
// set internal viewport taking care of history
if (oldViewport.pageNumber == viewport.pageNumber || !oldViewport.isValid() || !updateHistory) {
// if page is unchanged save the viewport at current position in queue
oldViewport = viewport;
} else {
// remove elements after viewportIterator in queue
d->m_viewportHistory.erase(++d->m_viewportIterator, d->m_viewportHistory.end());
// keep the list to a reasonable size by removing head when needed
if (d->m_viewportHistory.size() >= OKULAR_HISTORY_MAXSTEPS) {
d->m_viewportHistory.pop_front();
}
// add the item at the end of the queue
d->m_viewportIterator = d->m_viewportHistory.insert(d->m_viewportHistory.end(), viewport);
}
const int currentViewportPage = (*d->m_viewportIterator).pageNumber;
const bool currentPageChanged = (oldPageNumber != currentViewportPage);
// notify change to all other (different from id) observers
for (DocumentObserver *o : std::as_const(d->m_observers)) {
if (o != excludeObserver) {
o->notifyViewportChanged(smoothMove);
}
if (currentPageChanged) {
o->notifyCurrentPageChanged(oldPageNumber, currentViewportPage);
}
}
}
void Document::setViewportPage(int page, DocumentObserver *excludeObserver, bool smoothMove)
{
// clamp page in range [0 ... numPages-1]
if (page < 0) {
page = 0;
} else if (page > (int)d->m_pagesVector.count()) {
page = d->m_pagesVector.count() - 1;
}
// make a viewport from the page and broadcast it
setViewport(DocumentViewport(page), excludeObserver, smoothMove);
}
void Document::setZoom(int factor, DocumentObserver *excludeObserver)
{
// notify change to all other (different from id) observers
for (DocumentObserver *o : std::as_const(d->m_observers)) {
if (o != excludeObserver) {
o->notifyZoom(factor);
}
}
}
void Document::setPrevViewport()
// restore viewport from the history
{
if (d->m_viewportIterator != d->m_viewportHistory.begin()) {
const int oldViewportPage = (*d->m_viewportIterator).pageNumber;
// restore previous viewport and notify it to observers
--d->m_viewportIterator;
foreachObserver(notifyViewportChanged(true));
const int currentViewportPage = (*d->m_viewportIterator).pageNumber;
if (oldViewportPage != currentViewportPage)
foreachObserver(notifyCurrentPageChanged(oldViewportPage, currentViewportPage));
}
}
void Document::setNextViewport()
// restore next viewport from the history
{
auto nextIterator = std::list<DocumentViewport>::const_iterator(d->m_viewportIterator);
++nextIterator;
if (nextIterator != d->m_viewportHistory.end()) {
const int oldViewportPage = (*d->m_viewportIterator).pageNumber;
// restore next viewport and notify it to observers
++d->m_viewportIterator;
foreachObserver(notifyViewportChanged(true));
const int currentViewportPage = (*d->m_viewportIterator).pageNumber;
if (oldViewportPage != currentViewportPage)
foreachObserver(notifyCurrentPageChanged(oldViewportPage, currentViewportPage));
}
}
void Document::setNextDocumentViewport(const DocumentViewport &viewport)
{
d->m_nextDocumentViewport = viewport;
}
void Document::setNextDocumentDestination(const QString &namedDestination)
{
d->m_nextDocumentDestination = namedDestination;
}
void Document::searchText(int searchID, const QString &text, bool fromStart, Qt::CaseSensitivity caseSensitivity, SearchType type, bool moveViewport, const QColor &color)
{
d->m_searchCancelled = false;
// safety checks: don't perform searches on empty or unsearchable docs
if (!d->m_generator || !d->m_generator->hasFeature(Generator::TextExtraction) || d->m_pagesVector.isEmpty()) {
Q_EMIT searchFinished(searchID, NoMatchFound);
return;
}
// if searchID search not recorded, create new descriptor and init params
QMap<int, RunningSearch *>::iterator searchIt = d->m_searches.find(searchID);
if (searchIt == d->m_searches.end()) {
RunningSearch *search = new RunningSearch();
search->continueOnPage = -1;
searchIt = d->m_searches.insert(searchID, search);
}
RunningSearch *s = *searchIt;
// update search structure
bool newText = text != s->cachedString;
s->cachedString = text;
s->cachedType = type;
s->cachedCaseSensitivity = caseSensitivity;
s->cachedViewportMove = moveViewport;
s->cachedColor = color;
s->isCurrentlySearching = true;
// global data for search
QSet<int> *pagesToNotify = new QSet<int>;
// remove highlights from pages and queue them for notifying changes
*pagesToNotify += s->highlightedPages;
for (const int pageNumber : std::as_const(s->highlightedPages)) {
d->m_pagesVector.at(pageNumber)->d->deleteHighlights(searchID);
}
s->highlightedPages.clear();
// set hourglass cursor
QApplication::setOverrideCursor(Qt::WaitCursor);
// 1. ALLDOC - process all document marking pages
if (type == AllDocument) {
QMap<Page *, QVector<RegularAreaRect *>> *pageMatches = new QMap<Page *, QVector<RegularAreaRect *>>;
// search and highlight 'text' (as a solid phrase) on all pages
QTimer::singleShot(0, this, [this, pagesToNotify, pageMatches, searchID] { d->doContinueAllDocumentSearch(pagesToNotify, pageMatches, 0, searchID); });
}
// 2. NEXTMATCH - find next matching item (or start from top)
// 3. PREVMATCH - find previous matching item (or start from bottom)
else if (type == NextMatch || type == PreviousMatch) {
// find out from where to start/resume search from
const bool forward = type == NextMatch;
const int viewportPage = (*d->m_viewportIterator).pageNumber;
const int fromStartSearchPage = forward ? 0 : d->m_pagesVector.count() - 1;
int currentPage = fromStart ? fromStartSearchPage : ((s->continueOnPage != -1) ? s->continueOnPage : viewportPage);
const Page *lastPage = fromStart ? nullptr : d->m_pagesVector[currentPage];
int pagesDone = 0;
// continue checking last TextPage first (if it is the current page)
RegularAreaRect *match = nullptr;
if (lastPage && lastPage->number() == s->continueOnPage) {
if (newText) {
match = lastPage->findText(searchID, text, forward ? FromTop : FromBottom, caseSensitivity);
} else {
match = lastPage->findText(searchID, text, forward ? NextResult : PreviousResult, caseSensitivity, &s->continueOnMatch);
}
if (!match) {
if (forward) {
currentPage++;
} else {
currentPage--;
}
pagesDone++;
}
}
s->pagesDone = pagesDone;
DoContinueDirectionMatchSearchStruct *searchStruct = new DoContinueDirectionMatchSearchStruct();
searchStruct->pagesToNotify = pagesToNotify;
searchStruct->match = match;
searchStruct->currentPage = currentPage;
searchStruct->searchID = searchID;
QTimer::singleShot(0, this, [this, searchStruct] { d->doContinueDirectionMatchSearch(searchStruct); });
}
// 4. GOOGLE* - process all document marking pages
else if (type == GoogleAll || type == GoogleAny) {
QMap<Page *, QVector<QPair<RegularAreaRect *, QColor>>> *pageMatches = new QMap<Page *, QVector<QPair<RegularAreaRect *, QColor>>>;
const QStringList words = text.split(QLatin1Char(' '), Qt::SkipEmptyParts);
// search and highlight every word in 'text' on all pages
QTimer::singleShot(0, this, [this, pagesToNotify, pageMatches, searchID, words] { d->doContinueGooglesDocumentSearch(pagesToNotify, pageMatches, 0, searchID, words); });
}
}
void Document::continueSearch(int searchID)
{
// check if searchID is present in runningSearches
QMap<int, RunningSearch *>::const_iterator it = d->m_searches.constFind(searchID);
if (it == d->m_searches.constEnd()) {
Q_EMIT searchFinished(searchID, NoMatchFound);
return;
}
// start search with cached parameters from last search by searchID
RunningSearch *p = *it;
if (!p->isCurrentlySearching) {
searchText(searchID, p->cachedString, false, p->cachedCaseSensitivity, p->cachedType, p->cachedViewportMove, p->cachedColor);
}
}
void Document::continueSearch(int searchID, SearchType type)
{
// check if searchID is present in runningSearches
QMap<int, RunningSearch *>::const_iterator it = d->m_searches.constFind(searchID);
if (it == d->m_searches.constEnd()) {
Q_EMIT searchFinished(searchID, NoMatchFound);
return;
}
// start search with cached parameters from last search by searchID
RunningSearch *p = *it;
if (!p->isCurrentlySearching) {
searchText(searchID, p->cachedString, false, p->cachedCaseSensitivity, type, p->cachedViewportMove, p->cachedColor);
}
}
void Document::resetSearch(int searchID)
{
// if we are closing down, don't bother doing anything
if (!d->m_generator) {
return;
}
// check if searchID is present in runningSearches
QMap<int, RunningSearch *>::iterator searchIt = d->m_searches.find(searchID);
if (searchIt == d->m_searches.end()) {
return;
}
// get previous parameters for search
RunningSearch *s = *searchIt;
// unhighlight pages and inform observers about that
for (const int pageNumber : std::as_const(s->highlightedPages)) {
d->m_pagesVector.at(pageNumber)->d->deleteHighlights(searchID);
foreachObserver(notifyPageChanged(pageNumber, DocumentObserver::Highlights));
}
// send the setup signal too (to update views that filter on matches)
foreachObserver(notifySetup(d->m_pagesVector, 0));
// remove search from the runningSearches list and delete it
d->m_searches.erase(searchIt);
delete s;
}
void Document::cancelSearch()
{
d->m_searchCancelled = true;
}
void Document::undo()
{
d->m_undoStack->undo();
}
void Document::redo()
{
d->m_undoStack->redo();
}
void Document::editFormText(int pageNumber, Okular::FormFieldText *form, const QString &newContents, int newCursorPos, int prevCursorPos, int prevAnchorPos)
{
QUndoCommand *uc = new EditFormTextCommand(this->d, form, pageNumber, newContents, newCursorPos, form->text(), prevCursorPos, prevAnchorPos);
d->m_undoStack->push(uc);
}
void Document::editFormText(int pageNumber, Okular::FormFieldText *form, const QString &newContents, int newCursorPos, int prevCursorPos, int prevAnchorPos, const QString &oldContents)
{
QUndoCommand *uc = new EditFormTextCommand(this->d, form, pageNumber, newContents, newCursorPos, oldContents, prevCursorPos, prevAnchorPos);
d->m_undoStack->push(uc);
}
void Document::editFormList(int pageNumber, FormFieldChoice *form, const QList<int> &newChoices)
{
const QList<int> prevChoices = form->currentChoices();
QUndoCommand *uc = new EditFormListCommand(this->d, form, pageNumber, newChoices, prevChoices);
d->m_undoStack->push(uc);
}
void Document::editFormCombo(int pageNumber, FormFieldChoice *form, const QString &newText, int newCursorPos, int prevCursorPos, int prevAnchorPos)
{
QString prevText;
if (form->currentChoices().isEmpty()) {
prevText = form->editChoice();
} else {
prevText = form->choices().at(form->currentChoices().constFirst());
}
QUndoCommand *uc = new EditFormComboCommand(this->d, form, pageNumber, newText, newCursorPos, prevText, prevCursorPos, prevAnchorPos);
d->m_undoStack->push(uc);
}
void Document::editFormButtons(int pageNumber, const QList<FormFieldButton *> &formButtons, const QList<bool> &newButtonStates)
{
QUndoCommand *uc = new EditFormButtonsCommand(this->d, pageNumber, formButtons, newButtonStates);
d->m_undoStack->push(uc);
}
void Document::reloadDocument() const
{
const int numOfPages = pages();
for (int i = currentPage(); i >= 0; i--) {
d->refreshPixmaps(i);
}
for (int i = currentPage() + 1; i < numOfPages; i++) {
d->refreshPixmaps(i);
}
}
BookmarkManager *Document::bookmarkManager() const
{
return d->m_bookmarkManager;
}
QList<int> Document::bookmarkedPageList() const
{
QList<int> list;
uint docPages = pages();
// pages are 0-indexed internally, but 1-indexed externally
for (uint i = 0; i < docPages; i++) {
if (bookmarkManager()->isBookmarked(i)) {
list << i + 1;
}
}
return list;
}
QString Document::bookmarkedPageRange() const
{
// Code formerly in Part::slotPrint()
// range detecting
QString range;
uint docPages = pages();
int startId = -1;
int endId = -1;
for (uint i = 0; i < docPages; ++i) {
if (bookmarkManager()->isBookmarked(i)) {
if (startId < 0) {
startId = i;
}
if (endId < 0) {
endId = startId;
} else {
++endId;
}
} else if (startId >= 0 && endId >= 0) {
if (!range.isEmpty()) {
range += QLatin1Char(',');
}
if (endId - startId > 0) {
range += QStringLiteral("%1-%2").arg(startId + 1).arg(endId + 1);
} else {
range += QString::number(startId + 1);
}
startId = -1;
endId = -1;
}
}
if (startId >= 0 && endId >= 0) {
if (!range.isEmpty()) {
range += QLatin1Char(',');
}
if (endId - startId > 0) {
range += QStringLiteral("%1-%2").arg(startId + 1).arg(endId + 1);
} else {
range += QString::number(startId + 1);
}
}
return range;
}
struct ExecuteNextActionsHelper : public QObject, private DocumentObserver {
Q_OBJECT
public:
explicit ExecuteNextActionsHelper(Document *doc)
: m_doc(doc)
{
doc->addObserver(this);
connect(doc, &Document::aboutToClose, this, [this] { b = false; });
}
~ExecuteNextActionsHelper() override
{
m_doc->removeObserver(this);
}
void notifySetup(const QVector<Okular::Page *> & /*pages*/, int setupFlags) override
{
if (setupFlags == DocumentChanged || setupFlags == UrlChanged) {
b = false;
}
}
bool shouldExecuteNextAction() const
{
return b;
}
private:
Document *const m_doc;
bool b = true;
};
void Document::processAction(const Action *action)
{
if (!action) {
return;
}
// Don't execute next actions if the action itself caused the closing of the document
const ExecuteNextActionsHelper executeNextActionsHelper(this);
switch (action->actionType()) {
case Action::Goto: {
const GotoAction *go = static_cast<const GotoAction *>(action);
d->m_nextDocumentViewport = go->destViewport();
d->m_nextDocumentDestination = go->destinationName();
// Explanation of why d->m_nextDocumentViewport is needed:
// all openRelativeFile does is launch a signal telling we
// want to open another URL, the problem is that when the file is
// non local, the loading is done asynchronously so you can't
// do a setViewport after the if as it was because you are doing the setViewport
// on the old file and when the new arrives there is no setViewport for it and
// it does not show anything
// first open filename if link is pointing outside this document
const QString filename = go->fileName();
if (go->isExternal() && !d->openRelativeFile(filename)) {
qCWarning(OkularCoreDebug).nospace() << "Action: Error opening '" << filename << "'.";
break;
} else {
const DocumentViewport nextViewport = d->nextDocumentViewport();
// skip local links that point to nowhere (broken ones)
if (!nextViewport.isValid()) {
break;
}
setViewport(nextViewport, nullptr, true);
d->m_nextDocumentViewport = DocumentViewport();
d->m_nextDocumentDestination = QString();
}
} break;
case Action::Execute: {
const ExecuteAction *exe = static_cast<const ExecuteAction *>(action);
const QString fileName = exe->fileName();
if (fileName.endsWith(QLatin1String(".pdf"), Qt::CaseInsensitive)) {
d->openRelativeFile(fileName);
break;
}
// Albert: the only pdf i have that has that kind of link don't define
// an application and use the fileName as the file to open
QUrl url = d->giveAbsoluteUrl(fileName);
QMimeDatabase db;
QMimeType mime = db.mimeTypeForUrl(url);
// Check executables
if (KIO::OpenUrlJob::isExecutableFile(url, mime.name())) {
// Don't have any pdf that uses this code path, just a guess on how it should work
if (!exe->parameters().isEmpty()) {
url = d->giveAbsoluteUrl(exe->parameters());
mime = db.mimeTypeForUrl(url);
if (KIO::OpenUrlJob::isExecutableFile(url, mime.name())) {
// this case is a link pointing to an executable with a parameter
// that also is an executable, possibly a hand-crafted pdf
Q_EMIT error(i18n("The document is trying to execute an external application and, for your safety, Okular does not allow that."), -1);
break;
}
} else {
// this case is a link pointing to an executable with no parameters
// core developers find unacceptable executing it even after asking the user
Q_EMIT error(i18n("The document is trying to execute an external application and, for your safety, Okular does not allow that."), -1);
break;
}
}
KIO::OpenUrlJob *job = new KIO::OpenUrlJob(url, mime.name());
job->setUiDelegate(KIO::createDefaultJobUiDelegate(KJobUiDelegate::AutoHandlingEnabled, d->m_widget));
job->start();
connect(job, &KIO::OpenUrlJob::result, this, [this, mime](KJob *job) {
if (job->error()) {
Q_EMIT error(i18n("No application found for opening file of mimetype %1.", mime.name()), -1);
}
});
} break;
case Action::DocAction: {
const DocumentAction *docaction = static_cast<const DocumentAction *>(action);
switch (docaction->documentActionType()) {
case DocumentAction::PageFirst:
setViewportPage(0);
break;
case DocumentAction::PagePrev:
if ((*d->m_viewportIterator).pageNumber > 0) {
setViewportPage((*d->m_viewportIterator).pageNumber - 1);
}
break;
case DocumentAction::PageNext:
if ((*d->m_viewportIterator).pageNumber < (int)d->m_pagesVector.count() - 1) {
setViewportPage((*d->m_viewportIterator).pageNumber + 1);
}
break;
case DocumentAction::PageLast:
setViewportPage(d->m_pagesVector.count() - 1);
break;
case DocumentAction::HistoryBack:
setPrevViewport();
break;
case DocumentAction::HistoryForward:
setNextViewport();
break;
case DocumentAction::Quit:
Q_EMIT quit();
break;
case DocumentAction::Presentation:
Q_EMIT linkPresentation();
break;
case DocumentAction::EndPresentation:
Q_EMIT linkEndPresentation();
break;
case DocumentAction::Find:
Q_EMIT linkFind();
break;
case DocumentAction::GoToPage:
Q_EMIT linkGoToPage();
break;
case DocumentAction::Close:
Q_EMIT close();
break;
case DocumentAction::Print:
Q_EMIT requestPrint();
break;
case DocumentAction::SaveAs:
Q_EMIT requestSaveAs();
break;
}
} break;
case Action::Browse: {
const BrowseAction *browse = static_cast<const BrowseAction *>(action);
QString lilySource;
int lilyRow = 0, lilyCol = 0;
// if the url is a mailto one, invoke mailer
if (browse->url().scheme() == QLatin1String("mailto")) {
QDesktopServices::openUrl(browse->url());
} else if (extractLilyPondSourceReference(browse->url(), &lilySource, &lilyRow, &lilyCol)) {
const SourceReference ref(lilySource, lilyRow, lilyCol);
processSourceReference(&ref);
} else {
const QUrl url = browse->url();
// fix for #100366, documents with relative links that are the form of http:foo.pdf
if ((url.scheme() == QLatin1String("http")) && url.host().isEmpty() && url.fileName().endsWith(QLatin1String("pdf"))) {
d->openRelativeFile(url.fileName());
break;
}
// handle documents with relative path
QUrl realUrl;
if (d->m_url.isValid()) {
realUrl = KIO::upUrl(d->m_url).resolved(url);
} else if (!url.isRelative()) {
realUrl = url;
}
if (realUrl.isValid()) {
auto *job = new KIO::OpenUrlJob(realUrl);
job->setUiDelegate(KIO::createDefaultJobUiDelegate(KJobUiDelegate::AutoHandlingEnabled, d->m_widget.data()));
job->start();
}
}
} break;
case Action::Sound: {
const SoundAction *linksound = static_cast<const SoundAction *>(action);
AudioPlayer::instance()->playSound(linksound->sound(), linksound);
} break;
case Action::Script: {
const ScriptAction *linkscript = static_cast<const ScriptAction *>(action);
if (!d->m_scripter) {
d->m_scripter = new Scripter(d);
}
d->m_scripter->execute(linkscript->scriptType(), linkscript->script());
} break;
case Action::Movie:
Q_EMIT processMovieAction(static_cast<const MovieAction *>(action));
break;
case Action::Rendition: {
const RenditionAction *linkrendition = static_cast<const RenditionAction *>(action);
if (!linkrendition->script().isEmpty()) {
if (!d->m_scripter) {
d->m_scripter = new Scripter(d);
}
d->m_scripter->execute(linkrendition->scriptType(), linkrendition->script());
}
Q_EMIT processRenditionAction(static_cast<const RenditionAction *>(action));
} break;
case Action::BackendOpaque: {
d->m_generator->opaqueAction(static_cast<const BackendOpaqueAction *>(action));
} break;
}
if (executeNextActionsHelper.shouldExecuteNextAction()) {
const QVector<Action *> nextActions = action->nextActions();
for (const Action *a : nextActions) {
processAction(a);
}
}
}
void Document::processFormatAction(const Action *action, Okular::FormFieldText *fft)
{
if (action->actionType() != Action::Script) {
qCDebug(OkularCoreDebug) << "Unsupported action type" << action->actionType() << "for formatting.";
return;
}
// Lookup the page of the FormFieldText
int foundPage = d->findFieldPageNumber(fft);
if (foundPage == -1) {
qCDebug(OkularCoreDebug) << "Could not find page for formfield!";
return;
}
const QString unformattedText = fft->text();
std::shared_ptr<Event> event = Event::createFormatEvent(fft, d->m_pagesVector[foundPage]);
const ScriptAction *linkscript = static_cast<const ScriptAction *>(action);
d->executeScriptEvent(event, linkscript);
const QString formattedText = event->value().toString();
if (formattedText != unformattedText) {
// We set the formattedText, because when we call refreshFormWidget
// It will set the QLineEdit to this formattedText
fft->setText(formattedText);
fft->setAppearanceText(formattedText);
Q_EMIT refreshFormWidget(fft);
d->refreshPixmaps(foundPage);
// Then we make the form have the unformatted text, to use
// in calculations and other things.
fft->setText(unformattedText);
} else if (fft->additionalAction(FormField::CalculateField)) {
// When the field was calculated we need to refresh even
// if the format script changed nothing. e.g. on error.
// This is because the recalculateForms function delegated
// the responsiblity for the refresh to us.
Q_EMIT refreshFormWidget(fft);
d->refreshPixmaps(foundPage);
}
}
QString DocumentPrivate::evaluateKeystrokeEventChange(const QString &oldVal, const QString &newVal, int selStart, int selEnd)
{
/*
The change needs to be evaluated here in accordance with code points.
selStart and selEnd parameters passed to this method should be been adjusted accordingly.
Since QString methods work in terms of code units, we convert the strings to UTF-32.
*/
std::u32string oldUcs4 = oldVal.toStdU32String();
std::u32string newUcs4 = newVal.toStdU32String();
if (selStart < 0 || selEnd < 0 || (selEnd - selStart) + (static_cast<int>(newUcs4.size()) - static_cast<int>(oldUcs4.size())) < 0) {
// Prevent Okular from crashing if incorrect parameters are passed or some bug causes incorrect calculation
return {};
}
const size_t changeLength = (selEnd - selStart) + (newUcs4.size() - oldUcs4.size());
auto subview = std::u32string_view {newUcs4}.substr(selStart, changeLength);
if (subview.empty()) {
// If subview is empty (in scenarios when selStart is at end and changeLength is non-zero) fromUcs4 returns \u0000.
// This should not happen, but just a guard.
return {};
}
return QString::fromUcs4(subview.data(), changeLength);
}
void Document::processKeystrokeAction(const Action *action, Okular::FormFieldText *fft, const QVariant &newValue, int prevCursorPos, int prevAnchorPos)
{
if (action->actionType() != Action::Script) {
qCDebug(OkularCoreDebug) << "Unsupported action type" << action->actionType() << "for keystroke.";
return;
}
// Lookup the page of the FormFieldText
int foundPage = d->findFieldPageNumber(fft);
if (foundPage == -1) {
qCDebug(OkularCoreDebug) << "Could not find page for formfield!";
return;
}
std::shared_ptr<Event> event = Event::createKeystrokeEvent(fft, d->m_pagesVector[foundPage]);
/* Set the selStart and selEnd event properties
QString using UTF-16 counts a code point as made up of 1 or 2 16-bit code units.
When encoded using 2 code units, the units are referred to as surrogate pairs.
selectionStart() and selectionEnd() methods evaluate prevCursorPos and prevAnchorPos based on code units during selection.
While this unit-based evaulation is suitable for detecting changes, for providing consistency with Adobe Reader for values of selStart and selEnd,
it would be best to evaluate in terms of code points rather than the code units.
To correct the values of selStart and selEnd accordingly, we iterate over the code units. If a surrogate pair is encountered, then selStart and
selEnd are accordingly decremented.
*/
int selStart = std::min(prevCursorPos, prevAnchorPos);
int selEnd = std::max(prevCursorPos, prevAnchorPos);
int codeUnit;
int initialSelStart = selStart;
int initialSelEnd = selEnd;
for (codeUnit = 0; codeUnit < initialSelStart && codeUnit < fft->text().size(); codeUnit++) {
if (fft->text().at(codeUnit).isHighSurrogate()) {
// skip the low surrogate and decrement selStart and selEnd
codeUnit++;
selStart--;
selEnd--;
}
}
for (; codeUnit < initialSelEnd && codeUnit < fft->text().size(); codeUnit++) {
if (fft->text().at(codeUnit).isHighSurrogate()) {
// skip the low surrogate and decrement selEnd
codeUnit++;
selEnd--;
}
}
std::u32string oldUcs4 = fft->text().toStdU32String();
std::u32string newUcs4 = newValue.toString().toStdU32String();
// It is necessary to count size in terms of code points rather than code units for deletion.
if (oldUcs4.size() - newUcs4.size() == 1 && selStart == selEnd) {
// consider a one character removal as selection of that character and then its removal.
selStart--;
}
event->setSelStart(selStart);
event->setSelEnd(selEnd);
// Use the corrected selStart and selEnd for evaluating the change.
event->setChange(DocumentPrivate::evaluateKeystrokeEventChange(fft->text(), newValue.toString(), selStart, selEnd));
const ScriptAction *linkscript = static_cast<const ScriptAction *>(action);
d->executeScriptEvent(event, linkscript);
if (event->returnCode()) {
fft->setText(newValue.toString());
} else {
Q_EMIT refreshFormWidget(fft);
}
}
void Document::processKeystrokeAction(const Action *action, Okular::FormFieldText *fft, const QVariant &newValue)
{
// use -1 as default
processKeystrokeAction(action, fft, newValue, -1, -1);
}
void Document::processKeystrokeCommitAction(const Action *action, Okular::FormFieldText *fft)
{
if (action->actionType() != Action::Script) {
qCDebug(OkularCoreDebug) << "Unsupported action type" << action->actionType() << "for keystroke.";
return;
}
// Lookup the page of the FormFieldText
int foundPage = d->findFieldPageNumber(fft);
if (foundPage == -1) {
qCDebug(OkularCoreDebug) << "Could not find page for formfield!";
return;
}
std::shared_ptr<Event> event = Event::createKeystrokeEvent(fft, d->m_pagesVector[foundPage]);
event->setWillCommit(true);
const ScriptAction *linkscript = static_cast<const ScriptAction *>(action);
d->executeScriptEvent(event, linkscript);
if (event->returnCode()) {
fft->setText(event->value().toString());
// TODO commit value
} else {
// TODO reset to committed value
}
}
void Document::processFocusAction(const Action *action, Okular::FormField *field)
{
if (!action || action->actionType() != Action::Script) {
return;
}
// Lookup the page of the FormFieldText
int foundPage = d->findFieldPageNumber(field);
if (foundPage == -1) {
qCDebug(OkularCoreDebug) << "Could not find page for formfield!";
return;
}
std::shared_ptr<Event> event = Event::createFormFocusEvent(field, d->m_pagesVector[foundPage]);
const ScriptAction *linkscript = static_cast<const ScriptAction *>(action);
d->executeScriptEvent(event, linkscript);
}
void Document::processValidateAction(const Action *action, Okular::FormFieldText *fft, bool &returnCode)
{
if (!action || action->actionType() != Action::Script) {
return;
}
// Lookup the page of the FormFieldText
int foundPage = d->findFieldPageNumber(fft);
if (foundPage == -1) {
qCDebug(OkularCoreDebug) << "Could not find page for formfield!";
return;
}
std::shared_ptr<Event> event = Event::createFormValidateEvent(fft, d->m_pagesVector[foundPage]);
const ScriptAction *linkscript = static_cast<const ScriptAction *>(action);
d->executeScriptEvent(event, linkscript);
returnCode = event->returnCode();
}
void Document::processFormMouseUpScripAction(const Action *action, Okular::FormField *ff)
{
if (!action || action->actionType() != Action::Script) {
return;
}
// Lookup the page of the FormFieldText
int foundPage = d->findFieldPageNumber(ff);
if (foundPage == -1) {
qCDebug(OkularCoreDebug) << "Could not find page for formfield!";
return;
}
std::shared_ptr<Event> event = Event::createFieldMouseUpEvent(ff, d->m_pagesVector[foundPage]);
const ScriptAction *linkscript = static_cast<const ScriptAction *>(action);
d->executeScriptEvent(event, linkscript);
}
void Document::processSourceReference(const SourceReference *ref)
{
if (!ref) {
return;
}
const QUrl url = d->giveAbsoluteUrl(ref->fileName());
if (!url.isLocalFile()) {
qCDebug(OkularCoreDebug) << url.url() << "is not a local file.";
return;
}
const QString absFileName = url.toLocalFile();
if (!QFile::exists(absFileName)) {
qCDebug(OkularCoreDebug) << "No such file:" << absFileName;
return;
}
bool handled = false;
Q_EMIT sourceReferenceActivated(absFileName, ref->row(), ref->column(), &handled);
if (handled) {
return;
}
static QHash<int, QString> editors;
// init the editors table if empty (on first run, usually)
if (editors.isEmpty()) {
editors = buildEditorsMap();
}
// prefer the editor from the command line
QString p = d->editorCommandOverride;
if (p.isEmpty()) {
QHash<int, QString>::const_iterator it = editors.constFind(SettingsCore::externalEditor());
if (it != editors.constEnd()) {
p = *it;
} else {
p = SettingsCore::externalEditorCommand();
}
}
// custom editor not yet configured
if (p.isEmpty()) {
return;
}
// manually append the %f placeholder if not specified
if (p.indexOf(QLatin1String("%f")) == -1) {
p.append(QLatin1String(" %f"));
}
// replacing the placeholders
QHash<QChar, QString> map;
map.insert(QLatin1Char('f'), absFileName);
map.insert(QLatin1Char('c'), QString::number(ref->column()));
map.insert(QLatin1Char('l'), QString::number(ref->row()));
const QString cmd = KMacroExpander::expandMacrosShellQuote(p, map);
if (cmd.isEmpty()) {
return;
}
QStringList args = KShell::splitArgs(cmd);
if (args.isEmpty()) {
return;
}
const QString prog = args.takeFirst();
// Make sure prog is in PATH and not just in the CWD
const QString progFullPath = QStandardPaths::findExecutable(prog);
if (progFullPath.isEmpty()) {
return;
}
KProcess::startDetached(progFullPath, args);
}
const SourceReference *Document::dynamicSourceReference(int pageNr, double absX, double absY)
{
if (!d->m_synctex_scanner) {
return nullptr;
}
const QSizeF dpi = d->m_generator->dpi();
if (synctex_edit_query(d->m_synctex_scanner, pageNr + 1, absX * 72. / dpi.width(), absY * 72. / dpi.height()) > 0) {
synctex_node_p node;
// TODO what should we do if there is really more than one node?
while ((node = synctex_scanner_next_result(d->m_synctex_scanner))) {
int line = synctex_node_line(node);
int col = synctex_node_column(node);
// column extraction does not seem to be implemented in synctex so far. set the SourceReference default value.
if (col == -1) {
col = 0;
}
const char *name = synctex_scanner_get_name(d->m_synctex_scanner, synctex_node_tag(node));
return new Okular::SourceReference(QFile::decodeName(name), line, col);
}
}
return nullptr;
}
Document::PrintingType Document::printingSupport() const
{
if (d->m_generator) {
if (d->m_generator->hasFeature(Generator::PrintNative)) {
return NativePrinting;
}
#ifndef Q_OS_WIN
if (d->m_generator->hasFeature(Generator::PrintPostscript)) {
return PostscriptPrinting;
}
#endif
}
return NoPrinting;
}
bool Document::supportsPrintToFile() const
{
return d->m_generator ? d->m_generator->hasFeature(Generator::PrintToFile) : false;
}
Document::PrintError Document::print(QPrinter &printer)
{
return d->m_generator ? d->m_generator->print(printer) : Document::UnknownPrintError;
}
QString Document::printErrorString(PrintError error)
{
switch (error) {
case TemporaryFileOpenPrintError:
return i18n("Could not open a temporary file");
case FileConversionPrintError:
return i18n("Print conversion failed");
case PrintingProcessCrashPrintError:
return i18n("Printing process crashed");
case PrintingProcessStartPrintError:
return i18n("Printing process could not start");
case PrintToFilePrintError:
return i18n("Printing to file failed");
case InvalidPrinterStatePrintError:
return i18n("Printer was in invalid state");
case UnableToFindFilePrintError:
return i18n("Unable to find file to print");
case NoFileToPrintError:
return i18n("There was no file to print");
case NoBinaryToPrintError:
return i18n("Could not find a suitable binary for printing. Make sure CUPS lpr binary is available");
case InvalidPageSizePrintError:
return i18n("The page print size is invalid");
case NoPrintError:
return QString();
case UnknownPrintError:
return QString();
}
return QString();
}
QWidget *Document::printConfigurationWidget() const
{
if (d->m_generator) {
PrintInterface *iface = qobject_cast<Okular::PrintInterface *>(d->m_generator);
return iface ? iface->printConfigurationWidget() : nullptr;
} else {
return nullptr;
}
}
void Document::fillConfigDialog(KConfigDialog *dialog)
{
if (!dialog) {
return;
}
// We know it's a BackendConfigDialog, but check anyway
BackendConfigDialog *bcd = dynamic_cast<BackendConfigDialog *>(dialog);
if (!bcd) {
return;
}
// ensure that we have all the generators with settings loaded
QVector<KPluginMetaData> offers = DocumentPrivate::configurableGenerators();
d->loadServiceList(offers);
// We want the generators to be sorted by name so let's fill in a QMap
// this sorts by internal id which is not awesome, but at least the sorting
// is stable between runs that before it wasn't
QMap<QString, GeneratorInfo> sortedGenerators;
QHash<QString, GeneratorInfo>::iterator it = d->m_loadedGenerators.begin();
QHash<QString, GeneratorInfo>::iterator itEnd = d->m_loadedGenerators.end();
for (; it != itEnd; ++it) {
sortedGenerators.insert(it.key(), it.value());
}
bool pagesAdded = false;
QMap<QString, GeneratorInfo>::iterator sit = sortedGenerators.begin();
QMap<QString, GeneratorInfo>::iterator sitEnd = sortedGenerators.end();
for (; sit != sitEnd; ++sit) {
Okular::ConfigInterface *iface = d->generatorConfig(sit.value());
if (iface) {
iface->addPages(dialog);
pagesAdded = true;
if (sit.value().generator == d->m_generator) {
const int rowCount = bcd->thePageWidget()->model()->rowCount();
KPageView *view = bcd->thePageWidget();
view->setCurrentPage(view->model()->index(rowCount - 1, 0));
}
}
}
if (pagesAdded) {
connect(dialog, &KConfigDialog::settingsChanged, this, [this] { d->slotGeneratorConfigChanged(); });
}
}
QVector<KPluginMetaData> DocumentPrivate::configurableGenerators()
{
const QVector<KPluginMetaData> available = availableGenerators();
QVector<KPluginMetaData> result;
for (const KPluginMetaData &md : available) {
if (md.rawData().value(QStringLiteral("X-KDE-okularHasInternalSettings")).toBool()) {
result << md;
}
}
return result;
}
KPluginMetaData Document::generatorInfo() const
{
if (!d->m_generator) {
return KPluginMetaData();
}
auto genIt = d->m_loadedGenerators.constFind(d->m_generatorName);
Q_ASSERT(genIt != d->m_loadedGenerators.constEnd());
return genIt.value().metadata;
}
int Document::configurableGenerators() const
{
return DocumentPrivate::configurableGenerators().size();
}
QStringList Document::supportedMimeTypes() const
{
// TODO: make it a static member of DocumentPrivate?
QStringList result = d->m_supportedMimeTypes;
if (result.isEmpty()) {
const QVector<KPluginMetaData> available = DocumentPrivate::availableGenerators();
for (const KPluginMetaData &md : available) {
result << md.mimeTypes();
}
// Remove duplicate mimetypes represented by different names
QMimeDatabase mimeDatabase;
QSet<QMimeType> uniqueMimetypes;
for (const QString &mimeName : std::as_const(result)) {
uniqueMimetypes.insert(mimeDatabase.mimeTypeForName(mimeName));
}
result.clear();
for (const QMimeType &mimeType : uniqueMimetypes) {
result.append(mimeType.name());
}
// Add the Okular archive mimetype
result << QStringLiteral("application/vnd.kde.okular-archive");
// Sorting by mimetype name doesn't make a ton of sense,
// but ensures that the list is ordered the same way every time
std::sort(result.begin(), result.end());
d->m_supportedMimeTypes = result;
}
return result;
}
bool Document::canSwapBackingFile() const
{
if (!d->m_generator) {
return false;
}
return d->m_generator->hasFeature(Generator::SwapBackingFile);
}
bool Document::swapBackingFile(const QString &newFileName, const QUrl &url)
{
if (!d->m_generator) {
return false;
}
if (!d->m_generator->hasFeature(Generator::SwapBackingFile)) {
return false;
}
// Save metadata about the file we're about to close
d->saveDocumentInfo();
d->clearAndWaitForRequests();
qCDebug(OkularCoreDebug) << "Swapping backing file to" << newFileName;
QVector<Page *> newPagesVector;
Generator::SwapBackingFileResult result = d->m_generator->swapBackingFile(newFileName, newPagesVector);
if (result != Generator::SwapBackingFileError) {
QList<ObjectRect *> rectsToDelete;
QList<Annotation *> annotationsToDelete;
QSet<PagePrivate *> pagePrivatesToDelete;
if (result == Generator::SwapBackingFileReloadInternalData) {
// Here we need to replace everything that the old generator
// had created with what the new one has without making it look like
// we have actually closed and opened the file again
// Simple sanity check
if (newPagesVector.count() != d->m_pagesVector.count()) {
return false;
}
// Update the undo stack contents
for (int i = 0; i < d->m_undoStack->count(); ++i) {
// Trust me on the const_cast ^_^
QUndoCommand *uc = const_cast<QUndoCommand *>(d->m_undoStack->command(i));
if (OkularUndoCommand *ouc = dynamic_cast<OkularUndoCommand *>(uc)) {
const bool success = ouc->refreshInternalPageReferences(newPagesVector);
if (!success) {
qWarning() << "Document::swapBackingFile: refreshInternalPageReferences failed" << ouc;
return false;
}
} else {
qWarning() << "Document::swapBackingFile: Unhandled undo command" << uc;
return false;
}
}
for (int i = 0; i < d->m_pagesVector.count(); ++i) {
// switch the PagePrivate* from newPage to oldPage
// this way everyone still holding Page* doesn't get
// disturbed by it
Page *oldPage = d->m_pagesVector[i];
Page *newPage = newPagesVector[i];
newPage->d->adoptGeneratedContents(oldPage->d);
pagePrivatesToDelete << oldPage->d;
oldPage->d = newPage->d;
oldPage->d->m_page = oldPage;
oldPage->d->m_doc = d;
newPage->d = nullptr;
annotationsToDelete << oldPage->m_annotations;
rectsToDelete << oldPage->m_rects;
oldPage->m_annotations = newPage->m_annotations;
oldPage->m_rects = newPage->m_rects;
}
qDeleteAll(newPagesVector);
}
d->m_url = url;
d->m_docFileName = newFileName;
d->updateMetadataXmlNameAndDocSize();
d->m_bookmarkManager->setUrl(d->m_url);
d->m_documentInfo = DocumentInfo();
d->m_documentInfoAskedKeys.clear();
if (d->m_synctex_scanner) {
synctex_scanner_free(d->m_synctex_scanner);
d->m_synctex_scanner = synctex_scanner_new_with_output_file(QFile::encodeName(newFileName).constData(), nullptr, 1);
if (!d->m_synctex_scanner && QFile::exists(newFileName + QLatin1String("sync"))) {
d->loadSyncFile(newFileName);
}
}
foreachObserver(notifySetup(d->m_pagesVector, DocumentObserver::UrlChanged));
qDeleteAll(annotationsToDelete);
qDeleteAll(rectsToDelete);
qDeleteAll(pagePrivatesToDelete);
return true;
} else {
return false;
}
}
bool Document::swapBackingFileArchive(const QString &newFileName, const QUrl &url)
{
qCDebug(OkularCoreDebug) << "Swapping backing archive to" << newFileName;
ArchiveData *newArchive = DocumentPrivate::unpackDocumentArchive(newFileName);
if (!newArchive) {
return false;
}
const QString tempFileName = newArchive->document.fileName();
const bool success = swapBackingFile(tempFileName, url);
if (success) {
delete d->m_archiveData;
d->m_archiveData = newArchive;
}
return success;
}
void Document::setHistoryClean(bool clean)
{
if (clean) {
d->m_undoStack->setClean();
} else {
d->m_undoStack->resetClean();
}
}
bool Document::isHistoryClean() const
{
return d->m_undoStack->isClean();
}
bool Document::canSaveChanges() const
{
if (!d->m_generator) {
return false;
}
Q_ASSERT(!d->m_generatorName.isEmpty());
QHash<QString, GeneratorInfo>::iterator genIt = d->m_loadedGenerators.find(d->m_generatorName);
Q_ASSERT(genIt != d->m_loadedGenerators.end());
SaveInterface *saveIface = d->generatorSave(genIt.value());
if (!saveIface) {
return false;
}
return saveIface->supportsOption(SaveInterface::SaveChanges);
}
bool Document::canSaveChanges(SaveCapability cap) const
{
switch (cap) {
case SaveFormsCapability:
/* Assume that if the generator supports saving, forms can be saved.
* We have no means to actually query the generator at the moment
* TODO: Add some method to query the generator in SaveInterface */
return canSaveChanges();
case SaveAnnotationsCapability:
return d->canAddAnnotationsNatively();
}
return false;
}
bool Document::saveChanges(const QString &fileName)
{
QString errorText;
return saveChanges(fileName, &errorText);
}
bool Document::saveChanges(const QString &fileName, QString *errorText)
{
if (!d->m_generator || fileName.isEmpty()) {
return false;
}
Q_ASSERT(!d->m_generatorName.isEmpty());
QHash<QString, GeneratorInfo>::iterator genIt = d->m_loadedGenerators.find(d->m_generatorName);
Q_ASSERT(genIt != d->m_loadedGenerators.end());
SaveInterface *saveIface = d->generatorSave(genIt.value());
if (!saveIface || !saveIface->supportsOption(SaveInterface::SaveChanges)) {
return false;
}
return saveIface->save(fileName, SaveInterface::SaveChanges, errorText);
}
void Document::registerView(View *view)
{
if (!view) {
return;
}
Document *viewDoc = view->viewDocument();
if (viewDoc) {
// check if already registered for this document
if (viewDoc == this) {
return;
}
viewDoc->unregisterView(view);
}
d->m_views.insert(view);
view->d_func()->document = d;
}
void Document::unregisterView(View *view)
{
if (!view) {
return;
}
const Document *viewDoc = view->viewDocument();
if (!viewDoc || viewDoc != this) {
return;
}
view->d_func()->document = nullptr;
d->m_views.remove(view);
}
QByteArray Document::fontData(const FontInfo &font) const
{
if (d->m_generator) {
return d->m_generator->requestFontData(font);
}
return {};
}
ArchiveData *DocumentPrivate::unpackDocumentArchive(const QString &archivePath)
{
QMimeDatabase db;
const QMimeType mime = db.mimeTypeForFile(archivePath, QMimeDatabase::MatchExtension);
if (!mime.inherits(QStringLiteral("application/vnd.kde.okular-archive"))) {
return nullptr;
}
KZip okularArchive(archivePath);
if (!okularArchive.open(QIODevice::ReadOnly)) {
return nullptr;
}
const KArchiveDirectory *mainDir = okularArchive.directory();
// Check the archive doesn't have folders, we don't create them when saving the archive
// and folders mean paths and paths mean path traversal issues
const QStringList mainDirEntries = mainDir->entries();
for (const QString &entry : mainDirEntries) {
if (mainDir->entry(entry)->isDirectory()) {
qWarning() << "Warning: Found a directory inside" << archivePath << " - Okular does not create files like that so it is most probably forged.";
return nullptr;
}
}
const KArchiveEntry *mainEntry = mainDir->entry(QStringLiteral("content.xml"));
if (!mainEntry || !mainEntry->isFile()) {
return nullptr;
}
std::unique_ptr<QIODevice> mainEntryDevice(static_cast<const KZipFileEntry *>(mainEntry)->createDevice());
QDomDocument doc;
if (!doc.setContent(mainEntryDevice.get())) {
return nullptr;
}
mainEntryDevice.reset();
QDomElement root = doc.documentElement();
if (root.tagName() != QLatin1String("OkularArchive")) {
return nullptr;
}
QString documentFileName;
QString metadataFileName;
QDomElement el = root.firstChild().toElement();
for (; !el.isNull(); el = el.nextSibling().toElement()) {
if (el.tagName() == QLatin1String("Files")) {
QDomElement fileEl = el.firstChild().toElement();
for (; !fileEl.isNull(); fileEl = fileEl.nextSibling().toElement()) {
if (fileEl.tagName() == QLatin1String("DocumentFileName")) {
documentFileName = fileEl.text();
} else if (fileEl.tagName() == QLatin1String("MetadataFileName")) {
metadataFileName = fileEl.text();
}
}
}
}
if (documentFileName.isEmpty()) {
return nullptr;
}
const KArchiveEntry *docEntry = mainDir->entry(documentFileName);
if (!docEntry || !docEntry->isFile()) {
return nullptr;
}
std::unique_ptr<ArchiveData> archiveData(new ArchiveData());
const int dotPos = documentFileName.indexOf(QLatin1Char('.'));
if (dotPos != -1) {
archiveData->document.setFileTemplate(QDir::tempPath() + QLatin1String("/okular_XXXXXX") + documentFileName.mid(dotPos));
}
if (!archiveData->document.open()) {
return nullptr;
}
archiveData->originalFileName = documentFileName;
{
std::unique_ptr<QIODevice> docEntryDevice(static_cast<const KZipFileEntry *>(docEntry)->createDevice());
copyQIODevice(docEntryDevice.get(), &archiveData->document);
archiveData->document.close();
}
const KArchiveEntry *metadataEntry = mainDir->entry(metadataFileName);
if (metadataEntry && metadataEntry->isFile()) {
std::unique_ptr<QIODevice> metadataEntryDevice(static_cast<const KZipFileEntry *>(metadataEntry)->createDevice());
archiveData->metadataFile.setFileTemplate(QDir::tempPath() + QLatin1String("/okular_XXXXXX.xml"));
if (archiveData->metadataFile.open()) {
copyQIODevice(metadataEntryDevice.get(), &archiveData->metadataFile);
archiveData->metadataFile.close();
}
}
return archiveData.release();
}
Document::OpenResult Document::openDocumentArchive(const QString &docFile, const QUrl &url, const QString &password)
{
d->m_archiveData = DocumentPrivate::unpackDocumentArchive(docFile);
if (!d->m_archiveData) {
return OpenError;
}
const QString tempFileName = d->m_archiveData->document.fileName();
QMimeDatabase db;
const QMimeType docMime = db.mimeTypeForFile(tempFileName, QMimeDatabase::MatchExtension);
const OpenResult ret = openDocument(tempFileName, url, docMime, password);
if (ret != OpenSuccess) {
delete d->m_archiveData;
d->m_archiveData = nullptr;
}
return ret;
}
bool Document::saveDocumentArchive(const QString &fileName)
{
if (!d->m_generator) {
return false;
}
/* If we opened an archive, use the name of original file (eg foo.pdf)
* instead of the archive's one (eg foo.okular) */
QString docFileName = d->m_archiveData ? d->m_archiveData->originalFileName : d->m_url.fileName();
if (docFileName == QLatin1String("-")) {
return false;
}
QString docPath = d->m_docFileName;
const QFileInfo fi(docPath);
if (fi.isSymLink()) {
docPath = fi.symLinkTarget();
}
KZip okularArchive(fileName);
if (!okularArchive.open(QIODevice::WriteOnly)) {
return false;
}
const KUser user;
#ifndef Q_OS_WIN
const KUserGroup userGroup(user.groupId());
#else
const KUserGroup userGroup(QStringLiteral(""));
#endif
QDomDocument contentDoc(QStringLiteral("OkularArchive"));
QDomProcessingInstruction xmlPi = contentDoc.createProcessingInstruction(QStringLiteral("xml"), QStringLiteral("version=\"1.0\" encoding=\"utf-8\""));
contentDoc.appendChild(xmlPi);
QDomElement root = contentDoc.createElement(QStringLiteral("OkularArchive"));
contentDoc.appendChild(root);
QDomElement filesNode = contentDoc.createElement(QStringLiteral("Files"));
root.appendChild(filesNode);
QDomElement fileNameNode = contentDoc.createElement(QStringLiteral("DocumentFileName"));
filesNode.appendChild(fileNameNode);
fileNameNode.appendChild(contentDoc.createTextNode(docFileName));
QDomElement metadataFileNameNode = contentDoc.createElement(QStringLiteral("MetadataFileName"));
filesNode.appendChild(metadataFileNameNode);
metadataFileNameNode.appendChild(contentDoc.createTextNode(QStringLiteral("metadata.xml")));
// If the generator can save annotations natively, do it
QTemporaryFile modifiedFile;
bool annotationsSavedNatively = false;
bool formsSavedNatively = false;
if (d->canAddAnnotationsNatively() || canSaveChanges(SaveFormsCapability)) {
if (!modifiedFile.open()) {
return false;
}
const QString modifiedFileName = modifiedFile.fileName();
modifiedFile.close(); // We're only interested in the file name
QString errorText;
if (saveChanges(modifiedFileName, &errorText)) {
docPath = modifiedFileName; // Save this instead of the original file
annotationsSavedNatively = d->canAddAnnotationsNatively();
formsSavedNatively = canSaveChanges(SaveFormsCapability);
} else {
qCWarning(OkularCoreDebug) << "saveChanges failed: " << errorText;
qCDebug(OkularCoreDebug) << "Falling back to saving a copy of the original file";
}
}
PageItems saveWhat = None;
if (!annotationsSavedNatively) {
saveWhat |= AnnotationPageItems;
}
if (!formsSavedNatively) {
saveWhat |= FormFieldPageItems;
}
QTemporaryFile metadataFile;
if (!d->savePageDocumentInfo(&metadataFile, saveWhat)) {
return false;
}
const QByteArray contentDocXml = contentDoc.toByteArray();
const mode_t perm = 0100644;
okularArchive.writeFile(QStringLiteral("content.xml"), contentDocXml, perm, user.loginName(), userGroup.name());
okularArchive.addLocalFile(docPath, docFileName);
okularArchive.addLocalFile(metadataFile.fileName(), QStringLiteral("metadata.xml"));
if (!okularArchive.close()) {
return false;
}
return true;
}
bool Document::extractArchivedFile(const QString &destFileName)
{
if (!d->m_archiveData) {
return false;
}
// Remove existing file, if present (QFile::copy doesn't overwrite by itself)
QFile::remove(destFileName);
return d->m_archiveData->document.copy(destFileName);
}
QPageLayout::Orientation Document::orientation() const
{
int landscape, portrait;
// if some pages are landscape and others are not, the most common wins, as
// QPrinter does not accept a per-page setting
landscape = 0;
portrait = 0;
for (uint i = 0; i < pages(); i++) {
const Okular::Page *currentPage = page(i);
double width = currentPage->width();
double height = currentPage->height();
if (currentPage->orientation() == Okular::Rotation90 || currentPage->orientation() == Okular::Rotation270) {
std::swap(width, height);
}
if (width > height) {
landscape++;
} else {
portrait++;
}
}
return (landscape > portrait) ? QPageLayout::Landscape : QPageLayout::Portrait;
}
void Document::setAnnotationEditingEnabled(bool enable)
{
d->m_annotationEditingEnabled = enable;
foreachObserver(notifySetup(d->m_pagesVector, 0));
}
void Document::walletDataForFile(const QString &fileName, QString *walletName, QString *walletFolder, QString *walletKey) const
{
if (d->m_generator) {
d->m_generator->walletDataForFile(fileName, walletName, walletFolder, walletKey);
} else if (d->m_walletGenerator) {
d->m_walletGenerator->walletDataForFile(fileName, walletName, walletFolder, walletKey);
}
}
bool Document::isDocdataMigrationNeeded() const
{
return d->m_docdataMigrationNeeded;
}
void Document::docdataMigrationDone()
{
if (d->m_docdataMigrationNeeded) {
d->m_docdataMigrationNeeded = false;
foreachObserver(notifySetup(d->m_pagesVector, 0));
}
}
QAbstractItemModel *Document::layersModel() const
{
return d->m_generator ? d->m_generator->layersModel() : nullptr;
}
QString Document::openError() const
{
return d->m_openError;
}
QByteArray Document::requestSignedRevisionData(const Okular::SignatureInfo &info)
{
QFile f(d->m_docFileName);
if (!f.open(QIODevice::ReadOnly)) {
Q_EMIT error(i18n("Could not open '%1'. File does not exist", d->m_docFileName), -1);
return {};
}
const QList<qint64> byteRange = info.signedRangeBounds();
f.seek(byteRange.first());
QByteArray data = f.read(byteRange.last() - byteRange.first());
f.close();
return data;
}
void Document::refreshPixmaps(int pageNumber)
{
d->refreshPixmaps(pageNumber);
}
void DocumentPrivate::executeScript(const QString &function)
{
if (!m_scripter) {
m_scripter = new Scripter(this);
}
m_scripter->execute(JavaScript, function);
}
void DocumentPrivate::requestDone(PixmapRequest *req)
{
if (!req) {
return;
}
if (!m_generator || m_closingLoop) {
m_pixmapRequestsMutex.lock();
m_executingPixmapRequests.remove(req);
m_pixmapRequestsMutex.unlock();
delete req;
if (m_closingLoop) {
m_closingLoop->exit();
}
return;
}
#ifndef NDEBUG
if (!m_generator->canGeneratePixmap()) {
qCDebug(OkularCoreDebug) << "requestDone with generator not in READY state.";
}
#endif
if (!req->shouldAbortRender()) {
// [MEM] 1.1 find and remove a previous entry for the same page and id
std::list<AllocatedPixmap *>::iterator aIt = m_allocatedPixmaps.begin();
std::list<AllocatedPixmap *>::iterator aEnd = m_allocatedPixmaps.end();
for (; aIt != aEnd; ++aIt) {
if ((*aIt)->page == req->pageNumber() && (*aIt)->observer == req->observer()) {
AllocatedPixmap *p = *aIt;
m_allocatedPixmaps.erase(aIt);
m_allocatedPixmapsTotalMemory -= p->memory;
delete p;
break;
}
}
DocumentObserver *observer = req->observer();
if (m_observers.contains(observer)) {
// [MEM] 1.2 append memory allocation descriptor to the FIFO
qulonglong memoryBytes = 0;
const TilesManager *tm = req->d->tilesManager();
if (tm) {
memoryBytes = tm->totalMemory();
} else {
memoryBytes = 4 * req->width() * req->height();
}
AllocatedPixmap *memoryPage = new AllocatedPixmap(req->observer(), req->pageNumber(), memoryBytes);
m_allocatedPixmaps.push_back(memoryPage);
m_allocatedPixmapsTotalMemory += memoryBytes;
// 2. notify an observer that its pixmap changed
observer->notifyPageChanged(req->pageNumber(), DocumentObserver::Pixmap);
}
#ifndef NDEBUG
else {
qCWarning(OkularCoreDebug) << "Receiving a done request for the defunct observer" << observer;
}
#endif
}
// 3. delete request
m_pixmapRequestsMutex.lock();
m_executingPixmapRequests.remove(req);
m_pixmapRequestsMutex.unlock();
delete req;
// 4. start a new generation if some is pending
m_pixmapRequestsMutex.lock();
bool hasPixmaps = !m_pixmapRequestsStack.empty();
m_pixmapRequestsMutex.unlock();
if (hasPixmaps) {
sendGeneratorPixmapRequest();
}
}
void DocumentPrivate::setPageBoundingBox(int page, const NormalizedRect &boundingBox)
{
Page *kp = m_pagesVector[page];
if (!m_generator || !kp) {
return;
}
if (kp->boundingBox() == boundingBox) {
return;
}
kp->setBoundingBox(boundingBox);
// notify observers about the change
foreachObserverD(notifyPageChanged(page, DocumentObserver::BoundingBox));
// TODO: For generators that generate the bbox by pixmap scanning, if the first generated pixmap is very small, the bounding box will forever be inaccurate.
// TODO: Crop computation should also consider annotations, actions, etc. to make sure they're not cropped away.
// TODO: Help compute bounding box for generators that create a QPixmap without a QImage, like text and plucker.
// TODO: Don't compute the bounding box if no one needs it (e.g., Trim Borders is off).
}
void DocumentPrivate::calculateMaxTextPages()
{
int multipliers = qMax(1, qRound(getTotalMemory() / 536870912.0)); // 512 MB
switch (SettingsCore::memoryLevel()) {
case SettingsCore::EnumMemoryLevel::Low:
m_maxAllocatedTextPages = multipliers * 2;
break;
case SettingsCore::EnumMemoryLevel::Normal:
m_maxAllocatedTextPages = multipliers * 50;
break;
case SettingsCore::EnumMemoryLevel::Aggressive:
m_maxAllocatedTextPages = multipliers * 250;
break;
case SettingsCore::EnumMemoryLevel::Greedy:
m_maxAllocatedTextPages = multipliers * 1250;
break;
}
}
void DocumentPrivate::textGenerationDone(Page *page)
{
if (!m_pageController) {
return;
}
// 1. If we reached the cache limit, delete the first text page from the fifo
if (m_allocatedTextPagesFifo.size() == m_maxAllocatedTextPages) {
int pageToKick = m_allocatedTextPagesFifo.takeFirst();
if (pageToKick != page->number()) // this should never happen but better be safe than sorry
{
m_pagesVector.at(pageToKick)->setTextPage(nullptr); // deletes the textpage
}
}
// 2. Add the page to the fifo of generated text pages
m_allocatedTextPagesFifo.append(page->number());
}
void Document::setRotation(int r)
{
d->setRotationInternal(r, true);
}
void DocumentPrivate::setRotationInternal(int r, bool notify)
{
Rotation rotation = (Rotation)r;
if (!m_generator || (m_rotation == rotation)) {
return;
}
// tell the pages to rotate
QVector<Okular::Page *>::const_iterator pIt = m_pagesVector.constBegin();
QVector<Okular::Page *>::const_iterator pEnd = m_pagesVector.constEnd();
for (; pIt != pEnd; ++pIt) {
(*pIt)->d->rotateAt(rotation);
}
if (notify) {
// notify the generator that the current rotation has changed
m_generator->rotationChanged(rotation, m_rotation);
}
// set the new rotation
m_rotation = rotation;
if (notify) {
foreachObserverD(notifySetup(m_pagesVector, DocumentObserver::NewLayoutForPages));
foreachObserverD(notifyContentsCleared(DocumentObserver::Pixmap | DocumentObserver::Highlights | DocumentObserver::Annotations));
}
qCDebug(OkularCoreDebug) << "Rotated:" << r;
}
void Document::setPageSize(const PageSize &size)
{
if (!d->m_generator || !d->m_generator->hasFeature(Generator::PageSizes)) {
return;
}
if (d->m_pageSizes.isEmpty()) {
d->m_pageSizes = d->m_generator->pageSizes();
}
int sizeid = d->m_pageSizes.indexOf(size);
if (sizeid == -1) {
return;
}
// tell the pages to change size
QVector<Okular::Page *>::const_iterator pIt = d->m_pagesVector.constBegin();
QVector<Okular::Page *>::const_iterator pEnd = d->m_pagesVector.constEnd();
for (; pIt != pEnd; ++pIt) {
(*pIt)->d->changeSize(size);
}
// clear 'memory allocation' descriptors
qDeleteAll(d->m_allocatedPixmaps);
d->m_allocatedPixmaps.clear();
d->m_allocatedPixmapsTotalMemory = 0;
// notify the generator that the current page size has changed
d->m_generator->pageSizeChanged(size, d->m_pageSize);
// set the new page size
d->m_pageSize = size;
foreachObserver(notifySetup(d->m_pagesVector, DocumentObserver::NewLayoutForPages));
foreachObserver(notifyContentsCleared(DocumentObserver::Pixmap | DocumentObserver::Highlights));
qCDebug(OkularCoreDebug) << "New PageSize id:" << sizeid;
}
/** DocumentViewport **/
DocumentViewport::DocumentViewport(int n)
: pageNumber(n)
{
// default settings
rePos.enabled = false;
rePos.normalizedX = 0.5;
rePos.normalizedY = 0.0;
rePos.pos = Center;
autoFit.enabled = false;
autoFit.width = false;
autoFit.height = false;
}
DocumentViewport::DocumentViewport(const QString &xmlDesc)
: pageNumber(-1)
{
// default settings (maybe overridden below)
rePos.enabled = false;
rePos.normalizedX = 0.5;
rePos.normalizedY = 0.0;
rePos.pos = Center;
autoFit.enabled = false;
autoFit.width = false;
autoFit.height = false;
// check for string presence
if (xmlDesc.isEmpty()) {
return;
}
// decode the string
bool ok;
int field = 0;
QString token = xmlDesc.section(QLatin1Char(';'), field, field);
while (!token.isEmpty()) {
// decode the current token
if (field == 0) {
pageNumber = token.toInt(&ok);
if (!ok) {
return;
}
} else if (token.startsWith(QLatin1String("C1"))) {
rePos.enabled = true;
rePos.normalizedX = token.section(QLatin1Char(':'), 1, 1).toDouble();
rePos.normalizedY = token.section(QLatin1Char(':'), 2, 2).toDouble();
rePos.pos = Center;
} else if (token.startsWith(QLatin1String("C2"))) {
rePos.enabled = true;
rePos.normalizedX = token.section(QLatin1Char(':'), 1, 1).toDouble();
rePos.normalizedY = token.section(QLatin1Char(':'), 2, 2).toDouble();
if (token.section(QLatin1Char(':'), 3, 3).toInt() == 1) {
rePos.pos = Center;
} else {
rePos.pos = TopLeft;
}
} else if (token.startsWith(QLatin1String("AF1"))) {
autoFit.enabled = true;
autoFit.width = token.section(QLatin1Char(':'), 1, 1) == QLatin1String("T");
autoFit.height = token.section(QLatin1Char(':'), 2, 2) == QLatin1String("T");
}
// proceed tokenizing string
field++;
token = xmlDesc.section(QLatin1Char(';'), field, field);
}
}
QString DocumentViewport::toString() const
{
// start string with page number
QString s = QString::number(pageNumber);
// if has center coordinates, save them on string
if (rePos.enabled) {
s += QStringLiteral(";C2:") + QString::number(rePos.normalizedX) + QLatin1Char(':') + QString::number(rePos.normalizedY) + QLatin1Char(':') + QString::number(rePos.pos);
}
// if has autofit enabled, save its state on string
if (autoFit.enabled) {
s += QStringLiteral(";AF1:") + (autoFit.width ? QLatin1Char('T') : QLatin1Char('F')) + QLatin1Char(':') + (autoFit.height ? QLatin1Char('T') : QLatin1Char('F'));
}
return s;
}
bool DocumentViewport::isValid() const
{
return pageNumber >= 0;
}
bool DocumentViewport::operator==(const DocumentViewport &other) const
{
bool equal = (pageNumber == other.pageNumber) && (rePos.enabled == other.rePos.enabled) && (autoFit.enabled == other.autoFit.enabled);
if (!equal) {
return false;
}
if (rePos.enabled && ((rePos.normalizedX != other.rePos.normalizedX) || (rePos.normalizedY != other.rePos.normalizedY) || rePos.pos != other.rePos.pos)) {
return false;
}
if (autoFit.enabled && ((autoFit.width != other.autoFit.width) || (autoFit.height != other.autoFit.height))) {
return false;
}
return true;
}
bool DocumentViewport::operator<(const DocumentViewport &other) const
{
// TODO: Check autoFit and Position
if (pageNumber != other.pageNumber) {
return pageNumber < other.pageNumber;
}
if (!rePos.enabled && other.rePos.enabled) {
return true;
}
if (!other.rePos.enabled) {
return false;
}
if (rePos.normalizedY != other.rePos.normalizedY) {
return rePos.normalizedY < other.rePos.normalizedY;
}
return rePos.normalizedX < other.rePos.normalizedX;
}
/** DocumentInfo **/
DocumentInfo::DocumentInfo()
: d(new DocumentInfoPrivate())
{
}
DocumentInfo::DocumentInfo(const DocumentInfo &info)
: d(new DocumentInfoPrivate())
{
*this = info;
}
DocumentInfo &DocumentInfo::operator=(const DocumentInfo &info)
{
if (this != &info) {
d->values = info.d->values;
d->titles = info.d->titles;
}
return *this;
}
DocumentInfo::~DocumentInfo()
{
delete d;
}
void DocumentInfo::set(const QString &key, const QString &value, const QString &title)
{
d->values[key] = value;
d->titles[key] = title;
}
void DocumentInfo::set(Key key, const QString &value)
{
d->values[getKeyString(key)] = value;
}
QStringList DocumentInfo::keys() const
{
return d->values.keys();
}
QString DocumentInfo::get(Key key) const
{
return get(getKeyString(key));
}
QString DocumentInfo::get(const QString &key) const
{
return d->values[key];
}
QString DocumentInfo::getKeyString(Key key) // const
{
switch (key) {
case Title:
return QStringLiteral("title");
break;
case Subject:
return QStringLiteral("subject");
break;
case Description:
return QStringLiteral("description");
break;
case Author:
return QStringLiteral("author");
break;
case Creator:
return QStringLiteral("creator");
break;
case Producer:
return QStringLiteral("producer");
break;
case Copyright:
return QStringLiteral("copyright");
break;
case Pages:
return QStringLiteral("pages");
break;
case CreationDate:
return QStringLiteral("creationDate");
break;
case ModificationDate:
return QStringLiteral("modificationDate");
break;
case MimeType:
return QStringLiteral("mimeType");
break;
case Category:
return QStringLiteral("category");
break;
case Keywords:
return QStringLiteral("keywords");
break;
case FilePath:
return QStringLiteral("filePath");
break;
case DocumentSize:
return QStringLiteral("documentSize");
break;
case PagesSize:
return QStringLiteral("pageSize");
break;
default:
qCWarning(OkularCoreDebug) << "Unknown" << key;
return QString();
break;
}
}
DocumentInfo::Key DocumentInfo::getKeyFromString(const QString &key) // const
{
if (key == QLatin1String("title")) {
return Title;
} else if (key == QLatin1String("subject")) {
return Subject;
} else if (key == QLatin1String("description")) {
return Description;
} else if (key == QLatin1String("author")) {
return Author;
} else if (key == QLatin1String("creator")) {
return Creator;
} else if (key == QLatin1String("producer")) {
return Producer;
} else if (key == QLatin1String("copyright")) {
return Copyright;
} else if (key == QLatin1String("pages")) {
return Pages;
} else if (key == QLatin1String("creationDate")) {
return CreationDate;
} else if (key == QLatin1String("modificationDate")) {
return ModificationDate;
} else if (key == QLatin1String("mimeType")) {
return MimeType;
} else if (key == QLatin1String("category")) {
return Category;
} else if (key == QLatin1String("keywords")) {
return Keywords;
} else if (key == QLatin1String("filePath")) {
return FilePath;
} else if (key == QLatin1String("documentSize")) {
return DocumentSize;
} else if (key == QLatin1String("pageSize")) {
return PagesSize;
} else {
return Invalid;
}
}
QString DocumentInfo::getKeyTitle(Key key) // const
{
switch (key) {
case Title:
return i18n("Title");
break;
case Subject:
return i18n("Subject");
break;
case Description:
return i18n("Description");
break;
case Author:
return i18n("Author");
break;
case Creator:
return i18n("Creator");
break;
case Producer:
return i18n("Producer");
break;
case Copyright:
return i18n("Copyright");
break;
case Pages:
return i18n("Pages");
break;
case CreationDate:
return i18n("Created");
break;
case ModificationDate:
return i18n("Modified");
break;
case MimeType:
return i18n("MIME Type");
break;
case Category:
return i18n("Category");
break;
case Keywords:
return i18n("Keywords");
break;
case FilePath:
return i18n("File Path");
break;
case DocumentSize:
return i18n("File Size");
break;
case PagesSize:
return i18n("Page Size");
break;
default:
return QString();
break;
}
}
QString DocumentInfo::getKeyTitle(const QString &key) const
{
QString title = getKeyTitle(getKeyFromString(key));
if (title.isEmpty()) {
title = d->titles[key];
}
return title;
}
/** DocumentSynopsis **/
DocumentSynopsis::DocumentSynopsis()
: QDomDocument(QStringLiteral("DocumentSynopsis"))
{
// void implementation, only subclassed for naming
}
DocumentSynopsis::DocumentSynopsis(const QDomDocument &document)
: QDomDocument(document)
{
}
/** EmbeddedFile **/
EmbeddedFile::EmbeddedFile()
{
}
EmbeddedFile::~EmbeddedFile()
{
}
VisiblePageRect::VisiblePageRect(int page, const NormalizedRect &rectangle)
: pageNumber(page)
, rect(rectangle)
{
}
/** NewSignatureData **/
struct Okular::NewSignatureDataPrivate {
NewSignatureDataPrivate() = default;
QString certNickname;
QString certSubjectCommonName;
QString password;
QString documentPassword;
QString location;
QString reason;
QString backgroundImagePath;
int page = -1;
NormalizedRect boundingRectangle;
};
NewSignatureData::NewSignatureData()
: d(new NewSignatureDataPrivate())
{
}
NewSignatureData::~NewSignatureData()
{
delete d;
}
QString NewSignatureData::certNickname() const
{
return d->certNickname;
}
void NewSignatureData::setCertNickname(const QString &certNickname)
{
d->certNickname = certNickname;
}
QString NewSignatureData::certSubjectCommonName() const
{
return d->certSubjectCommonName;
}
void NewSignatureData::setCertSubjectCommonName(const QString &certSubjectCommonName)
{
d->certSubjectCommonName = certSubjectCommonName;
}
QString NewSignatureData::password() const
{
return d->password;
}
void NewSignatureData::setPassword(const QString &password)
{
d->password = password;
}
int NewSignatureData::page() const
{
return d->page;
}
void NewSignatureData::setPage(int page)
{
d->page = page;
}
NormalizedRect NewSignatureData::boundingRectangle() const
{
return d->boundingRectangle;
}
void NewSignatureData::setBoundingRectangle(const NormalizedRect &rect)
{
d->boundingRectangle = rect;
}
QString NewSignatureData::documentPassword() const
{
return d->documentPassword;
}
void NewSignatureData::setDocumentPassword(const QString &password)
{
d->documentPassword = password;
}
QString NewSignatureData::location() const
{
return d->location;
}
void NewSignatureData::setLocation(const QString &location)
{
d->location = location;
}
QString NewSignatureData::reason() const
{
return d->reason;
}
void NewSignatureData::setReason(const QString &reason)
{
d->reason = reason;
}
QString Okular::NewSignatureData::backgroundImagePath() const
{
return d->backgroundImagePath;
}
void Okular::NewSignatureData::setBackgroundImagePath(const QString &path)
{
d->backgroundImagePath = path;
}
#undef foreachObserver
#undef foreachObserverD
#include "document.moc"
/* kate: replace-tabs on; indent-width 4; */
Reference in New Issue View Git Blame Copy Permalink