#include "doubleparameterwidget.h"
#include "cornerswidget.h"
#include "beziercurve/beziersplinewidget.h"
+#ifdef QJSON
+#include "rotoscoping/rotowidget.h"
+#endif
#include <KDebug>
#include <KLocale>
#include <KFileDialog>
+#include <KColorScheme>
#include <QVBoxLayout>
#include <QLabel>
#include <QCheckBox>
#include <QScrollArea>
+// For QDomNode debugging (output into files); leaving here as sample code.
+//#define DEBUG_ESE
+
class Boolval: public QWidget, public Ui::Boolval_UI
{
m_out(0),
m_frameSize(QPoint()),
m_keyframeEditor(NULL),
- m_monitor(monitor)
+ m_monitor(monitor),
+ m_geometryWidget(NULL)
{
m_baseWidget = new QWidget(this);
setHorizontalScrollBarPolicy(Qt::ScrollBarAlwaysOff);
setVerticalScrollBarPolicy(Qt::ScrollBarAsNeeded);
setFrameStyle(QFrame::NoFrame);
setSizePolicy(QSizePolicy(QSizePolicy::Expanding, QSizePolicy::MinimumExpanding));
-
+
+ QPalette p = palette();
+ KColorScheme scheme(p.currentColorGroup(), KColorScheme::View, KSharedConfig::openConfig(KdenliveSettings::colortheme()));
+ QColor dark_bg = scheme.shade(KColorScheme::DarkShade);
+ QColor selected_bg = scheme.decoration(KColorScheme::FocusColor).color();
+ QColor hover_bg = scheme.decoration(KColorScheme::HoverColor).color();
+ QColor light_bg = scheme.shade(KColorScheme::LightShade);
+
+ QString stylesheet(QString("QProgressBar:horizontal {border: 1px solid %1;border-radius:0px;border-top-left-radius: 4px;border-bottom-left-radius: 4px;border-right: 0px;background:%4;padding: 0px;text-align:left center}\
+ QProgressBar:horizontal#dragOnly {background: %1} QProgressBar:horizontal:hover#dragOnly {background: %3} QProgressBar:horizontal:hover {border: 1px solid %3;border-right: 0px;}\
+ QProgressBar::chunk:horizontal {background: %1;} QProgressBar::chunk:horizontal:hover {background: %3;}\
+ QProgressBar:horizontal[inTimeline=\"true\"] { border: 1px solid %2;border-right: 0px;background: %4;padding: 0px;text-align:left center } QProgressBar::chunk:horizontal[inTimeline=\"true\"] {background: %2;}\
+ QAbstractSpinBox#dragBox {border: 1px solid %1;border-top-right-radius: 4px;border-bottom-right-radius: 4px;padding-right:0px;} QAbstractSpinBox::down-button#dragBox {width:0px;padding:0px;}\
+ QAbstractSpinBox::up-button#dragBox {width:0px;padding:0px;} QAbstractSpinBox[inTimeline=\"true\"]#dragBox { border: 1px solid %2;} QAbstractSpinBox:hover#dragBox {border: 1px solid %3;} ")
+ .arg(dark_bg.name()).arg(selected_bg.name()).arg(hover_bg.name()).arg(light_bg.name()));
+ setStyleSheet(stylesheet);
+
setWidget(m_baseWidget);
setWidgetResizable(true);
m_vbox = new QVBoxLayout(m_baseWidget);
m_vbox->setContentsMargins(0, 0, 0, 0);
- m_vbox->setSpacing(0);
- //wid->show();
+ m_vbox->setSpacing(2);
}
EffectStackEdit::~EffectStackEdit()
QString type = pa.attributes().namedItem("type").nodeValue();
QString paramName = i18n(na.toElement().text().toUtf8().data());
- if (type == "geometry" && !KdenliveSettings::on_monitor_effects()) {
- Geometryval *geom = ((Geometryval*)m_valueItems[paramName+"geometry"]);
- geom->setFrameSize(m_frameSize);
- break;
+ if (type == "geometry") {
+ if (!KdenliveSettings::on_monitor_effects()) {
+ Geometryval *geom = ((Geometryval*)m_valueItems[paramName+"geometry"]);
+ geom->setFrameSize(m_frameSize);
+ break;
+ }
+ else {
+ if (m_geometryWidget) m_geometryWidget->setFrameSize(m_frameSize);
+ break;
+ }
}
}
}
if (type == "geometry") {
if (KdenliveSettings::on_monitor_effects()) {
- GeometryWidget *geom = (GeometryWidget*)m_valueItems[paramName+"geometry"];
- geom->updateTimecodeFormat();
+ if (m_geometryWidget) m_geometryWidget->updateTimecodeFormat();
} else {
Geometryval *geom = ((Geometryval*)m_valueItems[paramName+"geometry"]);
geom->updateTimecodeFormat();
m_in = in;
m_out = out;
if (m_params.isNull()) {
- kDebug() << "// EMPTY EFFECT STACK";
+// kDebug() << "// EMPTY EFFECT STACK";
return;
}
QDomNodeList namenode = m_params.elementsByTagName("parameter");
+#ifdef DEBUG_ESE
+ QFile debugFile("/tmp/namenodes.txt");
+ if (debugFile.open(QFile::WriteOnly | QFile::Truncate)) {
+ QTextStream out(&debugFile);
+ QTextStream out2(stdout);
+ for (int i = 0; i < namenode.size(); i++) {
+ out << i << ": \n";
+ namenode.at(i).save(out, 2);
+ out2 << i << ": \n";
+ namenode.at(i).save(out2, 2);
+ }
+ }
+#endif
QDomElement e = m_params.toElement();
const int minFrame = e.attribute("start").toInt();
const int maxFrame = e.attribute("end").toInt();
max = pa.attribute("max").toInt();
DoubleParameterWidget *doubleparam = new DoubleParameterWidget(paramName, (int)(value.toDouble() + 0.5), min, max,
- pa.attribute("default").toInt(), comment, pa.attribute("suffix"), this);
+ pa.attribute("default").toInt(), comment, -1, pa.attribute("suffix"), this);
m_vbox->addWidget(doubleparam);
m_valueItems[paramName] = doubleparam;
connect(doubleparam, SIGNAL(valueChanged(int)), this, SLOT(collectAllParameters()));
}
if (!value.isEmpty()) lsval->list->setCurrentIndex(listitems.indexOf(value));
lsval->name->setText(paramName);
+ lsval->labelComment->setText(comment);
+ lsval->widgetComment->setHidden(true);
m_valueItems[paramName] = lsval;
connect(lsval->list, SIGNAL(currentIndexChanged(int)) , this, SLOT(collectAllParameters()));
+ if (!comment.isEmpty())
+ connect(this, SIGNAL(showComments(bool)), lsval->widgetComment, SLOT(setVisible(bool)));
m_uiItems.append(lsval);
} else if (type == "bool") {
Boolval *bval = new Boolval;
bval->checkBox->setCheckState(value == "0" ? Qt::Unchecked : Qt::Checked);
bval->name->setText(paramName);
bval->labelComment->setText(comment);
- bval->labelComment->setHidden(true);
+ bval->widgetComment->setHidden(true);
m_valueItems[paramName] = bval;
connect(bval->checkBox, SIGNAL(stateChanged(int)) , this, SLOT(collectAllParameters()));
if (!comment.isEmpty())
- connect(this, SIGNAL(showComments(bool)), bval->labelComment, SLOT(setVisible(bool)));
+ connect(this, SIGNAL(showComments(bool)), bval->widgetComment, SLOT(setVisible(bool)));
m_uiItems.append(bval);
} else if (type == "complex") {
ComplexParameter *pl = new ComplexParameter;
connect(pl, SIGNAL(parameterChanged()), this, SLOT(collectAllParameters()));
} else if (type == "geometry") {
if (KdenliveSettings::on_monitor_effects()) {
- GeometryWidget *geometry = new GeometryWidget(m_monitor, m_timecode, pos, isEffect, this);
- geometry->slotShowScene(!disable);
+ m_geometryWidget = new GeometryWidget(m_monitor, m_timecode, pos, isEffect, m_params.hasAttribute("showrotation"), this);
+ m_geometryWidget->setFrameSize(m_frameSize);
+ m_geometryWidget->slotShowScene(!disable);
// connect this before setupParam to make sure the monitor scene shows up at startup
- connect(geometry, SIGNAL(checkMonitorPosition(int)), this, SIGNAL(checkMonitorPosition(int)));
- connect(geometry, SIGNAL(parameterChanged()), this, SLOT(collectAllParameters()));
+ connect(m_geometryWidget, SIGNAL(checkMonitorPosition(int)), this, SIGNAL(checkMonitorPosition(int)));
+ connect(m_geometryWidget, SIGNAL(parameterChanged()), this, SLOT(collectAllParameters()));
if (minFrame == maxFrame)
- geometry->setupParam(pa, m_in, m_out);
+ m_geometryWidget->setupParam(pa, m_in, m_out);
else
- geometry->setupParam(pa, minFrame, maxFrame);
- m_vbox->addWidget(geometry);
- m_valueItems[paramName+"geometry"] = geometry;
- connect(geometry, SIGNAL(seekToPos(int)), this, SIGNAL(seekTimeline(int)));
- connect(this, SIGNAL(syncEffectsPos(int)), geometry, SLOT(slotSyncPosition(int)));
- connect(this, SIGNAL(effectStateChanged(bool)), geometry, SLOT(slotShowScene(bool)));
+ m_geometryWidget->setupParam(pa, minFrame, maxFrame);
+ m_vbox->addWidget(m_geometryWidget);
+ m_valueItems[paramName+"geometry"] = m_geometryWidget;
+ connect(m_geometryWidget, SIGNAL(seekToPos(int)), this, SIGNAL(seekTimeline(int)));
+ connect(this, SIGNAL(syncEffectsPos(int)), m_geometryWidget, SLOT(slotSyncPosition(int)));
+ connect(this, SIGNAL(effectStateChanged(bool)), m_geometryWidget, SLOT(slotShowScene(bool)));
} else {
Geometryval *geo = new Geometryval(m_profile, m_timecode, m_frameSize, pos);
if (minFrame == maxFrame)
connect(geo, SIGNAL(seekToPos(int)), this, SIGNAL(seekTimeline(int)));
connect(this, SIGNAL(syncEffectsPos(int)), geo, SLOT(slotSyncPosition(int)));
}
+ } else if (type == "addedgeometry") {
+ // this is a parameter that should be linked to the geometry widget, for example rotation, shear, ...
+ if (m_geometryWidget) m_geometryWidget->addParameter(pa);
} else if (type == "keyframe" || type == "simplekeyframe") {
// keyframe editor widget
if (m_keyframeEditor == NULL) {
corners->slotShowScene(!disable);
connect(corners, SIGNAL(checkMonitorPosition(int)), this, SIGNAL(checkMonitorPosition(int)));
connect(this, SIGNAL(effectStateChanged(bool)), corners, SLOT(slotShowScene(bool)));
+ connect(this, SIGNAL(syncEffectsPos(int)), corners, SLOT(slotSyncPosition(int)));
geo = static_cast<KeyframeEdit *>(corners);
} else {
geo = new KeyframeEdit(pa, m_in, m_in + m_out, m_timecode, e.attribute("active_keyframe", "-1").toInt());
QString depends = pa.attribute("depends");
if (!depends.isEmpty())
meetDependency(paramName, type, EffectsList::parameter(e, depends));
+#ifdef QJSON
+ } else if (type == "roto-spline") {
+ RotoWidget *roto = new RotoWidget(value, m_monitor, m_in, m_out, m_timecode, this);
+ roto->slotShowScene(!disable);
+ connect(roto, SIGNAL(valueChanged()), this, SLOT(collectAllParameters()));
+ connect(roto, SIGNAL(checkMonitorPosition(int)), this, SIGNAL(checkMonitorPosition(int)));
+ connect(roto, SIGNAL(seekToPos(int)), this, SIGNAL(seekTimeline(int)));
+ connect(this, SIGNAL(syncEffectsPos(int)), roto, SLOT(slotSyncPosition(int)));
+ connect(this, SIGNAL(effectStateChanged(bool)), roto, SLOT(slotShowScene(bool)));
+ m_vbox->addWidget(roto);
+ m_valueItems[paramName] = roto;
+#endif
} else if (type == "wipe") {
Wipeval *wpval = new Wipeval;
wpval->setupUi(toFillin);
if (m_keyframeEditor)
m_keyframeEditor->checkVisibleParam();
+
+ // Make sure all doubleparam spinboxes have the same width, looks much better
+ QList<DoubleParameterWidget *> allWidgets = findChildren<DoubleParameterWidget *>();
+ int minSize = 0;
+ for (int i = 0; i < allWidgets.count(); i++) {
+ if (minSize < allWidgets.at(i)->spinSize()) minSize = allWidgets.at(i)->spinSize();
+ }
+ for (int i = 0; i < allWidgets.count(); i++) {
+ allWidgets.at(i)->setSpinSize(minSize);
+ }
}
wipeInfo EffectStackEdit::getWipeInfo(QString value)
paramName.append("geometry");
else if (type == "keyframe")
paramName.append("keyframe");
- if (type != "simplekeyframe" && !m_valueItems.contains(paramName)) {
+ if (type != "simplekeyframe" && type != "fixed" && type != "addedgeometry" && !m_valueItems.contains(paramName)) {
kDebug() << "// Param: " << paramName << " NOT FOUND";
continue;
}
namenode.item(i) = complex->getParamDesc();
} else if (type == "geometry") {
if (KdenliveSettings::on_monitor_effects()) {
- GeometryWidget *geometry = ((GeometryWidget*)m_valueItems.value(paramName));
- namenode.item(i).toElement().setAttribute("value", geometry->getValue());
+ if (m_geometryWidget) namenode.item(i).toElement().setAttribute("value", m_geometryWidget->getValue());
} else {
Geometryval *geom = ((Geometryval*)m_valueItems.value(paramName));
namenode.item(i).toElement().setAttribute("value", geom->getValue());
}
+ } else if (type == "addedgeometry") {
+ namenode.item(i).toElement().setAttribute("value", m_geometryWidget->getExtraValue(namenode.item(i).toElement().attribute("name")));
} else if (type == "position") {
PositionEdit *pedit = ((PositionEdit*)m_valueItems.value(paramName));
int pos = pedit->getPosition();
QString depends = pa.attributes().namedItem("depends").nodeValue();
if (!depends.isEmpty())
meetDependency(paramName, type, EffectsList::parameter(newparam, depends));
+#ifdef QJSON
+ } else if (type == "roto-spline") {
+ RotoWidget *widget = static_cast<RotoWidget *>(m_valueItems.value(paramName));
+ setValue = widget->getSpline();
+#endif
} else if (type == "wipe") {
Wipeval *wp = (Wipeval*)m_valueItems.value(paramName);
wipeInfo info;
if (wid) delete wid;
}
m_keyframeEditor = NULL;
+ m_geometryWidget = NULL;
blockSignals(false);
}