* (at your option) any later version. *
***************************************************************************/
-/**
-
- Vectorscope.
-
- The basis matrix for converting RGB to YUV is:
-
-mRgb2Yuv = r =
-
- 0.29900 0.58700 0.11400 1.00000
- -0.14741 -0.28939 0.43680 x 0.00000
- 0.61478 -0.51480 -0.09998 0.00000
-
- The resulting YUV value is then drawn on the circle
- using U and V as coordinate values.
-
- The maximum length of such an UV vector is reached
- for the colors Red and Cyan: 0.632.
- To make optimal use of space in the circle, this value
- can be used for scaling.
-
- As we are dealing with RGB values in a range of {0,...,255}
- and the conversion values are made for [0,1], we already
- divide the conversion values by 255 previously, e.g. in
- GNU octave.
-
- See also:
- http://de.wikipedia.org/wiki/Vektorskop
- http://www.elektroniktutor.de/techno/vektskop.html
-
- */
+#include <QAction>
#include <QColor>
+#include <QDebug>
#include <QMouseEvent>
+#include <QMenu>
#include <QPainter>
-#include <QDebug>
-//#include <QMenu>
-#include <QAction>
-#include <qtconcurrentrun.h>
-#include <QThread>
#include <QTime>
+#include "colorplaneexport.h"
+#include "colortools.h"
+#include "renderer.h"
#include "vectorscope.h"
+#include "vectorscopegenerator.h"
-const float SCALING = 1/.7; // See class docs
const float P75 = .75;
const unsigned char DEFAULT_Y = 255;
const QPointF YUV_Mg(.289, .515);
const QPointF YUV_Yl(-.437, .100);
-const QPen penThick(QBrush(QColor(250,250,250)), 2, Qt::SolidLine);
-const QPen penThin(QBrush(QColor(250,250,250)), 1, Qt::SolidLine);
-const QPen penLight(QBrush(QColor(200,200,250,150)), 1, Qt::SolidLine);
-const QPen penDark(QBrush(QColor(0,0,20,250)), 1, Qt::SolidLine);
+const QPointF YPbPr_R(-.169, .5);
+const QPointF YPbPr_G(-.331, -.419);
+const QPointF YPbPr_B(.5, -.081);
+const QPointF YPbPr_Cy(.169, -.5);
+const QPointF YPbPr_Mg(.331, .419);
+const QPointF YPbPr_Yl(-.5, .081);
Vectorscope::Vectorscope(Monitor *projMonitor, Monitor *clipMonitor, QWidget *parent) :
- QWidget(parent),
- m_projMonitor(projMonitor),
- m_clipMonitor(clipMonitor),
- m_activeRender(clipMonitor->render),
- m_scaling(1),
- circleEnabled(false),
- initialDimensionUpdateDone(false)
+ AbstractScopeWidget(projMonitor, clipMonitor, true, parent),
+ m_gain(1)
{
- setupUi(this);
-
- // Use item index 20 to always append it to the list. (Update if more than 20 items here.)
- paintMode->insertItem(20, i18n("Green"), QVariant(PAINT_GREEN));
- paintMode->insertItem(20, i18n("Black"), QVariant(PAINT_BLACK));
- paintMode->insertItem(20, i18n("Chroma"), QVariant(PAINT_CHROMA));
- paintMode->insertItem(20, i18n("YUV"), QVariant(PAINT_YUV));
- paintMode->insertItem(20, i18n("Original Color"), QVariant(PAINT_ORIG));
-
- backgroundMode->insertItem(20, i18n("None"), QVariant(BG_NONE));
- backgroundMode->insertItem(20, i18n("YUV"), QVariant(BG_YUV));
- backgroundMode->insertItem(20, i18n("Chroma"), QVariant(BG_CHROMA));
-
- cbAutoRefresh->setChecked(true);
-
- connect(paintMode, SIGNAL(currentIndexChanged(int)), this, SLOT(slotPaintModeChanged(int)));
- connect(backgroundMode, SIGNAL(currentIndexChanged(int)), this, SLOT(slotBackgroundChanged()));
- connect(cbMagnify, SIGNAL(stateChanged(int)), this, SLOT(slotMagnifyChanged()));
- connect(this, SIGNAL(signalScopeCalculationFinished()), this, SLOT(slotScopeCalculationFinished()));
- connect(this, SIGNAL(signalWheelCalculationFinished()), this, SLOT(slotWheelCalculationFinished()));
- connect(paintMode, SIGNAL(currentIndexChanged(int)), this, SLOT(slotUpdateScope()));
- connect(cbAutoRefresh, SIGNAL(stateChanged(int)), this, SLOT(slotUpdateScope()));
-
- newFrames.fetchAndStoreRelaxed(0);
- newChanges.fetchAndStoreRelaxed(0);
- newWheelChanges.fetchAndStoreRelaxed(0);
-
- setContextMenuPolicy(Qt::ActionsContextMenu);
- m_aExportBackground = new QAction(i18n("Export background"), this);
- m_aExportBackground->setEnabled(false);
- addAction(m_aExportBackground);
- connect(m_aExportBackground, SIGNAL(triggered()), this, SLOT(slotExportBackground()));
+ ui = new Ui::Vectorscope_UI();
+ ui->setupUi(this);
-// m_contextMenu = QMenu(this, "Vectorscope menu");
+ m_colorTools = new ColorTools();
+ m_colorPlaneExport = new ColorPlaneExport(this);
+ m_vectorscopeGenerator = new VectorscopeGenerator();
+ ui->paintMode->addItem(i18n("Green 2"), QVariant(VectorscopeGenerator::PaintMode_Green2));
+ ui->paintMode->addItem(i18n("Green"), QVariant(VectorscopeGenerator::PaintMode_Green));
+ ui->paintMode->addItem(i18n("Black"), QVariant(VectorscopeGenerator::PaintMode_Black));
+ ui->paintMode->addItem(i18n("Modified YUV (Chroma)"), QVariant(VectorscopeGenerator::PaintMode_Chroma));
+ ui->paintMode->addItem(i18n("YUV"), QVariant(VectorscopeGenerator::PaintMode_YUV));
+ ui->paintMode->addItem(i18n("Original Color"), QVariant(VectorscopeGenerator::PaintMode_Original));
- this->setMouseTracking(true);
- updateDimensions();
- prodWheelThread();
-}
+ ui->backgroundMode->addItem(i18n("None"), QVariant(BG_NONE));
+ ui->backgroundMode->addItem(i18n("YUV"), QVariant(BG_YUV));
+ ui->backgroundMode->addItem(i18n("Modified YUV (Chroma)"), QVariant(BG_CHROMA));
+ ui->backgroundMode->addItem(i18n("YPbPr"), QVariant(BG_YPbPr));
-Vectorscope::~Vectorscope()
-{
-}
+ ui->sliderGain->setMinimum(0);
+ ui->sliderGain->setMaximum(40);
-QImage Vectorscope::yuvColorWheel(const QSize &size, unsigned char Y, float scaling, bool modifiedVersion, bool circleOnly)
-{
- QImage wheel(size, QImage::Format_ARGB32);
- if (size.width() == 0 || size.height() == 0) {
- qCritical("ERROR: Size of the color wheel must not be 0!");
- return wheel;
- }
- wheel.fill(qRgba(0,0,0,0));
-
- double dr, dg, db, du, dv, dmax;
- double ru, rv, rr;
- const int w = size.width();
- const int h = size.height();
- const float w2 = (float)w/2;
- const float h2 = (float)h/2;
-
- for (int u = 0; u < w; u++) {
- // Transform u from {0,...,w} to [-1,1]
- du = (double) 2*u/(w-1) - 1;
- du = scaling*du;
-
- for (int v = 0; v < h; v++) {
- dv = (double) 2*v/(h-1) - 1;
- dv = scaling*dv;
-
- if (circleOnly) {
- // Ellipsis equation: x²/a² + y²/b² = 1
- // Here: x=ru, y=rv, a=w/2, b=h/2, 1=rr
- // For rr > 1, the point lies outside. Don't draw it.
- ru = u - w2;
- rv = v - h2;
- rr = ru*ru/(w2*w2) + rv*rv/(h2*h2);
- if (rr > 1) {
- continue;
- }
- }
+ bool b = true;
+ b &= connect(ui->backgroundMode, SIGNAL(currentIndexChanged(int)), this, SLOT(slotBackgroundChanged()));
+ b &= connect(ui->sliderGain, SIGNAL(valueChanged(int)), this, SLOT(slotGainChanged(int)));
+ b &= connect(ui->paintMode, SIGNAL(currentIndexChanged(int)), this, SLOT(forceUpdateScope()));
+ b &= connect(this, SIGNAL(signalMousePositionChanged()), this, SLOT(forceUpdateHUD()));
+ ui->sliderGain->setValue(0);
- // Calculate the RGB values from YUV
- dr = Y + 290.8*dv;
- dg = Y - 100.6*du - 148*dv;
- db = Y + 517.2*du;
-
- if (modifiedVersion) {
- // Scale the RGB values down, or up, to max 255
- dmax = fabs(dr);
- if (fabs(dg) > dmax) dmax = fabs(dg);
- if (fabs(db) > dmax) dmax = fabs(db);
- dmax = 255/dmax;
-
- dr *= dmax;
- dg *= dmax;
- db *= dmax;
- }
- // Avoid overflows (which would generate intersting patterns).
- // Note that not all possible (y,u,v) values with u,v \in [-1,1]
- // have a correct RGB representation, therefore some RGB values
- // may exceed {0,...,255}.
- if (dr < 0) dr = 0;
- if (dg < 0) dg = 0;
- if (db < 0) db = 0;
- if (dr > 255) dr = 255;
- if (dg > 255) dg = 255;
- if (db > 255) db = 255;
-
- wheel.setPixel(u, (h-v-1), qRgba(dr, dg, db, 255));
- }
- }
+ ///// Build context menu /////
- emit signalWheelCalculationFinished();
- return wheel;
-}
-
-/**
+ m_menu->addSeparator();
- Input point is on [-1,1]², 0 being at the center,
- and positive directions are top/right.
-
- Maps to a QRect «inside» which is using the
- 0 point in the top left corner. The coordinates of
- the rect «inside» are relative to «parent». The
- coordinates returned can be used in the parent.
+ m_aExportBackground = new QAction(i18n("Export background"), this);
+ m_menu->addAction(m_aExportBackground);
+ b &= connect(m_aExportBackground, SIGNAL(triggered()), this, SLOT(slotExportBackground()));
+
+ m_a75PBox = new QAction(i18n("75% box"), this);
+ m_a75PBox->setCheckable(true);
+ m_menu->addAction(m_a75PBox);
+ b &= connect(m_a75PBox, SIGNAL(changed()), this, SLOT(forceUpdateBackground()));
+
+ m_aAxisEnabled = new QAction(i18n("Draw axis"), this);
+ m_aAxisEnabled->setCheckable(true);
+ m_menu->addAction(m_aAxisEnabled);
+ b &= connect(m_aAxisEnabled, SIGNAL(changed()), this, SLOT(forceUpdateBackground()));
+
+ m_menu->addSeparator()->setText(i18n("Color Space"));
+ m_aColorSpace_YPbPr = new QAction(i18n("YPbPr"), this);
+ m_aColorSpace_YPbPr->setCheckable(true);
+ m_aColorSpace_YUV = new QAction(i18n("YUV"), this);
+ m_aColorSpace_YUV->setCheckable(true);
+ m_agColorSpace = new QActionGroup(this);
+ m_agColorSpace->addAction(m_aColorSpace_YPbPr);
+ m_agColorSpace->addAction(m_aColorSpace_YUV);
+ m_menu->addAction(m_aColorSpace_YPbPr);
+ m_menu->addAction(m_aColorSpace_YUV);
+ b &= connect(m_aColorSpace_YPbPr, SIGNAL(toggled(bool)), this, SLOT(slotColorSpaceChanged()));
+ b &= connect(m_aColorSpace_YUV, SIGNAL(toggled(bool)), this, SLOT(slotColorSpaceChanged()));
+
+ Q_ASSERT(b);
+
+ // To make the 1.0x text show
+ slotGainChanged(ui->sliderGain->value());
+
+ init();
+}
+Vectorscope::~Vectorscope()
+{
+ writeConfig();
+
+ delete m_colorTools;
+ delete m_colorPlaneExport;
+ delete m_vectorscopeGenerator;
+
+ delete m_aColorSpace_YPbPr;
+ delete m_aColorSpace_YUV;
+ delete m_aExportBackground;
+ delete m_aAxisEnabled;
+ delete m_a75PBox;
+ delete m_agColorSpace;
+}
- parent v
- +-------------------+
- | inside v |
- | +-----------+ |
- | | + | |
- | | --0++ | | < point
- | | - | |
- | +-----------+ |
- | |
- +-------------------+
+QString Vectorscope::widgetName() const { return QString("Vectorscope"); }
- */
-QPoint Vectorscope::mapToCanvas(QRect inside, QPointF point)
+void Vectorscope::readConfig()
{
- return QPoint(point.x()/2*inside.width() + inside.width()/2 + inside.x(),
- -point.y()/2*inside.height() + inside.height()/2 + inside.y());
+ AbstractScopeWidget::readConfig();
+
+ KSharedConfigPtr config = KGlobal::config();
+ KConfigGroup scopeConfig(config, configName());
+ m_a75PBox->setChecked(scopeConfig.readEntry("75PBox", false));
+ m_aAxisEnabled->setChecked(scopeConfig.readEntry("axis", false));
+ ui->backgroundMode->setCurrentIndex(scopeConfig.readEntry("backgroundmode").toInt());
+ ui->paintMode->setCurrentIndex(scopeConfig.readEntry("paintmode").toInt());
+ ui->sliderGain->setValue(scopeConfig.readEntry("gain", 1));
+ m_aColorSpace_YPbPr->setChecked(scopeConfig.readEntry("colorspace_ypbpr", false));
+ m_aColorSpace_YUV->setChecked(!m_aColorSpace_YPbPr->isChecked());
}
-bool Vectorscope::prodCalcThread()
+void Vectorscope::writeConfig()
{
- if (m_scopeCalcThread.isRunning()) {
- qDebug() << "Calc thread still running.";
- return false;
- } else {
- // See http://doc.qt.nokia.com/latest/qtconcurrentrun.html#run about
- // running member functions in a thread
- qDebug() << "Calc thread not running anymore, finished: " << m_scopeCalcThread.isFinished() << ", Starting new thread";
- m_scopeCalcThread = QtConcurrent::run(this, &Vectorscope::calculateScope);
- newFrames.fetchAndStoreRelease(0); // Reset number of new frames, as we just got the newest
- newChanges.fetchAndStoreRelease(0); // Do the same with the external changes counter
- return true;
- }
+ KSharedConfigPtr config = KGlobal::config();
+ KConfigGroup scopeConfig(config, configName());
+ scopeConfig.writeEntry("75PBox", m_a75PBox->isChecked());
+ scopeConfig.writeEntry("axis", m_aAxisEnabled->isChecked());
+ scopeConfig.writeEntry("backgroundmode", ui->backgroundMode->currentIndex());
+ scopeConfig.writeEntry("paintmode", ui->paintMode->currentIndex());
+ scopeConfig.writeEntry("gain", ui->sliderGain->value());
+ scopeConfig.writeEntry("colorspace_ypbpr", m_aColorSpace_YPbPr->isChecked());
+ scopeConfig.sync();
}
-bool Vectorscope::prodWheelThread()
+QRect Vectorscope::scopeRect()
{
- if (m_wheelCalcThread.isRunning()) {
- qDebug() << "Wheel thread still running.";
- return false;
- } else {
- switch (backgroundMode->itemData(backgroundMode->currentIndex()).toInt()) {
- case BG_NONE:
- qDebug() << "No background.";
- m_wheel = QImage();
- this->update();
- break;
- case BG_YUV:
- qDebug() << "YUV background.";
- m_wheelCalcThread = QtConcurrent::run(this, &Vectorscope::yuvColorWheel, m_scopeRect.size(), (unsigned char) 128, 1/SCALING, false, true);
- break;
- case BG_CHROMA:
- m_wheelCalcThread = QtConcurrent::run(this, &Vectorscope::yuvColorWheel, m_scopeRect.size(), (unsigned char) 255, 1/SCALING, true, true);
- break;
- }
- newWheelChanges.fetchAndStoreRelaxed(0);
- return true;
- }
-}
+ // Distance from top/left/right
+ int offset = 6;
+ // We want to paint below the controls area. The line is the lowest element.
+ QPoint topleft(offset, ui->verticalSpacer->geometry().y()+offset);
+ QPoint bottomright(ui->horizontalSpacer->geometry().right()-offset, this->size().height()-offset);
+ QRect scopeRect(topleft, bottomright);
-void Vectorscope::calculateScope()
-{
- // Prepare the vectorscope data
- QImage scope(cw, cw, QImage::Format_ARGB32);
- scope.fill(qRgba(0,0,0,0));
+ // Circle Width: min of width and height
+ cw = (scopeRect.height() < scopeRect.width()) ? scopeRect.height() : scopeRect.width();
+ scopeRect.setWidth(cw);
+ scopeRect.setHeight(cw);
+
+
+ m_centerPoint = m_vectorscopeGenerator->mapToCircle(scopeRect.size(), QPointF(0,0));
+ pR75 = m_vectorscopeGenerator->mapToCircle(scopeRect.size(), P75*VectorscopeGenerator::scaling*YUV_R);
+ pG75 = m_vectorscopeGenerator->mapToCircle(scopeRect.size(), P75*VectorscopeGenerator::scaling*YUV_G);
+ pB75 = m_vectorscopeGenerator->mapToCircle(scopeRect.size(), P75*VectorscopeGenerator::scaling*YUV_B);
+ pCy75 = m_vectorscopeGenerator->mapToCircle(scopeRect.size(), P75*VectorscopeGenerator::scaling*YUV_Cy);
+ pMg75 = m_vectorscopeGenerator->mapToCircle(scopeRect.size(), P75*VectorscopeGenerator::scaling*YUV_Mg);
+ pYl75 = m_vectorscopeGenerator->mapToCircle(scopeRect.size(), P75*VectorscopeGenerator::scaling*YUV_Yl);
+ qR75 = m_vectorscopeGenerator->mapToCircle(scopeRect.size(), P75*VectorscopeGenerator::scaling*YPbPr_R);
+ qG75 = m_vectorscopeGenerator->mapToCircle(scopeRect.size(), P75*VectorscopeGenerator::scaling*YPbPr_G);
+ qB75 = m_vectorscopeGenerator->mapToCircle(scopeRect.size(), P75*VectorscopeGenerator::scaling*YPbPr_B);
+ qCy75 = m_vectorscopeGenerator->mapToCircle(scopeRect.size(), P75*VectorscopeGenerator::scaling*YPbPr_Cy);
+ qMg75 = m_vectorscopeGenerator->mapToCircle(scopeRect.size(), P75*VectorscopeGenerator::scaling*YPbPr_Mg);
+ qYl75 = m_vectorscopeGenerator->mapToCircle(scopeRect.size(), P75*VectorscopeGenerator::scaling*YPbPr_Yl);
+
+ return scopeRect;
+}
- QImage img(m_activeRender->extractFrame(m_activeRender->seekFramePosition()));
- const uchar *bits = img.bits();
+bool Vectorscope::isHUDDependingOnInput() const { return false; }
+bool Vectorscope::isScopeDependingOnInput() const { return true; }
+bool Vectorscope::isBackgroundDependingOnInput() const { return false; }
- int r,g,b;
- double dy, dr, dg, db, dmax;
- double y,u,v;
- QPoint pt;
- QRgb px;
+QImage Vectorscope::renderHUD(uint)
+{
- const QRect scopeRect(QPoint(0,0), scope.size());
+ QImage hud;
- for (int i = 0; i < img.byteCount(); i+= 4) {
- QRgb *col = (QRgb *) bits;
+ if (m_mouseWithinWidget) {
+ // Mouse moved: Draw a circle over the scope
- r = qRed(*col);
- g = qGreen(*col);
- b = qBlue(*col);
+ hud = QImage(m_scopeRect.size(), QImage::Format_ARGB32);
+ hud.fill(qRgba(0, 0, 0, 0));
- y = (double) 0.001173 * r +0.002302 * g +0.0004471* b;
- u = (double) -0.0005781* r -0.001135 * g +0.001713 * b;
- v = (double) 0.002411 * r -0.002019 * g -0.0003921* b;
+ QPainter davinci(&hud);
+ QPoint widgetCenterPoint = m_scopeRect.topLeft() + m_centerPoint;
- pt = mapToCanvas(scopeRect, QPointF(SCALING*m_scaling*u, SCALING*m_scaling*v));
+ int dx = -widgetCenterPoint.x()+m_mousePos.x();
+ int dy = widgetCenterPoint.y()-m_mousePos.y();
- if (!(pt.x() <= scopeRect.width() && pt.x() >= 0
- && pt.y() <= scopeRect.height() && pt.y() >= 0)) {
- // Point lies outside (because of scaling), don't plot it
+ QPoint reference = m_vectorscopeGenerator->mapToCircle(m_scopeRect.size(), QPointF(1,0));
- } else {
+ float r = sqrt(dx*dx + dy*dy);
+ float percent = (float) 100*r/VectorscopeGenerator::scaling/m_gain/(reference.x() - widgetCenterPoint.x());
- // Draw the pixel using the chosen draw mode.
- switch (paintMode->itemData(paintMode->currentIndex()).toInt()) {
- case PAINT_YUV:
- // see yuvColorWheel
- dy = 128; // Default Y value. Lower = darker.
-
- // Calculate the RGB values from YUV
- dr = dy + 290.8*v;
- dg = dy - 100.6*u - 148*v;
- db = dy + 517.2*u;
-
- if (dr < 0) dr = 0;
- if (dg < 0) dg = 0;
- if (db < 0) db = 0;
- if (dr > 255) dr = 255;
- if (dg > 255) dg = 255;
- if (db > 255) db = 255;
-
- scope.setPixel(pt, qRgba(dr, dg, db, 255));
- break;
-
- case PAINT_CHROMA:
- dy = 200; // Default Y value. Lower = darker.
-
- // Calculate the RGB values from YUV
- dr = dy + 290.8*v;
- dg = dy - 100.6*u - 148*v;
- db = dy + 517.2*u;
-
- // Scale the RGB values back to max 255
- dmax = dr;
- if (dg > dmax) dmax = dg;
- if (db > dmax) dmax = db;
- dmax = 255/dmax;
-
- dr *= dmax;
- dg *= dmax;
- db *= dmax;
-
- scope.setPixel(pt, qRgba(dr, dg, db, 255));
- break;
- case PAINT_ORIG:
- scope.setPixel(pt, *col);
- break;
- case PAINT_GREEN:
- px = scope.pixel(pt);
- scope.setPixel(pt, qRgba(qRed(px)+(255-qRed(px))/40, 255, qBlue(px)+(255-qBlue(px))/40, qAlpha(px)+(255-qAlpha(px))/20));
- break;
- case PAINT_BLACK:
- px = scope.pixel(pt);
- scope.setPixel(pt, qRgba(0,0,0, qAlpha(px)+(255-qAlpha(px))/20));
- break;
+ switch (ui->backgroundMode->itemData(ui->backgroundMode->currentIndex()).toInt()) {
+ case BG_NONE:
+ davinci.setPen(penLight);
+ break;
+ default:
+ if (r > cw/2) {
+ davinci.setPen(penLight);
+ } else {
+ davinci.setPen(penDark);
}
+ break;
}
+ davinci.drawEllipse(m_centerPoint, (int)r, (int)r);
+ davinci.setPen(penThin);
+ davinci.drawText(QPoint(m_scopeRect.width()-40, m_scopeRect.height()), i18n("%1 \%", QString::number(percent, 'f', 0)));
- bits += 4;
- }
-
- m_scope = scope;
+ float angle = copysign(acos(dx/r)*180/M_PI, dy);
+ davinci.drawText(QPoint(10, m_scopeRect.height()), i18n("%1°", QString::number(angle, 'f', 1)));
- qDebug() << "Scope rendered";
- emit signalScopeCalculationFinished();
+// m_circleEnabled = false;
+ } else {
+ hud = QImage(0, 0, QImage::Format_ARGB32);
+ }
+ emit signalHUDRenderingFinished(0, 1);
+ return hud;
}
-void Vectorscope::updateDimensions()
+QImage Vectorscope::renderScope(uint accelerationFactor, const QImage qimage)
{
- // Widget width/height
- int ww = this->size().width();
- int wh = this->size().height();
+ QTime start = QTime::currentTime();
+ QImage scope;
- // Distance from top/left/right
- int offset = 6;
+ if (cw <= 0) {
+ qDebug() << "Scope size not known yet. Aborting.";
+ } else {
- // controlsArea contains the controls at the top;
- // We want to paint below
- QPoint topleft(offset, controlsArea->geometry().height()+offset);
+ VectorscopeGenerator::ColorSpace colorSpace = m_aColorSpace_YPbPr->isChecked() ?
+ VectorscopeGenerator::ColorSpace_YPbPr : VectorscopeGenerator::ColorSpace_YUV;
+ VectorscopeGenerator::PaintMode paintMode = (VectorscopeGenerator::PaintMode) ui->paintMode->itemData(ui->paintMode->currentIndex()).toInt();
+ scope = m_vectorscopeGenerator->calculateVectorscope(m_scopeRect.size(),
+ qimage,
+ m_gain, paintMode, colorSpace,
+ m_aAxisEnabled->isChecked(), accelerationFactor);
- // Circle Width: min of width and height
- cw = wh - topleft.y();
- if (ww < cw) { cw = ww; }
- cw -= 2*offset;
- m_scopeRect = QRect(topleft, QPoint(cw, cw) + topleft);
+ }
+
+ unsigned int mseconds = start.msecsTo(QTime::currentTime());
+ emit signalScopeRenderingFinished(mseconds, accelerationFactor);
+ return scope;
}
-void Vectorscope::paintEvent(QPaintEvent *)
+QImage Vectorscope::renderBackground(uint)
{
+ QTime start = QTime::currentTime();
+ start.start();
- if (!initialDimensionUpdateDone) {
- // This is a workaround.
- // When updating the dimensions in the constructor, the size
- // of the control items at the top are simply ignored! So do
- // it here instead.
- updateDimensions();
- initialDimensionUpdateDone = true;
+ QImage bg;
+ switch (ui->backgroundMode->itemData(ui->backgroundMode->currentIndex()).toInt()) {
+ case BG_YUV:
+ qDebug() << "YUV background.";
+ bg = m_colorTools->yuvColorWheel(m_scopeRect.size(), (unsigned char) 128, 1/VectorscopeGenerator::scaling, false, true);
+ break;
+ case BG_CHROMA:
+ bg = m_colorTools->yuvColorWheel(m_scopeRect.size(), (unsigned char) 255, 1/VectorscopeGenerator::scaling, true, true);
+ break;
+ case BG_YPbPr:
+ bg = m_colorTools->yPbPrColorWheel(m_scopeRect.size(), (unsigned char) 128, 1/VectorscopeGenerator::scaling, true);
+ break;
+ default:
+ qDebug() << "No background.";
+ bg = QImage(cw, cw, QImage::Format_ARGB32);
+ bg.fill(qRgba(0,0,0,0));
+ break;
}
+
// Draw the vectorscope circle
- QPainter davinci(this);
+ QPainter davinci(&bg);
QPoint vinciPoint;
- QPoint centerPoint = mapToCanvas(m_scopeRect, QPointF(0,0));
- davinci.setRenderHint(QPainter::Antialiasing, true);
- davinci.fillRect(0, 0, this->size().width(), this->size().height(), QColor(25,25,23));
- davinci.drawImage(m_scopeRect.topLeft(), m_wheel);
+
+ davinci.setRenderHint(QPainter::Antialiasing, true);
davinci.setPen(penThick);
- davinci.drawEllipse(m_scopeRect);
+ davinci.drawEllipse(0, 0, cw, cw);
// Draw RGB/CMY points with 100% chroma
- vinciPoint = mapToCanvas(m_scopeRect, SCALING*YUV_R);
- davinci.drawEllipse(vinciPoint, 4,4);
- davinci.drawText(vinciPoint-QPoint(20, -10), "R");
+ if (m_aColorSpace_YUV->isChecked()) {
+ vinciPoint = m_vectorscopeGenerator->mapToCircle(m_scopeRect.size(), VectorscopeGenerator::scaling*YUV_R);
+ davinci.drawEllipse(vinciPoint, 4,4);
+ davinci.drawText(vinciPoint-QPoint(20, -10), "R");
+
+ vinciPoint = m_vectorscopeGenerator->mapToCircle(m_scopeRect.size(), VectorscopeGenerator::scaling*YUV_G);
+ davinci.drawEllipse(vinciPoint, 4,4);
+ davinci.drawText(vinciPoint-QPoint(20, 0), "G");
+
+ vinciPoint = m_vectorscopeGenerator->mapToCircle(m_scopeRect.size(), VectorscopeGenerator::scaling*YUV_B);
+ davinci.drawEllipse(vinciPoint, 4,4);
+ davinci.drawText(vinciPoint+QPoint(15, 10), "B");
+
+ vinciPoint = m_vectorscopeGenerator->mapToCircle(m_scopeRect.size(), VectorscopeGenerator::scaling*YUV_Cy);
+ davinci.drawEllipse(vinciPoint, 4,4);
+ davinci.drawText(vinciPoint+QPoint(15, -5), "Cy");
+
+ vinciPoint = m_vectorscopeGenerator->mapToCircle(m_scopeRect.size(), VectorscopeGenerator::scaling*YUV_Mg);
+ davinci.drawEllipse(vinciPoint, 4,4);
+ davinci.drawText(vinciPoint+QPoint(15, 10), "Mg");
+
+ vinciPoint = m_vectorscopeGenerator->mapToCircle(m_scopeRect.size(), VectorscopeGenerator::scaling*YUV_Yl);
+ davinci.drawEllipse(vinciPoint, 4,4);
+ davinci.drawText(vinciPoint-QPoint(25, 0), "Yl");
+ } else {
+ vinciPoint = m_vectorscopeGenerator->mapToCircle(m_scopeRect.size(), VectorscopeGenerator::scaling*YPbPr_R);
+ davinci.drawEllipse(vinciPoint, 4,4);
+ davinci.drawText(vinciPoint-QPoint(20, -10), "R");
- vinciPoint = mapToCanvas(m_scopeRect, SCALING*YUV_G);
- davinci.drawEllipse(vinciPoint, 4,4);
- davinci.drawText(vinciPoint-QPoint(20, 0), "G");
+ vinciPoint = m_vectorscopeGenerator->mapToCircle(m_scopeRect.size(), VectorscopeGenerator::scaling*YPbPr_G);
+ davinci.drawEllipse(vinciPoint, 4,4);
+ davinci.drawText(vinciPoint-QPoint(20, 0), "G");
- vinciPoint = mapToCanvas(m_scopeRect, SCALING*YUV_B);
- davinci.drawEllipse(vinciPoint, 4,4);
- davinci.drawText(vinciPoint+QPoint(15, 10), "B");
+ vinciPoint = m_vectorscopeGenerator->mapToCircle(m_scopeRect.size(), VectorscopeGenerator::scaling*YPbPr_B);
+ davinci.drawEllipse(vinciPoint, 4,4);
+ davinci.drawText(vinciPoint+QPoint(15, 10), "B");
- vinciPoint = mapToCanvas(m_scopeRect, SCALING*YUV_Cy);
- davinci.drawEllipse(vinciPoint, 4,4);
- davinci.drawText(vinciPoint+QPoint(15, -5), "Cy");
+ vinciPoint = m_vectorscopeGenerator->mapToCircle(m_scopeRect.size(), VectorscopeGenerator::scaling*YPbPr_Cy);
+ davinci.drawEllipse(vinciPoint, 4,4);
+ davinci.drawText(vinciPoint+QPoint(15, -5), "Cy");
- vinciPoint = mapToCanvas(m_scopeRect, SCALING*YUV_Mg);
- davinci.drawEllipse(vinciPoint, 4,4);
- davinci.drawText(vinciPoint+QPoint(15, 10), "Mg");
+ vinciPoint = m_vectorscopeGenerator->mapToCircle(m_scopeRect.size(), VectorscopeGenerator::scaling*YPbPr_Mg);
+ davinci.drawEllipse(vinciPoint, 4,4);
+ davinci.drawText(vinciPoint+QPoint(15, 10), "Mg");
- vinciPoint = mapToCanvas(m_scopeRect, SCALING*YUV_Yl);
- davinci.drawEllipse(vinciPoint, 4,4);
- davinci.drawText(vinciPoint-QPoint(25, 0), "Yl");
+ vinciPoint = m_vectorscopeGenerator->mapToCircle(m_scopeRect.size(), VectorscopeGenerator::scaling*YPbPr_Yl);
+ davinci.drawEllipse(vinciPoint, 4,4);
+ davinci.drawText(vinciPoint-QPoint(25, 0), "Yl");
+ }
- switch (backgroundMode->itemData(backgroundMode->currentIndex()).toInt()) {
+ switch (ui->backgroundMode->itemData(ui->backgroundMode->currentIndex()).toInt()) {
case BG_NONE:
davinci.setPen(penLight);
break;
break;
}
- davinci.drawLine(mapToCanvas(m_scopeRect, QPointF(0,-.9)), mapToCanvas(m_scopeRect, QPointF(0,.9)));
- davinci.drawLine(mapToCanvas(m_scopeRect, QPointF(-.9,0)), mapToCanvas(m_scopeRect, QPointF(.9,0)));
+ // Draw axis
+ if (m_aAxisEnabled->isChecked()) {
+ davinci.drawLine(m_vectorscopeGenerator->mapToCircle(m_scopeRect.size(), QPointF(0,-.9)), m_vectorscopeGenerator->mapToCircle(m_scopeRect.size(), QPointF(0,.9)));
+ davinci.drawLine(m_vectorscopeGenerator->mapToCircle(m_scopeRect.size(), QPointF(-.9,0)), m_vectorscopeGenerator->mapToCircle(m_scopeRect.size(), QPointF(.9,0)));
+ }
- // Draw RGB/CMY points with 75% chroma (for NTSC)
- switch (backgroundMode->itemData(backgroundMode->currentIndex()).toInt()) {
+ // Draw center point
+ switch (ui->backgroundMode->itemData(ui->backgroundMode->currentIndex()).toInt()) {
case BG_CHROMA:
davinci.setPen(penDark);
break;
davinci.setPen(penThin);
break;
}
- davinci.drawEllipse(centerPoint, 5,5);
- davinci.setPen(penThin);
- davinci.drawEllipse(mapToCanvas(m_scopeRect, P75*SCALING*YUV_R), 3,3);
- davinci.drawEllipse(mapToCanvas(m_scopeRect, P75*SCALING*YUV_G), 3,3);
- davinci.drawEllipse(mapToCanvas(m_scopeRect, P75*SCALING*YUV_B), 3,3);
- davinci.drawEllipse(mapToCanvas(m_scopeRect, P75*SCALING*YUV_Cy), 3,3);
- davinci.drawEllipse(mapToCanvas(m_scopeRect, P75*SCALING*YUV_Mg), 3,3);
- davinci.drawEllipse(mapToCanvas(m_scopeRect, P75*SCALING*YUV_Yl), 3,3);
-
-
-
- // Draw the scope data (previously calculated in a separate thread)
- davinci.drawImage(m_scopeRect.topLeft(), m_scope);
-
-
- if (circleEnabled) {
- // Mouse moved: Draw a circle over the scope
-
- int dx = centerPoint.x()-mousePos.x();
- int dy = centerPoint.y()-mousePos.y();
-
- QPoint reference = mapToCanvas(m_scopeRect, QPointF(1,0));
-
- int r = sqrt(dx*dx + dy*dy);
- float percent = (float) 100*r/SCALING/m_scaling/(reference.x() - centerPoint.x());
-
- switch (backgroundMode->itemData(backgroundMode->currentIndex()).toInt()) {
- case BG_NONE:
- davinci.setPen(penLight);
- break;
- default:
- davinci.setPen(penDark);
- break;
+ davinci.drawEllipse(m_centerPoint, 5,5);
+
+
+ // Draw 75% box
+ if (m_a75PBox->isChecked()) {
+ if (m_aColorSpace_YUV->isChecked()) {
+ davinci.drawLine(pR75, pYl75);
+ davinci.drawLine(pYl75, pG75);
+ davinci.drawLine(pG75, pCy75);
+ davinci.drawLine(pCy75, pB75);
+ davinci.drawLine(pB75, pMg75);
+ davinci.drawLine(pMg75, pR75);
+ } else {
+ davinci.drawLine(qR75, qYl75);
+ davinci.drawLine(qYl75, qG75);
+ davinci.drawLine(qG75, qCy75);
+ davinci.drawLine(qCy75, qB75);
+ davinci.drawLine(qB75, qMg75);
+ davinci.drawLine(qMg75, qR75);
}
- davinci.drawEllipse(centerPoint, r,r);
- davinci.setPen(penThin);
- davinci.drawText(m_scopeRect.bottomRight()-QPoint(40,0), QVariant((int)percent).toString().append(" %"));
-
- circleEnabled = false;
}
-}
-
-
-
-///// Slots /////
-
-void Vectorscope::slotMagnifyChanged()
-{
- if (cbMagnify->isChecked()) {
- m_scaling = 1.4;
+ // Draw RGB/CMY points with 75% chroma (for NTSC)
+ davinci.setPen(penThin);
+ if (m_aColorSpace_YUV->isChecked()) {
+ davinci.drawEllipse(pR75, 3,3);
+ davinci.drawEllipse(pG75, 3,3);
+ davinci.drawEllipse(pB75, 3,3);
+ davinci.drawEllipse(pCy75, 3,3);
+ davinci.drawEllipse(pMg75, 3,3);
+ davinci.drawEllipse(pYl75, 3,3);
} else {
- m_scaling = 1;
+ davinci.drawEllipse(qR75, 3,3);
+ davinci.drawEllipse(qG75, 3,3);
+ davinci.drawEllipse(qB75, 3,3);
+ davinci.drawEllipse(qCy75, 3,3);
+ davinci.drawEllipse(qMg75, 3,3);
+ davinci.drawEllipse(qYl75, 3,3);
}
- prodCalcThread();
-}
-void Vectorscope::slotActiveMonitorChanged(bool isClipMonitor)
-{
- if (isClipMonitor) {
- m_activeRender = m_clipMonitor->render;
- disconnect(this, SLOT(slotRenderZoneUpdated()));
- connect(m_activeRender, SIGNAL(rendererPosition(int)), this, SLOT(slotRenderZoneUpdated()));
- } else {
- m_activeRender = m_projMonitor->render;
- disconnect(this, SLOT(slotRenderZoneUpdated()));
- connect(m_activeRender, SIGNAL(rendererPosition(int)), this, SLOT(slotRenderZoneUpdated()));
+ // Draw realtime factor (number of skipped pixels)
+ if (m_aRealtime->isChecked()) {
+ davinci.setPen(penThin);
+ davinci.drawText(QPoint(m_scopeRect.width()-40, m_scopeRect.height()-15), QVariant(m_accelFactorScope).toString().append("x"));
}
-}
-void Vectorscope::slotRenderZoneUpdated()
-{
- qDebug() << "Monitor incoming. New frames total: " << newFrames;
- // Monitor has shown a new frame
- newFrames.fetchAndAddRelaxed(1);
- if (cbAutoRefresh->isChecked()) {
- prodCalcThread();
- }
+ emit signalBackgroundRenderingFinished(start.elapsed(), 1);
+ return bg;
}
-void Vectorscope::slotScopeCalculationFinished()
-{
- if (!m_scopeCalcThread.isFinished()) {
- // Wait for the thread to finish. Otherwise the scope might not get updated
- // as prodCalcThread may see it still running.
- QTime start = QTime::currentTime();
- qDebug() << "Scope renderer has not finished yet, waiting ...";
- m_scopeCalcThread.waitForFinished();
- qDebug() << "Done. Waited for " << start.msecsTo(QTime::currentTime()) << " ms";
- }
- this->update();
- qDebug() << "Scope updated.";
-
- // If auto-refresh is enabled and new frames are available,
- // just start the next calculation.
- if (newFrames > 0 && cbAutoRefresh->isChecked()) {
- qDebug() << "More frames in the queue: " << newFrames;
- prodCalcThread();
- } else if (newChanges > 0) {
- qDebug() << newChanges << " changes (e.g. resize) in the meantime.";
- prodCalcThread();
- } else {
- qDebug() << newFrames << " new frames, " << newChanges << " new changes. Not updating.";
- }
-}
-void Vectorscope::slotWheelCalculationFinished()
-{
- if (!m_wheelCalcThread.isFinished()) {
- QTime start = QTime::currentTime();
- qDebug() << "Wheel calc has not finished yet, waiting ...";
- m_wheelCalcThread.waitForFinished();
- qDebug() << "Done. Waited for " << start.msecsTo(QTime::currentTime()) << " ms";
- }
- qDebug() << "Wheel calculated. Updating.";
- qDebug() << m_wheelCalcThread.resultCount() << " results from the Wheel thread.";
- if (m_wheelCalcThread.resultCount() > 0) {
- m_wheel = m_wheelCalcThread.resultAt(0);
- }
- this->update();
- if (newWheelChanges > 0) {
- prodWheelThread();
- }
-}
-
-void Vectorscope::slotUpdateScope()
-{
- prodCalcThread();
-}
+///// Slots /////
-void Vectorscope::slotUpdateWheel()
+void Vectorscope::slotGainChanged(int newval)
{
- prodWheelThread();
+ m_gain = 1 + (float)newval/10;
+ ui->lblGain->setText(QString::number(m_gain, 'f', 1) + "x");
+ forceUpdateScope();
}
void Vectorscope::slotExportBackground()
{
qDebug() << "Exporting background";
+ m_colorPlaneExport->show();
+
}
void Vectorscope::slotBackgroundChanged()
{
// Background changed, switch to a suitable color mode now
int index;
- switch (backgroundMode->itemData(backgroundMode->currentIndex()).toInt()) {
+ switch (ui->backgroundMode->itemData(ui->backgroundMode->currentIndex()).toInt()) {
case BG_YUV:
- index = paintMode->findData(QVariant(PAINT_BLACK));
+ index = ui->paintMode->findData(QVariant(VectorscopeGenerator::PaintMode_Black));
if (index >= 0) {
- paintMode->setCurrentIndex(index);
+ ui->paintMode->setCurrentIndex(index);
}
break;
case BG_NONE:
- if (paintMode->itemData(paintMode->currentIndex()) == PAINT_BLACK) {
- index = paintMode->findData(QVariant(PAINT_GREEN));
- paintMode->setCurrentIndex(index);
+ if (ui->paintMode->itemData(ui->paintMode->currentIndex()).toInt() == VectorscopeGenerator::PaintMode_Black) {
+ index = ui->paintMode->findData(QVariant(VectorscopeGenerator::PaintMode_Green2));
+ ui->paintMode->setCurrentIndex(index);
}
break;
}
- newWheelChanges.fetchAndAddAcquire(1);
- prodWheelThread();
-}
-
-
-
-///// Events /////
-
-void Vectorscope::mousePressEvent(QMouseEvent *)
-{
- // Update the scope on mouse press
- prodCalcThread();
-}
-
-void Vectorscope::mouseMoveEvent(QMouseEvent *event)
-{
- // Draw a circle around the center,
- // showing percentage number of the radius length
-
- circleEnabled = true;
- mousePos = event->pos();
- this->update();
+ forceUpdateBackground();
}
-void Vectorscope::resizeEvent(QResizeEvent *event)
+void Vectorscope::slotColorSpaceChanged()
{
- qDebug() << "Resized.";
- updateDimensions();
- newChanges.fetchAndAddAcquire(1);
- prodCalcThread();
- QWidget::resizeEvent(event);
+ int index;
+ if (m_aColorSpace_YPbPr->isChecked()) {
+ if (ui->backgroundMode->itemData(ui->backgroundMode->currentIndex()).toInt() == BG_YUV) {
+ index = ui->backgroundMode->findData(QVariant(BG_YPbPr));
+ if (index >= 0) {
+ ui->backgroundMode->setCurrentIndex(index);
+ }
+ }
+ } else {
+ if (ui->backgroundMode->itemData(ui->backgroundMode->currentIndex()).toInt() == BG_YPbPr) {
+ index = ui->backgroundMode->findData(QVariant(BG_YUV));
+ if (index >= 0) {
+ ui->backgroundMode->setCurrentIndex(index);
+ }
+ }
+ }
+ forceUpdate();
}