#include "PrimaryFlightDisplay.h" #include "UASManager.h" //#include "ui_primaryflightdisplay.h" #include #include #include #include #include #include #include #include //#include /* *@TODO: * global fixed pens (and painters too?) * repaint on demand multiple canvases * multi implementation with shared model class */ double PrimaryFlightDisplay_round(double value, int digits=0) { return floor(value * pow(10, digits) + 0.5) / pow(10, digits); } const int PrimaryFlightDisplay::tickValues[] = {10, 20, 30, 45, 60}; const QString PrimaryFlightDisplay::compassWindNames[] = { QString("N"), QString("NE"), QString("E"), QString("SE"), QString("S"), QString("SW"), QString("W"), QString("NW") }; PrimaryFlightDisplay::PrimaryFlightDisplay(int width, int height, QWidget *parent) : QWidget(parent), uas(NULL), altimeterMode(GPS_MAIN), altimeterFrame(ASL), speedMode(GROUND_MAIN), roll(UNKNOWN_ATTITUDE), pitch(UNKNOWN_ATTITUDE), // heading(NAN), heading(UNKNOWN_ATTITUDE), primaryAltitude(UNKNOWN_ALTITUDE), GPSAltitude(UNKNOWN_ALTITUDE), aboveHomeAltitude(UNKNOWN_ALTITUDE), primarySpeed(UNKNOWN_SPEED), groundspeed(UNKNOWN_SPEED), verticalVelocity(UNKNOWN_ALTITUDE), font("Bitstream Vera Sans"), refreshTimer(new QTimer(this)), layout(COMPASS_INTEGRATED), style(OVERLAY_HSI), redColor(QColor::fromHsvF(0, 0.75, 0.9)), amberColor(QColor::fromHsvF(0.12, 0.6, 1.0)), greenColor(QColor::fromHsvF(0.25, 0.8, 0.8)), lineWidth(2), fineLineWidth(1), instrumentEdgePen(QColor::fromHsvF(0, 0, 0.65, 0.5)), // AIEdgePen(QColor::fromHsvF(0, 0, 0.65, 0.5)), instrumentBackground(QColor::fromHsvF(0, 0, 0.3, 0.3)), instrumentOpagueBackground(QColor::fromHsvF(0, 0, 0.3, 1.0)) { setMinimumSize(120, 80); setSizePolicy(QSizePolicy::Expanding, QSizePolicy::Expanding); // Connect with UAS connect(UASManager::instance(), SIGNAL(activeUASSet(UASInterface*)), this, SLOT(setActiveUAS(UASInterface*))); if (UASManager::instance()->getActiveUAS() != NULL) setActiveUAS(UASManager::instance()->getActiveUAS()); // Refresh timer refreshTimer->setInterval(updateInterval); // connect(refreshTimer, SIGNAL(timeout()), this, SLOT(paintHUD())); connect(refreshTimer, SIGNAL(timeout()), this, SLOT(update())); } PrimaryFlightDisplay::~PrimaryFlightDisplay() { refreshTimer->stop(); } QSize PrimaryFlightDisplay::sizeHint() const { return QSize(width(), (width()*3.0f)/4); } void PrimaryFlightDisplay::showEvent(QShowEvent* event) { // React only to internal (pre-display) // events QWidget::showEvent(event); refreshTimer->start(updateInterval); emit visibilityChanged(true); } void PrimaryFlightDisplay::hideEvent(QHideEvent* event) { // React only to internal (pre-display) // events refreshTimer->stop(); QWidget::hideEvent(event); emit visibilityChanged(false); } qreal constrain(qreal value, qreal min, qreal max) { if (valuemax) value=max; return value; } void PrimaryFlightDisplay::resizeEvent(QResizeEvent *e) { QWidget::resizeEvent(e); qreal size = e->size().width(); //if(e->size().height()size().height(); lineWidth = constrain(size*LINEWIDTH, 1, 6); fineLineWidth = constrain(size*LINEWIDTH*2/3, 1, 2); instrumentEdgePen.setWidthF(fineLineWidth); //AIEdgePen.setWidthF(fineLineWidth); smallTestSize = size * SMALL_TEXT_SIZE; mediumTextSize = size * MEDIUM_TEXT_SIZE; largeTextSize = size * LARGE_TEXT_SIZE; /* * Try without layout Change-O-Matic. It was too complicated. qreal aspect = e->size().width() / e->size().height(); if (aspect <= SEPARATE_COMPASS_ASPECTRATIO) layout = COMPASS_SEPARATED; else layout = COMPASS_INTEGRATED; */ // qDebug("Width %d height %d decision %d", e->size().width(), e->size().height(), layout); } void PrimaryFlightDisplay::paintEvent(QPaintEvent *event) { // Event is not needed // the event is ignored as this widget // is refreshed automatically Q_UNUSED(event); //makeDummyData(); doPaint(); } /* * Interface towards qgroundcontrol */ /** * * @param uas the UAS/MAV to monitor/display with the HUD */ void PrimaryFlightDisplay::setActiveUAS(UASInterface* uas) { if (this->uas != NULL) { // Disconnect any previously connected active MAV disconnect(this->uas, SIGNAL(attitudeChanged(UASInterface*,double,double,double,quint64)), this, SLOT(updateAttitude(UASInterface*, double, double, double, quint64))); disconnect(this->uas, SIGNAL(attitudeChanged(UASInterface*,int,double,double,double,quint64)), this, SLOT(updateAttitude(UASInterface*,int,double, double, double, quint64))); //disconnect(this->uas, SIGNAL(batteryChanged(UASInterface*, double, double, double, int)), this, SLOT(updateBattery(UASInterface*, double, double, double, int))); //disconnect(this->uas, SIGNAL(statusChanged(UASInterface*,QString,QString)), this, SLOT(updateState(UASInterface*,QString))); //disconnect(this->uas, SIGNAL(modeChanged(int,QString,QString)), this, SLOT(updateMode(int,QString,QString))); //disconnect(this->uas, SIGNAL(heartbeat(UASInterface*)), this, SLOT(receiveHeartbeat(UASInterface*))); //disconnect(this->uas, SIGNAL(armingChanged(bool)), this, SLOT(updateArmed(bool))); //disconnect(this->uas, SIGNAL(satelliteCountChanged(double, QString)), this, SLOT(updateSatelliteCount(double, QString))); disconnect(this->uas, SIGNAL(localizationChanged(UASInterface* uas, int fix)), this, SLOT(updateGPSFixType(UASInterface*,int))); //disconnect(this->uas, SIGNAL(localPositionChanged(UASInterface*,double,double,double,quint64)), this, SLOT(updateLocalPosition(UASInterface*,double,double,double,quint64))); //disconnect(this->uas, SIGNAL(globalPositionChanged(UASInterface*,double,double,double,quint64)), this, SLOT(updateGlobalPosition(UASInterface*,double,double,double,quint64))); disconnect(this->uas, SIGNAL(waypointSelected(int,int)), this, SLOT(selectWaypoint(int, int))); disconnect(this->uas, SIGNAL(speedChanged(UASInterface*, SpeedMeasurementSource, double, quint64)), this, SLOT(updateSpeed(UASInterface*,SpeedMeasurementSource,double,quint64))); disconnect(this->uas, SIGNAL(climbRateChanged(UASInterface*, AltitudeMeasurementSource, double, quint64)), this, SLOT(updateClimbRate(UASInterface*, AltitudeMeasurementSource, double, quint64))); disconnect(this->uas, SIGNAL(altitudeChanged(UASInterface*, AltitudeMeasurementSource, double)), this, SLOT(updateAltitude(UASInterface*, AltitudeMeasurementSource, double, quint64))); } if (uas) { // Now connect the new UAS // Setup communication connect(uas, SIGNAL(attitudeChanged(UASInterface*,double,double,double,quint64)), this, SLOT(updateAttitude(UASInterface*, double, double, double, quint64))); connect(uas, SIGNAL(attitudeChanged(UASInterface*,int,double,double,double,quint64)), this, SLOT(updateAttitude(UASInterface*,int,double, double, double, quint64))); //connect(uas, SIGNAL(batteryChanged(UASInterface*, double, double, double, int)), this, SLOT(updateBattery(UASInterface*, double, double, double, int))); //connect(uas, SIGNAL(statusChanged(UASInterface*,QString,QString)), this, SLOT(updateState(UASInterface*,QString))); //connect(uas, SIGNAL(modeChanged(int,QString,QString)), this, SLOT(updateMode(int,QString,QString))); //connect(uas, SIGNAL(heartbeat(UASInterface*)), this, SLOT(receiveHeartbeat(UASInterface*))); //connect(uas, SIGNAL(armingChanged(bool)), this, SLOT(updateArmed(bool))); //connect(uas, SIGNAL(satelliteCountChanged(double, QString)), this, SLOT(updateSatelliteCount(double, QString))); //connect(uas, SIGNAL(localPositionChanged(UASInterface*,double,double,double,quint64)), this, SLOT(updateLocalPosition(UASInterface*,double,double,double,quint64))); //connect(uas, SIGNAL(globalPositionChanged(UASInterface*,double,double,double,quint64)), this, SLOT(updateGlobalPosition(UASInterface*,double,double,double,quint64))); connect(uas, SIGNAL(waypointSelected(int,int)), this, SLOT(selectWaypoint(int, int))); connect(uas, SIGNAL(speedChanged(UASInterface*, SpeedMeasurementSource, double, quint64)), this, SLOT(updateSpeed(UASInterface*,SpeedMeasurementSource,double,quint64))); connect(uas, SIGNAL(climbRateChanged(UASInterface*, AltitudeMeasurementSource, double, quint64)), this, SLOT(updateClimbRate(UASInterface*, AltitudeMeasurementSource, double, quint64))); connect(uas, SIGNAL(altitudeChanged(UASInterface*, AltitudeMeasurementSource, double, quint64)), this, SLOT(updateAltitude(UASInterface*, AltitudeMeasurementSource, double, quint64))); // Set new UAS this->uas = uas; } } void PrimaryFlightDisplay::updateAttitude(UASInterface* uas, double roll, double pitch, double yaw, quint64 timestamp) { Q_UNUSED(uas); Q_UNUSED(timestamp); if (!isnan(roll) && !isinf(roll) && !isnan(pitch) && !isinf(pitch) && !isnan(yaw) && !isinf(yaw)) { // TODO: Units conversion? // Called from UAS.cc l. 646 this->roll = roll * (180.0 / M_PI); this->pitch = pitch * (180.0 / M_PI); yaw = yaw * (180.0 / M_PI); if (yaw<0) yaw+=360; this->heading = yaw; } // TODO: Else-part. We really should have an "attitude bad or unknown" indication instead of just freezing. //qDebug("r,p,y: %f,%f,%f", roll, pitch, yaw); } /* * TODO! Implementation or removal of this. * Currently a dummy. */ void PrimaryFlightDisplay::updateAttitude(UASInterface* uas, int component, double roll, double pitch, double yaw, quint64 timestamp) { Q_UNUSED(uas); Q_UNUSED(component); Q_UNUSED(timestamp); // Called from UAS.cc l. 616 if (!isnan(roll) && !isinf(roll) && !isnan(pitch) && !isinf(pitch) && !isnan(yaw) && !isinf(yaw)) { this->roll = roll * (180.0 / M_PI); this->pitch = pitch * (180.0 / M_PI); yaw = yaw * (180.0 / M_PI); if (yaw<0) yaw+=360; this->heading = yaw; } // qDebug("(2) r,p,y: %f,%f,%f", roll, pitch, yaw); } /* * TODO! Examine what data comes with this call, should we consider it airspeed, ground speed or * should we not consider it at all? */ void PrimaryFlightDisplay::updateSpeed(UASInterface* uas, SpeedMeasurementSource source, double speed, quint64 timestamp) { Q_UNUSED(uas); Q_UNUSED(timestamp); if (source == PRIMARY_SPEED) { primarySpeed = speed; didReceivePrimarySpeed = true; } else if (source == GROUNDSPEED_BY_GPS || source == GROUNDSPEED_BY_UAV) { groundspeed = speed; if (!didReceivePrimarySpeed) primarySpeed = speed; } } void PrimaryFlightDisplay::updateClimbRate(UASInterface* uas, AltitudeMeasurementSource source, double climbRate, quint64 timestamp) { Q_UNUSED(uas); Q_UNUSED(timestamp); verticalVelocity = climbRate; } void PrimaryFlightDisplay::updateAltitude(UASInterface* uas, AltitudeMeasurementSource source, double altitude, quint64 timestamp) { Q_UNUSED(uas); Q_UNUSED(timestamp); if (source == PRIMARY_ALTITUDE) { primaryAltitude = altitude; didReceivePrimaryAltitude = true; } else if (source == GPS_ALTITUDE) { GPSAltitude = altitude; if (!didReceivePrimaryAltitude) primaryAltitude = altitude; } } /* * Private and such */ // TODO: Move to UAS. Real working implementation. bool PrimaryFlightDisplay::isAirplane() { if (!this->uas) return false; switch(this->uas->getSystemType()) { case MAV_TYPE_GENERIC: case MAV_TYPE_FIXED_WING: case MAV_TYPE_AIRSHIP: case MAV_TYPE_FLAPPING_WING: return true; default: return false; } } void PrimaryFlightDisplay::drawTextCenter ( QPainter& painter, QString text, float pixelSize, float x, float y) { font.setPixelSize(pixelSize); painter.setFont(font); QFontMetrics metrics = QFontMetrics(font); QRect bounds = metrics.boundingRect(text); int flags = Qt::AlignCenter | Qt::TextDontClip; // For some reason the bounds rect is too small! painter.drawText(x /*+bounds.x()*/ -bounds.width()/2, y /*+bounds.y()*/ -bounds.height()/2, bounds.width(), bounds.height(), flags, text); } void PrimaryFlightDisplay::drawTextLeftCenter ( QPainter& painter, QString text, float pixelSize, float x, float y) { font.setPixelSize(pixelSize); painter.setFont(font); QFontMetrics metrics = QFontMetrics(font); QRect bounds = metrics.boundingRect(text); int flags = Qt::AlignLeft | Qt::TextDontClip; // For some reason the bounds rect is too small! painter.drawText(x /*+bounds.x()*/, y /*+bounds.y()*/ -bounds.height()/2, bounds.width(), bounds.height(), flags, text); } void PrimaryFlightDisplay::drawTextRightCenter ( QPainter& painter, QString text, float pixelSize, float x, float y) { font.setPixelSize(pixelSize); painter.setFont(font); QFontMetrics metrics = QFontMetrics(font); QRect bounds = metrics.boundingRect(text); int flags = Qt::AlignRight | Qt::TextDontClip; // For some reason the bounds rect is too small! painter.drawText(x /*+bounds.x()*/ -bounds.width(), y /*+bounds.y()*/ -bounds.height()/2, bounds.width(), bounds.height(), flags, text); } void PrimaryFlightDisplay::drawTextCenterTop ( QPainter& painter, QString text, float pixelSize, float x, float y) { font.setPixelSize(pixelSize); painter.setFont(font); QFontMetrics metrics = QFontMetrics(font); QRect bounds = metrics.boundingRect(text); int flags = Qt::AlignCenter | Qt::TextDontClip; // For some reason the bounds rect is too small! painter.drawText(x /*+bounds.x()*/ -bounds.width()/2, y+bounds.height() /*+bounds.y()*/, bounds.width(), bounds.height(), flags, text); } void PrimaryFlightDisplay::drawTextCenterBottom ( QPainter& painter, QString text, float pixelSize, float x, float y) { font.setPixelSize(pixelSize); painter.setFont(font); QFontMetrics metrics = QFontMetrics(font); QRect bounds = metrics.boundingRect(text); int flags = Qt::AlignCenter; painter.drawText(x /*+bounds.x()*/ -bounds.width()/2, y /*+bounds.y()*/, bounds.width(), bounds.height(), flags, text); } void PrimaryFlightDisplay::drawInstrumentBackground(QPainter& painter, QRectF edge) { painter.setPen(instrumentEdgePen); painter.drawRect(edge); } void PrimaryFlightDisplay::fillInstrumentBackground(QPainter& painter, QRectF edge) { painter.setPen(instrumentEdgePen); painter.setBrush(instrumentBackground); painter.drawRect(edge); painter.setBrush(Qt::NoBrush); } void PrimaryFlightDisplay::fillInstrumentOpagueBackground(QPainter& painter, QRectF edge) { painter.setPen(instrumentEdgePen); painter.setBrush(instrumentOpagueBackground); painter.drawRect(edge); painter.setBrush(Qt::NoBrush); } qreal pitchAngleToTranslation(qreal viewHeight, float pitch) { return pitch * viewHeight / PITCHTRANSLATION; } void PrimaryFlightDisplay::drawAIAirframeFixedFeatures(QPainter& painter, QRectF area) { // red line from -7/10 to -5/10 half-width // red line from 7/10 to 5/10 half-width // red slanted line from -2/10 half-width to 0 // red slanted line from 2/10 half-width to 0 // red arrow thing under roll scale // prepareTransform(painter, width, height); painter.resetTransform(); painter.translate(area.center()); qreal w = area.width(); qreal h = area.height(); QPen pen; pen.setWidthF(lineWidth * 1.5); pen.setColor(redColor); painter.setPen(pen); float length = 0.15; float side = 0.5; // The 2 lines at sides. painter.drawLine(QPointF(-side*w, 0), QPointF(-(side-length)*w, 0)); painter.drawLine(QPointF(side*w, 0), QPointF((side-length)*w, 0)); float rel = length/qSqrt(2); // The gull painter.drawLine(QPointF(rel*w, rel*w/2), QPoint(0, 0)); painter.drawLine(QPointF(-rel*w, rel*w/2), QPoint(0, 0)); // The roll scale marker. QPainterPath markerPath(QPointF(0, -w*ROLL_SCALE_RADIUS+1)); markerPath.lineTo(-h*ROLL_SCALE_MARKERWIDTH/2, -w*(ROLL_SCALE_RADIUS-ROLL_SCALE_MARKERHEIGHT)+1); markerPath.lineTo(h*ROLL_SCALE_MARKERWIDTH/2, -w*(ROLL_SCALE_RADIUS-ROLL_SCALE_MARKERHEIGHT)+1); markerPath.closeSubpath(); painter.drawPath(markerPath); } inline qreal min4(qreal a, qreal b, qreal c, qreal d) { if(ba) a=b; if(c>a) a=c; if(d>a) a=d; return a; } void PrimaryFlightDisplay::drawAIGlobalFeatures( QPainter& painter, QRectF mainArea, QRectF paintArea) { painter.resetTransform(); painter.translate(mainArea.center()); qreal pitchPixels = pitchAngleToTranslation(mainArea.height(), pitch); qreal gradientEnd = pitchAngleToTranslation(mainArea.height(), 60); //painter.rotate(-roll); //painter.translate(0, pitchPixels); // QTransform forwardTransform; //forwardTransform.translate(mainArea.center().x(), mainArea.center().y()); painter.rotate(-roll); painter.translate(0, pitchPixels); // Calculate the radius of area we need to paint to cover all. QTransform rtx = painter.transform().inverted(); QPointF topLeft = rtx.map(paintArea.topLeft()); QPointF topRight = rtx.map(paintArea.topRight()); QPointF bottomLeft = rtx.map(paintArea.bottomLeft()); QPointF bottomRight = rtx.map(paintArea.bottomRight()); // Just KISS... make a rectangluar basis. qreal minx = min4(topLeft.x(), topRight.x(), bottomLeft.x(), bottomRight.x()); qreal maxx = max4(topLeft.x(), topRight.x(), bottomLeft.x(), bottomRight.x()); qreal miny = min4(topLeft.y(), topRight.y(), bottomLeft.y(), bottomRight.y()); qreal maxy = max4(topLeft.y(), topRight.y(), bottomLeft.y(), bottomRight.y()); QPointF hzonLeft = QPoint(minx, 0); QPointF hzonRight = QPoint(maxx, 0); QPainterPath skyPath(hzonLeft); skyPath.lineTo(QPointF(minx, miny)); skyPath.lineTo(QPointF(maxx, miny)); skyPath.lineTo(hzonRight); skyPath.closeSubpath(); // TODO: The gradient is wrong now. QLinearGradient skyGradient(0, -gradientEnd, 0, 0); skyGradient.setColorAt(0, QColor::fromHsvF(0.6, 1.0, 0.7)); skyGradient.setColorAt(1, QColor::fromHsvF(0.6, 0.25, 0.9)); QBrush skyBrush(skyGradient); painter.fillPath(skyPath, skyBrush); QPainterPath groundPath(hzonRight); groundPath.lineTo(maxx, maxy); groundPath.lineTo(minx, maxy); groundPath.lineTo(hzonLeft); groundPath.closeSubpath(); QLinearGradient groundGradient(0, gradientEnd, 0, 0); groundGradient.setColorAt(0, QColor::fromHsvF(0.25, 1, 0.5)); groundGradient.setColorAt(1, QColor::fromHsvF(0.25, 0.25, 0.5)); QBrush groundBrush(groundGradient); painter.fillPath(groundPath, groundBrush); QPen pen; pen.setWidthF(lineWidth); pen.setColor(greenColor); painter.setPen(pen); QPointF start(-mainArea.width(), 0); QPoint end(mainArea.width(), 0); painter.drawLine(start, end); } void PrimaryFlightDisplay::drawPitchScale( QPainter& painter, QRectF area, float intrusion, bool drawNumbersLeft, bool drawNumbersRight ) { // The area should be quadratic but if not width is the major size. qreal w = area.width(); if (w PITCH_SCALE_WIDTHREDUCTION_FROM) { // we want: 1 at PITCH_SCALE_WIDTHREDUCTION_FROM and PITCH_SCALE_WIDTHREDUCTION at 90. // That is PITCH_SCALE_WIDTHREDUCTION + (1-PITCH_SCALE_WIDTHREDUCTION) * f(pitch) // where f(90)=0 and f(PITCH_SCALE_WIDTHREDUCTION_FROM)=1 // f(p) = (90-p) * 1/(90-PITCH_SCALE_WIDTHREDUCTION_FROM) // or PITCH_SCALE_WIDTHREDUCTION + f(pitch) - f(pitch) * PITCH_SCALE_WIDTHREDUCTION // or PITCH_SCALE_WIDTHREDUCTION (1-f(pitch)) + f(pitch) int fromVertical = abs(pitch>=0 ? 90-pitch : -90-pitch); float temp = fromVertical * 1/(90.0f-PITCH_SCALE_WIDTHREDUCTION_FROM); linewidth *= (PITCH_SCALE_WIDTHREDUCTION * (1-temp) + temp); } float shift = pitchAngleToTranslation(w, pitch-degrees); // TODO: Intrusion detection and evasion. That is, don't draw // where the compass has intruded. painter.translate(0, shift); QPointF start(-linewidth*w, 0); QPointF end(linewidth*w, 0); painter.drawLine(start, end); if (isMajor && (drawNumbersLeft||drawNumbersRight)) { int displayDegrees = degrees; if(displayDegrees>90) displayDegrees = 180-displayDegrees; else if (displayDegrees<-90) displayDegrees = -180 - displayDegrees; if (SHOW_ZERO_ON_SCALES || degrees) { QString s_number; //= QString("%d").arg(degrees); s_number.sprintf("%d", displayDegrees); if (drawNumbersLeft) drawTextRightCenter(painter, s_number, mediumTextSize, -PITCH_SCALE_MAJORWIDTH * w-10, 0); if (drawNumbersRight) drawTextLeftCenter(painter, s_number, mediumTextSize, PITCH_SCALE_MAJORWIDTH * w+10, 0); } } painter.setTransform(savedTransform); } } void PrimaryFlightDisplay::drawRollScale( QPainter& painter, QRectF area, bool drawTicks, bool drawNumbers) { qreal w = area.width(); if (wlength) ?-tickValues[i-length-1] : tickValues[i]; //degrees = 180 - degrees; painter.rotate(degrees - previousRotation); previousRotation = degrees; QPointF start(0, -_size/2); QPointF end(0, -(1.0+ROLL_SCALE_TICKMARKLENGTH)*_size/2); painter.drawLine(start, end); QString s_number; //= QString("%d").arg(degrees); if (SHOW_ZERO_ON_SCALES || degrees) s_number.sprintf("%d", abs(degrees)); if (drawNumbers) { drawTextCenterBottom(painter, s_number, mediumTextSize, 0, -(ROLL_SCALE_RADIUS+ROLL_SCALE_TICKMARKLENGTH*1.7)*w); } } } } void PrimaryFlightDisplay::drawAIAttitudeScales( QPainter& painter, QRectF area, float intrusion ) { // To save computations, we do these transformations once for both scales: painter.resetTransform(); painter.translate(area.center()); painter.rotate(-roll); QTransform saved = painter.transform(); drawRollScale(painter, area, true, true); painter.setTransform(saved); drawPitchScale(painter, area, intrusion, true, true); } void PrimaryFlightDisplay::drawAICompassDisk(QPainter& painter, QRectF area, float halfspan) { float start = heading - halfspan; float end = heading + halfspan; int firstTick = ceil(start / COMPASS_DISK_RESOLUTION) * COMPASS_DISK_RESOLUTION; int lastTick = floor(end / COMPASS_DISK_RESOLUTION) * COMPASS_DISK_RESOLUTION; float radius = area.width()/2; float innerRadius = radius * 0.96; painter.resetTransform(); painter.setBrush(instrumentBackground); painter.setPen(instrumentEdgePen); painter.drawEllipse(area); painter.setBrush(Qt::NoBrush); QPen scalePen(Qt::black); scalePen.setWidthF(fineLineWidth); for (int tickYaw = firstTick; tickYaw <= lastTick; tickYaw += COMPASS_DISK_RESOLUTION) { int displayTick = tickYaw; if (displayTick < 0) displayTick+=360; else if (displayTick>=360) displayTick-=360; // yaw is in center. float off = tickYaw - heading; // wrap that to ]-180..180] if (off<=-180) off+= 360; else if (off>180) off -= 360; painter.translate(area.center()); painter.rotate(off); bool drewArrow = false; bool isMajor = displayTick % COMPASS_DISK_MAJORTICK == 0; if (displayTick==30 || displayTick==60 || displayTick==120 || displayTick==150 || displayTick==210 || displayTick==240 || displayTick==300 || displayTick==330) { // draw a number QString s_number; s_number.sprintf("%d", displayTick/10); painter.setPen(scalePen); drawTextCenter(painter, s_number, /*COMPASS_SCALE_TEXT_SIZE*radius*/ smallTestSize, 0, -innerRadius*0.75); } else { if (displayTick % COMPASS_DISK_ARROWTICK == 0) { if (displayTick!=0) { QPainterPath markerPath(QPointF(0, -innerRadius*(1-COMPASS_DISK_MARKERHEIGHT/2))); markerPath.lineTo(innerRadius*COMPASS_DISK_MARKERWIDTH/4, -innerRadius); markerPath.lineTo(-innerRadius*COMPASS_DISK_MARKERWIDTH/4, -innerRadius); markerPath.closeSubpath(); painter.setPen(scalePen); painter.setBrush(Qt::SolidPattern); painter.drawPath(markerPath); painter.setBrush(Qt::NoBrush); drewArrow = true; } if (displayTick%90 == 0) { // Also draw a label QString name = compassWindNames[displayTick / 45]; painter.setPen(scalePen); drawTextCenter(painter, name, mediumTextSize, 0, -innerRadius*0.75); } } } // draw the scale lines. If an arrow was drawn, stay off from it. QPointF p_start = drewArrow ? QPoint(0, -innerRadius*0.94) : QPoint(0, -innerRadius); QPoint p_end = isMajor ? QPoint(0, -innerRadius*0.86) : QPoint(0, -innerRadius*0.90); painter.setPen(scalePen); painter.drawLine(p_start, p_end); painter.resetTransform(); } painter.setPen(scalePen); //painter.setBrush(Qt::SolidPattern); painter.translate(area.center()); QPainterPath markerPath(QPointF(0, -radius-2)); markerPath.lineTo(radius*COMPASS_DISK_MARKERWIDTH/2, -radius-radius*COMPASS_DISK_MARKERHEIGHT-2); markerPath.lineTo(-radius*COMPASS_DISK_MARKERWIDTH/2, -radius-radius*COMPASS_DISK_MARKERHEIGHT-2); markerPath.closeSubpath(); painter.drawPath(markerPath); qreal digitalCompassYCenter = -radius*0.52; qreal digitalCompassHeight = radius*0.28; QPointF digitalCompassBottom(0, digitalCompassYCenter+digitalCompassHeight); QPointF digitalCompassAbsoluteBottom = painter.transform().map(digitalCompassBottom); qreal digitalCompassUpshift = digitalCompassAbsoluteBottom.y()>height() ? digitalCompassAbsoluteBottom.y()-height() : 0; QRectF digitalCompassRect(-radius/3, -radius*0.52-digitalCompassUpshift, radius*2/3, radius*0.28); painter.setPen(instrumentEdgePen); painter.drawRoundedRect(digitalCompassRect, instrumentEdgePen.widthF()*2/3, instrumentEdgePen.widthF()*2/3); /* final safeguard for really stupid systems */ int digitalCompassValue = static_cast(round(heading)) % 360; QString s_digitalCompass; s_digitalCompass.sprintf("%03d", digitalCompassValue); QPen pen; pen.setWidthF(lineWidth); pen.setColor(Qt::white); painter.setPen(pen); drawTextCenter(painter, s_digitalCompass, largeTextSize, 0, -radius*0.38-digitalCompassUpshift); } // TODO: Merge common code above and below this line..... void PrimaryFlightDisplay::drawSeparateCompassDisk(QPainter& painter, QRectF area) { float radius = area.width()/2; float innerRadius = radius * 0.96; painter.resetTransform(); painter.setBrush(instrumentOpagueBackground); painter.setPen(instrumentEdgePen); painter.drawEllipse(area); painter.setBrush(Qt::NoBrush); QPen scalePen(Qt::white); scalePen.setWidthF(fineLineWidth); for (int displayTick=0; displayTick<360; displayTick+=COMPASS_SEPARATE_DISK_RESOLUTION) { // yaw is in center. float off = displayTick - heading; // wrap that to ]-180..180] if (off<=-180) off+= 360; else if (off>180) off -= 360; painter.translate(area.center()); painter.rotate(off); bool drewArrow = false; bool isMajor = displayTick % COMPASS_DISK_MAJORTICK == 0; if (displayTick==30 || displayTick==60 || displayTick==120 || displayTick==150 || displayTick==210 || displayTick==240 || displayTick==300 || displayTick==330) { // draw a number QString s_number; s_number.sprintf("%d", displayTick/10); painter.setPen(scalePen); drawTextCenter(painter, s_number, mediumTextSize, 0, -innerRadius*0.75); } else { if (displayTick % COMPASS_DISK_ARROWTICK == 0) { if (displayTick!=0) { QPainterPath markerPath(QPointF(0, -innerRadius*(1-COMPASS_DISK_MARKERHEIGHT/2))); markerPath.lineTo(innerRadius*COMPASS_DISK_MARKERWIDTH/4, -innerRadius); markerPath.lineTo(-innerRadius*COMPASS_DISK_MARKERWIDTH/4, -innerRadius); markerPath.closeSubpath(); painter.setPen(scalePen); painter.setBrush(Qt::SolidPattern); painter.drawPath(markerPath); painter.setBrush(Qt::NoBrush); drewArrow = true; } if (displayTick%90 == 0) { // Also draw a label QString name = compassWindNames[displayTick / 45]; painter.setPen(scalePen); drawTextCenter(painter, name, mediumTextSize, 0, -innerRadius*0.75); } } } // draw the scale lines. If an arrow was drawn, stay off from it. QPointF p_start = drewArrow ? QPoint(0, -innerRadius*0.94) : QPoint(0, -innerRadius); QPoint p_end = isMajor ? QPoint(0, -innerRadius*0.86) : QPoint(0, -innerRadius*0.90); painter.setPen(scalePen); painter.drawLine(p_start, p_end); painter.resetTransform(); } painter.setPen(scalePen); //painter.setBrush(Qt::SolidPattern); painter.translate(area.center()); QPainterPath markerPath(QPointF(0, -radius-2)); markerPath.lineTo(radius*COMPASS_DISK_MARKERWIDTH/2, -radius-radius*COMPASS_DISK_MARKERHEIGHT-2); markerPath.lineTo(-radius*COMPASS_DISK_MARKERWIDTH/2, -radius-radius*COMPASS_DISK_MARKERHEIGHT-2); markerPath.closeSubpath(); painter.drawPath(markerPath); QRectF headingNumberRect(-radius/3, radius*0.12, radius*2/3, radius*0.28); painter.setPen(instrumentEdgePen); painter.drawRoundedRect(headingNumberRect, instrumentEdgePen.widthF()*2/3, instrumentEdgePen.widthF()*2/3); // if (heading < 0) heading += 360; // else if (heading >= 360) heading -= 360; /* final safeguard for really stupid systems */ int yawCompass = static_cast(heading) % 360; QString yawAngle; yawAngle.sprintf("%03d", yawCompass); QPen pen; pen.setWidthF(lineWidth); pen.setColor(Qt::white); painter.setPen(pen); drawTextCenter(painter, yawAngle, largeTextSize, 0, radius/4); } void PrimaryFlightDisplay::drawAltimeter( QPainter& painter, QRectF area, // the area where to draw the tape. float primaryAltitude, float secondaryAltitude, float vv ) { painter.resetTransform(); fillInstrumentBackground(painter, area); QPen pen; pen.setWidthF(lineWidth); pen.setColor(Qt::white); painter.setPen(pen); float h = area.height(); float w = area.width(); float secondaryAltitudeBoxHeight = mediumTextSize * 2; // The height where we being with new tickmarks. float effectiveHalfHeight = h*0.45; // not yet implemented: Display of secondary altitude. // if (isAirplane()) // effectiveHalfHeight-= secondaryAltitudeBoxHeight; float markerHalfHeight = mediumTextSize*0.8; float leftEdge = instrumentEdgePen.widthF()*2; float rightEdge = w-leftEdge; float tickmarkLeft = leftEdge; float tickmarkRightMajor = tickmarkLeft+TAPE_GAUGES_TICKWIDTH_MAJOR*w; float tickmarkRightMinor = tickmarkLeft+TAPE_GAUGES_TICKWIDTH_MINOR*w; float numbersLeft = 0.42*w; float markerTip = (tickmarkLeft*2+tickmarkRightMajor)/3; float scaleCenterAltitude = primaryAltitude == UNKNOWN_ALTITUDE ? 0 : primaryAltitude; // altitude scale #ifdef ALTIMETER_PROJECTED float range = 1.2; float start = scaleCenterAltitude - ALTIMETER_PROJECTED_SPAN/2; float end = scaleCenterAltitude + ALTIMETER_PROJECTED_SPAN/2; int firstTick = ceil(start / ALTIMETER_PROJECTED_RESOLUTION) * ALTIMETER_PROJECTED_RESOLUTION; int lastTick = floor(end / ALTIMETER_PROJECTED_RESOLUTION) * ALTIMETER_PROJECTED_RESOLUTION; for (int tickAlt = firstTick; tickAlt <= lastTick; tickAlt += ALTIMETER_PROJECTED_RESOLUTION) { // a number between 0 and 1. Use as radians directly. float r = range*(tickAlt-altitude)/(ALTIMETER_PROJECTED_SPAN/2); float y = effectiveHalfHeight * sin(r); scale = cos(r); if (scale<0) scale = -scale; bool hasText = tickAlt % ALTIMETER_PROJECTED_MAJOR_RESOLUTION == 0; #else float start = scaleCenterAltitude - ALTIMETER_LINEAR_SPAN/2; float end = scaleCenterAltitude + ALTIMETER_LINEAR_SPAN/2; int firstTick = ceil(start / ALTIMETER_LINEAR_RESOLUTION) * ALTIMETER_LINEAR_RESOLUTION; int lastTick = floor(end / ALTIMETER_LINEAR_RESOLUTION) * ALTIMETER_LINEAR_RESOLUTION; for (int tickAlt = firstTick; tickAlt <= lastTick; tickAlt += ALTIMETER_LINEAR_RESOLUTION) { float y = (tickAlt-scaleCenterAltitude)*effectiveHalfHeight/(ALTIMETER_LINEAR_SPAN/2); bool isMajor = tickAlt % ALTIMETER_LINEAR_MAJOR_RESOLUTION == 0; #endif painter.resetTransform(); painter.translate(area.left(), area.center().y() - y); pen.setColor(tickAlt<0 ? redColor : Qt::white); painter.setPen(pen); if (isMajor) { painter.drawLine(tickmarkLeft, 0, tickmarkRightMajor, 0); QString s_alt; s_alt.sprintf("%d", abs(tickAlt)); drawTextLeftCenter(painter, s_alt, mediumTextSize, numbersLeft, 0); } else { painter.drawLine(tickmarkLeft, 0, tickmarkRightMinor, 0); } } QPainterPath markerPath(QPoint(markerTip, 0)); markerPath.lineTo(markerTip+markerHalfHeight, markerHalfHeight); markerPath.lineTo(rightEdge, markerHalfHeight); markerPath.lineTo(rightEdge, -markerHalfHeight); markerPath.lineTo(markerTip+markerHalfHeight, -markerHalfHeight); markerPath.closeSubpath(); painter.resetTransform(); painter.translate(area.left(), area.center().y()); pen.setWidthF(lineWidth); pen.setColor(Qt::white); painter.setPen(pen); painter.setBrush(Qt::SolidPattern); painter.drawPath(markerPath); painter.setBrush(Qt::NoBrush); pen.setColor(Qt::white); painter.setPen(pen); QString s_alt; if(primaryAltitude == UNKNOWN_ALTITUDE) s_alt.sprintf("---"); else s_alt.sprintf("%3.0f", primaryAltitude); float xCenter = (markerTip+rightEdge)/2; drawTextCenter(painter, s_alt, /* TAPES_TEXT_SIZE*width()*/ mediumTextSize, xCenter, 0); if (vv == UNKNOWN_ALTITUDE) return; float vvPixHeight = -vv/ALTIMETER_VVI_SPAN * effectiveHalfHeight; if (abs (vvPixHeight)