Exemplo n.º 1
0
RGBColor
GNEInternalLane::colorForLinksState(FXuint state) {
    if (state == LINKSTATE_TL_YELLOW_MINOR) {
        // special case (default gui does not distinguish between yellow major/minor
        return RGBColor(179, 179, 0, 255);
    } else {
        return getLinkColor((LinkState)state);
    }
}
void
GUITLLogicPhasesTrackerWindow::drawValues(GUITLLogicPhasesTrackerPanel& caller) {
    // compute what shall be shown (what is visible)
    myFirstPhase2Show = 0;
    myFirstPhaseOffset = 0;
    size_t leftOffset = 0;
    myFirstTime2Show = 0;
    if (!myAmInTrackingMode) {
        myPhases.clear();
        myDurations.clear();
        // insert phases
        const MSSimpleTrafficLightLogic::Phases& phases = static_cast<MSSimpleTrafficLightLogic*>(myTLLogic)->getPhases();
        MSSimpleTrafficLightLogic::Phases::const_iterator j;
        myLastTime = 0;
        myBeginTime = 0;
        for (j = phases.begin(); j != phases.end(); ++j) {
            myPhases.push_back(*(*j));
            myDurations.push_back((*j)->duration);
            myLastTime += (*j)->duration;
        }
        if (myLastTime <= myBeginTime) {
            WRITE_ERROR("Overflow in time computation occured.");
            return;
        }
    } else {
        SUMOTime beginOffset = TIME2STEPS(myBeginOffset->getValue());
        myBeginTime = myLastTime - beginOffset;
        myFirstTime2Show = myBeginTime;
        // check whether no phases are known at all
        if (myDurations.size() != 0) {
            SUMOTime durs = 0;
            size_t phaseOffset = myDurations.size() - 1;
            DurationsVector::reverse_iterator i = myDurations.rbegin();
            while (i != myDurations.rend()) {
                if (durs + (*i) > beginOffset) {
                    myFirstPhase2Show = phaseOffset;
                    myFirstPhaseOffset = (durs + (*i)) - beginOffset;
                    break;
                }
                durs += (*i);
                phaseOffset--;
                ++i;
            }
            if (i == myDurations.rend()) {
                // there are too few information stored;
                myFirstPhase2Show = 0;
                myFirstPhaseOffset = 0;
                leftOffset = beginOffset - durs;
            }
        }
    }
    // begin drawing
    glMatrixMode(GL_PROJECTION);
    glLoadIdentity();
    glMatrixMode(GL_MODELVIEW);
    glLoadIdentity();
    glTranslated(-1, -1, 0);
    glScaled(2, 2, 1);
    glDisable(GL_TEXTURE_2D);
    // draw the horizontal lines dividing the signal groups
    glColor3d(1, 1, 1);
    // compute some values needed more than once
    const SUMOReal height = (SUMOReal) caller.getHeight();
    const SUMOReal width = (SUMOReal) caller.getWidth();
    pfSetScaleXY((SUMOReal)(.08 * 300. / width), (SUMOReal)(.08 * 300. / height));
    const SUMOReal h4 = ((SUMOReal) 4 / height);
    const SUMOReal h9 = ((SUMOReal) 9 / height);
    const SUMOReal h10 = ((SUMOReal) 10 / height);
    const SUMOReal h11 = ((SUMOReal) 11 / height);
    const SUMOReal h16 = ((SUMOReal) 16 / height);
    const SUMOReal h20 = ((SUMOReal) 20 / height);
    // draw the link names and the lines dividing them
    SUMOReal h = (SUMOReal)(1.0 - h10);
    SUMOReal h2 = 12;
    for (size_t i = 0; i < myTLLogic->getLinks().size() + 1; ++i) {
        // draw the bar
        glBegin(GL_LINES);
        glVertex2d(0, h);
        glVertex2d((SUMOReal)(30. / width), h);
        glEnd();
        // draw the name
        if (i < myTLLogic->getLinks().size()) {
            glRotated(180, 1, 0, 0);
            pfSetPosition(0, 0);
            glTranslated(0.0, -h + h20 - h4, 0);
            pfDrawString(myLinkNames[i].c_str());
            glTranslated(-0.0, h - h20 + h4, 0);
            glRotated(-180, 1, 0, 0);
            h2 += 20;
        }
        h -= h20;
    }
    glBegin(GL_LINES);
    glVertex2d(0, h + h20);
    glVertex2d(1.0, h + h20);
    glEnd();

    // draw the names closure (vertical line)
    h += (SUMOReal) 20 / height;
    glColor3d(1, 1, 1);
    glBegin(GL_LINES);
    glVertex2d((SUMOReal) 30 / width, 1.0);
    glVertex2d((SUMOReal) 30 / width, h);
    glEnd();


    // draw the phases
    // disable value addition while drawing
    myLock.lock();
    // determine the initial offset
    SUMOReal x = ((SUMOReal) 31. / width);
    SUMOReal ta = (SUMOReal) leftOffset / width;
    ta *= (SUMOReal)(((width - 31.0) / ((SUMOReal)(myLastTime - myBeginTime))));
    x += ta;

    // and the initial phase information
    PhasesVector::iterator pi = myPhases.begin() + myFirstPhase2Show;
    DurationsVector::iterator pd = myDurations.begin() + myFirstPhase2Show;
    size_t fpo = myFirstPhaseOffset;

    // start drawing
    for (size_t i = 30; pd != myDurations.end();) {
        // the first phase may be drawn incompletely
        size_t duration = *pd - fpo;
        // compute the heigh and the width of the phase
        h = (SUMOReal)(1.0 - h10);
        SUMOReal a = (SUMOReal) duration / width;
        a *= (SUMOReal)(((width - 31.0) / ((SUMOReal)(myLastTime - myBeginTime))));
        SUMOReal x2 = x + a;

        // go through the links
        for (int j = 0; j < (int) myTLLogic->getLinks().size(); ++j) {
            // determine the current link's color
            LinkState state = pi->getSignalState(j);
            // draw the bar (red is drawn as a line)
            GLHelper::setColor(getLinkColor(state));
            switch (state) {
                case LINKSTATE_TL_RED:
                case LINKSTATE_TL_REDYELLOW:
                    // draw a thin line
                    glBegin(GL_QUADS);
                    glVertex2d(x, h - h11);
                    glVertex2d(x, h - h9);
                    glVertex2d(x2, h - h9);
                    glVertex2d(x2, h - h11);
                    glEnd();
                    break;
                default:
                    // draw a thick block
                    glBegin(GL_QUADS);
                    glVertex2d(x, h - h16);
                    glVertex2d(x, h - h4);
                    glVertex2d(x2, h - h4);
                    glVertex2d(x2, h - h16);
                    glEnd();
                    break;
            }
            // proceed to next link
            h -= h20;
        }
        // proceed to next phase
        i += duration;
        ++pi;
        ++pd;
        x = x2;
        // all further phases are drawn in full
        fpo = 0;
    }
    // allow value addition
    myLock.unlock();

    glColor3d(1, 1, 1);
    if (myPhases.size() != 0) {
        SUMOTime tickDist = TIME2STEPS(10);
        // patch distances - hack
        SUMOReal t = myBeginOffset != 0 ? (SUMOReal) myBeginOffset->getValue() : STEPS2TIME(myLastTime - myBeginTime);
        while (t > (width - 31.) / 4.) {
            tickDist += TIME2STEPS(10);
            t -= (SUMOReal)((width - 31.) / 4.);
        }
        // draw time information
        //h = (SUMOReal)(myTLLogic->getLinks().size() * 20 + 12);
        SUMOReal glh = (SUMOReal)(1.0 - myTLLogic->getLinks().size() * h20 - h10);
        // current begin time
        pfSetScaleXY((SUMOReal)(.05 * 300. / width), (SUMOReal)(.05 * 300. / height));
        // time ticks
        SUMOTime currTime = myFirstTime2Show;
        int pos = 31;// + /*!!!currTime*/ - myFirstTime2Show;
        SUMOReal glpos = (SUMOReal) pos / width;
        while (pos < width + 50) {
            const std::string timeStr = time2string(currTime);
            const SUMOReal w = pfdkGetStringWidth(timeStr.c_str());
            glRotated(180, 1, 0, 0);
            pfSetPosition(0, 0);
            glTranslated(glpos - w / 2., -glh + h20 - h4, 0);
            pfDrawString(timeStr.c_str());
            glTranslated(-glpos + w / 2., glh - h20 + h4, 0);
            glRotated(-180, 1, 0, 0);

            glBegin(GL_LINES);
            glVertex2d(glpos, glh);
            glVertex2d(glpos, glh - h4);
            glEnd();

            const SUMOReal a = STEPS2TIME(tickDist) * (width - 31.0) / STEPS2TIME(myLastTime - myBeginTime);
            pos += (int) a;
            glpos += a / width;
            currTime += tickDist;
        }
    }
}
Exemplo n.º 3
0
void
GUILane::drawLinkRules(const GUINet& net) const {
    unsigned int noLinks = (unsigned int)myLinks.size();
    const PositionVector& g = getShape();
    const Position& end = g.back();
    const Position& f = g[-2];
    const Position& s = end;
    const SUMOReal rot = RAD2DEG(atan2((s.x() - f.x()), (f.y() - s.y())));
    if (noLinks == 0) {
        glPushName(getGlID());
        GLHelper::setColor(getLinkColor(LINKSTATE_DEADEND));
        glPushMatrix();
        glTranslated(end.x(), end.y(), 0);
        glRotated(rot, 0, 0, 1);
        glBegin(GL_QUADS);
        glVertex2d(-myHalfLaneWidth, 0.0);
        glVertex2d(-myHalfLaneWidth, 0.5);
        glVertex2d(myHalfLaneWidth, 0.5);
        glVertex2d(myHalfLaneWidth, 0.0);
        glEnd();
        glPopMatrix();
        glPopName();
        return;
    }
    // draw all links
    const bool railway = isRailway(myPermissions);
    SUMOReal w = myWidth / (SUMOReal) noLinks;
    SUMOReal x1 = 0;
    glPushMatrix();
    glTranslated(end.x(), end.y(), 0);
    glRotated(rot, 0, 0, 1);
    for (unsigned int i = 0; i < noLinks; ++i) {
        SUMOReal x2 = x1 + w;
        MSLink* link = myLinks[i];
        // select glID
        switch (link->getState()) {
            case LINKSTATE_TL_GREEN_MAJOR:
            case LINKSTATE_TL_GREEN_MINOR:
            case LINKSTATE_TL_RED:
            case LINKSTATE_TL_YELLOW_MAJOR:
            case LINKSTATE_TL_YELLOW_MINOR:
            case LINKSTATE_TL_OFF_BLINKING:
                glPushName(net.getLinkTLID(link));
                break;
            case LINKSTATE_MAJOR:
            case LINKSTATE_MINOR:
            case LINKSTATE_EQUAL:
            case LINKSTATE_TL_OFF_NOSIGNAL:
            default:
                glPushName(getGlID());
                break;
        }
        GLHelper::setColor(getLinkColor(link->getState()));
        if (!railway || link->getState() != LINKSTATE_MAJOR) {
            // THE WHITE BAR SHOULD BE THE DEFAULT FOR MOST RAILWAY
            // LINKS AND LOOKS UGLY SO WE DO NOT DRAW IT
            glBegin(GL_QUADS);
            glVertex2d(x1 - myHalfLaneWidth, 0.0);
            glVertex2d(x1 - myHalfLaneWidth, 0.5);
            glVertex2d(x2 - myHalfLaneWidth, 0.5);
            glVertex2d(x2 - myHalfLaneWidth, 0.0);
            glEnd();
        }
        glPopName();
        x1 = x2;
        x2 += w;
    }
    glPopMatrix();
}