Пример #1
0
void DiveCalculatedCeiling::modelDataChanged(const QModelIndex &topLeft, const QModelIndex &bottomRight)
{
	// We don't have enougth data to calculate things, quit.
	if (!shouldCalculateStuff(topLeft, bottomRight))
		return;
	AbstractProfilePolygonItem::modelDataChanged(topLeft, bottomRight);
	// Add 2 points to close the polygon.
	QPolygonF poly = polygon();
	if (poly.isEmpty())
		return;
	QPointF p1 = poly.first();
	QPointF p2 = poly.last();

	poly.prepend(QPointF(p1.x(), vAxis->posAtValue(0)));
	poly.append(QPointF(p2.x(), vAxis->posAtValue(0)));
	setPolygon(poly);

	QLinearGradient pat(0, polygon().boundingRect().top(), 0, polygon().boundingRect().bottom());
	pat.setColorAt(0, getColor(CALC_CEILING_SHALLOW));
	pat.setColorAt(1, getColor(CALC_CEILING_DEEP));
	setPen(QPen(QBrush(Qt::NoBrush), 0));
	setBrush(pat);

	gradientFactor->setX(poly.boundingRect().width() / 2 + poly.boundingRect().x());
	DivePlannerPointsModel *plannerModel = DivePlannerPointsModel::instance();
	if (plannerModel->isPlanner()) {
		struct diveplan &diveplan = plannerModel->getDiveplan();
		gradientFactor->setText(QString("GF %1/%2").arg(diveplan.gflow).arg(diveplan.gfhigh));
	} else {
		gradientFactor->setText(QString("GF %1/%2").arg(prefs.gflow).arg(prefs.gfhigh));
	}
}
Пример #2
0
int Polygon::prepend(lua_State * L) // ( const T & ) 
{
	QPolygonF* obj = ValueInstaller2<QPolygonF>::check( L, 1 );
	QPointF* p = ValueInstaller2<QPointF>::check( L, 2 );
	obj->prepend( *p );
	return 0;
}
Пример #3
0
static PyObject *meth_QPolygonF_prepend(PyObject *sipSelf, PyObject *sipArgs)
{
    PyObject *sipParseErr = NULL;

    {
        const QPointF* a0;
        int a0State = 0;
        QPolygonF *sipCpp;

        if (sipParseArgs(&sipParseErr, sipArgs, "BJ1", &sipSelf, sipType_QPolygonF, &sipCpp, sipType_QPointF, &a0, &a0State))
        {
            sipCpp->prepend(*a0);
            sipReleaseType(const_cast<QPointF *>(a0),sipType_QPointF,a0State);

            Py_INCREF(Py_None);
            return Py_None;
        }
    }

    /* Raise an exception if the arguments couldn't be parsed. */
    sipNoMethod(sipParseErr, sipName_QPolygonF, sipName_prepend, doc_QPolygonF_prepend);

    return NULL;
}
QPainterPath ArtisticTextToolSelection::outline()
{
    if (!hasSelection())
        return QPainterPath();

    CharIndex charPos = m_currentShape->indexOfChar(m_selectionStart);
    if (charPos.first < 0)
        return QPainterPath();

    QPainterPath outline;

    QPolygonF polygon;

    QList<ArtisticTextRange> ranges = m_currentShape->text();
    if (ranges.size() == 0) return outline;

    int globalCharIndex = m_selectionStart;
    int remainingChars = m_selectionCount;
    while (remainingChars) {
        const ArtisticTextRange &currentRange = ranges[charPos.first];

        int currentTextLength = currentRange.text().length();
        while (charPos.second < currentTextLength && remainingChars > 0) {
            const QPointF pos = m_currentShape->charPositionAt(globalCharIndex);
            const qreal angle = m_currentShape->charAngleAt(globalCharIndex);

            QTransform charTransform;
            charTransform.translate( pos.x() - 1, pos.y() );
            charTransform.rotate( 360. - angle );

            QFontMetricsF metrics(currentRange.font());

            polygon.prepend(charTransform.map(QPointF(0.0, -metrics.ascent())));
            polygon.append(charTransform.map(QPointF(0.0, metrics.descent())));

            // advance to next character
            charPos.second++;
            globalCharIndex++;
            remainingChars--;

            // next character has y-offset or we are at the end of this text range
            const bool hasYOffset = currentRange.hasYOffset(charPos.second);
            const bool atRangeEnd = charPos.second == currentTextLength;
            const bool atSelectionEnd = remainingChars == 0;
            if (hasYOffset || atRangeEnd || atSelectionEnd) {
                if (hasYOffset || atRangeEnd) {
                    const QChar c = currentRange.text().at(charPos.second-1);
                    const qreal w = metrics.width(c);
                    polygon.prepend(charTransform.map(QPointF(w, -metrics.ascent())));
                    polygon.append(charTransform.map(QPointF(w, metrics.descent())));
                } else {
                    const QPointF pos = m_currentShape->charPositionAt(globalCharIndex);
                    const qreal angle = m_currentShape->charAngleAt(globalCharIndex);
                    charTransform.reset();
                    charTransform.translate( pos.x() - 1, pos.y() );
                    charTransform.rotate( 360. - angle );
                    polygon.prepend(charTransform.map(QPointF(0.0, -metrics.ascent())));
                    polygon.append(charTransform.map(QPointF(0.0, metrics.descent())));
                }
                QPainterPath p;
                p.addPolygon(polygon);
                outline = outline.united(p);
                polygon.clear();
            }
        }

        // go to first character of next text range
        charPos.first++;
        charPos.second = 0;
    }

    // transform to document coordinates
    return m_currentShape->absoluteTransformation(0).map(outline);
}
Пример #5
0
QPolygonF minigis::shiftPolygonSimple(const QPolygonF &origin, qreal delta, bool closed)
{
    QPolygonF path = origin;

    QPolygonF norm;
    // ----------------- Поиск нормалей к оригинальному полигону
    int N = path.size();
    for (int i = 1; i < N; ++i) {
        QPointF vect = path.at(i) - path.at(i-1);
        double len = lengthR2(vect);
        if (qFuzzyIsNull(len)) {
            path.remove(i);
            --N;
            --i;
            continue;
        }
        vect /= len;
        norm.append(QPointF(vect.y() * delta, -vect.x() * delta));
    }
    // ----
    if (closed) {
        QPointF vect = path.first() - path.last();
        double len = lengthR2(vect);
        if (qFuzzyIsNull(len))
            path.remove(path.size() - 1);
        else {
            vect /= len;
            norm.append(QPointF(vect.y() * delta, -vect.x() * delta));
        }
    }
    // ------------------

    QVector<QLineF> lines;
    // -------------------------- Построение смещенных линий
    for (int i = 1; i < path.size(); ++i)
        lines.append(QLineF(path.at(i) + norm.at(i-1), path.at(i-1) + norm.at(i-1)));
    // ----
    if (closed)
        lines.append(QLineF(path.first() + norm.last(), path.last() + norm.last()));
    // ------------------

    QPolygonF shell;
    if (lines.isEmpty())
        return shell;

    // -------------------------- Построение смещенного полигона
    N = lines.size();
    for (int i = 1; i < N; ++i) {
        QPointF tmp;
        QLineF::IntersectType type = lines.at(i-1).intersect(lines.at(i), &tmp);
        double ang = lines.at(i-1).angleTo(lines.at(i));
        if (type != QLineF::NoIntersection)
            shell.append(tmp);
        else {
            if (qFuzzyCompare(ang, 180.))
                shell.append(lines.at(i).p2() - 2 * norm.at(i));
            shell.append(lines.at(i).p2());
        }
    }
    // ----
    if (closed) {
        QPointF tmp;
        QLineF::IntersectType type = lines.last().intersect(lines.first(), &tmp);
        double ang = lines.last().angleTo(lines.first());
        if (type != QLineF::NoIntersection)
            shell.append(tmp);
        else {
            if (qFuzzyCompare(ang, 180.))
                shell.append(lines.first().p2() - 2 * norm.first());
            shell.append(lines.first().p2());
        }
        shell.append(shell.first());
    }
    else {
        shell.prepend(lines.first().p2());
        shell.append(lines.last().p1());
    }
    // ------------------

    return shell;
}
Пример #6
0
QPolygonF minigis::shiftPolygonDifficult(const QPolygonF &origin, qreal delta, bool closed)
{
    if (qFuzzyIsNull(delta))
        return origin;

    QPolygonF path = origin;

    QPolygonF norm;
    // ----------------- Поиск нормалей к оригинальному полигону
    int N = path.size();
    for (int i = 1; i < N; ++i) {
        QPointF vect = path.at(i) - path.at(i-1);
        double len = lengthR2(vect);
        if (qFuzzyIsNull(len)) {
            path.remove(i);
            --N;
            --i;
            continue;
        }
        vect /= len;
        norm.append(QPointF(vect.y() * delta, -vect.x() * delta));
    }
    // ----
    if (closed) {
        QPointF vect = path.first() - path.last();
        double len = lengthR2(vect);
        if (qFuzzyIsNull(len))
            path.remove(path.size() - 1);
        else {
            vect /= len;
            norm.append(QPointF(vect.y() * delta, -vect.x() * delta));
        }
    }
    // ------------------

    QVector<QLineF> lines;
    // -------------------------- Построение смещенных линий
    for (int i = 1; i < path.size(); ++i)
        lines.append(QLineF(path.at(i) + norm.at(i-1), path.at(i-1) + norm.at(i-1)));
    // ----
    if (closed)
        lines.append(QLineF(path.first() + norm.last(), path.last() + norm.last()));
    // ------------------

    QPolygonF shell;
    if (lines.isEmpty())
        return shell;

    // -------------------------- Построение смещенного полигона
    N = lines.size();
    for (int i = 1; i < N; ++i) {
        QPointF tmp;
        QLineF::IntersectType type = lines.at(i-1).intersect(lines.at(i), &tmp);
        qreal ang = lines.at(i-1).angleTo(lines.at(i));
        if (type != QLineF::NoIntersection)
            shell.append(tmp);
        else {
            if (qFuzzyCompare(ang, qreal(180)))
                shell.append(lines.at(i).p2() - 2 * norm.at(i));
            shell.append(lines.at(i).p2());
        }
    }
    // ----
    if (closed) {
        QPointF tmp;
        QLineF::IntersectType type = lines.last().intersect(lines.first(), &tmp);
        qreal ang = lines.last().angleTo(lines.first());
        if (type != QLineF::NoIntersection)
            shell.append(tmp);
        else {
            if (qFuzzyCompare(ang, qreal(180)))
                shell.append(lines.first().p2() - 2 * norm.first());
            shell.append(lines.first().p2());
        }
        shell.append(shell.first());
    }
    else {
        shell.prepend(lines.first().p2());
        shell.append(lines.last().p1());
    }
    // ------------------

    // -------------------------- обрезание острых углов
    int k  = 0;
    N = lines.size();
    for (int i = 1; i < N; ++i) {
        double ang = lines.at(i-1).angleTo(lines.at(i));

        bool first  = (120 < ang && ang < 180 && delta < 0) || (180 < ang && ang < 240 && delta > 0);
        bool second = (120 < ang && ang < 180 && delta > 0) || (180 < ang && ang < 240 && delta < 0);
        if (first) {
            int num = closed ? 1 : 0;
            QPointF v = shell.at(i + k - num) - path.at(i);
            v /= lengthR2(v);
            QPointF start = path.at(i) + v * qAbs(delta);
            QLineF tmp(start, start + QPointF(-v.y(), v.x()));
            QPointF a;
            if (tmp.intersect(lines.at(i  ), &a) != QLineF::NoIntersection)
                shell.replace(i + k - num, a);
            if (tmp.intersect(lines.at(i-1), &a) != QLineF::NoIntersection)
                shell.insert(i + k - num, a);
            ++k;
        }
        else if (second) {
            // TODO: cut corner
        }
    }
    // ----
    if (closed) {
        double ang = lines.last().angleTo(lines.first());

        int num = lines.size();
        int shellNum = (num + k - 1) % shell.size();
        bool first  = (120 < ang && ang < 180 && delta < 0) || (180 < ang && ang < 240 && delta > 0);
        bool second = (180 < ang && ang < 240 && delta < 0) || (120 < ang && ang < 180 && delta > 0);
        if (first) {
            QPointF v = shell.at(shellNum) - path.at(num % path.size());
            v /= lengthR2(v);
            QPointF start = path.at(num % path.size()) + v * qAbs(delta);
            QLineF tmp(start, start + QPointF(-v.y(), v.x()));
            QPointF a;
            if (tmp.intersect(lines.first(), &a) != QLineF::NoIntersection)
                shell.replace(shellNum, a);
            if (tmp.intersect(lines.last() , &a) != QLineF::NoIntersection)
                shell.insert(shellNum, a);
        }
        else if (second) {
            // TODO: cut corner
        }
    }
    // ------------------

    return shell;
}