void KoPathSegmentTypeCommand::redo()
{
    KUndo2Command::redo();
    QList<KoPathPointData>::const_iterator it(m_pointDataList.constBegin());
    for (; it != m_pointDataList.constEnd(); ++it) {
        KoPathShape * pathShape = it->pathShape;
        pathShape->update();

        KoPathSegment segment = pathShape->segmentByIndex(it->pointIndex);

        if (m_segmentType == Curve) {
            // we change type to curve -> set control point positions
            QPointF pointDiff = segment.second()->point() - segment.first()->point();
            segment.first()->setControlPoint2(segment.first()->point() + pointDiff / 3.0);
            segment.second()->setControlPoint1(segment.first()->point() + pointDiff * 2.0 / 3.0);
        } else {
            // we are changing type to line -> remove control points
            segment.first()->removeControlPoint2();
            segment.second()->removeControlPoint1();
        }

        pathShape->normalize();
        pathShape->update();
    }
}
Beispiel #2
0
KoShape *KoPathShapeFactory::createDefaultShape(KoDocumentResourceManager *) const
{
    KoPathShape* path = new KoPathShape();
    path->moveTo(QPointF(0, 50));
    path->curveTo(QPointF(0, 120), QPointF(50, 120), QPointF(50, 50));
    path->curveTo(QPointF(50, -20), QPointF(100, -20), QPointF(100, 50));
    path->normalize();
    path->setStroke(new KoShapeStroke(1.0));
    return path;
}
void KoPathControlPointMoveCommand::redo()
{
    KUndo2Command::redo();
    KoPathShape * pathShape = m_pointData.pathShape;
    KoPathPoint * point = pathShape->pointByIndex(m_pointData.pointIndex);
    if (point) {
        pathShape->update();

        if (m_pointType == KoPathPoint::ControlPoint1) {
            point->setControlPoint1(point->controlPoint1() + m_offset);
            if (point->properties() & KoPathPoint::IsSymmetric) {
                // set the other control point so that it lies on the line between the moved
                // control point and the point, with the same distance to the point as the moved point
                point->setControlPoint2(2.0 * point->point() - point->controlPoint1());
            } else if (point->properties() & KoPathPoint::IsSmooth) {
                // move the other control point so that it lies on the line through point and control point
                // keeping its distance to the point
                QPointF direction = point->point() - point->controlPoint1();
                direction /= sqrt(direction.x() * direction.x() + direction.y() * direction.y());
                QPointF distance = point->point() - point->controlPoint2();
                qreal length = sqrt(distance.x() * distance.x() + distance.y() * distance.y());
                point->setControlPoint2(point->point() + length * direction);
            }
        } else if (m_pointType == KoPathPoint::ControlPoint2) {
            point->setControlPoint2(point->controlPoint2() + m_offset);
            if (point->properties() & KoPathPoint::IsSymmetric) {
                // set the other control point so that it lies on the line between the moved
                // control point and the point, with the same distance to the point as the moved point
                point->setControlPoint1(2.0 * point->point() - point->controlPoint2());
            } else if (point->properties() & KoPathPoint::IsSmooth) {
                // move the other control point so that it lies on the line through point and control point
                // keeping its distance to the point
                QPointF direction = point->point() - point->controlPoint2();
                direction /= sqrt(direction.x() * direction.x() + direction.y() * direction.y());
                QPointF distance = point->point() - point->controlPoint1();
                qreal length = sqrt(distance.x() * distance.x() + distance.y() * distance.y());
                point->setControlPoint1(point->point() + length * direction);
            }
        }

        pathShape->normalize();
        pathShape->update();
    }
}
Beispiel #4
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void KoSubpathJoinCommand::redo()
{
    KUndo2Command::redo();
    KoPathShape * pathShape = m_pointData1.pathShape;

    bool closeSubpath = m_pointData1.pointIndex.first == m_pointData2.pointIndex.first;

    KoPathPoint * point1 = pathShape->pointByIndex(m_pointData1.pointIndex);
    KoPathPoint * point2 = pathShape->pointByIndex(m_pointData2.pointIndex);

    // if the endpoint is has a control point create a contol point for the new segment to be
    // at the symetric position to the exiting one
    if (m_reverse & ReverseFirst || closeSubpath) {
        if (point1->activeControlPoint2())
            point1->setControlPoint1(2.0 * point1->point() - point1->controlPoint2());
    } else if (point1->activeControlPoint1())
        point1->setControlPoint2(2.0 * point1->point() - point1->controlPoint1());
    if (m_reverse & ReverseSecond || closeSubpath) {
        if (point2->activeControlPoint1())
            point2->setControlPoint2(2.0 * point2->point() - point2->controlPoint1());
    } else if (point2->activeControlPoint2())
        point2->setControlPoint1(2.0 * point2->point() - point2->controlPoint2());

    if (closeSubpath) {
        pathShape->closeSubpath(m_pointData1.pointIndex);
    } else {
        if (m_reverse & ReverseFirst) {
            pathShape->reverseSubpath(m_pointData1.pointIndex.first);
        }
        if (m_reverse & ReverseSecond) {
            pathShape->reverseSubpath(m_pointData2.pointIndex.first);
        }
        pathShape->moveSubpath(m_pointData2.pointIndex.first, m_pointData1.pointIndex.first + 1);
        m_splitIndex = m_pointData1.pointIndex;
        m_splitIndex.second = pathShape->subpathPointCount(m_pointData1.pointIndex.first) - 1;
        pathShape->join(m_pointData1.pointIndex.first);
    }
    pathShape->normalize();
    pathShape->update();
}
void KisShapeSelectionTest::testAddChild()
{
    const KoColorSpace * cs = KoColorSpaceRegistry::instance()->rgb8();
    KisImageSP image = new KisImage(new KisUndoAdapter(0), 300, 300, cs, "test");

    KisSelectionSP selection = new KisSelection();
    QVERIFY(selection->hasPixelSelection() == false);
    QVERIFY(selection->hasShapeSelection() == false);
    KisPixelSelectionSP pixelSelection = selection->getOrCreatePixelSelection();

    pixelSelection->select(QRect(0, 0, 100, 100));
    // Selection is using the pixel selection as datamanager so no projection update
    // needed
    QCOMPARE(pixelSelection->selected(25, 25), MAX_SELECTED);
    QCOMPARE(selection->selectedExactRect(), QRect(0, 0, 100, 100));

    QRect rect(50, 50, 100, 100);
    QTransform matrix;
    matrix.scale(1 / image->xRes(), 1 / image->yRes());
    rect = matrix.mapRect(rect);

    KoPathShape* shape = new KoPathShape();
    shape->setShapeId(KoPathShapeId);
    shape->moveTo(rect.topLeft());
    shape->lineTo(rect.topLeft() + QPointF(rect.width(), 0));
    shape->lineTo(rect.bottomRight());
    shape->lineTo(rect.topLeft() + QPointF(0, rect.height()));
    shape->close();
    shape->normalize();

    KisShapeSelection * shapeSelection = new KisShapeSelection(image, selection);
    selection->setShapeSelection(shapeSelection);
    shapeSelection->addShape(shape);

    QCOMPARE(pixelSelection->selected(25, 25), MAX_SELECTED);
    QCOMPARE(selection->selectedExactRect(), QRect(0, 0, 150, 150));

    selection->updateProjection();
}
Beispiel #6
0
void KoSubpathJoinCommand::undo()
{
    KUndo2Command::undo();
    KoPathShape * pathShape = m_pointData1.pathShape;
    pathShape->update();
    if (m_pointData1.pointIndex.first == m_pointData2.pointIndex.first) {
        pathShape->openSubpath(m_pointData1.pointIndex);
    } else {
        pathShape->breakAfter(m_splitIndex);
        pathShape->moveSubpath(m_pointData1.pointIndex.first + 1, m_pointData2.pointIndex.first);

        if (m_reverse & ReverseSecond) {
            pathShape->reverseSubpath(m_pointData2.pointIndex.first);
        }
        if (m_reverse & ReverseFirst) {
            pathShape->reverseSubpath(m_pointData1.pointIndex.first);
        }
    }
    KoPathPoint * point1 = pathShape->pointByIndex(m_pointData1.pointIndex);
    KoPathPoint * point2 = pathShape->pointByIndex(m_pointData2.pointIndex);

    // restore the old end points
    if (m_reverse & ReverseFirst)
        point1->setControlPoint1(pathShape->documentToShape(m_oldControlPoint1));
    else
        point1->setControlPoint2(pathShape->documentToShape(m_oldControlPoint1));

    point1->setProperties(m_oldProperties1);

    if (m_reverse & ReverseSecond)
        point2->setControlPoint1(pathShape->documentToShape(m_oldControlPoint2));
    else
        point2->setControlPoint2(pathShape->documentToShape(m_oldControlPoint2));

    point2->setProperties(m_oldProperties2);

    pathShape->normalize();
    pathShape->update();
}
KoShape* KisShapeToolHelper::createEllipseShape(const QRectF& rect)
{
    KoShape* shape;
    KoShapeFactoryBase *rectFactory = KoShapeRegistry::instance()->value("EllipseShape");
    if (rectFactory) {
        shape = rectFactory->createDefaultShape();
        shape->setSize(rect.size());
        shape->setPosition(rect.topLeft());
    } else {
        //Fallback if the plugin wasn't found
        KoPathShape* path = new KoPathShape();
        path->setShapeId(KoPathShapeId);

        QPointF rightMiddle = QPointF(rect.left() + rect.width(), rect.top() + rect.height() / 2);
        path->moveTo(rightMiddle);
        path->arcTo(rect.width() / 2, rect.height() / 2, 0, 360.0);
        path->close();
        path->normalize();
        shape = path;
    }
    return shape;
}
KoShape* KisShapeToolHelper::createRectangleShape(const QRectF& rect)
{
    KoShape* shape;
    KoShapeFactoryBase *rectFactory = KoShapeRegistry::instance()->value("RectangleShape");
    if (rectFactory) {
        shape = rectFactory->createDefaultShape();
        shape->setSize(rect.size());
        shape->setPosition(rect.topLeft());
    } else {
        //Fallback if the plugin wasn't found
        KoPathShape* path = new KoPathShape();
        path->setShapeId(KoPathShapeId);
        path->moveTo(rect.topLeft());
        path->lineTo(rect.topLeft() + QPointF(rect.width(), 0));
        path->lineTo(rect.bottomRight());
        path->lineTo(rect.topLeft() + QPointF(0, rect.height()));
        path->close();
        path->normalize();
        shape = path;
    }
    return shape;
}