void KoPathBreakAtPointCommand::redo()
{
    KUndo2Command::redo();
    KoPathPointData last(0, KoPathPointIndex(-1, -1));

    // offset, needed when path was opened
    int offset = 0;
    for (int i = m_pointDataList.size() - 1; i >= 0; --i) {
        const KoPathPointData & pd = m_pointDataList.at(i);
        KoPathShape * pathShape = pd.pathShape;

        KoPathPointIndex pointIndex = pd.pointIndex;
        if (last.pathShape != pathShape || last.pointIndex.first != pointIndex.first) {
            offset = 0;
        }

        pointIndex.second = pointIndex.second + offset + 1;
        pathShape->insertPoint(m_points[i], pointIndex);

        if (m_closedIndex.at(i).first != -1) {
            m_closedIndex[i] = pathShape->openSubpath(m_closedIndex.at(i));
            offset = m_closedIndex.at(i).second;
        } else {
            KoPathPointIndex breakIndex = pd.pointIndex;
            breakIndex.second += offset;
            pathShape->breakAfter(breakIndex);
            m_closedIndex[i].second = offset;
        }

        if (last.pathShape != pathShape) {
            if (last.pathShape) {
                last.pathShape->update();
            }
            last = pd;
        }
    }
    if (last.pathShape) {
        last.pathShape->update();
    }

    m_deletePoints = false;
}
Пример #2
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();
}