Examples with NodeUIInformation org.knime.core.node.workflow.NodeUIInformation used on opensource projects

Example 21 with NodeUIInformation

use of org.knime.core.node.workflow.NodeUIInformation in project knime-core by knime.

the class ChangeWorkflowPortBarCommand method undo.

/**
 * Sets the old bounds.
 *
 * @see org.eclipse.gef.commands.Command#execute()
 */
@Override
public void undo() {
    WorkflowPortBar barModel = (WorkflowPortBar) m_bar.getModel();
    NodeUIInformation uiInfo = NodeUIInformation.builder().setNodeLocation(m_oldBounds.x, m_oldBounds.y, m_oldBounds.width, m_oldBounds.height).build();
    // must set explicitly so that event is fired by container
    barModel.setUIInfo(uiInfo);
    IFigure fig = m_bar.getFigure();
    fig.setBounds(m_oldBounds);
    fig.getParent().setConstraint(fig, m_oldBounds);
    m_bar.getParent().refresh();
}

Example 22 with NodeUIInformation

use of org.knime.core.node.workflow.NodeUIInformation in project knime-core by knime.

the class CreateMetaNodeCommand method execute.

/**
 * {@inheritDoc}
 */
@Override
public void execute() {
    // Add node to workflow and get the container
    try {
        WorkflowManager wfm = getHostWFM();
        m_copyContent = wfm.paste(m_persistor);
        NodeID[] nodeIDs = m_copyContent.getNodeIDs();
        if (nodeIDs.length > 0) {
            NodeID first = nodeIDs[0];
            m_container = wfm.getNodeContainer(first);
            // create extra info and set it
            NodeUIInformation info = NodeUIInformation.builder().setNodeLocation(m_location.x, m_location.y, -1, -1).setHasAbsoluteCoordinates(false).setSnapToGrid(m_snapToGrid).setIsDropLocation(true).build();
            m_container.setUIInformation(info);
        }
    } catch (Throwable t) {
        // if fails notify the user
        String error = "Metanode cannot be created";
        LOGGER.debug(error + ": " + t.getMessage(), t);
        MessageBox mb = new MessageBox(Display.getDefault().getActiveShell(), SWT.ICON_WARNING | SWT.OK);
        mb.setText(error);
        mb.setMessage("The metanode could not be created " + "due to the following reason:\n" + t.getMessage());
        mb.open();
        return;
    }
}

Example 23 with NodeUIInformation

use of org.knime.core.node.workflow.NodeUIInformation in project knime-core by knime.

the class CreateNodeCommand method execute.

/**
 * {@inheritDoc}
 */
@Override
public void execute() {
    WorkflowManager hostWFM = getHostWFM();
    // Add node to workflow and get the container
    try {
        NodeID id = hostWFM.createAndAddNode(m_factory);
        m_container = hostWFM.getNodeContainer(id);
        NodeTimer.GLOBAL_TIMER.addNodeCreation(m_container);
    } catch (Throwable t) {
        // if fails notify the user
        LOGGER.debug("Node cannot be created.", t);
        MessageBox mb = new MessageBox(Display.getDefault().getActiveShell(), SWT.ICON_WARNING | SWT.OK);
        mb.setText("Node cannot be created.");
        mb.setMessage("The selected node could not be created " + "due to the following reason:\n" + t.getMessage());
        mb.open();
        return;
    }
    // create extra info and set it
    NodeUIInformation info = NodeUIInformation.builder().setNodeLocation(m_location.x, m_location.y, -1, -1).setHasAbsoluteCoordinates(false).setSnapToGrid(m_snapToGrid).setIsDropLocation(true).build();
    m_container.setUIInformation(info);
}

Example 24 with NodeUIInformation

use of org.knime.core.node.workflow.NodeUIInformation in project knime-core by knime.

the class VerticAlignmentCenter method doLayout.

/**
 * @param wfm the manager holding the nodes to layout
 * @param nodeParts the nodes to align
 * @return a map with offsets for the nodes
 */
static Map<NodeContainerEditPart, Integer> doLayout(final WorkflowManagerUI wfm, final NodeContainerEditPart[] nodeParts) {
    if (nodeParts.length == 0) {
        return Collections.emptyMap();
    }
    NodeContainerEditPart[] nodes = nodeParts.clone();
    // sorts by the y position
    Arrays.sort(nodes, new Comparator<NodeContainerEditPart>() {

        @Override
        public int compare(final NodeContainerEditPart o1, final NodeContainerEditPart o2) {
            NodeUIInformation ui1 = o1.getNodeContainer().getUIInformation();
            NodeUIInformation ui2 = o2.getNodeContainer().getUIInformation();
            if (ui1 == null || ui2 == null) {
                return 0;
            }
            if (ui1.getBounds()[1] < ui2.getBounds()[1]) {
                return -1;
            } else {
                return (ui1.getBounds()[1] > ui2.getBounds()[1]) ? 1 : 0;
            }
        }
    });
    // most left node is the anchor that doesn't change
    HashMap<NodeContainerEditPart, Integer> offsets = new HashMap<NodeContainerEditPart, Integer>();
    NodeUIInformation nui = nodes[0].getNodeContainer().getUIInformation();
    if (nui == null) {
        LOGGER.warn("Only nodes with location information can be aligned.");
        return Collections.emptyMap();
    }
    int refX = nui.getBounds()[0];
    for (int i = 1; /* idx 0 is anchor */
    i < nodes.length; i++) {
        NodeContainerUI nc = nodes[i].getNodeContainer();
        NodeUIInformation ui = nc.getUIInformation();
        if (ui.getBounds()[0] != refX) {
            offsets.put(nodes[i], refX - ui.getBounds()[0]);
        }
    }
    return offsets;
}

Example 25 with NodeUIInformation

use of org.knime.core.node.workflow.NodeUIInformation in project knime-core by knime.

the class LayoutManager method doLayout.

/**
 * @param nodes the nodes that should be laid out. If null, all nodes of the
 *            workflow manager passed to the constructor are laid out.
 */
public void doLayout(final Collection<NodeContainerUI> nodes) {
    int X_STRETCH = 100;
    int Y_STRETCH = 120;
    if (WorkflowEditor.getActiveEditorSnapToGrid()) {
        if (WorkflowEditor.getActiveEditorGridX() >= 70) {
            X_STRETCH = WorkflowEditor.getActiveEditorGridX();
        } else {
            X_STRETCH = WorkflowEditor.getActiveEditorGridXOffset(X_STRETCH);
        }
        Y_STRETCH = WorkflowEditor.getActiveEditorGridYOffset(Y_STRETCH);
    }
    // add all nodes that should be laid out to the graph
    Collection<NodeContainerUI> allNodes = nodes;
    if (allNodes == null || allNodes.size() <= 1) {
        allNodes = m_wfm.getNodeContainers();
    }
    // keep the left upper corner of the node cluster.
    // Nodes laid out are placed right and below
    int minX = Integer.MAX_VALUE;
    int minY = Integer.MAX_VALUE;
    // add all nodes that are to be laid out
    for (NodeContainerUI nc : allNodes) {
        Node gNode = createGraphNodeForNC(nc);
        m_workbenchToGraphNodes.put(nc, gNode);
        NodeUIInformation ui = nc.getUIInformation();
        minX = (ui.getBounds()[0] < minX) ? ui.getBounds()[0] : minX;
        minY = (ui.getBounds()[1] < minY) ? ui.getBounds()[1] : minY;
        if (WorkflowEditor.getActiveEditorSnapToGrid()) {
            Point nextGridLocation = WorkflowEditor.getActiveEditorNextGridLocation(new Point(minX, minY));
            minX = nextGridLocation.x;
            minY = nextGridLocation.y;
        }
    }
    // find all connections that connect from/to our nodes,
    // keep a flag that states: isClusterInternal
    HashMap<ConnectionContainerUI, Boolean> allConns = new HashMap<ConnectionContainerUI, Boolean>();
    for (ConnectionContainerUI conn : m_wfm.getConnectionContainers()) {
        Node src = null;
        if (!conn.getSource().equals(m_wfm.getID())) {
            // if it's not a meta node incoming connection
            src = m_workbenchToGraphNodes.get(m_wfm.getNodeContainer(conn.getSource()));
        }
        Node dest = null;
        if (!conn.getDest().equals(m_wfm.getID())) {
            // if it is not a meta node outgoing connection
            dest = m_workbenchToGraphNodes.get(m_wfm.getNodeContainer(conn.getDest()));
        }
        boolean isInternal = (src != null && dest != null);
        // if at least one node is auto laid out we need the connection
        if (src != null || dest != null) {
            allConns.put(conn, isInternal);
        }
    }
    // Add all connections (internal and leading in/out the cluster)
    // to the graph
    Edge gEdge;
    for (ConnectionContainerUI conn : allConns.keySet()) {
        Node srcGraphNode;
        Node destGraphNode;
        if (conn.getSource().equals(m_wfm.getID())) {
            // it connects to a meta node input port:
            int portIdx = conn.getSourcePort();
            srcGraphNode = m_workbenchWFMInports.get(portIdx);
            if (srcGraphNode == null) {
                srcGraphNode = m_g.createNode("Incoming " + portIdx, 0, portIdx * Y_STRETCH);
                m_workbenchWFMInports.put(portIdx, srcGraphNode);
            }
        } else {
            NodeContainerUI s = m_wfm.getNodeContainer(conn.getSource());
            srcGraphNode = m_workbenchToGraphNodes.get(s);
            if (srcGraphNode == null) {
                // then it connects to an "outside" node
                srcGraphNode = m_workbenchIncomingNodes.get(s);
                if (srcGraphNode == null) {
                    srcGraphNode = createGraphNodeForNC(s);
                    m_workbenchIncomingNodes.put(s, srcGraphNode);
                }
            }
        // else it is a connection inside the layout cluster
        }
        if (conn.getDest().equals(m_wfm.getID())) {
            // it connects to a meta node output port
            int portIdx = conn.getDestPort();
            destGraphNode = m_workbenchWFMOutports.get(portIdx);
            if (destGraphNode == null) {
                destGraphNode = m_g.createNode("Outgoing " + portIdx, 250, portIdx * Y_STRETCH);
                m_workbenchWFMOutports.put(portIdx, destGraphNode);
            }
        } else {
            NodeContainerUI d = m_wfm.getNodeContainer(conn.getDest());
            destGraphNode = m_workbenchToGraphNodes.get(d);
            if (destGraphNode == null) {
                // then it connects to an "outside" node
                destGraphNode = m_workbenchOutgoingNodes.get(d);
                if (destGraphNode == null) {
                    destGraphNode = createGraphNodeForNC(d);
                    m_workbenchOutgoingNodes.put(d, destGraphNode);
                }
            }
        // else it is a connection within the layout cluster
        }
        gEdge = m_g.createEdge(srcGraphNode, destGraphNode);
        if (gEdge != null) {
            m_workbenchToGraphEdges.put(conn, gEdge);
            m_parallelConns.put(gEdge, new LinkedList<ConnectionContainerUI>(Collections.singletonList(conn)));
        } else {
            // a connection between these node already exists in the graph
            Edge graphEdge = srcGraphNode.getEdge(destGraphNode);
            assert graphEdge != null;
            // add the connection to list of parallel connections.
            m_parallelConns.get(graphEdge).add(conn);
        }
    }
    // AFTER creating all nodes, mark the incoming/outgoing nodes as fixed
    boolean anchorsExist = false;
    Map<Node, Boolean> anchorNodes = m_g.createBoolNodeMap();
    for (Node n : m_workbenchIncomingNodes.values()) {
        anchorsExist = true;
        anchorNodes.put(n, Boolean.TRUE);
    }
    for (Node n : m_workbenchOutgoingNodes.values()) {
        anchorsExist = true;
        anchorNodes.put(n, Boolean.TRUE);
    }
    for (Node n : m_workbenchWFMInports.values()) {
        anchorsExist = true;
        anchorNodes.put(n, Boolean.TRUE);
    }
    for (Node n : m_workbenchWFMOutports.values()) {
        anchorsExist = true;
        anchorNodes.put(n, Boolean.TRUE);
    }
    SimpleLayeredLayouter layouter = new SimpleLayeredLayouter(m_initPlacementSeed);
    layouter.setBalanceBranchings(!WorkflowEditor.getActiveEditorSnapToGrid());
    if (anchorsExist) {
        layouter.doLayout(m_g, anchorNodes);
    } else {
        layouter.doLayout(m_g, null);
    }
    // preserver the old stuff for undoers
    m_oldBendpoints = new HashMap<ConnectionID, ConnectionUIInformation>();
    m_oldCoordinates = new HashMap<NodeID, NodeUIInformation>();
    // transfer new coordinates back to nodes
    // with fixed nodes (lots of) the new coordinates of the nodes may not
    // start at 0.
    double coordOffsetX = Integer.MAX_VALUE;
    double coordOffsetY = Integer.MAX_VALUE;
    for (NodeContainerUI nc : allNodes) {
        Node gNode = m_workbenchToGraphNodes.get(nc);
        coordOffsetX = Math.min(coordOffsetX, m_g.getX(gNode));
        coordOffsetY = Math.min(coordOffsetY, m_g.getY(gNode));
    }
    for (NodeContainerUI nc : allNodes) {
        NodeUIInformation uiInfo = nc.getUIInformation();
        if (uiInfo != null) {
            Node gNode = m_workbenchToGraphNodes.get(nc);
            int[] b = uiInfo.getBounds();
            int x = (int) Math.round((m_g.getX(gNode) - coordOffsetX) * X_STRETCH) + minX;
            int y = (int) Math.round((m_g.getY(gNode) - coordOffsetY) * Y_STRETCH) + minY;
            NodeUIInformation newCoord = NodeUIInformation.builder().setNodeLocation(x, y, b[2], b[3]).setHasAbsoluteCoordinates(uiInfo.hasAbsoluteCoordinates()).setSnapToGrid(WorkflowEditor.getActiveEditorSnapToGrid()).build();
            LOGGER.debug("Node " + nc + " gets auto-layout coordinates " + newCoord);
            // save old coordinates for undo
            m_oldCoordinates.put(nc.getID(), uiInfo);
            // triggers gui update
            nc.setUIInformation(newCoord);
        }
    }
    // delete old bendpoints - transfer new ones
    for (ConnectionContainerUI conn : allConns.keySet()) {
        // store old bendpoint for undo
        ConnectionUIInformation ui = conn.getUIInfo();
        if (ui != null) {
            m_oldBendpoints.put(conn.getID(), ui);
        } else {
            m_oldBendpoints.put(conn.getID(), null);
        }
        ConnectionUIInformation.Builder newUIBuilder = ConnectionUIInformation.builder();
        Edge e = m_workbenchToGraphEdges.get(conn);
        if (e == null) {
            // a parallel connection not represented by the edge
            continue;
        }
        List<ConnectionContainerUI> conns = m_parallelConns.get(e);
        assert conns.size() > 0;
        // that is how we created it!
        assert conns.get(0) == conn;
        ArrayList<Point2D> newBends = m_g.bends(e);
        if (newBends != null && !newBends.isEmpty()) {
            // half the node icon size...
            int extraX = 16;
            int extraY = 24;
            for (int i = 0; i < newBends.size(); i++) {
                Point2D b = newBends.get(i);
                newUIBuilder.addBendpoint((int) Math.round((b.getX() - coordOffsetX) * X_STRETCH) + extraX + minX, (int) Math.round((b.getY() - coordOffsetY) * Y_STRETCH) + extraY + minY, i);
            }
        }
        ConnectionUIInformation newUI = newUIBuilder.build();
        conn.setUIInfo(newUI);
        // compute bendpoints for parallel connections (slightly offset)
        for (int i = 1; i < conns.size(); i++) {
            // idx 0 == conn!
            ConnectionContainerUI parConn = conns.get(i);
            // destination port determines offset
            int yOffset = (parConn.getDestPort() - conn.getDestPort()) * 10;
            ConnectionUIInformation parUI = ConnectionUIInformation.builder(newUI).translate(new int[] { 0, yOffset }).build();
            parConn.setUIInfo(parUI);
        }
    }
}