/// <summary>
/// Adjust the X coordinate of all the given nodes to match the X coordinate of the confluence node.
/// The operation will only be performed if there is only one confluence node. </summary>
/// <returns> the number of nodes that were edited </returns>
protected internal virtual int setNodeXToConfluenceX(IList <HydrologyNode> nodeList)
{
// First find the confluence node
HydrologyNode confNode = null;
int confNodeCount = 0;
foreach (HydrologyNode node in nodeList)
{
if (node.getType() == HydrologyNode.NODE_TYPE_CONFLUENCE)
{
confNode = node;
++confNodeCount;
}
}
int editCount = 0;
if (confNodeCount == 1)
{
foreach (HydrologyNode node in nodeList)
{
if (node != confNode)
{
// Set the coordinate...
node.setX(confNode.getX());
node.setDirty(true);
++editCount;
}
}
}
return(editCount);
}
/// <summary>
/// Position the nodes evenly between the end nodes. </summary>
/// <returns> the number of nodes that were edited </returns>
protected internal virtual int positionNodesEvenlyBetweenEndNodes(IList <HydrologyNode> nodeList)
{
if (nodeList.Count < 3)
{
return(0);
}
//JAVA TO C# CONVERTER WARNING: The .NET Type.FullName property will not always yield results identical to the Java Class.getName method:
string routine = this.GetType().FullName + "positionNodesEvenlyBetweenEndNodes";
// First make a copy of the list so that the sort does not change the original list
IList <HydrologyNode> nodeListSorted = null;
// Sort the list so that it is in the order from upstream to downstream
int editCount = 0;
try
{
nodeListSorted = sortNodesSequential(nodeList);
}
catch (Exception e)
{
// Likely not in a line
Message.printWarning(1, routine, "Error positioning nodes (" + e + "). Make sure that nodes are in a single reach with no branches.", this.__editorJFrame);
Message.printWarning(3, routine, e);
return(0);
}
HydrologyNode firstNode = nodeListSorted[0];
HydrologyNode lastNode = nodeListSorted[nodeListSorted.Count - 1];
// Compute the delta between the first node and last node
double dx = (lastNode.getX() - firstNode.getX()) / (nodeListSorted.Count - 1);
double dy = (lastNode.getY() - firstNode.getY()) / (nodeListSorted.Count - 1);
// Apply the delta to the middle nodes
HydrologyNode node;
for (int i = 1; i < nodeListSorted.Count - 1; i++)
{
node = nodeListSorted[i];
node.setX(firstNode.getX() + dx * i);
node.setY(firstNode.getY() + dy * i);
node.setDirty(true);
++editCount;
}
return(editCount);
}
/// <summary>
/// Responds to action performed events. </summary>
/// <param name="e"> the ActionEvent that happened. </param>
public virtual void actionPerformed(ActionEvent e)
{
string routine = "StateMod_RiverNetworkNode_JFrame.actionPerformed";
if (Message.isDebugOn)
{
Message.printDebug(1, routine, "In actionPerformed: " + e.getActionCommand());
}
object source = e.getSource();
if (source == __closeJButton)
{
saveCurrentRecord();
int size = __riverNetworkNodesVector.Count;
StateMod_RiverNetworkNode r = null;
bool changed = false;
for (int i = 0; i < size; i++)
{
r = __riverNetworkNodesVector[i];
if (!changed && r.changed())
{
changed = true;
}
r.acceptChanges();
}
if (changed)
{
__dataset.setDirty(StateMod_DataSet.COMP_RIVER_NETWORK, true);
}
if (__dataset_wm != null)
{
__dataset_wm.closeWindow(StateMod_DataSet_WindowManager.WINDOW_RIVER_NETWORK);
}
else
{
JGUIUtil.close(this);
}
}
else if (source == __applyJButton)
{
saveCurrentRecord();
int size = __riverNetworkNodesVector.Count;
StateMod_RiverNetworkNode r = null;
bool changed = false;
for (int i = 0; i < size; i++)
{
r = __riverNetworkNodesVector[i];
if (!changed && r.changed())
{
changed = true;
}
r.createBackup();
}
if (changed)
{
__dataset.setDirty(StateMod_DataSet.COMP_RIVER_NETWORK, true);
}
}
else if (source == __cancelJButton)
{
int size = __riverNetworkNodesVector.Count;
StateMod_RiverNetworkNode r = null;
for (int i = 0; i < size; i++)
{
r = __riverNetworkNodesVector[i];
r.restoreOriginal();
}
if (__dataset_wm != null)
{
__dataset_wm.closeWindow(StateMod_DataSet_WindowManager.WINDOW_RIVER_NETWORK);
}
else
{
JGUIUtil.close(this);
}
}
else if (source == __helpJButton)
{
// REVISIT HELP (JTS - 2003-08-18)
}
else if (source == __searchIDJRadioButton)
{
__searchName.setEditable(false);
__searchID.setEditable(true);
}
else if (source == __searchNameJRadioButton)
{
__searchName.setEditable(true);
__searchID.setEditable(false);
}
else if (source == __showOnMap_JButton)
{
GeoRecord geoRecord = getSelectedRiverNetworkNode().getGeoRecord();
GRShape shape = geoRecord.getShape();
__dataset_wm.showOnMap(getSelectedRiverNetworkNode(), "Node: " + getSelectedRiverNetworkNode().getID() + " - " + getSelectedRiverNetworkNode().getName(), new GRLimits(shape.xmin, shape.ymin, shape.xmax, shape.ymax), geoRecord.getLayer().getProjection());
}
else if (source == __showOnNetwork_JButton)
{
StateMod_Network_JFrame networkEditor = __dataset_wm.getNetworkEditor();
if (networkEditor != null)
{
HydrologyNode node = networkEditor.getNetworkJComponent().findNode(getSelectedRiverNetworkNode().getID(), false, false);
if (node != null)
{
__dataset_wm.showOnNetwork(getSelectedRiverNetworkNode(), "Node: " + getSelectedRiverNetworkNode().getID() + " - " + getSelectedRiverNetworkNode().getName(), new GRLimits(node.getX(), node.getY(), node.getX(), node.getY()));
}
}
}
else if (source == __findNext)
{
searchWorksheet(__worksheet.getSelectedRow() + 1);
}
else if (source == __searchID || source == __searchName)
{
searchWorksheet(0);
}
}