/// <summary>
/// Deletes all splices for a cable to any other at any splice closure
/// </summary>
/// <param name="cable">Cable</param>
/// <param name="isExistingOperation">Are we already in an edit operation?</param>
/// <returns>Success</returns>
public bool BreakAllSplices(FiberCableWrapper cable, bool isExistingOperation)
{
bool success = false;
bool isOperationOpen = false;
#region Validation
if (null == cable)
{
throw new ArgumentNullException("cable");
}
if (ESRI.ArcGIS.Editor.esriEditState.esriStateNotEditing == _editor.EditState)
{
throw new InvalidOperationException("You must be editing to perform this operation");
}
#endregion
if (!isExistingOperation)
{
_editor.StartOperation();
isOperationOpen = true;
}
try
{
ESRI.ArcGIS.Geodatabase.ITable spliceTable = _wkspHelper.FindTable(ConfigUtil.FiberSpliceTableName);
// ESRI.ArcGIS.Geodatabase.ITable spliceTable = GdbUtils.GetTable(cable.Feature.Class, ConfigUtil.FiberSpliceTableName);
ESRI.ArcGIS.Geodatabase.IQueryFilter filter = new ESRI.ArcGIS.Geodatabase.QueryFilterClass();
// A and B is arbitrary, so we check the given combinations going both ways. The structure is:
// Where either the A or B cableID is our cable ID
filter.WhereClause = string.Format("{0}='{1}' OR {2}='{1}'",
ConfigUtil.ACableIdFieldName,
cable.IPID,
ConfigUtil.BCableIdFieldName);
spliceTable.DeleteSearchedRows(filter);
ESRI.ArcGIS.ADF.ComReleaser.ReleaseCOMObject(filter);
if (isOperationOpen)
{
_editor.StopOperation("Break Splices");
isOperationOpen = false;
}
success = true;
}
catch
{
if (isOperationOpen)
{
_editor.AbortOperation();
}
success = false;
}
return success;
}
/// <summary>
/// Determines if all given ranges are available (neither spliced nor connected)
/// </summary>
/// <param name="units">Units to check</param>
/// <param name="cableWrapper">Cable to check</param>
/// <param name="isFromEnd">Flag of which end we are checking</param>
/// <returns>True if they are all available</returns>
public static bool AreRangesAvailable(ICollection<int> units, FiberCableWrapper cableWrapper, bool isFromEnd)
{
bool result = true;
List<int> splicedStrands = GetSplicedStrands(cableWrapper, isFromEnd);
List<int> connectedStrands = GetConnectedStrands(cableWrapper, isFromEnd);
foreach (int unit in units)
{
if (splicedStrands.Contains(unit)
|| connectedStrands.Contains(unit))
{
result = false;
break;
}
}
return result;
}
/// <summary>
/// Returns a list of connections between the cable and the device, at the cable's given end, to the device's given port type
/// </summary>
/// <param name="cable">Cable to check</param>
/// <param name="device">Device to check</param>
/// <param name="isFromEnd">Digitized end of cable</param>
/// <param name="portType">Input or output</param>
/// <returns>List of Connection</returns>
public List<Connection> GetConnections(FiberCableWrapper cable, DeviceWrapper device, bool isFromEnd, PortType portType)
{
if (null == cable)
{
throw new ArgumentNullException("cable");
}
if (null == device)
{
throw new ArgumentNullException("device");
}
List<Connection> result = new List<Connection>();
List<int> ports = new List<int>();
List<int> strands = new List<int>();
using (ESRI.ArcGIS.ADF.ComReleaser releaser = new ESRI.ArcGIS.ADF.ComReleaser())
{
ESRI.ArcGIS.Geodatabase.IFeatureClass deviceFtClass = device.Feature.Class as ESRI.ArcGIS.Geodatabase.IFeatureClass;
ESRI.ArcGIS.Geodatabase.IRelationshipClass deviceHasPorts = ConfigUtil.GetPortRelationship(deviceFtClass);
if (null == deviceHasPorts)
{
throw new Exception("Unable to find port relationship class.");
}
ESRI.ArcGIS.Geodatabase.ITable portTable = deviceHasPorts.DestinationClass as ESRI.ArcGIS.Geodatabase.ITable;
if (null == portTable)
{
throw new Exception("Invalid destination on port relationship class.");
}
ESRI.ArcGIS.Geodatabase.IQueryFilter filter = new ESRI.ArcGIS.Geodatabase.QueryFilterClass();
releaser.ManageLifetime(filter);
filter.WhereClause = string.Format("{0}='{1}' AND {2}='{3}' AND {4}='{5}' AND {6}='{7}' AND {8} IS NOT NULL AND {9} IS NOT NULL",
deviceHasPorts.OriginForeignKey,
device.Feature.get_Value(deviceFtClass.FindField(deviceHasPorts.OriginPrimaryKey)),
ConfigUtil.ConnectedCableFieldName,
cable.IPID,
ConfigUtil.PortTypeFieldName,
(PortType.Input == portType ? "1" : "2"),
ConfigUtil.ConnectedEndFieldName,
(isFromEnd ? "T" : "F"),
ConfigUtil.ConnectedFiberFieldName,
ConfigUtil.PortIdFieldName);
// ORDER BY does not work outside of SDE.
// Removing for now, should not be important.
string orderFormat = "ORDER BY {0}";
if (PortType.Input == portType)
{
// ((ESRI.ArcGIS.Geodatabase.IQueryFilterDefinition2)filter).PostfixClause = string.Format(orderFormat, ConfigUtil.ConnectedFiberFieldName);
}
else
{
// ((ESRI.ArcGIS.Geodatabase.IQueryFilterDefinition2)filter).PostfixClause = string.Format(orderFormat, ConfigUtil.PortIdFieldName);
}
ESRI.ArcGIS.Geodatabase.ICursor portCursor = portTable.Search(filter, true);
ESRI.ArcGIS.Geodatabase.IRow portRow = portCursor.NextRow();
int portIdIdx = portTable.FindField(ConfigUtil.PortIdFieldName);
int fiberNumberIdx = portTable.FindField(ConfigUtil.ConnectedFiberFieldName);
while (null != portRow)
{
ports.Add((int)portRow.get_Value(portIdIdx));
strands.Add((int)portRow.get_Value(fiberNumberIdx));
ESRI.ArcGIS.ADF.ComReleaser.ReleaseCOMObject(portRow);
portRow = portCursor.NextRow();
}
ESRI.ArcGIS.ADF.ComReleaser.ReleaseCOMObject(portCursor);
}
List<Range> portRanges = SpliceAndConnectionUtils.MergeRanges(ports);
List<Range> strandRanges = SpliceAndConnectionUtils.MergeRanges(strands);
if (PortType.Input == portType)
{
result = SpliceAndConnectionUtils.MatchUp(strandRanges, portRanges);
}
else
{
result = SpliceAndConnectionUtils.MatchUp(portRanges, strandRanges);
}
return result;
}
/// <summary>
/// Returns devices at the endpoints of the given cable
/// </summary>
/// <param name="deviceWrapper">Cable to check</param>
/// <returns>List of ConnectableDeviceWrapper</returns>
public List<ConnectableDeviceWrapper> GetCoincidentDevices(FiberCableWrapper fiberCableWrapper)
{
List<ConnectableDeviceWrapper> result = new List<ConnectableDeviceWrapper>();
if (null == fiberCableWrapper)
{
throw new ArgumentNullException("fiberCableWrapper");
}
ESRI.ArcGIS.Geometry.IPolyline cableGeometry = (ESRI.ArcGIS.Geometry.IPolyline)fiberCableWrapper.Feature.Shape;
string[] deviceFtClassNames = ConfigUtil.DeviceFeatureClassNames;
double buffer = _hookHelper.ConvertPixelsToMapUnits(1);
for (int i = 0; i < deviceFtClassNames.Length; i++)
{
string ftClassName = deviceFtClassNames[i];
ESRI.ArcGIS.Carto.IFeatureLayer ftLayer = _hookHelper.FindFeatureLayer(ftClassName);
if (ftLayer == null)
{
// Layer might not be in the map so just skip if not found.
continue;
}
ESRI.ArcGIS.Geodatabase.IFeatureClass ftClass = ftLayer.FeatureClass;
int displayIdx = ftClass.FindField(ftLayer.DisplayField);
List<ESRI.ArcGIS.Geodatabase.IFeature> fromFts = GdbUtils.GetFeaturesWithCoincidentVertices(cableGeometry.FromPoint, ftClass, false, buffer);
for (int fromIdx = 0; fromIdx < fromFts.Count; fromIdx++)
{
result.Add(new ConnectableDeviceWrapper(fromFts[fromIdx], true, displayIdx));
}
List<ESRI.ArcGIS.Geodatabase.IFeature> toFts = GdbUtils.GetFeaturesWithCoincidentVertices(cableGeometry.ToPoint, ftClass, false, buffer);
for (int toIdx = 0; toIdx < toFts.Count; toIdx++)
{
result.Add(new ConnectableDeviceWrapper(toFts[toIdx], false, displayIdx));
}
}
return result;
}
/// <summary>
/// Prompts the user about saving pending edits
/// </summary>
/// <param name="spliceWrapper"></param>
/// <param name="cableAWrapper"></param>
/// <param name="cableBWrapper"></param>
/// <returns>False if the user chooses to cancel what they were doing; True if they choose Yes or No
/// (which means they are OK with what they are doing)</returns>
private bool IsUserSure(SpliceClosureWrapper spliceWrapper, FiberCableWrapper cableAWrapper, SpliceableCableWrapper cableBWrapper)
{
bool result = true;
// Assume they do not want to save and do want to continue
DialogResult dialogResult = DialogResult.No;
dialogResult = MessageBox.Show("You have unsaved edits. Would you like to save them before closing?", "Connection Editor", MessageBoxButtons.YesNoCancel, MessageBoxIcon.Question);
if (DialogResult.Cancel == dialogResult)
{
// The user isn't sure about what they are doing and wants to cancel it
result = false;
}
else if (DialogResult.Yes == dialogResult)
{
bool isSaveOk = SaveChanges(spliceWrapper, cableAWrapper, cableBWrapper);
if (!isSaveOk)
{
// They wanted to save but it didn't work. They probably got a message telling them what to fix. Cancel
// whatever they were doing so that they have a chance to do so
result = false;
}
}
return result;
}
/// <summary>
/// Determines if a cable has any connections or splices on its strands
/// </summary>
/// <param name="cableWrapper">Cable to check</param>
/// <returns>True if any strand is connected or spliced</returns>
public static bool HasAnyConnections(FiberCableWrapper cableWrapper)
{
int? fiberCount = cableWrapper.fibers;
List<Range> ranges = null;
bool isFromClear = true;
bool isToClear = true;
if (null != fiberCount && 0 < fiberCount)
{
ranges = GetAvailableRanges(cableWrapper, true);
isFromClear = AreRangesWholeUnitCount(ranges, (int)fiberCount);
ranges = GetAvailableRanges(cableWrapper, false);
isToClear = AreRangesWholeUnitCount(ranges, (int)fiberCount);
}
// If either end is not clear, there are connections
return (!isFromClear || !isToClear);
}
/// <summary>
/// Finds ranges of fibers that are not yet spliced or connected
/// </summary>
/// <param name="cable">Cable to check</param>
/// <param name="isFromEnd">Flag of which side of the cable to check</param>
/// <returns>List of Range</returns>
public static List<Range> GetAvailableRanges(FiberCableWrapper cable, bool isFromEnd)
{
List<Range> result = new List<Range>();
if (null == cable)
{
throw new ArgumentNullException("cable");
}
List<int> usedStrands = new List<int>();
usedStrands.AddRange(GetSplicedStrands(cable, isFromEnd)); // Gets the ones that are spliced to another cable
usedStrands.AddRange(GetConnectedStrands(cable, isFromEnd)); // Gets the ones that are connected to a device
usedStrands.Sort();
List<Range> splicedRanges = MergeRanges(usedStrands);
// int? fiberCount = GdbUtils.GetDomainedIntName(cable.Feature, ConfigUtil.NumberOfFibersFieldName);
int? fiberCount = cable.fibers;
if (null != fiberCount)
{
int lowFiber = 1;
for (int i = 0; i < splicedRanges.Count; i++)
{
Range range = splicedRanges[i];
if (lowFiber != range.Low)
{
// We are good until this range starts
result.Add(new Range(lowFiber, range.Low - 1));
}
lowFiber = range.High + 1;
}
if (lowFiber <= fiberCount)
{
result.Add(new Range(lowFiber, (int)fiberCount));
}
}
return result;
}
/// <summary>
/// Cable features can have related:
/// splices,
/// connections,
/// strands
/// buffer tubes,
/// maintenance loop
/// </summary>
/// <param name="cableFeature">Deleted IFeature</param>
private void CascadeFiberCableDelete(ESRI.ArcGIS.Geodatabase.IFeature cableFeature)
{
FiberCableWrapper cable = new FiberCableWrapper(cableFeature);
// Delete splices (to other cables)
_spliceHelper.BreakAllSplices(cable, true);
// Delete connections (to equipment)
_connectionHelper.BreakAllConnections(cable, true);
}
/// <summary>
/// Deletes given splices from one cable to the other, at a given splice closure
/// </summary>
/// <param name="cableA">Cable A</param>
/// <param name="cableB">Cable B</param>
/// <param name="splice">Splice Closure</param>
/// <param name="strands">Strands to remove</param>
/// <param name="isExistingOperation">Flag to control whether we need to wrap this in an edit operation</param>
/// <returns>Success</returns>
public bool BreakSplices(FiberCableWrapper cableA, SpliceableCableWrapper cableB, SpliceClosureWrapper splice, Dictionary<int,FiberSplice> strands, bool isExistingOperation)
{
bool success = false;
bool isOperationOpen = false;
#region Validation
if (null == cableA)
{
throw new ArgumentNullException("cableA");
}
if (null == cableB)
{
throw new ArgumentNullException("cableB");
}
if (null == splice)
{
throw new ArgumentNullException("splice");
}
if (ESRI.ArcGIS.Editor.esriEditState.esriStateNotEditing == _editor.EditState)
{
throw new InvalidOperationException("You must be editing to perform this operation");
}
#endregion
if (!isExistingOperation)
{
_editor.StartOperation();
isOperationOpen = true;
}
try
{
ESRI.ArcGIS.Geodatabase.ITable spliceTable = _wkspHelper.FindTable(ConfigUtil.FiberSpliceTableName);
// ESRI.ArcGIS.Geodatabase.ITable spliceTable = GdbUtils.GetTable(splice.Feature.Class, ConfigUtil.FiberSpliceTableName);
using (ESRI.ArcGIS.ADF.ComReleaser releaser = new ESRI.ArcGIS.ADF.ComReleaser())
{
ESRI.ArcGIS.Geodatabase.IQueryFilter filter = new ESRI.ArcGIS.Geodatabase.QueryFilterClass();
releaser.ManageLifetime(filter);
// A and B is arbitrary, so we check the given combinations going both ways. The structure is:
// Where the splice closure IPID is ours and
// ((the A Cable/Fiber matches our A cable and B Cable/Fiber matches our B)
// OR (the A Cable/Fiber matches our B cable and B Cable/Fiber matches our A))
string format = "{0}='{1}' AND (({2}='{3}' AND {4}={5} AND {6}='{7}' AND {8}={9})" +
" OR ({2}='{7}' AND {4}={9} AND {6}='{3}' AND {8}={5}))";
foreach (KeyValuePair<int, FiberSplice> pair in strands)
{
filter.WhereClause = string.Format(format,
ConfigUtil.SpliceClosureIpidFieldName,
splice.IPID,
ConfigUtil.ACableIdFieldName,
cableA.IPID,
ConfigUtil.AFiberNumberFieldName,
pair.Key,
ConfigUtil.BCableIdFieldName,
cableB.IPID,
ConfigUtil.BFiberNumberFieldName,
pair.Value.BRange.Low);
spliceTable.DeleteSearchedRows(filter);
}
if (isOperationOpen)
{
_editor.StopOperation("Break Splices");
isOperationOpen = false;
}
success = true;
}
}
catch
{
if (isOperationOpen)
{
_editor.AbortOperation();
}
success = false;
}
return success;
}
private FiberCableWrapper GetConnectedFiber(DeviceWrapper device, int portId, PortType portType, out int fiberNumber)
{
FiberCableWrapper result = null;
fiberNumber = -1;
ESRI.ArcGIS.Geodatabase.IFeatureClass deviceFtClass = (ESRI.ArcGIS.Geodatabase.IFeatureClass)device.Feature.Class;
ESRI.ArcGIS.Geodatabase.IRelationshipClass deviceHasPorts = ConfigUtil.GetPortRelationship(deviceFtClass);
if (null == deviceHasPorts)
{
throw new Exception("Device to port relationship is missing or cannot be opened.");
}
ESRI.ArcGIS.Geodatabase.ITable portTable = deviceHasPorts.DestinationClass as ESRI.ArcGIS.Geodatabase.ITable;
if (null == portTable)
{
throw new Exception("Port table is missing or cannot be opened.");
}
using (ESRI.ArcGIS.ADF.ComReleaser releaser = new ESRI.ArcGIS.ADF.ComReleaser())
{
ESRI.ArcGIS.Geodatabase.IQueryFilter filter = new ESRI.ArcGIS.Geodatabase.QueryFilterClass();
releaser.ManageLifetime(filter);
filter.WhereClause = string.Format("{0}='{1}' AND {2}={3} AND {4}='{5}'",
deviceHasPorts.OriginForeignKey,
device.Feature.get_Value(deviceFtClass.FindField(deviceHasPorts.OriginPrimaryKey)),
ConfigUtil.PortIdFieldName,
portId,
ConfigUtil.PortTypeFieldName,
PortType.Input == portType ? 1 : 2);
ESRI.ArcGIS.Geodatabase.ICursor cursor = portTable.Search(filter, false);
releaser.ManageLifetime(cursor);
ESRI.ArcGIS.Geodatabase.IRow portRow = cursor.NextRow();
if (null != portRow)
{
//releaser.ManageLifetime(portRow);
object cableIdValue = portRow.get_Value(portTable.FindField(ConfigUtil.ConnectedCableFieldName));
if (DBNull.Value != cableIdValue)
{
ESRI.ArcGIS.Geodatabase.IFeatureClass cableFtClass = _wkspHelper.FindFeatureClass(ConfigUtil.FiberCableFtClassName);
filter.WhereClause = string.Format("{0}='{1}'", ConfigUtil.IpidFieldName, cableIdValue);
ESRI.ArcGIS.Geodatabase.IFeatureCursor cableCursor = cableFtClass.Search(filter, false);
releaser.ManageLifetime(cableCursor);
ESRI.ArcGIS.Geodatabase.IFeature cable = cableCursor.NextFeature();
if (null != cable)
{
result = new FiberCableWrapper(cable);
object fiberNumberValue = portRow.get_Value(portTable.FindField(ConfigUtil.ConnectedFiberFieldName));
if (DBNull.Value != fiberNumberValue)
{
int.TryParse(fiberNumberValue.ToString(), out fiberNumber);
}
}
}
}
}
return result;
}
/// <summary>
/// Update the dropdowns of features on the UI
/// </summary>
/// <param name="helper">Helper class</param>
private void PopulateDropDowns(FiberDeviceConnectionHelper helper)
{
// Clear the existing choices
cboFrom.Items.Clear();
cboTo.Items.Clear();
lblAvailableFrom.Text = "";
lblAvailableTo.Text = "";
// Get the features and the display index for use when creating the wrapper
ESRI.ArcGIS.Carto.IFeatureLayer ftLayer = _hookHelper.FindFeatureLayer(ConfigUtil.FiberCableFtClassName);
int displayIdx = ftLayer.FeatureClass.FindField(ftLayer.DisplayField);
// Get the selected features
List<ESRI.ArcGIS.Geodatabase.IFeature> selectedFts = _hookHelper.GetSelectedFeatures(ftLayer);
// Add each of the fiber features to the drop down
for (int ftIdx = 0; ftIdx < selectedFts.Count; ftIdx++)
{
FiberCableWrapper w = new FiberCableWrapper(selectedFts[ftIdx], displayIdx);
cboFrom.Items.Add(w);
}
// Now do that same thing for each of the device feature classes
string[] deviceClassNames = ConfigUtil.DeviceFeatureClassNames;
for (int deviceClassIdx = 0; deviceClassIdx < deviceClassNames.Length; deviceClassIdx++)
{
string ftClassName = deviceClassNames[deviceClassIdx];
// Get the features and the display index for use when creating the wrapper
ftLayer = _hookHelper.FindFeatureLayer(ftClassName);
if (ftLayer != null) // what if layer removed from map
{
selectedFts = _hookHelper.GetSelectedFeatures(ftLayer);
displayIdx = ftLayer.FeatureClass.FindField(ftLayer.DisplayField);
for (int ftIdx = 0; ftIdx < selectedFts.Count; ftIdx++)
{
DeviceWrapper w = new DeviceWrapper(selectedFts[ftIdx], displayIdx);
cboFrom.Items.Add(w);
}
}
}
// Preselect the first choice
if (0 < cboFrom.Items.Count)
{
cboFrom.SelectedItem = cboFrom.Items[0];
}
}
/// <summary>
/// Check changes to the grid and save them to the database
/// </summary>
/// <param name="splice">The associated splice closure</param>
/// <param name="cableA">A cable</param>
/// <param name="cableB">The other cable</param>
/// <returns>Success</returns>
private bool SaveChanges(SpliceClosureWrapper splice, FiberCableWrapper cableA, SpliceableCableWrapper cableB)
{
bool result = false;
string isNotOkString = string.Empty;
Dictionary<int, FiberSplice> currentGrid = new Dictionary<int, FiberSplice>();
List<int> currentBStrands = new List<int>();
try
{
int aIdx = colRangeA.Index;
int bIdx = colRangeB.Index;
int lossIdx = colLoss.Index;
int typeIdx = grdSplices.Columns[colType.Name].Index; // If we had to use colTypeText, it will be using the same name
// Less than count-1 lets us avoid the insert row
for (int i = 0; i < grdSplices.Rows.Count - 1; i++)
{
if (grdSplices[aIdx, i].Value == null || grdSplices[bIdx, i].Value == null)
{
isNotOkString = "A or B unit range missing.";
}
if (0 < isNotOkString.Length)
{
// No need to check the rest if this one was not OK
break;
}
List<Range> aRanges = SpliceAndConnectionUtils.ParseRanges(grdSplices[aIdx, i].Value.ToString());
List<Range> bRanges = SpliceAndConnectionUtils.ParseRanges(grdSplices[bIdx, i].Value.ToString());
if (!SpliceAndConnectionUtils.AreCountsEqual(aRanges, bRanges))
{
isNotOkString = "Number of units from A to B must match on each row.";
}
else if (!SpliceAndConnectionUtils.AreRangesWithinFiberCount(aRanges, cableA))
{
isNotOkString = "Selected units exceed fiber count for cable A.";
}
else if (!SpliceAndConnectionUtils.AreRangesWithinFiberCount(bRanges, cableB))
{
isNotOkString = "Selected units exceed fiber count for cable B.";
}
if (0 < isNotOkString.Length)
{
// No need to check the rest if this one was not OK
break;
}
List<Connection> matchedUp = SpliceAndConnectionUtils.MatchUp(aRanges, bRanges);
foreach (Connection range in matchedUp)
{
Range a = range.ARange;
Range b = range.BRange;
int numUnits = a.High - a.Low + 1;
for (int offset = 0; offset < numUnits; offset++)
{
int aUnit = a.Low + offset;
int bUnit = b.Low + offset;
if (currentGrid.ContainsKey(aUnit))
{
isNotOkString = string.Format("Duplicate splicing found for A Strand {0}", aUnit);
// No need to check the rest if this one was not OK
break;
}
else if (currentBStrands.Contains(bUnit))
{
isNotOkString = string.Format("Duplicate splicing found for B Strand {0}", bUnit);
// No need to check the rest if this one was not OK
break;
}
else
{
object lossObj = grdSplices[lossIdx, i].Value;
object typeObj = grdSplices[typeIdx, i].Value;
double? loss = null;
if (null != lossObj)
{
double dblLoss = -1;
if (double.TryParse(lossObj.ToString(), out dblLoss))
{
loss = dblLoss;
}
else
{
MessageBox.Show("Loss value on row {0} could not be parsed. Using null.", "Splice Editor", MessageBoxButtons.OK, MessageBoxIcon.Warning);
}
}
FiberSplice fiberSplice = new FiberSplice(new Range(aUnit, aUnit), new Range(bUnit, bUnit), loss, typeObj);
currentGrid[aUnit] = fiberSplice;
currentBStrands.Add(bUnit);
}
}
}
}
}
catch (Exception ex)
{
isNotOkString = ex.Message;
}
// Check the ranges are within the feature's units
List<int> checkToUnits = new List<int>();
List<int> checkFromUnits = new List<int>();
// Anything that is in the current grid, we will see if it is available. But if it was deleted, we can ignore
// checking its availabilty, because we are about to free it up. Also if it was original, we can ignore it,
// since we are reprocessing it. Duplicates ON the grid have already been checked for.
// NOTE: We can simplify this to just check original, since any deleted ones were in the original.
foreach (FiberSplice checkSplice in currentGrid.Values)
{
int unit = checkSplice.BRange.Low;
checkToUnits.Add(unit);
}
foreach (FiberSplice checkSplice in _original.Values)
{
int unit = checkSplice.BRange.Low;
if (checkToUnits.Contains(unit))
{
checkToUnits.Remove(unit);
}
}
foreach (int fromUnit in currentGrid.Keys)
{
if (!_original.ContainsKey(fromUnit))
{
checkFromUnits.Add(fromUnit);
}
}
if (!SpliceAndConnectionUtils.AreRangesAvailable(checkFromUnits, cableA, cableB.IsOtherFromEnd))
{
isNotOkString = "Some A units are not in the available ranges for the A Cable.";
}
else if (!SpliceAndConnectionUtils.AreRangesAvailable(checkToUnits, cableB, cableB.IsThisFromEnd))
{
isNotOkString = "Some B units are not in the available ranges for the B Cable.";
}
if (0 < isNotOkString.Length)
{
string message = string.Format("{0}\nPlease correct this and try again.", isNotOkString);
MessageBox.Show(message, "Splice Editor", MessageBoxButtons.OK, MessageBoxIcon.Error);
}
else
{
if (null != cableA && null != cableB)
{
// For the deleted ones, if they were added back, don't delete them...
List<int> keys = new List<int>();
keys.AddRange(_deleted.Keys);
foreach (int key in keys)
{
if (currentGrid.ContainsKey(key))
{
FiberSplice fiberSplice = currentGrid[key];
if (fiberSplice.BRange.Low == _deleted[key].BRange.Low
&& fiberSplice.Loss == _deleted[key].Loss
&& fiberSplice.Type == _deleted[key].Type)
{
// It is added back, so don't delete it
_deleted.Remove(key);
}
}
}
if (0 < _deleted.Count)
{
_spliceHelper.BreakSplices(cableA, cableB, splice, _deleted, false);
}
// For the added ones, if they already exist or are not available, don't add them
// Since we already know they are in the fiber count range, the only problem would be if they were already
// spliced. This would be the case if (1) it was part of the original or (2) has already appeared higher
// on the currentGrid. (2) is handled when building currentGrid, by checking if the aUnit or bUnit was already used.
keys.Clear();
keys.AddRange(currentGrid.Keys);
foreach (int key in keys)
{
if (_original.ContainsKey(key))
{
FiberSplice fiberSplice = currentGrid[key];
if (fiberSplice.BRange.Low == _original[key].BRange.Low
&& fiberSplice.Loss == _original[key].Loss
&& fiberSplice.Type == _original[key].Type)
{
// It was on the original, so we don't need to create it
currentGrid.Remove(key);
}
}
}
if (0 < currentGrid.Count)
{
_spliceHelper.CreateSplices(cableA, cableB, splice, currentGrid, false);
}
// These are no longer part of the originals
foreach (KeyValuePair<int, FiberSplice> deletedPair in _deleted)
{
_original.Remove(deletedPair.Key);
}
// These are now part of the originals
foreach (KeyValuePair<int, FiberSplice> addedPair in currentGrid)
{
_original[addedPair.Key] = addedPair.Value;
}
_deleted.Clear(); // The grid is fresh
// Set the existing rows as committed data. Less than count-1 lets us avoid the insert row
for (int i = 0; i < grdSplices.Rows.Count - 1; i++)
{
grdSplices.Rows[i].ReadOnly = true;
}
btnSave.Enabled = false;
btnSave.Tag = false; // No edits made yet
result = true;
}
}
return result;
}
/// <summary>
/// Load the B dropdown with spliceable cables
/// </summary>
/// <param name="helper">SpliceEditorHelper</param>
/// <param name="cableA">A Cable</param>
private void PopulateBCables(FiberSpliceHelper helper, FiberCableWrapper cableA)
{
try
{
// Clear anything that is dependent on what we are about to load
ClearGrid();
cboCableB.Items.Clear();
lblAvailableA.Text = "";
lblAvailableB.Text = "";
SpliceClosureWrapper splice = cboSpliceClosure.SelectedItem as SpliceClosureWrapper;
if (null != splice)
{
List<SpliceableCableWrapper> spliceableCables = _spliceHelper.GetSpliceableCables(cableA, splice);
for (int i = 0; i < spliceableCables.Count; i++)
{
cboCableB.Items.Add(spliceableCables[i]);
}
if (0 < cboCableB.Items.Count)
{
cboCableB.SelectedItem = cboCableB.Items[0];
}
}
}
catch (Exception e)
{
_logHelper.addLogEntry(DateTime.Now.ToString(), "ERROR", "Splice Connection Window (PopulateBCables): ", e.Message);
}
}
/// <summary>
/// Load the A dropdown with selected cables
/// </summary>
/// <param name="helper">SpliceEditorHelper</param>
private void PopulateACables(FiberSpliceHelper helper, SpliceClosureWrapper spliceWrapper)
{
try
{
// Clear anything that is dependent on what we are about to load
ClearGrid();
cboCableA.Items.Clear();
cboCableB.Items.Clear();
lblAvailableA.Text = "";
lblAvailableB.Text = "";
List<ESRI.ArcGIS.Geodatabase.IFeature> selectedCables = helper.GetConnectedCables(spliceWrapper);
ESRI.ArcGIS.Carto.IFeatureLayer ftLayer = _hookHelper.FindFeatureLayer(ConfigUtil.FiberCableFtClassName);
int displayIdx = ftLayer.FeatureClass.FindField(ftLayer.DisplayField);
for (int i = 0; i < selectedCables.Count; i++)
{
FiberCableWrapper w = new FiberCableWrapper(selectedCables[i], displayIdx);
cboCableA.Items.Add(w);
}
if (0 < cboCableA.Items.Count)
{
cboCableA.SelectedItem = cboCableA.Items[0];
}
}
catch (Exception e)
{
_logHelper.addLogEntry(DateTime.Now.ToString(), "ERROR", "Splice Connection Window (PopulateACables): ", e.Message);
}
}
/// <summary>
/// Loads the grid with existing splice ranges between the given features
/// </summary>
/// <param name="spliceWrapper">Selected Splice Closure</param>
/// <param name="cableA">Selected Cable A</param>
/// <param name="cableB">Selected Cable B</param>
private void LoadExistingRecords(SpliceClosureWrapper spliceWrapper, FiberCableWrapper cableA, SpliceableCableWrapper cableB)
{
ClearGrid();
if (null != spliceWrapper && null != cableA && null != cableB)
{
List<FiberSplice> rangesAtoB = SpliceAndConnectionUtils.GetSplicedRanges(cableA, cableB, spliceWrapper);
for (int i = 0; i < rangesAtoB.Count; i++)
{
FiberSplice fiberSplice = rangesAtoB[i];
int rowIdx = grdSplices.Rows.Add(fiberSplice.ARange, fiberSplice.BRange, fiberSplice.Loss, fiberSplice.Type);
grdSplices.Rows[rowIdx].ReadOnly = true; // Allow this to be deleted, but not edited.
Range a = fiberSplice.ARange;
Range b = fiberSplice.BRange;
int numUnits = a.High - a.Low + 1;
for (int offset = 0; offset < numUnits; offset++)
{
int aUnit = a.Low + offset;
int bUnit = b.Low + offset;
FiberSplice originalSplice = new FiberSplice(new Range(aUnit, aUnit), new Range(bUnit, bUnit), fiberSplice.Loss, fiberSplice.Type);
_original[aUnit] = originalSplice;
}
}
// These are valid for display because it is these two cables at this splice, the A and B side assignment is
// arbitrary. We do need to reverse them in the display though. For example is Cable X (1-12) is spliced to
// Cable Y (36-47), and they have selected X/Y in the form -- the grid should show X's units on the left and
// Y's on the right. Here we are requesting them as Y/X though.
List<FiberSplice> rangesBtoA = SpliceAndConnectionUtils.GetSplicedRanges((FiberCableWrapper)cboCableB.SelectedItem, (FiberCableWrapper)cboCableA.SelectedItem, spliceWrapper);
for (int i = 0; i < rangesBtoA.Count; i++)
{
FiberSplice fiberSplice = rangesBtoA[i];
int rowIdx = grdSplices.Rows.Add(fiberSplice.BRange, fiberSplice.ARange, fiberSplice.Loss, fiberSplice.Type);
grdSplices.Rows[rowIdx].ReadOnly = true; // Allow this to be deleted, but not edited.
Range a = fiberSplice.ARange;
Range b = fiberSplice.BRange;
int numUnits = a.High - a.Low + 1;
for (int offset = 0; offset < numUnits; offset++)
{
int aUnit = a.Low + offset;
int bUnit = b.Low + offset;
FiberSplice originalSplice = new FiberSplice(new Range(bUnit, bUnit), new Range(aUnit, aUnit), fiberSplice.Loss, fiberSplice.Type);
_original[bUnit] = originalSplice;
}
}
}
btnSave.Enabled = false;
btnSave.Tag = false; // No edits made yet
}
/// <summary>
/// Creates given connections between cable and device
/// </summary>
/// <param name="cable">Cable</param>
/// <param name="device">Device</param>
/// <param name="units">Units to connect</param>
/// <param name="isFromEnd">Is it the cable's from end?</param>
/// <param name="portType">Input or Output?</param>
/// <param name="isExistingOperation">Flag to control whether we need to wrap this in a new edit operation</param>
/// <returns>Success</returns>
public bool MakeConnections(FiberCableWrapper cable, DeviceWrapper device, Dictionary<int, int> units, bool isFromEnd, PortType portType, bool isExistingOperation)
{
bool success = false;
bool isOperationOpen = false;
#region Validation
if (null == cable)
{
throw new ArgumentNullException("cable");
}
if (null == device)
{
throw new ArgumentNullException("device");
}
if (null == units)
{
throw new ArgumentNullException("units");
}
if (ESRI.ArcGIS.Editor.esriEditState.esriStateNotEditing == _editor.EditState)
{
throw new InvalidOperationException("You must be editing to perform this operation");
}
#endregion
if (!isExistingOperation)
{
_editor.StartOperation();
isOperationOpen = true;
}
try
{
ESRI.ArcGIS.Geodatabase.IFeatureClass deviceFtClass = device.Feature.Class as ESRI.ArcGIS.Geodatabase.IFeatureClass;
ESRI.ArcGIS.Geodatabase.IRelationshipClass deviceHasPorts = ConfigUtil.GetPortRelationship(deviceFtClass);
if (null == deviceHasPorts)
{
throw new Exception("Unable to get port relationship class.");
}
ESRI.ArcGIS.Geodatabase.ITable portTable = deviceHasPorts.DestinationClass as ESRI.ArcGIS.Geodatabase.ITable;
if (null == portTable)
{
throw new Exception("Invalid destination on port relationship class.");
}
int portIdIdx = portTable.FindField(ConfigUtil.PortIdFieldName);
int fiberNumberIdx = portTable.FindField(ConfigUtil.ConnectedFiberFieldName);
int cableIdIdx = portTable.FindField(ConfigUtil.ConnectedCableFieldName);
int isFromEndIdx = portTable.FindField(ConfigUtil.ConnectedEndFieldName);
string isFromEndValue = isFromEnd ? "T" : "F";
Dictionary<int, int> portsAsKeys = units;
if (PortType.Input == portType)
{
portsAsKeys = new Dictionary<int, int>();
foreach (KeyValuePair<int, int> pair in units)
{
portsAsKeys[pair.Value] = pair.Key;
}
}
using (ESRI.ArcGIS.ADF.ComReleaser releaser = new ESRI.ArcGIS.ADF.ComReleaser())
{
ESRI.ArcGIS.Geodatabase.IQueryFilter filter = new ESRI.ArcGIS.Geodatabase.QueryFilterClass();
releaser.ManageLifetime(filter);
string format = "{0}='{1}' AND {2}='{3}'";
filter.WhereClause = string.Format(format,
deviceHasPorts.OriginForeignKey,
device.Feature.get_Value(deviceFtClass.FindField(deviceHasPorts.OriginPrimaryKey)),
ConfigUtil.PortTypeFieldName,
(PortType.Input == portType ? "1" : "2"));
// Non recylcing cursor since we are doing updates.
ESRI.ArcGIS.Geodatabase.ICursor portCursor = portTable.Update(filter, false);
releaser.ManageLifetime(portCursor);
ESRI.ArcGIS.Geodatabase.IRow portRow = portCursor.NextRow();
while (null != portRow)
{
object portIdObj = portRow.get_Value(portIdIdx);
if (DBNull.Value != portIdObj)
{
int portId = System.Convert.ToInt32(portIdObj);
if (portsAsKeys.ContainsKey(portId))
{
portRow.set_Value(cableIdIdx, cable.IPID);
portRow.set_Value(isFromEndIdx, isFromEndValue);
portRow.set_Value(fiberNumberIdx, portsAsKeys[portId]);
portRow.Store();
}
}
ESRI.ArcGIS.ADF.ComReleaser.ReleaseCOMObject(portRow);
portRow = portCursor.NextRow();
}
if (isOperationOpen)
{
_editor.StopOperation("Create Connections");
isOperationOpen = false;
}
success = true;
}
}
catch(Exception ex)
{
if (isOperationOpen)
{
_editor.AbortOperation();
}
success = false;
throw new Exception("Save operation failed.");
}
return success;
}
/// <summary>
/// Break all connections for a given cable
/// </summary>
/// <param name="cable">Cable to break connections</param>
/// <param name="isExistingOperation">Should we start/stop the edit operation, or are we already in one?</param>
/// <returns>Success</returns>
public bool BreakAllConnections(FiberCableWrapper cable, bool isExistingOperation)
{
bool success = false;
bool isOperationOpen = false;
#region Validation
if (null == cable)
{
throw new ArgumentNullException("cable");
}
if (ESRI.ArcGIS.Editor.esriEditState.esriStateNotEditing == _editor.EditState)
{
throw new InvalidOperationException("You must be editing to perform this operation");
}
#endregion
if (!isExistingOperation)
{
_editor.StartOperation();
isOperationOpen = true;
}
try
{
using (ESRI.ArcGIS.ADF.ComReleaser releaser = new ESRI.ArcGIS.ADF.ComReleaser())
{
ESRI.ArcGIS.Geodatabase.IFeatureClass cableFtClass = cable.Feature.Class as ESRI.ArcGIS.Geodatabase.IFeatureClass;
ESRI.ArcGIS.Geodatabase.IQueryFilter filter = new ESRI.ArcGIS.Geodatabase.QueryFilterClass();
releaser.ManageLifetime(filter);
filter.WhereClause = string.Format("{0}='{1}'", ConfigUtil.ConnectedCableFieldName, cable.IPID);
filter.SubFields = string.Format("{0},{1},{2}", ConfigUtil.ConnectedCableFieldName, ConfigUtil.ConnectedFiberFieldName, ConfigUtil.ConnectedEndFieldName);
string[] deviceClassNames = ConfigUtil.DeviceFeatureClassNames;
for (int i = 0; i < deviceClassNames.Length; i++)
{
string deviceClassName = deviceClassNames[i];
ESRI.ArcGIS.Geodatabase.IFeatureClass deviceFtClass = _wkspHelper.FindFeatureClass(deviceClassName);
// ESRI.ArcGIS.Geodatabase.IFeatureClass deviceFtClass = GdbUtils.GetFeatureClass(cableFtClass, deviceClassName);
ESRI.ArcGIS.Geodatabase.ITable portTable = ConfigUtil.GetPortTable(deviceFtClass);
ESRI.ArcGIS.Geodatabase.IRowBuffer buffer = portTable.CreateRowBuffer();
// We want to set them to null, so we can just send the empty buffer
portTable.UpdateSearchedRows(filter, buffer);
ESRI.ArcGIS.ADF.ComReleaser.ReleaseCOMObject(buffer);
}
if (isOperationOpen)
{
_editor.StopOperation("Break Connections");
isOperationOpen = false;
}
success = true;
}
}
catch
{
if (isOperationOpen)
{
_editor.AbortOperation();
}
success = false;
}
return success;
}
/// <summary>
/// Splices all available strands from one cable to the other, at a given splice closure
/// </summary>
/// <param name="cableA">Cable A</param>
/// <param name="cableB">Cable B</param>
/// <param name="splice">Splice Closure</param>
/// <param name="strands">Strands to splice together</param>
/// <param name="isExistingOperation">Flag to control whether we need to wrap this in an edit operation</param>
/// <returns>Success</returns>
public bool CreateSplices(FiberCableWrapper cableA, SpliceableCableWrapper cableB, SpliceClosureWrapper splice, Dictionary<int,FiberSplice> strands, bool isExistingOperation)
{
bool success = false;
bool isOperationOpen = false;
#region Validation
if (null == cableA)
{
throw new ArgumentNullException("cableA");
}
if (null == cableB)
{
throw new ArgumentNullException("cableB");
}
if (ESRI.ArcGIS.Editor.esriEditState.esriStateNotEditing == _editor.EditState)
{
throw new InvalidOperationException("You must be editing to perform this operation");
}
#endregion
if (!isExistingOperation)
{
_editor.StartOperation();
isOperationOpen = true;
}
if (null == splice)
{
splice = GenerateSpliceClosure(cableA, cableB);
}
else if (0 == splice.IPID.Length)
{
// Populate an IPID; we will need it
ESRI.ArcGIS.Geodatabase.IFeature spliceFt = splice.Feature;
Guid g = Guid.NewGuid();
spliceFt.set_Value(spliceFt.Fields.FindField(ConfigUtil.IpidFieldName), g.ToString("B").ToUpper());
spliceFt.Store();
}
try
{
ESRI.ArcGIS.Geodatabase.ITable fiberSpliceTable = _wkspHelper.FindTable(ConfigUtil.FiberSpliceTableName);
// ESRI.ArcGIS.Geodatabase.ITable fiberSpliceTable = GdbUtils.GetTable(cableA.Feature.Class, ConfigUtil.FiberSpliceTableName);
int aCableIdx = fiberSpliceTable.FindField(ConfigUtil.ACableIdFieldName);
int bCableIdx = fiberSpliceTable.FindField(ConfigUtil.BCableIdFieldName);
int aFiberNumIdx = fiberSpliceTable.FindField(ConfigUtil.AFiberNumberFieldName);
int bFiberNumIdx = fiberSpliceTable.FindField(ConfigUtil.BFiberNumberFieldName);
int spliceIpidIdx = fiberSpliceTable.FindField(ConfigUtil.SpliceClosureIpidFieldName);
int isAFromIdx = fiberSpliceTable.FindField(ConfigUtil.IsAFromEndFieldName);
int isBFromIdx = fiberSpliceTable.FindField(ConfigUtil.IsBFromEndFieldName);
int lossIdx = fiberSpliceTable.FindField(ConfigUtil.LossFieldName);
int typeIdx = fiberSpliceTable.FindField(ConfigUtil.TypeFieldName);
ESRI.ArcGIS.Geodatabase.IField typeField = fiberSpliceTable.Fields.get_Field(typeIdx);
string aCableId = cableA.IPID;
string bCableId = cableB.IPID;
string isAFromEnd = cableB.IsOtherFromEnd ? "T" : "F";
string isBFromEnd = cableB.IsThisFromEnd ? "T" : "F";
string spliceIpid = splice.IPID;
using (ESRI.ArcGIS.ADF.ComReleaser releaser = new ESRI.ArcGIS.ADF.ComReleaser())
{
// TODO cant use insert cursor since edit events wont fire.
// We need evetns to fire for dynamic values to get populated.
// ESRI.ArcGIS.Geodatabase.ICursor insertCursor = fiberSpliceTable.Insert(true);
// releaser.ManageLifetime(insertCursor);
foreach (KeyValuePair<int, FiberSplice> pair in strands)
{
IRow row = fiberSpliceTable.CreateRow();
releaser.ManageLifetime(row);
FiberSplice fiberSplice = pair.Value;
row.set_Value(aCableIdx, aCableId);
row.set_Value(bCableIdx, bCableId);
row.set_Value(aFiberNumIdx, pair.Key);
row.set_Value(bFiberNumIdx, fiberSplice.BRange.Low);
row.set_Value(spliceIpidIdx, spliceIpid);
row.set_Value(isAFromIdx, isAFromEnd);
row.set_Value(isBFromIdx, isBFromEnd);
if (null == fiberSplice.Loss)
{
row.set_Value(lossIdx, DBNull.Value);
}
else
{
row.set_Value(lossIdx, fiberSplice.Loss);
}
object typeValue = DBNull.Value;
if (null != fiberSplice.Type)
{
try
{
typeValue = GdbUtils.CheckForCodedValue(typeField, fiberSplice.Type);
}
catch
{
// TODO: Log a warning about why we can't set the default split splice type?
}
}
row.set_Value(typeIdx, typeValue);
row.Store();
}
}
if (isOperationOpen)
{
_editor.StopOperation("Edit Splices");
}
success = true;
}
catch
{
if (isOperationOpen)
{
_editor.AbortOperation();
}
success = false;
}
return success;
}
/// <summary>
/// Determines if all the ranges fall between 1 to fibercount
/// </summary>
/// <param name="ranges">Ranges to check</param>
/// <param name="cable">Cable to check on</param>
/// <returns>True if valid ranges</returns>
public static bool AreRangesWithinFiberCount(List<Range> ranges, FiberCableWrapper cable)
{
bool result = true;
#region Validation
if (null == cable)
{
throw new ArgumentNullException("cable");
}
if (null == ranges)
{
throw new ArgumentNullException("ranges");
}
#endregion
// int? fiberCount = GdbUtils.GetDomainedIntName(cable.Feature, ConfigUtil.NumberOfFibersFieldName);
int? fiberCount = cable.fibers;
if (null == fiberCount)
{
result = false;
}
else
{
foreach (Range r in ranges)
{
if (r.High > fiberCount
|| 1 > r.Low)
{
result = false;
break;
}
}
}
return result;
}
/// <summary>
/// Gets all cables that are considered splicable to another cable at a given splice closure.
/// </summary>
/// <param name="cable">Cable to splice with</param>
/// <param name="spliceClosure">Splice Closure to splice at</param>
/// <returns>List of SpliceableCableWrapper</returns>
public List<SpliceableCableWrapper> GetSpliceableCables(FiberCableWrapper cable, SpliceClosureWrapper spliceClosure)
{
// At the time of this comment, splicable means they are connected in the geometric network
List<SpliceableCableWrapper> result = new List<SpliceableCableWrapper>();
if (null == cable)
{
throw new ArgumentNullException("cable");
}
if (null == spliceClosure)
{
throw new ArgumentNullException("spliceClosure");
}
int searchOid = cable.Feature.OID;
ESRI.ArcGIS.Geodatabase.IEdgeFeature cableFt = cable.Feature as ESRI.ArcGIS.Geodatabase.IEdgeFeature;
ESRI.ArcGIS.Carto.IFeatureLayer ftLayer = _hookHelper.FindFeatureLayer(ConfigUtil.FiberCableFtClassName);
int displayIdx = ftLayer.FeatureClass.FindField(ftLayer.DisplayField);
if (null != cableFt)
{
// We assume it is simple. Complex junctions are not supported for splicing cables
ESRI.ArcGIS.Geodatabase.ISimpleJunctionFeature junction = spliceClosure.Feature as ESRI.ArcGIS.Geodatabase.ISimpleJunctionFeature;
if (null != junction)
{
bool isAFromEnd = false; // would be in the case that junction.EID == cableFt.ToJunctionEID
if (junction.EID == cableFt.FromJunctionEID)
{
isAFromEnd = true;
}
else if (junction.EID != cableFt.ToJunctionEID)
{
// It isn't the from or the two? It shouldn't have been passed in as if it was coincident with the cable
return result;
// throw new InvalidOperationException("Given splice closure is not the junction for the given cable.");
}
int edgeCount = junction.EdgeFeatureCount;
for (int i = 0; i < edgeCount; i++)
{
ESRI.ArcGIS.Geodatabase.IEdgeFeature connectedEdge = junction.get_EdgeFeature(i);
ESRI.ArcGIS.Geodatabase.IFeature feature = (ESRI.ArcGIS.Geodatabase.IFeature)connectedEdge;
ESRI.ArcGIS.Geodatabase.IDataset dataset = feature.Class as ESRI.ArcGIS.Geodatabase.IDataset;
string featureClassName = GdbUtils.ParseTableName(dataset);
if (0 == string.Compare(featureClassName, ConfigUtil.FiberCableFtClassName)
&& feature.OID != searchOid)
{
if (junction.EID == connectedEdge.FromJunctionEID)
{
result.Add(new SpliceableCableWrapper(feature, true, isAFromEnd, displayIdx));
}
else if (junction.EID == connectedEdge.ToJunctionEID)
{
result.Add(new SpliceableCableWrapper(feature, false, isAFromEnd, displayIdx));
}
}
}
}
}
return result;
}
/// <summary>
/// Get the existing splice ranges between two cables at an existing closure
/// </summary>
/// <param name="cableA">One cable</param>
/// <param name="cableB">Other cable</param>
/// <param name="splice">Splice Closure</param>
/// <returns>List of FiberSplice</returns>
/// <remarks>Currently only checks A/B as passed, does not check the reverse B/A combination</remarks>
public static List<FiberSplice> GetSplicedRanges(FiberCableWrapper cableA, FiberCableWrapper cableB, SpliceClosureWrapper splice)
{
List<FiberSplice> result = new List<FiberSplice>();
string spliceWhere = string.Format("{0}='{1}' AND {2}='{3}' AND {4}='{5}'",
ConfigUtil.ACableIdFieldName,
cableA.IPID,
ConfigUtil.BCableIdFieldName,
cableB.IPID,
ConfigUtil.SpliceClosureIpidFieldName,
splice.IPID);
using (ESRI.ArcGIS.ADF.ComReleaser releaser = new ESRI.ArcGIS.ADF.ComReleaser())
{
ESRI.ArcGIS.Geodatabase.ITable fiberSpliceTable = TelecomWorkspaceHelper.Instance().FindTable(ConfigUtil.FiberSpliceTableName);
// ESRI.ArcGIS.Geodatabase.ITable fiberSpliceTable = GdbUtils.GetTable(cableA.Feature.Class, ConfigUtil.FiberSpliceTableName);
ESRI.ArcGIS.Geodatabase.IQueryFilter filter = new ESRI.ArcGIS.Geodatabase.QueryFilterClass();
releaser.ManageLifetime(filter);
filter.WhereClause = spliceWhere;
((ESRI.ArcGIS.Geodatabase.IQueryFilterDefinition)filter).PostfixClause = string.Format("ORDER BY {0}",ConfigUtil.AFiberNumberFieldName);
int aUnitIdx = fiberSpliceTable.FindField(ConfigUtil.AFiberNumberFieldName);
int bUnitIdx = fiberSpliceTable.FindField(ConfigUtil.BFiberNumberFieldName);
int lossIdx = fiberSpliceTable.FindField(ConfigUtil.LossFieldName);
int typeIdx = fiberSpliceTable.FindField(ConfigUtil.TypeFieldName);
ESRI.ArcGIS.Geodatabase.IField typeField = fiberSpliceTable.Fields.get_Field(typeIdx);
ESRI.ArcGIS.Geodatabase.ICodedValueDomain typeDomain = typeField.Domain as ESRI.ArcGIS.Geodatabase.ICodedValueDomain;
ESRI.ArcGIS.Geodatabase.ICursor splices = fiberSpliceTable.Search(filter, true);
releaser.ManageLifetime(splices);
ESRI.ArcGIS.Geodatabase.IRow spliceRow = splices.NextRow();
int lastAUnit = -1;
int lastBUnit = -1;
double? lastLoss = null;
object lastType = Type.Missing;
int aLow = -1;
int bLow = -1;
while (null != spliceRow)
{
// These are not-null columns
int aUnit = (int)spliceRow.get_Value(aUnitIdx);
int bUnit = (int)spliceRow.get_Value(bUnitIdx);
object lossObj = spliceRow.get_Value(lossIdx);
double? loss = null;
if (DBNull.Value != lossObj)
{
loss = (double)lossObj;
}
object type = spliceRow.get_Value(typeIdx);
if (aUnit != (lastAUnit + 1)
|| bUnit != (lastBUnit + 1)
|| loss != lastLoss
|| !type.Equals(lastType))
{
if (-1 != lastAUnit)
{
string typeString = string.Empty;
if (null != typeString)
{
if (null != typeDomain)
{
typeString = GdbUtils.GetDomainNameForValue(typeDomain, lastType);
}
else
{
typeString = lastType.ToString(); // DBNull.Value will return string.Empty
}
}
result.Add(new FiberSplice(new Range(aLow, lastAUnit), new Range(bLow, lastBUnit), lastLoss, typeString));
}
aLow = aUnit;
bLow = bUnit;
}
lastAUnit = aUnit;
lastBUnit = bUnit;
lastLoss = loss;
lastType = type;
ESRI.ArcGIS.ADF.ComReleaser.ReleaseCOMObject(spliceRow);
spliceRow = splices.NextRow();
}
if (-1 < aLow)
{
string typeString = string.Empty;
if (null != typeString)
{
if (null != typeDomain)
{
typeString = GdbUtils.GetDomainNameForValue(typeDomain, lastType);
}
else
{
typeString = lastType.ToString(); // DBNull.Value will return string.Empty
}
}
result.Add(new FiberSplice(new Range(aLow, lastAUnit), new Range(bLow, lastBUnit), lastLoss, typeString));
}
}
return result;
}
/// <summary>
/// Generates a splice closure at the coincident endpoint. Does not start an edit operation.
/// </summary>
/// <param name="cableA">Cable A</param>
/// <param name="cableB">Cable B</param>
/// <returns>SpliceClosureWRapper based on new feature</returns>
private SpliceClosureWrapper GenerateSpliceClosure(FiberCableWrapper cableA, SpliceableCableWrapper cableB)
{
SpliceClosureWrapper wrapper = null;
#region Validation
if (null == cableA)
{
throw new ArgumentNullException("cableA");
}
if (null == cableB)
{
throw new ArgumentNullException("cableB");
}
if (ESRI.ArcGIS.Editor.esriEditState.esriStateNotEditing == _editor.EditState)
{
throw new InvalidOperationException("You must be editing to perform this operation");
}
#endregion
// Populate an IPID; we will need it
Guid g = Guid.NewGuid();
string spliceIpid = g.ToString("B").ToUpper();
try
{
ESRI.ArcGIS.Geometry.IPolyline line = cableB.Feature.Shape as ESRI.ArcGIS.Geometry.IPolyline;
if (null != line)
{
ESRI.ArcGIS.Geometry.IPoint splicePoint = null;
if (cableB.IsThisFromEnd)
{
splicePoint = line.FromPoint;
}
else
{
splicePoint = line.ToPoint;
}
ESRI.ArcGIS.Geodatabase.IFeatureClass spliceClosureFtClass = _wkspHelper.FindFeatureClass(ConfigUtil.SpliceClosureFtClassName);
// ESRI.ArcGIS.Geodatabase.IFeatureClass spliceClosureFtClass = GdbUtils.GetFeatureClass(cableA.Feature.Class, ConfigUtil.SpliceClosureFtClassName);
ESRI.ArcGIS.Geodatabase.IFeature spliceFt = spliceClosureFtClass.CreateFeature();
spliceFt.Shape = splicePoint;
spliceFt.set_Value(spliceClosureFtClass.Fields.FindField(ConfigUtil.IpidFieldName), spliceIpid);
spliceFt.Store();
wrapper = new SpliceClosureWrapper(spliceFt);
}
}
catch
{
wrapper = null;
}
return wrapper;
}
/// <summary>
/// Gets a list of all strand numbers from a cable that are connected on the given end
/// </summary>
/// <param name="cable">Cable to check</param>
/// <param name="isFromEnd">True to check from end, False to check to end</param>
/// <returns>List of int</returns>
private static List<int> GetConnectedStrands(FiberCableWrapper cable, bool isFromEnd)
{
#region Validation
if (null == cable)
{
throw new ArgumentNullException("cable");
}
#endregion
List<int> result = new List<int>();
using (ESRI.ArcGIS.ADF.ComReleaser releaser = new ESRI.ArcGIS.ADF.ComReleaser())
{
ESRI.ArcGIS.Geodatabase.IFeatureClass cableFtClass = cable.Feature.Class as ESRI.ArcGIS.Geodatabase.IFeatureClass;
string[] deviceClassNames = ConfigUtil.DeviceFeatureClassNames;
for (int i = 0; i < deviceClassNames.Length; i++)
{
string deviceClassName = deviceClassNames[i];
ESRI.ArcGIS.Geodatabase.IFeatureClass deviceFtClass = TelecomWorkspaceHelper.Instance().FindFeatureClass(deviceClassName);
// ESRI.ArcGIS.Geodatabase.IFeatureClass deviceFtClass = GdbUtils.GetFeatureClass(cableFtClass, deviceClassName);
if (null != deviceFtClass)
{
ESRI.ArcGIS.Geodatabase.IRelationshipClass deviceHasPorts = ConfigUtil.GetPortRelationship(deviceFtClass);
if (null != deviceHasPorts)
{
ESRI.ArcGIS.Geodatabase.ITable portTable = deviceHasPorts.DestinationClass as ESRI.ArcGIS.Geodatabase.ITable;
if (null != portTable)
{
ESRI.ArcGIS.Geodatabase.IQueryFilter filter = new ESRI.ArcGIS.Geodatabase.QueryFilterClass();
releaser.ManageLifetime(filter);
filter.WhereClause = string.Format("{0}='{1}' AND {2}='{3}' AND {4} IS NOT NULL",
ConfigUtil.ConnectedCableFieldName,
cable.IPID,
ConfigUtil.ConnectedEndFieldName,
(isFromEnd ? "T" : "F"),
ConfigUtil.ConnectedFiberFieldName);
ESRI.ArcGIS.Geodatabase.ICursor portCursor = portTable.Search(filter, true);
ESRI.ArcGIS.Geodatabase.IRow portRow = portCursor.NextRow();
int fiberIdIdx = portTable.FindField(ConfigUtil.ConnectedFiberFieldName);
while (null != portRow)
{
result.Add((int)portRow.get_Value(fiberIdIdx));
ESRI.ArcGIS.ADF.ComReleaser.ReleaseCOMObject(portRow);
portRow = portCursor.NextRow();
}
ESRI.ArcGIS.ADF.ComReleaser.ReleaseCOMObject(portCursor);
}
}
}
}
}
return result;
}
/// <summary>
/// Deletes given connections between cable to device
/// </summary>
/// <param name="cable">Cable</param>
/// <param name="device">Device</param>
/// <param name="units">Units to connect</param>
/// <param name="portType">Input or Output?</param>
/// <param name="isExistingOperation">Flag to control whether we need to wrap this in an edit operation</param>
/// <returns>Success</returns>
public bool BreakConnections(FiberCableWrapper cable, DeviceWrapper device, Dictionary<int, int> units, PortType portType, bool isExistingOperation)
{
bool success = false;
bool isOperationOpen = false;
#region Validation
if (null == cable)
{
throw new ArgumentNullException("cable");
}
if (null == device)
{
throw new ArgumentNullException("device");
}
if (null == units)
{
throw new ArgumentNullException("units");
}
if (ESRI.ArcGIS.Editor.esriEditState.esriStateNotEditing == _editor.EditState)
{
throw new InvalidOperationException("You must be editing to perform this operation");
}
#endregion
if (0 < units.Count)
{
if (!isExistingOperation)
{
_editor.StartOperation();
isOperationOpen = true;
}
try
{
ESRI.ArcGIS.Geodatabase.IFeatureClass deviceFtClass = device.Feature.Class as ESRI.ArcGIS.Geodatabase.IFeatureClass;
ESRI.ArcGIS.Geodatabase.IRelationshipClass deviceHasPorts = ConfigUtil.GetPortRelationship(deviceFtClass);
if (null == deviceFtClass)
{
throw new Exception("Unable to find port relationship class.");
}
ESRI.ArcGIS.Geodatabase.ITable portTable = deviceHasPorts.DestinationClass as ESRI.ArcGIS.Geodatabase.ITable;
if (null == portTable)
{
throw new Exception("Invalid destination on port relationship class.");
}
using (ESRI.ArcGIS.ADF.ComReleaser releaser = new ESRI.ArcGIS.ADF.ComReleaser())
{
ESRI.ArcGIS.Geodatabase.IQueryFilter filter = new ESRI.ArcGIS.Geodatabase.QueryFilterClass();
releaser.ManageLifetime(filter);
StringBuilder inList = new StringBuilder(1024);
foreach (KeyValuePair<int, int> pair in units)
{
string appendFormat = "{0},";
if (PortType.Input == portType)
{
inList.AppendFormat(appendFormat, pair.Key);
}
else
{
inList.AppendFormat(appendFormat, pair.Value);
}
}
inList.Remove(inList.Length - 1, 1);
string format = "{0}='{1}' AND {2}='{3}' AND {4}='{5}' AND {6} IN ({7})";
filter.WhereClause = string.Format(format,
deviceHasPorts.OriginForeignKey,
device.Feature.get_Value(deviceFtClass.FindField(deviceHasPorts.OriginPrimaryKey)),
ConfigUtil.ConnectedCableFieldName,
cable.IPID,
ConfigUtil.PortTypeFieldName,
(PortType.Input == portType ? "1" : "2"),
ConfigUtil.ConnectedFiberFieldName,
inList.ToString());
filter.SubFields = string.Format("{0},{1},{2}", ConfigUtil.ConnectedEndFieldName, ConfigUtil.ConnectedFiberFieldName, ConfigUtil.ConnectedCableFieldName);
ESRI.ArcGIS.Geodatabase.IRowBuffer buffer = portTable.CreateRowBuffer();
releaser.ManageLifetime(buffer);
// We want to set them to null, so we can just send the empty buffer
portTable.UpdateSearchedRows(filter, buffer);
if (isOperationOpen)
{
_editor.StopOperation("Break Connections");
isOperationOpen = false;
}
success = true;
}
}
catch
{
if (isOperationOpen)
{
_editor.AbortOperation();
}
success = false;
}
}
return success;
}
/// <summary>
/// Gets a list of all strand numbers from a cable that are spliced on the given end
/// </summary>
/// <param name="cable">Cable to check</param>
/// <param name="isFromEnd">True to check from end, False to check to end</param>
/// <returns>List of int</returns>
private static List<int> GetSplicedStrands(FiberCableWrapper cable, bool isFromEnd)
{
if (null == cable)
{
throw new ArgumentNullException("cable");
}
List<int> result = new List<int>();
using (ESRI.ArcGIS.ADF.ComReleaser releaser = new ESRI.ArcGIS.ADF.ComReleaser())
{
ESRI.ArcGIS.Geodatabase.ITable fiberSpliceTable = TelecomWorkspaceHelper.Instance().FindTable(ConfigUtil.FiberSpliceTableName);
// ESRI.ArcGIS.Geodatabase.ITable fiberSpliceTable = GdbUtils.GetTable(cable.Feature.Class, ConfigUtil.FiberSpliceTableName);
ESRI.ArcGIS.Geodatabase.IQueryFilter filter = new ESRI.ArcGIS.Geodatabase.QueryFilterClass();
releaser.ManageLifetime(filter);
filter.WhereClause = string.Format("{0}='{1}' AND {2}='{3}'",
ConfigUtil.ACableIdFieldName,
cable.IPID,
ConfigUtil.IsAFromEndFieldName,
(isFromEnd ? "T" : "F"));
ESRI.ArcGIS.Geodatabase.ICursor spliceCursor = fiberSpliceTable.Search(filter, true);
ESRI.ArcGIS.Geodatabase.IRow spliceRow = spliceCursor.NextRow();
int fiberIdIdx = fiberSpliceTable.FindField(ConfigUtil.AFiberNumberFieldName);
while (null != spliceRow)
{
result.Add((int)spliceRow.get_Value(fiberIdIdx));
ESRI.ArcGIS.ADF.ComReleaser.ReleaseCOMObject(spliceRow);
spliceRow = spliceCursor.NextRow();
}
ESRI.ArcGIS.ADF.ComReleaser.ReleaseCOMObject(spliceCursor);
filter.WhereClause = string.Format("{0}='{1}' AND {2}='{3}'",
ConfigUtil.BCableIdFieldName,
cable.IPID,
ConfigUtil.IsBFromEndFieldName,
(isFromEnd ? "T" : "F")); spliceCursor = fiberSpliceTable.Search(filter, true);
spliceRow = spliceCursor.NextRow();
fiberIdIdx = fiberSpliceTable.FindField(ConfigUtil.BFiberNumberFieldName);
while (null != spliceRow)
{
result.Add((int)spliceRow.get_Value(fiberIdIdx));
ESRI.ArcGIS.ADF.ComReleaser.ReleaseCOMObject(spliceRow);
spliceRow = spliceCursor.NextRow();
}
ESRI.ArcGIS.ADF.ComReleaser.ReleaseCOMObject(spliceCursor);
}
return result;
}
/// <summary>
/// Creates a label string for the available ranges of a cable at a certain end
/// </summary>
/// <param name="cable">Cable to check</param>
/// <param name="isFromEnd">End to check</param>
/// <returns>string</returns>
private string GetAvailableRangeString(FiberCableWrapper cable, bool isFromEnd)
{
List<Range> availableRanges = SpliceAndConnectionUtils.GetAvailableRanges(cable, isFromEnd);
string result = "No available ranges!";
if (0 < availableRanges.Count)
{
StringBuilder availableLabel = new StringBuilder(64);
for (int i = 0; i < availableRanges.Count; i++)
{
availableLabel.AppendFormat("{0},", availableRanges[i].ToString());
}
availableLabel.Remove(availableLabel.Length - 1, 1);
result = string.Format("Available: {0}", availableLabel.ToString());
}
return result;
}
