public ProgressDialog(bool a_EnableCancel, int a_MinValue, int a_MaxValue, string a_Title,
string a_Description)
{
var a_ProgressDialogFactory = new ProgressDialogFactoryClass();
m_TrackCancel = new CancelTracker();
m_StepProgressor = a_ProgressDialogFactory.Create(m_TrackCancel, 0);
m_ProgressDialog = (IProgressDialog2)m_StepProgressor;
m_TrackCancel.CancelOnClick = a_EnableCancel;
m_TrackCancel.CancelOnKeyPress = a_EnableCancel;
m_StepProgressor.MinRange = a_MinValue;
m_StepProgressor.MaxRange = a_MaxValue;
m_StepProgressor.StepValue = 1;
m_StepProgressor.Position = m_StepProgressor.MinRange;
if (a_MinValue == a_MaxValue)
{
m_StepProgressor.Hide();
}
m_ProgressDialog.CancelEnabled = a_EnableCancel;
m_ProgressDialog.Title = a_Title;
m_ProgressDialog.Description = a_Description;
m_ProgressDialog.Animation = esriProgressAnimationTypes.esriProgressSpiral;
}
/// <summary>
/// Releases unmanaged and - optionally - managed resources.
/// </summary>
/// <param name="disposing">
/// <c>true</c> to release both managed and unmanaged resources; <c>false</c> to release only
/// unmanaged resources.
/// </param>
protected override void Dispose(bool disposing)
{
base.Dispose(disposing);
if (disposing)
{
_ProgressBar.Hide();
}
}
/// <summary>Exports all bookmarks to PDF files.</summary>
/// <param name="directory">The directory that the exported files will be written to.</param>
/// <param name="dpi">The resolution of the output files.</param>
/// <param name="exportFormat">The format of the exported files.</param>
public void ExportBookmarksToFiles(string directory, long dpi, ExportFormat exportFormat)
{
if (!Directory.Exists(directory))
{
throw new DirectoryNotFoundException("Directory not found: " + directory);
}
IMouseCursor mc = new MouseCursorClass();
const int hourglass = 2;
mc.SetCursor(hourglass);
IMxDocument mxDoc = _app.Document as IMxDocument;
IMapBookmarks bookmarks = (IMapBookmarks)mxDoc.FocusMap;
IEnumSpatialBookmark enumBM = bookmarks.Bookmarks;
enumBM.Reset();
ISpatialBookmark sbm = enumBM.Next();
ProgressDialogFactoryClass dialogFactory = new ProgressDialogFactoryClass();
var cancelTracker = new CancelTrackerClass();
IStepProgressor stepProgressor = dialogFactory.Create(cancelTracker, _app.hWnd);
IProgressDialog2 progDialog = stepProgressor as IProgressDialog2;
progDialog.CancelEnabled = true;
progDialog.ShowDialog();
stepProgressor.Hide();
stepProgressor.Message = "Exporting...";
// Create a formatting string with the proper extension. (E.g., "{0}.pdf" for PDF files".)
string fnFmt = string.Format("{{0}}.{0}", Enum.GetName(typeof(ExportFormat), exportFormat));
try
{
while (sbm != null)
{
sbm.ZoomTo(mxDoc.FocusMap);
string filename = System.IO.Path.Combine(directory, string.Format(fnFmt, sbm.Name));
ExportPageLayoutToFile(mxDoc.PageLayout, filename, dpi, exportFormat);
sbm = enumBM.Next();
}
}
finally
{
if (progDialog != null)
{
progDialog.HideDialog();
ComReleaser.ReleaseCOMObject(progDialog);
}
}
}
public void Execute(ESRI.ArcGIS.esriSystem.IArray paramvalues, ESRI.ArcGIS.esriSystem.ITrackCancel TrackCancel, ESRI.ArcGIS.Geoprocessing.IGPEnvironmentManager envMgr, ESRI.ArcGIS.Geodatabase.IGPMessages message)
{
try
{
IGPUtilities3 execute_Utilities = new GPUtilitiesClass();
if (TrackCancel == null)
{
TrackCancel = new CancelTrackerClass();
}
IGPParameter inputOSMParameter = paramvalues.get_Element(in_osmFeatureClass) as IGPParameter;
IGPValue inputOSMGPValue = execute_Utilities.UnpackGPValue(inputOSMParameter);
IGPParameter tagCollectionParameter = paramvalues.get_Element(in_attributeSelector) as IGPParameter;
IGPMultiValue tagCollectionGPValue = execute_Utilities.UnpackGPValue(tagCollectionParameter) as IGPMultiValue;
if (tagCollectionGPValue == null)
{
message.AddError(120048, string.Format(resourceManager.GetString("GPTools_NullPointerParameterType"), tagCollectionParameter.Name));
return;
}
bool useUpdateCursor = false;
IFeatureClass osmFeatureClass = null;
ITable osmInputTable = null;
IQueryFilter osmQueryFilter = null;
try
{
execute_Utilities.DecodeFeatureLayer(inputOSMGPValue, out osmFeatureClass, out osmQueryFilter);
if (osmFeatureClass != null)
{
if (osmFeatureClass.Extension is IOSMClassExtension)
{
useUpdateCursor = false;
}
else
{
useUpdateCursor = true;
}
}
osmInputTable = osmFeatureClass as ITable;
}
catch { }
try
{
if (osmInputTable == null)
{
execute_Utilities.DecodeTableView(inputOSMGPValue, out osmInputTable, out osmQueryFilter);
}
}
catch { }
if (osmInputTable == null)
{
string errorMessage = String.Format(resourceManager.GetString("GPTools_OSMGPAttributeSelecto_unableopentable"), inputOSMGPValue.GetAsText());
message.AddError(120053, errorMessage);
return;
}
// find the field that holds tag binary/xml field
int osmTagCollectionFieldIndex = osmInputTable.FindField("osmTags");
// if the Field doesn't exist - wasn't found (index = -1) get out
if (osmTagCollectionFieldIndex == -1)
{
message.AddError(120005, resourceManager.GetString("GPTools_OSMGPAttributeSelector_notagfieldfound"));
return;
}
// check if the tag collection includes the keyword "ALL", if does then we'll need to extract all tags
bool extractAll = false;
for (int valueIndex = 0; valueIndex < tagCollectionGPValue.Count; valueIndex++)
{
if (tagCollectionGPValue.get_Value(valueIndex).GetAsText().Equals("ALL"))
{
extractAll = true;
break;
}
}
//if (extractAll)
//{
// if (osmTagKeyCodedValues == null)
// extractAllTags(ref osmTagKeyCodedValues, osmInputTable, osmQueryFilter, osmTagCollectionFieldIndex, false);
// if (osmTagKeyCodedValues == null)
// {
// message.AddAbort(resourceManager.GetString("GPTools_OSMGPAttributeSelector_Unable2RetrieveTags"));
// return;
// }
// // empty the existing gp multivalue object
// tagCollectionGPValue = new GPMultiValueClass();
// // fill the coded domain in gp multivalue object
// for (int valueIndex = 0; valueIndex < osmTagKeyCodedValues.CodeCount; valueIndex++)
// {
// tagCollectionGPValue.AddValue(osmTagKeyCodedValues.get_Value(valueIndex));
// }
//}
// get an overall feature count as that determines the progress indicator
int featureCount = osmInputTable.RowCount(osmQueryFilter);
// set up the progress indicator
IStepProgressor stepProgressor = TrackCancel as IStepProgressor;
if (stepProgressor != null)
{
stepProgressor.MinRange = 0;
stepProgressor.MaxRange = featureCount;
stepProgressor.Position = 0;
stepProgressor.Message = resourceManager.GetString("GPTools_OSMGPAttributeSelector_progressMessage");
stepProgressor.StepValue = 1;
stepProgressor.Show();
}
// let's get all the indices of the desired fields
// if the field already exists get the index and if it doesn't exist create it
Dictionary <string, int> tagsAttributesIndices = new Dictionary <string, int>();
Dictionary <int, int> attributeFieldLength = new Dictionary <int, int>();
IFeatureWorkspaceManage featureWorkspaceManage = ((IDataset)osmInputTable).Workspace as IFeatureWorkspaceManage;
String illegalCharacters = String.Empty;
ISQLSyntax sqlSyntax = ((IDataset)osmInputTable).Workspace as ISQLSyntax;
if (sqlSyntax != null)
{
illegalCharacters = sqlSyntax.GetInvalidCharacters();
}
IFieldsEdit fieldsEdit = osmInputTable.Fields as IFieldsEdit;
using (SchemaLockManager lockMgr = new SchemaLockManager(osmInputTable))
{
try
{
string tagKey = String.Empty;
ESRI.ArcGIS.Geoprocessing.IGeoProcessor2 gp = new ESRI.ArcGIS.Geoprocessing.GeoProcessorClass();
// if we have explicitly defined tags to extract then go through the list of values now
if (extractAll == false)
{
for (int valueIndex = 0; valueIndex < tagCollectionGPValue.Count; valueIndex++)
{
if (TrackCancel.Continue() == false)
{
return;
}
try
{
// Check if the input field already exists.
string nameofTag = tagCollectionGPValue.get_Value(valueIndex).GetAsText();
tagKey = convert2AttributeFieldName(nameofTag, illegalCharacters);
int fieldIndex = osmInputTable.FindField(tagKey);
if (fieldIndex < 0)
{
// generate a new attribute field
IFieldEdit fieldEdit = new FieldClass();
fieldEdit.Name_2 = tagKey;
fieldEdit.AliasName_2 = nameofTag + resourceManager.GetString("GPTools_OSMGPAttributeSelector_aliasaddition");
fieldEdit.Type_2 = esriFieldType.esriFieldTypeString;
fieldEdit.Length_2 = 100;
osmInputTable.AddField(fieldEdit);
message.AddMessage(string.Format(resourceManager.GetString("GPTools_OSMGPAttributeSelector_addField"), tagKey, nameofTag));
// re-generate the attribute index
fieldIndex = osmInputTable.FindField(tagKey);
}
if (fieldIndex > 0)
{
tagsAttributesIndices.Add(nameofTag, fieldIndex);
attributeFieldLength.Add(fieldIndex, osmInputTable.Fields.get_Field(fieldIndex).Length);
}
}
catch (Exception ex)
{
// the key is already there, this might result because from multiple upper and lower-case combinations of the same key
message.AddWarning(ex.Message + " (" + convert2OSMKey(tagKey, illegalCharacters) + ")");
}
}
}
else
{
List <string> listofAllTags = extractAllTags(osmInputTable, osmQueryFilter, osmTagCollectionFieldIndex);
foreach (string nameOfTag in listofAllTags)
{
if (TrackCancel.Continue() == false)
{
return;
}
try
{
// Check if the input field already exists.
tagKey = convert2AttributeFieldName(nameOfTag, illegalCharacters);
int fieldIndex = osmInputTable.FindField(tagKey);
if (fieldIndex < 0)
{
// generate a new attribute field
IFieldEdit fieldEdit = new FieldClass();
fieldEdit.Name_2 = tagKey;
fieldEdit.AliasName_2 = nameOfTag + resourceManager.GetString("GPTools_OSMGPAttributeSelector_aliasaddition");
fieldEdit.Type_2 = esriFieldType.esriFieldTypeString;
fieldEdit.Length_2 = 100;
osmInputTable.AddField(fieldEdit);
message.AddMessage(string.Format(resourceManager.GetString("GPTools_OSMGPAttributeSelector_addField"), tagKey, nameOfTag));
// re-generate the attribute index
fieldIndex = osmInputTable.FindField(tagKey);
}
if (fieldIndex > 0)
{
tagsAttributesIndices.Add(nameOfTag, fieldIndex);
attributeFieldLength.Add(fieldIndex, osmInputTable.Fields.get_Field(fieldIndex).Length);
}
}
catch (Exception ex)
{
// the key is already there, this might result because from multiple upper and lower-case combinations of the same key
message.AddWarning(ex.Message + " (" + convert2OSMKey(tagKey, illegalCharacters) + ")");
}
}
}
}
catch (Exception ex)
{
message.AddWarning(ex.Message);
}
}
try
{
execute_Utilities.DecodeFeatureLayer(inputOSMGPValue, out osmFeatureClass, out osmQueryFilter);
if (osmFeatureClass != null)
{
if (osmFeatureClass.Extension is IOSMClassExtension)
{
useUpdateCursor = false;
}
else
{
useUpdateCursor = true;
}
}
osmInputTable = osmFeatureClass as ITable;
}
catch { }
try
{
if (osmInputTable == null)
{
execute_Utilities.DecodeTableView(inputOSMGPValue, out osmInputTable, out osmQueryFilter);
}
}
catch { }
if (osmInputTable == null)
{
string errorMessage = String.Format(resourceManager.GetString("GPTools_OSMGPAttributeSelecto_unableopentable"), inputOSMGPValue.GetAsText());
message.AddError(120053, errorMessage);
return;
}
using (ComReleaser comReleaser = new ComReleaser())
{
using (SchemaLockManager lockMgr = new SchemaLockManager(osmInputTable))
{
// get an update cursor for all the features to process
ICursor rowCursor = null;
if (useUpdateCursor)
{
rowCursor = osmInputTable.Update(osmQueryFilter, false);
}
else
{
rowCursor = osmInputTable.Search(osmQueryFilter, false);
}
comReleaser.ManageLifetime(rowCursor);
IRow osmRow = null;
Dictionary <string, string> tagKeys = new Dictionary <string, string>();
int progessIndex = 0;
#if DEBUG
message.AddMessage("useUpdateCursor: " + useUpdateCursor.ToString());
#endif
// as long as there are features....
while ((osmRow = rowCursor.NextRow()) != null)
{
// retrieve the tags of the current feature
tag[] storedTags = _osmUtility.retrieveOSMTags(osmRow, osmTagCollectionFieldIndex, ((IDataset)osmInputTable).Workspace);
bool rowChanged = false;
if (storedTags != null)
{
foreach (tag tagItem in storedTags)
{
// Check for matching values so we only change a minimum number of rows
if (tagsAttributesIndices.ContainsKey(tagItem.k))
{
int fieldIndex = tagsAttributesIndices[tagItem.k];
//...then stored the value in the attribute field
// ensure that the content of the tag actually does fit into the field length...otherwise do truncate it
string tagValue = tagItem.v;
int fieldLength = attributeFieldLength[fieldIndex];
if (tagValue.Length > fieldLength)
{
tagValue = tagValue.Substring(0, fieldLength);
}
osmRow.set_Value(fieldIndex, tagValue);
rowChanged = true;
}
else
{
#if DEBUG
//message.AddWarning(tagItem.k);
#endif
}
}
}
storedTags = null;
try
{
if (rowChanged)
{
if (useUpdateCursor)
{
rowCursor.UpdateRow(osmRow);
}
else
{
// update the feature through the cursor
osmRow.Store();
}
}
progessIndex++;
}
catch (Exception ex)
{
System.Diagnostics.Debug.WriteLine(ex.Message);
message.AddWarning(ex.Message);
}
if (osmRow != null)
{
Marshal.ReleaseComObject(osmRow);
}
if (stepProgressor != null)
{
// update the progress UI
stepProgressor.Position = progessIndex;
}
// check for user cancellation (every 100 rows)
if ((progessIndex % 100 == 0) && (TrackCancel.Continue() == false))
{
return;
}
}
if (stepProgressor != null)
{
stepProgressor.Hide();
}
}
}
execute_Utilities.ReleaseInternals();
Marshal.ReleaseComObject(execute_Utilities);
}
catch (Exception ex)
{
message.AddError(120054, ex.Message);
}
}
// Execute: Execute the function given the array of the parameters
public void Execute(IArray paramvalues, ITrackCancel trackcancel, IGPEnvironmentManager envMgr, IGPMessages message)
{
IFeatureClass outputFeatureClass = null;
try
{
// get the input feature class
IGPMultiValue inputFeatureClasses_Parameter = (IGPMultiValue)m_GPUtilities.UnpackGPValue(paramvalues.get_Element(0));
layer[] input_featureClasses = new layer[inputFeatureClasses_Parameter.Count];
for (int i = 0; i < inputFeatureClasses_Parameter.Count; i++)
{
IGPValue inputFeatureClass_Parameter = inputFeatureClasses_Parameter.get_Value(i);
IFeatureClass inputFeatureClass;
IQueryFilter inputQF;
m_GPUtilities.DecodeFeatureLayer(inputFeatureClass_Parameter, out inputFeatureClass, out inputQF);
input_featureClasses[i] = new layer()
{
featureclass = inputFeatureClass, qFilter = inputQF
};
}
if (input_featureClasses.Length == 0 || input_featureClasses.Any(w => w.featureclass == null))
{
message.AddError(2, "Could not open one or more input dataset.");
return;
}
//IFields additionalFields = new FieldsClass();
//additionalFields.AddField(FEATURE_SOURCE_FIELD_NAME, esriFieldType.esriFieldTypeString);
//additionalFields.AddField(FEATURE_ID_FIELD_NAME, esriFieldType.esriFieldTypeInteger);
//additionalFields.AddField(
// input_featureClasses[0].featureclass.Fields.get_Field(
// input_featureClasses[0].featureclass.Fields.FindField(
// input_featureClasses[0].featureclass.ShapeFieldName)));
// create the output feature class
IGPValue outputFeatureClass_Parameter = m_GPUtilities.UnpackGPValue(paramvalues.get_Element(1));
outputFeatureClass = GPHelperFunctions.CreateFeatureClass(outputFeatureClass_Parameter, envMgr);
if (outputFeatureClass == null)
{
message.AddError(2, "Could not create output dataset.");
return;
}
IGPString curveTypeParameter = (IGPString)m_GPUtilities.UnpackGPValue(paramvalues.get_Element(2));
ArcConstructionMethods method;
if (!Enum.TryParse <ArcConstructionMethods>(curveTypeParameter.Value, true, out method))
{
message.AddError(2, string.Format("The value {0} is not expected. Expected values are: {1}.",
curveTypeParameter.Value,
string.Join(",", Enum.GetNames(typeof(ArcConstructionMethods)))));
return;
}
IStepProgressor stepPro = (IStepProgressor)trackcancel;
GPHelperFunctions.dropSpatialIndex(outputFeatureClass);
BoostVoronoi bv = new BoostVoronoi(100);
double minX = int.MaxValue, minY = int.MaxValue, maxX = int.MinValue, maxY = int.MinValue;
List <site_key> point_sites = new List <site_key>();
List <site_key> segment_sites = new List <site_key>();
for (short i = 0; i < input_featureClasses.Length; i++)
{
layer l = input_featureClasses[i];
int featcount = l.featureclass.FeatureCount(l.qFilter);
stepPro.MinRange = 0;
stepPro.MaxRange = featcount;
stepPro.StepValue = (1);
stepPro.Message = "Reading features";
stepPro.Position = 0;
stepPro.Show();
IFeatureCursor cursor = null;
IFeature row = null;
try
{
cursor = l.featureclass.Search(l.qFilter, false);
while ((row = cursor.NextFeature()) != null)
{
stepPro.Step();
IPoint point = row.Shape as IPoint;
if (point != null)
{
double X = point.X;
double Y = point.Y;
minX = Math.Min(minX, X);
maxX = Math.Max(maxX, X);
minY = Math.Min(minY, Y);
maxY = Math.Max(maxY, Y);
bv.AddPoint(point.X, point.Y);
point_sites.Add(new site_key(i, row.OID));
}
IMultipoint multipoint = row.Shape as IMultipoint;
if (multipoint != null)
{
IPointCollection pointCollection = (IPointCollection)multipoint;
IEnumVertex vertices = pointCollection.EnumVertices;
IPoint vertex = null; int part, index;
vertices.Next(out vertex, out part, out index);
minX = Math.Min(minX, multipoint.Envelope.XMin);
maxX = Math.Max(maxX, multipoint.Envelope.XMax);
minY = Math.Min(minY, multipoint.Envelope.YMin);
maxY = Math.Max(maxY, multipoint.Envelope.YMax);
while (vertex != null)
{
bv.AddPoint(vertex.X, vertex.Y);
point_sites.Add(new site_key(i, row.OID));
vertices.Next(out vertex, out part, out index);
}
}
IPolyline polyline = row.Shape as IPolyline;
if (polyline != null)
{
double fromX = polyline.FromPoint.X;
double fromY = polyline.FromPoint.Y;
double toX = polyline.ToPoint.X;
double toY = polyline.ToPoint.Y;
if (toX < fromX)
{
minX = Math.Min(minX, toX);
maxX = Math.Max(maxX, fromX);
}
else
{
minX = Math.Min(minX, fromX);
maxX = Math.Max(maxX, toX);
}
if (toY < fromY)
{
minY = Math.Min(minY, toY);
maxY = Math.Max(maxY, fromY);
}
else
{
minY = Math.Min(minY, fromY);
maxY = Math.Max(maxY, toY);
}
bv.AddSegment(
polyline.FromPoint.X, polyline.FromPoint.Y,
polyline.ToPoint.X, polyline.ToPoint.Y
);
segment_sites.Add(new site_key(i, row.OID));
}
Marshal.ReleaseComObject(row);
}
}
finally
{
if (row != null)
{
Marshal.ReleaseComObject(row);
}
if (cursor != null)
{
Marshal.ReleaseComObject(cursor);
}
stepPro.Hide();
}
}
message.AddMessage(String.Format("{0}, {1} -> {2}, {3}", minX, minY, maxX, maxY));
int width = Math.Max((int)((maxX - minX) * 0.1), 1);
int height = Math.Max((int)((maxY - minY) * 0.1), 1);
maxX = maxX + width;
minX = minX - width;
maxY = maxY + height;
minY = minY - height;
message.AddMessage(String.Format("{0}, {1} -> {2}, {3}", minX, minY, maxX, maxY));
bv.AddSegment(minX, minY, maxX, minY);
segment_sites.Add(new site_key(-1, -1));
bv.AddSegment(maxX, minY, maxX, maxY);
segment_sites.Add(new site_key(-1, -1));
bv.AddSegment(maxX, maxY, minX, maxY);
segment_sites.Add(new site_key(-1, -1));
bv.AddSegment(minX, maxY, minX, minY);
segment_sites.Add(new site_key(-1, -1));
stepPro.Message = "Solve Voronoi";
stepPro.MaxRange = 0;
stepPro.MaxRange = 0;
stepPro.Show();
bv.Construct();
stepPro.Hide();
int featureSourceIndx = outputFeatureClass.Fields.FindField(FEATURE_SOURCE_FIELD_NAME);
int featureIDIndx = outputFeatureClass.Fields.FindField(FEATURE_ID_FIELD_NAME);
IFeatureCursor inserts = null;
IFeatureBuffer buffer = null;
try
{
object missing = Type.Missing;
ISpatialReference spatialReference = ((IGeoDataset)outputFeatureClass).SpatialReference;
inserts = outputFeatureClass.Insert(false);
buffer = outputFeatureClass.CreateFeatureBuffer();
List <Cell> cells = bv.Cells;
message.AddMessage(string.Format("{0} cells calculated", cells.Count));
List <Edge> edges = bv.Edges;
message.AddMessage(string.Format("{0} edges calculated", edges.Count));
List <Vertex> vertices = bv.Vertices;
message.AddMessage(string.Format("{0} vertexes calculated", vertices.Count));
stepPro.Message = "Write cells";
stepPro.MaxRange = 0;
stepPro.MaxRange = cells.Count;
stepPro.Show();
for (int cellIndex = 0; cellIndex < cells.Count; cellIndex++)
{
try
{
if (cellIndex % 5000 == 0)
{
message.AddMessage(String.Format("{0}. {1} cells processed.", DateTime.Now, cellIndex));
}
Cell cell = cells[cellIndex];
int currentSite = cell.Site;
IGeometryCollection geometryCollection = new GeometryBagClass()
{
SpatialReference = spatialReference
};
//ignores any sliver cells
if (cell.IsOpen || cell.EdgesIndex.Count < 3)
{
continue;
}
ISegmentCollection segmentCollection = createSegments(cell, bv, method, spatialReference);
if (((IArea)segmentCollection).Area <= 0)
{
message.AddMessage("A invalid geometry has been detected, try reversing the orientation.");
ISegmentCollection reversed_segmentCollection = new PolygonClass()
{
SpatialReference = spatialReference
};
for (int i = segmentCollection.SegmentCount - 1; i >= 0; i--)
{
ISegment segment = (ISegment)segmentCollection.get_Segment(i);
segment.ReverseOrientation();
reversed_segmentCollection.AddSegment(segment);
}
segmentCollection = reversed_segmentCollection;
}
((IPolygon)segmentCollection).SpatialReference = spatialReference;
if (((IArea)segmentCollection).Area <= 0)
{
message.AddWarning("An empty shell has been created");
for (int i = 0; i < segmentCollection.SegmentCount; i++)
{
ISegment segment = (ISegment)segmentCollection.get_Segment(i);
message.AddMessage(String.Format("From {0}, {1} To {2},{3}",
segment.FromPoint.X, segment.FromPoint.Y,
segment.ToPoint.X, segment.ToPoint.Y));
}
}
//set attributes
site_key sk = (currentSite >= point_sites.Count) ? segment_sites[currentSite - point_sites.Count] : point_sites[currentSite];
if (!sk.isEmpty)
{
buffer.set_Value(featureSourceIndx, input_featureClasses[sk.featureClassIndex].featureclass.AliasName);
buffer.set_Value(featureIDIndx, sk.objectID);
}
else
{
buffer.set_Value(featureSourceIndx, DBNull.Value);
buffer.set_Value(featureIDIndx, DBNull.Value);
}
IPolygon voronoiPolygon = (IPolygon)segmentCollection;
buffer.Shape = (IPolygon)voronoiPolygon;
inserts.InsertFeature(buffer);
}
catch (Exception e)
{
message.AddWarning("Failed to create a cell");
}
}
}
finally
{
if (buffer != null)
{
Marshal.ReleaseComObject(buffer);
}
if (inserts != null)
{
Marshal.ReleaseComObject(inserts);
}
}
GPHelperFunctions.createSpatialIndex(outputFeatureClass);
}
catch (Exception exx)
{
message.AddError(2, exx.Message);
message.AddMessage(exx.ToString());
}
finally
{
if (outputFeatureClass != null)
{
Marshal.ReleaseComObject(outputFeatureClass);
}
((IProgressor)trackcancel).Hide();
}
}
// Execute: Execute the function given the array of the parameters
public void Execute(IArray paramvalues, ITrackCancel trackcancel, IGPEnvironmentManager envMgr, IGPMessages message)
{
// Get the first Input Parameter
IGPParameter parameter = (IGPParameter)paramvalues.get_Element(0);
// UnPackGPValue. This ensures you get the value either form the dataelement or GpVariable (ModelBuilder)
IGPValue parameterValue = m_GPUtilities.UnpackGPValue(parameter);
// Open Input Dataset
IFeatureClass inputFeatureClass;
IQueryFilter qf;
m_GPUtilities.DecodeFeatureLayer(parameterValue, out inputFeatureClass, out qf);
if (inputFeatureClass == null)
{
message.AddError(2, "Could not open input dataset.");
return;
}
// Add the field if it does not exist.
int indexA;
parameter = (IGPParameter)paramvalues.get_Element(1);
string field = parameter.Value.GetAsText();
indexA = inputFeatureClass.FindField(field);
if (indexA < 0)
{
IFieldEdit fieldEdit = new FieldClass();
fieldEdit.Type_2 = esriFieldType.esriFieldTypeDouble;
fieldEdit.Name_2 = field;
inputFeatureClass.AddField(fieldEdit);
}
int featcount = inputFeatureClass.FeatureCount(null);
//Set the properties of the Step Progressor
IStepProgressor pStepPro = (IStepProgressor)trackcancel;
pStepPro.MinRange = 0;
pStepPro.MaxRange = featcount;
pStepPro.StepValue = (1);
pStepPro.Message = "Calculating Area";
pStepPro.Position = 0;
pStepPro.Show();
// Create an Update Cursor
indexA = inputFeatureClass.FindField(field);
IFeatureCursor updateCursor = inputFeatureClass.Update(qf, false);
IFeature updateFeature = updateCursor.NextFeature();
IGeometry geometry;
IArea area;
double dArea;
while (updateFeature != null)
{
geometry = updateFeature.Shape;
area = (IArea)geometry;
dArea = area.Area;
updateFeature.set_Value(indexA, dArea);
updateCursor.UpdateFeature(updateFeature);
updateFeature.Store();
updateFeature = updateCursor.NextFeature();
pStepPro.Step();
}
pStepPro.Hide();
// Release the update cursor to remove the lock on the input data.
System.Runtime.InteropServices.Marshal.ReleaseComObject(updateCursor);
}
public void Draw(IStepProgressor stepProgressor,
IActiveView activeView,
FileCache fileCache,
ITrackCancel trackCancel,
ISpatialReference layerSpatialReference,
ref string currentLevel, ITileSource tileSource, IDisplay display)
{
_tileSource = tileSource;
_trackCancel = trackCancel;
_layerSpatialReference = layerSpatialReference;
_currentLevel = currentLevel;
_fileCache = fileCache;
_tileProvider = (WebTileProvider)tileSource.Provider;
var spatialReferences = new SpatialReferences();
_dataSpatialReference = spatialReferences.GetSpatialReference(tileSource.Schema.Srs);
//var fetcher = new FileFetcher<Image>(osmTileSource, fileCache);
_display = display;
if (!activeView.Extent.IsEmpty)
{
_tiles = GetTiles(activeView);
currentLevel = _currentLevel;
Logger.Debug("Number of tiles to draw: " + _tiles.Count);
if (_tiles.ToList().Count > 0)
{
stepProgressor.MinRange = 0;
stepProgressor.MaxRange = _tiles.ToList().Count;
stepProgressor.Show();
var downloadFinished = new ManualResetEvent(false);
// this is a hack, otherwise we get error message...
// "WaitAll for multiple handles on a STA thread is not supported. (mscorlib)"
// so lets start a thread first...
var t = new Thread(DownloadTiles);
t.Start(downloadFinished);
// wait till finished
downloadFinished.WaitOne();
// 3. Now draw all tiles...
if (layerSpatialReference != null && _dataSpatialReference != null)
{
_needReproject = (layerSpatialReference.FactoryCode != _dataSpatialReference.FactoryCode);
}
Logger.Debug("Need reproject tile: " + _needReproject.ToString());
foreach (var tile in _tiles)
{
stepProgressor.Step();
if (tile != null)
{
var name = _fileCache.GetFileName(tile.Index);
if (!File.Exists(name))
{
continue;
}
DrawRaster(name);
}
}
stepProgressor.Hide();
}
else
{
Logger.Debug("No tiles to retrieve or draw");
}
Logger.Debug("End drawing tiles: " + _tiles.ToList().Count);
}
}
public void Execute(ESRI.ArcGIS.esriSystem.IArray paramvalues, ESRI.ArcGIS.esriSystem.ITrackCancel TrackCancel, ESRI.ArcGIS.Geoprocessing.IGPEnvironmentManager envMgr, ESRI.ArcGIS.Geodatabase.IGPMessages message)
{
try
{
IGPUtilities3 execute_Utilities = new GPUtilitiesClass();
OSMUtility osmUtility = new OSMUtility();
if (TrackCancel == null)
{
TrackCancel = new CancelTrackerClass();
}
IGPParameter inputOSMParameter = paramvalues.get_Element(in_osmFeatureClassNumber) as IGPParameter;
IGPValue inputOSMGPValue = execute_Utilities.UnpackGPValue(inputOSMParameter);
IGPParameter tagFieldsParameter = paramvalues.get_Element(in_attributeSelectorNumber) as IGPParameter;
IGPMultiValue tagCollectionGPValue = execute_Utilities.UnpackGPValue(tagFieldsParameter) as IGPMultiValue;
if (tagCollectionGPValue == null)
{
message.AddError(120048, string.Format(resourceManager.GetString("GPTools_NullPointerParameterType"), tagFieldsParameter.Name));
return;
}
IFeatureClass osmFeatureClass = null;
ITable osmInputTable = null;
IQueryFilter osmQueryFilter = null;
try
{
execute_Utilities.DecodeFeatureLayer(inputOSMGPValue, out osmFeatureClass, out osmQueryFilter);
osmInputTable = osmFeatureClass as ITable;
}
catch { }
try
{
if (osmInputTable == null)
{
execute_Utilities.DecodeTableView(inputOSMGPValue, out osmInputTable, out osmQueryFilter);
}
}
catch { }
if (osmInputTable == null)
{
return;
}
// find the field that holds tag binary/xml field
int osmTagCollectionFieldIndex = osmInputTable.FindField("osmTags");
// if the Field doesn't exist - wasn't found (index = -1) get out
if (osmTagCollectionFieldIndex == -1)
{
message.AddError(120005, resourceManager.GetString("GPTools_OSMGPAttributeSelector_notagfieldfound"));
return;
}
// set up the progress indicator
IStepProgressor stepProgressor = TrackCancel as IStepProgressor;
if (stepProgressor != null)
{
int featureCount = osmInputTable.RowCount(osmQueryFilter);
stepProgressor.MinRange = 0;
stepProgressor.MaxRange = featureCount;
stepProgressor.Position = 0;
stepProgressor.Message = resourceManager.GetString("GPTools_OSMGPCombineAttributes_progressMessage");
stepProgressor.StepValue = 1;
stepProgressor.Show();
}
String illegalCharacters = String.Empty;
ISQLSyntax sqlSyntax = ((IDataset)osmInputTable).Workspace as ISQLSyntax;
if (sqlSyntax != null)
{
illegalCharacters = sqlSyntax.GetInvalidCharacters();
}
// establish the list of field indexes only once
Dictionary <string, int> fieldIndexes = new Dictionary <string, int>();
for (int selectedGPValueIndex = 0; selectedGPValueIndex < tagCollectionGPValue.Count; selectedGPValueIndex++)
{
// find the field index
int fieldIndex = osmInputTable.FindField(tagCollectionGPValue.get_Value(selectedGPValueIndex).GetAsText());
if (fieldIndex != -1)
{
string tagKeyName = osmInputTable.Fields.get_Field(fieldIndex).Name;
tagKeyName = OSMToolHelper.convert2OSMKey(tagKeyName, illegalCharacters);
fieldIndexes.Add(tagKeyName, fieldIndex);
}
}
ICursor updateCursor = null;
IRow osmRow = null;
using (ComReleaser comReleaser = new ComReleaser())
{
updateCursor = osmInputTable.Update(osmQueryFilter, false);
comReleaser.ManageLifetime(updateCursor);
osmRow = updateCursor.NextRow();
int progressIndex = 0;
while (osmRow != null)
{
// get the current tag collection from the row
ESRI.ArcGIS.OSM.OSMClassExtension.tag[] osmTags = osmUtility.retrieveOSMTags(osmRow, osmTagCollectionFieldIndex, ((IDataset)osmInputTable).Workspace);
Dictionary <string, string> tagsDictionary = new Dictionary <string, string>();
for (int tagIndex = 0; tagIndex < osmTags.Length; tagIndex++)
{
tagsDictionary.Add(osmTags[tagIndex].k, osmTags[tagIndex].v);
}
// look if the tag needs to be updated or added
bool tagsUpdated = false;
foreach (var fieldItem in fieldIndexes)
{
object fldValue = osmRow.get_Value(fieldItem.Value);
if (fldValue != System.DBNull.Value)
{
if (tagsDictionary.ContainsKey(fieldItem.Key))
{
if (!tagsDictionary[fieldItem.Key].Equals(fldValue))
{
tagsDictionary[fieldItem.Key] = Convert.ToString(fldValue);
tagsUpdated = true;
}
}
else
{
tagsDictionary.Add(fieldItem.Key, Convert.ToString(fldValue));
tagsUpdated = true;
}
}
else
{
if (tagsDictionary.ContainsKey(fieldItem.Key))
{
tagsDictionary.Remove(fieldItem.Key);
tagsUpdated = true;
}
}
}
if (tagsUpdated)
{
List <ESRI.ArcGIS.OSM.OSMClassExtension.tag> updatedTags = new List <ESRI.ArcGIS.OSM.OSMClassExtension.tag>();
foreach (var tagItem in tagsDictionary)
{
ESRI.ArcGIS.OSM.OSMClassExtension.tag newTag = new ESRI.ArcGIS.OSM.OSMClassExtension.tag();
newTag.k = tagItem.Key;
newTag.v = tagItem.Value;
updatedTags.Add(newTag);
}
// insert the tags back into the collection field
if (updatedTags.Count != 0)
{
osmUtility.insertOSMTags(osmTagCollectionFieldIndex, osmRow, updatedTags.ToArray(), ((IDataset)osmInputTable).Workspace);
updateCursor.UpdateRow(osmRow);
}
}
progressIndex++;
if (stepProgressor != null)
{
stepProgressor.Position = progressIndex;
}
if (osmRow != null)
{
Marshal.ReleaseComObject(osmRow);
}
osmRow = updateCursor.NextRow();
}
if (stepProgressor != null)
{
stepProgressor.Hide();
}
}
}
catch (Exception ex)
{
message.AddError(120007, ex.Message);
}
}
public void Execute(ESRI.ArcGIS.esriSystem.IArray paramvalues, ESRI.ArcGIS.esriSystem.ITrackCancel TrackCancel, ESRI.ArcGIS.Geoprocessing.IGPEnvironmentManager envMgr, ESRI.ArcGIS.Geodatabase.IGPMessages message)
{
try
{
IGPUtilities3 gpUtilities3 = new GPUtilitiesClass() as IGPUtilities3;
if (TrackCancel == null)
{
TrackCancel = new CancelTrackerClass();
}
// decode in the input layers
IGPParameter in_SourceFeatureClassParameter = paramvalues.get_Element(in_sourceFeatureClassNumber) as IGPParameter;
IGPValue in_SourceFeatureGPValue = gpUtilities3.UnpackGPValue(in_SourceFeatureClassParameter) as IGPValue;
IFeatureClass sourceFeatureClass = null;
IQueryFilter queryFilter = null;
gpUtilities3.DecodeFeatureLayer((IGPValue)in_SourceFeatureGPValue, out sourceFeatureClass, out queryFilter);
if (sourceFeatureClass == null)
{
message.AddError(120027, resourceManager.GetString("GPTools_OSMGPFeatureComparison_source_nullpointer"));
return;
}
IGPParameter in_NumberOfIntersectionsFieldParameter = paramvalues.get_Element(in_sourceIntersectionFieldNumber) as IGPParameter;
IGPValue in_NumberOfIntersectionsFieldGPValue = gpUtilities3.UnpackGPValue(in_NumberOfIntersectionsFieldParameter) as IGPValue;
IGPParameter in_SourceRefIDFieldParameter = paramvalues.get_Element(in_sourceRefIDsFieldNumber) as IGPParameter;
IGPValue in_SourceRefIDFieldGPValue = gpUtilities3.UnpackGPValue(in_SourceRefIDFieldParameter) as IGPValue;
IGPParameter in_MatchFeatureClassParameter = paramvalues.get_Element(in_MatchFeatureClassNumber) as IGPParameter;
IGPValue in_MatchFeatureGPValue = gpUtilities3.UnpackGPValue(in_MatchFeatureClassParameter) as IGPValue;
IFeatureClass matchFeatureClass = null;
IQueryFilter matchQueryFilter = null;
gpUtilities3.DecodeFeatureLayer((IGPValue)in_MatchFeatureGPValue, out matchFeatureClass, out matchQueryFilter);
if (matchFeatureClass == null)
{
message.AddError(120028, resourceManager.GetString("GPTools_OSMGPFeatureComparison_match_nullpointer"));
return;
}
if (queryFilter != null)
{
if (((IGeoDataset)matchFeatureClass).SpatialReference != null)
{
queryFilter.set_OutputSpatialReference(sourceFeatureClass.ShapeFieldName, ((IGeoDataset)matchFeatureClass).SpatialReference);
}
}
IWorkspace sourceWorkspace = ((IDataset)sourceFeatureClass).Workspace;
IWorkspaceEdit sourceWorkspaceEdit = sourceWorkspace as IWorkspaceEdit;
if (sourceWorkspace.Type == esriWorkspaceType.esriRemoteDatabaseWorkspace)
{
sourceWorkspaceEdit = sourceWorkspace as IWorkspaceEdit;
sourceWorkspaceEdit.StartEditing(false);
sourceWorkspaceEdit.StartEditOperation();
}
// get an overall feature count as that determines the progress indicator
int featureCount = ((ITable)sourceFeatureClass).RowCount(queryFilter);
// set up the progress indicator
IStepProgressor stepProgressor = TrackCancel as IStepProgressor;
if (stepProgressor != null)
{
stepProgressor.MinRange = 0;
stepProgressor.MaxRange = featureCount;
stepProgressor.Position = 0;
stepProgressor.Message = resourceManager.GetString("GPTools_OSMGPFeatureComparison_progressMessage");
stepProgressor.StepValue = 1;
stepProgressor.Show();
}
int numberOfIntersectionsFieldIndex = sourceFeatureClass.FindField(in_NumberOfIntersectionsFieldGPValue.GetAsText());
int sourceRefIDFieldIndex = sourceFeatureClass.FindField(in_SourceRefIDFieldGPValue.GetAsText());
ISpatialFilter matchFCSpatialFilter = new SpatialFilter();
matchFCSpatialFilter.GeometryField = matchFeatureClass.ShapeFieldName;
matchFCSpatialFilter.SpatialRel = esriSpatialRelEnum.esriSpatialRelIntersects;
matchFCSpatialFilter.WhereClause = matchQueryFilter.WhereClause;
using (ComReleaser comReleaser = new ComReleaser())
{
IFeatureCursor sourceFeatureCursor = sourceFeatureClass.Search(queryFilter, false);
comReleaser.ManageLifetime(sourceFeatureCursor);
IFeature sourceFeature = null;
while ((sourceFeature = sourceFeatureCursor.NextFeature()) != null)
{
int numberOfIntersections = 0;
string intersectedFeatures = String.Empty;
IPolyline sourceLine = sourceFeature.Shape as IPolyline;
matchFCSpatialFilter.Geometry = sourceLine;
using (ComReleaser innerReleaser = new ComReleaser())
{
IFeatureCursor matchFeatureCursor = matchFeatureClass.Search(matchFCSpatialFilter, false);
innerReleaser.ManageLifetime(matchFeatureCursor);
IFeature matchFeature = null;
while ((matchFeature = matchFeatureCursor.NextFeature()) != null)
{
IPointCollection intersectionPointCollection = null;
try
{
ITopologicalOperator topoOperator = sourceLine as ITopologicalOperator;
if (topoOperator.IsSimple == false)
{
((ITopologicalOperator2)topoOperator).IsKnownSimple_2 = false;
topoOperator.Simplify();
}
IPolyline matchPolyline = matchFeature.Shape as IPolyline;
if (queryFilter != null)
{
matchPolyline.Project(sourceLine.SpatialReference);
}
if (((ITopologicalOperator)matchPolyline).IsSimple == false)
{
((ITopologicalOperator2)matchPolyline).IsKnownSimple_2 = false;
((ITopologicalOperator)matchPolyline).Simplify();
}
intersectionPointCollection = topoOperator.Intersect(matchPolyline, esriGeometryDimension.esriGeometry0Dimension) as IPointCollection;
}
catch (Exception ex)
{
message.AddWarning(ex.Message);
continue;
}
if (intersectionPointCollection != null && intersectionPointCollection.PointCount > 0)
{
numberOfIntersections = numberOfIntersections + intersectionPointCollection.PointCount;
if (String.IsNullOrEmpty(intersectedFeatures))
{
intersectedFeatures = matchFeature.OID.ToString();
}
else
{
intersectedFeatures = intersectedFeatures + "," + matchFeature.OID.ToString();
}
}
}
if (numberOfIntersectionsFieldIndex > -1)
{
sourceFeature.set_Value(numberOfIntersectionsFieldIndex, numberOfIntersections);
}
if (sourceRefIDFieldIndex > -1)
{
if (intersectedFeatures.Length > sourceFeatureClass.Fields.get_Field(sourceRefIDFieldIndex).Length)
{
sourceFeature.set_Value(sourceRefIDFieldIndex, intersectedFeatures.Substring(0, sourceFeatureClass.Fields.get_Field(sourceRefIDFieldIndex).Length));
}
else
{
sourceFeature.set_Value(sourceRefIDFieldIndex, intersectedFeatures);
}
}
}
try
{
sourceFeature.Store();
}
catch (Exception ex)
{
message.AddWarning(ex.Message);
}
if (stepProgressor != null)
{
// update the progress UI
stepProgressor.Step();
}
// check for user cancellation
if (TrackCancel.Continue() == false)
{
return;
}
}
}
if (sourceWorkspaceEdit != null)
{
sourceWorkspaceEdit.StopEditOperation();
sourceWorkspaceEdit.StopEditing(true);
}
if (stepProgressor != null)
{
stepProgressor.Hide();
}
}
catch (Exception ex)
{
message.AddAbort(ex.Message);
}
}
public void Draw(IStepProgressor stepProgressor,
IActiveView activeView,
FileCache fileCache,
ITrackCancel trackCancel,
ISpatialReference layerSpatialReference,
ref string currentLevel, ITileSource tileSource, IDisplay display)
{
_tileSource = tileSource;
_trackCancel = trackCancel;
_layerSpatialReference = layerSpatialReference;
_currentLevel = currentLevel;
_fileCache = fileCache;
_tileProvider = (WebTileProvider)tileSource.Provider;
var spatialReferences = new SpatialReferences();
_dataSpatialReference = spatialReferences.GetSpatialReference(tileSource.Schema.Srs);
//var fetcher = new FileFetcher<Image>(osmTileSource, fileCache);
_display = display;
if (!activeView.Extent.IsEmpty)
{
_tiles = GetTiles(activeView);
currentLevel = _currentLevel;
Logger.Debug("Number of tiles to draw: " + _tiles.Count);
if (_tiles.ToList().Count > 0)
{
stepProgressor.MinRange = 0;
stepProgressor.MaxRange = _tiles.ToList().Count;
stepProgressor.Show();
var downloadFinished = new ManualResetEvent(false);
// this is a hack, otherwise we get error message...
// "WaitAll for multiple handles on a STA thread is not supported. (mscorlib)"
// so lets start a thread first...
var t = new Thread(DownloadTiles);
t.Start(downloadFinished);
// wait till finished
downloadFinished.WaitOne();
// 3. Now draw all tiles...
if (layerSpatialReference != null && _dataSpatialReference!=null)
{
_needReproject = (layerSpatialReference.FactoryCode != _dataSpatialReference.FactoryCode);
}
Logger.Debug("Need reproject tile: " + _needReproject.ToString());
foreach (var tile in _tiles)
{
stepProgressor.Step();
if (tile != null)
{
var name = _fileCache.GetFileName(tile.Index);
if (!File.Exists(name)) continue;
DrawRaster(name);
}
}
stepProgressor.Hide();
}
else
{
Logger.Debug("No tiles to retrieve or draw");
}
Logger.Debug("End drawing tiles: " + _tiles.ToList().Count);
}
}
/// <summary>
/// Ejecuta el modelo de amenazas de incendios
/// </summary>
/// <param name="sTablaPrecipPromedio">Tabla Precipitacion Promedio</param>
/// <param name="sConsultaTablaPrecipPromedio">SQL para la table precipitacion promedio</param>
/// <param name="sPrefijo">Prefijo para los nombres de las capas</param>
/// <param name="sTablaTempPromedio">Nombre de la tabla temporal de promedios</param>
/// <param name="sConsultaTablaTempPromedio">SQL para la tabla temporal de promedios</param>
/// <param name="bUsarSatelite">Indica si se han de utilizar las imagenes de satelita</param>
/// <param name="bMostrarIntermedios">Indica si se mostraran los resultados intermedios en el mapa activo</param>
private void GenerarModelo(string sTablaPrecipPromedio, string sConsultaTablaPrecipPromedio, string sPrefijo,
string sTablaTempPromedio, string sConsultaTablaTempPromedio, bool bUsarSatelite,
bool bMostrarIntermedios, String[] sRastersPrecipitacion)
{
String sPath = System.IO.Path.GetDirectoryName(System.Reflection.Assembly.GetExecutingAssembly().GetName().CodeBase);
String tempDir = "";
sPath = sPath.Replace("file:\\", "");
SIGPIParametros parametros = new SIGPIParametros();
try
{
XmlSerializer serializer = new XmlSerializer(typeof(SIGPIParametros));
System.IO.StreamReader r = new System.IO.StreamReader(sPath + "\\parameters\\parametros.xml");
parametros = (SIGPIParametros)serializer.Deserialize(r);
r.Close();
serializer = null;
r = null;
}
catch (Exception ex)
{
MessageBox.Show(ex.Message, "SIGPI 2013");
return;
}
SIGPIProcesamiento procesamiento = new SIGPIProcesamiento(parametros);
SIGPICls sigpi = new SIGPICls();
SIGPIDao sigpiDao = new SIGPIDao();
sigpiDao.ConnectLocalDB(parametros.RutaBD);
sigpiDao.UltimaFechaIncorporacion(sigpi);
sigpi.Parametros = parametros;
OleDbCommand command = sigpiDao.LocalDBConnection.CreateCommand();
OleDbParameter param = command.CreateParameter();
OleDbParameter param1 = command.CreateParameter();
param.ParameterName = "fecProce";
param.Value = sigpi.FechaProcesamiento;
command.CommandText = "UPDATE FECHAS_PROCESO SET FEC_PROCE = @fecProce";
command.Parameters.Add(param);
string sSQL = ""; // "UPDATE FECHAS_PROCESO SET FEC_PROCE = #" + sigpi.FechaProcesamiento.ToString("MM/dd/yyyy") + "#";
try
{
sigpiDao.EjecutarSentenciaSinQuery(command);
}
catch (Exception ex)
{
MessageBox.Show("No se pudo actualizar la fecha de incorporacion.\n" + ex.Message);
}
IProgressDialogFactory pProDiaFac = new ProgressDialogFactoryClass();
IStepProgressor pStepPro = pProDiaFac.Create(null, 0);
pStepPro.MinRange = 1;
pStepPro.MaxRange = 5;
pStepPro.StepValue = 1;
IProgressDialog2 pProDia = (IProgressDialog2)pStepPro;
pProDia.Animation = esriProgressAnimationTypes.esriProgressGlobe;
pProDia.Title = "Generar Modelo Amenazas";
pProDia.ShowDialog();
pStepPro.Step();
pStepPro.Message = "Generando Grids Meteorologicos...";
IFeatureClass pFeatureClass;
IWorkspaceFactory pShpWorkspaceFactory = new ShapefileWorkspaceFactoryClass();
IWorkspaceFactory pFileGDBWorkspaceFactory = new FileGDBWorkspaceFactoryClass();
string sFormatTmp = "gdb_" + sigpi.FechaProcesamiento.ToString("yyyyMMdd") + "_" +
DateTime.Now.ToString("HHmmss");
tempDir = sigpi.Parametros.TempDir;
if (tempDir == null || tempDir.Trim().Equals(""))
{
tempDir = System.IO.Path.GetTempPath();
}
string sRutaFileGDB = System.IO.Path.GetTempPath() + sFormatTmp + ".gdb";
if (System.IO.Directory.Exists(sRutaFileGDB))
{
try
{
System.IO.Directory.Delete(sRutaFileGDB);
}
catch (Exception ex)
{
MessageBox.Show("No se pudo borrar la File Geodatabase Temporal: " +
sRutaFileGDB +
" Intente Borrarla Manualmente. " + ex.Message);
return;
}
}
Geoprocessor gp = new Geoprocessor();
IWorkspaceName pWSName;
string sCapaResultado = "Amenaza_" + sigpi.FechaProcesamiento.ToString("yyyy_MM_dd");
string sRutaGdbResultados = parametros.RutaSIGPI + parametros.Resultado + "\\" +
sigpi.FechaProcesamiento.Year.ToString() + "-" +
sigpi.FechaProcesamiento.ToString("MM") + "-Modelos.gdb";
if (System.IO.Directory.Exists(sRutaGdbResultados))
{
GPUtilitiesClass gpUtilClass = new GPUtilitiesClass();
try
{
Delete del = new Delete();
del.in_data = sRutaGdbResultados + "\\" + sCapaResultado;
gp.Execute(del, null);
}
catch (Exception)
{
}
}
else
{
try
{
pWSName = pFileGDBWorkspaceFactory.Create(parametros.RutaSIGPI + parametros.Resultado + "\\",
sigpi.FechaProcesamiento.Year.ToString() + "-" +
sigpi.FechaProcesamiento.ToString("MM") + "-Modelos.gdb", null, 0);
}
catch (Exception ex)
{
MessageBox.Show("No se pudo crear la Geodatabase de resultados: \n" + sRutaGdbResultados);
pStepPro.Hide();
}
}
pWSName = pFileGDBWorkspaceFactory.Create(System.IO.Path.GetTempPath(), sFormatTmp, null, 0);
ESRI.ArcGIS.esriSystem.IName name = (ESRI.ArcGIS.esriSystem.IName)pWSName;
IFeatureWorkspace pWorkspaceTemp;
try
{
pWorkspaceTemp = (IFeatureWorkspace)name.Open();
}
catch (Exception ex)
{
MessageBox.Show(ex.Message);
return;
}
IWorkspaceFactory pWF = new AccessWorkspaceFactoryClass();
IFeatureWorkspace pWSMask = (IFeatureWorkspace)pWF.OpenFromFile(parametros.RutaGBD, 0);
IGeoDataset pFCMask = (IGeoDataset)pWSMask.OpenFeatureClass(parametros.Mascara);
ISpatialReference pSpaRef = pFCMask.SpatialReference;
IEnvelope pEnv = pFCMask.Extent;
string sNombreTabla = "TMPPR_";
DateTime fechaProcesamiento = sigpi.FechaProcesamiento;
fechaProcesamiento = fechaProcesamiento.Date;
for (int i = 0; i < 10; i++)
{
try
{
sigpiDao.EjecutarSentenciaSinQuery("DROP TABLE " + sNombreTabla + i.ToString());
}
catch (Exception ex)
{
System.Console.WriteLine(ex.Message);
}
// "IIf([LECTUS_PRECI]![LECTURA]<=2,5,IIf([LECTUS_PRECI]![LECTURA]<=8 And [LECTUS_PRECI]![LECTURA]>2,4,IIf([LECTUS_PRECI]![LECTURA]<=14 And [LECTUS_PRECI]![LECTURA]>8,3,IIf([LECTUS_PRECI]![LECTURA]<=24 And [LECTUS_PRECI]![LECTURA]>14,2,IIf([LECTUS_PRECI]![LECTURA]>24,1,0))))) AS LECTURAS " +
//sSQL = "SELECT CODIGO, FECHA, X, Y, LECTURA AS RASTERVALU " +
// "INTO " + sNombreTabla + i.ToString() + " " +
// "FROM LECTUS_PRECI " +
// "WHERE (((FECHA)=#" + sigpi.FechaProcesamiento.AddDays(-i).ToString("MM/dd/yyyy") + "#))";
command = sigpiDao.LocalDBConnection.CreateCommand();
command.CommandText = "SELECT CODIGO, FECHA, X, Y, LECTURA AS RASTERVALU " +
"INTO " + sNombreTabla + i.ToString() + " " +
"FROM LECTUS_PRECI " +
"WHERE (((FECHA) >=@fecha) and ((FECHA) <@fecha1))";
param = command.CreateParameter();
param.ParameterName = "fecha";
param.Value = sigpi.FechaProcesamiento.AddDays(-i);
command.Parameters.Add(param);
param1 = command.CreateParameter();
param1.ParameterName = "fecha1";
param1.Value = sigpi.FechaProcesamiento.AddDays(-i + 1);
command.Parameters.Add(param1);
try
{
sigpiDao.EjecutarSentenciaSinQuery(command);
}
catch (Exception ex)
{
MessageBox.Show("Error generando las tablas temporales de precipitaciones. Descripcion: \n" + ex.Message);
//pProDia.HideDialog();
return;
}
}
try
{
sigpiDao.EjecutarSentenciaSinQuery("DROP TABLE TEMPERATURA_PROMEDIO");
}
catch (Exception ex)
{
}
//"IIf(Avg(LECTUS_TEMPE.LECTURA)<=6,1,IIf(Avg(LECTUS_TEMPE.LECTURA) <=12 And Avg(LECTUS_TEMPE.LECTURA)>6,2," +
//"IIf(Avg(LECTUS_TEMPE.LECTURA)<=18 And Avg(LECTUS_TEMPE.LECTURA)>12,3,IIf(Avg(LECTUS_TEMPE.LECTURA)<=24 And " +
//"Avg(LECTUS_TEMPE.LECTURA)>12,4,IIf(Avg(LECTUS_TEMPE.LECTURA)>24,5,0))))) AS LECTURAS, " +
//sSQL = "SELECT CODIGO, Max(LECTUS_TEMPE.FECHA) AS FECHA, 10 AS Num_Dias, X, Y, AVG(LECTURA) AS RASTERVALU " +
// "INTO TEMPERATURA_PROMEDIO " +
// "FROM LECTUS_TEMPE " +
// "WHERE (((FECHA)>=#" + sigpi.FechaProcesamiento.AddDays(-10).ToString("MM/dd/yyyy") + "# " +
// "And (FECHA)<=#" + sigpi.FechaProcesamiento.ToString("MM/dd/yyyy") + "#)) " +
// "GROUP BY CODIGO, X, Y";
command = sigpiDao.LocalDBConnection.CreateCommand();
command.CommandText = "SELECT CODIGO, Max(LECTUS_TEMPE.FECHA) AS FECHA, 10 AS Num_Dias, X, Y, AVG(LECTURA) AS RASTERVALU " +
"INTO TEMPERATURA_PROMEDIO " +
"FROM LECTUS_TEMPE " +
"WHERE (((FECHA)>= @fecha1 " +
"And (FECHA)<= @fecha)) " +
"GROUP BY CODIGO, X, Y";
param = command.CreateParameter();
param.ParameterName = "fecha";
param.Value = sigpi.FechaProcesamiento;
param1 = command.CreateParameter();
param1.ParameterName = "fecha1";
param1.Value = sigpi.FechaProcesamiento.AddDays(-10);
command.Parameters.Add(param1);
command.Parameters.Add(param);
try
{
sigpiDao.EjecutarSentenciaSinQuery(command);
}
catch (Exception ex)
{
MessageBox.Show("Error Generando Tabla: TEMPERATURA_PROMEDIO " + ex.Message);
pProDia.HideDialog();
return;
}
string sExpression = "";
string sOutGrid;
double dPeso = 0;
string sAmenazaXPrecipitacion = sRutaFileGDB + "\\amenaza_x_precipitacion";
string sTablaTemperaturaPromedio = "TEMPERATURA_PROMEDIO";
string sFCTempPromedio = "TEMP_PROMEDIO";
string sPrefijoIDW = "idw";
string sAmenazaXTemperatura = sRutaFileGDB + "\\" + "amenaza_x_temperatura";
string sAmenazasParciales = parametros.RutaGBD + "\\" + "amenazas_parciales_2";
string sAmenazaBruta = sRutaFileGDB + "\\amenaza_incendio_bruta";
string sAmenazaFinal = sRutaFileGDB + "\\amenaza_incendio_final";
string sTablaReclassIncendios = parametros.TablaReclasificacionIncendios; //"tbl_reclass_amenaza_incendios";
string sTablaReclassTemp = parametros.TablaReclasificacionTemperatura; //"tbl_reclass_temperatura";
string sTablaReclassPrecip = parametros.TablaReclasificacionPrecipitacion; //"tbl_reclass_precipitacion";
string sAmenazaXTemperaturaCombinada = sRutaFileGDB + "\\" + "amenaza_x_temperatura_combinada";
string sEstVirtualesPrecipitacion = sRutaFileGDB + "\\" + "estaciones_virtuales_precipitacion";
string sAmenazaXPrecipitacionCombinada = sRutaFileGDB + "\\" + "amenaza_x_precipitacion_combinada";
string sAmenazaFinalBrutaNVI = sRutaFileGDB + "\\" + "amenaza_incend_raw_nvi";
string sNVITempReclass = sRutaFileGDB + "\\" + "nvi_reclass_temp";
string sFromField = "FROM_";
string sToField = "TO_";
string sOutField = "OUT";
string sNoData = "NODATA";
string sFieldLecturas = "RASTERVALU"; //LECTURAS";
string sTipoEstadistico = parametros.TipoEstadistico; //"MAXIMUM";
string sAmenazaXPrecipReclass = sAmenazaXPrecipitacion + "_reclass";
string sAmenazaXTempReclass = sAmenazaXTemperatura + "_reclass";
string nvi = parametros.RutaSIGPI + "NVI" + "\\" + "tmpMosaic.500m_16_days_NDVI_GEO.tif";
double dPesoPrecipitacion = parametros.PesoPrecipitacion; //0.29;
double dPesoTemperatura = parametros.PesoTemperatura; //0.24;
double dPesoAmenazasParciales = parametros.PesoAmenazasParciales; //0.47;
IDataset pDS;
IDatasetName pDSName;
IDatasetName pDSName2 = new FeatureClassNameClass();
IExportOperation pExportOp = new ExportOperationClass();
string sEstacionesVirtuales = sRutaFileGDB + "\\" + "EstacionesVirtuales.shp";
ExtractValuesToPoints extractValPoint = new ExtractValuesToPoints();
extractValPoint.in_point_features = sEstacionesVirtuales;
extractValPoint.interpolate_values = "NONE";
extractValPoint.add_attributes = "VALUE_ONLY";
//'0.037037037;
// 1" = 1/3600
double dCellSize = parametros.TamanoCelda / (3600 * 30);
double[] iPesos = parametros.Pesos; //{ 30, 20, 10, 9, 8, 7, 6, 5, 4, 3 };
double iTotalPesos = 0; //102;
foreach (double dP in iPesos)
{
iTotalPesos += dP;
}
gp.AddOutputsToMap = bMostrarIntermedios;
gp.SetEnvironmentValue("Mask", parametros.RutaGBD + "\\" + parametros.Mascara);
gp.SetEnvironmentValue("Extent", pEnv.XMin.ToString() + " " + pEnv.YMin.ToString() + " " +
pEnv.XMax.ToString() + " " + pEnv.YMax.ToString());
ESRI.ArcGIS.SpatialAnalystTools.Idw idw = new Idw();
idw.z_field = sFieldLecturas;
idw.cell_size = dCellSize;
for (int i = 0; i < 10; i++)
{
pFeatureClass = procesamiento.FCPrecipitacion(sNombreTabla + i.ToString(), pSpaRef);
pDS = (IDataset)pFeatureClass;
pDSName = (IDatasetName)pDS.FullName;
pDSName2.Name = sNombreTabla + i.ToString();
pDSName2.WorkspaceName = pWSName;
try
{
pExportOp.ExportFeatureClass(pDSName, null, null, null, (IFeatureClassName)pDSName2, 0);
}
catch (Exception ex)
{
MessageBox.Show(ex.Message);
pProDia.HideDialog();
return;
}
if (bUsarSatelite)
{
//Geoprocessor gp1 = new Geoprocessor();
//extractValPoint.in_raster = sRastersPrecipitacion[i]; // txtRutaPrecipitacion.Text;
//extractValPoint.out_point_features = sEstVirtualesPrecipitacion + i.ToString();
//try
//{
// gp1.Execute(extractValPoint, null);
//}
//catch (Exception ex)
//{
// MessageBox.Show(ex.Message);
//}
//Merge merge = new Merge();
//string sInputMerge = sRutaFileGDB + "\\" + sNombreTabla + i.ToString() + ";" + sEstVirtualesPrecipitacion + i.ToString();
//merge.inputs = sInputMerge;
////"[" + sRutaFileGDB + "\\" + sNombreTabla + i.ToString() + ";" + sEstVirtualesPrecipitacion + i.ToString() + "]" ;
//merge.output = sRutaFileGDB + "\\" + "est_precip_temporal" + i.ToString();
//try
//{
// gp.Execute(merge, null);
//}
//catch (Exception ex)
//{
// MessageBox.Show(ex.Message);
//}
//idw.in_point_features = sRutaFileGDB + "\\" + "est_precip_temporal" + i.ToString();
idw.in_point_features = sRutaFileGDB + "\\" + sNombreTabla + i.ToString();
}
else
{
idw.in_point_features = sRutaFileGDB + "\\" + sNombreTabla + i.ToString();
}
sOutGrid = sRutaFileGDB + "\\" + sPrefijoIDW + "_" + sNombreTabla + i.ToString();
idw.out_raster = sOutGrid;
try
{
gp.Execute(idw, null);
}
catch (Exception ex)
{
MessageBox.Show(ex.Message);
}
dPeso = iPesos[i] / iTotalPesos;
sExpression += "( Raster(r'" + sOutGrid + "') * " + dPeso.ToString().Replace(",", ".") + ")";
if (i < 9)
{
sExpression += " + ";
}
}
pStepPro.Step();
////for (int i = 0; i < 10; i++)
////{
//// //pStepPro.Message = "Generando Modelo Precipitacion: " + i.ToString();
//// sOutGrid = sRutaFileGDB + "\\" + sPrefijoIDW + "_" + sNombreTabla + i.ToString();
//// idw.in_point_features = sRutaFileGDB + "\\" + sNombreTabla + i.ToString();
//// idw.out_raster = sOutGrid;
//// gp.Execute(idw, null);
//// dPeso = iPesos[i] / iTotalPesos;
//// sExpression += "(" + sOutGrid + " * " + dPeso.ToString() + ")";
//// if (i < 9)
//// sExpression += " + ";
////}
//gp.AddMessage("Expresion: " + sExpression);
//SingleOutputMapAlgebra mapAlgebra = new SingleOutputMapAlgebra();
ESRI.ArcGIS.SpatialAnalystTools.RasterCalculator mapAlgebra = new RasterCalculator();
//mapAlgebra.expression_string = sExpression;
// mapAlgebra.out_raster = sAmenazaXPrecipitacion;
mapAlgebra.expression = sExpression;
mapAlgebra.output_raster = sAmenazaXPrecipitacion;
pStepPro.Message = "Generando Amenaza Precipitacion...";
try
{
gp.Execute(mapAlgebra, null);
}
catch (Exception ex)
{
MessageBox.Show("Error Generando Amenaza x Precipitacion. " + ex.Message);
pProDia.HideDialog();
return;
}
//if (bUsarSatelite) // Para la combinacion de la precipitacion x estaciones y satelite
//{
// //CellStatistics cellStatisticsP = new CellStatistics();
// //cellStatisticsP.in_rasters_or_constants = sAmenazaXPrecipitacion + ";" + txtRutaPrecipitacion.Text;
// //cellStatisticsP.out_raster = sAmenazaXPrecipitacionCombinada;
// //cellStatisticsP.statistics_type = sTipoEstadistico;
// try
// {
// gp.Execute(extractValPoint, null);
// //sAmenazaXPrecipitacion = sAmenazaXPrecipitacionCombinada;
// }
// catch (Exception ex)
// {
// MessageBox.Show("Error generando estaciones virtuales con precipitacion." + ex.Message);
// return;
// }
// Merge merge = new Merge();
// merge.inputs =
//}
DateTime date = sigpi.FechaProcesamiento;
string sMonth = date.ToString("MM");
pStepPro.Step();
pStepPro.Message = "Generando Amenaza x Temperatura";
pFeatureClass = procesamiento.FCPrecipitacion(sTablaTemperaturaPromedio, pSpaRef);
pDS = (IDataset)pFeatureClass;
pDSName = (IDatasetName)pDS.FullName;
pDSName2.Name = sFCTempPromedio;
pDSName2.WorkspaceName = pWSName;
try
{
pExportOp.ExportFeatureClass(pDSName, null, null, null, (IFeatureClassName)pDSName2, 0);
}
catch (Exception ex)
{
throw new Exception(ex.Message);
}
idw.in_point_features = sRutaFileGDB + "\\" + sFCTempPromedio;
idw.out_raster = sAmenazaXTemperatura;
try
{
gp.Execute(idw, null);
}
catch (Exception ex)
{
Console.WriteLine(ex.Message);
}
//if (bUsarSatelite)
//{
// Geoprocessor gp1 = new Geoprocessor();
// Con pContmp = new Con();
// pContmp.in_conditional_raster = txtRutaTemperatura.Text;
// pContmp.in_true_raster_or_constant = txtRutaTemperatura.Text;
// pContmp.in_false_raster_or_constant = -99;
// string sRasterTTemp = sAmenazaXTemperaturaCombinada + "_ajs";
// pContmp.out_raster = sRasterTTemp;
// pContmp.where_clause = "VALUE < 55";
// try
// {
// gp1.Execute(pContmp, null);
// }
// catch (Exception)
// {
// sRasterTTemp = txtRutaTemperatura.Text; ;
// }
// gp1 = null;
// CellStatistics cellStatistics = new CellStatistics();
// cellStatistics.in_rasters_or_constants = sAmenazaXTemperatura + ";" + sRasterTTemp;
// cellStatistics.out_raster = sAmenazaXTemperaturaCombinada;
// cellStatistics.statistics_type = sTipoEstadistico;
// try
// {
// gp.Execute(cellStatistics, null);
// sAmenazaXTemperatura = sAmenazaXTemperaturaCombinada;
// }
// catch (Exception)
// {
// }
//}
ReclassByTable rbt = new ReclassByTable();
rbt.in_raster = sAmenazaXPrecipitacion;
rbt.in_remap_table = sTablaReclassPrecip; // parametros.RutaGBD + "\\" + sTablaReclassPrecip;
rbt.from_value_field = sFromField;
rbt.to_value_field = sToField;
rbt.output_value_field = sOutField;
rbt.missing_values = sNoData;
rbt.out_raster = sAmenazaXPrecipReclass;
//pStepPro.Message = "Generando Amenaza X Precipitacion Reclasificada";
try
{
gp.Execute(rbt, null);
}
catch (Exception ex)
{
MessageBox.Show(ex.Message);
pProDia.HideDialog();
return;
}
rbt.in_raster = sAmenazaXTemperatura;
rbt.in_remap_table = sTablaReclassTemp; // parametros.RutaGBD + "\\" + sTablaReclassTemp;
rbt.out_raster = sAmenazaXTempReclass;
//pStepPro.Message = "Generando Amenaza X Temperatura Reclasificada";
try
{
gp.Execute(rbt, null);
}
catch (Exception ex)
{
MessageBox.Show(ex.Message);
pProDia.HideDialog();
return;
}
sExpression = "( Raster(r'" + sAmenazaXPrecipReclass + "') * " + dPesoPrecipitacion.ToString().Replace(",", ".") + ") + " +
"( Raster(r'" + sAmenazaXTempReclass + "') * " + dPesoTemperatura.ToString().Replace(",", ".") + ") + " +
"( Raster(r'" + sAmenazasParciales + "') * " + dPesoAmenazasParciales.ToString().Replace(",", ".") + ")";
//mapAlgebra.expression_string = sExpression;
//mapAlgebra.out_raster = sAmenazaBruta;
sExpression = sExpression.Replace("\\\\", "/").Replace("\\", "/");
mapAlgebra.expression = sExpression;
mapAlgebra.output_raster = sAmenazaBruta;
pStepPro.Message = "Generando Amenaza Final Bruta";
try
{
gp.Execute(mapAlgebra, null);
}
catch (Exception ex)
{
MessageBox.Show(ex.Message);
}
//if (txtRutaNVI.Text.Trim() != "")
//{
Geoprocessor gp2 = new Geoprocessor();
mapAlgebra = new RasterCalculator();
sExpression = "Con (Raster(r'" + nvi + "') < 0.75, Raster(r'" + sAmenazaBruta + "'), Raster(r'" + sAmenazaBruta + "') -1)";
sExpression = sExpression.Replace("\\\\", "/").Replace("\\", "/");
mapAlgebra.expression = sExpression;
mapAlgebra.output_raster = sAmenazaFinalBrutaNVI;
try
{
gp2.Execute(mapAlgebra, null);
}
catch (Exception ex)
{
MessageBox.Show(ex.Message);
}
//}
rbt.in_raster = sAmenazaFinalBrutaNVI; // sAmenazaBruta;
rbt.in_remap_table = sTablaReclassIncendios; // parametros.RutaGBD + "\\" + sTablaReclassIncendios;
rbt.from_value_field = sFromField;
rbt.to_value_field = sToField;
rbt.output_value_field = sOutField;
rbt.missing_values = sNoData;
rbt.out_raster = sAmenazaFinal;
pStepPro.Message = "Generando Amenaza Final Reclasificada";
gp.AddOutputsToMap = true;
try
{
gp.Execute(rbt, null);
}
catch (Exception ex)
{
MessageBox.Show(ex.Message);
}
Copy copy = new Copy();
copy.in_data = sAmenazaFinal;
copy.out_data = sRutaGdbResultados + "\\" + sCapaResultado;
try
{
gp.Execute(copy, null);
}
catch (Exception ex)
{
MessageBox.Show("Error Copiando el resultado. \n " + ex.Message);
}
MessageBox.Show("Algoritmo completo ejecutado: " + sRutaGdbResultados + "\\" + sCapaResultado);
if (m_pApp != null)
{
IRasterLayer pRLayer = new RasterLayerClass();
try
{
IWorkspaceFactory pWF2 = new FileGDBWorkspaceFactoryClass();
IRasterWorkspaceEx pRW = (IRasterWorkspaceEx)pWF2.OpenFromFile(sRutaGdbResultados, 0);
IRasterDataset pRDataset = pRW.OpenRasterDataset(sCapaResultado);
pRLayer.CreateFromDataset(pRDataset);
pRLayer.Name = sCapaResultado;
IMxDocument pMxDoc = m_pApp.Document as IMxDocument;
IMap pMap = pMxDoc.FocusMap;
AsignarSimbologiaProbabilidad(pRLayer);
pMap.AddLayer(pRLayer);
if (pMap.LayerCount > 0)
{
pMap.MoveLayer(pRLayer, pMap.LayerCount - 1);
}
pMxDoc.UpdateContents();
pMxDoc.ActiveView.Refresh();
}
catch (Exception ex)
{
MessageBox.Show(ex.Message, "Error cargando Capa!!!");
}
}
pProDia.HideDialog();
}
private void Cleanup(IMouseCursor MouseCursor, IFIDSet PlansFIDSet, ITable pTable,
ITable PlansTable, IWorkspace Workspace, IProgressDialog2 pProgressorDialog)
{
if (pProgressorDialog != null)
{
pProgressorDialog.HideDialog();
}
if (MouseCursor != null)
{
MouseCursor.SetCursor(0);
}
if (m_pStepProgressor != null)
{
m_pStepProgressor.Hide();
}
m_pStepProgressor = null;
try
{
Marshal.ReleaseComObject(PlansFIDSet); //garbage collection
}
catch { }
try
{
Marshal.ReleaseComObject(m_pProgressorDialogFact); //garbage collection
}
catch { }
try
{
Marshal.ReleaseComObject(m_pTrackCancel); //garbage collection
}
catch { }
if (PlansTable != null)
{
Marshal.ReleaseComObject(PlansTable);
}
if (m_pCadaFab != null)
{
Marshal.ReleaseComObject(m_pCadaFab);
}
if (pTable != null)
{
Marshal.ReleaseComObject(pTable);
}
if (Workspace != null)
{
Marshal.ReleaseComObject(Workspace);
}
if (m_pStartTime != null)
{
Marshal.ReleaseComObject(m_pStartTime);
}
if (m_pEndTime != null)
{
Marshal.ReleaseComObject(m_pEndTime);
}
}
private void Cleanup(IMouseCursor MouseCursor, IFIDSet PlansFIDSet, ITable pTable,
ITable PlansTable, IWorkspace Workspace, IProgressDialog2 pProgressorDialog, bool CleanFabricVar)
{
if (pProgressorDialog != null)
{
pProgressorDialog.HideDialog();
}
if (MouseCursor != null)
{
MouseCursor.SetCursor(0);
}
if (m_pStepProgressor != null)
{
m_pStepProgressor.Hide();
}
m_pStepProgressor = null;
if (PlansFIDSet != null)
{
do
{
}while (Marshal.ReleaseComObject(PlansFIDSet) > 0);
}
if (m_pProgressorDialogFact != null)
{
do
{
}while (Marshal.ReleaseComObject(m_pProgressorDialogFact) > 0);
}
if (m_pTrackCancel != null)
{
do
{
}while (Marshal.ReleaseComObject(m_pTrackCancel) > 0);
}
if (PlansTable != null)
{
do
{
}while (Marshal.ReleaseComObject(PlansTable) > 0);
}
if (m_pCadaFab != null && CleanFabricVar)
{
do
{
}while (Marshal.ReleaseComObject(m_pCadaFab) > 0);
}
if (pTable != null)
{
do
{
}while (Marshal.ReleaseComObject(pTable) > 0);
}
if (Workspace != null)
{
do
{
}while (Marshal.ReleaseComObject(Workspace) > 0);
}
}
protected override void OnClick()
{
try
{
IGxSelection gxSelection = this.pGxApp.Selection;
if (gxSelection.Count < 1)
{
return;
}
// Inizializzo le variabili per la progress bar...
ITrackCancel trkCancel = null;
IProgressDialogFactory prgFact = new ProgressDialogFactoryClass();
IStepProgressor stepProgressor = null;
IProgressDialog2 progressDialog = null;
int intNumberFcConverted = 0;
int cont = gxSelection.Count;
IEnumGxObject enumGxObject = gxSelection.SelectedObjects;
stepProgressor = prgFact.Create(trkCancel, 0);
progressDialog = stepProgressor as IProgressDialog2;
progressDialog.Description = "Removing extensions...";
progressDialog.Title = "Removing extensions...";
progressDialog.Animation = esriProgressAnimationTypes.esriProgressSpiral;
progressDialog.ShowDialog();
stepProgressor.MinRange = 0;
stepProgressor.MaxRange = cont;
stepProgressor.StepValue = 1;
stepProgressor.Show();
IGxObject pGxObject = enumGxObject.Next();
while (pGxObject != null)
{
if (!(pGxObject is IGxDataset))
{
return;
}
IGxDataset pGxDataset = pGxObject as IGxDataset;
if (pGxDataset == null)
{
return;
}
//if (((pGxObject as IGxDataset).Type) != esriDatasetType.esriDTFeatureClass)
//{
// return;
//}
this.engine(pGxDataset, pGxObject, ref intNumberFcConverted);
pGxObject = enumGxObject.Next();
stepProgressor.Step();
}
stepProgressor.Message = "End";
stepProgressor.Hide();
progressDialog.HideDialog();
MessageBox.Show($@"Extension removed for {intNumberFcConverted} objects!", "Attention", MessageBoxButtons.OK, MessageBoxIcon.Information);
}
catch (Exception ex)
{
MessageBox.Show("Error: " + ex.Message.ToString());
}
}