private void ProcessWithShapeFilesOnly()
{
int count = featureSources.Sum(f =>
{
if (!f.IsOpen)
{
f.Open();
}
return(f.GetCount());
});
var args = new UpdatingTaskProgressEventArgs(TaskState.Updating);
var shapeFileFeatureSources = featureSources.OfType <ShapeFileFeatureSource>().ToList();
var shapeFileType = shapeFileFeatureSources.First().GetShapeFileType();
var currentProgress = 0;
var shapeFileHelper = new ShapeFileHelper(shapeFileType, OutputPathFileName, columns, wkt);
foreach (var featureSource in shapeFileFeatureSources)
{
shapeFileHelper.ForEachFeatures(featureSource, f =>
{
if (f.GetWellKnownBinary() != null)
{
foreach (var featureColumn in columns)
{
if (!f.ColumnValues.Keys.Contains(featureColumn.ColumnName))
{
f.ColumnValues.Add(featureColumn.ColumnName, "0");
}
}
shapeFileHelper.Add(new Feature(f.GetWellKnownBinary(), Guid.NewGuid().ToString(), f.ColumnValues));
}
currentProgress++;
var progressPercentage = currentProgress * 100 / count;
args = new UpdatingTaskProgressEventArgs(TaskState.Updating, progressPercentage);
args.Current = currentProgress;
args.UpperBound = count;
OnUpdatingProgress(args);
isCanceled = args.TaskState == TaskState.Canceled;
return(isCanceled);
});
}
shapeFileHelper.Commit();
}
private void BufferShapeFile()
{
var args = new UpdatingTaskProgressEventArgs(TaskState.Updating);
var currentSource = (ShapeFileFeatureSource)FeatureSource;
if (!currentSource.IsOpen)
{
currentSource.Open();
}
var canceled = false;
var projectionWkt = Proj4Projection.ConvertProj4ToPrj(DisplayProjectionParameters);
var helper = new ShapeFileHelper(ShapeFileType.Polygon, outputPathFileName, currentSource.GetColumns(), projectionWkt);
helper.CapabilityToFlush = 1000;
helper.ForEachFeatures(currentSource, (f, currentProgress, upperBound, percentage) =>
{
try
{
if (f.GetWellKnownBinary() != null)
{
//Feature bufferedFeature = f.Buffer(Distance, Smoothness, Capstyle, MapUnit, DistanceUnit);
//Feature bufferedFeature = SqlTypesGeometryHelper.Buffer(f, Distance, Smoothness, Capstyle, MapUnit, DistanceUnit);
Feature bufferedFeature = BufferFeature(f);
helper.Add(bufferedFeature);
}
args = new UpdatingTaskProgressEventArgs(TaskState.Updating, percentage);
args.Current = currentProgress;
args.UpperBound = upperBound;
OnUpdatingProgress(args);
canceled = args.TaskState == TaskState.Canceled;
return(canceled);
}
catch (Exception ex)
{
GisEditor.LoggerManager.Log(LoggerLevel.Debug, ex.Message, new ExceptionInfo(ex));
return(false);
}
});
helper.Commit();
}
private void DataJoinShapeFile()
{
var args = new UpdatingTaskProgressEventArgs(TaskState.Updating);
ShapeFileFeatureSource currentSource = ShapeFileFeatureSource;
if (!currentSource.IsOpen)
{
currentSource.Open();
}
var index = 0;
var count = currentSource.GetAllFeatures(ReturningColumnsType.AllColumns).Count;
Collection <DbfColumn> includeColumns = new Collection <DbfColumn>();
RemoveUnduplicateColumn(IncludedColumnsList);
foreach (var column in IncludedColumnsList)
{
DbfColumnType tmpDbfColumnType = DbfColumnType.Character;
if (Enum.TryParse(column.TypeName, out tmpDbfColumnType))
{
DbfColumn dbfColumn = new DbfColumn(column.ColumnName, tmpDbfColumnType, column.MaxLength, 0);
includeColumns.Add(dbfColumn);
}
}
ShapeFileType shapeFileType = GetShapeFileType(currentSource.GetAllFeatures(ReturningColumnsType.AllColumns).FirstOrDefault());
var projectionWkt = Proj4Projection.ConvertProj4ToPrj(DisplayProjectionParameters);
var dataTable = DataJoinAdapter.ReadDataToDataGrid(CsvFilePath, Delimiter);
var featureRows = dataTable.Rows;
var helper = new ShapeFileHelper(shapeFileType, OutputPathFileName, includeColumns, projectionWkt);
helper.ForEachFeatures(currentSource, (f, currentProgress, upperBound, percentage) =>
{
try
{
bool canceled = false;
if (f.GetWellKnownBinary() != null)
{
index++;
try
{
var matchedDataRow = featureRows.Cast <DataRow>().FirstOrDefault(r => MatchConditions.All(tmpCondition => f.ColumnValues[tmpCondition.SelectedLayerColumn.ColumnName]
== r[tmpCondition.SelectedDelimitedColumn.ColumnName].ToString()));
if (matchedDataRow != null)
{
SetFeatureColumnValues(f, matchedDataRow, IncludedColumnsList, InvalidColumns);
helper.Add(f);
}
else if (IsIncludeAllFeatures)
{
helper.Add(f);
}
if (UpdateProgress(OnUpdatingProgress, index, count))
{
canceled = true;
}
}
catch (Exception ex)
{
var errorEventArgs = new UpdatingTaskProgressEventArgs(TaskState.Error);
errorEventArgs.Error = new ExceptionInfo(string.Format(CultureInfo.InvariantCulture, "Feature id: {0}, {1}"
, f.Id, ex.Message)
, ex.StackTrace
, ex.Source);
GisEditor.LoggerManager.Log(LoggerLevel.Debug, ex.Message, new ExceptionInfo(ex));
errorEventArgs.Message = f.Id;
OnUpdatingProgress(errorEventArgs);
}
}
args = new UpdatingTaskProgressEventArgs(TaskState.Updating, percentage);
args.Current = currentProgress;
args.UpperBound = upperBound;
OnUpdatingProgress(args);
canceled = args.TaskState == TaskState.Canceled;
return(canceled);
}
catch
{
return(false);
}
});
helper.Commit();
SavePrjFile(OutputPathFileName, DisplayProjectionParameters);
}
private void SimplifyShapeFile()
{
var args = new UpdatingTaskProgressEventArgs(TaskState.Updating);
var currentSource = (ShapeFileFeatureSource)FeatureSource;
if (!currentSource.IsOpen)
{
currentSource.Open();
}
var canceled = false;
var shapeFileType = currentSource.GetShapeFileType();
var projectionWkt = Proj4Projection.ConvertProj4ToPrj(DisplayProjectionParameters);
var helper = new ShapeFileHelper(shapeFileType, outputPathFileName, currentSource.GetColumns(), projectionWkt);
try
{
helper.ForEachFeatures(currentSource, (f, currentProgress, upperBound, percentage) =>
{
try
{
if (f.GetWellKnownBinary() != null)
{
SimplificationType simType = SimplificationType.DouglasPeucker;
if (preserveTopology)
{
simType = SimplificationType.TopologyPreserving;
}
var shape = f.GetShape();
var areaShape = shape as AreaBaseShape;
var lineShape = shape as LineBaseShape;
BaseShape simplifiedShape = null;
if (areaShape != null)
{
if (selectedDistanceUnit == "Decimal Degrees")
{
simplifiedShape = areaShape.Simplify(simplificationTolerance, simType);
}
else
{
simplifiedShape = areaShape.Simplify(mapUnit, simplificationTolerance, (DistanceUnit)converter.ConvertBack(selectedDistanceUnit, null, null, null), simType);
}
}
else if (lineShape != null)
{
if (selectedDistanceUnit == "Decimal Degrees")
{
simplifiedShape = lineShape.Simplify(simplificationTolerance, simType);
}
else
{
simplifiedShape = lineShape.Simplify(mapUnit, simplificationTolerance, (DistanceUnit)converter.ConvertBack(selectedDistanceUnit, null, null, null), simType);
}
}
if (simplifiedShape != null)
{
Feature feature = new Feature(simplifiedShape);
foreach (var item in f.ColumnValues)
{
feature.ColumnValues[item.Key] = item.Value;
}
helper.Add(feature);
}
}
args = new UpdatingTaskProgressEventArgs(TaskState.Updating, percentage);
args.Current = currentProgress;
args.UpperBound = upperBound;
OnUpdatingProgress(args);
canceled = args.TaskState == TaskState.Canceled;
return(canceled);
}
catch (Exception e)
{
GisEditor.LoggerManager.Log(LoggerLevel.Debug, e.Message, new ExceptionInfo(e));
return(false);
}
});
}
finally
{
helper.Commit();
}
}
protected override void RunCore()
{
var existingShapePathFileNames = ShapePathFileNames.Where(s => CheckShapeFileExists(s.Key));
var upperBounds = GetUpperBounds(existingShapePathFileNames);
CreateOutputPath(OutputPathFileName);
var currentIndex = 0;
foreach (var currentShapePathFileName in existingShapePathFileNames)
{
try
{
string currentShapeFileName = Path.GetFileName(currentShapePathFileName.Key);
string outputShapePathFileName = Path.Combine(OutputPathFileName, currentShapeFileName);
string outputTempIdxPathFileName = Path.Combine(OutputPathFileName, "TMP" + currentShapeFileName);
outputTempIdxPathFileName = Path.ChangeExtension(outputTempIdxPathFileName, ".idx");
DeleteRelatedFiles(outputShapePathFileName);
Proj4Projection projection = new Proj4Projection();
projection.InternalProjectionParametersString = currentShapePathFileName.Value;
projection.ExternalProjectionParametersString = TargetProjectionParameter;
projection.Open();
//CreateShapeFileWithIndex(currentShapePathFileName.Key, outputShapePathFileName, outputTempIdxPathFileName, projection, upperBounds, ref current);
var currentFeatureSource = new ShapeFileFeatureSource(currentShapePathFileName.Key);
currentFeatureSource.Open();
string projectionWkt = Proj4Projection.ConvertProj4ToPrj(TargetProjectionParameter);
ShapeFileHelper helper = new ShapeFileHelper(currentFeatureSource.GetShapeFileType(), outputShapePathFileName, currentFeatureSource.GetColumns(), projectionWkt);
helper.ForEachFeatures(currentFeatureSource, f =>
{
if (f.GetWellKnownBinary() != null)
{
var newFeature = projection.ConvertToExternalProjection(f);
if (newFeature.CanMakeValid)
{
newFeature = newFeature.MakeValid();
}
if (newFeature.GetWellKnownType() != WellKnownType.GeometryCollection)
{
helper.Add(newFeature);
}
}
currentIndex++;
UpdatingTaskProgressEventArgs args = new UpdatingTaskProgressEventArgs(TaskState.Updating, currentIndex * 100 / upperBounds);
args.Current = currentIndex;
args.UpperBound = upperBounds;
OnUpdatingProgress(args);
return(args.TaskState == TaskState.Canceled);
});
helper.Commit();
CreateDbfFile(currentShapePathFileName.Key, outputShapePathFileName);
//CreatePrjFile(outputShapePathFileName, TargetProjectionParameter);
}
catch (Exception ex)
{
UpdatingTaskProgressEventArgs errorArgs = new UpdatingTaskProgressEventArgs(TaskState.Error);
errorArgs.Error = new ExceptionInfo(ex.Message, ex.StackTrace, ex.Source);
GisEditor.LoggerManager.Log(LoggerLevel.Debug, ex.Message, new ExceptionInfo(ex));
OnUpdatingProgress(errorArgs);
continue;
}
}
}