private void btnUygula_Click(object sender, EventArgs e)
{
if (cmbXColumn.SelectedIndex < 0)
{
MessageBox.Show("X değeri belirlenmeden işlem yapılamaz.");
return;
}
if (cmbYColumn.SelectedIndex < 0)
{
MessageBox.Show("Y değeri belirlenmeden işlem yapılamaz.");
return;
}
AppSingleton.Instance().CreateWorkspacePath();
var name = Path.GetFileNameWithoutExtension(txtExcel.Text);
ESRI.ArcGIS.Geoprocessor.Geoprocessor gp = new ESRI.ArcGIS.Geoprocessor.Geoprocessor();
ESRI.ArcGIS.ConversionTools.ExcelToTable excelToTable = new ESRI.ArcGIS.ConversionTools.ExcelToTable();
excelToTable.Input_Excel_File = txtExcel.Text;
excelToTable.Output_Table = AppSingleton.Instance().WorkspacePath + "\\" + name;
gp.AddOutputsToMap = AppSingleton.Instance().AralariEkle;
gp.OverwriteOutput = true;
gp.Execute(excelToTable, null);
ESRI.ArcGIS.DataManagementTools.MakeXYEventLayer makeLayer = new ESRI.ArcGIS.DataManagementTools.MakeXYEventLayer();
makeLayer.table = excelToTable.Output_Table;
makeLayer.in_x_field = cmbXColumn.SelectedItem.ToString();
makeLayer.in_y_field = cmbYColumn.SelectedItem.ToString();
makeLayer.out_layer = excelToTable.Output_Table + "_layer";
makeLayer.spatial_reference = "WGS 1984";
gp.AddOutputsToMap = true;
gp.OverwriteOutput = true;
gp.Execute(makeLayer, null);
}
public string RasterCalculatorNKS(string nN, string nP, string Y, string S, string gS)
{
try
{
ESRI.ArcGIS.SpatialAnalystTools.RasterCalculator rasterCalculator = new ESRI.ArcGIS.SpatialAnalystTools.RasterCalculator();
if (nP == "12")
{
rasterCalculator.expression = "('" + Y + "' * '" + nN + "' * 12) / ('" + S + "' * '" + gS + "' + 15 )";
}
else
{
rasterCalculator.expression = "('" + Y + "' * '" + nN + "' * '" + nP + "') / ('" + S + "' * '" + gS + "' + 15)";
}
ESRI.ArcGIS.Geoprocessor.Geoprocessor gp = new ESRI.ArcGIS.Geoprocessor.Geoprocessor();
rasterCalculator.output_raster = AppSingleton.Instance().WorkspacePath + "\\nks";
gp.AddOutputsToMap = AppSingleton.Instance().AralariEkle;
gp.OverwriteOutput = true;
gp.Execute(rasterCalculator, null);
return(rasterCalculator.output_raster.ToString());
}
catch (Exception ex)
{
return(string.Empty);
}
}
private bool PolygonToRaster(ILayer selectedLayer, string inputType, string valueField, string priorityField)
{
try
{
ESRI.ArcGIS.Geoprocessor.Geoprocessor gp = new ESRI.ArcGIS.Geoprocessor.Geoprocessor();
ESRI.ArcGIS.ConversionTools.PolygonToRaster polygonToRaster = new ESRI.ArcGIS.ConversionTools.PolygonToRaster();
polygonToRaster.in_features = selectedLayer;
polygonToRaster.value_field = valueField;//"distance";
polygonToRaster.out_rasterdataset = AppSingleton.Instance().WorkspacePath + "\\Poly_Raster_" + selectedLayer.Name;
polygonToRaster.cell_assignment = "MAXIMUM_AREA";
polygonToRaster.cellsize = AppSingleton.Instance().CellSize;
if (priorityField != "")
{
polygonToRaster.priority_field = priorityField; //"priority";
}
IFeatureLayer fLayer = AppSingleton.Instance().SinirLayer as IFeatureLayer;
IEnvelope env = fLayer.AreaOfInterest.Envelope;
gp.SetEnvironmentValue("Extent", env.XMin.ToString() + " " + env.YMin.ToString() + " " + env.XMax.ToString() + " " + env.YMax.ToString());
gp.AddOutputsToMap = AppSingleton.Instance().AralariEkle;
gp.OverwriteOutput = true;
gp.Execute(polygonToRaster, null);
return(true);
}
catch (Exception ex)
{
return(false);
}
}
public string RasterClipLayer(object selectedLayer, IFeatureLayer sinirLayer, string outputName)
{
try
{
IFeatureWorkspace fWorkspace = AppSingleton.Instance().PersonalWorkspace as IFeatureWorkspace;
ESRI.ArcGIS.Geoprocessor.Geoprocessor gp = new ESRI.ArcGIS.Geoprocessor.Geoprocessor();
ESRI.ArcGIS.SpatialAnalystTools.ExtractByRectangle rastClip = new ESRI.ArcGIS.SpatialAnalystTools.ExtractByRectangle();
rastClip.in_raster = selectedLayer;//Kriging
rastClip.extraction_area = "INSIDE";
rastClip.out_raster = AppSingleton.Instance().WorkspacePath + "\\" + outputName;
IFeatureLayer fLayer = sinirLayer;
IEnvelope env = fLayer.AreaOfInterest.Envelope;
string geo = env.XMin.ToString() + " " + env.YMin.ToString() + " " + env.XMax.ToString() + " " + env.YMax.ToString();
rastClip.rectangle = geo;
gp.AddOutputsToMap = AppSingleton.Instance().AralariEkle;
gp.OverwriteOutput = true;
gp.Execute(rastClip, null);
return(rastClip.out_raster.ToString());
//return clip.out_feature_class.ToString();
}
catch (Exception ex)
{
return(string.Empty);
}
}
private bool RasterClipLayer(ILayer selectedLayer, string type)
{
try
{
IFeatureWorkspace fWorkspace = AppSingleton.Instance().PersonalWorkspace as IFeatureWorkspace;
ESRI.ArcGIS.Geoprocessor.Geoprocessor gp = new ESRI.ArcGIS.Geoprocessor.Geoprocessor();
ESRI.ArcGIS.SpatialAnalystTools.ExtractByRectangle rastClip = new ESRI.ArcGIS.SpatialAnalystTools.ExtractByRectangle();
rastClip.in_raster = AppSingleton.Instance().WorkspacePath + "\\" + selectedLayer.Name + "_" + type;//Kriging
rastClip.extraction_area = "INSIDE";
rastClip.out_raster = AppSingleton.Instance().WorkspacePath + "\\" + type + "Clip_" + selectedLayer.Name;
IFeatureLayer fLayer = AppSingleton.Instance().SinirLayer as IFeatureLayer;
IEnvelope env = fLayer.AreaOfInterest.Envelope;
//<<<<<<< .mine
//string geo = env.XMin.ToString() + " " + env.YMin.ToString() + " " + env.XMax.ToString() + " " + env.YMax.ToString();
// rastClip.clipping_geometry = geo;
//=======
string geo = env.XMin.ToString() + " " + env.YMin.ToString() + " " + env.XMax.ToString() + " " + env.YMax.ToString();
rastClip.rectangle = geo;
gp.AddOutputsToMap = AppSingleton.Instance().AralariEkle;
gp.OverwriteOutput = true;
gp.Execute(rastClip, null);
return(true);
//return clip.out_feature_class.ToString();
}
catch (Exception ex)
{
return(false);
}
}
private bool Reclassify(ILayer selectedLayer, string FieldName, string reclassMap, string inputType, string outputType)
{
try
{
ESRI.ArcGIS.Geoprocessor.Geoprocessor gp = new ESRI.ArcGIS.Geoprocessor.Geoprocessor();
ESRI.ArcGIS.Analyst3DTools.Reclassify reclass = new ESRI.ArcGIS.Analyst3DTools.Reclassify();
reclass.in_raster = AppSingleton.Instance().WorkspacePath + "\\" + inputType + selectedLayer.Name; //RingBuffered_
reclass.reclass_field = FieldName; //"Value";
reclass.out_raster = AppSingleton.Instance().WorkspacePath + "\\" + outputType + selectedLayer.Name; //Reclassified_
reclass.remap = reclassMap; // "50 1;50 100 2;100 150 3;NODATA 0";
gp.AddOutputsToMap = AppSingleton.Instance().AralariEkle;
gp.OverwriteOutput = true;
gp.Execute(reclass, null);
if (outputType == "Reclassified_")
{
reclassList.Add(reclass.out_raster.ToString());
}
return(true);
}
catch (Exception ex)
{
return(false);
}
}
/// <summary>
/// 使用AE的GP工具实现图层到图层的转换
/// </summary>
/// <param name="sourcePath">源数据路径,shape为全路径。数据库路径以mdb为例:C:\测试\test.mdb\zyxb</param>
/// <param name="tarPath">源数据路径,shape为全路径。数据库路径以mdb为例:C:\测试\test.mdb\zyxbtar</param>
/// <param name="msgLog"></param>
/// <returns></returns>
public static bool GPFeatToFeat(string sourcePath, string tarPath, string filter, out string msgLog)
{
msgLog = string.Empty;
ESRI.ArcGIS.Geoprocessor.Geoprocessor gp = new ESRI.ArcGIS.Geoprocessor.Geoprocessor();
string out_path = tarPath.Substring(0, tarPath.LastIndexOf('\\'));
string out_name = tarPath.Substring(tarPath.LastIndexOf('\\') + 1);
try
{
//复制到更新小班图层
ESRI.ArcGIS.ConversionTools.FeatureClassToFeatureClass pFeatToFeat1 = new ESRI.ArcGIS.ConversionTools.FeatureClassToFeatureClass();
pFeatToFeat1.in_features = sourcePath;
pFeatToFeat1.out_path = out_path; //zyxbFeatClass.Workspace.InnerObject as ESRI.ArcGIS.Geodatabase.IWorkspace;
pFeatToFeat1.out_name = out_name;
pFeatToFeat1.where_clause = filter;
gp.Execute(pFeatToFeat1, null);
if (!ReturnErrMessage(gp, ref msgLog))
{
return(false);
}
}
catch (Exception)
{
ReturnErrMessage(gp, ref msgLog);
return(false);
}
finally
{
gp = null;
}
msgLog = "";
return(true);
}
public static void ExportLayerToShapefile(string shapePath, string shapeName, ILayer source)
{
try
{
// cast the selected/requested layer into a feature layer
ESRI.ArcGIS.Carto.IFeatureLayer featureLayer = (IFeatureLayer)source;
// create a new feature class to feature class converter utility
ESRI.ArcGIS.ConversionTools.FeatureClassToFeatureClass fc2fc
= new ESRI.ArcGIS.ConversionTools.FeatureClassToFeatureClass();
// set the input feature layer
fc2fc.in_features = featureLayer;
// set the output path and Shapefile name
fc2fc.out_path = shapePath;
fc2fc.out_name = shapeName + ".shp";
// create a new GeoProcessor
ESRI.ArcGIS.Geoprocessor.Geoprocessor geoprocessor = new ESRI.ArcGIS.Geoprocessor.Geoprocessor();
// execute the FeatureClassToFeatureClass
geoprocessor.Execute(fc2fc, null);
// export a copy of the layer file definition too for upload/style at a later time
ESRI.ArcGIS.DataManagementTools.SaveToLayerFile saveToLayerFile
= new ESRI.ArcGIS.DataManagementTools.SaveToLayerFile();
saveToLayerFile.in_layer = source;
saveToLayerFile.out_layer = shapePath + "\\" + shapeName + ".lyr";
// execute the FeatureClassToFeatureClass
geoprocessor.Execute(saveToLayerFile, null);
}
catch (Exception ex)
{
// an error occured
System.Windows.Forms.MessageBox.Show("Error: " + ex.Message);
}
}
/// <summary>
/// Runs the Calculate Statistics tool from ArcMap.
/// </summary>
/// <param name="pRDS"></param>
private void CalcStats(IRasterDataset pRDS)
{
IGeoProcessorResult result = null;
ESRI.ArcGIS.Geoprocessor.Geoprocessor gp = new ESRI.ArcGIS.Geoprocessor.Geoprocessor();
gp.OverwriteOutput = true;
gp.AddOutputsToMap = false;
ESRI.ArcGIS.DataManagementTools.CalculateStatistics statTool = new ESRI.ArcGIS.DataManagementTools.CalculateStatistics();
statTool.in_raster_dataset = pRDS;
result = (IGeoProcessorResult)gp.Execute(statTool, null);
}
/// <param name="pFeatureClass1">相交要素1</param>
/// <param name="pFeatureClass2">相交要素2</param>
/// <param name="gdbPath">数据库路径</param>
private IFeatureClass Intersect(IFeatureClass pFeatureClass1, IFeatureClass pFeatureClass2, string gdbPath)
{
IFeatureClass pOutFeatureClass = null;
try
{
//调用GP
ESRI.ArcGIS.Geoprocessor.Geoprocessor gp = new ESRI.ArcGIS.Geoprocessor.Geoprocessor();
gp.OverwriteOutput = true;
//多个对象的输入:使用IGpValueTableObject接口,该接口可以设置
IGpValueTableObject vtobject = new GpValueTableObjectClass();
object pFeature1 = pFeatureClass1;
object pFeature2 = pFeatureClass2;
vtobject.SetColumns(2);
vtobject.AddRow(ref pFeature1);
vtobject.AddRow(ref pFeature2);
ESRI.ArcGIS.AnalysisTools.Intersect pIntersect = new ESRI.ArcGIS.AnalysisTools.Intersect();
pIntersect.in_features = vtobject;
pIntersect.out_feature_class = System.Environment.CurrentDirectory + @"\temp\" + "temp.shp";
pIntersect.output_type = "Input";
IGeoProcessorResult2 result = (IGeoProcessorResult2)gp.Execute(pIntersect, null);
if (result.Status != ESRI.ArcGIS.esriSystem.esriJobStatus.esriJobSucceeded)
{
MessageBox.Show("操作失败!");
return(null);
}
else
{
//获取结果;
IFeatureClass resultFClass = gp.Open(result.ReturnValue) as IFeatureClass;
IDataset pDataset = resultFClass as IDataset;
//目标数据库;
IWorkspaceFactory factory = new FileGDBWorkspaceFactoryClass();
IWorkspace objectWorkspace = factory.OpenFromFile(gdbPath, 0);
string fileName = pFeatureClass1.AliasName + "_" + pFeatureClass2.AliasName;
pOutFeatureClass = IFeatureDataConverter_ConvertFeatureClass(pDataset.Workspace, objectWorkspace, pDataset.Name, fileName);
}
}
catch (System.Exception ex)
{
MessageBox.Show("操作失败!");
return(null);
}
return(pOutFeatureClass);
}
private string InterSect(string flayer, string kadastroLayer)
{
ESRI.ArcGIS.Geoprocessor.Geoprocessor gp = new ESRI.ArcGIS.Geoprocessor.Geoprocessor();
ESRI.ArcGIS.AnalysisTools.Intersect intersect = new ESRI.ArcGIS.AnalysisTools.Intersect();
intersect.in_features = flayer + ";" + kadastroLayer;
intersect.out_feature_class = AppSingleton.Instance().WorkspacePath + "\\Final";
intersect.join_attributes = "All";
intersect.output_type = "INPUT";
gp.AddOutputsToMap = true;
gp.AddOutputsToMap = true;
gp.OverwriteOutput = true;
gp.Execute(intersect, null);
return(intersect.out_feature_class.ToString());
}
private string RasterToPolygon(object rasterlayer)
{
ESRI.ArcGIS.Geoprocessor.Geoprocessor gp = new ESRI.ArcGIS.Geoprocessor.Geoprocessor();
ESRI.ArcGIS.ConversionTools.RasterToPolygon rasterToPolygon = new ESRI.ArcGIS.ConversionTools.RasterToPolygon();
rasterToPolygon.in_raster = rasterlayer;
rasterToPolygon.out_polygon_features = AppSingleton.Instance().WorkspacePath + "\\RasterToPolygon";
rasterToPolygon.simplify = "SIMPLIFY";
rasterToPolygon.raster_field = "Value";
gp.AddOutputsToMap = AppSingleton.Instance().AralariEkle;
gp.AddOutputsToMap = AppSingleton.Instance().AralariEkle;
gp.OverwriteOutput = true;
gp.Execute(rasterToPolygon, null);
return(rasterToPolygon.out_polygon_features.ToString());
}
public string RasterCalculatorKKS(string nKS)
{
try
{
ESRI.ArcGIS.SpatialAnalystTools.RasterCalculator rasterCalculator = new ESRI.ArcGIS.SpatialAnalystTools.RasterCalculator();
rasterCalculator.expression = "1 / '" + nKS + "'";
ESRI.ArcGIS.Geoprocessor.Geoprocessor gp = new ESRI.ArcGIS.Geoprocessor.Geoprocessor();
rasterCalculator.output_raster = AppSingleton.Instance().WorkspacePath + "\\kks";
gp.AddOutputsToMap = AppSingleton.Instance().AralariEkle;
gp.OverwriteOutput = true;
gp.Execute(rasterCalculator, null);
return(rasterCalculator.output_raster.ToString());
}
catch (Exception ex)
{
return(string.Empty);
}
}
private bool Combine(string layerNames)
{
try
{
ESRI.ArcGIS.Geoprocessor.Geoprocessor gp = new ESRI.ArcGIS.Geoprocessor.Geoprocessor();
ESRI.ArcGIS.SpatialAnalystTools.Combine combine = new ESRI.ArcGIS.SpatialAnalystTools.Combine();
combine.in_rasters = layerNames;
combine.out_raster = AppSingleton.Instance().WorkspacePath + "\\" + "Ekolojik_Sit_Alani";
gp.AddOutputsToMap = true;
gp.OverwriteOutput = true;
gp.Execute(combine, null);
return(true);
}
catch (Exception ex)
{
return(false);
}
}
public string RasterCalculatorYillik(string P, string T, string layerName)
{
try
{
ESRI.ArcGIS.SpatialAnalystTools.RasterCalculator rasterCalculator = new ESRI.ArcGIS.SpatialAnalystTools.RasterCalculator();
rasterCalculator.expression = "'" + P + "'/('" + T + "' + 10)";
ESRI.ArcGIS.Geoprocessor.Geoprocessor gp = new ESRI.ArcGIS.Geoprocessor.Geoprocessor();
rasterCalculator.output_raster = AppSingleton.Instance().WorkspacePath + "\\" + layerName;
gp.AddOutputsToMap = true;//AppSingleton.Instance().AralariEkle;
gp.OverwriteOutput = true;
gp.Execute(rasterCalculator, null);
return(rasterCalculator.output_raster.ToString());
}
catch (Exception ex)
{
return(string.Empty);
}
}
public string Int(string layerName, string outName)
{
try
{
ESRI.ArcGIS.SpatialAnalystTools.Int intRaster = new ESRI.ArcGIS.SpatialAnalystTools.Int();
intRaster.in_raster_or_constant = layerName;
intRaster.out_raster = AppSingleton.Instance().WorkspacePath + "\\" + outName;
ESRI.ArcGIS.Geoprocessor.Geoprocessor gp = new ESRI.ArcGIS.Geoprocessor.Geoprocessor();
gp.AddOutputsToMap = true;
gp.OverwriteOutput = true;
gp.Execute(intRaster, null);
return(intRaster.out_raster.ToString());
}
catch (Exception ex)
{
return(string.Empty);
}
}
private string CopyFeatureClass(object featureClass)
{
try
{
ESRI.ArcGIS.Geoprocessor.Geoprocessor gp = new ESRI.ArcGIS.Geoprocessor.Geoprocessor();
ESRI.ArcGIS.DataManagementTools.CopyFeatures copyFeatures = new ESRI.ArcGIS.DataManagementTools.CopyFeatures();
copyFeatures.in_features = featureClass;
copyFeatures.out_feature_class = AppSingleton.Instance().WorkspacePath + "\\" + "Copy";
gp.AddOutputsToMap = true;
gp.OverwriteOutput = true;
gp.Execute(copyFeatures, null);
return(copyFeatures.out_feature_class.ToString());
}
catch (Exception ex)
{
return(string.Empty);
}
}
public string RasterCalculatorKi(string d, string etp, string layerName)
{
try
{
ESRI.ArcGIS.SpatialAnalystTools.RasterCalculator rasterCalculator = new ESRI.ArcGIS.SpatialAnalystTools.RasterCalculator();
rasterCalculator.expression = "((100 * '" + d + "') / '" + etp + "')*10";
ESRI.ArcGIS.Geoprocessor.Geoprocessor gp = new ESRI.ArcGIS.Geoprocessor.Geoprocessor();
rasterCalculator.output_raster = AppSingleton.Instance().WorkspacePath + "\\" + layerName;
gp.AddOutputsToMap = AppSingleton.Instance().AralariEkle;
gp.OverwriteOutput = true;
gp.Execute(rasterCalculator, null);
return(rasterCalculator.output_raster.ToString());
}
catch (Exception ex)
{
return(string.Empty);
}
}
private string Combine(string layerNames, string outLayerName)
{
try
{
ESRI.ArcGIS.Geoprocessor.Geoprocessor gp = new ESRI.ArcGIS.Geoprocessor.Geoprocessor();
ESRI.ArcGIS.SpatialAnalystTools.Combine combine = new ESRI.ArcGIS.SpatialAnalystTools.Combine();
combine.in_rasters = layerNames;
combine.out_raster = AppSingleton.Instance().WorkspacePath + "\\" + outLayerName;
gp.AddOutputsToMap = true;
gp.OverwriteOutput = true;
gp.Execute(combine, null);
return(combine.out_raster.ToString());
}
catch (Exception ex)
{
return(string.Empty);
}
}
public static void ExportLayerToUploadableRaster(string outputFilePath, string name, ILayer source)
{
try
{
// cast the selected/requested layer into a raster layer
ESRI.ArcGIS.Carto.IRasterLayer rasterLayer = (IRasterLayer)source;
// create a new raster to raster converter utility
ESRI.ArcGIS.DataManagementTools.CopyRaster raster2raster
= new ESRI.ArcGIS.DataManagementTools.CopyRaster();
// set the input raster layer
raster2raster.in_raster = rasterLayer;
// set the output path and Shapefile name
/* The name and location of the raster dataset to be created.
* .bil—Esri BIL
* .bip—Esri BIP
* .bmp—BMP
* .bsq—Esri BSQ
* .dat—ENVI DAT
* .gif—GIF
* .img—ERDAS IMAGINE
* .jpg—JPEG
* .jp2—JPEG 2000
* .png—PNG
* .tif—TIFF
* no extension for Esri Grid
*/
raster2raster.out_rasterdataset = outputFilePath + "\\" + name + ".tif";
// create a new GeoProcessor
ESRI.ArcGIS.Geoprocessor.Geoprocessor geoprocessor = new ESRI.ArcGIS.Geoprocessor.Geoprocessor();
// execute the RasterToOtherFormat
geoprocessor.Execute(raster2raster, null);
}
catch (Exception ex)
{
// an error occured
System.Windows.Forms.MessageBox.Show("Error: " + ex.Message);
}
}
public IRasterCatalog CreateRasterCat(string name, string sdePath)
{
ESRI.ArcGIS.Geoprocessor.Geoprocessor geoProcessor = new ESRI.ArcGIS.Geoprocessor.Geoprocessor();
CreateRasterCatalog createRasterCatalog = new CreateRasterCatalog();
IGPCoordinateSystem rSR = new GPCoordinateSystemClass();
IGPSpatialReference gSR = new GPSpatialReferenceClass();
rSR.SpatialReference = new UnknownCoordinateSystemClass();
gSR.SpatialReference = new UnknownCoordinateSystemClass();
createRasterCatalog.out_path = sdePath;
createRasterCatalog.out_name = name;
createRasterCatalog.raster_spatial_reference = (object)rSR;
createRasterCatalog.spatial_reference = (object)gSR;
geoProcessor.Execute(createRasterCatalog, null);
IRasterCatalog rastercat = ((IRasterWorkspaceEx)this.m_workSpace).OpenRasterCatalog(name);
return(rastercat);
}
private string Divide(string yagisLayer, string sicaklikLayer)
{
try
{
ESRI.ArcGIS.SpatialAnalystTools.Divide divide = new ESRI.ArcGIS.SpatialAnalystTools.Divide();
divide.in_raster_or_constant1 = yagisLayer;
divide.in_raster_or_constant2 = sicaklikLayer;
divide.out_raster = AppSingleton.Instance().WorkspacePath + "\\" + "sonucLayer";
ESRI.ArcGIS.Geoprocessor.Geoprocessor gp = new ESRI.ArcGIS.Geoprocessor.Geoprocessor();
gp.AddOutputsToMap = true;
gp.OverwriteOutput = true;
gp.Execute(divide, null);
return(divide.out_raster.ToString());
}
catch (Exception ex)
{
return(string.Empty);
}
}
private bool JoinField(object table, string inField, string joinTable, string joinField)
{
try
{
ESRI.ArcGIS.Geoprocessor.Geoprocessor gp = new ESRI.ArcGIS.Geoprocessor.Geoprocessor();
ESRI.ArcGIS.DataManagementTools.JoinField join = new ESRI.ArcGIS.DataManagementTools.JoinField();
join.in_data = table;
join.in_field = inField;
join.join_table = joinTable;
join.join_field = joinField;
gp.AddOutputsToMap = AppSingleton.Instance().AralariEkle;
gp.OverwriteOutput = true;
gp.Execute(join, null);
return(true);
}
catch (Exception ex)
{
return(false);
}
}
private bool ClipLayers(ILayer selectedLayer)
{
try
{
IFeatureWorkspace fWorkspace = AppSingleton.Instance().PersonalWorkspace as IFeatureWorkspace;
ESRI.ArcGIS.Geoprocessor.Geoprocessor gp = new ESRI.ArcGIS.Geoprocessor.Geoprocessor();
ESRI.ArcGIS.AnalysisTools.Clip clip = new ESRI.ArcGIS.AnalysisTools.Clip();
clip.in_features = selectedLayer;
clip.clip_features = AppSingleton.Instance().SinirLayer;
clip.out_feature_class = AppSingleton.Instance().WorkspacePath + "\\Clip_" + selectedLayer.Name;
gp.AddOutputsToMap = AppSingleton.Instance().AralariEkle;
gp.OverwriteOutput = true;
gp.Execute(clip, null);
//return clip.out_feature_class.ToString();
return(true);
}
catch (Exception ex)
{
return(false);
}
}
private bool CreateTin(ILayer selectedLayer, EnterpoleGrid grid)
{
try
{
ESRI.ArcGIS.Geoprocessor.Geoprocessor gp = new ESRI.ArcGIS.Geoprocessor.Geoprocessor();
ESRI.ArcGIS.Analyst3DTools.CreateTin createTin = new ESRI.ArcGIS.Analyst3DTools.CreateTin();
createTin.out_tin = AppSingleton.Instance().Path + "\\TIN_" + selectedLayer.Name; //RingBuffered_
//erdinç
createTin.in_features = AppSingleton.Instance().WorkspacePath + "\\Clip_" + selectedLayer.Name + " " + grid.FieldName + " hardline <None>"; // 10.1 Hard_Line ; 10.0 hardline
createTin.constrained_delaunay = "DELAUNAY";
gp.AddOutputsToMap = AppSingleton.Instance().AralariEkle;
gp.OverwriteOutput = true;
gp.Execute(createTin, null);
return(true);
}
catch (Exception ex)
{
return(false);
}
}
private bool Reclassify(string selectedLayer)
{
try
{
ESRI.ArcGIS.Geoprocessor.Geoprocessor gp = new ESRI.ArcGIS.Geoprocessor.Geoprocessor();
ESRI.ArcGIS.SpatialAnalystTools.Reclassify reclass = new ESRI.ArcGIS.SpatialAnalystTools.Reclassify();
reclass.in_raster = selectedLayer;//RingBuffered_
reclass.reclass_field = "Value";
reclass.out_raster = AppSingleton.Instance().WorkspacePath + "\\Reclassifiedlayer";
reclass.remap = "0 8 1;8 15 2;15 23 3;23 40 4;40 55 5;55 10000 6;NODATA 0";
gp.AddOutputsToMap = true;
gp.OverwriteOutput = true;
gp.Execute(reclass, null);
return(true);
}
catch (Exception ex)
{
return(false);
}
}
private bool CalculateField(ILayer selectedLayer)
{
try
{
ESRI.ArcGIS.Geoprocessor.Geoprocessor gp = new ESRI.ArcGIS.Geoprocessor.Geoprocessor();
ESRI.ArcGIS.DataManagementTools.CalculateField calculateField = new ESRI.ArcGIS.DataManagementTools.CalculateField();
calculateField.in_table = AppSingleton.Instance().WorkspacePath + "\\RingBuffered_" + selectedLayer.Name;
calculateField.field = "priority";
calculateField.expression = "1/Sqr ( [distance] )";
calculateField.expression_type = "VB";
gp.AddOutputsToMap = AppSingleton.Instance().AralariEkle;
gp.OverwriteOutput = true;
gp.Execute(calculateField, null);
return(true);
}
catch (Exception ex)
{
return(false);
}
}
private bool RingBuffer(ILayer selectedLayer, string distances)
{
try
{
ESRI.ArcGIS.Geoprocessor.Geoprocessor gp = new ESRI.ArcGIS.Geoprocessor.Geoprocessor();
ESRI.ArcGIS.AnalysisTools.MultipleRingBuffer ringBuffer = new ESRI.ArcGIS.AnalysisTools.MultipleRingBuffer();
ringBuffer.Input_Features = AppSingleton.Instance().WorkspacePath + "\\Clip_" + selectedLayer.Name;
ringBuffer.Output_Feature_class = AppSingleton.Instance().WorkspacePath + "\\RingBuffered_" + selectedLayer.Name;
ringBuffer.Distances = distances;//"50;100;150";
ringBuffer.Buffer_Unit = "Meters";
ringBuffer.Dissolve_Option = "NONE";
gp.AddOutputsToMap = AppSingleton.Instance().AralariEkle;
gp.OverwriteOutput = true;
gp.Execute(ringBuffer, null);
return(true);
}
catch (Exception ex)
{
return(false);
}
}
private bool AddField(ILayer selectedLayer, string fieldName, string type)
{
try
{
ESRI.ArcGIS.Geoprocessor.Geoprocessor gp = new ESRI.ArcGIS.Geoprocessor.Geoprocessor();
ESRI.ArcGIS.DataManagementTools.AddField addField = new ESRI.ArcGIS.DataManagementTools.AddField();
addField.in_table = AppSingleton.Instance().WorkspacePath + "\\" + type + selectedLayer.Name;
addField.field_name = fieldName;
addField.field_type = "DOUBLE";
addField.field_is_nullable = "NULLABLE";
addField.field_is_required = "NON_REQUIRED";
gp.AddOutputsToMap = AppSingleton.Instance().AralariEkle;
gp.OverwriteOutput = true;
gp.Execute(addField, null);
return(true);
}
catch (Exception ex)
{
return(false);
}
}
private string IDW(ILayer selectedLayer, string FieldName)
{
try
{
ESRI.ArcGIS.SpatialAnalystTools.Idw idw = new ESRI.ArcGIS.SpatialAnalystTools.Idw();
idw.cell_size = AppSingleton.Instance().CellSize;
idw.out_raster = AppSingleton.Instance().WorkspacePath + "\\" + selectedLayer.Name + "_IDW_" + FieldName;
idw.in_point_features = selectedLayer;
idw.z_field = FieldName;
idw.power = 3;
idw.search_radius = AppSingleton.Instance().IDWYaricap;
ESRI.ArcGIS.Geoprocessor.Geoprocessor gp = new ESRI.ArcGIS.Geoprocessor.Geoprocessor();
gp.AddOutputsToMap = AppSingleton.Instance().AralariEkle;
gp.OverwriteOutput = true;
gp.Execute(idw, null);
return(idw.out_raster.ToString());
}
catch (Exception ex)
{
return(string.Empty);
}
}
public static void ExportLayerToShapefile(string shapePath, string shapeName, ILayer source)
{
try
{
// cast the selected/requested layer into a feature layer
ESRI.ArcGIS.Carto.IFeatureLayer featureLayer = (IFeatureLayer)source;
// create a new feature class to feature class converter utility
ESRI.ArcGIS.ConversionTools.FeatureClassToFeatureClass fc2fc
= new ESRI.ArcGIS.ConversionTools.FeatureClassToFeatureClass();
// set the input feature layer
fc2fc.in_features = featureLayer;
// set the output path and Shapefile name
fc2fc.out_path = shapePath;
fc2fc.out_name = shapeName + ".shp";
// create a new GeoProcessor
ESRI.ArcGIS.Geoprocessor.Geoprocessor geoprocessor = new ESRI.ArcGIS.Geoprocessor.Geoprocessor();
// execute the FeatureClassToFeatureClass
geoprocessor.Execute(fc2fc, null);
// export a copy of the layer file definition too for upload/style at a later time
ESRI.ArcGIS.DataManagementTools.SaveToLayerFile saveToLayerFile
= new ESRI.ArcGIS.DataManagementTools.SaveToLayerFile();
saveToLayerFile.in_layer = source;
saveToLayerFile.out_layer = shapePath + "\\" + shapeName + ".lyr";
// execute the FeatureClassToFeatureClass
geoprocessor.Execute(saveToLayerFile, null);
}
catch (Exception ex)
{
// an error occured
System.Windows.Forms.MessageBox.Show("Error: " + ex.Message);
}
}
private IFeatureLayer DissolveLineLayer(IFeatureLayer InFeatureLayer)
{
try{
ITable dissolveTable = (ITable)InFeatureLayer;
IDataset dataset = (IDataset)InFeatureLayer;
ESRI.ArcGIS.Geoprocessor.Geoprocessor geoprocessor = new ESRI.ArcGIS.Geoprocessor.Geoprocessor();
ESRI.ArcGIS.DataManagementTools.Dissolve d = new ESRI.ArcGIS.DataManagementTools.Dissolve();
d.in_features = dissolveTable;
d.out_feature_class = System.IO.Path.Combine(dataset.Workspace.PathName, "doodie");
d.dissolve_field = "SHAPE";
//d.statistics_fields = "";
d.multi_part = "MULTI_PART";
geoprocessor.Execute(d, null);
return d.out_feature_class as IFeatureLayer ;
//ESRI.ArcGIS.Geoprocessor.Geoprocessor geoprocessor = new ESRI.ArcGIS.Geoprocessor.Geoprocessor();
//ESRI.ArcGIS.DataManagementTools.Dissolve d = new ESRI.ArcGIS.DataManagementTools.Dissolve();
//ESRI.ArcGIS.Geoprocessing.IGeoProcessorResult Result;
//IFeatureLayer pOutFeatureLayer = new FeatureLayer();
//try
//{
// geoprocessor.AddOutputsToMap = false;
// geoprocessor.OverwriteOutput = true;
// d.in_features = InFeatureLayer.Name ;
// d.dissolve_field = InFeatureLayer.FeatureClass.ShapeFieldName;
// d.out_feature_class = "Dissolve";
// Result = geoprocessor.Execute(d, null) as IGeoProcessorResult;
// pOutFeatureLayer.FeatureClass = geoprocessor.Open("Dissolve") as IFeatureClass;
// return pOutFeatureLayer;
//IFeatureLayer OutFeatureLayer = new FeatureLayer();
//IGxCatalogDefaultDatabase Defaultgdb = ArcMap.Application as IGxCatalogDefaultDatabase;
//string g = Defaultgdb.DefaultDatabaseName.PathName;
//ITable dissolveTable = (ITable)InFeatureLayer;
//IDataset dataset = (IDataset)InFeatureLayer;
//ESRI.ArcGIS.Geoprocessor.Geoprocessor geoprocessor = new ESRI.ArcGIS.Geoprocessor.Geoprocessor();
//ESRI.ArcGIS.DataManagementTools.Dissolve d = new ESRI.ArcGIS.DataManagementTools.Dissolve();
//d.in_features = dissolveTable;
//d.out_feature_class = Defaultgdb.DefaultDatabaseName.PathName + "\\diss";
//d.dissolve_field = InFeatureLayer.FeatureClass.ShapeFieldName;
////d.statistics_fields = "";
////d.multi_part = "MULTI_PART";
//geoprocessor.Execute(d, null);
//OutFeatureLayer.FeatureClass = d.out_feature_class as IFeatureClass;
//return OutFeatureLayer;
////return d.out_feature_class as IFeatureClass;
}
catch (Exception ex)
{
MessageBox.Show(ex.Message);
MessageBox.Show(ex.StackTrace);
return null;
}
}
/// <summary>
/// Run the Geoprocessing model
/// </summary>
/// <param name="modelParametersHybridDictionary">A HybridDictionary that contains all of the arguments to run the model</param>
/// <returns>A message of how well the model executed</returns>
/// <remarks></remarks>
public static System.String ExecuteCustomGeoprocessingFunction(System.Collections.Specialized.HybridDictionary modelParametersHybridDictionary)
{
try
{
// Create a Geoprocessor object
ESRI.ArcGIS.Geoprocessor.Geoprocessor gp = new ESRI.ArcGIS.Geoprocessor.Geoprocessor();
// Set the OverwriteOutput setting to True
gp.OverwriteOutput = true;
// Create a new instance of our custom model
MYCUSTOMTOOLBOX.GolfFinder myModel = new MYCUSTOMTOOLBOX.GolfFinder();
// Set the custom models parameters.
myModel.BufferDistance = modelParametersHybridDictionary["BufferDistance"];
myModel.AIRPORT = modelParametersHybridDictionary["Airports"];
myModel.GOLF = modelParametersHybridDictionary["Golf"];
myModel.AirportBuffer = modelParametersHybridDictionary["AirportBuffer"];
myModel.Golf_Courses_Near_Airports = modelParametersHybridDictionary["GolfNearAirports"];
// Execute the model and obtain the result from the run
ESRI.ArcGIS.Geoprocessing.IGeoProcessorResult geoProcessorResult = (ESRI.ArcGIS.Geoprocessing.IGeoProcessorResult)gp.Execute(myModel, null);
if (geoProcessorResult == null)
{
// We have an error running the model.
// If the run fails a Nothing (VB.NET) or null (C#) is returned from the gp.Execute
object sev = 2;
string messages = gp.GetMessages(ref sev);
return messages;
}
else
{
// The model completed successfully
return "Output successful. The shapefiles are locacted at: " + geoProcessorResult.ReturnValue.ToString();
}
}
catch (Exception ex)
{
// Catch any other errors
return "Error running the model. Debug the application and test again.";
}
}
public static void ExportLayerToUploadableRaster(string outputFilePath, string name, ILayer source)
{
try
{
// cast the selected/requested layer into a raster layer
ESRI.ArcGIS.Carto.IRasterLayer rasterLayer = (IRasterLayer)source;
// create a new raster to raster converter utility
ESRI.ArcGIS.DataManagementTools.CopyRaster raster2raster
= new ESRI.ArcGIS.DataManagementTools.CopyRaster();
// set the input raster layer
raster2raster.in_raster = rasterLayer;
// set the output path and Shapefile name
/* The name and location of the raster dataset to be created.
* .bil—Esri BIL
* .bip—Esri BIP
* .bmp—BMP
* .bsq—Esri BSQ
* .dat—ENVI DAT
* .gif—GIF
* .img—ERDAS IMAGINE
* .jpg—JPEG
* .jp2—JPEG 2000
* .png—PNG
* .tif—TIFF
* no extension for Esri Grid
*/
raster2raster.out_rasterdataset = outputFilePath + "\\" + name + ".tif";
// create a new GeoProcessor
ESRI.ArcGIS.Geoprocessor.Geoprocessor geoprocessor = new ESRI.ArcGIS.Geoprocessor.Geoprocessor();
// execute the RasterToOtherFormat
geoprocessor.Execute(raster2raster, null);
}
catch (Exception ex)
{
// an error occured
System.Windows.Forms.MessageBox.Show("Error: " + ex.Message);
}
}
public IRasterCatalog CreateRasterCat(string name, string sdePath)
{
ESRI.ArcGIS.Geoprocessor.Geoprocessor geoProcessor = new ESRI.ArcGIS.Geoprocessor.Geoprocessor();
CreateRasterCatalog createRasterCatalog = new CreateRasterCatalog();
IGPCoordinateSystem rSR = new GPCoordinateSystemClass();
IGPSpatialReference gSR = new GPSpatialReferenceClass();
rSR.SpatialReference = new UnknownCoordinateSystemClass();
gSR.SpatialReference = new UnknownCoordinateSystemClass();
createRasterCatalog.out_path = sdePath;
createRasterCatalog.out_name = name;
createRasterCatalog.raster_spatial_reference = (object)rSR;
createRasterCatalog.spatial_reference = (object)gSR;
geoProcessor.Execute(createRasterCatalog, null);
IRasterCatalog rastercat = ((IRasterWorkspaceEx)this.m_workSpace).OpenRasterCatalog(name);
return rastercat;
}
public bool AppendTable(string InTable, string TargetTable, bool Messages = false)
{
ESRI.ArcGIS.Geoprocessor.Geoprocessor gp = new ESRI.ArcGIS.Geoprocessor.Geoprocessor();
gp.OverwriteOutput = true;
IGeoProcessorResult myresult = new GeoProcessorResultClass();
// Create a variant array to hold the parameter values.
IVariantArray parameters = new VarArrayClass();
// Populate the variant array with parameter values.
parameters.Add(InTable);
parameters.Add(TargetTable);
// Execute the tool. Note this only works with geodatabase tables.
try
{
myresult = (IGeoProcessorResult)gp.Execute("Append_management", parameters, null);
// Wait until the execution completes.
while (myresult.Status == esriJobStatus.esriJobExecuting)
Thread.Sleep(1000);
// Wait for 1 second.
if (Messages)
{
MessageBox.Show("Process complete");
}
gp = null;
return true;
}
catch (Exception ex)
{
MessageBox.Show(ex.Message, "Error", MessageBoxButtons.OK, MessageBoxIcon.Error);
gp = null;
return false;
}
}
public bool CopyFeatures(string InFeatureClass, string OutFeatureClass, bool Messages = false)
{
ESRI.ArcGIS.Geoprocessor.Geoprocessor gp = new ESRI.ArcGIS.Geoprocessor.Geoprocessor();
gp.OverwriteOutput = true;
IGeoProcessorResult myresult = new GeoProcessorResultClass();
object sev = null;
// Create a variant array to hold the parameter values.
IVariantArray parameters = new VarArrayClass();
// Populate the variant array with parameter values.
parameters.Add(InFeatureClass);
parameters.Add(OutFeatureClass);
// Execute the tool.
try
{
myresult = (IGeoProcessorResult)gp.Execute("CopyFeatures_management", parameters, null);
// Wait until the execution completes.
while (myresult.Status == esriJobStatus.esriJobExecuting)
Thread.Sleep(1000);
// Wait for 1 second.
if (Messages)
{
MessageBox.Show("Process complete");
}
gp = null;
return true;
}
catch (Exception ex)
{
if (Messages)
{
MessageBox.Show(ex.Message, "Error", MessageBoxButtons.OK, MessageBoxIcon.Error);
MessageBox.Show(gp.GetMessages(ref sev));
}
gp = null;
return false;
}
}
public bool CopyTable(string InTable, string OutTable, bool Messages = false)
{
// This works absolutely fine for dbf and geodatabase but does not export to CSV.
// Note the csv export already removes ghe geometry field; in this case it is not necessary to check again.
ESRI.ArcGIS.Geoprocessor.Geoprocessor gp = new ESRI.ArcGIS.Geoprocessor.Geoprocessor();
gp.OverwriteOutput = true;
IGeoProcessorResult myresult = new GeoProcessorResultClass();
// Create a variant array to hold the parameter values.
IVariantArray parameters = new VarArrayClass();
// Populate the variant array with parameter values.
parameters.Add(InTable);
parameters.Add(OutTable);
// Execute the tool.
try
{
myresult = (IGeoProcessorResult)gp.Execute("CopyRows_management", parameters, null);
// Wait until the execution completes.
while (myresult.Status == esriJobStatus.esriJobExecuting)
Thread.Sleep(1000);
// Wait for 1 second.
if (Messages)
{
MessageBox.Show("Process complete");
}
gp = null;
return true;
}
catch (Exception ex)
{
MessageBox.Show(ex.Message, "Error", MessageBoxButtons.OK, MessageBoxIcon.Error);
gp = null;
return false;
}
}