/// <summary>
/// Run RasterToPoly tool to convert input raster to poly's. Then run Intersect if input geomList has features
/// </summary>
/// <param name="rasterLayer"></param>
/// <param name="ipDataset"></param>
/// <param name="workspace"></param>
/// <param name="geomList"></param>
/// <returns>Featureclass name</returns>
private string IntersectOutput(IRasterLayer rasterLayer, IDataset ipDataset, IFeatureWorkspace workspace, List <IGeometry> geomList)
{
IGeoProcessor2 gp = new GeoProcessorClass();
gp.AddOutputsToMap = false;
// Run RasterToPolygon
string inRaster = rasterLayer.FilePath;
string outRasterToPolyFcName = ipDataset.BrowseName + "_rasterToPoly";
string outRasterToPolyPath = ipDataset.Workspace.PathName + "\\" + outRasterToPolyFcName;
string field = "VALUE";
IVariantArray rasterToPolyParams = new VarArrayClass();
rasterToPolyParams.Add(inRaster);
rasterToPolyParams.Add(outRasterToPolyPath);
rasterToPolyParams.Add("NO_SIMPLIFY");
rasterToPolyParams.Add(field);
try
{
object oResult = gp.Execute("RasterToPolygon_conversion", rasterToPolyParams, null);
IGeoProcessorResult ipResult = (IGeoProcessorResult)oResult;
if (geomList.Count == 0)
{
return(outRasterToPolyFcName);
}
if (ipResult.Status == esriJobStatus.esriJobSucceeded)
{
string outFcName = ipDataset.BrowseName + "_intersectRaster";
string outPath = ipDataset.Workspace.PathName + "\\" + outFcName;
// Add a mask to buffer the output to selected distance
string fcPath = SetGPMask(workspace, geomList, gp, "intersectMask");
string pathParam = outRasterToPolyPath + ";" + fcPath;
IVariantArray parameters = new VarArrayClass();
parameters.Add(pathParam);
parameters.Add(outPath);
object oResult2 = gp.Execute("Intersect_analysis", parameters, null);
IGeoProcessorResult ipResult2 = (IGeoProcessorResult)oResult2;
return(outFcName);
}
else
{
return(null);
}
}
catch (Exception ex)
{
return(null);
}
}
public bool ConvertLayerToKML(string kmzOutputPath, string tmpShapefilePath,
ESRI.ArcGIS.Carto.IMap map, GraphicTypes graphicType)
{
try
{
string kmzName = System.IO.Path.GetFileName(kmzOutputPath);
IGeoProcessor2 gp = new GeoProcessorClass();
gp.OverwriteOutput = true;
IGeoFeatureLayer geoLayer = null;
IVariantArray parameters = new VarArrayClass();
parameters.Add(tmpShapefilePath);
parameters.Add(kmzName);
gp.Execute("MakeFeatureLayer_management", parameters, null);
string layerFileName = getLayerFileFromGraphicType(graphicType);
if (!string.IsNullOrEmpty(layerFileName))
{
IVariantArray parametersASM = new VarArrayClass();
parametersASM.Add(kmzName);
parametersASM.Add(layerFileName);
gp.Execute("ApplySymbologyFromLayer_management", parametersASM, null);
}
IVariantArray parameters1 = new VarArrayClass();
// assign parameters
parameters1.Add(kmzName);
parameters1.Add(kmzOutputPath);
gp.Execute("LayerToKML_conversion", parameters1, null);
// Remove the temporary layer from the TOC
for (int i = 0; i < map.LayerCount; i++)
{
ILayer layer = map.get_Layer(i);
if ((layer.Name == "featureLayer") || (layer.Name == kmzName))
{
map.DeleteLayer(layer);
break;
}
}
if (geoLayer != null)
{
map.DeleteLayer(geoLayer);
}
return(true);
}
catch (Exception ex)
{
System.Diagnostics.Debug.WriteLine(ex.Message);
return(false);
}
}
private void iVariantArray方式ToolStripMenuItem_Click(object sender, EventArgs e)
{
IGeoProcessor2 gp = new GeoProcessorClass();
gp.OverwriteOutput = true;
IGeoProcessorResult result = new GeoProcessorResultClass();
// Create a variant array to hold the parameter values.
IVariantArray parameters = new VarArrayClass();
object sev = null;
try
{
// Populate the variant array with parameter values.
parameters.Add(FileGDBPath + "\\LotIds");
parameters.Add(FileGDBPath + "\\LotIds_BufferArray");
parameters.Add("100 Feet");
// Execute the tool.
result = gp.Execute("Buffer_analysis", parameters, null);
// Print geoprocessring messages.
Console.WriteLine(gp.GetMessages(ref sev));
}
catch (Exception ex)
{
// Print a generic exception message.
Console.WriteLine(ex.Message);
// Print geoprocessing execution error messages.
Console.WriteLine(gp.GetMessages(ref sev));
}
}
public static void BufferAnalysis(IFeatureClass feacls,string dist)
{
IGeoProcessor2 gp = new GeoProcessorClass();
gp.OverwriteOutput = true;
IGeoProcessorResult result = new GeoProcessorResultClass();
//gp.SetEnvironmentValue("workspace", @"e:\data");
IVariantArray vararr = new VarArrayClass();
object sev = null;
try
{
vararr.Add(feacls);
vararr.Add(@"e:\data\wwwwwww.shp");
vararr.Add(dist);
result = gp.Execute("Buffer_analysis", vararr, null);
while (result.Status == esriJobStatus.esriJobExecuting)
Thread.Sleep(1000);
MessageBox.Show(gp.GetMessages(ref sev));
}
catch (System.Exception ex)
{
MessageBox.Show(ex.Message);
MessageBox.Show(gp.GetMessages(ref sev));
}
}
private void simpleButton4_Click(object sender, EventArgs e)
{
if (this.comboBoxEditInputRaster2.Text.ToString() == "" || this.comboBoxEditOutputRaster.Text.ToString() == "")
{
MessageBox.Show("请输入参数!", "提示", MessageBoxButtons.OK, MessageBoxIcon.Information);
return;
}
string strResultsDBPath = m_pGDBHelper.GetResultsDBPath();
if (Utilities.GDBUtilites.CheckNameExist(strResultsDBPath, this.comboBoxEditOutputRaster.Text.ToString()) == false)
{
//执行R2V分析
ILayer pInputLayer1 = null;
for (int i = 0; i < m_pMapCtrl.LayerCount; i++)
{
if (m_pMapCtrl.get_Layer(i).Name == this.comboBoxEditInputRaster2.Text.ToString())
{
pInputLayer1 = m_pMapCtrl.get_Layer(i);
}
}
if (pInputLayer1 != null)
{
IRasterLayer pRasterLayer1 = pInputLayer1 as IRasterLayer;
IGeoProcessor2 pGP = new GeoProcessorClass();
pGP.AddToolbox(m_pGDBHelper.GetToolboxPath());
IVariantArray gpParameters = new VarArrayClass();
gpParameters.Add(pRasterLayer1.Raster);
gpParameters.Add(m_pGDBHelper.GetResultsDBPath() + "\\" + this.comboBoxEditOutputRaster.Text.ToString());
IGeoProcessorResult pGeoProcessorResult = pGP.Execute("Raster2Vector", gpParameters, null);
if (pGeoProcessorResult.Status == esriJobStatus.esriJobSucceeded)
{
if (this.checkBox1.Checked)
{
//IWorkspaceFactory2 pWKF = new FileGDBWorkspaceFactoryClass();
//IFeatureL pFW = (IFeatureWorkspace)pWKF.OpenFromFile(m_pGDBHelper.GetResultsDBPath() + "\\" + this.comboBoxEditOutputRaster.Text.ToString(), 0);
//IRasterWorkspaceEx pRasterWKEx = (IRasterWorkspaceEx)pWKF.OpenFromFile(m_pGDBHelper.GetResultsDBPath(), 0);
//IRasterDataset3 pRasterDataset = pRasterWKEx.OpenRasterDataset(this.comboBoxEditOutputRaster.Text.ToString()) as IRasterDataset3;
//Utilities.MapUtilites.AddRasterLayer(m_pMapCtrl.ActiveView, pRasterDataset, null);
}
MessageBox.Show("转换完成!", "提示", MessageBoxButtons.OK, MessageBoxIcon.Information);
}
}
this.DialogResult = DialogResult.OK;
this.Close();
}
else
{
MessageBox.Show("已存在同名数据!", "提示", MessageBoxButtons.OK, MessageBoxIcon.Information);
return;
}
}
private void iToolStripMenuItem_Click(object sender, EventArgs e)
{
// Initialize the geoprocessor.
IGeoProcessor2 gp = new GeoProcessorClass();
gp.OverwriteOutput = true;
// Add the BestPath toolbox.
gp.AddToolbox(tbxPath);
// Generate the array of parameters.
IVariantArray parameters = new VarArrayClass();
parameters.Add(FileGDBPath + "\\LotIds");
parameters.Add("100 Feet");
parameters.Add(FileGDBPath + "\\LotIds_BufferCustomArray1");
object sev = null;
try
{
// Execute the model tool by name.
gp.Execute("Model2", parameters, null);
Console.WriteLine(gp.GetMessages(ref sev));
}
catch (Exception ex)
{
// Print geoprocessing execution error messages.
Console.WriteLine(gp.GetMessages(ref sev));
}
}
static void Main(string[] args)
{
// Load the product code and version to the version manager
ESRI.ArcGIS.RuntimeManager.Bind(ESRI.ArcGIS.ProductCode.Desktop);
//ESRI License Initializer generated code.
m_AOLicenseInitializer.InitializeApplication(new esriLicenseProductCode[] { esriLicenseProductCode.esriLicenseProductCodeAdvanced },
new esriLicenseExtensionCode[] { });
// Create geoprocessor. Overwrite true will replace existing output
IGeoProcessor2 gp = new GeoProcessorClass();
gp.OverwriteOutput = true;
// Get the workspace from the user
Console.WriteLine("Enter the path to folder where you copied the data folder.");
Console.WriteLine("Example: C:\\AirportsAndGolf\\data");
Console.Write(">");
string wks = Console.ReadLine();
// set the workspace to the value user entered
gp.SetEnvironmentValue("workspace", wks + "\\" + "golf.gdb");
// Add the custom toolbox to geoprocessor
gp.AddToolbox(wks + "\\" + "Find Golf Courses.tbx");
// Create a variant - data are in the workspace
IVariantArray parameters = new VarArrayClass();
parameters.Add("Airports");
parameters.Add("8 Miles");
parameters.Add("Golf");
parameters.Add("GolfNearAirports");
object sev = null;
try
{
gp.Execute("GolfFinder", parameters, null);
Console.WriteLine(gp.GetMessages(ref sev));
}
catch (Exception ex)
{
Console.WriteLine(ex.Message);
string errorMsgs = gp.GetMessages(ref sev);
Console.WriteLine(errorMsgs);
}
finally
{
Console.WriteLine("Hit Enter to quit");
Console.ReadLine(); // pause the console to see messages
}
//ESRI License Initializer generated code.
//Do not make any call to ArcObjects after ShutDownApplication()
m_AOLicenseInitializer.ShutdownApplication();
}
public bool ConvertLayerToKML(IFeatureClass fc, string kmzOutputPath, string tmpShapefilePath, ESRI.ArcGIS.Carto.IMap map)
{
try
{
string kmzName = System.IO.Path.GetFileName(kmzOutputPath);
string folderName = System.IO.Path.GetDirectoryName(kmzOutputPath);
var fcName = System.IO.Path.GetFileNameWithoutExtension(kmzName);
IFeatureLayer fLayer = new FeatureLayer();
fLayer.FeatureClass = fc;
var geoLayer = (fLayer as IGeoFeatureLayer);
if (geoLayer.FeatureClass.ShapeType == esriGeometryType.esriGeometryPoint)
{
ISimpleMarkerSymbol pSimpleMarkerSymbol = new SimpleMarkerSymbolClass();
pSimpleMarkerSymbol.Style = esriSimpleMarkerStyle.esriSMSCircle;
pSimpleMarkerSymbol.Size = CoordinateConversionLibrary.Constants.SymbolSize;
pSimpleMarkerSymbol.Color = new RgbColorClass()
{
Red = 255
};
ISimpleRenderer pSimpleRenderer;
pSimpleRenderer = new SimpleRenderer();
pSimpleRenderer.Symbol = (ISymbol)pSimpleMarkerSymbol;
geoLayer.Name = fcName;
geoLayer.Renderer = (IFeatureRenderer)pSimpleRenderer;
}
var featureLayer = geoLayer as FeatureLayer;
map.AddLayer(geoLayer);
// Initialize the geoprocessor.
IGeoProcessor2 gp = new GeoProcessorClass();
IVariantArray parameters = new VarArrayClass();
parameters.Add(featureLayer.Name);
parameters.Add(folderName + "\\" + kmzName);
var result = gp.Execute(CoordinateConversionLibrary.Constants.LayerToKMLGPTool, parameters, null);
// Remove the temporary layer from the TOC
for (int i = 0; i < map.LayerCount; i++)
{
ILayer layer = map.get_Layer(i);
if (layer.Name == fcName)
{
map.DeleteLayer(layer);
break;
}
}
return(true);
}
catch (Exception ex)
{
System.Diagnostics.Debug.WriteLine(ex.Message);
}
return(false);
}
private void btn_CalibrateRoute_Click(object sender, EventArgs e)
{
// Create the geoprocessor.
IGeoProcessor2 gp = new GeoProcessorClass();
gp.OverwriteOutput = true;
IGeoProcessorResult result = new GeoProcessorResultClass();
// Create a variant array to hold the parameter values.
IVariantArray parameters = new VarArrayClass();
object sev = null;
string wholeName = RouteBox.Text;
string[] arrayName = wholeName.Split('\\');
string gdbName = arrayName.GetGDBPath();
string outName = gdbName + "\\test\\CalibrateRoute2";
Console.WriteLine(outName);
try
{
// Populate the variant array with parameter values.
parameters.Add(@RouteBox.Text);
parameters.Add("ProjectID");
parameters.Add(PointBox.Text);
parameters.Add("SvyLineID");
parameters.Add("distance");
parameters.Add(@outName);
// Execute the tool.
result = gp.Execute("CalibrateRoutes_lr ", parameters, null);
// Wait until the execution completes.
while (result.Status == esriJobStatus.esriJobExecuting)
{
Thread.Sleep(1000);
}
// Wait for 1 second.
// Print geoprocessring messages.
Console.WriteLine(gp.GetMessages(ref sev));
}
catch (Exception ex)
{
// Print a generic exception message.
Console.WriteLine(ex.Message);
// Print geoprocessing execution error messages.
Console.WriteLine(gp.GetMessages(ref sev));
}
MessageBox.Show("线性参考完成!");
}
static void Main(string[] args)
{
// Load the product code and version to the version manager
ESRI.ArcGIS.RuntimeManager.Bind(ESRI.ArcGIS.ProductCode.Desktop);
//ESRI License Initializer generated code.
m_AOLicenseInitializer.InitializeApplication(new esriLicenseProductCode[] { esriLicenseProductCode.esriLicenseProductCodeAdvanced },
new esriLicenseExtensionCode[] { });
// Create geoprocessor. Overwrite true will replace existing output
IGeoProcessor2 gp = new GeoProcessorClass();
gp.OverwriteOutput = true;
// Get the workspace from the user
Console.WriteLine("Enter the path to folder where you copied the data folder.");
Console.WriteLine("Example: C:\\AirportsAndGolf\\data");
Console.Write(">");
string wks = Console.ReadLine();
// set the workspace to the value user entered
gp.SetEnvironmentValue("workspace", wks + "\\" + "golf.gdb");
// Add the custom toolbox to geoprocessor
gp.AddToolbox(wks + "\\" + "Find Golf Courses.tbx");
// Create a variant - data are in the workspace
IVariantArray parameters = new VarArrayClass();
parameters.Add("Airports");
parameters.Add("8 Miles");
parameters.Add("Golf");
parameters.Add("GolfNearAirports");
object sev = null;
try
{
gp.Execute("GolfFinder", parameters, null);
Console.WriteLine(gp.GetMessages(ref sev));
}
catch (Exception ex)
{
Console.WriteLine(ex.Message);
string errorMsgs = gp.GetMessages(ref sev);
Console.WriteLine(errorMsgs);
}
finally
{
Console.WriteLine("Hit Enter to quit");
Console.ReadLine(); // pause the console to see messages
}
//ESRI License Initializer generated code.
//Do not make any call to ArcObjects after ShutDownApplication()
m_AOLicenseInitializer.ShutdownApplication();
}
//执行GP的数据修复功能
//田晶添加20080916
//修改,提高效率
//靳军杰2011-11-30
/// <summary>
/// 修复面图层自相交错误
/// </summary>
/// <param name="sPath"></param>
/// <returns></returns>
public bool FeatureRepair(string sPath)
{
if (string.IsNullOrEmpty(sPath))
{
return(false);
}
IGeoProcessor pGP = new GeoProcessorClass();
try
{
//GT_CARTO.XApplication.ProgressBar.ShowGifProgress(null);
//GT_CARTO.XApplication.ProgressBar.ShowHint("正在预处理地类图斑数据...");
//string sPath = pWks.PathName;
pGP.OverwriteOutput = true;
pGP.SetEnvironmentValue("workspace", (object)sPath);
IGpEnumList pfds = pGP.ListFeatureClasses("", "Polygon", "Dataset");
string sFeatClsName = pfds.Next();
//IGeoProcessorResult pResult;
while (!string.IsNullOrEmpty(sFeatClsName))
{
if (!sFeatClsName.Contains("_Standard") &&
!sFeatClsName.Equals("TK", StringComparison.OrdinalIgnoreCase))
{
//要修复的FeatureClass路径
string sInFeatureClassPath = string.Format("{0}\\dataset\\{1}", sPath, sFeatClsName);
IVariantArray pValues = new VarArrayClass();
pValues.Add(sInFeatureClassPath);
pGP.Execute("RepairGeometry", pValues, null);
object obj = 2;
//GT_CONST.LogAPI.CheckLog.AppendErrLogs(pGP.GetMessages(ref obj));
}
sFeatClsName = pfds.Next();
}
return(true);
}
catch (Exception exp)
{
Hy.Common.Utility.Log.OperationalLogManager.AppendMessage(exp.ToString());
//GT_CARTO.XApplication.ProgressBar.Hide();
return(false);
}
finally
{
//GT_CARTO.XApplication.ProgressBar.Hide();
Marshal.ReleaseComObject(pGP);
}
}
private void btnRename_Click(object sender, EventArgs e)
{
IGeoProcessor2 gp = new GeoProcessorClass();
IVariantArray parameters = new VarArrayClass();
// Populate the variant array with parameter values.
parameters.Add(@"C:\gis\Projects\syria\data\temp\Export_Output.shp");
parameters.Add(@"C:\gis\Projects\syria\data\temp\Export_Output2.shp");
// Execute the tool
gp.Execute("Rename_management", parameters, null);
}
public static void CopyFeatures(IFeatureClass feaCls)
{
IGeoProcessor2 geoProcessor2 = new GeoProcessorClass();
geoProcessor2.OverwriteOutput = true;
geoProcessor2.SetEnvironmentValue("workspace", @"e:\GP\California.gdb");
IVariantArray parameters = new VarArrayClass();
parameters.Add("Lakes");
parameters.Add("origin_copy");
geoProcessor2.Execute("CopyFeatures_management", parameters, null);
}
/// <summary>
/// 拷贝要素类
/// </summary>
/// <param name="sourcePath">需要拷贝的要素类路径</param>
/// <param name="targetPath">拷贝要素类的路径</param>
static private IFeatureClass CopyFeatureClass(string sourcePath, string targetPath)
{
Console.WriteLine("拷贝要素类");
IWorkspace workspace;
IFeatureWorkspace featureWorkspace;
IWorkspaceFactory workspaceFactory = new ShapefileWorkspaceFactoryClass();
string path_dir = System.IO.Path.GetDirectoryName(targetPath);
workspace = workspaceFactory.OpenFromFile(System.IO.Path.GetDirectoryName(targetPath), 0);
featureWorkspace = workspace as IFeatureWorkspace;
if (File.Exists(targetPath)) //存在该路径,则在文件夹中找到文件并删除
{
string fileName = System.IO.Path.GetFileNameWithoutExtension(targetPath); //文件名称
DirectoryInfo root = new DirectoryInfo(path_dir);
foreach (FileInfo f in root.GetFiles())
{
if (f.Name.Split('.')[0] == fileName)
{
string filepath = f.FullName;
File.Delete(filepath);
}
}
}
//拷贝要素类
IGeoProcessor2 gp = new GeoProcessorClass();
gp.OverwriteOutput = true;
IGeoProcessorResult result = new GeoProcessorResultClass();
IVariantArray parameters = new VarArrayClass();
object sev = null;
try
{
parameters.Add(sourcePath);
parameters.Add(targetPath);
result = gp.Execute("Copy_management", parameters, null);
Console.WriteLine(gp.GetMessages(ref sev));
}
catch (Exception ex)
{
Console.WriteLine(ex.Message);
Console.WriteLine(gp.GetMessages(ref sev));
}
string name = System.IO.Path.GetFileName(targetPath);
IFeatureClass featureClass = featureWorkspace.OpenFeatureClass(name);
return(featureClass);
}
public bool ConvertLayerToKML(string kmzOutputPath, string tmpShapefilePath, ESRI.ArcGIS.Carto.IMap map)
{
try
{
string kmzName = System.IO.Path.GetFileName(kmzOutputPath);
string folderName = System.IO.Path.GetDirectoryName(kmzOutputPath);
IGeoProcessor2 gp = new GeoProcessorClass();
IVariantArray parameters = new VarArrayClass();
parameters.Add(tmpShapefilePath);
parameters.Add(kmzName);
gp.Execute("MakeFeatureLayer_management", parameters, null);
IVariantArray parameters1 = new VarArrayClass();
// assign parameters
parameters1.Add(kmzName);
parameters1.Add(kmzOutputPath);
gp.Execute("LayerToKML_conversion", parameters1, null);
// Remove the temporary layer from the TOC
for (int i = 0; i < map.LayerCount; i++)
{
ILayer layer = map.get_Layer(i);
if (layer.Name == "featureLayer")
{
map.DeleteLayer(layer);
break;
}
}
return(true);
}
catch (Exception ex)
{
return(false);
}
}
public bool ConvertLayerToKML(string kmzOutputPath, string tmpShapefilePath, ESRI.ArcGIS.Carto.IMap map)
{
try
{
string kmzName = System.IO.Path.GetFileName(kmzOutputPath);
string folderName = System.IO.Path.GetDirectoryName(kmzOutputPath);
IGeoProcessor2 gp = new GeoProcessorClass();
IVariantArray parameters = new VarArrayClass();
parameters.Add(tmpShapefilePath);
parameters.Add(kmzName);
gp.Execute("MakeFeatureLayer_management", parameters, null);
IVariantArray parameters1 = new VarArrayClass();
// assign parameters
parameters1.Add(kmzName);
parameters1.Add(kmzOutputPath);
gp.Execute("LayerToKML_conversion", parameters1, null);
// Remove the temporary layer from the TOC
for (int i = 0; i < map.LayerCount; i++ )
{
ILayer layer = map.get_Layer(i);
if (layer.Name == "featureLayer")
{
map.DeleteLayer(layer);
break;
}
}
return true;
}
catch(Exception ex)
{
return false;
}
}
//获取栅格最小值
public double GetMinPixelValue(string fullfilepath)
{
double min = 0;
IGeoProcessor2 gp = new GeoProcessorClass();
gp.OverwriteOutput = true;
IGeoProcessorResult result = new GeoProcessorResultClass();
IVariantArray parameters = new VarArrayClass();
parameters.Add(fullfilepath);
parameters.Add("MINIMUM");
result = gp.Execute("GetRasterProperties_management", parameters, null);
min = Convert.ToDouble(result.ReturnValue);
return(min);
}
public bool RebuildMosaicDataset(string mosaicDatasetName)
{
IMosaicDataset pMosaicDataset = OpenMosaicDataset(GetRastersDBPath(), mosaicDatasetName);
IGeoProcessor2 pGP = new GeoProcessorClass();
pGP.AddToolbox(GetToolboxPath());
IVariantArray gpParameters = new VarArrayClass();
gpParameters.Add(pMosaicDataset);
IGeoProcessorResult pGeoProcessorResult = pGP.Execute("ReseeBuildMosaicDataset", gpParameters, null);
if (pGeoProcessorResult.Status == esriJobStatus.esriJobSucceeded)
{
return(true);
}
return(false);
}
// Export map frame kml as raster
public static void exportMapFrameKmlAsRaster(IMxDocument pMxDoc, string dataFrame, string filePathName, string scale)
{
IGeoProcessor2 gp = new GeoProcessorClass();
IVariantArray parameters = new VarArrayClass();
// Get the mxd path to pass as the first variable
IDocumentInfo2 docInfo = pMxDoc as IDocumentInfo2;
string path = docInfo.Path;
// Get the bounding box of the map frame
//############### This function needs to be updated to incorporate projected map frames, it currently only works if the frame is wgs84 #############
var dict = Utilities.getMapFrameWgs84BoundingBox(pMxDoc, dataFrame);
string boundingBox = dict["xMin"] + " " + dict["yMin"] + " " + dict["xMax"] + " " + dict["yMax"];
Debug.WriteLine("Bounding box: " + boundingBox);
Debug.WriteLine("mxd path: " + path);
// Add parameters
parameters.Add(@path);
parameters.Add(dataFrame);
parameters.Add(@filePathName);
parameters.Add(scale);
parameters.Add("COMPOSITE");
parameters.Add(false);
parameters.Add(boundingBox);
// Execute the tool
try
{
Debug.WriteLine("Starting KML output..");
gp.Execute("MapToKML_conversion", parameters, null);
Debug.WriteLine("Finished KML output");
}
catch (Exception e)
{
Debug.WriteLine(e);
}
}
public void Execute(ESRI.ArcGIS.esriSystem.IArray paramvalues, ESRI.ArcGIS.esriSystem.ITrackCancel TrackCancel, ESRI.ArcGIS.Geoprocessing.IGPEnvironmentManager envMgr, ESRI.ArcGIS.Geodatabase.IGPMessages message)
{
IFeatureClass osmPointFeatureClass = null;
IFeatureClass osmLineFeatureClass = null;
IFeatureClass osmPolygonFeatureClass = null;
OSMToolHelper osmToolHelper = null;
try
{
DateTime syncTime = DateTime.Now;
IGPUtilities3 gpUtilities3 = new GPUtilitiesClass();
osmToolHelper = new OSMToolHelper();
if (TrackCancel == null)
{
TrackCancel = new CancelTrackerClass();
}
IGPParameter osmFileParameter = paramvalues.get_Element(in_osmFileNumber) as IGPParameter;
IGPValue osmFileLocationString = gpUtilities3.UnpackGPValue(osmFileParameter) as IGPValue;
// ensure that the specified file does exist
bool osmFileExists = false;
try
{
osmFileExists = System.IO.File.Exists(osmFileLocationString.GetAsText());
}
catch (Exception ex)
{
message.AddError(120029, String.Format(resourceManager.GetString("GPTools_OSMGPMultiLoader_problemaccessingfile"), ex.Message));
return;
}
if (osmFileExists == false)
{
message.AddError(120030, String.Format(resourceManager.GetString("GPTools_OSMGPFileReader_osmfiledoesnotexist"), osmFileLocationString.GetAsText()));
return;
}
long nodeCapacity = 0;
long wayCapacity = 0;
long relationCapacity = 0;
// this assume a clean, tidy XML file - if this is not the case, there will by sync issues later on
osmToolHelper.countOSMStuffFast(osmFileLocationString.GetAsText(), ref nodeCapacity, ref wayCapacity, ref relationCapacity, ref TrackCancel);
if (nodeCapacity == 0 && wayCapacity == 0 && relationCapacity == 0)
{
return;
}
message.AddMessage(String.Format(resourceManager.GetString("GPTools_OSMGPMultiLoader_countedElements"), nodeCapacity, wayCapacity, relationCapacity));
// determine the number of threads to be used
IGPEnvironment parallelProcessingFactorEnvironment = OSMToolHelper.getEnvironment(envMgr, "parallelProcessingFactor");
IGPString parallelProcessingFactorString = parallelProcessingFactorEnvironment.Value as IGPString;
// the default value is to use half the cores for additional threads - I am aware that we are comparing apples and oranges but I need a number
int numberOfThreads = Convert.ToInt32(System.Environment.ProcessorCount / 2);
if (!(parallelProcessingFactorEnvironment.Value.IsEmpty()))
{
if (!Int32.TryParse(parallelProcessingFactorString.Value, out numberOfThreads))
{
// this case we have a percent string
string resultString = Regex.Match(parallelProcessingFactorString.Value, @"\d+").Value;
numberOfThreads = Convert.ToInt32(Int32.Parse(resultString) / 100 * System.Environment.ProcessorCount);
}
}
// tread the special case of 0
if (numberOfThreads <= 0)
numberOfThreads = 1;
IGPEnvironment configKeyword = OSMToolHelper.getEnvironment(envMgr, "configKeyword");
IGPString gpString = configKeyword.Value as IGPString;
string storageKeyword = String.Empty;
if (gpString != null)
{
storageKeyword = gpString.Value;
}
// determine the temp folder to be use for the intermediate files
IGPEnvironment scratchWorkspaceEnvironment = OSMToolHelper.getEnvironment(envMgr, "scratchWorkspace");
IDEWorkspace deWorkspace = scratchWorkspaceEnvironment.Value as IDEWorkspace;
String scratchWorkspaceFolder = String.Empty;
if (deWorkspace != null)
{
if (scratchWorkspaceEnvironment.Value.IsEmpty())
{
scratchWorkspaceFolder = (new System.IO.FileInfo(osmFileLocationString.GetAsText())).DirectoryName;
}
else
{
if (deWorkspace.WorkspaceType == esriWorkspaceType.esriRemoteDatabaseWorkspace)
{
scratchWorkspaceFolder = System.IO.Path.GetTempPath();
}
else if (deWorkspace.WorkspaceType == esriWorkspaceType.esriFileSystemWorkspace)
{
scratchWorkspaceFolder = ((IDataElement)deWorkspace).CatalogPath;
}
else
{
scratchWorkspaceFolder = (new System.IO.FileInfo(((IDataElement)deWorkspace).CatalogPath)).DirectoryName;
}
}
}
else
{
scratchWorkspaceFolder = (new System.IO.FileInfo(osmFileLocationString.GetAsText())).DirectoryName;
}
string metadataAbstract = resourceManager.GetString("GPTools_OSMGPFileReader_metadata_abstract");
string metadataPurpose = resourceManager.GetString("GPTools_OSMGPFileReader_metadata_purpose");
IGPParameter osmPointsFeatureClassParameter = paramvalues.get_Element(out_osmPointsNumber) as IGPParameter;
IGPValue osmPointsFeatureClassGPValue = gpUtilities3.UnpackGPValue(osmPointsFeatureClassParameter) as IGPValue;
IName workspaceName = gpUtilities3.CreateParentFromCatalogPath(osmPointsFeatureClassGPValue.GetAsText());
IWorkspace2 pointFeatureWorkspace = workspaceName.Open() as IWorkspace2;
string[] pointFCNameElements = osmPointsFeatureClassGPValue.GetAsText().Split(System.IO.Path.DirectorySeparatorChar);
IGPParameter tagPointCollectionParameter = paramvalues.get_Element(in_pointFieldNamesNumber) as IGPParameter;
IGPMultiValue tagPointCollectionGPValue = gpUtilities3.UnpackGPValue(tagPointCollectionParameter) as IGPMultiValue;
List<String> pointTagstoExtract = null;
if (tagPointCollectionGPValue.Count > 0)
{
pointTagstoExtract = new List<string>();
for (int valueIndex = 0; valueIndex < tagPointCollectionGPValue.Count; valueIndex++)
{
string nameOfTag = tagPointCollectionGPValue.get_Value(valueIndex).GetAsText();
pointTagstoExtract.Add(nameOfTag);
}
}
else
{
pointTagstoExtract = OSMToolHelper.OSMSmallFeatureClassFields();
}
// points
try
{
osmPointFeatureClass = osmToolHelper.CreateSmallPointFeatureClass(pointFeatureWorkspace,
pointFCNameElements[pointFCNameElements.Length - 1], storageKeyword, metadataAbstract,
metadataPurpose, pointTagstoExtract);
}
catch (Exception ex)
{
message.AddError(120035, String.Format(resourceManager.GetString("GPTools_OSMGPDownload_nullpointfeatureclass"), ex.Message));
return;
}
if (osmPointFeatureClass == null)
{
return;
}
int osmPointIDFieldIndex = osmPointFeatureClass.FindField("OSMID");
Dictionary<string, int> mainPointAttributeFieldIndices = new Dictionary<string, int>();
foreach (string fieldName in OSMToolHelper.OSMSmallFeatureClassFields())
{
int currentFieldIndex = osmPointFeatureClass.FindField(fieldName);
if (currentFieldIndex != -1)
{
mainPointAttributeFieldIndices.Add(fieldName, currentFieldIndex);
}
}
int tagCollectionPointFieldIndex = osmPointFeatureClass.FindField("osmTags");
int osmSupportingElementPointFieldIndex = osmPointFeatureClass.FindField("osmSupportingElement");
IGPParameter osmLineFeatureClassParameter = paramvalues.get_Element(out_osmLinesNumber) as IGPParameter;
IGPValue osmLineFeatureClassGPValue = gpUtilities3.UnpackGPValue(osmLineFeatureClassParameter) as IGPValue;
IName lineWorkspaceName = gpUtilities3.CreateParentFromCatalogPath(osmLineFeatureClassGPValue.GetAsText());
IWorkspace2 lineFeatureWorkspace = lineWorkspaceName.Open() as IWorkspace2;
string[] lineFCNameElements = osmLineFeatureClassGPValue.GetAsText().Split(System.IO.Path.DirectorySeparatorChar);
IGPParameter tagLineCollectionParameter = paramvalues.get_Element(in_lineFieldNamesNumber) as IGPParameter;
IGPMultiValue tagLineCollectionGPValue = gpUtilities3.UnpackGPValue(tagLineCollectionParameter) as IGPMultiValue;
List<String> lineTagstoExtract = null;
if (tagLineCollectionGPValue.Count > 0)
{
lineTagstoExtract = new List<string>();
for (int valueIndex = 0; valueIndex < tagLineCollectionGPValue.Count; valueIndex++)
{
string nameOfTag = tagLineCollectionGPValue.get_Value(valueIndex).GetAsText();
lineTagstoExtract.Add(nameOfTag);
}
}
else
{
lineTagstoExtract = OSMToolHelper.OSMSmallFeatureClassFields();
}
// lines
try
{
osmLineFeatureClass = osmToolHelper.CreateSmallLineFeatureClass(lineFeatureWorkspace, lineFCNameElements[lineFCNameElements.Length -1],
storageKeyword, metadataAbstract, metadataPurpose, lineTagstoExtract);
}
catch (Exception ex)
{
message.AddError(120036, String.Format(resourceManager.GetString("GPTools_OSMGPDownload_nulllinefeatureclass"), ex.Message));
return;
}
if (osmLineFeatureClass == null)
{
return;
}
int osmLineIDFieldIndex = osmLineFeatureClass.FindField("OSMID");
Dictionary<string, int> mainLineAttributeFieldIndices = new Dictionary<string, int>();
foreach (string fieldName in OSMToolHelper.OSMSmallFeatureClassFields())
{
int currentFieldIndex = osmLineFeatureClass.FindField(fieldName);
if (currentFieldIndex != -1)
{
mainLineAttributeFieldIndices.Add(fieldName, currentFieldIndex);
}
}
int tagCollectionPolylineFieldIndex = osmLineFeatureClass.FindField("osmTags");
int osmSupportingElementPolylineFieldIndex = osmLineFeatureClass.FindField("osmSupportingElement");
IGPParameter osmPolygonFeatureClassParameter = paramvalues.get_Element(out_osmPolygonsNumber) as IGPParameter;
IGPValue osmPolygonFeatureClassGPValue = gpUtilities3.UnpackGPValue(osmPolygonFeatureClassParameter) as IGPValue;
IName polygonWorkspaceName = gpUtilities3.CreateParentFromCatalogPath(osmPolygonFeatureClassGPValue.GetAsText());
IWorkspace2 polygonFeatureWorkspace = polygonWorkspaceName.Open() as IWorkspace2;
string[] polygonFCNameElements = osmPolygonFeatureClassGPValue.GetAsText().Split(System.IO.Path.DirectorySeparatorChar);
IGPParameter tagPolygonCollectionParameter = paramvalues.get_Element(in_polygonFieldNamesNumber) as IGPParameter;
IGPMultiValue tagPolygonCollectionGPValue = gpUtilities3.UnpackGPValue(tagPolygonCollectionParameter) as IGPMultiValue;
List<String> polygonTagstoExtract = null;
if (tagPolygonCollectionGPValue.Count > 0)
{
polygonTagstoExtract = new List<string>();
for (int valueIndex = 0; valueIndex < tagPolygonCollectionGPValue.Count; valueIndex++)
{
string nameOfTag = tagPolygonCollectionGPValue.get_Value(valueIndex).GetAsText();
polygonTagstoExtract.Add(nameOfTag);
}
}
else
{
polygonTagstoExtract = OSMToolHelper.OSMSmallFeatureClassFields();
}
// polygons
try
{
osmPolygonFeatureClass = osmToolHelper.CreateSmallPolygonFeatureClass(polygonFeatureWorkspace,
polygonFCNameElements[polygonFCNameElements.Length -1], storageKeyword, metadataAbstract,
metadataPurpose, polygonTagstoExtract);
}
catch (Exception ex)
{
message.AddError(120037, String.Format(resourceManager.GetString("GPTools_OSMGPDownload_nullpolygonfeatureclass"), ex.Message));
return;
}
if (osmPolygonFeatureClass == null)
{
return;
}
int osmPolygonIDFieldIndex = osmPolygonFeatureClass.FindField("OSMID");
Dictionary<string, int> mainPolygonAttributeFieldIndices = new Dictionary<string, int>();
foreach (var fieldName in OSMToolHelper.OSMSmallFeatureClassFields())
{
int currentFieldIndex = osmPolygonFeatureClass.FindField(fieldName);
if (currentFieldIndex != -1)
{
mainPolygonAttributeFieldIndices.Add(fieldName, currentFieldIndex);
}
}
int tagCollectionPolygonFieldIndex = osmPolygonFeatureClass.FindField("osmTags");
int osmSupportingElementPolygonFieldIndex = osmPolygonFeatureClass.FindField("osmSupportingElement");
ComReleaser.ReleaseCOMObject(osmPointFeatureClass);
osmPointFeatureClass = null;
ComReleaser.ReleaseCOMObject(osmLineFeatureClass);
osmLineFeatureClass = null;
ComReleaser.ReleaseCOMObject(osmPolygonFeatureClass);
osmPolygonFeatureClass = null;
List<string> nodeOSMFileNames = new List<string>(numberOfThreads);
List<string> nodeGDBFileNames = new List<string>(numberOfThreads);
List<string> wayOSMFileNames = new List<string>(numberOfThreads);
List<string> wayGDBFileNames = new List<string>(numberOfThreads);
List<string> relationOSMFileNames = new List<string>(numberOfThreads);
List<string> relationGDBFileNames = new List<string>(numberOfThreads);
if (TrackCancel.Continue() == false)
{
return;
}
// split the original OSM xml file into smaller pieces for the python processes
osmToolHelper.splitOSMFile(osmFileLocationString.GetAsText(), scratchWorkspaceFolder, nodeCapacity, wayCapacity, relationCapacity, numberOfThreads,
out nodeOSMFileNames, out nodeGDBFileNames, out wayOSMFileNames, out wayGDBFileNames, out relationOSMFileNames, out relationGDBFileNames);
IGPParameter deleteSourceOSMFileParameter = paramvalues.get_Element(in_deleteOSMSourceFileNumber) as IGPParameter;
IGPBoolean deleteSourceOSMFileGPValue = gpUtilities3.UnpackGPValue(deleteSourceOSMFileParameter) as IGPBoolean;
if (deleteSourceOSMFileGPValue.Value)
{
try
{
System.IO.File.Delete(osmFileLocationString.GetAsText());
}
catch (Exception ex)
{
message.AddWarning(ex.Message);
}
}
if (TrackCancel.Continue() == false)
{
return;
}
if (nodeOSMFileNames.Count == 0)
{
nodeOSMFileNames.Add(osmFileLocationString.GetAsText());
nodeGDBFileNames.Add(osmPointsFeatureClassGPValue.GetAsText());
wayOSMFileNames.Add(osmFileLocationString.GetAsText());
wayGDBFileNames.Add(osmLineFeatureClassGPValue.GetAsText());
relationOSMFileNames.Add(osmFileLocationString.GetAsText());
relationGDBFileNames.Add(osmPolygonFeatureClassGPValue.GetAsText());
}
else
{
// for the nodes let's load one of the parts directly into the target file geodatabase
nodeGDBFileNames[0] = ((IWorkspace)pointFeatureWorkspace).PathName;
}
// define variables helping to invoke core tools for data management
IGeoProcessorResult2 gpResults2 = null;
IGeoProcessor2 geoProcessor = new GeoProcessorClass();
IGPParameter deleteSupportingNodesParameter = paramvalues.get_Element(in_deleteSupportNodesNumber) as IGPParameter;
IGPBoolean deleteSupportingNodesGPValue = gpUtilities3.UnpackGPValue(deleteSupportingNodesParameter) as IGPBoolean;
#region load points
osmToolHelper.loadOSMNodes(nodeOSMFileNames, nodeGDBFileNames, pointFCNameElements[pointFCNameElements.Length - 1], osmPointsFeatureClassGPValue.GetAsText(), pointTagstoExtract, deleteSupportingNodesGPValue.Value, ref message, ref TrackCancel);
#endregion
if (TrackCancel.Continue() == false)
{
return;
}
#region load ways
osmToolHelper.loadOSMWays(wayOSMFileNames, osmPointsFeatureClassGPValue.GetAsText(), wayGDBFileNames, lineFCNameElements[lineFCNameElements.Length - 1], polygonFCNameElements[polygonFCNameElements.Length - 1], lineTagstoExtract, polygonTagstoExtract, ref message, ref TrackCancel);
#endregion
#region for local geodatabases enforce spatial integrity
bool storedOriginalLocal = geoProcessor.AddOutputsToMap;
geoProcessor.AddOutputsToMap = false;
try
{
osmLineFeatureClass = ((IFeatureWorkspace)lineFeatureWorkspace).OpenFeatureClass(lineFCNameElements[lineFCNameElements.Length - 1]);
if (osmLineFeatureClass != null)
{
if (((IDataset)osmLineFeatureClass).Workspace.Type == esriWorkspaceType.esriLocalDatabaseWorkspace)
{
gpUtilities3 = new GPUtilitiesClass() as IGPUtilities3;
IGPParameter outLinesParameter = paramvalues.get_Element(out_osmLinesNumber) as IGPParameter;
IGPValue lineFeatureClass = gpUtilities3.UnpackGPValue(outLinesParameter);
DataManagementTools.RepairGeometry repairlineGeometry = new DataManagementTools.RepairGeometry(osmLineFeatureClass);
IVariantArray repairGeometryParameterArray = new VarArrayClass();
repairGeometryParameterArray.Add(lineFeatureClass.GetAsText());
repairGeometryParameterArray.Add("DELETE_NULL");
gpResults2 = geoProcessor.Execute(repairlineGeometry.ToolName, repairGeometryParameterArray, TrackCancel) as IGeoProcessorResult2;
message.AddMessages(gpResults2.GetResultMessages());
ComReleaser.ReleaseCOMObject(gpUtilities3);
}
}
}
catch { }
finally
{
ComReleaser.ReleaseCOMObject(osmLineFeatureClass);
}
try
{
osmPolygonFeatureClass = ((IFeatureWorkspace)polygonFeatureWorkspace).OpenFeatureClass(polygonFCNameElements[polygonFCNameElements.Length - 1]);
if (osmPolygonFeatureClass != null)
{
if (((IDataset)osmPolygonFeatureClass).Workspace.Type == esriWorkspaceType.esriLocalDatabaseWorkspace)
{
gpUtilities3 = new GPUtilitiesClass() as IGPUtilities3;
IGPParameter outPolygonParameter = paramvalues.get_Element(out_osmPolygonsNumber) as IGPParameter;
IGPValue polygonFeatureClass = gpUtilities3.UnpackGPValue(outPolygonParameter);
DataManagementTools.RepairGeometry repairpolygonGeometry = new DataManagementTools.RepairGeometry(osmPolygonFeatureClass);
IVariantArray repairGeometryParameterArray = new VarArrayClass();
repairGeometryParameterArray.Add(polygonFeatureClass.GetAsText());
repairGeometryParameterArray.Add("DELETE_NULL");
gpResults2 = geoProcessor.Execute(repairpolygonGeometry.ToolName, repairGeometryParameterArray, TrackCancel) as IGeoProcessorResult2;
message.AddMessages(gpResults2.GetResultMessages());
ComReleaser.ReleaseCOMObject(gpUtilities3);
}
}
}
catch { }
finally
{
ComReleaser.ReleaseCOMObject(osmPolygonFeatureClass);
}
geoProcessor.AddOutputsToMap = storedOriginalLocal;
#endregion
if (TrackCancel.Continue() == false)
{
return;
}
#region load relations
osmToolHelper.loadOSMRelations(relationOSMFileNames, osmLineFeatureClassGPValue.GetAsText(), osmPolygonFeatureClassGPValue.GetAsText(), relationGDBFileNames, lineTagstoExtract, polygonTagstoExtract, ref TrackCancel, ref message);
#endregion
// check for user interruption
if (TrackCancel.Continue() == false)
{
return;
}
#region for local geodatabases enforce spatial integrity
//storedOriginalLocal = geoProcessor.AddOutputsToMap;
//geoProcessor.AddOutputsToMap = false;
//try
//{
// osmLineFeatureClass = ((IFeatureWorkspace)lineFeatureWorkspace).OpenFeatureClass(lineFCNameElements[lineFCNameElements.Length - 1]);
// if (osmLineFeatureClass != null)
// {
// if (((IDataset)osmLineFeatureClass).Workspace.Type == esriWorkspaceType.esriLocalDatabaseWorkspace)
// {
// gpUtilities3 = new GPUtilitiesClass() as IGPUtilities3;
// IGPParameter outLinesParameter = paramvalues.get_Element(out_osmLinesNumber) as IGPParameter;
// IGPValue lineFeatureClass = gpUtilities3.UnpackGPValue(outLinesParameter);
// DataManagementTools.RepairGeometry repairlineGeometry = new DataManagementTools.RepairGeometry(osmLineFeatureClass);
// IVariantArray repairGeometryParameterArray = new VarArrayClass();
// repairGeometryParameterArray.Add(lineFeatureClass.GetAsText());
// repairGeometryParameterArray.Add("DELETE_NULL");
// gpResults2 = geoProcessor.Execute(repairlineGeometry.ToolName, repairGeometryParameterArray, TrackCancel) as IGeoProcessorResult2;
// message.AddMessages(gpResults2.GetResultMessages());
// ComReleaser.ReleaseCOMObject(gpUtilities3);
// }
// }
//}
//catch { }
//finally
//{
// ComReleaser.ReleaseCOMObject(osmLineFeatureClass);
//}
//try
//{
// osmPolygonFeatureClass = ((IFeatureWorkspace)polygonFeatureWorkspace).OpenFeatureClass(polygonFCNameElements[polygonFCNameElements.Length - 1]);
// if (osmPolygonFeatureClass != null)
// {
// if (((IDataset)osmPolygonFeatureClass).Workspace.Type == esriWorkspaceType.esriLocalDatabaseWorkspace)
// {
// gpUtilities3 = new GPUtilitiesClass() as IGPUtilities3;
// IGPParameter outPolygonParameter = paramvalues.get_Element(out_osmPolygonsNumber) as IGPParameter;
// IGPValue polygonFeatureClass = gpUtilities3.UnpackGPValue(outPolygonParameter);
// DataManagementTools.RepairGeometry repairpolygonGeometry = new DataManagementTools.RepairGeometry(osmPolygonFeatureClass);
// IVariantArray repairGeometryParameterArray = new VarArrayClass();
// repairGeometryParameterArray.Add(polygonFeatureClass.GetAsText());
// repairGeometryParameterArray.Add("DELETE_NULL");
// gpResults2 = geoProcessor.Execute(repairpolygonGeometry.ToolName, repairGeometryParameterArray, TrackCancel) as IGeoProcessorResult2;
// message.AddMessages(gpResults2.GetResultMessages());
// ComReleaser.ReleaseCOMObject(gpUtilities3);
// }
// }
//}
//catch { }
//finally
//{
// ComReleaser.ReleaseCOMObject(osmPolygonFeatureClass);
//}
//geoProcessor.AddOutputsToMap = storedOriginalLocal;
#endregion
if (TrackCancel.Continue() == false)
{
return;
}
if (deleteSupportingNodesGPValue.Value)
{
message.AddMessage(String.Format(resourceManager.GetString("GPTools_OSMGPMultiLoader_remove_supportNodes")));
storedOriginalLocal = geoProcessor.AddOutputsToMap;
geoProcessor.AddOutputsToMap = false;
// create a layer file to select the points that have attributes
osmPointFeatureClass = ((IFeatureWorkspace)pointFeatureWorkspace).OpenFeatureClass(pointFCNameElements[pointFCNameElements.Length - 1]);
IVariantArray makeFeatureLayerParameterArray = new VarArrayClass();
makeFeatureLayerParameterArray.Add(osmPointsFeatureClassGPValue.GetAsText());
string tempLayerFile = System.IO.Path.GetTempFileName();
makeFeatureLayerParameterArray.Add(tempLayerFile);
makeFeatureLayerParameterArray.Add(String.Format("{0} = 'no'", osmPointFeatureClass.SqlIdentifier("osmSupportingElement")));
geoProcessor.Execute("MakeFeatureLayer_management", makeFeatureLayerParameterArray, TrackCancel);
// copy the features into its own feature class
IVariantArray copyFeatureParametersArray = new VarArrayClass();
copyFeatureParametersArray.Add(tempLayerFile);
string tempFeatureClass = String.Join("\\", new string[] {
((IWorkspace)pointFeatureWorkspace).PathName, "t_" + pointFCNameElements[pointFCNameElements.Length - 1] });
copyFeatureParametersArray.Add(tempFeatureClass);
geoProcessor.Execute("CopyFeatures_management", copyFeatureParametersArray, TrackCancel);
// delete the temp file
System.IO.File.Delete(tempLayerFile);
// delete the original feature class
IVariantArray deleteParameterArray = new VarArrayClass();
deleteParameterArray.Add(osmPointsFeatureClassGPValue.GetAsText());
geoProcessor.Execute("Delete_management", deleteParameterArray, TrackCancel);
// rename the temp feature class back to the original
IVariantArray renameParameterArray = new VarArrayClass();
renameParameterArray.Add(tempFeatureClass);
renameParameterArray.Add(osmPointsFeatureClassGPValue.GetAsText());
geoProcessor.Execute("Rename_management", renameParameterArray, TrackCancel);
geoProcessor.AddOutputsToMap = storedOriginalLocal;
ComReleaser.ReleaseCOMObject(osmPointFeatureClass);
ComReleaser.ReleaseCOMObject(geoProcessor);
}
gpUtilities3 = new GPUtilitiesClass() as IGPUtilities3;
// repackage the feature class into their respective gp values
IGPParameter pointFeatureClassParameter = paramvalues.get_Element(out_osmPointsNumber) as IGPParameter;
IGPValue pointFeatureClassGPValue = gpUtilities3.UnpackGPValue(pointFeatureClassParameter);
gpUtilities3.PackGPValue(pointFeatureClassGPValue, pointFeatureClassParameter);
IGPParameter lineFeatureClassParameter = paramvalues.get_Element(out_osmLinesNumber) as IGPParameter;
IGPValue line1FeatureClassGPValue = gpUtilities3.UnpackGPValue(lineFeatureClassParameter);
gpUtilities3.PackGPValue(line1FeatureClassGPValue, lineFeatureClassParameter);
IGPParameter polygonFeatureClassParameter = paramvalues.get_Element(out_osmPolygonsNumber) as IGPParameter;
IGPValue polygon1FeatureClassGPValue = gpUtilities3.UnpackGPValue(polygonFeatureClassParameter);
gpUtilities3.PackGPValue(polygon1FeatureClassGPValue, polygonFeatureClassParameter);
ComReleaser.ReleaseCOMObject(osmFileLocationString);
gpUtilities3.ReleaseInternals();
ComReleaser.ReleaseCOMObject(gpUtilities3);
}
catch (Exception ex)
{
message.AddError(120055, ex.Message);
message.AddError(120055, ex.StackTrace);
}
finally
{
try
{
osmToolHelper = null;
System.GC.Collect();
System.GC.WaitForPendingFinalizers();
}
catch (Exception ex)
{
message.AddError(120056, ex.ToString());
}
}
}
private void btnOK_Click(object sender, EventArgs e)
{
if (txtSoilClay.Text.Equals(""))
{
MessageBox.Show("请选择输入土壤黏粒含量(%)数据!", "提示", MessageBoxButtons.OK, MessageBoxIcon.Information);
return;
}
if (txtSoilSlit.Text.Equals(""))
{
MessageBox.Show("请选择输入土壤粉粒含量(%)数据!", "提示", MessageBoxButtons.OK, MessageBoxIcon.Information);
return;
}
if (txtSoilSand.Text.Equals(""))
{
MessageBox.Show("请选择输入土壤砂粒含量(%)数据!", "提示", MessageBoxButtons.OK, MessageBoxIcon.Information);
return;
}
if (txtSoilOrganic.Text.Equals(""))
{
MessageBox.Show("请选择输入土壤有机物含量(%)数据!", "提示", MessageBoxButtons.OK, MessageBoxIcon.Information);
return;
}
if (txtDem.Text.Equals(""))
{
MessageBox.Show("请选择输入DEM数据!", "提示", MessageBoxButtons.OK, MessageBoxIcon.Information);
return;
}
if (txtC.Text.Equals(""))
{
MessageBox.Show("请选择输入地表覆被因子相关数据!", "提示", MessageBoxButtons.OK, MessageBoxIcon.Information);
return;
}
if (txtP.Text.Equals(""))
{
MessageBox.Show("请选择输入水土保持措施因子数据!", "提示", MessageBoxButtons.OK, MessageBoxIcon.Information);
return;
}
if (txtSavePath.Text.Equals(""))
{
MessageBox.Show("请选择结果输出路径!", "提示", MessageBoxButtons.OK, MessageBoxIcon.Information);
return;
}
if (rbtnR.Checked && txtR.Text.Equals(""))
{
MessageBox.Show("请选择输入降雨侵蚀力因子R相关数据!", "提示", MessageBoxButtons.OK, MessageBoxIcon.Information);
return;
}
if ((!rbtnR.Checked) && txtPcpPath.Text.Equals(""))
{
MessageBox.Show("请选择输入多年平均各月降雨量数据所在路径!", "提示", MessageBoxButtons.OK, MessageBoxIcon.Information);
return;
}
if ((!rbtnR.Checked) && txtPcpPrefix.Text.Equals(""))
{
MessageBox.Show("请输入数据前缀(如:pcp_*)!", "提示", MessageBoxButtons.OK, MessageBoxIcon.Information);
return;
}
if ((!rbtnR.Checked) && txtPcpSuffix.Text.Equals(""))
{
MessageBox.Show("请输入数据后缀(如:tif)!", "提示", MessageBoxButtons.OK, MessageBoxIcon.Information);
return;
}
if ((!rbtnR.Checked) && txtYear.Text.Equals(""))
{
MessageBox.Show("请输入年平均降水量!", "提示", MessageBoxButtons.OK, MessageBoxIcon.Information);
return;
}
//现创建一个存放临时文件的临时文件夹
string newPath = System.IO.Path.Combine(Temfile, "");
System.IO.Directory.CreateDirectory(newPath);
this.rtxtState.AppendText("正在执行,请您耐心等待...\n");
this.rtxtState.ScrollToCaret();
this.rtxtState.AppendText("开始准备配置文件...\n");
this.rtxtState.ScrollToCaret();
IVariantArray parameters = new VarArrayClass();
Geoprocessor GP = new Geoprocessor();
this.rtxtState.AppendText("准备调用GP工具箱...\n");
this.rtxtState.ScrollToCaret();
//ESRI.ArcGIS.DataManagementTools.GetRasterProperties NDVIMin = new ESRI.ArcGIS.DataManagementTools.GetRasterProperties();
//ESRI.ArcGIS.DataManagementTools.GetRasterProperties NDVIMax = new ESRI.ArcGIS.DataManagementTools.GetRasterProperties();
ESRI.ArcGIS.SpatialAnalystTools.Slope slo = new ESRI.ArcGIS.SpatialAnalystTools.Slope();//计算坡度
ESRI.ArcGIS.SpatialAnalystTools.Fill demFill = new ESRI.ArcGIS.SpatialAnalystTools.Fill();
ESRI.ArcGIS.SpatialAnalystTools.FlowDirection Filldec = new ESRI.ArcGIS.SpatialAnalystTools.FlowDirection();
ESRI.ArcGIS.SpatialAnalystTools.FlowAccumulation DecAcc = new ESRI.ArcGIS.SpatialAnalystTools.FlowAccumulation();
ESRI.ArcGIS.SpatialAnalystTools.RasterCalculator sCals = new ESRI.ArcGIS.SpatialAnalystTools.RasterCalculator();
ESRI.ArcGIS.SpatialAnalystTools.RasterCalculator sCalm = new ESRI.ArcGIS.SpatialAnalystTools.RasterCalculator();
ESRI.ArcGIS.SpatialAnalystTools.RasterCalculator sCalLS = new ESRI.ArcGIS.SpatialAnalystTools.RasterCalculator();
ESRI.ArcGIS.SpatialAnalystTools.RasterCalculator sCalR = new ESRI.ArcGIS.SpatialAnalystTools.RasterCalculator();
ESRI.ArcGIS.SpatialAnalystTools.RasterCalculator sCalK = new ESRI.ArcGIS.SpatialAnalystTools.RasterCalculator();
ESRI.ArcGIS.SpatialAnalystTools.RasterCalculator sCalA = new ESRI.ArcGIS.SpatialAnalystTools.RasterCalculator();
ESRI.ArcGIS.SpatialAnalystTools.RasterCalculator sCalC = new ESRI.ArcGIS.SpatialAnalystTools.RasterCalculator();
//1计算参数R
if (rbtnR.Checked)
{
sR = txtR.Text;
this.rtxtState.AppendText("降水侵蚀因子R读取成功,准备计算参数K...\n");
this.rtxtState.ScrollToCaret();
}
else
{
this.rtxtState.AppendText("开始计算参数R...\n");
this.rtxtState.ScrollToCaret();
string sFileName = "";
string sYear = txtYear.Text;
for (int i = 1; i < 13; i++)
{
sFileName = txtPcpPath.Text + "\\" + this.txtPcpPrefix.Text + i.ToString() + "." + this.txtPcpSuffix.Text;
strExp = "(1.735 * Power(10,1.5 * Log10((" + "\"" + sFileName + "\"" + " * " + "\"" + sFileName + "\"" + ") /" + "\"" + txtYear.Text + "\")" + " - 0.08188))";
if (i < 12)
{
sR2 = sR2 + strExp + "+";
}
else
{
sR2 = sR2 + strExp;
}
}
sR3 = sR2;
sCalR.expression = sR3;
sR = Temfile + "\\CalR.tif";
sCalR.output_raster = sR;
GP.Execute(sCalR, null);
this.rtxtState.AppendText("降水侵蚀因子R计算成功,准备计算参数K...\n");
this.rtxtState.ScrollToCaret();
}
//2计算参数K
sK = "(0.2 + 0.3 * Exp(-0.0256 *" + "\"" + txtSoilSand.Text + "\"" + "* (1.0 - " + "\"" + txtSoilSlit.Text + "\"" + " / 100.0))) * Power((" + "\"" + txtSoilSlit.Text + "\"" + " * 1.0 / (" + "\"" + txtSoilClay.Text + "\"" + " * 1.0 + " + "\"" + txtSoilSlit.Text + "\"" + " * 1.0)), 0.3) * (1.0 - 0.25 * " + "\"" + txtSoilOrganic.Text + "\"" + " * 0.58 / (" + "\"" + txtSoilOrganic.Text + "\"" + " * 0.58 + Exp(3.72 - 2.95 * " + "\"" + txtSoilOrganic.Text + "\"" + " * 0.58))) * (1.0 - (0.7 * (1.0 - " + "\"" + txtSoilSand.Text + "\"" + " / 100.0)) / ((1.0 - " + "\"" + txtSoilSand.Text + "\"" + " / 100.0) + Exp(-5.51 + 22.9 * (1.0 - " + "\"" + txtSoilSand.Text + "\"" + " / 100.0))))";
sCalK.expression = sK;
CalKpath = Temfile + "\\CalK.tif";
sCalK.output_raster = CalKpath;
GP.Execute(sCalK, null);
this.rtxtState.AppendText("土壤可蚀性因子K计算成功...\n");
this.rtxtState.ScrollToCaret();
this.rtxtState.AppendText("准备计算地形因子LS...\n");
this.rtxtState.ScrollToCaret();
//3计算参数LS
//Fill Dem
this.rtxtState.AppendText("开始填充洼地...\n");
this.rtxtState.ScrollToCaret();
demFill.in_surface_raster = txtDem.Text;
demFill.out_surface_raster = Temfile + "\\demFill.tif";
GP.Execute(demFill, null);
// cal FlowDirection
this.rtxtState.AppendText("开始计算流向...\n");
this.rtxtState.ScrollToCaret();
Filldec.in_surface_raster = Temfile + "\\demFill.tif";
Filldec.out_flow_direction_raster = Temfile + "\\FillDec.tif";
GP.Execute(Filldec, null);
//cal FlowAccumulation
this.rtxtState.AppendText("开始计算流量...\n");
this.rtxtState.ScrollToCaret();
Filldec.in_surface_raster = Temfile + "\\FillDec.tif";
FlowAcc = Temfile + "\\FlowAcc.tif";
Filldec.out_flow_direction_raster = FlowAcc;
GP.Execute(Filldec, null);
//先计算坡度
this.rtxtState.AppendText("开始计算坡度...\n");
this.rtxtState.ScrollToCaret();
slo.in_raster = txtDem.Text;
slo.output_measurement = "DEGREE";
slo.z_factor = 1;
string sRoad1 = Temfile + "\\Slope.tif";
slo.out_raster = sRoad1;
GP.Execute(slo, null);//坡度计算
//cal S
sS = "Con(" + "\"" + sRoad1 + "\"" + " < 5,10.8 * Sin(" + "\"" + sRoad1 + "\"" + " * 3.14 / 180) + 0.03,Con(" + "\"" + sRoad1 + "\"" + " >= 10,21.9 * Sin(" + "\"" + sRoad1 + "\"" + " * 3.14 / 180) - 0.96,16.8 * Sin(" + "\"" + sRoad1 + "\"" + " * 3.14 / 180) - 0.5))";
sCals.expression = sS;
Calspath = Temfile + "\\CalS.tif";
sCals.output_raster = Calspath;
GP.Execute(sCals, null);
//cal m
sM = "Con(" + "\"" + sRoad1 + "\"" + " <= 1,0.2,Con(" + "\"" + sRoad1 + "\"" + " <= 3,0.3,Con(" + "\"" + sRoad1 + "\"" + " <= 5,0.4,0.5)))";
sCalm.expression = sM;
Calmpath = Temfile + "\\CalM.tif";
sCalm.output_raster = Calmpath;
GP.Execute(sCalm, null);
//cal ls
sLs = "\"" + Calspath + "\"" + " * Power((" + "\"" + CalKpath + "\"" + " * " + this.txtCellSize.Text + " / 22.1)," + "\"" + Calmpath + "\"" + ")";
sCalLS.expression = sLs;
Callspath = Temfile + "\\CalLS.tif";
sCalm.output_raster = Calmpath;
sCalLS.output_raster = Callspath;
GP.Execute(sCalLS, null);
this.rtxtState.AppendText("地形因子LS计算成功...\n");
this.rtxtState.ScrollToCaret();
//4计算参数C
if (rbtnVegCover.Checked)
{
CalCpath = txtC.Text;
this.rtxtState.AppendText("地表覆盖因子C读取成功...\n");
this.rtxtState.ScrollToCaret();
}
else
{
this.rtxtState.AppendText("准备计算地表覆盖因子C...\n");
this.rtxtState.ScrollToCaret();
//计算NDVI最小值
//NDVIMin.in_raster = txtC.Text;
//CalKpath = txtDem.Text + "/CalK.tif";
//NDVIMin.property_type = "MINIMUM";
//GP.Execute(sCalK, null);
double dMin = 0;
IGeoProcessor2 gp = new GeoProcessorClass();
gp.OverwriteOutput = true;
// Create a variant array to hold the parameter values.
IVariantArray parameters2 = new VarArrayClass();
IGeoProcessorResult result = new GeoProcessorResultClass();
// Set parameter values.
parameters2.Add(txtC.Text);
parameters2.Add("MINIMUM");
result = gp.Execute("GetRasterProperties_management", parameters2, null);
dMin = (double)result.ReturnValue;
//计算NDVI最大值
double dMax = 0;
IGeoProcessor2 gp2 = new GeoProcessorClass();
gp2.OverwriteOutput = true;
// Create a variant array to hold the parameter values.
IVariantArray parameters3 = new VarArrayClass();
IGeoProcessorResult result3 = new GeoProcessorResultClass();
// Set parameter values.
parameters3.Add(txtC.Text);
parameters3.Add("MAXIMUM");
result3 = gp2.Execute("GetRasterProperties_management", parameters3, null);
dMax = (double)result3.ReturnValue;
//最后计算C
sC = "(" + "\"" + txtC.Text + "\"" + " - " + dMin + ") / (" + dMax + " - " + dMin + ")";
sCalC.expression = sC;
CalCpath = Temfile + "\\CalC.tif";
sCalC.output_raster = CalCpath;
GP.Execute(sCalC, null);
this.rtxtState.AppendText("地表覆盖因子C计算成功...\n");
this.rtxtState.ScrollToCaret();
}
//5计算P
sP = txtP.Text;
this.rtxtState.AppendText("读取水土保持措施因子P...\n");
this.rtxtState.ScrollToCaret();
//最后开始计算A=R*K*LS*C*P
this.rtxtState.AppendText("准备计算水土流失方程...\n");
this.rtxtState.ScrollToCaret();
sA = "\"" + sR + "\"" + " * " + "\"" + CalKpath + "\"" + " * " + "\"" + Callspath + "\"" + " * (1 - " + "\"" + CalCpath + "\"" + ") * " + "\"" + sP + "\"";
sCalA.expression = sA;
sCalA.output_raster = txtSavePath.Text;
GP.Execute(sCalA, null);
//删除临时文件夹
string deleteFile = Temfile;
DeleteFolder(deleteFile);
this.rtxtState.AppendText("计算成功,已将结果成功保存...\n");
this.rtxtState.ScrollToCaret();
}
/// <summary>
/// Where all of the work is done. Override from TabBaseViewModel
/// </summary>
internal override void CreateMapElement()
{
if (!CanCreateElement || ArcMap.Document == null || ArcMap.Document.FocusMap == null || string.IsNullOrWhiteSpace(SelectedSurfaceName))
return;
//base.CreateMapElement();
var surface = GetSurfaceFromMapByName(ArcMap.Document.FocusMap, SelectedSurfaceName);
if (surface == null)
return;
using (ComReleaser oComReleaser = new ComReleaser())
{
// Create feature workspace
IFeatureWorkspace workspace = CreateFeatureWorkspace("tempWorkspace");
StartEditOperation((IWorkspace)workspace);
// Create feature class
IFeatureClass pointFc = CreateObserversFeatureClass(workspace, "Output" + RunCount.ToString());
double finalObserverOffset = GetOffsetInZUnits(ArcMap.Document.FocusMap, ObserverOffset.Value, surface.ZFactor, OffsetUnitType);
double finalSurfaceOffset = GetOffsetInZUnits(ArcMap.Document.FocusMap, SurfaceOffset, surface.ZFactor, OffsetUnitType);
double conversionFactor = GetConversionFactor(ArcMap.Document.FocusMap.SpatialReference);
double convertedMinDistance = MinDistance * conversionFactor;
double convertedMaxDistance = MaxDistance * conversionFactor;
double finalMinDistance = GetLinearDistance(ArcMap.Document.FocusMap, convertedMinDistance, OffsetUnitType);
double finalMaxDistance = GetLinearDistance(ArcMap.Document.FocusMap, convertedMaxDistance, OffsetUnitType);
double finalLeftHorizontalFOV = GetAngularDistance(ArcMap.Document.FocusMap, LeftHorizontalFOV, AngularUnitType);
double finalRightHorizontalFOV = GetAngularDistance(ArcMap.Document.FocusMap, RightHorizontalFOV, AngularUnitType);
double finalBottomVerticalFOV = GetAngularDistance(ArcMap.Document.FocusMap, BottomVerticalFOV, AngularUnitType);
double finalTopVerticalFOV = GetAngularDistance(ArcMap.Document.FocusMap, TopVerticalFOV, AngularUnitType);
// Out radius geometries
List<IGeometry> radius2GeomList = new List<IGeometry>();
List<IGeometry> radius1_2GeomList = new List<IGeometry>();
List<IGeometry> donutGeomList = new List<IGeometry>();
foreach (var observerPoint in ObserverAddInPoints)
{
// Create buffer geometries for final Min/Max distance
ITopologicalOperator topologicalOperator = observerPoint.Point as ITopologicalOperator;
IGeometry geom = topologicalOperator.Buffer(finalMaxDistance);
radius2GeomList.Add(geom);
radius1_2GeomList.Add(geom);
if (finalMinDistance > 0)
{
IGeometry geom2 = topologicalOperator.Buffer(finalMinDistance);
ITopologicalOperator eraseTopo = geom as ITopologicalOperator;
IGeometry erasedGeom = eraseTopo.Difference(geom2);
donutGeomList.Add(erasedGeom);
}
else
{
radius1_2GeomList.Add(geom);
}
double z1 = surface.GetElevation(observerPoint.Point) + finalObserverOffset;
//create a new point feature
IFeature ipFeature = pointFc.CreateFeature();
// Set the field values for the feature
SetFieldValues(finalObserverOffset, finalSurfaceOffset, finalMinDistance, finalMaxDistance, finalLeftHorizontalFOV,
finalRightHorizontalFOV, finalBottomVerticalFOV, finalTopVerticalFOV, ipFeature);
//Create shape
IPoint point = new PointClass() { Z = z1, X = observerPoint.Point.X, Y = observerPoint.Point.Y, ZAware = true };
ipFeature.Shape = point;
ipFeature.Store();
}
IFeatureClassDescriptor fd = new FeatureClassDescriptorClass();
fd.Create(pointFc, null, "OBJECTID");
StopEditOperation((IWorkspace)workspace);
try
{
ILayer layer = GetLayerFromMapByName(ArcMap.Document.FocusMap, SelectedSurfaceName);
string layerPath = GetLayerPath(layer);
IFeatureLayer ipFeatureLayer = new FeatureLayerClass();
ipFeatureLayer.FeatureClass = pointFc;
IDataset ipDataset = (IDataset)pointFc;
string outputFcName = ipDataset.BrowseName + "_output";
string strPath = ipDataset.Workspace.PathName + "\\" + ipDataset.BrowseName;
string outPath = ipDataset.Workspace.PathName + "\\" + outputFcName;
IVariantArray parameters = new VarArrayClass();
parameters.Add(layerPath);
parameters.Add(strPath);
parameters.Add(outPath);
esriLicenseStatus status = GetSpatialAnalystLicense();
IGeoProcessor2 gp = new GeoProcessorClass();
gp.AddOutputsToMap = false;
// Add a mask to buffer the output to selected distance
SetGPMask(workspace, radius2GeomList, gp, "radiusMask");
object oResult = gp.Execute("Visibility_sa", parameters, null);
IGeoProcessorResult ipResult = (IGeoProcessorResult)oResult;
ComReleaser.ReleaseCOMObject(gp);
gp = null;
GC.Collect();
// Add buffer geometries to the map
foreach (IGeometry geom in radius1_2GeomList)
{
var color = new RgbColorClass() { Blue = 255 } as IColor;
AddGraphicToMap(geom, color, true);
}
IRasterLayer outputRasterLayer = new RasterLayerClass();
outputRasterLayer.CreateFromFilePath(outPath);
string fcName = IntersectOutput(outputRasterLayer, ipDataset, workspace, donutGeomList);
IFeatureClass finalFc = workspace.OpenFeatureClass(fcName);
IFeatureLayer outputFeatureLayer = new FeatureLayerClass();
outputFeatureLayer.FeatureClass = finalFc;
//Add it to a map if the layer is valid.
if (outputFeatureLayer != null)
{
// set the renderer
IFeatureRenderer featRend = UnqueValueRenderer(workspace, finalFc);
IGeoFeatureLayer geoLayer = outputFeatureLayer as IGeoFeatureLayer;
geoLayer.Renderer = featRend;
geoLayer.Name = "VisibilityLayer_" + RunCount.ToString();
// Set the layer transparency
IDisplayFilterManager filterManager = (IDisplayFilterManager)outputFeatureLayer;
ITransparencyDisplayFilter filter = new TransparencyDisplayFilter();
filter.Transparency = 80;
filterManager.DisplayFilter = filter;
ESRI.ArcGIS.Carto.IMap map = ArcMap.Document.FocusMap;
map.AddLayer((ILayer)outputFeatureLayer);
}
RunCount += 1;
}
catch (Exception ex)
{
string exception = ex.ToString();
System.Windows.MessageBox.Show(VisibilityLibrary.Properties.Resources.MsgTryAgain, VisibilityLibrary.Properties.Resources.MsgCalcCancelled);
}
//Reset(true);
}
}
private void simpleButton4_Click(object sender, EventArgs e)
{
if (this.comboBoxInputRaster.Text.ToString() == "" || this.comboBoxContrastRaster.Text.ToString() == "" || this.textBoxOutputRaster.Text.ToString() == "")
{
MessageBox.Show("请输入参数!", "提示", MessageBoxButtons.OK, MessageBoxIcon.Information);
return;
}//有任意一个空为空则弹出对话框提示:请输入参数。
string strResultsDBPath = m_pGDBHelper.GetResultsDBPath();//声明变量获取数据库结果路径
string ToolName = "ToolName";
if (comboBoxMethod.Text == "主成分差异法")
{
ToolName = "NewPCADiff";
}
if (comboBoxMethod.Text == "多波段主成分变换法")
{
ToolName = "NewBandPCA";
}
if (comboBoxMethod.Text == "差异主成分法")
{
ToolName = "NewDiffPCA";
}
if (Utilities.GDBUtilites.CheckNameExist(strResultsDBPath, this.textBoxOutputRaster.Text.ToString()) == false)//如果没有同名文件
{
//执行PCA分析
ILayer pInputLayer1 = null;
ILayer pInputLayer2 = null;
for (int i = 0; i < m_pMapCtrl.LayerCount; i++)
{
if (m_pMapCtrl.get_Layer(i).Name == this.comboBoxInputRaster.Text.ToString())
{
pInputLayer1 = m_pMapCtrl.get_Layer(i);
}
else if (m_pMapCtrl.get_Layer(i).Name == this.comboBoxContrastRaster.Text.ToString())
{
pInputLayer2 = m_pMapCtrl.get_Layer(i);
}
}
if (pInputLayer1 != null && pInputLayer2 != null)
{
IRasterLayer pRasterLayer1 = pInputLayer1 as IRasterLayer;
IRasterLayer pRasterLayer2 = pInputLayer2 as IRasterLayer;
string rasterpath1 = pRasterLayer1.FilePath;
string rasterpath2 = pRasterLayer2.FilePath;
IGeoProcessor2 pGP = new GeoProcessorClass();
string GPPath = m_pGDBHelper.GetToolboxPath();
pGP.AddToolbox(GPPath);
IVariantArray gpParameters = new VarArrayClass();
//gpParameters.Add(pRasterLayer1.Raster);
//gpParameters.Add(pRasterLayer2.Raster);
gpParameters.Add(rasterpath1);
gpParameters.Add(rasterpath2);
gpParameters.Add(strResultsDBPath + "\\" + this.textBoxOutputRaster.Text);
IGeoProcessorResult pGeoProcessorResult = null;
try
{
pGeoProcessorResult = pGP.Execute(ToolName, gpParameters, null);
}
catch (Exception ex)
{
if (ex is System.Runtime.InteropServices.COMException)
{
int errorCode = (ex as System.Runtime.InteropServices.COMException).ErrorCode;
MessageBox.Show(errorCode.ToString());
}
}
if (pGeoProcessorResult.Status == esriJobStatus.esriJobSucceeded)
{
if (this.checkBoxAdd.Checked)
{
IWorkspaceFactory2 pWKF = new FileGDBWorkspaceFactoryClass();
IRasterWorkspaceEx pRasterWKEx = (IRasterWorkspaceEx)pWKF.OpenFromFile(m_pGDBHelper.GetResultsDBPath(), 0);
IRasterDataset3 pRasterDataset = pRasterWKEx.OpenRasterDataset(this.textBoxOutputRaster.Text) as IRasterDataset3;
Utilities.MapUtilites.AddRasterLayer(m_pMapCtrl.ActiveView, pRasterDataset, null);
}
MessageBox.Show("PCA分析完成!", "提示", MessageBoxButtons.OK, MessageBoxIcon.Information);
}
}
this.DialogResult = DialogResult.OK;
this.Close();
}
else
{
MessageBox.Show("已存在同名数据!", "提示", MessageBoxButtons.OK, MessageBoxIcon.Information);
return;
}
}
/// <summary>
/// Run RasterToPoly tool to convert input raster to poly's. Then run Intersect if input geomList has features
/// </summary>
/// <param name="rasterLayer"></param>
/// <param name="ipDataset"></param>
/// <param name="workspace"></param>
/// <param name="geomList"></param>
/// <returns>Featureclass name</returns>
private string IntersectOutput(IRasterLayer rasterLayer, IDataset ipDataset, IFeatureWorkspace workspace, List<IGeometry> geomList)
{
IGeoProcessor2 gp = new GeoProcessorClass();
gp.AddOutputsToMap = false;
// Run RasterToPolygon
string inRaster = rasterLayer.FilePath;
string outRasterToPolyFcName = ipDataset.BrowseName + "_rasterToPoly";
string outRasterToPolyPath = ipDataset.Workspace.PathName + "\\" + outRasterToPolyFcName;
string field = "VALUE";
IVariantArray rasterToPolyParams = new VarArrayClass();
rasterToPolyParams.Add(inRaster);
rasterToPolyParams.Add(outRasterToPolyPath);
rasterToPolyParams.Add("NO_SIMPLIFY");
rasterToPolyParams.Add(field);
try
{
object oResult = gp.Execute("RasterToPolygon_conversion", rasterToPolyParams, null);
IGeoProcessorResult ipResult = (IGeoProcessorResult)oResult;
if (geomList.Count == 0)
return outRasterToPolyFcName;
if (ipResult.Status == esriJobStatus.esriJobSucceeded)
{
string outFcName = ipDataset.BrowseName + "_intersectRaster";
string outPath = ipDataset.Workspace.PathName + "\\" + outFcName;
// Add a mask to buffer the output to selected distance
string fcPath = SetGPMask(workspace, geomList, gp, "intersectMask");
string pathParam = outRasterToPolyPath + ";" + fcPath;
IVariantArray parameters = new VarArrayClass();
parameters.Add(pathParam);
parameters.Add(outPath);
object oResult2 = gp.Execute("Intersect_analysis", parameters, null);
IGeoProcessorResult ipResult2 = (IGeoProcessorResult)oResult2;
return outFcName;
}
else
{
return null;
}
}
catch (Exception ex)
{
return null;
}
}
public void Execute(ESRI.ArcGIS.esriSystem.IArray paramvalues, ESRI.ArcGIS.esriSystem.ITrackCancel TrackCancel, ESRI.ArcGIS.Geoprocessing.IGPEnvironmentManager envMgr, ESRI.ArcGIS.Geodatabase.IGPMessages message)
{
IFeatureClass osmPointFeatureClass = null;
IFeatureClass osmLineFeatureClass = null;
IFeatureClass osmPolygonFeatureClass = null;
OSMToolHelper osmToolHelper = null;
try
{
DateTime syncTime = DateTime.Now;
IGPUtilities3 gpUtilities3 = new GPUtilitiesClass();
osmToolHelper = new OSMToolHelper();
if (TrackCancel == null)
{
TrackCancel = new CancelTrackerClass();
}
IGPParameter osmFileParameter = paramvalues.get_Element(in_osmFileNumber) as IGPParameter;
IGPValue osmFileLocationString = gpUtilities3.UnpackGPValue(osmFileParameter) as IGPValue;
// ensure that the specified file does exist
bool osmFileExists = false;
try
{
osmFileExists = System.IO.File.Exists(osmFileLocationString.GetAsText());
}
catch (Exception ex)
{
message.AddError(120029, String.Format(resourceManager.GetString("GPTools_OSMGPFileReader_problemaccessingfile"), ex.Message));
return;
}
if (osmFileExists == false)
{
message.AddError(120030, String.Format(resourceManager.GetString("GPTools_OSMGPFileReader_osmfiledoesnotexist"), osmFileLocationString.GetAsText()));
return;
}
IGPParameter conserveMemoryParameter = paramvalues.get_Element(in_conserveMemoryNumber) as IGPParameter;
IGPBoolean conserveMemoryGPValue = gpUtilities3.UnpackGPValue(conserveMemoryParameter) as IGPBoolean;
if (conserveMemoryGPValue == null)
{
message.AddError(120031, string.Format(resourceManager.GetString("GPTools_NullPointerParameterType"), conserveMemoryParameter.Name));
return;
}
message.AddMessage(resourceManager.GetString("GPTools_OSMGPFileReader_countingNodes"));
long nodeCapacity = 0;
long wayCapacity = 0;
long relationCapacity = 0;
Dictionary<esriGeometryType, List<string>> attributeTags = new Dictionary<esriGeometryType, List<string>>();
IGPParameter tagCollectionParameter = paramvalues.get_Element(in_attributeSelector) as IGPParameter;
IGPMultiValue tagCollectionGPValue = gpUtilities3.UnpackGPValue(tagCollectionParameter) as IGPMultiValue;
List<String> tagstoExtract = null;
if (tagCollectionGPValue.Count > 0)
{
tagstoExtract = new List<string>();
for (int valueIndex = 0; valueIndex < tagCollectionGPValue.Count; valueIndex++)
{
string nameOfTag = tagCollectionGPValue.get_Value(valueIndex).GetAsText();
if (nameOfTag.ToUpper().Equals("ALL"))
{
tagstoExtract = new List<string>();
break;
}
else
{
tagstoExtract.Add(nameOfTag);
}
}
}
// if there is an "ALL" keyword then we scan for all tags, otherwise we only add the desired tags to the feature classes and do a 'quick'
// count scan
if (tagstoExtract != null)
{
if (tagstoExtract.Count > 0)
{
// if the number of tags is > 0 then do a simple feature count and take name tags names from the gp value
osmToolHelper.countOSMStuff(osmFileLocationString.GetAsText(), ref nodeCapacity, ref wayCapacity, ref relationCapacity, ref TrackCancel);
attributeTags.Add(esriGeometryType.esriGeometryPoint, tagstoExtract);
attributeTags.Add(esriGeometryType.esriGeometryPolyline, tagstoExtract);
attributeTags.Add(esriGeometryType.esriGeometryPolygon, tagstoExtract);
}
else
{
// the count should be zero if we encountered the "ALL" keyword
// in this case count the features and create a list of unique tags
attributeTags = osmToolHelper.countOSMCapacityAndTags(osmFileLocationString.GetAsText(), ref nodeCapacity, ref wayCapacity, ref relationCapacity, ref TrackCancel);
}
}
else
{
// no tags we defined, hence we do a simple count and create an empty list indicating that no additional fields
// need to be created
osmToolHelper.countOSMStuff(osmFileLocationString.GetAsText(), ref nodeCapacity, ref wayCapacity, ref relationCapacity, ref TrackCancel);
attributeTags.Add(esriGeometryType.esriGeometryPoint, new List<string>());
attributeTags.Add(esriGeometryType.esriGeometryPolyline, new List<string>());
attributeTags.Add(esriGeometryType.esriGeometryPolygon, new List<string>());
}
if (nodeCapacity == 0 && wayCapacity == 0 && relationCapacity == 0)
{
return;
}
if (conserveMemoryGPValue.Value == false)
{
osmNodeDictionary = new Dictionary<string, OSMToolHelper.simplePointRef>(Convert.ToInt32(nodeCapacity));
}
message.AddMessage(String.Format(resourceManager.GetString("GPTools_OSMGPFileReader_countedElements"), nodeCapacity, wayCapacity, relationCapacity));
// prepare the feature dataset and classes
IGPParameter targetDatasetParameter = paramvalues.get_Element(out_targetDatasetNumber) as IGPParameter;
IGPValue targetDatasetGPValue = gpUtilities3.UnpackGPValue(targetDatasetParameter);
IDEDataset2 targetDEDataset2 = targetDatasetGPValue as IDEDataset2;
if (targetDEDataset2 == null)
{
message.AddError(120048, string.Format(resourceManager.GetString("GPTools_NullPointerParameterType"), targetDatasetParameter.Name));
return;
}
string targetDatasetName = ((IGPValue)targetDEDataset2).GetAsText();
IDataElement targetDataElement = targetDEDataset2 as IDataElement;
IDataset targetDataset = gpUtilities3.OpenDatasetFromLocation(targetDataElement.CatalogPath);
IName parentName = null;
try
{
parentName = gpUtilities3.CreateParentFromCatalogPath(targetDataElement.CatalogPath);
}
catch
{
message.AddError(120033, resourceManager.GetString("GPTools_OSMGPFileReader_unable_to_create_fd"));
return;
}
// test if the feature classes already exists,
// if they do and the environments settings are such that an overwrite is not allowed we need to abort at this point
IGeoProcessorSettings gpSettings = (IGeoProcessorSettings)envMgr;
if (gpSettings.OverwriteOutput == true)
{
}
else
{
if (gpUtilities3.Exists((IGPValue)targetDEDataset2) == true)
{
message.AddError(120032, String.Format(resourceManager.GetString("GPTools_OSMGPFileReader_basenamealreadyexists"), targetDataElement.Name));
return;
}
}
// load the descriptions from which to derive the domain values
OSMDomains availableDomains = null;
// Reading the XML document requires a FileStream.
System.Xml.XmlTextReader reader = null;
string xmlDomainFile = "";
m_editorConfigurationSettings.TryGetValue("osmdomainsfilepath", out xmlDomainFile);
if (System.IO.File.Exists(xmlDomainFile))
{
reader = new System.Xml.XmlTextReader(xmlDomainFile);
}
if (reader == null)
{
message.AddError(120033, resourceManager.GetString("GPTools_OSMGPDownload_NoDomainConfigFile"));
return;
}
System.Xml.Serialization.XmlSerializer domainSerializer = null;
try
{
domainSerializer = new XmlSerializer(typeof(OSMDomains));
availableDomains = domainSerializer.Deserialize(reader) as OSMDomains;
}
catch (Exception ex)
{
System.Diagnostics.Debug.WriteLine(ex.Message);
System.Diagnostics.Debug.WriteLine(ex.StackTrace);
message.AddError(120034, ex.Message);
return;
}
reader.Close();
message.AddMessage(resourceManager.GetString("GPTools_preparedb"));
Dictionary<string, IDomain> codedValueDomains = new Dictionary<string, IDomain>();
foreach (var domain in availableDomains.domain)
{
ICodedValueDomain pointCodedValueDomain = new CodedValueDomainClass();
((IDomain)pointCodedValueDomain).Name = domain.name + "_pt";
((IDomain)pointCodedValueDomain).FieldType = esriFieldType.esriFieldTypeString;
ICodedValueDomain lineCodedValueDomain = new CodedValueDomainClass();
((IDomain)lineCodedValueDomain).Name = domain.name + "_ln";
((IDomain)lineCodedValueDomain).FieldType = esriFieldType.esriFieldTypeString;
ICodedValueDomain polygonCodedValueDomain = new CodedValueDomainClass();
((IDomain)polygonCodedValueDomain).Name = domain.name + "_ply";
((IDomain)polygonCodedValueDomain).FieldType = esriFieldType.esriFieldTypeString;
for (int i = 0; i < domain.domainvalue.Length; i++)
{
for (int domainGeometryIndex = 0; domainGeometryIndex < domain.domainvalue[i].geometrytype.Length; domainGeometryIndex++)
{
switch (domain.domainvalue[i].geometrytype[domainGeometryIndex])
{
case geometrytype.point:
pointCodedValueDomain.AddCode(domain.domainvalue[i].value, domain.domainvalue[i].value);
break;
case geometrytype.line:
lineCodedValueDomain.AddCode(domain.domainvalue[i].value, domain.domainvalue[i].value);
break;
case geometrytype.polygon:
polygonCodedValueDomain.AddCode(domain.domainvalue[i].value, domain.domainvalue[i].value);
break;
default:
break;
}
}
}
// add the domain tables to the domains collection
codedValueDomains.Add(((IDomain)pointCodedValueDomain).Name, (IDomain)pointCodedValueDomain);
codedValueDomains.Add(((IDomain)lineCodedValueDomain).Name, (IDomain)lineCodedValueDomain);
codedValueDomains.Add(((IDomain)polygonCodedValueDomain).Name, (IDomain)polygonCodedValueDomain);
}
IWorkspaceDomains workspaceDomain = null;
IFeatureWorkspace featureWorkspace = null;
// if the target dataset already exists we can go ahead and QI to it directly
if (targetDataset != null)
{
workspaceDomain = targetDataset.Workspace as IWorkspaceDomains;
featureWorkspace = targetDataset.Workspace as IFeatureWorkspace;
}
else
{
// in case it doesn't exist yet we will open the parent (the workspace - geodatabase- itself) and
// use it as a reference to create the feature dataset and the feature classes in it.
IWorkspace newWorkspace = ((IName)parentName).Open() as IWorkspace;
workspaceDomain = newWorkspace as IWorkspaceDomains;
featureWorkspace = newWorkspace as IFeatureWorkspace;
}
foreach (var domain in codedValueDomains.Values)
{
IDomain testDomain = null;
try
{
testDomain = workspaceDomain.get_DomainByName(domain.Name);
}
catch { }
if (testDomain == null)
{
workspaceDomain.AddDomain(domain);
}
}
// this determines the spatial reference as defined from the gp environment settings and the initial wgs84 SR
ISpatialReferenceFactory spatialReferenceFactory = new SpatialReferenceEnvironmentClass() as ISpatialReferenceFactory;
ISpatialReference wgs84 = spatialReferenceFactory.CreateGeographicCoordinateSystem((int)esriSRGeoCSType.esriSRGeoCS_WGS1984) as ISpatialReference;
ISpatialReference downloadSpatialReference = gpUtilities3.GetGPSpRefEnv(envMgr, wgs84, null, 0, 0, 0, 0, null);
Marshal.ReleaseComObject(wgs84);
Marshal.ReleaseComObject(spatialReferenceFactory);
IGPEnvironment configKeyword = OSMGPDownload.getEnvironment(envMgr, "configKeyword");
IGPString gpString = configKeyword.Value as IGPString;
string storageKeyword = String.Empty;
if (gpString != null)
{
storageKeyword = gpString.Value;
}
IFeatureDataset targetFeatureDataset = null;
if (gpUtilities3.Exists((IGPValue)targetDEDataset2))
{
targetFeatureDataset = gpUtilities3.OpenDataset((IGPValue)targetDEDataset2) as IFeatureDataset;
}
else
{
targetFeatureDataset = featureWorkspace.CreateFeatureDataset(targetDataElement.Name, downloadSpatialReference);
}
downloadSpatialReference = ((IGeoDataset)targetFeatureDataset).SpatialReference;
string metadataAbstract = resourceManager.GetString("GPTools_OSMGPFileReader_metadata_abstract");
string metadataPurpose = resourceManager.GetString("GPTools_OSMGPFileReader_metadata_purpose");
// assign the custom class extension for use with the OSM feature inspector
UID osmClassUID = new UIDClass();
osmClassUID.Value = "{65CA4847-8661-45eb-8E1E-B2985CA17C78}";
// points
try
{
osmPointFeatureClass = osmToolHelper.CreatePointFeatureClass((IWorkspace2)featureWorkspace, targetFeatureDataset, targetDataElement.Name + "_osm_pt", null, null, null, storageKeyword, availableDomains, metadataAbstract, metadataPurpose, attributeTags[esriGeometryType.esriGeometryPoint]);
}
catch (Exception ex)
{
message.AddError(120035, String.Format(resourceManager.GetString("GPTools_OSMGPDownload_nullpointfeatureclass"), ex.Message));
return;
}
if (osmPointFeatureClass == null)
{
return;
}
// change the property set of the osm class extension to skip any change detection during the initial data load
osmPointFeatureClass.RemoveOSMClassExtension();
int osmPointIDFieldIndex = osmPointFeatureClass.FindField("OSMID");
Dictionary<string, int> osmPointDomainAttributeFieldIndices = new Dictionary<string, int>();
foreach (var domains in availableDomains.domain)
{
int currentFieldIndex = osmPointFeatureClass.FindField(domains.name);
if (currentFieldIndex != -1)
{
osmPointDomainAttributeFieldIndices.Add(domains.name, currentFieldIndex);
}
}
int tagCollectionPointFieldIndex = osmPointFeatureClass.FindField("osmTags");
int osmUserPointFieldIndex = osmPointFeatureClass.FindField("osmuser");
int osmUIDPointFieldIndex = osmPointFeatureClass.FindField("osmuid");
int osmVisiblePointFieldIndex = osmPointFeatureClass.FindField("osmvisible");
int osmVersionPointFieldIndex = osmPointFeatureClass.FindField("osmversion");
int osmChangesetPointFieldIndex = osmPointFeatureClass.FindField("osmchangeset");
int osmTimeStampPointFieldIndex = osmPointFeatureClass.FindField("osmtimestamp");
int osmMemberOfPointFieldIndex = osmPointFeatureClass.FindField("osmMemberOf");
int osmSupportingElementPointFieldIndex = osmPointFeatureClass.FindField("osmSupportingElement");
int osmWayRefCountFieldIndex = osmPointFeatureClass.FindField("wayRefCount");
// lines
try
{
osmLineFeatureClass = osmToolHelper.CreateLineFeatureClass((IWorkspace2)featureWorkspace, targetFeatureDataset, targetDataElement.Name + "_osm_ln", null, null, null, storageKeyword, availableDomains, metadataAbstract, metadataPurpose, attributeTags[esriGeometryType.esriGeometryPolyline]);
}
catch (Exception ex)
{
message.AddError(120036, String.Format(resourceManager.GetString("GPTools_OSMGPDownload_nulllinefeatureclass"), ex.Message));
return;
}
if (osmLineFeatureClass == null)
{
return;
}
// change the property set of the osm class extension to skip any change detection during the initial data load
osmLineFeatureClass.RemoveOSMClassExtension();
int osmLineIDFieldIndex = osmLineFeatureClass.FindField("OSMID");
Dictionary<string, int> osmLineDomainAttributeFieldIndices = new Dictionary<string, int>();
foreach (var domains in availableDomains.domain)
{
int currentFieldIndex = osmLineFeatureClass.FindField(domains.name);
if (currentFieldIndex != -1)
{
osmLineDomainAttributeFieldIndices.Add(domains.name, currentFieldIndex);
}
}
int tagCollectionPolylineFieldIndex = osmLineFeatureClass.FindField("osmTags");
int osmUserPolylineFieldIndex = osmLineFeatureClass.FindField("osmuser");
int osmUIDPolylineFieldIndex = osmLineFeatureClass.FindField("osmuid");
int osmVisiblePolylineFieldIndex = osmLineFeatureClass.FindField("osmvisible");
int osmVersionPolylineFieldIndex = osmLineFeatureClass.FindField("osmversion");
int osmChangesetPolylineFieldIndex = osmLineFeatureClass.FindField("osmchangeset");
int osmTimeStampPolylineFieldIndex = osmLineFeatureClass.FindField("osmtimestamp");
int osmMemberOfPolylineFieldIndex = osmLineFeatureClass.FindField("osmMemberOf");
int osmMembersPolylineFieldIndex = osmLineFeatureClass.FindField("osmMembers");
int osmSupportingElementPolylineFieldIndex = osmLineFeatureClass.FindField("osmSupportingElement");
// polygons
try
{
osmPolygonFeatureClass = osmToolHelper.CreatePolygonFeatureClass((IWorkspace2)featureWorkspace, targetFeatureDataset, targetDataElement.Name + "_osm_ply", null, null, null, storageKeyword, availableDomains, metadataAbstract, metadataPurpose, attributeTags[esriGeometryType.esriGeometryPolygon]);
}
catch (Exception ex)
{
message.AddError(120037, String.Format(resourceManager.GetString("GPTools_OSMGPDownload_nullpolygonfeatureclass"), ex.Message));
return;
}
if (osmPolygonFeatureClass == null)
{
return;
}
// change the property set of the osm class extension to skip any change detection during the initial data load
osmPolygonFeatureClass.RemoveOSMClassExtension();
int osmPolygonIDFieldIndex = osmPolygonFeatureClass.FindField("OSMID");
Dictionary<string, int> osmPolygonDomainAttributeFieldIndices = new Dictionary<string, int>();
foreach (var domains in availableDomains.domain)
{
int currentFieldIndex = osmPolygonFeatureClass.FindField(domains.name);
if (currentFieldIndex != -1)
{
osmPolygonDomainAttributeFieldIndices.Add(domains.name, currentFieldIndex);
}
}
int tagCollectionPolygonFieldIndex = osmPolygonFeatureClass.FindField("osmTags");
int osmUserPolygonFieldIndex = osmPolygonFeatureClass.FindField("osmuser");
int osmUIDPolygonFieldIndex = osmPolygonFeatureClass.FindField("osmuid");
int osmVisiblePolygonFieldIndex = osmPolygonFeatureClass.FindField("osmvisible");
int osmVersionPolygonFieldIndex = osmPolygonFeatureClass.FindField("osmversion");
int osmChangesetPolygonFieldIndex = osmPolygonFeatureClass.FindField("osmchangeset");
int osmTimeStampPolygonFieldIndex = osmPolygonFeatureClass.FindField("osmtimestamp");
int osmMemberOfPolygonFieldIndex = osmPolygonFeatureClass.FindField("osmMemberOf");
int osmMembersPolygonFieldIndex = osmPolygonFeatureClass.FindField("osmMembers");
int osmSupportingElementPolygonFieldIndex = osmPolygonFeatureClass.FindField("osmSupportingElement");
// relation table
ITable relationTable = null;
try
{
relationTable = osmToolHelper.CreateRelationTable((IWorkspace2)featureWorkspace, targetDataElement.Name + "_osm_relation", null, storageKeyword, metadataAbstract, metadataPurpose);
}
catch (Exception ex)
{
message.AddError(120038, String.Format(resourceManager.GetString("GPTools_OSMGPDownload_nullrelationtable"), ex.Message));
return;
}
if (relationTable == null)
{
return;
}
int osmRelationIDFieldIndex = relationTable.FindField("OSMID");
int tagCollectionRelationFieldIndex = relationTable.FindField("osmTags");
int osmUserRelationFieldIndex = relationTable.FindField("osmuser");
int osmUIDRelationFieldIndex = relationTable.FindField("osmuid");
int osmVisibleRelationFieldIndex = relationTable.FindField("osmvisible");
int osmVersionRelationFieldIndex = relationTable.FindField("osmversion");
int osmChangesetRelationFieldIndex = relationTable.FindField("osmchangeset");
int osmTimeStampRelationFieldIndex = relationTable.FindField("osmtimestamp");
int osmMemberOfRelationFieldIndex = relationTable.FindField("osmMemberOf");
int osmMembersRelationFieldIndex = relationTable.FindField("osmMembers");
int osmSupportingElementRelationFieldIndex = relationTable.FindField("osmSupportingElement");
// revision table
ITable revisionTable = null;
try
{
revisionTable = osmToolHelper.CreateRevisionTable((IWorkspace2)featureWorkspace, targetDataElement.Name + "_osm_revision", null, storageKeyword);
}
catch (Exception ex)
{
message.AddError(120039, String.Format(resourceManager.GetString("GPTools_OSMGPDownload_nullrevisiontable"), ex.Message));
return;
}
if (revisionTable == null)
{
return;
}
#region clean any existing data from loading targets
ESRI.ArcGIS.Geoprocessing.IGeoProcessor2 gp = new ESRI.ArcGIS.Geoprocessing.GeoProcessorClass();
IGeoProcessorResult gpResult = new GeoProcessorResultClass();
try
{
IVariantArray truncateParameters = new VarArrayClass();
truncateParameters.Add(((IWorkspace)featureWorkspace).PathName + "\\" + targetDataElement.Name + "\\" + targetDataElement.Name + "_osm_pt");
gpResult = gp.Execute("TruncateTable_management", truncateParameters, TrackCancel);
truncateParameters = new VarArrayClass();
truncateParameters.Add(((IWorkspace)featureWorkspace).PathName + "\\" + targetDataElement.Name + "\\" + targetDataElement.Name + "_osm_ln");
gpResult = gp.Execute("TruncateTable_management", truncateParameters, TrackCancel);
truncateParameters = new VarArrayClass();
truncateParameters.Add(((IWorkspace)featureWorkspace).PathName + "\\" + targetDataElement.Name + "\\" + targetDataElement.Name + "_osm_ply");
gpResult = gp.Execute("TruncateTable_management", truncateParameters, TrackCancel);
truncateParameters = new VarArrayClass();
truncateParameters.Add(((IWorkspace)featureWorkspace).PathName + "\\" + targetDataElement.Name + "_osm_relation");
gpResult = gp.Execute("TruncateTable_management", truncateParameters, TrackCancel);
truncateParameters = new VarArrayClass();
truncateParameters.Add(((IWorkspace)featureWorkspace).PathName + "\\" + targetDataElement.Name + "_osm_revision");
gpResult = gp.Execute("TruncateTable_management", truncateParameters, TrackCancel);
}
catch (Exception ex)
{
message.AddWarning(ex.Message);
}
#endregion
bool fastLoad = false;
//// check for user interruption
//if (TrackCancel.Continue() == false)
//{
// message.AddAbort(resourceManager.GetString("GPTools_toolabort"));
// return;
//}
//IFeatureCursor deleteCursor = null;
//using (ComReleaser comReleaser = new ComReleaser())
//{
// // let's make sure that we clean out any old data that might have existed in the feature classes
// deleteCursor = osmPointFeatureClass.Update(null, false);
// comReleaser.ManageLifetime(deleteCursor);
// for (IFeature feature = deleteCursor.NextFeature(); feature != null; feature = deleteCursor.NextFeature())
// {
// feature.Delete();
// // check for user interruption
// if (TrackCancel.Continue() == false)
// {
// message.AddAbort(resourceManager.GetString("GPTools_toolabort"));
// return;
// }
// }
//}
//using (ComReleaser comReleaser = new ComReleaser())
//{
// deleteCursor = osmLineFeatureClass.Update(null, false);
// comReleaser.ManageLifetime(deleteCursor);
// for (IFeature feature = deleteCursor.NextFeature(); feature != null; feature = deleteCursor.NextFeature())
// {
// feature.Delete();
// // check for user interruption
// if (TrackCancel.Continue() == false)
// {
// message.AddAbort(resourceManager.GetString("GPTools_toolabort"));
// return;
// }
// }
//}
//using (ComReleaser comReleaser = new ComReleaser())
//{
// deleteCursor = osmPolygonFeatureClass.Update(null, false);
// comReleaser.ManageLifetime(deleteCursor);
// for (IFeature feature = deleteCursor.NextFeature(); feature != null; feature = deleteCursor.NextFeature())
// {
// feature.Delete();
// // check for user interruption
// if (TrackCancel.Continue() == false)
// {
// message.AddAbort(resourceManager.GetString("GPTools_toolabort"));
// return;
// }
// }
//}
//ICursor tableCursor = null;
//using (ComReleaser comReleaser = new ComReleaser())
//{
// tableCursor = relationTable.Update(null, false);
// comReleaser.ManageLifetime(tableCursor);
// for (IRow row = tableCursor.NextRow(); row != null; row = tableCursor.NextRow())
// {
// row.Delete();
// // check for user interruption
// if (TrackCancel.Continue() == false)
// {
// message.AddAbort(resourceManager.GetString("GPTools_toolabort"));
// return;
// }
// }
//}
//using (ComReleaser comReleaser = new ComReleaser())
//{
// tableCursor = revisionTable.Update(null, false);
// comReleaser.ManageLifetime(tableCursor);
// for (IRow row = tableCursor.NextRow(); row != null; row = tableCursor.NextRow())
// {
// row.Delete();
// // check for user interruption
// if (TrackCancel.Continue() == false)
// {
// message.AddAbort(resourceManager.GetString("GPTools_toolabort"));
// return;
// }
// }
//}
// define variables helping to invoke core tools for data management
IGeoProcessorResult2 gpResults2 = null;
IGeoProcessor2 geoProcessor = new GeoProcessorClass();
#region load points
osmToolHelper.loadOSMNodes(osmFileLocationString.GetAsText(), ref TrackCancel, ref message, targetDatasetGPValue, osmPointFeatureClass, conserveMemoryGPValue.Value, fastLoad, Convert.ToInt32(nodeCapacity), ref osmNodeDictionary, featureWorkspace, downloadSpatialReference, availableDomains, false);
#endregion
if (TrackCancel.Continue() == false)
{
return;
}
#region load ways
List<string> missingWays = osmToolHelper.loadOSMWays(osmFileLocationString.GetAsText(), ref TrackCancel, ref message, targetDatasetGPValue, osmPointFeatureClass, osmLineFeatureClass, osmPolygonFeatureClass, conserveMemoryGPValue.Value, fastLoad, Convert.ToInt32(wayCapacity), ref osmNodeDictionary, featureWorkspace, downloadSpatialReference, availableDomains, false);
#endregion
if (downloadSpatialReference != null)
Marshal.ReleaseComObject(downloadSpatialReference);
#region for local geodatabases enforce spatial integrity
bool storedOriginalLocal = geoProcessor.AddOutputsToMap;
geoProcessor.AddOutputsToMap = false;
if (osmLineFeatureClass != null)
{
if (((IDataset)osmLineFeatureClass).Workspace.Type == esriWorkspaceType.esriLocalDatabaseWorkspace)
{
gpUtilities3 = new GPUtilitiesClass() as IGPUtilities3;
IGPParameter outLinesParameter = paramvalues.get_Element(out_osmLinesNumber) as IGPParameter;
IGPValue lineFeatureClass = gpUtilities3.UnpackGPValue(outLinesParameter);
DataManagementTools.RepairGeometry repairlineGeometry = new DataManagementTools.RepairGeometry(osmLineFeatureClass);
IVariantArray repairGeometryParameterArray = new VarArrayClass();
repairGeometryParameterArray.Add(lineFeatureClass.GetAsText());
repairGeometryParameterArray.Add("DELETE_NULL");
gpResults2 = geoProcessor.Execute(repairlineGeometry.ToolName, repairGeometryParameterArray, TrackCancel) as IGeoProcessorResult2;
message.AddMessages(gpResults2.GetResultMessages());
ComReleaser.ReleaseCOMObject(gpUtilities3);
}
}
if (osmPolygonFeatureClass != null)
{
if (((IDataset)osmPolygonFeatureClass).Workspace.Type == esriWorkspaceType.esriLocalDatabaseWorkspace)
{
gpUtilities3 = new GPUtilitiesClass() as IGPUtilities3;
IGPParameter outPolygonParameter = paramvalues.get_Element(out_osmPolygonsNumber) as IGPParameter;
IGPValue polygonFeatureClass = gpUtilities3.UnpackGPValue(outPolygonParameter);
DataManagementTools.RepairGeometry repairpolygonGeometry = new DataManagementTools.RepairGeometry(osmPolygonFeatureClass);
IVariantArray repairGeometryParameterArray = new VarArrayClass();
repairGeometryParameterArray.Add(polygonFeatureClass.GetAsText());
repairGeometryParameterArray.Add("DELETE_NULL");
gpResults2 = geoProcessor.Execute(repairpolygonGeometry.ToolName, repairGeometryParameterArray, TrackCancel) as IGeoProcessorResult2;
message.AddMessages(gpResults2.GetResultMessages());
ComReleaser.ReleaseCOMObject(gpUtilities3);
}
}
geoProcessor.AddOutputsToMap = storedOriginalLocal;
#endregion
if (TrackCancel.Continue() == false)
{
return;
}
#region load relations
List<string> missingRelations = osmToolHelper.loadOSMRelations(osmFileLocationString.GetAsText(), ref TrackCancel, ref message, targetDatasetGPValue, osmPointFeatureClass, osmLineFeatureClass, osmPolygonFeatureClass, Convert.ToInt32(relationCapacity), relationTable, availableDomains, fastLoad, false);
#endregion
// check for user interruption
if (TrackCancel.Continue() == false)
{
return;
}
//storedOriginalLocal = geoProcessor.AddOutputsToMap;
//try
//{
// geoProcessor.AddOutputsToMap = false;
// // add indexes for revisions
// //IGPValue revisionTableGPValue = gpUtilities3.MakeGPValueFromObject(revisionTable);
// string revisionTableString = targetDatasetGPValue.GetAsText() + System.IO.Path.DirectorySeparatorChar + ((IDataset)revisionTable).BrowseName;
// IVariantArray parameterArrary2 = osmToolHelper.CreateAddIndexParameterArray(revisionTableString, "osmoldid;osmnewid", "osmID_IDX", "", "");
// gpResults2 = geoProcessor.Execute("AddIndex_management", parameterArrary2, TrackCancel) as IGeoProcessorResult2;
// message.AddMessages(gpResults2.GetResultMessages());
//}
//catch (Exception ex)
//{
// message.AddWarning(ex.Message);
//}
//finally
//{
// geoProcessor.AddOutputsToMap = storedOriginalLocal;
//}
#region update the references counts and member lists for nodes
message.AddMessage(resourceManager.GetString("GPTools_OSMGPFileReader_updatereferences"));
IFeatureCursor pointUpdateCursor = null;
IQueryFilter pointQueryFilter = new QueryFilterClass();
// adjust of number of all other reference counter from 0 to 1
if (conserveMemoryGPValue.Value == true)
{
pointQueryFilter.WhereClause = osmPointFeatureClass.SqlIdentifier("wayRefCount") + " = 0";
pointQueryFilter.SubFields = osmPointFeatureClass.OIDFieldName + ",wayRefCount";
}
using (SchemaLockManager ptLockManager = new SchemaLockManager(osmPointFeatureClass as ITable))
{
using (ComReleaser comReleaser = new ComReleaser())
{
int updateCount = 0;
if (conserveMemoryGPValue.Value == true)
{
pointUpdateCursor = osmPointFeatureClass.Update(pointQueryFilter, false);
updateCount = ((ITable)osmPointFeatureClass).RowCount(pointQueryFilter);
}
else
{
pointUpdateCursor = osmPointFeatureClass.Update(null, false);
updateCount = ((ITable)osmPointFeatureClass).RowCount(null);
}
IStepProgressor stepProgressor = TrackCancel as IStepProgressor;
if (stepProgressor != null)
{
stepProgressor.MinRange = 0;
stepProgressor.MaxRange = updateCount;
stepProgressor.Position = 0;
stepProgressor.Message = resourceManager.GetString("GPTools_OSMGPFileReader_updatepointrefcount");
stepProgressor.StepValue = 1;
stepProgressor.Show();
}
comReleaser.ManageLifetime(pointUpdateCursor);
IFeature pointFeature = pointUpdateCursor.NextFeature();
int positionCounter = 0;
while (pointFeature != null)
{
positionCounter++;
string nodeID = Convert.ToString(pointFeature.get_Value(osmPointIDFieldIndex));
if (conserveMemoryGPValue.Value == false)
{
// let get the reference counter from the internal node dictionary
if (osmNodeDictionary[nodeID].RefCounter == 0)
{
pointFeature.set_Value(osmWayRefCountFieldIndex, 1);
}
else
{
pointFeature.set_Value(osmWayRefCountFieldIndex, osmNodeDictionary[nodeID].RefCounter);
}
}
else
{
// in the case of memory conservation let's go change the 0s to 1s
pointFeature.set_Value(osmWayRefCountFieldIndex, 1);
}
pointUpdateCursor.UpdateFeature(pointFeature);
if (pointFeature != null)
Marshal.ReleaseComObject(pointFeature);
pointFeature = pointUpdateCursor.NextFeature();
if (stepProgressor != null)
{
stepProgressor.Position = positionCounter;
}
}
if (stepProgressor != null)
{
stepProgressor.Hide();
}
Marshal.ReleaseComObject(pointQueryFilter);
}
}
#endregion
if (osmNodeDictionary != null)
{
// clear outstanding resources potentially holding points
osmNodeDictionary = null;
System.GC.Collect(2, GCCollectionMode.Forced);
}
if (missingRelations.Count > 0)
{
missingRelations.Clear();
missingRelations = null;
}
if (missingWays.Count > 0)
{
missingWays.Clear();
missingWays = null;
}
SyncState.StoreLastSyncTime(targetDatasetName, syncTime);
gpUtilities3 = new GPUtilitiesClass() as IGPUtilities3;
// repackage the feature class into their respective gp values
IGPParameter pointFeatureClassParameter = paramvalues.get_Element(out_osmPointsNumber) as IGPParameter;
IGPValue pointFeatureClassGPValue = gpUtilities3.UnpackGPValue(pointFeatureClassParameter);
gpUtilities3.PackGPValue(pointFeatureClassGPValue, pointFeatureClassParameter);
IGPParameter lineFeatureClassParameter = paramvalues.get_Element(out_osmLinesNumber) as IGPParameter;
IGPValue line1FeatureClassGPValue = gpUtilities3.UnpackGPValue(lineFeatureClassParameter);
gpUtilities3.PackGPValue(line1FeatureClassGPValue, lineFeatureClassParameter);
IGPParameter polygonFeatureClassParameter = paramvalues.get_Element(out_osmPolygonsNumber) as IGPParameter;
IGPValue polygon1FeatureClassGPValue = gpUtilities3.UnpackGPValue(polygonFeatureClassParameter);
gpUtilities3.PackGPValue(polygon1FeatureClassGPValue, polygonFeatureClassParameter);
ComReleaser.ReleaseCOMObject(relationTable);
ComReleaser.ReleaseCOMObject(revisionTable);
ComReleaser.ReleaseCOMObject(targetFeatureDataset);
ComReleaser.ReleaseCOMObject(featureWorkspace);
ComReleaser.ReleaseCOMObject(osmFileLocationString);
ComReleaser.ReleaseCOMObject(conserveMemoryGPValue);
ComReleaser.ReleaseCOMObject(targetDataset);
gpUtilities3.ReleaseInternals();
ComReleaser.ReleaseCOMObject(gpUtilities3);
}
catch (Exception ex)
{
message.AddError(120055, ex.Message);
message.AddError(120055, ex.StackTrace);
}
finally
{
try
{
// TE -- 1/7/2015
// this is a 'breaking' change as the default loader won't no longer enable the edit extension
// the reasoning here is that most users would like the OSM in a 'read-only' fashion, and don't need to track
// changes to be properly transmitted back to the OSM server
//if (osmPointFeatureClass != null)
//{
// osmPointFeatureClass.ApplyOSMClassExtension();
// ComReleaser.ReleaseCOMObject(osmPointFeatureClass);
//}
//if (osmLineFeatureClass != null)
//{
// osmLineFeatureClass.ApplyOSMClassExtension();
// ComReleaser.ReleaseCOMObject(osmLineFeatureClass);
//}
//if (osmPolygonFeatureClass != null)
//{
// osmPolygonFeatureClass.ApplyOSMClassExtension();
// ComReleaser.ReleaseCOMObject(osmPolygonFeatureClass);
//}
osmToolHelper = null;
System.GC.Collect();
System.GC.WaitForPendingFinalizers();
}
catch (Exception ex)
{
message.AddError(120056, ex.ToString());
}
}
}
private void btOk_Click(object sender, EventArgs e)
{
int sExcute = 0;
int sIsNul = 0;
int sIsThan = 0;
double sAll = 0;
for (int i = 0; i < this.dataGridView1.Rows.Count - 1; i++)
{
if (this.dataGridView1.Rows[i].Cells[1].Value == null)
{
sIsNul = 1; //如果权重存在空值,sIsNul=1
}
else
{
double ssRow = double.Parse(this.dataGridView1.Rows[i].Cells[1].Value.ToString());
sAll = sAll + ssRow;
}
}
if ((sAll != 1.0) && (sIsNul == 0))
{
sIsThan = 1; //如果权重之和不为1,sIsThan=1
}
//判断权重是否为空
if (sIsNul == 1)
{
MessageBox.Show("请您输入数据权重!");
}
//判断权重之和是否等于1
if (sIsThan == 1)
{
MessageBox.Show("请您确保输入的权重之和等于1");
}
if (txtSavePath.Equals(""))
{
MessageBox.Show("请选择输出路径!", "提示", MessageBoxButtons.OK, MessageBoxIcon.Information);
return;
}
//准备后续执行
if ((sIsNul == 0) && (sIsThan == 0) && (Onebt == 1))
{
//现创建一个存放临时文件的临时文件夹
string newPath = System.IO.Path.Combine(Temfile, "");
System.IO.Directory.CreateDirectory(newPath);
this.rtxtState.AppendText("正在执行,请您耐心等待...\n");
this.rtxtState.ScrollToCaret();
this.rtxtState.AppendText("准备调用GP工具箱...\n");
this.rtxtState.ScrollToCaret();
IVariantArray parameters = new VarArrayClass();
Geoprocessor GP = new Geoprocessor();
ESRI.ArcGIS.SpatialAnalystTools.RasterCalculator sCalR = new ESRI.ArcGIS.SpatialAnalystTools.RasterCalculator();
this.rtxtState.AppendText("开始遍历读取表中数据...\n");
this.rtxtState.ScrollToCaret();
this.rtxtState.AppendText("开始对栅格数据重分类...\n");
this.rtxtState.ScrollToCaret();
for (int m = 0; m < this.dataGridView1.Rows.Count - 1; m++)
{
string sFileName;
sFileName = Temfile + "\\重分类" + (m + 1).ToString() + ".tif";
//计算栅格最小值
double dMin0 = 0;
IGeoProcessor2 gp = new GeoProcessorClass();
gp.OverwriteOutput = true;
// Create a variant array to hold the parameter values.
IVariantArray parameters2 = new VarArrayClass();
IGeoProcessorResult result = new GeoProcessorResultClass();
// Set parameter values.
parameters2.Add(this.dataGridView1.Rows[m].Cells[0].Value.ToString());
parameters2.Add("MINIMUM");
result = gp.Execute("GetRasterProperties_management", parameters2, null);
dMin0 = (double)result.ReturnValue;
int dMin = (int)dMin0;
//计算栅格最大值
double dMax0 = 0;
IGeoProcessor2 gp2 = new GeoProcessorClass();
gp2.OverwriteOutput = true;
// Create a variant array to hold the parameter values.
IVariantArray parameters3 = new VarArrayClass();
IGeoProcessorResult result3 = new GeoProcessorResultClass();
// Set parameter values.
parameters3.Add(this.dataGridView1.Rows[m].Cells[0].Value.ToString());
parameters3.Add("MAXIMUM");
result3 = gp2.Execute("GetRasterProperties_management", parameters3, null);
dMax0 = (double)result3.ReturnValue;
int dMax = (int)dMax0;
//计算分类区间
int Avera = (dMax - dMin) / 4;
int interval1 = dMin + Avera;
int interval2 = dMin + 2 * Avera;
int interval3 = dMin + 3 * Avera;
//开始对数据进行重分类
ESRI.ArcGIS.SpatialAnalystTools.Reclassify tReclass = new ESRI.ArcGIS.SpatialAnalystTools.Reclassify();
tReclass.in_raster = this.dataGridView1.Rows[m].Cells[0].Value.ToString();
tReclass.missing_values = "NODATA";
tReclass.out_raster = sFileName;
tReclass.reclass_field = "VALUE";
//tReclass.remap = "1400 2176 1;2176 2538 2;2538 3040 3;3040 4073 4";
tReclass.remap = dMin.ToString() + " " + interval1.ToString() + " " + "1;" + interval1.ToString() + " " + interval2.ToString() + " " + "2;" + interval2.ToString() + " " + interval3.ToString() + " " + "3;" + interval3.ToString() + " " + dMax.ToString() + " " + "4;";
// ScrollToBottom("Reclassify");
//tGeoResult = (IGeoProcessorResult)tGp.Execute(tReclass, null);
GP.Execute(tReclass, null);
}
this.rtxtState.AppendText("输入数据重分类完成...\n");
this.rtxtState.ScrollToCaret();
//开始进行栅格计算
this.rtxtState.AppendText("开始准备进行栅格加权运算...\n");
this.rtxtState.ScrollToCaret();
string sFileName2 = "重分类";
string sRoad = Temfile + "\\重分类";
for (int n = 1; n < this.dataGridView1.Rows.Count; n++)
{
sFileName2 = sRoad + n.ToString() + "." + "tif";
strExp = "\"" + sFileName2 + "\"" + "*" + double.Parse(this.dataGridView1.Rows[n - 1].Cells[1].Value.ToString());
if (n < this.dataGridView1.Rows.Count - 1)
{
sR2 = sR2 + strExp + "+";
}
else
{
sR2 = sR2 + strExp;
}
}
sR3 = sR2;
sCalR.expression = sR3;
sR = Temfile + "\\地质灾害.tif";
sCalR.output_raster = sR;
GP.Execute(sCalR, null);
this.rtxtState.AppendText("栅格计算成功,得到地质灾害分布栅格影像...\n");
this.rtxtState.ScrollToCaret();
this.rtxtState.AppendText("开始对地质灾害影像进行重分类...\n");
this.rtxtState.ScrollToCaret();
//开始准备对生成的地质灾害.tif进行分类
//计算栅格最小值
double dMin02 = 0;
IGeoProcessor2 gp3 = new GeoProcessorClass();
gp3.OverwriteOutput = true;
// Create a variant array to hold the parameter values.
IVariantArray parameters22 = new VarArrayClass();
IGeoProcessorResult result22 = new GeoProcessorResultClass();
// Set parameter values.
parameters22.Add(sR);
parameters22.Add("MINIMUM");
result22 = gp3.Execute("GetRasterProperties_management", parameters22, null);
dMin02 = (double)result22.ReturnValue;
//计算栅格最大值
double dMax02 = 0;
IGeoProcessor2 gp4 = new GeoProcessorClass();
gp4.OverwriteOutput = true;
// Create a variant array to hold the parameter values.
IVariantArray parameters33 = new VarArrayClass();
IGeoProcessorResult result33 = new GeoProcessorResultClass();
// Set parameter values.
parameters33.Add(sR);
parameters33.Add("MAXIMUM");
result33 = gp4.Execute("GetRasterProperties_management", parameters33, null);
dMax02 = (double)result33.ReturnValue;
//计算分类区间
double Avera2 = (dMax02 - dMin02) / 4;
double interval12 = dMin02 + Avera2;
double interval22 = dMin02 + 2 * Avera2;
double interval32 = dMin02 + 3 * Avera2;
//开始对地质灾害.tif重分类
ESRI.ArcGIS.SpatialAnalystTools.Reclassify tReclass2 = new ESRI.ArcGIS.SpatialAnalystTools.Reclassify();
tReclass2.in_raster = Temfile + "\\地质灾害.tif";
tReclass2.missing_values = "NODATA";
tReclass2.out_raster = txtSavePath.Text;
tReclass2.reclass_field = "VALUE";
//tReclass.remap = "1400 2176 1;2176 2538 2;2538 3040 3;3040 4073 4";
tReclass2.remap = dMin02.ToString() + " " + interval12.ToString() + " " + "1;" + interval12.ToString() + " " + interval22.ToString() + " " + "2;" + interval22.ToString() + " " + interval32.ToString() + " " + "3;" + interval32.ToString() + " " + dMax02.ToString() + " " + "4;";
// ScrollToBottom("Reclassify");
//tGeoResult = (IGeoProcessorResult)tGp.Execute(tReclass, null);
GP.Execute(tReclass2, null);
//删除临时文件夹
string deleteFile = Temfile;
DeleteFolder(deleteFile);
this.rtxtState.AppendText("完成地质灾害生态红线的划分,已将结果成功保存...\n");
this.rtxtState.ScrollToCaret();
}
}
/// <summary>
/// Where all of the work is done. Override from TabBaseViewModel
/// </summary>
internal override void CreateMapElement()
{
try
{
IsRunning = true;
if (!CanCreateElement || ArcMap.Document == null || ArcMap.Document.FocusMap == null || string.IsNullOrWhiteSpace(SelectedSurfaceName))
{
return;
}
//base.CreateMapElement();
var surface = GetSurfaceFromMapByName(ArcMap.Document.FocusMap, SelectedSurfaceName);
if (surface == null)
{
return;
}
// Determine if selected surface is projected or geographic
ILayer surfaceLayer = GetLayerFromMapByName(ArcMap.Document.FocusMap, SelectedSurfaceName);
var geoDataset = surfaceLayer as IGeoDataset;
SelectedSurfaceSpatialRef = geoDataset.SpatialReference;
if (SelectedSurfaceSpatialRef is IGeographicCoordinateSystem)
{
MessageBox.Show(VisibilityLibrary.Properties.Resources.RLOSUserPrompt, VisibilityLibrary.Properties.Resources.RLOSUserPromptCaption);
return;
}
if (geoDataset != null && ArcMap.Document.FocusMap.SpatialReference.FactoryCode != geoDataset.SpatialReference.FactoryCode)
{
MessageBox.Show(VisibilityLibrary.Properties.Resources.LOSDataFrameMatch, VisibilityLibrary.Properties.Resources.LOSSpatialReferenceCaption);
return;
}
using (ComReleaser oComReleaser = new ComReleaser())
{
// Create feature workspace
IFeatureWorkspace workspace = CreateFeatureWorkspace("tempWorkspace");
StartEditOperation((IWorkspace)workspace);
// Create feature class
IFeatureClass pointFc = CreateObserversFeatureClass(workspace, SelectedSurfaceSpatialRef, "Output" + RunCount.ToString());
double finalObserverOffset = GetOffsetInZUnits(ObserverOffset.Value, surface.ZFactor, OffsetUnitType);
double finalSurfaceOffset = GetOffsetInZUnits(SurfaceOffset, surface.ZFactor, OffsetUnitType);
double conversionFactor = GetConversionFactor(SelectedSurfaceSpatialRef);
double convertedMinDistance = MinDistance * conversionFactor;
double convertedMaxDistance = MaxDistance * conversionFactor;
double finalMinDistance = GetLinearDistance(ArcMap.Document.FocusMap, convertedMinDistance, OffsetUnitType);
double finalMaxDistance = GetLinearDistance(ArcMap.Document.FocusMap, convertedMaxDistance, OffsetUnitType);
double finalLeftHorizontalFOV = GetAngularDistance(ArcMap.Document.FocusMap, LeftHorizontalFOV, AngularUnitType);
double finalRightHorizontalFOV = GetAngularDistance(ArcMap.Document.FocusMap, RightHorizontalFOV, AngularUnitType);
double finalBottomVerticalFOV = GetAngularDistance(ArcMap.Document.FocusMap, BottomVerticalFOV, AngularUnitType);
double finalTopVerticalFOV = GetAngularDistance(ArcMap.Document.FocusMap, TopVerticalFOV, AngularUnitType);
// Out radius geometries
List <IGeometry> radius2GeomList = new List <IGeometry>();
List <IGeometry> radius1_2GeomList = new List <IGeometry>();
List <IGeometry> donutGeomList = new List <IGeometry>();
foreach (var observerPoint in ObserverAddInPoints)
{
// Create buffer geometries for final Min/Max distance
ITopologicalOperator topologicalOperator = observerPoint.Point as ITopologicalOperator;
IGeometry geom = topologicalOperator.Buffer(finalMaxDistance);
radius2GeomList.Add(geom);
radius1_2GeomList.Add(geom);
if (finalMinDistance > 0)
{
IGeometry geom2 = topologicalOperator.Buffer(finalMinDistance);
ITopologicalOperator eraseTopo = geom as ITopologicalOperator;
IGeometry erasedGeom = eraseTopo.Difference(geom2);
donutGeomList.Add(erasedGeom);
}
else
{
radius1_2GeomList.Add(geom);
}
double z1 = surface.GetElevation(observerPoint.Point) + finalObserverOffset;
//create a new point feature
IFeature ipFeature = pointFc.CreateFeature();
// Set the field values for the feature
SetFieldValues(finalObserverOffset, finalSurfaceOffset, finalMinDistance, finalMaxDistance, finalLeftHorizontalFOV,
finalRightHorizontalFOV, finalBottomVerticalFOV, finalTopVerticalFOV, ipFeature);
if (double.IsNaN(z1))
{
System.Windows.MessageBox.Show(VisibilityLibrary.Properties.Resources.RLOSPointsOutsideOfSurfaceExtent, VisibilityLibrary.Properties.Resources.MsgCalcCancelled);
return;
}
//Create shape
IPoint point = new PointClass()
{
Z = z1, X = observerPoint.Point.X, Y = observerPoint.Point.Y, ZAware = true
};
ipFeature.Shape = point;
ipFeature.Store();
}
IFeatureClassDescriptor fd = new FeatureClassDescriptorClass();
fd.Create(pointFc, null, "OBJECTID");
StopEditOperation((IWorkspace)workspace);
try
{
ILayer layer = GetLayerFromMapByName(ArcMap.Document.FocusMap, SelectedSurfaceName);
string layerPath = GetLayerPath(layer);
IFeatureLayer ipFeatureLayer = new FeatureLayerClass();
ipFeatureLayer.FeatureClass = pointFc;
IDataset ipDataset = (IDataset)pointFc;
string outputFcName = ipDataset.BrowseName + "_output";
string strPath = ipDataset.Workspace.PathName + "\\" + ipDataset.BrowseName;
string outPath = ipDataset.Workspace.PathName + "\\" + outputFcName;
IVariantArray parameters = new VarArrayClass();
parameters.Add(layerPath);
parameters.Add(strPath);
parameters.Add(outPath);
esriLicenseStatus status = GetSpatialAnalystLicense();
if (status == esriLicenseStatus.esriLicenseUnavailable || status == esriLicenseStatus.esriLicenseFailure ||
status == esriLicenseStatus.esriLicenseNotInitialized || status == esriLicenseStatus.esriLicenseNotLicensed ||
status == esriLicenseStatus.esriLicenseUnavailable)
{
System.Windows.MessageBox.Show(VisibilityLibrary.Properties.Resources.LOSSpatialAnalystLicenseInvalid, VisibilityLibrary.Properties.Resources.MsgCalcCancelled);
return;
}
IGeoProcessor2 gp = new GeoProcessorClass();
gp.AddOutputsToMap = false;
// Add a mask to buffer the output to selected distance
SetGPMask(workspace, radius2GeomList, gp, "radiusMask");
object oResult = gp.Execute("Visibility_sa", parameters, null);
IGeoProcessorResult ipResult = (IGeoProcessorResult)oResult;
ComReleaser.ReleaseCOMObject(gp);
gp = null;
GC.Collect();
// Add buffer geometries to the map
foreach (IGeometry geom in radius1_2GeomList)
{
var color = new RgbColorClass()
{
Blue = 255
} as IColor;
AddGraphicToMap(geom, color, true);
}
IRasterLayer outputRasterLayer = new RasterLayerClass();
outputRasterLayer.CreateFromFilePath(outPath);
string fcName = IntersectOutput(outputRasterLayer, ipDataset, workspace, donutGeomList);
IFeatureClass finalFc = workspace.OpenFeatureClass(fcName);
IFeatureLayer outputFeatureLayer = new FeatureLayerClass();
outputFeatureLayer.FeatureClass = finalFc;
//Add it to a map if the layer is valid.
if (outputFeatureLayer != null)
{
// set the renderer
IFeatureRenderer featRend = UniqueValueRenderer(workspace, finalFc);
IGeoFeatureLayer geoLayer = outputFeatureLayer as IGeoFeatureLayer;
geoLayer.Renderer = featRend;
geoLayer.Name = "RLOS_Visibility_" + RunCount.ToString();
// Set the layer transparency
IDisplayFilterManager filterManager = (IDisplayFilterManager)outputFeatureLayer;
ITransparencyDisplayFilter filter = new TransparencyDisplayFilter();
filter.Transparency = 80;
filterManager.DisplayFilter = filter;
ESRI.ArcGIS.Carto.IMap map = ArcMap.Document.FocusMap;
map.AddLayer((ILayer)outputFeatureLayer);
IEnvelope envelope = outputFeatureLayer.AreaOfInterest.Envelope;
ZoomToExtent(envelope);
}
RunCount += 1;
}
catch (Exception ex)
{
System.Windows.MessageBox.Show(VisibilityLibrary.Properties.Resources.MsgTryAgain, VisibilityLibrary.Properties.Resources.MsgCalcCancelled);
}
//Reset(true);
}
}
catch (Exception ex)
{
System.Windows.MessageBox.Show(VisibilityLibrary.Properties.Resources.MsgTryAgain, VisibilityLibrary.Properties.Resources.MsgCalcCancelled);
}
finally
{
IsRunning = false;
}
}
internal void loadOSMNodes(string osmFileLocation, ref ITrackCancel TrackCancel, ref IGPMessages message,IGPValue targetGPValue, IFeatureClass osmPointFeatureClass, bool conserveMemory, bool fastLoad, int nodeCapacity, ref Dictionary<string, simplePointRef> osmNodeDictionary, IFeatureWorkspace featureWorkspace, ISpatialReference downloadSpatialReference, OSMDomains availableDomains, bool checkForExisting)
{
XmlReader osmFileXmlReader = null;
XmlSerializer nodeSerializer = null;
try
{
osmFileXmlReader = System.Xml.XmlReader.Create(osmFileLocation);
nodeSerializer = new XmlSerializer(typeof(node));
ISpatialReferenceFactory spatialRef = new SpatialReferenceEnvironmentClass();
ISpatialReference wgs84 = spatialRef.CreateGeographicCoordinateSystem((int)esriSRGeoCSType.esriSRGeoCS_WGS1984);
bool shouldProject = !((IClone)wgs84).IsEqual((IClone)downloadSpatialReference);
int osmPointIDFieldIndex = osmPointFeatureClass.FindField("OSMID");
Dictionary<string, int> osmPointDomainAttributeFieldIndices = new Dictionary<string, int>();
Dictionary<string, int> osmPointDomainAttributeFieldLength = new Dictionary<string, int>();
foreach (var domains in availableDomains.domain)
{
int currentFieldIndex = osmPointFeatureClass.FindField(domains.name);
if (currentFieldIndex != -1)
{
osmPointDomainAttributeFieldIndices.Add(domains.name, currentFieldIndex);
osmPointDomainAttributeFieldLength.Add(domains.name, osmPointFeatureClass.Fields.get_Field(currentFieldIndex).Length);
}
}
int tagCollectionPointFieldIndex = osmPointFeatureClass.FindField("osmTags");
int osmUserPointFieldIndex = osmPointFeatureClass.FindField("osmuser");
int osmUIDPointFieldIndex = osmPointFeatureClass.FindField("osmuid");
int osmVisiblePointFieldIndex = osmPointFeatureClass.FindField("osmvisible");
int osmVersionPointFieldIndex = osmPointFeatureClass.FindField("osmversion");
int osmChangesetPointFieldIndex = osmPointFeatureClass.FindField("osmchangeset");
int osmTimeStampPointFieldIndex = osmPointFeatureClass.FindField("osmtimestamp");
int osmMemberOfPointFieldIndex = osmPointFeatureClass.FindField("osmMemberOf");
int osmSupportingElementPointFieldIndex = osmPointFeatureClass.FindField("osmSupportingElement");
int osmWayRefCountFieldIndex = osmPointFeatureClass.FindField("wayRefCount");
// set up the progress indicator
IStepProgressor stepProgressor = TrackCancel as IStepProgressor;
if (stepProgressor != null)
{
stepProgressor.MinRange = 0;
stepProgressor.MaxRange = nodeCapacity;
stepProgressor.StepValue = (1);
stepProgressor.Message = _resourceManager.GetString("GPTools_OSMGPFileReader_loadingNodes");
stepProgressor.Position = 0;
stepProgressor.Show();
}
// flag to determine if a computation of indices is required
bool indexBuildRequired = false;
if (nodeCapacity > 0)
indexBuildRequired = true;
int pointCount = 0;
// let's insert all the points first
if (osmPointFeatureClass != null)
{
IFeatureBuffer pointFeature = null;
IFeatureClassLoad pointFeatureLoad = null;
using (ComReleaser comReleaser = new ComReleaser())
{
using (SchemaLockManager schemaLockManager = new SchemaLockManager(osmPointFeatureClass as ITable))
{
if (((IWorkspace)featureWorkspace).WorkspaceFactory.WorkspaceType == esriWorkspaceType.esriRemoteDatabaseWorkspace)
{
pointFeatureLoad = osmPointFeatureClass as IFeatureClassLoad;
}
IFeatureCursor pointInsertCursor = osmPointFeatureClass.Insert(true);
comReleaser.ManageLifetime(pointInsertCursor);
pointFeature = osmPointFeatureClass.CreateFeatureBuffer();
comReleaser.ManageLifetime(pointFeature);
if (pointFeatureLoad != null)
{
pointFeatureLoad.LoadOnlyMode = true;
}
osmFileXmlReader.MoveToContent();
while (osmFileXmlReader.Read())
{
if (osmFileXmlReader.IsStartElement())
{
if (osmFileXmlReader.Name == "node")
{
string currentNodeString = osmFileXmlReader.ReadOuterXml();
// turn the xml node representation into a node class representation
ESRI.ArcGIS.OSM.OSMClassExtension.node currentNode = null;
using (StringReader nodeReader = new System.IO.StringReader(currentNodeString))
{
currentNode = nodeSerializer.Deserialize(nodeReader) as ESRI.ArcGIS.OSM.OSMClassExtension.node;
}
// check if a feature with the same OSMID already exists, because the can only be one
if (checkForExisting == true)
{
if (CheckIfExists(osmPointFeatureClass as ITable, currentNode.id))
{
continue;
}
}
try
{
//if (pointFeature == null)
//{
pointFeature = osmPointFeatureClass.CreateFeatureBuffer();
comReleaser.ManageLifetime(pointFeature);
//}
IPoint pointGeometry = new PointClass();
comReleaser.ManageLifetime(pointGeometry);
pointGeometry.X = Convert.ToDouble(currentNode.lon, new CultureInfo("en-US"));
pointGeometry.Y = Convert.ToDouble(currentNode.lat, new CultureInfo("en-US"));
pointGeometry.SpatialReference = wgs84;
if (shouldProject)
{
pointGeometry.Project(downloadSpatialReference);
}
pointFeature.Shape = pointGeometry;
pointFeature.set_Value(osmPointIDFieldIndex, currentNode.id);
string isSupportingNode = "";
if (_osmUtility.DoesHaveKeys(currentNode))
{
// if case it has tags I assume that the node presents an entity of it own,
// hence it is not a supporting node in the context of supporting a way or relation
isSupportingNode = "no";
if (conserveMemory == false)
{
osmNodeDictionary[currentNode.id] = new simplePointRef(Convert.ToSingle(currentNode.lon, new CultureInfo("en-US")), Convert.ToSingle(currentNode.lat, new CultureInfo("en-US")), 0, 0);
}
}
else
{
// node has no tags -- at this point I assume that the absence of tags indicates that it is a supporting node
// for a way or a relation
isSupportingNode = "yes";
if (conserveMemory == false)
{
osmNodeDictionary[currentNode.id] = new simplePointRef(Convert.ToSingle(currentNode.lon, new CultureInfo("en-US")), Convert.ToSingle(currentNode.lat, new CultureInfo("en-US")), 0, 0);
}
}
insertTags(osmPointDomainAttributeFieldIndices, osmPointDomainAttributeFieldLength, tagCollectionPointFieldIndex, pointFeature, currentNode.tag);
if (fastLoad == false)
{
if (osmSupportingElementPointFieldIndex > -1)
{
pointFeature.set_Value(osmSupportingElementPointFieldIndex, isSupportingNode);
}
if (osmWayRefCountFieldIndex > -1)
{
pointFeature.set_Value(osmWayRefCountFieldIndex, 0);
}
// store the administrative attributes
// user, uid, version, changeset, timestamp, visible
if (osmUserPointFieldIndex > -1)
{
if (!String.IsNullOrEmpty(currentNode.user))
{
pointFeature.set_Value(osmUserPointFieldIndex, currentNode.user);
}
}
if (osmUIDPointFieldIndex > -1)
{
if (!String.IsNullOrEmpty(currentNode.uid))
{
pointFeature.set_Value(osmUIDPointFieldIndex, Convert.ToInt32(currentNode.uid));
}
}
if (osmVisiblePointFieldIndex > -1)
{
pointFeature.set_Value(osmVisiblePointFieldIndex, currentNode.visible.ToString());
}
if (osmVersionPointFieldIndex > -1)
{
if (!String.IsNullOrEmpty(currentNode.version))
{
pointFeature.set_Value(osmVersionPointFieldIndex, Convert.ToInt32(currentNode.version));
}
}
if (osmChangesetPointFieldIndex > -1)
{
if (!String.IsNullOrEmpty(currentNode.changeset))
{
pointFeature.set_Value(osmChangesetPointFieldIndex, Convert.ToInt32(currentNode.changeset));
}
}
if (osmTimeStampPointFieldIndex > -1)
{
if (!String.IsNullOrEmpty(currentNode.timestamp))
{
try
{
pointFeature.set_Value(osmTimeStampPointFieldIndex, Convert.ToDateTime(currentNode.timestamp));
}
catch (Exception ex)
{
message.AddWarning(String.Format(_resourceManager.GetString("GPTools_OSMGPFileReader_invalidTimeFormat"), ex.Message));
}
}
}
}
try
{
pointInsertCursor.InsertFeature(pointFeature);
pointCount = pointCount + 1;
if (stepProgressor != null)
{
stepProgressor.Position = pointCount;
}
}
catch (Exception ex)
{
System.Diagnostics.Debug.WriteLine(ex.Message);
message.AddWarning(ex.Message);
}
if (TrackCancel.Continue() == false)
{
return;
}
if ((pointCount % 50000) == 0)
{
message.AddMessage(String.Format(_resourceManager.GetString("GPTools_OSMGPFileReader_pointsloaded"), pointCount));
pointInsertCursor.Flush();
System.GC.Collect();
}
if (pointGeometry != null)
Marshal.ReleaseComObject(pointGeometry);
}
catch (Exception ex)
{
System.Diagnostics.Debug.WriteLine(ex.Message);
message.AddWarning(ex.Message);
}
finally
{
if (pointFeature != null)
{
Marshal.ReleaseComObject(pointFeature);
if (pointFeature != null)
pointFeature = null;
}
}
currentNode = null;
}
}
}
if (stepProgressor != null)
{
stepProgressor.Hide();
}
pointInsertCursor.Flush();
osmFileXmlReader.Close();
message.AddMessage(String.Format(_resourceManager.GetString("GPTools_OSMGPFileReader_pointsloaded"), pointCount));
message.AddMessage(_resourceManager.GetString("GPTools_buildingpointidx"));
if (pointFeatureLoad != null)
{
pointFeatureLoad.LoadOnlyMode = false;
}
}
}
if (TrackCancel.Continue() == false)
{
return;
}
using (ComReleaser comReleaser = new ComReleaser())
{
IFeatureCursor updatePoints = osmPointFeatureClass.Update(null, false);
comReleaser.ManageLifetime(updatePoints);
IFeature feature2Update = updatePoints.NextFeature();
while (feature2Update != null)
{
IPoint pointGeometry = feature2Update.Shape as IPoint;
pointGeometry.ID = feature2Update.OID;
feature2Update.Shape = pointGeometry;
if (conserveMemory == false)
{
string osmid = Convert.ToString(feature2Update.get_Value(osmPointIDFieldIndex));
if (osmNodeDictionary.ContainsKey(osmid))
osmNodeDictionary[osmid].pointObjectID = feature2Update.OID;
}
updatePoints.UpdateFeature(feature2Update);
if (TrackCancel.Continue() == false)
{
return;
}
if (feature2Update != null)
Marshal.ReleaseComObject(feature2Update);
if (pointGeometry != null)
Marshal.ReleaseComObject(pointGeometry);
feature2Update = updatePoints.NextFeature();
}
}
if (indexBuildRequired)
{
IGeoProcessor2 geoProcessor = new GeoProcessorClass();
bool storedOriginal = geoProcessor.AddOutputsToMap;
try
{
IGPUtilities3 gpUtilities3 = new GPUtilitiesClass();
IGPValue pointFeatureClass = gpUtilities3.MakeGPValueFromObject(osmPointFeatureClass);
string fcLocation = GetLocationString(targetGPValue, osmPointFeatureClass);
IIndexes featureClassIndexes = osmPointFeatureClass.Indexes;
int indexPosition = -1;
featureClassIndexes.FindIndex("osmID_IDX", out indexPosition);
if (indexPosition == -1)
{
{
geoProcessor.AddOutputsToMap = false;
IVariantArray parameterArrary = CreateAddIndexParameterArray(fcLocation, "OSMID", "osmID_IDX", "UNIQUE", "");
IGeoProcessorResult2 gpResults2 = geoProcessor.Execute("AddIndex_management", parameterArrary, TrackCancel) as IGeoProcessorResult2;
}
}
if (pointCount > 500)
{
if (pointFeatureLoad == null)
{
UpdateSpatialGridIndex(TrackCancel, message, geoProcessor, fcLocation);
}
}
}
catch (COMException comEx)
{
message.AddWarning(comEx.Message);
}
catch (Exception ex)
{
message.AddWarning(ex.Message);
}
finally
{
geoProcessor.AddOutputsToMap = storedOriginal;
}
}
}
}
catch (Exception ex)
{
message.AddError(120100, String.Format(_resourceManager.GetString("GPTools_Utility_NodeLoadError"), ex.Message));
}
finally
{
if (osmFileXmlReader != null)
osmFileXmlReader = null;
if (nodeSerializer != null)
nodeSerializer = null;
}
}
private void simpleButton4_Click(object sender, EventArgs e)
{
if (this.comboBoxInputRaster.Text.ToString() == "" || this.comboBoxContrastRaster.Text.ToString() == "" || this.comboBoxOutputRaster.Text.ToString() == "")
{
MessageBox.Show("请输入参数!", "提示", MessageBoxButtons.OK, MessageBoxIcon.Information);
return;
}//有任意一个空为空则弹出对话框提示:请输入参数。
string strResultsDBPath = m_pGDBHelper.GetResultsDBPath();//声明变量获取数据库结果路径
//string ToolName = "变化向量角5";
if (Utilities.GDBUtilites.CheckNameExist(strResultsDBPath, this.comboBoxOutputRaster.Text.ToString()) == false)//如果没有同名文件
{
//执行光谱角分析
ILayer pInputLayer1 = null;
ILayer pInputLayer2 = null;
for (int i = 0; i < m_pMapCtrl.LayerCount; i++)
{
if (m_pMapCtrl.get_Layer(i).Name == this.comboBoxInputRaster.Text.ToString())
{
pInputLayer1 = m_pMapCtrl.get_Layer(i);
}
else if (m_pMapCtrl.get_Layer(i).Name == this.comboBoxContrastRaster.Text.ToString())
{
pInputLayer2 = m_pMapCtrl.get_Layer(i);
}
}
if (pInputLayer1 != null && pInputLayer2 != null)
{
IRasterLayer pRasterLayer1 = pInputLayer1 as IRasterLayer;
IRasterLayer pRasterLayer2 = pInputLayer2 as IRasterLayer;
string rasterpath1 = pRasterLayer1.FilePath;
string rasterpath2 = pRasterLayer2.FilePath;
IGeoProcessor2 pGP = new GeoProcessorClass();
string GPPath = m_pGDBHelper.GetToolboxPath();
pGP.AddToolbox(GPPath);
IVariantArray gpParameters = new VarArrayClass();
//gpParameters.Add(pRasterLayer1.Raster);
//gpParameters.Add(pRasterLayer2.Raster);
gpParameters.Add(rasterpath1);
gpParameters.Add(rasterpath2);
gpParameters.Add(strResultsDBPath + "\\" + this.comboBoxOutputRaster.Text);
IGeoProcessorResult pGeoProcessorResult = null;
pGeoProcessorResult = pGP.Execute("changevector", gpParameters, null);
if (pGeoProcessorResult.Status == esriJobStatus.esriJobSucceeded)
{
if (this.checkBox1.Checked)
{
IWorkspaceFactory2 pWKF = new FileGDBWorkspaceFactoryClass();
IRasterWorkspaceEx pRasterWKEx = (IRasterWorkspaceEx)pWKF.OpenFromFile(m_pGDBHelper.GetResultsDBPath(), 0);
IRasterDataset3 pRasterDataset = pRasterWKEx.OpenRasterDataset(this.comboBoxOutputRaster.Text.ToString()) as IRasterDataset3;
Utilities.MapUtilites.AddRasterLayer(m_pMapCtrl.ActiveView, pRasterDataset, null);
}
MessageBox.Show("变化向量分析完成!", "提示", MessageBoxButtons.OK, MessageBoxIcon.Information);
}
}
this.DialogResult = DialogResult.OK;
this.Close();
}
else
{
MessageBox.Show("已存在同名数据!", "提示", MessageBoxButtons.OK, MessageBoxIcon.Information);
return;
}
}
internal List<string> loadOSMRelations(string osmFileLocation, ref ITrackCancel TrackCancel, ref IGPMessages message, IGPValue targetGPValue, IFeatureClass osmPointFeatureClass, IFeatureClass osmLineFeatureClass, IFeatureClass osmPolygonFeatureClass, int relationCapacity, ITable relationTable, OSMDomains availableDomains, bool fastLoad, bool checkForExisting)
{
List<string> missingRelations = null;
XmlReader osmFileXmlReader = null;
XmlSerializer relationSerializer = null;
try
{
missingRelations = new List<string>();
if (osmLineFeatureClass == null)
{
throw new ArgumentNullException("osmLineFeatureClass");
}
if (osmPolygonFeatureClass == null)
{
throw new ArgumentNullException("osmPolygonFeatureClass");
}
if (relationTable == null)
{
throw new ArgumentNullException("relationTable");
}
int osmPointIDFieldIndex = osmPointFeatureClass.FindField("OSMID");
Dictionary<string, int> osmPointDomainAttributeFieldIndices = new Dictionary<string, int>();
foreach (var domains in availableDomains.domain)
{
int currentFieldIndex = osmPointFeatureClass.FindField(domains.name);
if (currentFieldIndex != -1)
{
osmPointDomainAttributeFieldIndices.Add(domains.name, currentFieldIndex);
}
}
int tagCollectionPointFieldIndex = osmPointFeatureClass.FindField("osmTags");
int osmUserPointFieldIndex = osmPointFeatureClass.FindField("osmuser");
int osmUIDPointFieldIndex = osmPointFeatureClass.FindField("osmuid");
int osmVisiblePointFieldIndex = osmPointFeatureClass.FindField("osmvisible");
int osmVersionPointFieldIndex = osmPointFeatureClass.FindField("osmversion");
int osmChangesetPointFieldIndex = osmPointFeatureClass.FindField("osmchangeset");
int osmTimeStampPointFieldIndex = osmPointFeatureClass.FindField("osmtimestamp");
int osmMemberOfPointFieldIndex = osmPointFeatureClass.FindField("osmMemberOf");
int osmSupportingElementPointFieldIndex = osmPointFeatureClass.FindField("osmSupportingElement");
int osmWayRefCountFieldIndex = osmPointFeatureClass.FindField("wayRefCount");
int osmLineIDFieldIndex = osmLineFeatureClass.FindField("OSMID");
Dictionary<string, int> osmLineDomainAttributeFieldIndices = new Dictionary<string, int>();
Dictionary<string, int> osmLineDomainAttributeFieldLength = new Dictionary<string, int>();
foreach (var domains in availableDomains.domain)
{
int currentFieldIndex = osmLineFeatureClass.FindField(domains.name);
if (currentFieldIndex != -1)
{
osmLineDomainAttributeFieldIndices.Add(domains.name, currentFieldIndex);
osmLineDomainAttributeFieldLength.Add(domains.name, osmLineFeatureClass.Fields.get_Field(currentFieldIndex).Length);
}
}
int tagCollectionPolylineFieldIndex = osmLineFeatureClass.FindField("osmTags");
int osmUserPolylineFieldIndex = osmLineFeatureClass.FindField("osmuser");
int osmUIDPolylineFieldIndex = osmLineFeatureClass.FindField("osmuid");
int osmVisiblePolylineFieldIndex = osmLineFeatureClass.FindField("osmvisible");
int osmVersionPolylineFieldIndex = osmLineFeatureClass.FindField("osmversion");
int osmChangesetPolylineFieldIndex = osmLineFeatureClass.FindField("osmchangeset");
int osmTimeStampPolylineFieldIndex = osmLineFeatureClass.FindField("osmtimestamp");
int osmMemberOfPolylineFieldIndex = osmLineFeatureClass.FindField("osmMemberOf");
int osmMembersPolylineFieldIndex = osmLineFeatureClass.FindField("osmMembers");
int osmSupportingElementPolylineFieldIndex = osmLineFeatureClass.FindField("osmSupportingElement");
int osmPolygonIDFieldIndex = osmPolygonFeatureClass.FindField("OSMID");
Dictionary<string, int> osmPolygonDomainAttributeFieldIndices = new Dictionary<string, int>();
Dictionary<string, int> osmPolygonDomainAttributeFieldLength = new Dictionary<string, int>();
foreach (var domains in availableDomains.domain)
{
int currentFieldIndex = osmPolygonFeatureClass.FindField(domains.name);
if (currentFieldIndex != -1)
{
osmPolygonDomainAttributeFieldIndices.Add(domains.name, currentFieldIndex);
osmPolygonDomainAttributeFieldLength.Add(domains.name, osmPolygonFeatureClass.Fields.get_Field(currentFieldIndex).Length);
}
}
int tagCollectionPolygonFieldIndex = osmPolygonFeatureClass.FindField("osmTags");
int osmUserPolygonFieldIndex = osmPolygonFeatureClass.FindField("osmuser");
int osmUIDPolygonFieldIndex = osmPolygonFeatureClass.FindField("osmuid");
int osmVisiblePolygonFieldIndex = osmPolygonFeatureClass.FindField("osmvisible");
int osmVersionPolygonFieldIndex = osmPolygonFeatureClass.FindField("osmversion");
int osmChangesetPolygonFieldIndex = osmPolygonFeatureClass.FindField("osmchangeset");
int osmTimeStampPolygonFieldIndex = osmPolygonFeatureClass.FindField("osmtimestamp");
int osmMemberOfPolygonFieldIndex = osmPolygonFeatureClass.FindField("osmMemberOf");
int osmMembersPolygonFieldIndex = osmPolygonFeatureClass.FindField("osmMembers");
int osmSupportingElementPolygonFieldIndex = osmPolygonFeatureClass.FindField("osmSupportingElement");
int osmRelationIDFieldIndex = relationTable.FindField("OSMID");
int tagCollectionRelationFieldIndex = relationTable.FindField("osmTags");
int osmUserRelationFieldIndex = relationTable.FindField("osmuser");
int osmUIDRelationFieldIndex = relationTable.FindField("osmuid");
int osmVisibleRelationFieldIndex = relationTable.FindField("osmvisible");
int osmVersionRelationFieldIndex = relationTable.FindField("osmversion");
int osmChangesetRelationFieldIndex = relationTable.FindField("osmchangeset");
int osmTimeStampRelationFieldIndex = relationTable.FindField("osmtimestamp");
int osmMemberOfRelationFieldIndex = relationTable.FindField("osmMemberOf");
int osmMembersRelationFieldIndex = relationTable.FindField("osmMembers");
int osmSupportingElementRelationFieldIndex = relationTable.FindField("osmSupportingElement");
// list for reference count and relation list for lines/polygons/relations
// set up the progress indicator
IStepProgressor stepProgressor = TrackCancel as IStepProgressor;
if (stepProgressor != null)
{
stepProgressor.MinRange = 0;
stepProgressor.MaxRange = relationCapacity;
stepProgressor.Position = 0;
stepProgressor.Message = _resourceManager.GetString("GPTools_OSMGPFileReader_loadingRelations");
stepProgressor.StepValue = 1;
stepProgressor.Show();
}
bool relationIndexRebuildRequired = false;
if (relationTable != null)
{
osmFileXmlReader = System.Xml.XmlReader.Create(osmFileLocation);
relationSerializer = new XmlSerializer(typeof(relation));
using (ComReleaser comReleaser = new ComReleaser())
{
using (SchemaLockManager linelock = new SchemaLockManager(osmLineFeatureClass as ITable), polygonLock = new SchemaLockManager(osmPolygonFeatureClass as ITable), relationLock = new SchemaLockManager(relationTable))
{
ICursor rowCursor = relationTable.Insert(true);
comReleaser.ManageLifetime(rowCursor);
IRowBuffer rowBuffer = relationTable.CreateRowBuffer();
comReleaser.ManageLifetime(rowBuffer);
IFeatureCursor lineFeatureInsertCursor = osmLineFeatureClass.Insert(true);
comReleaser.ManageLifetime(lineFeatureInsertCursor);
IFeatureBuffer lineFeatureBuffer = osmLineFeatureClass.CreateFeatureBuffer();
comReleaser.ManageLifetime(lineFeatureBuffer);
IFeatureCursor polygonFeatureInsertCursor = osmPolygonFeatureClass.Insert(true);
comReleaser.ManageLifetime(polygonFeatureInsertCursor);
IFeatureBuffer polygonFeatureBuffer = osmPolygonFeatureClass.CreateFeatureBuffer();
comReleaser.ManageLifetime(polygonFeatureBuffer);
int relationCount = 1;
int relationDebugCount = 1;
string lineSQLIdentifier = osmLineFeatureClass.SqlIdentifier("OSMID");
string polygonSQLIdentifier = osmPolygonFeatureClass.SqlIdentifier("OSMID");
message.AddMessage(_resourceManager.GetString("GPTools_OSMGPFileReader_resolvegeometries"));
osmFileXmlReader.MoveToContent();
while (osmFileXmlReader.Read())
{
if (osmFileXmlReader.IsStartElement())
{
if (osmFileXmlReader.Name == "relation")
{
relation currentRelation = null;
try
{
// read the full relation node
string currentrelationString = osmFileXmlReader.ReadOuterXml();
using (StringReader relationReader = new System.IO.StringReader(currentrelationString))
{
// de-serialize the xml into to the class instance
currentRelation = relationSerializer.Deserialize(relationReader) as relation;
}
if (currentRelation == null)
continue;
relationDebugCount = relationDebugCount + 1;
esriGeometryType detectedGeometryType = determineRelationGeometryType(osmLineFeatureClass, osmPolygonFeatureClass, relationTable, currentRelation);
if (checkForExisting)
{
switch (detectedGeometryType)
{
case esriGeometryType.esriGeometryAny:
if (CheckIfExists(relationTable, currentRelation.id))
continue;
break;
case esriGeometryType.esriGeometryBag:
if (CheckIfExists(relationTable, currentRelation.id))
continue;
break;
case esriGeometryType.esriGeometryBezier3Curve:
break;
case esriGeometryType.esriGeometryCircularArc:
break;
case esriGeometryType.esriGeometryEllipticArc:
break;
case esriGeometryType.esriGeometryEnvelope:
break;
case esriGeometryType.esriGeometryLine:
if (CheckIfExists(osmLineFeatureClass as ITable, currentRelation.id))
continue;
break;
case esriGeometryType.esriGeometryMultiPatch:
break;
case esriGeometryType.esriGeometryMultipoint:
break;
case esriGeometryType.esriGeometryNull:
if (CheckIfExists(relationTable, currentRelation.id))
continue;
break;
case esriGeometryType.esriGeometryPath:
break;
case esriGeometryType.esriGeometryPoint:
break;
case esriGeometryType.esriGeometryPolygon:
if (CheckIfExists(osmPolygonFeatureClass as ITable, currentRelation.id))
continue;
break;
case esriGeometryType.esriGeometryPolyline:
if (CheckIfExists(osmLineFeatureClass as ITable, currentRelation.id))
continue;
break;
case esriGeometryType.esriGeometryRay:
break;
case esriGeometryType.esriGeometryRing:
break;
case esriGeometryType.esriGeometrySphere:
break;
case esriGeometryType.esriGeometryTriangleFan:
break;
case esriGeometryType.esriGeometryTriangleStrip:
break;
case esriGeometryType.esriGeometryTriangles:
break;
default:
break;
}
}
List<tag> relationTagList = new List<tag>();
List<member> relationMemberList = new List<member>();
Dictionary<string, string> wayList = new Dictionary<string, string>();
// sanity check that the overall relation notation contains at least something
if (currentRelation.Items == null)
continue;
List<OSMNodeFeature> osmPointList = null;
List<OSMLineFeature> osmLineList = null;
List<OSMPolygonFeature> osmPolygonList = null;
List<OSMRelation> osmRelationList = null;
rowBuffer = relationTable.CreateRowBuffer();
comReleaser.ManageLifetime(rowBuffer);
lineFeatureBuffer = osmLineFeatureClass.CreateFeatureBuffer();
comReleaser.ManageLifetime(lineFeatureBuffer);
polygonFeatureBuffer = osmPolygonFeatureClass.CreateFeatureBuffer();
comReleaser.ManageLifetime(polygonFeatureBuffer);
foreach (var item in currentRelation.Items)
{
if (item is member)
{
member memberItem = item as member;
relationMemberList.Add(memberItem);
switch (memberItem.type)
{
case memberType.way:
if (!wayList.ContainsKey(memberItem.@ref))
wayList.Add(memberItem.@ref, memberItem.role);
if (IsThisWayALine(memberItem.@ref, osmLineFeatureClass, lineSQLIdentifier, osmPolygonFeatureClass, polygonSQLIdentifier))
{
if (osmLineList == null)
{
osmLineList = new List<OSMLineFeature>();
}
OSMLineFeature lineFeature = new OSMLineFeature();
lineFeature.relationList = new List<string>();
lineFeature.lineID = memberItem.@ref;
if (detectedGeometryType == esriGeometryType.esriGeometryPolygon)
{
lineFeature.relationList.Add(currentRelation.id + "_ply");
}
else if (detectedGeometryType == esriGeometryType.esriGeometryPolyline)
{
lineFeature.relationList.Add(currentRelation.id + "_ln");
}
else
{
lineFeature.relationList.Add(currentRelation.id + "_rel");
}
osmLineList.Add(lineFeature);
}
else
{
if (osmPolygonList == null)
{
osmPolygonList = new List<OSMPolygonFeature>();
}
OSMPolygonFeature polygonFeature = new OSMPolygonFeature();
polygonFeature.relationList = new List<string>();
polygonFeature.polygonID = memberItem.@ref;
if (detectedGeometryType == esriGeometryType.esriGeometryPolygon)
{
polygonFeature.relationList.Add(currentRelation.id + "_ply");
}
else if (detectedGeometryType == esriGeometryType.esriGeometryPolyline)
{
polygonFeature.relationList.Add(currentRelation.id + "_ln");
}
else
{
polygonFeature.relationList.Add(currentRelation.id + "_rel");
}
osmPolygonList.Add(polygonFeature);
}
break;
case memberType.node:
if (osmPointList == null)
{
osmPointList = new List<OSMNodeFeature>();
}
OSMNodeFeature nodeFeature = new OSMNodeFeature();
nodeFeature.relationList = new List<string>();
nodeFeature.nodeID = memberItem.@ref;
nodeFeature.relationList.Add(currentRelation.id + "_rel");
osmPointList.Add(nodeFeature);
break;
case memberType.relation:
if (osmRelationList == null)
{
osmRelationList = new List<OSMRelation>();
}
OSMRelation relation = new OSMRelation();
relation.relationList = new List<string>();
relation.relationID = memberItem.@ref;
relation.relationList.Add(currentRelation.id + "_rel");
break;
default:
break;
}
}
else if (item is tag)
{
relationTagList.Add((tag)item);
}
}
// if there is a defined geometry type use it to generate a multipart geometry
if (detectedGeometryType == esriGeometryType.esriGeometryPolygon)
{
#region create multipart polygon geometry
//IFeature mpFeature = osmPolygonFeatureClass.CreateFeature();
IPolygon relationMPPolygon = new PolygonClass();
relationMPPolygon.SpatialReference = ((IGeoDataset)osmPolygonFeatureClass).SpatialReference;
ISegmentCollection relationPolygonGeometryCollection = relationMPPolygon as ISegmentCollection;
IQueryFilter osmIDQueryFilter = new QueryFilterClass();
string sqlPolyOSMID = osmPolygonFeatureClass.SqlIdentifier("OSMID");
object missing = Type.Missing;
bool relationComplete = true;
// loop through the list of referenced ways that are listed in a relation
// for each of the items we need to make a decision if they have merit to qualify as stand-alone features
// due to the presence of meaningful attributes (tags)
foreach (KeyValuePair<string, string> wayKey in wayList)
{
if (relationComplete == false)
break;
if (TrackCancel.Continue() == false)
{
return missingRelations;
}
osmIDQueryFilter.WhereClause = sqlPolyOSMID + " = '" + wayKey.Key + "'";
System.Diagnostics.Debug.WriteLine("Relation (Polygon) #: " + relationDebugCount + " :___: " + currentRelation.id + " :___: " + wayKey.Key);
using (ComReleaser relationComReleaser = new ComReleaser())
{
IFeatureCursor featureCursor = osmPolygonFeatureClass.Search(osmIDQueryFilter, false);
relationComReleaser.ManageLifetime(featureCursor);
IFeature partFeature = featureCursor.NextFeature();
// set the appropriate field attribute to become invisible as a standalone features
if (partFeature != null)
{
IGeometryCollection ringCollection = partFeature.Shape as IGeometryCollection;
// test for available content in the geometry collection
if (ringCollection.GeometryCount > 0)
{
// test if we dealing with a valid geometry
if (ringCollection.get_Geometry(0).IsEmpty == false)
{
// add it to the new geometry and mark the added geometry as a supporting element
relationPolygonGeometryCollection.AddSegmentCollection((ISegmentCollection)ringCollection.get_Geometry(0));
if (osmSupportingElementPolygonFieldIndex > -1)
{
// if the member of a relation has the role of "inner" and it has tags, then let's keep it
// as a standalone feature as well
// the geometry is then a hole in the relation but due to the tags it also has merits to be
// considered a stand-alone feature
if (wayKey.Value.ToLower().Equals("inner"))
{
if (!_osmUtility.DoesHaveKeys(partFeature, tagCollectionPolygonFieldIndex, null))
{
partFeature.set_Value(osmSupportingElementPolygonFieldIndex, "yes");
}
}
else
{
// relation member without an explicit role or the role of "outer" are turned into
// supporting features if they don't have relevant attribute
if (!_osmUtility.DoesHaveKeys(partFeature, tagCollectionPolylineFieldIndex, null))
{
partFeature.set_Value(osmSupportingElementPolygonFieldIndex, "yes");
}
}
}
partFeature.Store();
}
}
}
else
{
// it still can be a line geometry that will be pieced together into a polygon
IFeatureCursor lineFeatureCursor = osmLineFeatureClass.Search(osmIDQueryFilter, false);
relationComReleaser.ManageLifetime(lineFeatureCursor);
partFeature = lineFeatureCursor.NextFeature();
if (partFeature != null)
{
IGeometryCollection ringCollection = partFeature.Shape as IGeometryCollection;
// test for available content in the geometry collection
if (ringCollection.GeometryCount > 0)
{
// test if we dealing with a valid geometry
if (ringCollection.get_Geometry(0).IsEmpty == false)
{
// add it to the new geometry and mark the added geometry as a supporting element
relationPolygonGeometryCollection.AddSegmentCollection((ISegmentCollection)ringCollection.get_Geometry(0));
if (osmSupportingElementPolylineFieldIndex > -1)
{
// if the member of a relation has the role of "inner" and it has tags, then let's keep it
// as a standalone feature as well
// the geometry is then a hole in the relation but due to the tags it also has merits to be
// considered a stand-alone feature
if (wayKey.Value.ToLower().Equals("inner"))
{
if (!_osmUtility.DoesHaveKeys(partFeature, tagCollectionPolylineFieldIndex, null))
{
partFeature.set_Value(osmSupportingElementPolylineFieldIndex, "yes");
}
}
else
{
// relation member without an explicit role or the role of "outer" are turned into
// supporting features if they don't have relevant attribute
if (!_osmUtility.DoesHaveKeys(partFeature, tagCollectionPolylineFieldIndex, null))
{
partFeature.set_Value(osmSupportingElementPolylineFieldIndex, "yes");
}
}
}
partFeature.Store();
}
}
}
else
{
relationComplete = false;
continue;
}
}
}
}
// mark the relation as incomplete
if (relationComplete == false)
{
missingRelations.Add(currentRelation.id);
continue;
}
// transform the added collections for geometries into a topological correct geometry representation
((IPolygon4)relationMPPolygon).SimplifyEx(true, false, true);
polygonFeatureBuffer.Shape = relationMPPolygon;
if (_osmUtility.DoesHaveKeys(currentRelation))
{
}
else
{
relationTagList = MergeTagsFromOuterPolygonToRelation(currentRelation, osmPolygonFeatureClass);
}
insertTags(osmPolygonDomainAttributeFieldIndices, osmPolygonDomainAttributeFieldLength, tagCollectionPolygonFieldIndex, polygonFeatureBuffer, relationTagList.ToArray());
if (fastLoad == false)
{
if (osmMembersPolygonFieldIndex > -1)
{
_osmUtility.insertMembers(osmMembersPolygonFieldIndex, (IFeature)polygonFeatureBuffer, relationMemberList.ToArray());
}
// store the administrative attributes
// user, uid, version, changeset, timestamp, visible
if (osmUserPolygonFieldIndex != -1)
{
if (!String.IsNullOrEmpty(currentRelation.user))
{
polygonFeatureBuffer.set_Value(osmUserPolygonFieldIndex, currentRelation.user);
}
}
if (osmUIDPolygonFieldIndex != -1)
{
if (!String.IsNullOrEmpty(currentRelation.uid))
{
polygonFeatureBuffer.set_Value(osmUIDPolygonFieldIndex, Convert.ToInt32(currentRelation.uid));
}
}
if (osmVisiblePolygonFieldIndex != -1)
{
if (String.IsNullOrEmpty(currentRelation.visible) == false)
{
polygonFeatureBuffer.set_Value(osmVisiblePolygonFieldIndex, currentRelation.visible.ToString());
}
else
{
polygonFeatureBuffer.set_Value(osmVisiblePolygonFieldIndex, "unknown");
}
}
if (osmVersionPolygonFieldIndex != -1)
{
if (!String.IsNullOrEmpty(currentRelation.version))
{
polygonFeatureBuffer.set_Value(osmVersionPolygonFieldIndex, Convert.ToInt32(currentRelation.version));
}
}
if (osmChangesetPolygonFieldIndex != -1)
{
if (!String.IsNullOrEmpty(currentRelation.changeset))
{
polygonFeatureBuffer.set_Value(osmChangesetPolygonFieldIndex, Convert.ToInt32(currentRelation.changeset));
}
}
if (osmTimeStampPolygonFieldIndex != -1)
{
if (!String.IsNullOrEmpty(currentRelation.timestamp))
{
polygonFeatureBuffer.set_Value(osmTimeStampPolygonFieldIndex, Convert.ToDateTime(currentRelation.timestamp));
}
}
if (osmPolygonIDFieldIndex != -1)
{
polygonFeatureBuffer.set_Value(osmPolygonIDFieldIndex, currentRelation.id);
}
if (osmSupportingElementPolygonFieldIndex > -1)
{
polygonFeatureBuffer.set_Value(osmSupportingElementPolygonFieldIndex, "no");
}
}
try
{
//mpFeature.Store();
polygonFeatureInsertCursor.InsertFeature(polygonFeatureBuffer);
}
catch (Exception ex)
{
message.AddWarning(ex.Message);
}
#endregion
}
else if (detectedGeometryType == esriGeometryType.esriGeometryPolyline)
{
#region create multipart polyline geometry
//IFeature mpFeature = osmLineFeatureClass.CreateFeature();
IPolyline relationMPPolyline = new PolylineClass();
relationMPPolyline.SpatialReference = ((IGeoDataset)osmLineFeatureClass).SpatialReference;
IGeometryCollection relationPolylineGeometryCollection = relationMPPolyline as IGeometryCollection;
IQueryFilter osmIDQueryFilter = new QueryFilterClass();
object missing = Type.Missing;
// loop through the
foreach (KeyValuePair<string, string> wayKey in wayList)
{
if (TrackCancel.Continue() == false)
{
return missingRelations;
}
osmIDQueryFilter.WhereClause = osmLineFeatureClass.WhereClauseByExtensionVersion(wayKey.Key, "OSMID", 2);
System.Diagnostics.Debug.WriteLine("Relation (Polyline) #: " + relationDebugCount + " :___: " + currentRelation.id + " :___: " + wayKey);
using (ComReleaser relationComReleaser = new ComReleaser())
{
IFeatureCursor featureCursor = osmLineFeatureClass.Search(osmIDQueryFilter, false);
relationComReleaser.ManageLifetime(featureCursor);
IFeature partFeature = featureCursor.NextFeature();
// set the appropriate field attribute to become invisible as a standalone features
if (partFeature != null)
{
if (partFeature.Shape.IsEmpty == false)
{
IGeometryCollection pathCollection = partFeature.Shape as IGeometryCollection;
relationPolylineGeometryCollection.AddGeometry(pathCollection.get_Geometry(0), ref missing, ref missing);
if (osmSupportingElementPolylineFieldIndex > -1)
{
if (!_osmUtility.DoesHaveKeys(partFeature, tagCollectionPolylineFieldIndex, null))
{
partFeature.set_Value(osmSupportingElementPolylineFieldIndex, "yes");
}
}
partFeature.Store();
}
}
}
}
lineFeatureBuffer.Shape = relationMPPolyline;
insertTags(osmLineDomainAttributeFieldIndices, osmLineDomainAttributeFieldLength, tagCollectionPolylineFieldIndex, lineFeatureBuffer, relationTagList.ToArray());
if (fastLoad == false)
{
if (osmMembersPolylineFieldIndex > -1)
{
_osmUtility.insertMembers(osmMembersPolylineFieldIndex, (IFeature)lineFeatureBuffer, relationMemberList.ToArray());
}
// store the administrative attributes
// user, uid, version, changeset, timestamp, visible
if (osmUserPolylineFieldIndex != -1)
{
if (!String.IsNullOrEmpty(currentRelation.user))
{
lineFeatureBuffer.set_Value(osmUserPolylineFieldIndex, currentRelation.user);
}
}
if (osmUIDPolylineFieldIndex != -1)
{
if (!String.IsNullOrEmpty(currentRelation.uid))
{
lineFeatureBuffer.set_Value(osmUIDPolylineFieldIndex, Convert.ToInt32(currentRelation.uid));
}
}
if (osmVisiblePolylineFieldIndex != -1)
{
if (String.IsNullOrEmpty(currentRelation.visible) == false)
{
lineFeatureBuffer.set_Value(osmVisiblePolylineFieldIndex, currentRelation.visible.ToString());
}
else
{
lineFeatureBuffer.set_Value(osmVisiblePolylineFieldIndex, "unknown");
}
}
if (osmVersionPolylineFieldIndex != -1)
{
if (!String.IsNullOrEmpty(currentRelation.version))
{
lineFeatureBuffer.set_Value(osmVersionPolylineFieldIndex, Convert.ToInt32(currentRelation.version));
}
}
if (osmChangesetPolylineFieldIndex != -1)
{
if (!String.IsNullOrEmpty(currentRelation.changeset))
{
lineFeatureBuffer.set_Value(osmChangesetPolylineFieldIndex, Convert.ToInt32(currentRelation.changeset));
}
}
if (osmTimeStampPolylineFieldIndex != -1)
{
if (!String.IsNullOrEmpty(currentRelation.timestamp))
{
lineFeatureBuffer.set_Value(osmTimeStampPolylineFieldIndex, Convert.ToDateTime(currentRelation.timestamp));
}
}
if (osmLineIDFieldIndex != -1)
{
lineFeatureBuffer.set_Value(osmLineIDFieldIndex, currentRelation.id);
}
if (osmSupportingElementPolylineFieldIndex > -1)
{
lineFeatureBuffer.set_Value(osmSupportingElementPolylineFieldIndex, "no");
}
}
try
{
lineFeatureInsertCursor.InsertFeature(lineFeatureBuffer);
}
catch (Exception ex)
{
message.AddWarning(ex.Message);
}
#endregion
}
else if (detectedGeometryType == esriGeometryType.esriGeometryPoint)
{
System.Diagnostics.Debug.WriteLine("Relation #: " + relationDebugCount + " :____: POINT!!!");
if (TrackCancel.Continue() == false)
{
return missingRelations;
}
}
else
// otherwise it is relation that needs to be dealt with separately
{
if (TrackCancel.Continue() == false)
{
return missingRelations;
}
System.Diagnostics.Debug.WriteLine("Relation #: " + relationDebugCount + " :____: Kept as relation");
if (tagCollectionRelationFieldIndex != -1)
{
_osmUtility.insertOSMTags(tagCollectionRelationFieldIndex, rowBuffer, relationTagList.ToArray());
}
if (fastLoad == false)
{
if (osmMembersRelationFieldIndex != -1)
{
_osmUtility.insertMembers(osmMembersRelationFieldIndex, rowBuffer, relationMemberList.ToArray());
}
// store the administrative attributes
// user, uid, version, changeset, timestamp, visible
if (osmUserRelationFieldIndex != -1)
{
if (!String.IsNullOrEmpty(currentRelation.user))
{
rowBuffer.set_Value(osmUserRelationFieldIndex, currentRelation.user);
}
}
if (osmUIDRelationFieldIndex != -1)
{
if (!String.IsNullOrEmpty(currentRelation.uid))
{
rowBuffer.set_Value(osmUIDRelationFieldIndex, Convert.ToInt64(currentRelation.uid));
}
}
if (osmVisibleRelationFieldIndex != -1)
{
if (currentRelation.visible != null)
{
rowBuffer.set_Value(osmVisibleRelationFieldIndex, currentRelation.visible.ToString());
}
}
if (osmVersionRelationFieldIndex != -1)
{
if (!String.IsNullOrEmpty(currentRelation.version))
{
rowBuffer.set_Value(osmVersionRelationFieldIndex, Convert.ToInt32(currentRelation.version));
}
}
if (osmChangesetRelationFieldIndex != -1)
{
if (!String.IsNullOrEmpty(currentRelation.changeset))
{
rowBuffer.set_Value(osmChangesetRelationFieldIndex, Convert.ToInt32(currentRelation.changeset));
}
}
if (osmTimeStampRelationFieldIndex != -1)
{
if (!String.IsNullOrEmpty(currentRelation.timestamp))
{
try
{
rowBuffer.set_Value(osmTimeStampRelationFieldIndex, Convert.ToDateTime(currentRelation.timestamp));
}
catch (Exception ex)
{
message.AddWarning(String.Format(_resourceManager.GetString("GPTools_OSMGPFileReader_invalidTimeFormat"), ex.Message));
}
}
}
if (osmRelationIDFieldIndex != -1)
{
rowBuffer.set_Value(osmRelationIDFieldIndex, currentRelation.id);
}
}
try
{
rowCursor.InsertRow(rowBuffer);
relationCount = relationCount + 1;
relationIndexRebuildRequired = true;
}
catch (Exception ex)
{
System.Diagnostics.Debug.WriteLine(ex.Message);
}
// check for user interruption
if (TrackCancel.Continue() == false)
{
return missingRelations;
}
}
// update the isMemberOf fields of the attached features
if (osmPointList != null)
{
foreach (OSMNodeFeature nodeFeature in osmPointList)
{
updateIsMemberOf(osmLineFeatureClass, osmMemberOfPolylineFieldIndex, nodeFeature.nodeID, nodeFeature.relationList);
}
}
if (osmLineList != null)
{
foreach (OSMLineFeature lineFeature in osmLineList)
{
updateIsMemberOf(osmLineFeatureClass, osmMemberOfPolylineFieldIndex, lineFeature.lineID, lineFeature.relationList);
}
}
if (osmPolygonList != null)
{
foreach (OSMPolygonFeature polygonFeature in osmPolygonList)
{
updateIsMemberOf(osmLineFeatureClass, osmMemberOfPolylineFieldIndex, polygonFeature.polygonID, polygonFeature.relationList);
}
}
if (stepProgressor != null)
{
stepProgressor.Position = relationCount;
}
if ((relationCount % 50000) == 0)
{
message.AddMessage(String.Format(_resourceManager.GetString("GPTools_OSMGPFileReader_relationsloaded"), relationCount));
}
}
catch (Exception ex)
{
message.AddWarning(ex.Message);
}
finally
{
if (rowBuffer != null)
{
Marshal.ReleaseComObject(rowBuffer);
if (rowBuffer != null)
rowBuffer = null;
}
if (lineFeatureBuffer != null)
{
Marshal.ReleaseComObject(lineFeatureBuffer);
if (lineFeatureBuffer != null)
lineFeatureBuffer = null;
}
if (polygonFeatureBuffer != null)
{
Marshal.ReleaseComObject(polygonFeatureBuffer);
if (polygonFeatureBuffer != null)
polygonFeatureBuffer = null;
}
currentRelation = null;
}
}
}
}
// close the OSM file
osmFileXmlReader.Close();
// flush any remaining entities from the cursor
rowCursor.Flush();
polygonFeatureInsertCursor.Flush();
lineFeatureInsertCursor.Flush();
// force a garbage collection
System.GC.Collect();
// let the user know that we are done dealing with the relations
message.AddMessage(String.Format(_resourceManager.GetString("GPTools_OSMGPFileReader_relationsloaded"), relationCount));
}
}
if (stepProgressor != null)
{
stepProgressor.Hide();
}
// Addd index for osmid column as well
IGeoProcessor2 geoProcessor = new GeoProcessorClass();
bool storedOriginalLocal = geoProcessor.AddOutputsToMap;
IGPUtilities3 gpUtilities3 = new GPUtilitiesClass();
try
{
geoProcessor.AddOutputsToMap = false;
if (relationIndexRebuildRequired)
{
IIndexes tableIndexes = relationTable.Indexes;
int indexPosition = -1;
tableIndexes.FindIndex("osmID_IDX", out indexPosition);
if (indexPosition == -1)
{
IGPValue relationTableGPValue = gpUtilities3.MakeGPValueFromObject(relationTable);
string sddd = targetGPValue.GetAsText();
string tableLocation = GetLocationString(targetGPValue, relationTable);
IVariantArray parameterArrary = CreateAddIndexParameterArray(tableLocation, "OSMID", "osmID_IDX", "UNIQUE", "");
IGeoProcessorResult2 gpResults2 = geoProcessor.Execute("AddIndex_management", parameterArrary, TrackCancel) as IGeoProcessorResult2;
}
}
}
catch (Exception ex)
{
message.AddWarning(ex.Message);
}
finally
{
geoProcessor.AddOutputsToMap = storedOriginalLocal;
Marshal.FinalReleaseComObject(gpUtilities3);
Marshal.FinalReleaseComObject(geoProcessor);
}
}
}
catch (Exception ex)
{
}
finally
{
if (relationSerializer != null)
relationSerializer = null;
if (osmFileXmlReader != null)
osmFileXmlReader = null;
System.GC.Collect();
System.GC.WaitForPendingFinalizers();
}
return missingRelations;
}
internal List<string> loadOSMWays(string osmFileLocation, ref ITrackCancel TrackCancel, ref IGPMessages message, IGPValue targetGPValue, IFeatureClass osmPointFeatureClass, IFeatureClass osmLineFeatureClass, IFeatureClass osmPolygonFeatureClass, bool conserveMemory, bool fastLoad, int wayCapacity, ref Dictionary<string, simplePointRef> osmNodeDictionary, IFeatureWorkspace featureWorkspace, ISpatialReference downloadSpatialReference, OSMDomains availableDomains, bool checkForExisting)
{
if (osmLineFeatureClass == null)
{
throw new ArgumentNullException("osmLineFeatureClass");
}
if (osmPolygonFeatureClass == null)
{
throw new ArgumentNullException("osmPolygonFeatureClass");
}
XmlReader osmFileXmlReader = null;
XmlSerializer waySerializer = null;
List<string> missingWays = null;
try
{
missingWays = new List<string>();
int osmPointIDFieldIndex = osmPointFeatureClass.FindField("OSMID");
int osmWayRefCountFieldIndex = osmPointFeatureClass.FindField("wayRefCount");
int osmLineIDFieldIndex = osmLineFeatureClass.FindField("OSMID");
Dictionary<string, int> osmLineDomainAttributeFieldIndices = new Dictionary<string, int>();
Dictionary<string, int> osmLineDomainAttributeFieldLength = new Dictionary<string, int>();
foreach (var domains in availableDomains.domain)
{
int currentFieldIndex = osmLineFeatureClass.FindField(domains.name);
if (currentFieldIndex != -1)
{
osmLineDomainAttributeFieldIndices.Add(domains.name, currentFieldIndex);
osmLineDomainAttributeFieldLength.Add(domains.name, osmLineFeatureClass.Fields.get_Field(currentFieldIndex).Length);
}
}
int tagCollectionPolylineFieldIndex = osmLineFeatureClass.FindField("osmTags");
int osmUserPolylineFieldIndex = osmLineFeatureClass.FindField("osmuser");
int osmUIDPolylineFieldIndex = osmLineFeatureClass.FindField("osmuid");
int osmVisiblePolylineFieldIndex = osmLineFeatureClass.FindField("osmvisible");
int osmVersionPolylineFieldIndex = osmLineFeatureClass.FindField("osmversion");
int osmChangesetPolylineFieldIndex = osmLineFeatureClass.FindField("osmchangeset");
int osmTimeStampPolylineFieldIndex = osmLineFeatureClass.FindField("osmtimestamp");
int osmMemberOfPolylineFieldIndex = osmLineFeatureClass.FindField("osmMemberOf");
int osmMembersPolylineFieldIndex = osmLineFeatureClass.FindField("osmMembers");
int osmSupportingElementPolylineFieldIndex = osmLineFeatureClass.FindField("osmSupportingElement");
int osmPolygonIDFieldIndex = osmPolygonFeatureClass.FindField("OSMID");
Dictionary<string, int> osmPolygonDomainAttributeFieldIndices = new Dictionary<string, int>();
Dictionary<string, int> osmPolygonDomainAttributeFieldLength = new Dictionary<string, int>();
foreach (var domains in availableDomains.domain)
{
int currentFieldIndex = osmPolygonFeatureClass.FindField(domains.name);
if (currentFieldIndex != -1)
{
osmPolygonDomainAttributeFieldIndices.Add(domains.name, currentFieldIndex);
osmPolygonDomainAttributeFieldLength.Add(domains.name, osmPolygonFeatureClass.Fields.get_Field(currentFieldIndex).Length);
}
}
int tagCollectionPolygonFieldIndex = osmPolygonFeatureClass.FindField("osmTags");
int osmUserPolygonFieldIndex = osmPolygonFeatureClass.FindField("osmuser");
int osmUIDPolygonFieldIndex = osmPolygonFeatureClass.FindField("osmuid");
int osmVisiblePolygonFieldIndex = osmPolygonFeatureClass.FindField("osmvisible");
int osmVersionPolygonFieldIndex = osmPolygonFeatureClass.FindField("osmversion");
int osmChangesetPolygonFieldIndex = osmPolygonFeatureClass.FindField("osmchangeset");
int osmTimeStampPolygonFieldIndex = osmPolygonFeatureClass.FindField("osmtimestamp");
int osmMemberOfPolygonFieldIndex = osmPolygonFeatureClass.FindField("osmMemberOf");
int osmMembersPolygonFieldIndex = osmPolygonFeatureClass.FindField("osmMembers");
int osmSupportingElementPolygonFieldIndex = osmPolygonFeatureClass.FindField("osmSupportingElement");
ISpatialReferenceFactory spatialRef = new SpatialReferenceEnvironmentClass();
ISpatialReference wgs84 = spatialRef.CreateGeographicCoordinateSystem((int)esriSRGeoCSType.esriSRGeoCS_WGS1984);
bool shouldProject = !((IClone)wgs84).IsEqual((IClone)downloadSpatialReference);
// set up the progress indicator
IStepProgressor stepProgressor = TrackCancel as IStepProgressor;
if (stepProgressor != null)
{
stepProgressor.MinRange = 0;
stepProgressor.MaxRange = wayCapacity;
stepProgressor.Position = 0;
stepProgressor.Message = _resourceManager.GetString("GPTools_OSMGPFileReader_loadingWays");
stepProgressor.StepValue = 1;
stepProgressor.Show();
}
bool lineIndexRebuildRequired = false;
bool polygonIndexRebuildRequired = false;
int wayCount = 0;
object missingValue = System.Reflection.Missing.Value;
// enterprise GDB indicator -- supporting load only mode
IFeatureClassLoad lineFeatureLoad = null;
IFeatureClassLoad polygonFeatureLoad = null;
using (SchemaLockManager lineLock = new SchemaLockManager(osmLineFeatureClass as ITable), polygonLock = new SchemaLockManager(osmPolygonFeatureClass as ITable))
{
using (ComReleaser comReleaser = new ComReleaser())
{
IFeatureCursor insertLineCursor = osmLineFeatureClass.Insert(true);
comReleaser.ManageLifetime(insertLineCursor);
IFeatureBuffer featureLineBuffer = osmLineFeatureClass.CreateFeatureBuffer();
comReleaser.ManageLifetime(featureLineBuffer);
IFeatureCursor insertPolygonCursor = osmPolygonFeatureClass.Insert(true);
comReleaser.ManageLifetime(insertPolygonCursor);
IFeatureBuffer featurePolygonBuffer = osmPolygonFeatureClass.CreateFeatureBuffer();
comReleaser.ManageLifetime(featurePolygonBuffer);
if (((IWorkspace)featureWorkspace).WorkspaceFactory.WorkspaceType == esriWorkspaceType.esriRemoteDatabaseWorkspace)
{
lineFeatureLoad = osmLineFeatureClass as IFeatureClassLoad;
polygonFeatureLoad = osmPolygonFeatureClass as IFeatureClassLoad;
}
if (lineFeatureLoad != null)
{
lineFeatureLoad.LoadOnlyMode = true;
}
if (polygonFeatureLoad != null)
{
polygonFeatureLoad.LoadOnlyMode = true;
}
ISpatialReference nativeLineSpatialReference = ((IGeoDataset)osmLineFeatureClass).SpatialReference;
ISpatialReference nativePolygonSpatialReference = ((IGeoDataset)osmPolygonFeatureClass).SpatialReference;
IQueryFilter osmIDQueryFilter = new QueryFilterClass();
string sqlPointOSMID = osmPointFeatureClass.SqlIdentifier("OSMID");
IFeatureCursor updatePointCursor = null;
osmFileXmlReader = System.Xml.XmlReader.Create(osmFileLocation);
waySerializer = new XmlSerializer(typeof(way));
// the point query filter for updates will not changes, so let's do that ahead of time
try
{
osmIDQueryFilter.SubFields = osmPointFeatureClass.ShapeFieldName + "," + osmPointFeatureClass.Fields.get_Field(osmPointIDFieldIndex).Name + "," + osmPointFeatureClass.Fields.get_Field(osmWayRefCountFieldIndex).Name;
}
catch
{ }
osmFileXmlReader.MoveToContent();
while (osmFileXmlReader.Read())
{
if (osmFileXmlReader.IsStartElement())
{
if (osmFileXmlReader.Name == "way")
{
string currentwayString = osmFileXmlReader.ReadOuterXml();
// assuming the way to be a polyline is sort of a safe assumption
// and won't cause any topology problem due to orientation and closeness
bool wayIsLine = true;
bool wayIsComplete = true;
way currentWay = null;
try
{
using (StringReader wayReader = new System.IO.StringReader(currentwayString))
{
currentWay = waySerializer.Deserialize(wayReader) as way;
}
// if the deserialization fails then go ahead and read the next xml element
if (currentWay == null)
{
continue;
}
// and we are expecting at least some nodes on the way itself
if (currentWay.nd == null)
{
continue;
}
featureLineBuffer = osmLineFeatureClass.CreateFeatureBuffer();
featurePolygonBuffer = osmPolygonFeatureClass.CreateFeatureBuffer();
IPointCollection wayPointCollection = null;
wayIsLine = IsThisWayALine(currentWay);
if (wayIsLine)
{
// check if a feature with the same OSMID already exists, because the can only be one
if (checkForExisting == true)
{
if (CheckIfExists(osmLineFeatureClass as ITable, currentWay.id))
{
continue;
}
}
IPolyline wayPolyline = new PolylineClass();
comReleaser.ManageLifetime(wayPointCollection);
wayPolyline.SpatialReference = downloadSpatialReference;
IPointIDAware polylineIDAware = wayPolyline as IPointIDAware;
polylineIDAware.PointIDAware = true;
wayPointCollection = wayPolyline as IPointCollection;
# region generate line geometry
if (conserveMemory == false)
{
for (int ndIndex = 0; ndIndex < currentWay.nd.Length; ndIndex++)
{
string ndID = currentWay.nd[ndIndex].@ref;
if (osmNodeDictionary.ContainsKey(ndID))
{
IPoint newPoint = new PointClass();
newPoint.X = osmNodeDictionary[ndID].Longitude;
newPoint.Y = osmNodeDictionary[ndID].Latitude;
newPoint.SpatialReference = wgs84;
if (shouldProject)
{
newPoint.Project(((IGeoDataset)osmLineFeatureClass).SpatialReference);
}
IPointIDAware idAware = newPoint as IPointIDAware;
idAware.PointIDAware = true;
newPoint.ID = osmNodeDictionary[ndID].pointObjectID;
wayPointCollection.AddPoint(newPoint, ref missingValue, ref missingValue);
osmNodeDictionary[ndID].RefCounter = osmNodeDictionary[ndID].RefCounter + 1;
}
else
{
message.AddWarning(String.Format(_resourceManager.GetString("GPTools_OSMGPFileReader_undeterminedline_node"), currentWay.id, ndID));
// set the flag that the way is complete due to a missing node
wayIsComplete = false;
break;
}
}
}
else
{
for (int pointIndex = 0; pointIndex < currentWay.nd.Length; pointIndex++)
{
wayPointCollection.AddPoint(new PointClass());
}
List<string> idRequests = SplitOSMIDRequests(currentWay, 2);
// build a list of node ids we can use to determine the point index in the line geometry
// as well as a dictionary to determine the position in the list in case of duplicates nodes
Dictionary<string, int> nodePositionDictionary = new Dictionary<string, int>(currentWay.nd.Length);
List<string> nodeIDs = new List<string>(currentWay.nd.Length);
foreach (nd wayNode in currentWay.nd)
{
nodeIDs.Add(wayNode.@ref);
if (nodePositionDictionary.ContainsKey(wayNode.@ref) == false)
{
nodePositionDictionary.Add(wayNode.@ref, 0);
}
}
try
{
osmIDQueryFilter.SubFields = osmPointFeatureClass.ShapeFieldName + "," + osmPointFeatureClass.Fields.get_Field(osmPointIDFieldIndex).Name + "," + osmPointFeatureClass.Fields.get_Field(osmWayRefCountFieldIndex).Name;
}
catch
{ }
foreach (string request in idRequests)
{
string idCompareString = request;
osmIDQueryFilter.WhereClause = sqlPointOSMID + " IN " + request;
using (ComReleaser innerComReleaser = new ComReleaser())
{
updatePointCursor = osmPointFeatureClass.Update(osmIDQueryFilter, true);
innerComReleaser.ManageLifetime(updatePointCursor);
IFeature nodeFeature = updatePointCursor.NextFeature();
while (nodeFeature != null)
{
// determine the index of the point in with respect to the node position
string nodeOSMIDString = Convert.ToString(nodeFeature.get_Value(osmPointIDFieldIndex));
// remove the ID from the request string
idCompareString = idCompareString.Replace(nodeOSMIDString, String.Empty);
int nodePositionIndex = -1;
while ((nodePositionIndex = nodeIDs.IndexOf(nodeOSMIDString, nodePositionDictionary[nodeOSMIDString])) != -1)
{
//// update the new position start search index
nodePositionDictionary[nodeOSMIDString] = nodePositionIndex + 1;
wayPointCollection.UpdatePoint(nodePositionIndex, (IPoint)nodeFeature.Shape);
// increase the reference counter
if (osmWayRefCountFieldIndex != -1)
{
nodeFeature.set_Value(osmWayRefCountFieldIndex, ((int)nodeFeature.get_Value(osmWayRefCountFieldIndex)) + 1);
updatePointCursor.UpdateFeature(nodeFeature);
}
}
if (nodeFeature != null)
Marshal.ReleaseComObject(nodeFeature);
nodeFeature = updatePointCursor.NextFeature();
}
idCompareString = CleanReportedNodes(idCompareString);
// after removing the commas we should be left with only paranthesis left, meaning a string of length 2
// if we have more then we have found a missing node, resulting in an incomplete way geometry
if (idCompareString.Length > 2)
{
message.AddWarning(String.Format(_resourceManager.GetString("GPTools_OSMGPFileReader_undeterminedline_node"), currentWay.id, idCompareString));
wayIsComplete = false;
}
}
}
}
#endregion
if (wayIsComplete == false)
{
// if the way geometry is incomplete due to a missing node let's continue to the next way element
missingWays.Add(currentWay.id);
continue;
}
featureLineBuffer.Shape = wayPolyline;
featureLineBuffer.set_Value(osmLineIDFieldIndex, currentWay.id);
}
else
{
// check if a feature with the same OSMID already exists, because the can only be one
if (checkForExisting == true)
{
if (CheckIfExists(osmPolygonFeatureClass as ITable, currentWay.id))
{
continue;
}
}
IPolygon wayPolygon = new PolygonClass();
comReleaser.ManageLifetime(wayPointCollection);
wayPolygon.SpatialReference = downloadSpatialReference;
IPointIDAware polygonIDAware = wayPolygon as IPointIDAware;
polygonIDAware.PointIDAware = true;
wayPointCollection = wayPolygon as IPointCollection;
#region generate polygon geometry
if (conserveMemory == false)
{
for (int ndIndex = 0; ndIndex < currentWay.nd.Length; ndIndex++)
{
string ndID = currentWay.nd[ndIndex].@ref;
if (osmNodeDictionary.ContainsKey(ndID))
{
IPoint newPoint = new PointClass();
newPoint.X = osmNodeDictionary[ndID].Longitude;
newPoint.Y = osmNodeDictionary[ndID].Latitude;
newPoint.SpatialReference = wgs84;
if (shouldProject)
{
newPoint.Project(nativePolygonSpatialReference);
}
IPointIDAware idAware = newPoint as IPointIDAware;
idAware.PointIDAware = true;
newPoint.ID = osmNodeDictionary[ndID].pointObjectID;
wayPointCollection.AddPoint(newPoint, ref missingValue, ref missingValue);
}
else
{
message.AddWarning(String.Format(_resourceManager.GetString("GPTools_OSMGPFileReader_undeterminedpolygon_node"), currentWay.id, ndID));
wayIsComplete = false;
break;
}
}
}
else
{
for (int pointIndex = 0; pointIndex < currentWay.nd.Length; pointIndex++)
{
wayPointCollection.AddPoint(new PointClass());
}
List<string> idRequests = SplitOSMIDRequests(currentWay, 2);
// build a list of node ids we can use to determine the point index in the line geometry
// as well as a dictionary to determine the position in the list in case of duplicates nodes
Dictionary<string, int> nodePositionDictionary = new Dictionary<string, int>(currentWay.nd.Length);
List<string> nodeIDs = new List<string>(currentWay.nd.Length);
foreach (nd wayNode in currentWay.nd)
{
nodeIDs.Add(wayNode.@ref);
if (nodePositionDictionary.ContainsKey(wayNode.@ref) == false)
{
nodePositionDictionary.Add(wayNode.@ref, 0);
}
}
try
{
osmIDQueryFilter.SubFields = osmPointFeatureClass.ShapeFieldName + "," + osmPointFeatureClass.Fields.get_Field(osmPointIDFieldIndex).Name + "," + osmPointFeatureClass.Fields.get_Field(osmWayRefCountFieldIndex).Name;
}
catch
{ }
foreach (string osmIDRequest in idRequests)
{
string idCompareString = osmIDRequest;
using (ComReleaser innercomReleaser = new ComReleaser())
{
osmIDQueryFilter.WhereClause = sqlPointOSMID + " IN " + osmIDRequest;
updatePointCursor = osmPointFeatureClass.Update(osmIDQueryFilter, false);
innercomReleaser.ManageLifetime(updatePointCursor);
IFeature nodeFeature = updatePointCursor.NextFeature();
while (nodeFeature != null)
{
// determine the index of the point in with respect to the node position
string nodeOSMIDString = Convert.ToString(nodeFeature.get_Value(osmPointIDFieldIndex));
idCompareString = idCompareString.Replace(nodeOSMIDString, String.Empty);
int nodePositionIndex = nodeIDs.IndexOf(nodeOSMIDString, nodePositionDictionary[nodeOSMIDString]);
// update the new position start search index
nodePositionDictionary[nodeOSMIDString] = nodePositionIndex + 1;
wayPointCollection.UpdatePoint(nodePositionIndex, (IPoint)nodeFeature.Shape);
// increase the reference counter
if (osmWayRefCountFieldIndex != -1)
{
nodeFeature.set_Value(osmWayRefCountFieldIndex, ((int)nodeFeature.get_Value(osmWayRefCountFieldIndex)) + 1);
updatePointCursor.UpdateFeature(nodeFeature);
}
if (nodeFeature != null)
Marshal.ReleaseComObject(nodeFeature);
nodeFeature = updatePointCursor.NextFeature();
}
idCompareString = CleanReportedNodes(idCompareString);
if (idCompareString.Length > 2)
{
message.AddWarning(String.Format(_resourceManager.GetString("GPTools_OSMGPFileReader_undeterminedpolygon_node"), currentWay.id, idCompareString));
wayIsComplete = false;
}
}
}
}
#endregion
if (wayIsComplete == false)
{
continue;
}
// remove the last point as OSM considers them to be coincident
wayPointCollection.RemovePoints(wayPointCollection.PointCount - 1, 1);
((IPolygon)wayPointCollection).Close();
featurePolygonBuffer.Shape = (IPolygon)wayPointCollection;
featurePolygonBuffer.set_Value(osmPolygonIDFieldIndex, currentWay.id);
}
if (wayIsLine)
{
insertTags(osmLineDomainAttributeFieldIndices, osmLineDomainAttributeFieldLength, tagCollectionPolylineFieldIndex, featureLineBuffer, currentWay.tag);
}
else
{
insertTags(osmPolygonDomainAttributeFieldIndices, osmPolygonDomainAttributeFieldLength, tagCollectionPolygonFieldIndex, featurePolygonBuffer, currentWay.tag);
}
// store the administrative attributes
// user, uid, version, changeset, timestamp, visible
if (fastLoad == false)
{
if (!String.IsNullOrEmpty(currentWay.user))
{
if (wayIsLine)
{
if (osmUserPolylineFieldIndex != -1)
{
featureLineBuffer.set_Value(osmUserPolylineFieldIndex, currentWay.user);
}
}
else
{
if (osmUserPolygonFieldIndex != -1)
{
featurePolygonBuffer.set_Value(osmUserPolygonFieldIndex, currentWay.user);
}
}
}
if (!String.IsNullOrEmpty(currentWay.uid))
{
if (wayIsLine)
{
if (osmUIDPolylineFieldIndex != -1)
{
featureLineBuffer.set_Value(osmUIDPolylineFieldIndex, Convert.ToInt32(currentWay.uid));
}
}
else
{
if (osmUIDPolygonFieldIndex != -1)
{
featurePolygonBuffer.set_Value(osmUIDPolygonFieldIndex, Convert.ToInt32(currentWay.uid));
}
}
}
if (wayIsLine)
{
if (osmVisiblePolylineFieldIndex != -1)
{
featureLineBuffer.set_Value(osmVisiblePolylineFieldIndex, currentWay.visible.ToString());
}
}
else
{
if (osmVisiblePolygonFieldIndex != -1)
{
featurePolygonBuffer.set_Value(osmVisiblePolygonFieldIndex, currentWay.visible.ToString());
}
}
if (!String.IsNullOrEmpty(currentWay.version))
{
if (wayIsLine)
{
if (osmVersionPolylineFieldIndex != -1)
{
featureLineBuffer.set_Value(osmVersionPolylineFieldIndex, Convert.ToInt32(currentWay.version));
}
}
else
{
if (osmVersionPolygonFieldIndex != -1)
{
featurePolygonBuffer.set_Value(osmVersionPolygonFieldIndex, Convert.ToInt32(currentWay.version));
}
}
}
if (!String.IsNullOrEmpty(currentWay.changeset))
{
if (wayIsLine)
{
if (osmChangesetPolylineFieldIndex != -1)
{
featureLineBuffer.set_Value(osmChangesetPolylineFieldIndex, Convert.ToInt32(currentWay.changeset));
}
}
else
{
if (osmChangesetPolygonFieldIndex != -1)
{
featurePolygonBuffer.set_Value(osmChangesetPolygonFieldIndex, Convert.ToInt32(currentWay.changeset));
}
}
}
if (!String.IsNullOrEmpty(currentWay.timestamp))
{
try
{
if (wayIsLine)
{
if (osmTimeStampPolylineFieldIndex != -1)
{
featureLineBuffer.set_Value(osmTimeStampPolylineFieldIndex, Convert.ToDateTime(currentWay.timestamp));
}
}
else
{
if (osmTimeStampPolygonFieldIndex != -1)
{
featurePolygonBuffer.set_Value(osmTimeStampPolygonFieldIndex, Convert.ToDateTime(currentWay.timestamp));
}
}
}
catch (Exception ex)
{
message.AddWarning(String.Format(_resourceManager.GetString("GPTools_OSMGPFileReader_invalidTimeFormat"), ex.Message));
}
}
if (wayIsLine)
{
if (osmSupportingElementPolylineFieldIndex > -1)
{
if (currentWay.tag == null)
{
featureLineBuffer.set_Value(osmSupportingElementPolylineFieldIndex, "yes");
}
else
{
featureLineBuffer.set_Value(osmSupportingElementPolylineFieldIndex, "no");
}
}
}
else
{
if (osmSupportingElementPolygonFieldIndex > -1)
{
if (currentWay.tag == null)
{
featurePolygonBuffer.set_Value(osmSupportingElementPolygonFieldIndex, "yes");
}
else
{
featurePolygonBuffer.set_Value(osmSupportingElementPolygonFieldIndex, "no");
}
}
}
} // fast load
try
{
if (wayIsLine)
{
insertLineCursor.InsertFeature(featureLineBuffer);
lineIndexRebuildRequired = true;
}
else
{
insertPolygonCursor.InsertFeature(featurePolygonBuffer);
polygonIndexRebuildRequired = true;
}
wayCount = wayCount + 1;
if (stepProgressor != null)
{
stepProgressor.Position = wayCount;
}
if ((wayCount % 50000) == 0)
{
message.AddMessage(String.Format(_resourceManager.GetString("GPTools_OSMGPFileReader_waysloaded"), wayCount));
}
}
catch (Exception ex)
{
message.AddWarning(ex.Message);
message.AddWarning(currentwayString);
}
}
catch (Exception ex)
{
System.Diagnostics.Debug.WriteLine(ex.Message);
System.Diagnostics.Debug.WriteLine(ex.StackTrace);
}
finally
{
if (featureLineBuffer != null)
{
Marshal.ReleaseComObject(featureLineBuffer);
if (featureLineBuffer != null)
featureLineBuffer = null;
}
if (featurePolygonBuffer != null)
{
Marshal.ReleaseComObject(featurePolygonBuffer);
if (featurePolygonBuffer != null)
featurePolygonBuffer = null;
}
currentWay = null;
}
if (TrackCancel.Continue() == false)
{
insertPolygonCursor.Flush();
if (polygonFeatureLoad != null)
{
polygonFeatureLoad.LoadOnlyMode = false;
}
insertLineCursor.Flush();
if (lineFeatureLoad != null)
{
lineFeatureLoad.LoadOnlyMode = false;
}
return missingWays;
}
}
}
}
osmFileXmlReader.Close();
if (stepProgressor != null)
{
stepProgressor.Hide();
}
message.AddMessage(String.Format(_resourceManager.GetString("GPTools_OSMGPFileReader_waysloaded"), wayCount));
insertPolygonCursor.Flush();
if (polygonFeatureLoad != null)
{
polygonFeatureLoad.LoadOnlyMode = false;
}
insertLineCursor.Flush();
if (lineFeatureLoad != null)
{
lineFeatureLoad.LoadOnlyMode = false;
}
}
}
IGeoProcessor2 geoProcessor = new GeoProcessorClass();
IGPUtilities3 gpUtilities3 = new GPUtilitiesClass();
bool storedOriginal = geoProcessor.AddOutputsToMap;
IVariantArray parameterArrary = null;
IGeoProcessorResult2 gpResults2 = null;
try
{
geoProcessor.AddOutputsToMap = false;
if (lineIndexRebuildRequired)
{
IIndexes featureClassIndexes = osmLineFeatureClass.Indexes;
int indexPosition = -1;
featureClassIndexes.FindIndex("osmID_IDX", out indexPosition);
string fcLocation = GetLocationString(targetGPValue, osmLineFeatureClass);
if (indexPosition == -1)
{
message.AddMessage(_resourceManager.GetString("GPTools_buildinglineidx"));
// Addd index for osmid column
parameterArrary = CreateAddIndexParameterArray(fcLocation, "OSMID", "osmID_IDX", "UNIQUE", "");
gpResults2 = geoProcessor.Execute("AddIndex_management", parameterArrary, TrackCancel) as IGeoProcessorResult2;
}
if (wayCount > 100)
{
// in this case we are dealing with a file geodatabase
if (lineFeatureLoad == null)
{
UpdateSpatialGridIndex(TrackCancel, message, geoProcessor, fcLocation);
}
}
}
if (polygonIndexRebuildRequired)
{
IIndexes featureClassIndexes = osmPolygonFeatureClass.Indexes;
int indexPosition = -1;
featureClassIndexes.FindIndex("osmID_IDX", out indexPosition);
string fcLocation = GetLocationString(targetGPValue, osmPolygonFeatureClass);
if (indexPosition == -1)
{
message.AddMessage(_resourceManager.GetString("GPTools_buildingpolygonidx"));
IGPValue polygonFeatureClassGPValue = gpUtilities3.MakeGPValueFromObject(osmPolygonFeatureClass);
if (polygonFeatureClassGPValue != null)
{
// Addd index for osmid column
parameterArrary = CreateAddIndexParameterArray(fcLocation, "OSMID", "osmID_IDX", "UNIQUE", "");
gpResults2 = geoProcessor.Execute("AddIndex_management", parameterArrary, TrackCancel) as IGeoProcessorResult2;
}
}
if (wayCount > 100)
{
if (polygonFeatureLoad == null)
{
UpdateSpatialGridIndex(TrackCancel, message, geoProcessor, fcLocation);
}
}
}
}
catch (Exception ex)
{
message.AddWarning(ex.Message);
}
finally
{
geoProcessor.AddOutputsToMap = storedOriginal;
Marshal.FinalReleaseComObject(gpUtilities3);
Marshal.FinalReleaseComObject(geoProcessor);
}
}
catch (Exception ex)
{
message.AddWarning(ex.Message);
}
finally
{
if (waySerializer != null)
waySerializer = null;
if (osmFileXmlReader != null)
osmFileXmlReader = null;
System.GC.Collect();
System.GC.WaitForPendingFinalizers();
}
return missingWays;
}
private void simpleButton4_Click(object sender, EventArgs e)
{
if (this.comboBoxEditInputRaster1.Text.ToString() == "" || this.comboBoxEditInputRaster2.Text.ToString() == "" || this.comboBoxEditOutputRaster.Text.ToString() == "")
{
MessageBox.Show("请输入参数!", "提示", MessageBoxButtons.OK, MessageBoxIcon.Information);
return;
}
string strResultsDBPath = m_pGDBHelper.GetResultsDBPath();
if (Utilities.GDBUtilites.CheckNameExist(strResultsDBPath, this.comboBoxEditOutputRaster.Text.ToString()) == false)
{
//执行PCA分析
ILayer pInputLayer1 = null;
ILayer pInputLayer2 = null;
for (int i = 0; i < m_pMapCtrl.LayerCount; i++)
{
if (m_pMapCtrl.get_Layer(i).Name == this.comboBoxEditInputRaster1.Text.ToString())
{
pInputLayer1 = m_pMapCtrl.get_Layer(i);
}
else if (m_pMapCtrl.get_Layer(i).Name == this.comboBoxEditInputRaster2.Text.ToString())
{
pInputLayer2 = m_pMapCtrl.get_Layer(i);
}
}
if (pInputLayer1 != null && pInputLayer2 != null)
{
IRasterLayer pRasterLayer1 = pInputLayer1 as IRasterLayer;
IRasterLayer pRasterLayer2 = pInputLayer2 as IRasterLayer;
string RasterPath1 = pRasterLayer1.FilePath;
string RasterPath2 = pRasterLayer2.FilePath;
IGeoProcessor2 pGP = new GeoProcessorClass();
pGP.AddToolbox(m_pGDBHelper.GetToolboxPath());
IVariantArray gpParameters = new VarArrayClass();
//gpParameters.Add(pRasterLayer1.Raster);
//gpParameters.Add(pRasterLayer2.Raster);
gpParameters.Add(RasterPath1);
gpParameters.Add(RasterPath2);
gpParameters.Add(String.Format("{0}\\{1}", m_pGDBHelper.GetResultsDBPath(), this.comboBoxEditOutputRaster.Text));
string ToolName = "ReseePACBandMath";
ToolName = "NewDiffPCA";
IGeoProcessorResult pGeoProcessorResult = pGP.Execute(ToolName, gpParameters, null);
if (pGeoProcessorResult.Status == esriJobStatus.esriJobSucceeded)
{
if (this.checkBox1.Checked)
{
IWorkspaceFactory2 pWKF = new FileGDBWorkspaceFactoryClass();
IRasterWorkspaceEx pRasterWKEx = (IRasterWorkspaceEx)pWKF.OpenFromFile(m_pGDBHelper.GetResultsDBPath(), 0);
IRasterDataset3 pRasterDataset = pRasterWKEx.OpenRasterDataset(this.comboBoxEditOutputRaster.Text.ToString()) as IRasterDataset3;
Utilities.MapUtilites.AddRasterLayer(m_pMapCtrl.ActiveView, pRasterDataset, null);
}
MessageBox.Show("PCA分析完成!", "提示", MessageBoxButtons.OK, MessageBoxIcon.Information);
}
}
this.DialogResult = DialogResult.OK;
this.Close();
}
else
{
MessageBox.Show("已存在同名数据!", "提示", MessageBoxButtons.OK, MessageBoxIcon.Information);
return;
}
}
//执行GP的数据修复功能
//田晶添加20080916
//修改,提高效率
//靳军杰2011-11-30
/// <summary>
/// 修复面图层自相交错误
/// </summary>
/// <param name="sPath"></param>
/// <returns></returns>
public bool FeatureRepair(string sPath)
{
if (string.IsNullOrEmpty(sPath))
{
return false;
}
IGeoProcessor pGP = new GeoProcessorClass();
try
{
//GT_CARTO.XApplication.ProgressBar.ShowGifProgress(null);
//GT_CARTO.XApplication.ProgressBar.ShowHint("正在预处理地类图斑数据...");
//string sPath = pWks.PathName;
pGP.OverwriteOutput = true;
pGP.SetEnvironmentValue("workspace", (object)sPath);
IGpEnumList pfds = pGP.ListFeatureClasses("", "Polygon", "Dataset");
string sFeatClsName = pfds.Next();
//IGeoProcessorResult pResult;
while (!string.IsNullOrEmpty(sFeatClsName))
{
if (!sFeatClsName.Contains("_Standard") &&
!sFeatClsName.Equals("TK", StringComparison.OrdinalIgnoreCase))
{
//要修复的FeatureClass路径
string sInFeatureClassPath = string.Format("{0}\\dataset\\{1}", sPath, sFeatClsName);
IVariantArray pValues = new VarArrayClass();
pValues.Add(sInFeatureClassPath);
pGP.Execute("RepairGeometry", pValues, null);
object obj = 2;
//GT_CONST.LogAPI.CheckLog.AppendErrLogs(pGP.GetMessages(ref obj));
}
sFeatClsName = pfds.Next();
}
return true;
}
catch (Exception exp)
{
Hy.Common.Utility.Log.OperationalLogManager.AppendMessage(exp.ToString());
//GT_CARTO.XApplication.ProgressBar.Hide();
return false;
}
finally
{
//GT_CARTO.XApplication.ProgressBar.Hide();
Marshal.ReleaseComObject(pGP);
}
}
public override List <Dictionary <string, Tuple <object, bool> > > ReadExcelInput(string fileName)
{
var tableName = Guid.NewGuid().ToString().Replace("-", "");
var lstDictionary = new List <Dictionary <string, Tuple <object, bool> > >();
using (ComReleaser oComReleaser = new ComReleaser())
{
IFeatureWorkspace workspace = FeatureClassUtils.CreateFeatureWorkspace("tempWorkspace");
if (workspace == null)
{
}
// Cast the workspace to the IWorkspaceEdit interface.
IWorkspaceEdit workspaceEdit = (IWorkspaceEdit)workspace;
// Start an edit session. An undo/redo stack isn't necessary in this case.
workspaceEdit.StartEditing(false);
// Start an edit operation.
workspaceEdit.StartEditOperation();
IGeoProcessor2 gp = new GeoProcessorClass();
gp.AddOutputsToMap = false;
IVariantArray rasterToPolyParams = new VarArrayClass();
rasterToPolyParams.Add(fileName);
rasterToPolyParams.Add(((IWorkspace)workspace).PathName + System.IO.Path.DirectorySeparatorChar + tableName);
object oResult = gp.Execute("ExcelToTable_conversion", rasterToPolyParams, null);
IGeoProcessorResult ipResult = (IGeoProcessorResult)oResult;
// Save the edit operation. To cancel an edit operation, the AbortEditOperation
// method can be used.
workspaceEdit.StopEditOperation();
// Stop the edit session. The saveEdits parameter indioates the edit session
// will be committed.
workspaceEdit.StopEditing(true);
if (ipResult.Status == esriJobStatus.esriJobSucceeded)
{
var workspacePath = System.IO.Path.GetDirectoryName(Convert.ToString(ipResult.ReturnValue));
var workspaceFactory = (IWorkspaceFactory)Activator.CreateInstance(typeof(FileGDBWorkspaceFactoryClass));
var featureWorkspace = workspaceFactory.OpenFromFile(workspacePath, 0);
ITable table = GetTables(featureWorkspace, tableName);
if (table != null)
{
for (int i = 1; i <= table.RowCount(null); i++)
{
var dictionary = new Dictionary <string, Tuple <object, bool> >();
IRow row = table.GetRow(i);
for (int j = 0; j < row.Fields.FieldCount; j++)
{
dictionary.Add(row.Fields.get_Field(j).Name, Tuple.Create(row.get_Value(j), false));
}
lstDictionary.Add(dictionary);
}
}
var ds = table as IDataset;
ds.Delete();
}
}
return(lstDictionary);
}