• arcengine自己做一个工具Tool放到工具箱中


    // Copyright 2010 ESRI
    // 
    // All rights reserved under the copyright laws of the United States
    // and applicable international laws, treaties, and conventions.
    // 
    // You may freely redistribute and use this sample code, with or
    // without modification, provided you include the original copyright
    // notice and use restrictions.
    // 
    // See the use restrictions at <your ArcGIS install location>/DeveloperKit10.0/userestrictions.txt.
    // 
    
    using System;
    using System.Collections.Generic;
    using System.Text;
    using System.Runtime.InteropServices;
    using ESRI.ArcGIS.Geodatabase;
    using ESRI.ArcGIS.Geometry;
    using ESRI.ArcGIS.Geoprocessing;
    using ESRI.ArcGIS.esriSystem;
    using ESRI.ArcGIS.DataSourcesFile;
    using ESRI.ArcGIS.DataSourcesGDB;
    using ESRI.ArcGIS.ADF.CATIDs;
    
    namespace GPCalculateArea
    {
    
        public class CalculateAreaFunction : IGPFunction2
        {  
             private string m_ToolName = "CalculateArea"; //Function Name
            //Local members
           
            private string m_metadatafile = "CalculateArea_area.xml";
            private IArray m_Parameters;             // Array of Parameters
            private IGPUtilities m_GPUtilities;      // GPUtilities object
            
            public CalculateAreaFunction()
            {
                m_GPUtilities = new GPUtilitiesClass();
            }
    
            #region IGPFunction Members
    
            // Set the name of the function tool. 
            // This name appears when executing the tool at the command line or in scripting. 
            // This name should be unique to each toolbox and must not contain spaces.
            public string Name
            {
                get { return m_ToolName; }
            }
    
            // Set the function tool Display Name as seen in ArcToolbox.
            public string DisplayName
            {
                get { return "Calculate Area"; }
            }
    
            // This is the location where the parameters to the Function Tool are defined. 
            // This property returns an IArray of parameter objects (IGPParameter). 
            // These objects define the characteristics of the input and output parameters. 
            public IArray ParameterInfo
            {                 
                get 
                {
                    //Array to the hold the parameters	
                    IArray parameters = new ArrayClass();
    
                    //Input DataType is GPFeatureLayerType
                    IGPParameterEdit3 inputParameter = new GPParameterClass();
                    inputParameter.DataType = new GPFeatureLayerTypeClass();
    
                    // Default Value object is GPFeatureLayer
                    inputParameter.Value = new GPFeatureLayerClass();
    
                    // Set Input Parameter properties
                    inputParameter.Direction = esriGPParameterDirection.esriGPParameterDirectionInput;
                    inputParameter.DisplayName = "Input Features";
                    inputParameter.Name = "input_features";
                    inputParameter.ParameterType = esriGPParameterType.esriGPParameterTypeRequired;
                    parameters.Add(inputParameter);
    
                    // Area field parameter
                    inputParameter = new GPParameterClass();
                    inputParameter.DataType = new GPStringTypeClass();
    
                    // Value object is GPString
                    IGPString gpStringValue = new GPStringClass();
                    gpStringValue.Value = "Area";
                    inputParameter.Value = (IGPValue)gpStringValue;
    
                    // Set field name parameter properties
                    inputParameter.Direction = esriGPParameterDirection.esriGPParameterDirectionInput;
                    inputParameter.DisplayName = "Area Field Name";
                    inputParameter.Name = "field_name";
                    inputParameter.ParameterType = esriGPParameterType.esriGPParameterTypeRequired; 
                    parameters.Add(inputParameter);
    
                    // Output parameter (Derived) and data type is DEFeatureClass
                    IGPParameterEdit3 outputParameter = new GPParameterClass();
                    outputParameter.DataType = new GPFeatureLayerTypeClass();
    
                    // Value object is DEFeatureClass
                    outputParameter.Value = new DEFeatureClassClass();
                                   
                    // Set output parameter properties
                    outputParameter.Direction = esriGPParameterDirection.esriGPParameterDirectionOutput;
                    outputParameter.DisplayName = "Output FeatureClass";
                    outputParameter.Name = "out_featureclass";
                    outputParameter.ParameterType = esriGPParameterType.esriGPParameterTypeDerived;
    
                    // Create a new schema object - schema means the structure or design of the feature class (field information, geometry information, extent)
                    IGPFeatureSchema outputSchema = new GPFeatureSchemaClass();
                    IGPSchema schema = (IGPSchema)outputSchema;
    
                    // Clone the schema from the dependency. 
                    //This means update the output with the same schema as the input feature class (the dependency).                                
                    schema.CloneDependency = true;               
    
                    // Set the schema on the output because this tool will add an additional field.
                    outputParameter.Schema = outputSchema as IGPSchema;
                    outputParameter.AddDependency("input_features");
                    parameters.Add(outputParameter);
    
                    return parameters;
                }
            }
    
            // Validate: 
            // - Validate is an IGPFunction method, and we need to implement it in case there
            //   is legacy code that queries for the IGPFunction interface instead of the IGPFunction2 
            //   interface.  
            // - This Validate code is boilerplate - copy and insert into any IGPFunction2 code..
            // - This is the calling sequence that the gp framework now uses when it QI's for IGPFunction2..
            public IGPMessages Validate(IArray paramvalues, bool updateValues, IGPEnvironmentManager envMgr)
            {
                if (m_Parameters == null)
                    m_Parameters = ParameterInfo;
    
                // Call UpdateParameters(). 
                // Only Call if updatevalues is true.
                if (updateValues == true)
                {
                    UpdateParameters(paramvalues, envMgr);
                }
    
                // Call InternalValidate (Basic Validation). Are all the required parameters supplied?
                // Are the Values to the parameters the correct data type?
                IGPMessages validateMsgs = m_GPUtilities.InternalValidate(m_Parameters, paramvalues, updateValues, true, envMgr);
    
                // Call UpdateMessages();
                UpdateMessages(paramvalues, envMgr, validateMsgs);
    
                // Return the messages
                return validateMsgs;
            }
    
            // This method will update the output parameter value with the additional area field.
            public void UpdateParameters(IArray paramvalues, IGPEnvironmentManager pEnvMgr)
            {
                m_Parameters = paramvalues;
    
                // Retrieve the input parameter value
                IGPValue parameterValue = m_GPUtilities.UnpackGPValue(m_Parameters.get_Element(0));
    
                // Get the derived output feature class schema and empty the additional fields. This will ensure you don't get duplicate entries.
                IGPParameter3 derivedFeatures = (IGPParameter3)paramvalues.get_Element(2);
                IGPFeatureSchema schema = (IGPFeatureSchema)derivedFeatures.Schema;
                schema.AdditionalFields = null;
    
                // If we have an input value, create a new field based on the field name the user entered.            
                if  (parameterValue.IsEmpty() == false)
                {
                    IGPParameter3 fieldNameParameter = (IGPParameter3)paramvalues.get_Element(1);
                    string fieldName = fieldNameParameter.Value.GetAsText();
                    
                    // Check if the user's input field already exists
                    IField areaField = m_GPUtilities.FindField(parameterValue, fieldName);
                    if (areaField == null)
                    {
                        IFieldsEdit fieldsEdit = new FieldsClass();
                        IFieldEdit fieldEdit = new FieldClass();
                        fieldEdit.Name_2 = fieldName;
                        fieldEdit.Type_2 = esriFieldType.esriFieldTypeDouble;
                        fieldsEdit.AddField(fieldEdit);
    
                        // Add an additional field for the area values to the derived output.
                        IFields fields = fieldsEdit as IFields;                    
                        schema.AdditionalFields = fields;
                    }
                    
                }
            }
    
            // Called after returning from the update parameters routine. 
            // You can examine the messages created from internal validation and change them if desired. 
            public void UpdateMessages(IArray paramvalues, IGPEnvironmentManager pEnvMgr, IGPMessages Messages)
            {
                // Check for error messages
                IGPMessage msg = (IGPMessage)Messages;
                if (msg.IsError())
                    return;    
    
                // Get the first Input Parameter
                IGPParameter parameter = (IGPParameter)paramvalues.get_Element(0);
    
                // UnPackGPValue. This ensures you get the value either form the dataelement or GpVariable (ModelBuilder)
                IGPValue parameterValue = m_GPUtilities.UnpackGPValue(parameter);
    
                // Open the Input Dataset - Use DecodeFeatureLayer as the input might be a layer file or a feature layer from ArcMap.
                IFeatureClass inputFeatureClass;
                IQueryFilter qf;
                m_GPUtilities.DecodeFeatureLayer(parameterValue, out inputFeatureClass, out qf);
    
                IGPParameter3 fieldParameter = (IGPParameter3)paramvalues.get_Element(1);
                string fieldName = fieldParameter.Value.GetAsText();
    
                // Check if the field already exists and provide a warning.
                int indexA = inputFeatureClass.FindField(fieldName);
                if (indexA > 0)
                {
                    Messages.ReplaceWarning(1, "Field already exists. It will be overwritten.");
                }
    
                return;
            }
    
            // Execute: Execute the function given the array of the parameters
            public void Execute(IArray paramvalues, ITrackCancel trackcancel, IGPEnvironmentManager envMgr, IGPMessages message)
            {
                
                // Get the first Input Parameter
                IGPParameter parameter = (IGPParameter)paramvalues.get_Element(0);
    
                // UnPackGPValue. This ensures you get the value either form the dataelement or GpVariable (ModelBuilder)
               IGPValue parameterValue = m_GPUtilities.UnpackGPValue(parameter);
    
                // Open Input Dataset
                IFeatureClass inputFeatureClass;
                IQueryFilter qf;
                m_GPUtilities.DecodeFeatureLayer(parameterValue, out inputFeatureClass, out qf);
    
                if (inputFeatureClass == null)
                {
                    message.AddError(2, "Could not open input dataset.");
                    return;
                } 
                    
                // Add the field if it does not exist.
                int indexA;
    
                parameter = (IGPParameter)paramvalues.get_Element(1);
                string field = parameter.Value.GetAsText();
    
                
                indexA = inputFeatureClass.FindField(field);
                if (indexA < 0)
                {
                    IFieldEdit fieldEdit = new FieldClass();
                    fieldEdit.Type_2 = esriFieldType.esriFieldTypeDouble;
                    fieldEdit.Name_2 = field;
                    inputFeatureClass.AddField(fieldEdit);
                }
    
                 int featcount = inputFeatureClass.FeatureCount(null);     
          
                 //Set the properties of the Step Progressor
                IStepProgressor pStepPro = (IStepProgressor)trackcancel;
                pStepPro.MinRange = 0;
                pStepPro.MaxRange = featcount;
                pStepPro.StepValue = (1);
                pStepPro.Message = "Calculating Area";
                pStepPro.Position = 0;
                pStepPro.Show();
    
                // Create an Update Cursor
                indexA = inputFeatureClass.FindField(field);
                IFeatureCursor updateCursor = inputFeatureClass.Update(qf, false);
                IFeature updateFeature = updateCursor.NextFeature();
                IGeometry geometry;
                IArea area;
                double dArea;   
                
                while (updateFeature != null)
                {
                    geometry = updateFeature.Shape;
                    area = (IArea)geometry;
                    dArea = area.Area;
                    updateFeature.set_Value(indexA, dArea);
                    updateCursor.UpdateFeature(updateFeature);
                    updateFeature.Store();
                    updateFeature = updateCursor.NextFeature();
                    pStepPro.Step();
                }
    
               pStepPro.Hide();
                
                // Release the update cursor to remove the lock on the input data.
               System.Runtime.InteropServices.Marshal.ReleaseComObject(updateCursor);
            }
    
            // This is the function name object for the Geoprocessing Function Tool. 
            // This name object is created and returned by the Function Factory.
            // The Function Factory must first be created before implementing this property.
            public IName FullName
            {
                get
                { 	
                    // Add CalculateArea.FullName getter implementation
                    IGPFunctionFactory functionFactory = new CalculateAreaFunctionFactory();
                    return (IName)functionFactory.GetFunctionName(m_ToolName);
                }
            }
    
            // This is used to set a custom renderer for the output of the Function Tool.
            public object GetRenderer(IGPParameter pParam)
            {
                return null;
            }
    
            // This is the unique context identifier in a [MAP] file (.h). 
            // ESRI Knowledge Base article #27680 provides more information about creating a [MAP] file. 
            public int HelpContext
            {
                get { return 0; }
            }
    
            // This is the path to a .chm file which is used to describe and explain the function and its operation. 
            public string HelpFile
            {
                get { return ""; }
            }
    
            // This is used to return whether the function tool is licensed to execute.
            public bool IsLicensed()
            {
                IAoInitialize aoi = new AoInitializeClass();
                ILicenseInformation licInfo = (ILicenseInformation)aoi;
    
                string licName = licInfo.GetLicenseProductName(aoi.InitializedProduct());
    
                if (licName == "ArcInfo")
                {
                     return true;
                }
                else
                    return false;
            }
    
            // This is the name of the (.xml) file containing the default metadata for this function tool. 
            // The metadata file is used to supply the parameter descriptions in the help panel in the dialog. 
            // If no (.chm) file is provided, the help is based on the metadata file. 
            // ESRI Knowledge Base article #27000 provides more information about creating a metadata file.
            public string MetadataFile
            {
                get { return m_metadatafile; }
            }
    
            // By default, the Toolbox will create a dialog based upon the parameters returned 
            // by the ParameterInfo property.
            public UID DialogCLSID
            {
                // DO NOT USE. INTERNAL USE ONLY.
                get { return null; }
            }
    
            #endregion
        }
    
        //////////////////////////////
        // Function Factory Class
        ////////////////////////////
        [
        Guid("2554BFC7-94F9-4d28-B3FE-14D17599B35A"),
        ComVisible(true)
        ]
        public class CalculateAreaFunctionFactory : IGPFunctionFactory
        {
            private const string m_ToolName = "ylArea"; //Function Name
            // Register the Function Factory with the ESRI Geoprocessor Function Factory Component Category.
            #region "Component Category Registration"
            [ComRegisterFunction()]
            static void Reg(string regKey)
            {
                
                GPFunctionFactories.Register(regKey);
            }
    
            [ComUnregisterFunction()]
            static void Unreg(string regKey)
            {
                GPFunctionFactories.Unregister(regKey);
            }
            #endregion
    
            // Utility Function added to create the function names.
            private IGPFunctionName CreateGPFunctionNames(long index)
            {
                IGPFunctionName functionName = new GPFunctionNameClass();
                functionName.MinimumProduct = esriProductCode.esriProductCodeProfessional;
                IGPName name;
    
                switch (index)
                {
                    case (0):
                        name = (IGPName)functionName;
                        name.Category = "AreaCalculation";
                        name.Description = "Calculate Area for FeatureClass";
                        name.DisplayName = "Calculate Area";
                        name.Name = m_ToolName;                
                        name.Factory = (IGPFunctionFactory)this;
                        break;
                }
    
                return functionName;
            }
    
            // Implementation of the Function Factory
            #region IGPFunctionFactory Members
    
            // This is the name of the function factory. 
            // This is used when generating the Toolbox containing the function tools of the factory.
            public string Name
            {
                get { return m_ToolName; }
            }
    
            // This is the alias name of the factory.
            public string Alias
            {
                get { return "area"; }
            }
    
            // This is the class id of the factory. 
            public UID CLSID
            {
                get
                {
                    UID id = new UIDClass();
                    id.Value = this.GetType().GUID.ToString("B");
                    return id;
                }
            }
    
            // This method will create and return a function object based upon the input name.
            public IGPFunction GetFunction(string Name)
            {
                switch (Name)
                {
                    case (m_ToolName):
                        IGPFunction gpFunction = new CalculateAreaFunction();
                        return gpFunction;
                }
    
                return null;
            }
    
            // This method will create and return a function name object based upon the input name.
            public IGPName GetFunctionName(string Name)
            {
                IGPName gpName = new GPFunctionNameClass();
    
                switch (Name)
                {
                    case (m_ToolName):
                        return (IGPName)CreateGPFunctionNames(0);
                       
                }
                return null;
            }
    
            // This method will create and return an enumeration of function names that the factory supports.
            public IEnumGPName GetFunctionNames()
            {
                IArray nameArray = new EnumGPNameClass();
                nameArray.Add(CreateGPFunctionNames(0));
                return (IEnumGPName)nameArray;
            }
    
            // This method will create and return an enumeration of GPEnvironment objects. 
            // If tools published by this function factory required new environment settings, 
            //then you would define the additional environment settings here. 
            // This would be similar to how parameters are defined. 
            public IEnumGPEnvironment GetFunctionEnvironments()
            {
                return null;
            }
           
    
            #endregion
        }
    
    }
    
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  • 原文地址:https://www.cnblogs.com/gisoracle/p/3429203.html
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