/// <summary> /// Called once when loading the module, will not necessarily be called once per classificaiton run /// </summary> /// <param name="moduleDefinition">The definition for this module</param> /// <param name="moduleConnector"></param> public void OnLoad( IFsrmPipelineModuleDefinition moduleDefinition, out FsrmPipelineModuleConnector moduleConnector ) { moduleConnector = new FsrmPipelineModuleConnector(); moduleConnector.Bind(moduleDefinition, this); m_moduleDefinition = moduleDefinition; }
/// <summary> /// Called once when loading the module, will not necessarily be called once per classificaiton run /// </summary> /// <param name="moduleDefinition">The definition for this module</param> /// <param name="moduleConnector"></param> public void OnLoad( IFsrmPipelineModuleDefinition moduleDefinition, out FsrmPipelineModuleConnector moduleConnector ) { moduleConnector = new FsrmPipelineModuleConnector(); moduleConnector.Bind( moduleDefinition, this ); m_moduleDefinition = moduleDefinition; }
/*++ Routine RegexClassifier::OnLoad Description: This routine implements the IFsrmClassifierModuleImplementation interface OnLoad. It is called when the classifier module is loaded by the FSRM classification manager. Arguments: moduleDefinition - The module definition for this object passed by the FSRM classification manager moduleConnector - Out parameter for the FSRM pipeline connector module that this method creates and returns. Return value: void Notes: --*/ public void OnLoad( IFsrmPipelineModuleDefinition moduleDefinition, out FsrmPipelineModuleConnector moduleConnector ) { //Default value for the Regex options m_iValRegexOptions = (int)(RegexOptions.Compiled | RegexOptions.Multiline | RegexOptions.CultureInvariant); //Create the FSRM pipeline module connector moduleConnector = new FsrmPipelineModuleConnector(); //Bind the connector to this object moduleConnector.Bind( moduleDefinition, this ); //Retrieve the classifier's module parameters from the module definitions object[] modParams = moduleDefinition.Parameters; //loop through all module parameters and save appropriate ones foreach (object param in modParams) { string strParam = (string)param; string[] splitParams = strParam.Split( RegexClassifier.ModuleParamDelimiter.ToCharArray(), 2 ); string key = splitParams[0]; string val = splitParams[1]; if (val != null) { if (key.Equals( RegexClassifier.ModuleParamRegexOptions, StringComparison.OrdinalIgnoreCase )) { m_iValRegexOptions = Convert.ToInt32( val, CultureInfo.InvariantCulture ); } else if (key.Equals( "encoding", StringComparison.OrdinalIgnoreCase )) { if (val.Equals( "ascii", StringComparison.OrdinalIgnoreCase )) { m_encoder = new System.Text.ASCIIEncoding(); } else if (val.Equals( "unicode", StringComparison.OrdinalIgnoreCase )) { m_encoder = new System.Text.UnicodeEncoding(); } else if (val.Equals( "utf32", StringComparison.OrdinalIgnoreCase )) { m_encoder = new System.Text.UTF32Encoding(); } else if (val.Equals( "utf7", StringComparison.OrdinalIgnoreCase )) { m_encoder = new System.Text.UTF7Encoding(); } else if (val.Equals( "utf8", StringComparison.OrdinalIgnoreCase )) { m_encoder = new System.Text.UTF8Encoding(); } } } } if (m_encoder == null) { throw new ArgumentException( "Classifier needs a valid encoding" ); } }
/*++ * * Routine RegexClassifier::OnLoad * * Description: * * This routine implements the IFsrmClassifierModuleImplementation interface OnLoad. * It is called when the classifier module is loaded by the FSRM classification manager. * * Arguments: * * moduleDefinition - The module definition for this object passed by the FSRM classification manager * moduleConnector - Out parameter for the FSRM pipeline connector module that this method creates and returns. * * Return value: * * void * * Notes: * * * --*/ public void OnLoad( IFsrmPipelineModuleDefinition moduleDefinition, out FsrmPipelineModuleConnector moduleConnector ) { //Default value for the Regex options m_iValRegexOptions = (int)(RegexOptions.Compiled | RegexOptions.Multiline | RegexOptions.CultureInvariant); //Create the FSRM pipeline module connector moduleConnector = new FsrmPipelineModuleConnector(); //Bind the connector to this object moduleConnector.Bind(moduleDefinition, this); //Retrieve the classifier's module parameters from the module definitions object[] modParams = moduleDefinition.Parameters; //loop through all module parameters and save appropriate ones foreach (object param in modParams) { string strParam = (string)param; string[] splitParams = strParam.Split( RegexClassifier.ModuleParamDelimiter.ToCharArray(), 2 ); string key = splitParams[0]; string val = splitParams[1]; if (val != null) { if (key.Equals( RegexClassifier.ModuleParamRegexOptions, StringComparison.OrdinalIgnoreCase)) { m_iValRegexOptions = Convert.ToInt32(val, CultureInfo.InvariantCulture); } else if (key.Equals("encoding", StringComparison.OrdinalIgnoreCase)) { if (val.Equals("ascii", StringComparison.OrdinalIgnoreCase)) { m_encoder = new System.Text.ASCIIEncoding(); } else if (val.Equals("unicode", StringComparison.OrdinalIgnoreCase)) { m_encoder = new System.Text.UnicodeEncoding(); } else if (val.Equals("utf32", StringComparison.OrdinalIgnoreCase)) { m_encoder = new System.Text.UTF32Encoding(); } else if (val.Equals("utf7", StringComparison.OrdinalIgnoreCase)) { m_encoder = new System.Text.UTF7Encoding(); } else if (val.Equals("utf8", StringComparison.OrdinalIgnoreCase)) { m_encoder = new System.Text.UTF8Encoding(); } } } } if (m_encoder == null) { throw new ArgumentException("Classifier needs a valid encoding"); } }