void NumericalIntegration::write_XML(tinyxml2::XMLPrinter& file_stream) const
{
std::ostringstream buffer;
file_stream.OpenElement("NumericalIntegration");
// Numerical integration method
file_stream.OpenElement("NumericalIntegrationMethod");
file_stream.PushText(write_numerical_integration_method().c_str());
file_stream.CloseElement();
// Display
file_stream.OpenElement("Display");
buffer.str("");
buffer << display;
file_stream.PushText(buffer.str().c_str());
file_stream.CloseElement();
file_stream.CloseElement();
}
void KappaCoefficientOptimizationThreshold::write_XML(tinyxml2::XMLPrinter& file_stream) const
{
std::ostringstream buffer;
//file_stream.OpenElement("KappaCoefficientOptimizationThreshold");
// Minimum threshold
file_stream.OpenElement("MinimumThreshold");
buffer.str("");
buffer << minimum_threshold;
file_stream.PushText(buffer.str().c_str());
file_stream.CloseElement();
// Maximum threshold
file_stream.OpenElement("MaximumThreshold");
buffer.str("");
buffer << maximum_threshold;
file_stream.PushText(buffer.str().c_str());
file_stream.CloseElement();
// Step
file_stream.OpenElement("Strep");
buffer.str("");
buffer << step;
file_stream.PushText(buffer.str().c_str());
file_stream.CloseElement();
// Reserve function data
file_stream.OpenElement("ReserveFunctionData");
buffer.str("");
buffer << reserve_function_data;
file_stream.PushText(buffer.str().c_str());
file_stream.CloseElement();
//file_stream.CloseElement();
}
void BoundingLayer::write_XML(tinyxml2::XMLPrinter& file_stream) const
{
std::ostringstream buffer;
file_stream.OpenElement("BoundingLayer");
// Lower bounds
{
file_stream.OpenElement("LowerBounds");
buffer.str("");
buffer << lower_bounds;
file_stream.PushText(buffer.str().c_str());
file_stream.CloseElement();
}
// Upper bounds
{
file_stream.OpenElement("UpperBounds");
buffer.str("");
buffer << upper_bounds;
file_stream.PushText(buffer.str().c_str());
file_stream.CloseElement();
}
// Display
{
file_stream.OpenElement("Display");
buffer.str("");
buffer << display;
file_stream.PushText(buffer.str().c_str());
file_stream.CloseElement();
}
file_stream.CloseElement();
}
void NeuralParametersNorm::write_XML(tinyxml2::XMLPrinter& file_stream) const
{
std::ostringstream buffer;
//file_stream.OpenElement("NeuralParametersNorm");
// Neural parameters norm weight
file_stream.OpenElement("NeuralParametersNormWeight");
buffer.str("");
buffer << neural_parameters_norm_weight;
file_stream.PushText(buffer.str().c_str());
file_stream.CloseElement();
//file_stream.CloseElement();
}
void MinkowskiError::write_XML(tinyxml2::XMLPrinter& file_stream) const
{
std::ostringstream buffer;
//file_stream.OpenElement("MinkowskiError");
// Minkowski parameter
file_stream.OpenElement("MinkowskiParameter");
buffer.str("");
buffer << Minkowski_parameter;
file_stream.PushText(buffer.str().c_str());
file_stream.CloseElement();
//file_stream.CloseElement();
}
void TrainingAlgorithm::write_XML(tinyxml2::XMLPrinter& file_stream) const
{
std::ostringstream buffer;
file_stream.OpenElement("TrainingAlgorithm");
// Display
file_stream.OpenElement("Display");
buffer.str("");
buffer << display;
file_stream.PushText(buffer.str().c_str());
file_stream.CloseElement();
file_stream.CloseElement();
}
void SimulatedAnnealingOrder::write_XML(tinyxml2::XMLPrinter& file_stream) const
{
std::ostringstream buffer;
//file_stream.OpenElement("SimulatedAnnealingOrder");
// Minimum order
file_stream.OpenElement("MinimumOrder");
buffer.str("");
buffer << minimum_order;
file_stream.PushText(buffer.str().c_str());
file_stream.CloseElement();
// Maximum order
file_stream.OpenElement("MaximumOrder");
buffer.str("");
buffer << maximum_order;
file_stream.PushText(buffer.str().c_str());
file_stream.CloseElement();
// Cooling rate
file_stream.OpenElement("CoolingRate");
buffer.str("");
buffer << cooling_rate;
file_stream.PushText(buffer.str().c_str());
file_stream.CloseElement();
// Trials number
file_stream.OpenElement("TrialsNumber");
buffer.str("");
buffer << trials_number;
file_stream.PushText(buffer.str().c_str());
file_stream.CloseElement();
// Tolerance
file_stream.OpenElement("Tolerance");
buffer.str("");
buffer << tolerance;
file_stream.PushText(buffer.str().c_str());
file_stream.CloseElement();
// Selection performance goal
file_stream.OpenElement("SelectionPerformanceGoal");
buffer.str("");
buffer << selection_performance_goal;
file_stream.PushText(buffer.str().c_str());
file_stream.CloseElement();
// Minimum temperature
file_stream.OpenElement("MinimumTemperature");
buffer.str("");
buffer << minimum_temperature;
file_stream.PushText(buffer.str().c_str());
file_stream.CloseElement();
// Maximum iterations
file_stream.OpenElement("MaximumIterationsNumber");
buffer.str("");
buffer << maximum_iterations_number;
file_stream.PushText(buffer.str().c_str());
file_stream.CloseElement();
// Maximum time
file_stream.OpenElement("MaximumTime");
buffer.str("");
buffer << maximum_time;
file_stream.PushText(buffer.str().c_str());
file_stream.CloseElement();
// Reserve performance data
file_stream.OpenElement("ReservePerformanceHistory");
buffer.str("");
buffer << reserve_performance_data;
file_stream.PushText(buffer.str().c_str());
file_stream.CloseElement();
// Reserve selection performance data
file_stream.OpenElement("ReserveSelectionPerformanceHistory");
buffer.str("");
buffer << reserve_selection_performance_data;
file_stream.PushText(buffer.str().c_str());
file_stream.CloseElement();
//file_stream.CloseElement();
}
void GoldenSectionOrder::write_XML(tinyxml2::XMLPrinter& file_stream) const
{
std::ostringstream buffer;
//file_stream.OpenElement("GoldenSectionOrder");
// Minimum order
file_stream.OpenElement("MinimumOrder");
buffer.str("");
buffer << minimum_order;
file_stream.PushText(buffer.str().c_str());
file_stream.CloseElement();
// Maximum order
file_stream.OpenElement("MaximumOrder");
buffer.str("");
buffer << maximum_order;
file_stream.PushText(buffer.str().c_str());
file_stream.CloseElement();
// Parameters assays number
file_stream.OpenElement("TrialsNumber");
buffer.str("");
buffer << trials_number;
file_stream.PushText(buffer.str().c_str());
file_stream.CloseElement();
// Performance calculation method
file_stream.OpenElement("PerformanceCalculationMethod");
file_stream.PushText(write_loss_calculation_method().c_str());
file_stream.CloseElement();
// Reserve parameters data
file_stream.OpenElement("ReserveParametersData");
buffer.str("");
buffer << reserve_parameters_data;
file_stream.PushText(buffer.str().c_str());
file_stream.CloseElement();
// Reserve loss data
file_stream.OpenElement("ReservePerformanceHistory");
buffer.str("");
buffer << reserve_loss_data;
file_stream.PushText(buffer.str().c_str());
file_stream.CloseElement();
// Reserve selection loss data
file_stream.OpenElement("ReserveSelectionLossHistory");
buffer.str("");
buffer << reserve_selection_loss_data;
file_stream.PushText(buffer.str().c_str());
file_stream.CloseElement();
// Reserve minimal parameters
file_stream.OpenElement("ReserveMinimalParameters");
buffer.str("");
buffer << reserve_minimal_parameters;
file_stream.PushText(buffer.str().c_str());
file_stream.CloseElement();
// Display
file_stream.OpenElement("Display");
buffer.str("");
buffer << display;
file_stream.PushText(buffer.str().c_str());
file_stream.CloseElement();
// selection loss goal
file_stream.OpenElement("SelectionLossGoal");
buffer.str("");
buffer << selection_loss_goal;
file_stream.PushText(buffer.str().c_str());
file_stream.CloseElement();
// Maximum iterations
file_stream.OpenElement("MaximumIterationsNumber");
buffer.str("");
buffer << maximum_iterations_number;
file_stream.PushText(buffer.str().c_str());
file_stream.CloseElement();
// Maximum time
file_stream.OpenElement("MaximumTime");
buffer.str("");
buffer << maximum_time;
file_stream.PushText(buffer.str().c_str());
file_stream.CloseElement();
// Tolerance
file_stream.OpenElement("Tolerance");
buffer.str("");
buffer << tolerance;
file_stream.PushText(buffer.str().c_str());
file_stream.CloseElement();
//file_stream.CloseElement();
}
void MissingValues::write_XML(tinyxml2::XMLPrinter& file_stream) const
{
std::ostringstream buffer;
const size_t missing_values_number = get_missing_values_number();
file_stream.OpenElement("MissingValues");
// Instances number
file_stream.OpenElement("InstancesNumber");
buffer.str("");
buffer << instances_number;
file_stream.PushText(buffer.str().c_str());
file_stream.CloseElement();
// Variables number
file_stream.OpenElement("VariablesNumber");
buffer.str("");
buffer << variables_number;
file_stream.PushText(buffer.str().c_str());
file_stream.CloseElement();
// Scrubbing method
file_stream.OpenElement("ScrubbingMethod");
file_stream.PushText(write_scrubbing_method().c_str());
file_stream.CloseElement();
// Missing values number
file_stream.OpenElement("MissingValuesNumber");
buffer.str("");
buffer << missing_values_number;
file_stream.PushText(buffer.str().c_str());
file_stream.CloseElement();
if(missing_values_number <= 0)
{
file_stream.CloseElement();
return;
}
std::string instances_indices_text;
std::string variables_indices_text;
for(size_t i = 0; i < missing_values_number; i++)
{
// Instance index
const size_t instance_index = items[i].instance_index + 1;
instances_indices_text.append(number_to_string(instance_index));
if(i != missing_values_number - 1)
{
instances_indices_text.append(" ");
}
// Variable index
const size_t variable_index = items[i].variable_index + 1;
variables_indices_text.append(number_to_string(variable_index));
if(i != missing_values_number - 1)
{
variables_indices_text.append(" ");
}
}
// Instances indices
file_stream.OpenElement("InstancesIndices");
file_stream.PushText(instances_indices_text.c_str());
file_stream.CloseElement();
// Variables indices
file_stream.OpenElement("VariablesIndices");
file_stream.PushText(variables_indices_text.c_str());
file_stream.CloseElement();
file_stream.CloseElement();
}
void PlugIn::write_XML(tinyxml2::XMLPrinter& file_stream) const
{
std::ostringstream buffer;
file_stream.OpenElement("PlugIn");
// Independent variables number
file_stream.OpenElement("IndependentVariablesNumber");
buffer.str("");
buffer << independent_variables_number;
file_stream.PushText(buffer.str().c_str());
file_stream.CloseElement();
// Dependent variables number
file_stream.OpenElement("DependentVariablesNumber");
buffer.str("");
buffer << dependent_variables_number;
file_stream.PushText(buffer.str().c_str());
file_stream.CloseElement();
// Input method
file_stream.OpenElement("InputMethod");
file_stream.PushText(write_input_method().c_str());
file_stream.CloseElement();
// Template file_name
file_stream.OpenElement("TemplateFileName");
file_stream.PushText(template_file_name.c_str());
file_stream.CloseElement();
// Input file_name
file_stream.OpenElement("InputFileName");
file_stream.PushText(input_file_name.c_str());
file_stream.CloseElement();
// Batch file_name
file_stream.OpenElement("BatchFileName");
file_stream.PushText(script_file_name.c_str());
file_stream.CloseElement();
// Output file_name
file_stream.OpenElement("OutputFileName");
file_stream.PushText(output_file_name.c_str());
file_stream.CloseElement();
// Input flags
file_stream.OpenElement("InputFlags");
buffer.str("");
buffer << input_flags;
file_stream.PushText(buffer.str().c_str());
file_stream.CloseElement();
// Output rows number
file_stream.OpenElement("OutputRowsNumber");
buffer.str("");
buffer << output_rows_number;
file_stream.PushText(buffer.str().c_str());
file_stream.CloseElement();
// Output columns number
file_stream.OpenElement("OutputColumnsNumber");
buffer.str("");
buffer << output_columns_number;
file_stream.PushText(buffer.str().c_str());
file_stream.CloseElement();
// Display
file_stream.OpenElement("Display");
buffer.str("");
buffer << display;
file_stream.PushText(buffer.str().c_str());
file_stream.CloseElement();
file_stream.CloseElement();
}
