public void TestKonstantNorthArea60kVOnly()
{
var reader = new CimJsonFileReader(Path.Combine(AppDomain.CurrentDomain.BaseDirectory, @"c:\temp\cim\pf_test_nord.jsonl"));
var cimObjects = reader.Read();
string folder = @"\\SHOBJPOW01V\c$\gis_cim_export\konstant_nord_60kv_test";
var writer = new KonstantCimArchiveWriter(cimObjects, folder, "Konstant Nord", Guid.Parse("c3cb1ba1-8670-471a-9ba2-9d6d46d1295c"), true);
}
public void TestKonstantNorthArea()
{
var reader = new CimJsonFileReader(Path.Combine(AppDomain.CurrentDomain.BaseDirectory, @"c:\temp\cim\pf_test_nord.jsonl"));
var cimObjects = reader.Read();
string folder = @"\\SHOBJPOW01V\c$\gis_cim_export\konstant_nord_test";
var writer = new KonstantCimArchiveWriter(cimObjects, folder, "konstant_north", Guid.Parse("3b697c10-ed30-47bb-98b6-f6960df87a41"));
}
public void TestKonstantSouthArea60kVOnly()
{
var reader = new CimJsonFileReader(Path.Combine(AppDomain.CurrentDomain.BaseDirectory, @"c:\temp\cim\pf_test_syd.jsonl"));
var cimObjects = reader.Read();
string folder = @"\\SHOBJPOW01V\c$\gis_cim_export\konstant_syd_60kv_test";
var writer = new KonstantCimArchiveWriter(cimObjects, folder, "Konstant Syd", Guid.Parse("3527c345-3f5b-4de8-acf4-906b4d0688af"), true);
}
public void TestKonstantSouthArea()
{
var reader = new CimJsonFileReader(Path.Combine(AppDomain.CurrentDomain.BaseDirectory, @"c:\temp\cim\pf_test_syd.jsonl"));
var cimObjects = reader.Read();
string folder = @"\\SHOBJPOW01V\c$\gis_cim_export\konstant_syd_test";
var writer = new KonstantCimArchiveWriter(cimObjects, folder, "konstant_south", Guid.Parse("b8a2ec4d-8337-4a1c-9aec-32b8335435c0"));
}
static void Main(string[] args)
{
if (args.Length < 6)
{
System.Console.Out.WriteLine("Usage: Gis2PowerFactoryBatchRunner.exe inputAdapterConfigFileName outputCimArchiveFolder outputCimArchiveName outputLogFile extent highVoltageOnly(true/false)");
return;
}
try
{
string cimAdapterConfig = args[0];
string cimArchiveFolder = args[1];
string cimArchiveName = args[2];
Guid cimModeRdfId = Guid.Parse(args[3]);
string logFileName = args[4];
string extent = args[5];
bool highVoltageOnly = false;
if (args.Length == 7 && args[6].ToLower() == "true")
{
highVoltageOnly = true;
}
var cimFileName = cimArchiveName + ".jsonl";
Log.Logger = new LoggerConfiguration()
.WriteTo.File(logFileName, rollingInterval: RollingInterval.Day)
.WriteTo.Console()
.WriteTo.EventLog("NRGi.Gis2PowerFactoryBatchRunner", manageEventSource: true, restrictedToMinimumLevel: Serilog.Events.LogEventLevel.Error)
.CreateLogger();
Logger.WriteToConsole = true;
var config = new TransformationConfig().LoadFromFile(cimAdapterConfig);
// Sæt extent
if (extent != null)
{
config.DataReaders[0].ConfigParameters.Add(new ConfigParameter()
{
Name = "Extent", Value = extent
});
}
var transformer = config.InitializeDataTransformer("test");
// Log ikke til database tabel, da vi køre på prod
((CIMGraphWriter)transformer.GetFirstDataWriter()).DoNotLogToTable();
((CIMGraphWriter)transformer.GetFirstDataWriter()).DoNotRunPreCheckConnectivity();
transformer.TransferData();
CIMGraphWriter writer = transformer.GetFirstDataWriter() as CIMGraphWriter;
CIMGraph graph = writer.GetCIMGraph();
// Serialize
var serializer = config.InitializeSerializer("DAX") as IDAXSerializeable;
var cimObjects = ((DAXCIMSerializer)serializer).GetIdentifiedObjects(CIMMetaDataManager.Repository, graph.CIMObjects, true, true, true).ToList();
var pfWriter = new KonstantCimArchiveWriter(cimObjects, cimArchiveFolder, cimArchiveName, cimModeRdfId, highVoltageOnly);
Logger.Log(LogLevel.Info, "Export to Power Factory CIM Archive: " + cimArchiveFolder + "\\" + cimArchiveName + ".zip finished.");
}
catch (Exception ex)
{
Logger.Log(ex);
}
}
