public void MakeManifest(
ISIS.GME.Common.Interfaces.FCO testBench,
string outputDir = "",
bool update = true)
{
Contract.Requires(testBench != null);
string fullPathFileName = Path.Combine(outputDir, TESTBENCH_FILENAME);
bool shouldUpdate = false;
if (update && System.IO.File.Exists(fullPathFileName))
{
MetaTBManifest oldManifest = Deserialize(fullPathFileName);
this.CopyManifest(oldManifest);
shouldUpdate = true;
}
this.TestBench = string.IsNullOrEmpty((testBench.Impl as MgaFCO).RegistryValue["TestBenchUniqueName"]) ?
testBench.Name :
(testBench.Impl as MgaFCO).RegistryValue["TestBenchUniqueName"];
this.Created = DateTime.UtcNow.ToString("o");
// FIXME: put design name here...
this.DesignName = testBench.Name;
if (testBench is CyPhy.BallisticTestBench)
{
this.TierLevel = (int)(testBench as CyPhy.BallisticTestBench).Attributes.Tier;
}
if (testBench is CyPhy.TestBenchType)
{
var testBenchType = ISIS.GME.Dsml.CyPhyML.Classes.TestBenchType.Cast(testBench.Impl);
foreach (var item in testBenchType.Children.MetricCollection)
{
if (shouldUpdate)
{
var oldData = this.Metrics.FirstOrDefault(x => x.ID == item.Guid.ToString());
if (oldData != null)
{
this.Metrics.Remove(oldData);
}
}
AVM.DDP.MetaTBManifest.Metric metric = new AVM.DDP.MetaTBManifest.Metric();
metric.Name = item.Name.Trim();
metric.Unit = (item.Impl as MgaReference).Referred == null ?
string.Empty :
(item.Impl as MgaReference).Referred.Name;
// TODO: add the displayed name
metric.Value = item.Attributes.Value;
metric.ID = item.Guid.ToString();
metric.GMEID = item.ID;
metric.Description = item.Attributes.Description;
this.Metrics.Add(metric);
}
foreach (var item in testBenchType.Children.ParameterCollection)
{
if (shouldUpdate)
{
var oldData = this.Parameters.FirstOrDefault(x => x.ID == item.Guid.ToString());
if (oldData != null)
{
this.Parameters.Remove(oldData);
}
}
AVM.DDP.MetaTBManifest.Parameter parameter = new AVM.DDP.MetaTBManifest.Parameter();
parameter.Name = item.Name;
parameter.Unit = (item.Impl as MgaReference).Referred == null ?
string.Empty :
(item.Impl as MgaReference).Referred.Name;
parameter.Description = item.Attributes.Description;
parameter.GMEID = item.ID;
parameter.ID = item.Guid.ToString();
parameter.Range = item.Attributes.Range;
parameter.Value = item.Attributes.Value;
this.Parameters.Add(parameter);
}
foreach (var item in testBenchType.Children.FileInputCollection)
{
if (shouldUpdate)
{
var oldData = this.FileInputs.FirstOrDefault(x => x.Name == item.Name);
if (oldData != null)
{
this.FileInputs.Remove(oldData);
}
}
AVM.DDP.MetaTBManifest.FileInput fileInput = new AVM.DDP.MetaTBManifest.FileInput();
fileInput.Name = item.Name;
fileInput.FileName = item.Attributes.FileName != "" ? item.Attributes.FileName : fileInput.Name;
this.FileInputs.Add(fileInput);
}
foreach (var item in testBenchType.Children.FileOutputCollection)
{
if (shouldUpdate)
{
var oldData = this.FileOutputs.FirstOrDefault(x => x.Name == item.Name);
if (oldData != null)
{
this.FileOutputs.Remove(oldData);
}
}
AVM.DDP.MetaTBManifest.FileOutput fileOutput = new AVM.DDP.MetaTBManifest.FileOutput();
fileOutput.Name = item.Name;
fileOutput.FileName = item.Attributes.FileName != "" ? item.Attributes.FileName : item.Name;
this.FileOutputs.Add(fileOutput);
}
// get designID
string designID = null;
var tlsut = testBenchType.Children.TopLevelSystemUnderTestCollection.FirstOrDefault();
var catlsut = testBenchType.Children.ComponentAssemblyCollection.FirstOrDefault();
if (tlsut != null)
{
// if it is a reference
if (tlsut.Referred.DesignEntity != null)
{
designID = tlsut.Referred.DesignEntity.Properties.Guid.ToString("B");
if (tlsut.Referred.DesignEntity is CyPhy.ComponentAssembly)
{
catlsut = tlsut.Referred.ComponentAssembly;
var cid = catlsut.Attributes.ConfigurationUniqueID;
//this.ConfigurationUniqueID = cid;
if (string.IsNullOrWhiteSpace(cid))
{
cid = Guid.NewGuid().ToString("B");
catlsut.Attributes.ConfigurationUniqueID = cid;
}
if (!string.IsNullOrEmpty(cid))
{
try
{
Guid guid = new Guid(cid);
designID = guid.ToString("B");
}
catch (System.FormatException ex)
{
Trace.TraceError("{0} is not a vaild GUID.", cid);
Trace.TraceError(ex.ToString());
}
}
}
}
}
else if (catlsut != null)
{
// if it is an instance
var cid = catlsut.Attributes.ConfigurationUniqueID;
if (!string.IsNullOrEmpty(cid))
{
Guid guid = new Guid(cid);
designID = guid.ToString("B");
}
}
// this.CopyTestResults = testBench.Attributes.CopyResults;
this.DesignID = designID;
}
}
static int Main(string[] args)
{
if (args.Length != 1)
{
Usage();
return(-1);
}
// Parse arguments
MfgBom.CostEstimation.CostEstimationRequest request;
AVM.DDP.MetaTBManifest manifest;
String pathResultsFolder;
var result = ParseArgs(args, out request, out manifest, out pathResultsFolder);
if (result != 0)
{
return(result);
}
CostEstimationResult estimationResult;
try
{
// Process costing request
estimationResult = MfgBom.CostEstimation.Estimation.ProcessRequest(request);
}
catch (OctopartQueryException e)
{
Console.Error.WriteLine(e.Message);
return(2);
}
// Dump result to JSON
var pathResult = Path.Combine(pathResultsFolder,
"CostEstimationResults.json");
using (StreamWriter outfile = new StreamWriter(pathResult))
{
outfile.Write(estimationResult.Serialize());
}
var artifactResult = new AVM.DDP.MetaTBManifest.Artifact()
{
Location = "CostEstimationResults.json",
Tag = "BomCostAnalysis::CostEstimationResults"
};
manifest.Artifacts.Add(artifactResult);
// Populate manifest metrics
var metricCost = manifest.Metrics.FirstOrDefault(m => m.Name == "part_cost_per_design");
if (metricCost == null)
{
metricCost = new AVM.DDP.MetaTBManifest.Metric()
{
Name = "part_cost_per_design",
DisplayedName = "Part Cost Per Design",
Unit = "USD",
GMEID = null
};
if (manifest.Metrics == null)
{
manifest.Metrics = new List <AVM.DDP.MetaTBManifest.Metric>();
}
manifest.Metrics.Add(metricCost);
}
metricCost.Value = estimationResult.per_design_parts_cost.ToString();
// Save UserBomTable
var ubt = MfgBom.Converters.CostEstResult2UserBomTable.Convert(estimationResult);
var pathUbt = Path.Combine(pathResultsFolder,
"BomTable.csv");
using (StreamWriter outfile = new StreamWriter(pathUbt))
{
outfile.Write(ubt.ToCsv());
}
// Also save it as HTML, for MOT-335
var pathBomHtml = Path.Combine(pathResultsFolder,
"BomTable.html");
using (StreamWriter outfile = new StreamWriter(pathBomHtml))
{
outfile.Write(ubt.ToHtml()); // MOT-335
}
var artifactUbt = new AVM.DDP.MetaTBManifest.Artifact()
{
Location = "BomTable.csv",
Tag = "BomCostAnalysis::BomTable"
};
manifest.Artifacts.Add(artifactUbt);
// Save manifest changes
manifest.Serialize();
return(0);
}
public void MakeManifest(
CyPhy.TestBenchType testBench,
string outputDir = "",
bool update = true)
{
Contract.Requires(testBench != null);
string fullPathFileName = Path.Combine(outputDir, TESTBENCH_FILENAME);
bool shouldUpdate = false;
if (update && System.IO.File.Exists(fullPathFileName))
{
MetaTBManifest oldManifest = Deserialize(fullPathFileName);
this.CopyManifest(oldManifest);
shouldUpdate = true;
}
this.TestBench = string.IsNullOrEmpty((testBench.Impl as MgaFCO).RegistryValue["TestBenchUniqueName"]) ?
testBench.Name :
(testBench.Impl as MgaFCO).RegistryValue["TestBenchUniqueName"];
this.Created = DateTime.UtcNow.ToString("o");
if (testBench is CyPhy.BallisticTestBench)
{
this.TierLevel = (int)(testBench as CyPhy.BallisticTestBench).Attributes.Tier;
}
foreach (var item in testBench.Children.MetricCollection)
{
if (shouldUpdate)
{
var oldData = this.Metrics.FirstOrDefault(x => x.ID == item.Guid.ToString());
if (oldData != null)
{
this.Metrics.Remove(oldData);
}
}
AVM.DDP.MetaTBManifest.Metric metric = new AVM.DDP.MetaTBManifest.Metric();
metric.Name = item.Name.Trim();
metric.Unit = (item.Impl as MgaReference).Referred == null ?
string.Empty :
(item.Impl as MgaReference).Referred.Name;
// TODO: add the displayed name
metric.Value = item.Attributes.Value;
metric.ID = item.Guid.ToString();
metric.GMEID = item.ID;
metric.Description = item.Attributes.Description;
this.Metrics.Add(metric);
}
foreach (var item in testBench.Children.ParameterCollection)
{
if (shouldUpdate)
{
var oldData = this.Parameters.FirstOrDefault(x => x.ID == item.Guid.ToString());
if (oldData != null)
{
this.Parameters.Remove(oldData);
}
}
AVM.DDP.MetaTBManifest.Parameter parameter = new AVM.DDP.MetaTBManifest.Parameter();
parameter.Name = item.Name;
parameter.Unit = (item.Impl as MgaReference).Referred == null ?
string.Empty :
(item.Impl as MgaReference).Referred.Name;
parameter.Description = item.Attributes.Description;
parameter.GMEID = item.ID;
parameter.ID = item.Guid.ToString();
parameter.Range = item.Attributes.Range;
parameter.Value = item.Attributes.Value;
this.Parameters.Add(parameter);
}
// FIX ME: put design name here...
this.DesignName = testBench.Name;
// get designID
string designID = null;
var tlsut = testBench.Children.TopLevelSystemUnderTestCollection.FirstOrDefault();
var catlsut = testBench.Children.ComponentAssemblyCollection.FirstOrDefault();
if (tlsut != null)
{
// if it is a reference
if (tlsut.Referred.DesignEntity != null)
{
designID = tlsut.Referred.DesignEntity.Properties.Guid.ToString("B");
if (tlsut.Referred.DesignEntity is CyPhy.ComponentAssembly)
{
catlsut = tlsut.Referred.ComponentAssembly;
var cid = catlsut.Attributes.ConfigurationUniqueID;
//this.ConfigurationUniqueID = cid;
if (string.IsNullOrWhiteSpace(cid))
{
cid = Guid.NewGuid().ToString("B");
catlsut.Attributes.ConfigurationUniqueID = cid;
}
if (!string.IsNullOrEmpty(cid))
{
try
{
Guid guid = new Guid(cid);
designID = guid.ToString("B");
}
catch (System.FormatException ex)
{
Trace.TraceError("{0} is not a vaild GUID.", cid);
Trace.TraceError(ex.ToString());
}
}
}
}
}
else if (catlsut != null)
{
// if it is an instance
var cid = catlsut.Attributes.ConfigurationUniqueID;
if (!string.IsNullOrEmpty(cid))
{
Guid guid = new Guid(cid);
designID = guid.ToString("B");
}
}
// this.CopyTestResults = testBench.Attributes.CopyResults;
this.DesignID = designID;
}
static int ProcessNF2FF(string inputFileName)
{
// Constants
XElement xDoc = XElement.Load(inputFileName);
double f0 = Convert.ToDouble(xDoc.Element("FDTD").Element("Excitation").Attribute("f0").Value);
var leQuery = from xe in xDoc.Element("ContinuousStructure").Element("Properties").Elements("LumpedElement")
where xe.Attribute("Name").Value.Contains("resist")
select xe;
double r = Convert.ToDouble(leQuery.First().Attribute("R").Value);
// Port calculations
double[] freqs = Utility.LinearSpace(f0 / 2, f0 * 3 / 2, 501);
var antennaPort = new LumpedPort(0, 1, r, new Vector3D(-10, -1, -1), new Vector3D(10, 1, 1), ENormDir.X, true);
antennaPort.ReadResults(freqs);
double Pin_f0 = antennaPort.GetPFdInAt(f0);
// NF2FF
var nf2ff = new Postprocess.NF2FF(f0);
try
{
nf2ff.ReadHDF5Result();
nf2ff.ToVTK(fileName: "directivity_pattern.vtk");
Console.WriteLine("Radiated power: {0,15:e4} W", nf2ff.RadiatedPower);
Console.WriteLine("Directivity (max): {0,15:e4} dBi", 10.0 * Math.Log10(nf2ff.Directivity));
var manifest = AVM.DDP.MetaTBManifest.OpenForUpdate(manifestPath);
// Initialize Metrics list if necessary
if (manifest.Metrics == null)
{
manifest.Metrics = new List <AVM.DDP.MetaTBManifest.Metric>();
}
// Look for existing metric. Create a new one if not found.
string metricName = "Directivity";
AVM.DDP.MetaTBManifest.Metric metric = manifest.Metrics.FirstOrDefault(m => m.Name.Equals(metricName));
if (metric == null)
{
metric = new AVM.DDP.MetaTBManifest.Metric()
{
Name = metricName
};
manifest.Metrics.Add(metric);
}
// Set metric attributes
metric.DisplayedName = "Antenna directivity";
metric.Description = "Antenna directivity.";
metric.Unit = "dBi";
metric.Value = String.Format("{0:e4}", 10.0 * Math.Log10(nf2ff.Directivity));
manifest.Serialize(manifestPath);
}
catch (Exception e)
{
Console.Error.WriteLine("Error reading far-field results: {0}", e);
return(5);
}
return(0);
}
static void ProcessSAR(string inputFileName)
{
// Constants
XElement xDoc = XElement.Load(inputFileName);
double f0 = Convert.ToDouble(xDoc.Element("FDTD").Element("Excitation").Attribute("f0").Value);
var leQuery = from xe in xDoc.Element("ContinuousStructure").Element("Properties").Elements("LumpedElement")
where xe.Attribute("Name").Value.Contains("resist")
select xe;
double r = Convert.ToDouble(leQuery.First().Attribute("R").Value);
// Port calculations
double[] freqs = Utility.LinearSpace(f0 / 2, f0 * 3 / 2, 501);
var lumpedPort = new LumpedPort(0, 1, r, new Vector3D(-10, -1, -1), new Vector3D(10, 1, 1), ENormDir.X, true);
lumpedPort.ReadResults(freqs);
double Pin_f0 = lumpedPort.GetPFdInAt(f0);
Console.WriteLine();
// SAR
string sarFileName = @"SAR.h5";
var sarDump = new Postprocess.SAR(sarFileName);
double totalPower = HDF5.ReadAttribute(sarFileName, @"/FieldData/FD/f0", "power");
Console.WriteLine("Field maximum: {0:e4}", sarDump.MaxValue);
Console.WriteLine("Field maximum location: ({0})", String.Join(",", sarDump.MaxCoordinates.Select(x => String.Format("{0:f2}", x))));
Console.WriteLine("Exporting SAR dump slices to PNG files...");
string filenameSarX = "SAR-X.png";
string filenameSarY = "SAR-Y.png";
string filenameSarZ = "SAR-Z.png";
sarDump.ToPNG(filenameSarX, Postprocess.SAR.ENormDir.X, sarDump.MaxCoordinates[0]);
sarDump.ToPNG(filenameSarY, Postprocess.SAR.ENormDir.Y, sarDump.MaxCoordinates[1]);
sarDump.ToPNG(filenameSarZ, Postprocess.SAR.ENormDir.Z, sarDump.MaxCoordinates[2]);
Console.WriteLine("Exporting SAR to VTK file...");
sarDump.ToVTK(inputFileName);
// NF2FF
Console.WriteLine("Calculating antenna parameters...");
var nf2ff = new Postprocess.NF2FF(f0);
try
{
nf2ff.ReadHDF5Result();
Console.WriteLine("Maximum SAR: {0:f3} W/kg (normalized to 1 W accepted power)", sarDump.MaxValue / Pin_f0);
Console.WriteLine("Accepted power: {0:e4} W", Pin_f0);
Console.WriteLine("Radiated power: {0:e4} W", nf2ff.RadiatedPower);
Console.WriteLine("Absorbed power: {0:e4} W", totalPower);
Console.WriteLine("Power budget: {0:f3} %", 100 * (nf2ff.RadiatedPower + totalPower) / Pin_f0);
Console.WriteLine("Populating manifest file...");
var manifest = AVM.DDP.MetaTBManifest.OpenForUpdate(manifestPath);
// Initialize Metrics list if necessary
if (manifest.Metrics == null)
{
manifest.Metrics = new List <AVM.DDP.MetaTBManifest.Metric>();
}
// Look for existing metric. Create a new one if not found.
string metricName = "SAR_max";
AVM.DDP.MetaTBManifest.Metric metric = manifest.Metrics.FirstOrDefault(m => m.Name.Equals(metricName));
if (metric == null)
{
metric = new AVM.DDP.MetaTBManifest.Metric()
{
Name = metricName
};
manifest.Metrics.Add(metric);
}
// Set metric attributes
metric.DisplayedName = "SAR maximum";
metric.Description = "Maximum Specific Absorption Ratio (SAR) averaged over volumes containing 1 gram of tissue.";
metric.Unit = "W/kg";
metric.Value = String.Format("{0:e4}", sarDump.MaxValue / Pin_f0);
metric.VisualizationArtifacts = new List <AVM.DDP.MetaTBManifest.Artifact>();
metric.VisualizationArtifacts.Add(new AVM.DDP.MetaTBManifest.Artifact()
{
Location = filenameSarX, Tag = "CyPhy2RF::SAR::X"
});
metric.VisualizationArtifacts.Add(new AVM.DDP.MetaTBManifest.Artifact()
{
Location = filenameSarY, Tag = "CyPhy2RF::SAR::Y"
});
metric.VisualizationArtifacts.Add(new AVM.DDP.MetaTBManifest.Artifact()
{
Location = filenameSarZ, Tag = "CyPhy2RF::SAR::Z"
});
manifest.Serialize(manifestPath);
}
catch (Exception e)
{
Console.Error.WriteLine("Error reading far-field results: {0}", e);
}
}
/// <summary>
/// No GUI and interactive elements are allowed within this function.
/// </summary>
/// <param name="parameters">Main parameters for this run and GUI configuration.</param>
/// <returns>Result of the run, which contains a success flag.</returns>
public IInterpreterResult Main(IInterpreterMainParameters parameters)
{
this.mainParameters = parameters;
//this.runtime = new Queue<Tuple<string, TimeSpan>>();
//this.runtime.Clear();
this.result = new InterpreterResult()
{
Success = true
};
try
{
BOMVisitor visitor = new BOMVisitor()
{
Logger = Logger,
Traceability = this.result.Traceability
};
String nameFCO = null;
int designQuantity = 1;
List<String> listSupplierAffinity = null;
MgaGateway.PerformInTransaction(delegate
{
// Call Elaborator
var elaboratorSuccess = this.CallElaborator(this.mainParameters.Project,
this.mainParameters.CurrentFCO,
this.mainParameters.SelectedFCOs,
this.mainParameters.StartModeParam);
this.UpdateSuccess("Elaborator", elaboratorSuccess);
// Parse design
var tb = CyPhyClasses.TestBench.Cast(parameters.CurrentFCO);
visitor.visit(tb);
nameFCO = this.mainParameters.CurrentFCO.Name;
var propDesignQuantity = tb.Children
.PropertyCollection
.FirstOrDefault(p => p.Name == "design_quantity");
if (propDesignQuantity != null)
{
int val;
if (int.TryParse(propDesignQuantity.Attributes.Value, out val))
{
designQuantity = val;
}
else
{
Logger.WriteWarning("The property <a href=\"mga:{0}\">{1}</a> has a non-integer value of \"{2}\". Setting to default of 1.",
propDesignQuantity.ID,
propDesignQuantity.Name,
propDesignQuantity.Attributes.Value);
}
}
else
{
Logger.WriteWarning("No property named \"design_quantity\" found. Assuming quantity of 1.");
}
var metricPartCostPerDesign = tb.Children
.MetricCollection
.FirstOrDefault(m => m.Name == "part_cost_per_design");
if (metricPartCostPerDesign == null)
{
var manifest = AVM.DDP.MetaTBManifest.OpenForUpdate(this.mainParameters.OutputDirectory);
var metric = new AVM.DDP.MetaTBManifest.Metric()
{
Name = "part_cost_per_design",
DisplayedName = "Part Cost Per Design",
Unit = "USD",
GMEID = null
};
if (manifest.Metrics == null)
{
manifest.Metrics = new List<AVM.DDP.MetaTBManifest.Metric>();
}
manifest.Metrics.Add(metric);
manifest.Serialize(this.mainParameters.OutputDirectory);
}
var propSupplierAffinity = tb.Children
.PropertyCollection
.FirstOrDefault(p => p.Name == "supplier_affinity");
if (propSupplierAffinity != null &&
!String.IsNullOrWhiteSpace(propSupplierAffinity.Attributes.Value))
{
listSupplierAffinity = propSupplierAffinity.Attributes
.Value
.Split(',')
.Select(s => s.Trim())
.ToList();
}
},
transactiontype_enum.TRANSACTION_NON_NESTED,
abort: true);
// Serialize BOM to file
var bom = visitor.bom;
var filenameBom = nameFCO + "_bom.json";
var pathBom = Path.Combine(this.mainParameters.OutputDirectory,
filenameBom);
using (StreamWriter outfile = new StreamWriter(pathBom))
{
outfile.Write(bom.Serialize());
}
// Create CostEstimationRequest
var request = new MfgBom.CostEstimation.CostEstimationRequest()
{
bom = bom,
design_quantity = designQuantity,
supplier_affinity = listSupplierAffinity
};
var filenameRequest = nameFCO + "_cost_estimate_request.json";
var pathRequest = Path.Combine(this.mainParameters.OutputDirectory,
filenameRequest);
using (StreamWriter outfile = new StreamWriter(pathRequest))
{
outfile.Write(request.Serialize());
}
var tbManifest = AVM.DDP.MetaTBManifest.OpenForUpdate(this.mainParameters.OutputDirectory);
tbManifest.AddArtifact(filenameBom, "CyPhy2MfgBom::BOM");
tbManifest.AddArtifact(filenameRequest, "CyPhy2MfgBom::CostEstimationRequest");
tbManifest.Serialize(this.mainParameters.OutputDirectory);
using (var batRunBomCostAnalysis = new StreamWriter(Path.Combine(this.mainParameters.OutputDirectory,
"runBomCostAnalysis.bat")))
{
batRunBomCostAnalysis.Write(CyPhy2MfgBom.Properties.Resources.runBomCostAnalysis);
}
this.result.RunCommand = "runBomCostAnalysis.bat";
if (this.result.Success)
{
Logger.WriteInfo("Generated files are here: <a href=\"file:///{0}\" target=\"_blank\">{0}</a>", this.mainParameters.OutputDirectory);
Logger.WriteInfo("CyPhy2MfgBom has finished. [SUCCESS: {0}, Labels: {1}]", this.result.Success, this.result.Labels);
}
else
{
Logger.WriteError("CyPhy2MfgBom failed! See error messages above.");
}
}
catch (Exception ex)
{
Logger.WriteError("Exception: {0}<br> {1}", ex.Message, ex.StackTrace);
}
return this.result;
}
static int Main(string[] args)
{
if (args.Length != 1)
{
Usage();
return -1;
}
// Parse arguments
MfgBom.CostEstimation.CostEstimationRequest request;
AVM.DDP.MetaTBManifest manifest;
String pathResultsFolder;
var result = ParseArgs(args, out request, out manifest, out pathResultsFolder);
if (result != 0)
{
return result;
}
// Process costing request
var estimationResult = MfgBom.CostEstimation.Estimation.ProcessRequest(request);
// Dump result to JSON
var pathResult = Path.Combine(pathResultsFolder,
"CostEstimationResults.json");
using (StreamWriter outfile = new StreamWriter(pathResult))
{
outfile.Write(estimationResult.Serialize());
}
var artifactResult = new AVM.DDP.MetaTBManifest.Artifact()
{
Location = "CostEstimationResults.json",
Tag = "BomCostAnalysis::CostEstimationResults"
};
manifest.Artifacts.Add(artifactResult);
// Populate manifest metrics
var metricCost = manifest.Metrics.FirstOrDefault(m => m.Name == "part_cost_per_design");
if (metricCost == null)
{
metricCost = new AVM.DDP.MetaTBManifest.Metric()
{
Name = "part_cost_per_design",
DisplayedName = "Part Cost Per Design",
Unit = "USD",
GMEID = null
};
if (manifest.Metrics == null)
{
manifest.Metrics = new List<AVM.DDP.MetaTBManifest.Metric>();
}
manifest.Metrics.Add(metricCost);
}
metricCost.Value = estimationResult.per_design_parts_cost.ToString();
// Save UserBomTable
var ubt = MfgBom.Converters.CostEstResult2UserBomTable.Convert(estimationResult);
var pathUbt = Path.Combine(pathResultsFolder,
"BomTable.csv");
using (StreamWriter outfile = new StreamWriter(pathUbt))
{
outfile.Write(ubt.ToCsv());
}
// Also save it as HTML, for MOT-335
var pathBomHtml = Path.Combine(pathResultsFolder,
"BomTable.html");
using (StreamWriter outfile = new StreamWriter(pathBomHtml))
{
outfile.Write(ubt.ToHtml()); // MOT-335
}
var artifactUbt = new AVM.DDP.MetaTBManifest.Artifact()
{
Location = "BomTable.csv",
Tag = "BomCostAnalysis::BomTable"
};
manifest.Artifacts.Add(artifactUbt);
// Save manifest changes
manifest.Serialize();
return 0;
}
static void ProcessSAR(string inputFileName)
{
// Constants
XElement xDoc = XElement.Load(inputFileName);
double f0 = Convert.ToDouble(xDoc.Element("FDTD").Element("Excitation").Attribute("f0").Value);
var leQuery = from xe in xDoc.Element("ContinuousStructure").Element("Properties").Elements("LumpedElement")
where xe.Attribute("Name").Value.Contains("resist")
select xe;
double r = Convert.ToDouble(leQuery.First().Attribute("R").Value);
// Port calculations
double[] freqs = Utility.LinearSpace(f0 / 2, f0 * 3 / 2, 501);
var lumpedPort = new LumpedPort(0, 1, r, new Vector3D(-10, -1, -1), new Vector3D(10, 1, 1), ENormDir.X, true);
lumpedPort.ReadResults(freqs);
double Pin_f0 = lumpedPort.GetPFdInAt(f0);
Console.WriteLine();
// SAR
string sarFileName = @"SAR.h5";
var sarDump = new Postprocess.SAR(sarFileName);
double totalPower = HDF5.ReadAttribute(sarFileName, @"/FieldData/FD/f0", "power");
Console.WriteLine("Field maximum: {0:e4}", sarDump.MaxValue);
Console.WriteLine("Field maximum location: ({0})", String.Join(",", sarDump.MaxCoordinates.Select(x => String.Format("{0:f2}", x))));
Console.WriteLine("Exporting SAR dump slices to PNG files...");
string filenameSarX = "SAR-X.png";
string filenameSarY = "SAR-Y.png";
string filenameSarZ = "SAR-Z.png";
sarDump.ToPNG(filenameSarX, Postprocess.SAR.ENormDir.X, sarDump.MaxCoordinates[0]);
sarDump.ToPNG(filenameSarY, Postprocess.SAR.ENormDir.Y, sarDump.MaxCoordinates[1]);
sarDump.ToPNG(filenameSarZ, Postprocess.SAR.ENormDir.Z, sarDump.MaxCoordinates[2]);
Console.WriteLine("Exporting SAR to VTK file...");
sarDump.ToVTK(inputFileName);
// NF2FF
Console.WriteLine("Calculating antenna parameters...");
var nf2ff = new Postprocess.NF2FF(f0);
try
{
nf2ff.ReadHDF5Result();
Console.WriteLine("Maximum SAR: {0:f3} W/kg (normalized to 1 W accepted power)", sarDump.MaxValue / Pin_f0);
Console.WriteLine("Accepted power: {0:e4} W", Pin_f0);
Console.WriteLine("Radiated power: {0:e4} W", nf2ff.RadiatedPower);
Console.WriteLine("Absorbed power: {0:e4} W", totalPower);
Console.WriteLine("Power budget: {0:f3} %", 100 * (nf2ff.RadiatedPower + totalPower) / Pin_f0);
Console.WriteLine("Populating manifest file...");
var manifest = AVM.DDP.MetaTBManifest.OpenForUpdate(manifestPath);
// Initialize Metrics list if necessary
if (manifest.Metrics == null)
{
manifest.Metrics = new List<AVM.DDP.MetaTBManifest.Metric>();
}
// Look for existing metric. Create a new one if not found.
string metricName = "SAR_max";
AVM.DDP.MetaTBManifest.Metric metric = manifest.Metrics.FirstOrDefault(m => m.Name.Equals(metricName));
if (metric == null)
{
metric = new AVM.DDP.MetaTBManifest.Metric()
{
Name = metricName
};
manifest.Metrics.Add(metric);
}
// Set metric attributes
metric.DisplayedName = "SAR maximum";
metric.Description = "Maximum Specific Absorption Ratio (SAR) averaged over volumes containing 1 gram of tissue.";
metric.Unit = "W/kg";
metric.Value = String.Format("{0:e4}", sarDump.MaxValue / Pin_f0);
metric.VisualizationArtifacts = new List<AVM.DDP.MetaTBManifest.Artifact>();
metric.VisualizationArtifacts.Add(new AVM.DDP.MetaTBManifest.Artifact() { Location = filenameSarX, Tag = "CyPhy2RF::SAR::X" });
metric.VisualizationArtifacts.Add(new AVM.DDP.MetaTBManifest.Artifact() { Location = filenameSarY, Tag = "CyPhy2RF::SAR::Y" });
metric.VisualizationArtifacts.Add(new AVM.DDP.MetaTBManifest.Artifact() { Location = filenameSarZ, Tag = "CyPhy2RF::SAR::Z" });
manifest.Serialize(manifestPath);
}
catch (Exception e)
{
Console.Error.WriteLine("Error reading far-field results: {0}", e);
}
}
static void ProcessNF2FF(string inputFileName)
{
// Constants
XElement xDoc = XElement.Load(inputFileName);
double f0 = Convert.ToDouble(xDoc.Element("FDTD").Element("Excitation").Attribute("f0").Value);
var leQuery = from xe in xDoc.Element("ContinuousStructure").Element("Properties").Elements("LumpedElement")
where xe.Attribute("Name").Value.Contains("resist")
select xe;
double r = Convert.ToDouble(leQuery.First().Attribute("R").Value);
// Port calculations
double[] freqs = Utility.LinearSpace(f0 / 2, f0 * 3 / 2, 501);
var antennaPort = new LumpedPort(0, 1, r, new Vector3D(-10, -1, -1), new Vector3D(10, 1, 1), ENormDir.X, true);
antennaPort.ReadResults(freqs);
double Pin_f0 = antennaPort.GetPFdInAt(f0);
// NF2FF
var nf2ff = new Postprocess.NF2FF(f0);
try
{
nf2ff.ReadHDF5Result();
nf2ff.ToVTK(fileName: "directivity_pattern.vtk");
Console.WriteLine("Radiated power: {0,15:e4} W", nf2ff.RadiatedPower);
Console.WriteLine("Directivity (max): {0,15:e4} dBi", 10.0*Math.Log10(nf2ff.Directivity));
var manifest = AVM.DDP.MetaTBManifest.OpenForUpdate(manifestPath);
// Initialize Metrics list if necessary
if (manifest.Metrics == null)
{
manifest.Metrics = new List<AVM.DDP.MetaTBManifest.Metric>();
}
// Look for existing metric. Create a new one if not found.
string metricName = "Directivity";
AVM.DDP.MetaTBManifest.Metric metric = manifest.Metrics.FirstOrDefault(m => m.Name.Equals(metricName));
if (metric == null)
{
metric = new AVM.DDP.MetaTBManifest.Metric()
{
Name = metricName
};
manifest.Metrics.Add(metric);
}
// Set metric attributes
metric.DisplayedName = "Antenna directivity";
metric.Description = "Antenna directivity.";
metric.Unit = "dBi";
metric.Value = String.Format("{0:e4}", 10.0 * Math.Log10(nf2ff.Directivity));
manifest.Serialize(manifestPath);
}
catch (Exception e)
{
Console.Error.WriteLine("Error reading far-field results: {0}", e);
}
}
private IInterpreterResult _Main(IInterpreterMainParameters parameters)
{
this.mainParameters = parameters;
//this.runtime = new Queue<Tuple<string, TimeSpan>>();
//this.runtime.Clear();
this.result = new InterpreterResult()
{
Success = true
};
try
{
BOMVisitor visitor = new BOMVisitor()
{
Logger = Logger,
Traceability = this.result.Traceability
};
String nameFCO = null;
int designQuantity = 1;
List <String> listSupplierAffinity = null;
MgaGateway.PerformInTransaction(delegate
{
// Call Elaborator
var elaboratorSuccess = this.CallElaborator(this.mainParameters.Project,
this.mainParameters.CurrentFCO,
this.mainParameters.SelectedFCOs,
this.mainParameters.StartModeParam);
this.UpdateSuccess("Elaborator", elaboratorSuccess);
// Parse design
var tb = CyPhyClasses.TestBench.Cast(parameters.CurrentFCO);
visitor.visit(tb);
nameFCO = this.mainParameters.CurrentFCO.Name;
var propDesignQuantity = tb.Children
.PropertyCollection
.FirstOrDefault(p => p.Name == "design_quantity");
if (propDesignQuantity != null)
{
int val;
if (int.TryParse(propDesignQuantity.Attributes.Value, out val))
{
designQuantity = val;
}
else
{
Logger.WriteWarning("The property <a href=\"mga:{0}\">{1}</a> has a non-integer value of \"{2}\". Setting to default of 1.",
propDesignQuantity.ID,
propDesignQuantity.Name,
propDesignQuantity.Attributes.Value);
}
}
else
{
Logger.WriteWarning("No property named \"design_quantity\" found. Assuming quantity of 1.");
}
var metricPartCostPerDesign = tb.Children
.MetricCollection
.FirstOrDefault(m => m.Name == "part_cost_per_design");
if (metricPartCostPerDesign == null)
{
var manifest = AVM.DDP.MetaTBManifest.OpenForUpdate(this.mainParameters.OutputDirectory);
var metric = new AVM.DDP.MetaTBManifest.Metric()
{
Name = "part_cost_per_design",
DisplayedName = "Part Cost Per Design",
Unit = "USD",
GMEID = null
};
if (manifest.Metrics == null)
{
manifest.Metrics = new List <AVM.DDP.MetaTBManifest.Metric>();
}
manifest.Metrics.Add(metric);
manifest.Serialize(this.mainParameters.OutputDirectory);
}
var propSupplierAffinity = tb.Children
.PropertyCollection
.FirstOrDefault(p => p.Name == "supplier_affinity");
if (propSupplierAffinity != null &&
!String.IsNullOrWhiteSpace(propSupplierAffinity.Attributes.Value))
{
listSupplierAffinity = propSupplierAffinity.Attributes
.Value
.Split(',')
.Select(s => s.Trim())
.ToList();
}
},
transactiontype_enum.TRANSACTION_NON_NESTED,
abort: true);
// Serialize BOM to file
var bom = visitor.bom;
var filenameBom = nameFCO + "_bom.json";
var pathBom = Path.Combine(this.mainParameters.OutputDirectory,
filenameBom);
using (StreamWriter outfile = new StreamWriter(pathBom))
{
outfile.Write(bom.Serialize());
}
// Create CostEstimationRequest
var request = new MfgBom.CostEstimation.CostEstimationRequest()
{
bom = bom,
design_quantity = designQuantity,
supplier_affinity = listSupplierAffinity
};
var filenameRequest = nameFCO + "_cost_estimate_request.json";
var pathRequest = Path.Combine(this.mainParameters.OutputDirectory,
filenameRequest);
using (StreamWriter outfile = new StreamWriter(pathRequest))
{
outfile.Write(request.Serialize());
}
var tbManifest = AVM.DDP.MetaTBManifest.OpenForUpdate(this.mainParameters.OutputDirectory);
tbManifest.AddArtifact(filenameBom, "CyPhy2MfgBom::BOM");
tbManifest.AddArtifact(filenameRequest, "CyPhy2MfgBom::CostEstimationRequest");
tbManifest.Serialize(this.mainParameters.OutputDirectory);
using (var batRunBomCostAnalysis = new StreamWriter(Path.Combine(this.mainParameters.OutputDirectory,
"runBomCostAnalysis.bat")))
{
batRunBomCostAnalysis.Write(CyPhy2MfgBom.Properties.Resources.runBomCostAnalysis);
}
this.result.RunCommand = "runBomCostAnalysis.bat";
if (this.result.Success)
{
Logger.WriteInfo("Generated files are here: <a href=\"file:///{0}\" target=\"_blank\">{0}</a>", this.mainParameters.OutputDirectory);
Logger.WriteInfo("CyPhy2MfgBom has finished. [SUCCESS: {0}, Labels: {1}]", this.result.Success, this.result.Labels);
}
else
{
Logger.WriteError("CyPhy2MfgBom failed! See error messages above.");
}
}
catch (Exception ex)
{
Logger.WriteError("Exception: {0}<br> {1}", ex.Message, ex.StackTrace);
}
return(this.result);
}
