static void Main(string[] args)
{
SolidEdgeFramework.Application application = null;
try
{
OleMessageFilter.Register();
application = SolidEdgeUtils.Connect();
var assemblyDocument = application.GetActiveDocument<SolidEdgeAssembly.AssemblyDocument>(false);
// Optional settings you may tweak for performance improvements. Results may vary.
application.DelayCompute = true;
application.DisplayAlerts = false;
application.Interactive = false;
application.ScreenUpdating = false;
if (assemblyDocument != null)
{
var rootItem = new DocumentItem();
rootItem.FileName = assemblyDocument.FullName;
// Begin the recurisve extraction process.
PopulateDocumentItems(assemblyDocument.Occurrences, rootItem);
// Write each DocumentItem to console.
foreach (var documentItem in rootItem.AllDocumentItems)
{
Console.WriteLine(documentItem.FileName);
}
// Demonstration of how to save the BOM to various formats.
// Convert the document items to JSON.
string json = Newtonsoft.Json.JsonConvert.SerializeObject(rootItem, Newtonsoft.Json.Formatting.Indented);
}
}
catch (System.Exception ex)
{
Console.WriteLine(ex.Message);
}
finally
{
if (application != null)
{
application.DelayCompute = false;
application.DisplayAlerts = true;
application.Interactive = true;
application.ScreenUpdating = true;
}
OleMessageFilter.Unregister();
}
}
static void PopulateDocumentItems(SolidEdgeAssembly.SubOccurrences subOccurrences, DocumentItem parentItem)
{
foreach (SolidEdgeAssembly.SubOccurrence subOccurrence in subOccurrences)
{
var occurrenceItem = new DocumentItem(subOccurrence);
// Make sure the DocumentItem hasn't already been added.
if (parentItem.DocumentItems.Contains(occurrenceItem) == false)
{
parentItem.DocumentItems.Add(occurrenceItem);
if (subOccurrence.SubOccurrences != null)
{
PopulateDocumentItems(subOccurrence.SubOccurrences, occurrenceItem);
}
}
}
}
static void PopulateDocumentItems(SolidEdgeAssembly.SubOccurrences subOccurrences, DocumentItem parentItem)
{
foreach (SolidEdgeAssembly.SubOccurrence subOccurrence in subOccurrences)
{
var occurrenceItem = new DocumentItem(subOccurrence);
// Make sure the DocumentItem hasn't already been added.
if (parentItem.DocumentItems.Contains(occurrenceItem) == false)
{
parentItem.DocumentItems.Add(occurrenceItem);
if (subOccurrence.SubOccurrences != null)
{
PopulateDocumentItems(subOccurrence.SubOccurrences, occurrenceItem);
}
}
}
}
static void Main(string[] args)
{
//string fileToOpen = @"C:\Users\wttcpchang\Downloads\3D CAD\03-22811_A~A.ASM";
XmlWriterSettings settings = new XmlWriterSettings();
settings.Indent = true;
settings.IndentChars = " ";
settings.Encoding = Encoding.UTF8;
XmlWriter writerXml = XmlWriter.Create("PhyProperty.xml", settings);
SolidEdgeFramework.Application application = null;
SolidEdgeFramework.Documents seDocuments = null;
SolidEdgeAssembly.AssemblyDocument seAssemblyDocument = null;
SolidEdgePart.PartDocument sePartDocument = null;
SolidEdgePart.Models models = null; // collection of Methods
SolidEdgePart.Model model = null; // 3d model
//The variables for use
int status;
double volume, area, mass, density, accuracy, relativeAccuracyAchieved;
// The matrix data
Array centerOfGravity = Array.CreateInstance(typeof(double), 3);
Array centerOfVolume = Array.CreateInstance(typeof(double), 3);
Array globalMomentsOfInteria = Array.CreateInstance(typeof(double), 6); //Ixx, Iyy, Izz, Ixy, Iyz, Ixz
Array principalMomentsOfInteria = Array.CreateInstance(typeof(double), 3); //Ixx, Iyy, Izz
Array principalAxes = Array.CreateInstance(typeof(double), 9);
Array radiiOfGyration = Array.CreateInstance(typeof(double), 9);
FileStream ostrm;
StreamWriter writer;
TextWriter oldOut = Console.Out;
try
{
ostrm = new FileStream("./SEinfo.txt", FileMode.Create, FileAccess.Write);
writer = new StreamWriter(ostrm);
Console.SetOut(writer);
//OleMessageFilter.Register();
//application = SolidEdgeUtils.Connect();
//var assemblyDocument = application.GetActiveDocument<SolidEdgeAssembly.AssemblyDocument>(false);
Console.WriteLine(args[0]);
//Write the root element
writerXml.WriteStartElement("RootAssemblyFile");
writerXml.WriteAttributeString("File", args[0]);
///////// open Solid Edge file in SE
application = SolidEdgeCommunity.SolidEdgeUtils.Connect(true);
seDocuments = application.Documents;
//seAssemblyDocument = (AssemblyDocument)seDocuments.Open(fileToOpen);
seAssemblyDocument = (AssemblyDocument)seDocuments.Open(args[0].ToString());
var assemblyDocument = application.GetActiveDocument <SolidEdgeAssembly.AssemblyDocument>(false);
/////////
// Optional settings you may tweak for performance improvements. Results may vary.
application.DelayCompute = true;
application.DisplayAlerts = false;
application.Interactive = false;
application.ScreenUpdating = false;
if (assemblyDocument != null)
{
var rootItem = new DocumentItem();
rootItem.FileName = assemblyDocument.FullName;
// Begin the recurisve extraction process.
PopulateDocumentItems(assemblyDocument.Occurrences, rootItem);
// Write each DocumentItem to console.
foreach (var documentItem in rootItem.AllDocumentItems)
{
String file = documentItem.FileName.ToString();
if (file.Substring(file.Length - 3) == "PAR" || file.Substring(file.Length - 3) == "par" || file.Substring(file.Length - 3) == "Par")
{
sePartDocument = (PartDocument)seDocuments.Open(documentItem.FileName.ToString()); // SE open the tree PAR
var seActivePartDocument = application.GetActiveDocument <SolidEdgePart.PartDocument>(false); // connect to the active PAR
}
Console.WriteLine("==============================================================");
Console.WriteLine("connect to active file (within Document tree):");
//Console.WriteLine(seActivePartDocument.FullName);
Console.WriteLine(documentItem.FileName);
//if (application.ActiveDocumentType == DocumentTypeConstants.igPartDocument)
if (file.Substring(file.Length - 3) == "PAR" || file.Substring(file.Length - 3) == "par" || file.Substring(file.Length - 3) == "Par")
{
writerXml.WriteStartElement("DocumentTree_Part");
writerXml.WriteAttributeString("File", documentItem.FileName);
Console.WriteLine("-------- ## Physical Properties: ## --------");
// get the collection of models
models = sePartDocument.Models;
// get the model
model = models.Item(1);
// get the Volume, Area, Mass,....
model.GetPhysicalProperties(
Status: out status,
Density: out density,
Accuracy: out accuracy,
Volume: out volume,
Area: out area,
Mass: out mass,
CenterOfGravity: ref centerOfGravity,
CenterOfVolume: ref centerOfVolume,
GlobalMomentsOfInteria: ref globalMomentsOfInteria,
PrincipalMomentsOfInteria: ref principalMomentsOfInteria,
PrincipalAxes: ref radiiOfGyration,
RadiiOfGyration: ref radiiOfGyration,
RelativeAccuracyAchieved: out relativeAccuracyAchieved
);
// do anything what you want....
Console.WriteLine("\tVolume, \"" + volume + "\"");
Console.WriteLine("\tArea, \"" + area + "\"");
Console.WriteLine("\tMass, \"" + mass + "\"");
//Console.ReadKey();
//writerXml.WriteStartElement("Volume");
writerXml.WriteElementString("Volume", volume.ToString());
writerXml.WriteElementString("Area", area.ToString());
writerXml.WriteElementString("Mass", mass.ToString());
// Write results to screen.
Console.WriteLine("\tDensity, \"{0}\"", density);
Console.WriteLine("\tAccuracy, \"{0}\"", accuracy);
writerXml.WriteElementString("Density", density.ToString());
writerXml.WriteElementString("Accuracy", accuracy.ToString());
// Convert from System.Array to double[]. double[] is easier to work with.
double[] m = centerOfGravity.OfType <double>().ToArray();
Console.WriteLine("CenterOfGravity:");
Console.WriteLine("\tCenterOfGravity_x, \"{0}\"", m[0]);
Console.WriteLine("\tCenterOfGravity_y, \"{0}\"", m[1]);
Console.WriteLine("\tCenterOfGravity_z, \"{0}\"", m[2]);
writerXml.WriteElementString("CenterOfGravity_x", m[0].ToString());
writerXml.WriteElementString("CenterOfGravity_y", m[1].ToString());
writerXml.WriteElementString("CenterOfGravity_z", m[2].ToString());
//Console.WriteLine("\t|{0}, {1}, {2}|", m[0], m[1], m[2]);
m = centerOfVolume.OfType <double>().ToArray();
Console.WriteLine("CenterOfVolume:");
Console.WriteLine("\tCenterOfVolume_x, \"{0}\"", m[0]);
Console.WriteLine("\tCenterOfVolume_y, \"{0}\"", m[1]);
Console.WriteLine("\tCenterOfVolume_z, \"{0}\"", m[2]);
writerXml.WriteElementString("CenterOfVolume_x", m[0].ToString());
writerXml.WriteElementString("CenterOfVolume_y", m[1].ToString());
writerXml.WriteElementString("CenterOfVolume_z", m[2].ToString());
//Console.WriteLine("\t|{0}, {1}, {2}|", m[0], m[1], m[2]);
m = globalMomentsOfInteria.OfType <double>().ToArray();
Console.WriteLine("GlobalMomentsOfInteria:");
Console.WriteLine("\tGlobalMomentsOfInteria_xx, \"{0}\"", m[0]);
Console.WriteLine("\tGlobalMomentsOfInteria_yy, \"{0}\"", m[1]);
Console.WriteLine("\tGlobalMomentsOfInteria_zz, \"{0}\"", m[2]);
Console.WriteLine("\tGlobalMomentsOfInteria_xy, \"{0}\"", m[3]);
Console.WriteLine("\tGlobalMomentsOfInteria_xz, \"{0}\"", m[4]);
Console.WriteLine("\tGlobalMomentsOfInteria_yz, \"{0}\"", m[5]);
writerXml.WriteElementString("GlobalMomentsOfInteria_xx", m[0].ToString());
writerXml.WriteElementString("GlobalMomentsOfInteria_yy", m[1].ToString());
writerXml.WriteElementString("GlobalMomentsOfInteria_zz", m[2].ToString());
writerXml.WriteElementString("GlobalMomentsOfInteria_xy", m[3].ToString());
writerXml.WriteElementString("GlobalMomentsOfInteria_xz", m[4].ToString());
writerXml.WriteElementString("GlobalMomentsOfInteria_yz", m[5].ToString());
//Console.WriteLine("\t|{0}, {1}, {2}|", m[0], m[1], m[2]);
//Console.WriteLine("\t|{0}, {1}, {2}|", m[3], m[4], m[5]);
m = principalMomentsOfInteria.OfType <double>().ToArray();
Console.WriteLine("PrincipalMomentsOfInteria:");
Console.WriteLine("\tPrincipalMomentsOfInteria_xx, \"{0}\"", m[0]);
Console.WriteLine("\tPrincipalMomentsOfInteria_yy, \"{0}\"", m[1]);
Console.WriteLine("\tPrincipalMomentsOfInteria_zz, \"{0}\"", m[2]);
writerXml.WriteElementString("PrincipalMomentsOfInteria_xx", m[0].ToString());
writerXml.WriteElementString("PrincipalMomentsOfInteria_yy", m[1].ToString());
writerXml.WriteElementString("PrincipalMomentsOfInteria_zz", m[2].ToString());
//Console.WriteLine("\t|{0}, {1}, {2}|", m[0], m[1], m[2]);
m = principalAxes.OfType <double>().ToArray();
Console.WriteLine("PrincipalAxes:");
Console.WriteLine("\tPrincipalAxes_xx, \"{0}\"", m[0]);
Console.WriteLine("\tPrincipalAxes_xy, \"{0}\"", m[1]);
Console.WriteLine("\tPrincipalAxes_xz, \"{0}\"", m[2]);
Console.WriteLine("\tPrincipalAxes_yx, \"{0}\"", m[3]);
Console.WriteLine("\tPrincipalAxes_yy, \"{0}\"", m[4]);
Console.WriteLine("\tPrincipalAxes_yz, \"{0}\"", m[5]);
Console.WriteLine("\tPrincipalAxes_zx, \"{0}\"", m[6]);
Console.WriteLine("\tPrincipalAxes_zy, \"{0}\"", m[7]);
Console.WriteLine("\tPrincipalAxes_zz, \"{0}\"", m[8]);
writerXml.WriteElementString("PrincipalAxes_xx", m[0].ToString());
writerXml.WriteElementString("PrincipalAxes_xy", m[1].ToString());
writerXml.WriteElementString("PrincipalAxes_xz", m[2].ToString());
writerXml.WriteElementString("PrincipalAxes_yx", m[3].ToString());
writerXml.WriteElementString("PrincipalAxes_yy", m[4].ToString());
writerXml.WriteElementString("PrincipalAxes_yz", m[5].ToString());
writerXml.WriteElementString("PrincipalAxes_zx", m[6].ToString());
writerXml.WriteElementString("PrincipalAxes_zy", m[7].ToString());
writerXml.WriteElementString("PrincipalAxes_zz", m[8].ToString());
//Console.WriteLine("\t|{0}, {1}, {2}|", m[0], m[1], m[2]);
//Console.WriteLine("\t|{0}, {1}, {2}|", m[3], m[4], m[5]);
//Console.WriteLine("\t|{0}, {1}, {2}|", m[6], m[7], m[8]);
m = radiiOfGyration.OfType <double>().ToArray();
Console.WriteLine("RadiiOfGyration:");
Console.WriteLine("\tRadiiOfGyration_xx, \"{0}\"", m[0]);
Console.WriteLine("\tRadiiOfGyration_xy, \"{0}\"", m[1]);
Console.WriteLine("\tRadiiOfGyration_xz, \"{0}\"", m[2]);
Console.WriteLine("\tRadiiOfGyration_yx, \"{0}\"", m[3]);
Console.WriteLine("\tRadiiOfGyration_yy, \"{0}\"", m[4]);
Console.WriteLine("\tRadiiOfGyration_yz, \"{0}\"", m[5]);
Console.WriteLine("\tRadiiOfGyration_zx, \"{0}\"", m[6]);
Console.WriteLine("\tRadiiOfGyration_zy, \"{0}\"", m[7]);
Console.WriteLine("\tRadiiOfGyration_zz, \"{0}\"", m[8]);
writerXml.WriteElementString("RadiiOfGyration_xx", m[0].ToString());
writerXml.WriteElementString("RadiiOfGyration_xy", m[1].ToString());
writerXml.WriteElementString("RadiiOfGyration_xz", m[2].ToString());
writerXml.WriteElementString("RadiiOfGyration_yx", m[3].ToString());
writerXml.WriteElementString("RadiiOfGyration_yy", m[4].ToString());
writerXml.WriteElementString("RadiiOfGyration_yz", m[5].ToString());
writerXml.WriteElementString("RadiiOfGyration_zx", m[6].ToString());
writerXml.WriteElementString("RadiiOfGyration_zy", m[7].ToString());
writerXml.WriteElementString("RadiiOfGyration_zz", m[8].ToString());
//Console.WriteLine("\t|{0}, {1}, {2}|", m[0], m[1], m[2]);
//Console.WriteLine("\t|{0}, {1}, {2}|", m[3], m[4], m[5]);
//Console.WriteLine("\t|{0}, {1}, {2}|", m[6], m[7], m[8]);
Console.WriteLine();
Console.WriteLine("\tRelativeAccuracyAchieved, \"{0}\"", relativeAccuracyAchieved);
writerXml.WriteElementString("RelativeAccuracyAchieved", relativeAccuracyAchieved.ToString());
Console.WriteLine("\tStatus, \"{0}\"", status);
writerXml.WriteElementString("Status", status.ToString());
Console.WriteLine();
writerXml.WriteEndElement();
}
//Console.ReadKey();
}
writerXml.WriteFullEndElement();
writerXml.Close();
Console.SetOut(oldOut);
writer.Close();
ostrm.Close();
// Demonstration of how to save the BOM to various formats.
// Convert the document items to JSON.
string json = Newtonsoft.Json.JsonConvert.SerializeObject(rootItem, Newtonsoft.Json.Formatting.Indented);
}
}
catch (System.Exception ex)
{
Console.WriteLine(ex.Message);
Console.ReadKey();
}
finally
{
if (application != null)
{
application.DelayCompute = false;
application.DisplayAlerts = true;
application.Interactive = true;
application.ScreenUpdating = true;
}
OleMessageFilter.Unregister();
}
}
public bool Equals(DocumentItem obj)
{
if (obj == null) return false;
return obj.FileName.Equals(FileName);
}
