/// <summary>
/// Generates all Simple data types.
/// </summary>
private void GenerateSimpleDataType(System.IO.StreamWriter stream, HLASimpleData simpleData)
{
int indentLevel = 0;
string indentStr = GenerateIndentString(indentLevel);
try
{
System.IO.StreamWriter sw;
String typeName = simpleData.Name;
if (stream == null)
{
String qualifiedTypeName = packagePrefix + typeName;
String path = qualifiedTypeName.Replace('.', Path.DirectorySeparatorChar) + ".cs";
System.IO.FileInfo sourceFile = new System.IO.FileInfo(targetDirectory.FullName + Path.DirectorySeparatorChar + path);
System.IO.Directory.CreateDirectory(new System.IO.FileInfo(sourceFile.DirectoryName).FullName);
System.IO.FileStream fos = new System.IO.FileStream(sourceFile.FullName, System.IO.FileMode.Create);
sw = new System.IO.StreamWriter(fos);
System.String packageName = GetPackageName(qualifiedTypeName);
if (packageName != null)
{
sw.WriteLine(indentStr + "namespace " + packageName);
}
else
{
sw.WriteLine(indentStr + "namespace Sxta.Rti1516.Proxies");
}
sw.WriteLine(indentStr + "{");
indentLevel++;
indentStr = GenerateIndentString(indentLevel);
sw.WriteLine(indentStr + "using System;");
sw.WriteLine(indentStr + "using System.IO;");
sw.WriteLine();
sw.WriteLine(indentStr + "using HlaEncodingReader = Sxta.Rti1516.Serializers.XrtiEncoding.HlaEncodingReader;");
sw.WriteLine(indentStr + "using HlaEncodingWriter = Sxta.Rti1516.Serializers.XrtiEncoding.HlaEncodingWriter;");
sw.WriteLine(indentStr + "using Sxta.Rti1516.Reflection;");
}
else
{
sw = stream;
}
sw.WriteLine();
if (!string.IsNullOrEmpty(simpleData.Semantics))
{
PrintClassComment(sw, simpleData.Semantics, indentLevel);
}
else
{
PrintClassComment(sw, "Autogenerated simple data type.", indentLevel);
}
GenerateHLASimpleDataAttribute(indentLevel, sw, simpleData);
sw.WriteLine(indentStr + "public struct " + typeName);
sw.WriteLine(indentStr + "{");
indentLevel++;
indentStr = GenerateIndentString(indentLevel);
String representation = simpleData.Representation;
if (string.IsNullOrEmpty(representation))
{
throw new RTIexception("SimpleData :" + simpleData.Name + "doesn't have a representation");
}
String nativeType = NativeTypeForBasicRepresentation(representation);
string indentStr1 = GenerateIndentString(indentLevel + 1);
sw.WriteLine(indentStr + "public " + nativeType + " data;");
sw.WriteLine();
sw.WriteLine(indentStr + "public static implicit operator " + nativeType + "(" + simpleData.Name + " val)");
sw.WriteLine(indentStr + "{");
sw.WriteLine(indentStr1 + "return val.data;");
sw.WriteLine(indentStr + "}");
sw.WriteLine();
sw.WriteLine(indentStr + "public static implicit operator " + simpleData.Name + "(" + nativeType + " val)");
sw.WriteLine(indentStr + "{");
sw.WriteLine(indentStr1 + simpleData.Name + " tmp = new " + simpleData.Name + "();");
sw.WriteLine(indentStr1 + "tmp.data = val;");
sw.WriteLine(indentStr1 + "return tmp;");
sw.WriteLine(indentStr + "}");
sw.WriteLine();
indentLevel--;
indentStr = GenerateIndentString(indentLevel);
sw.WriteLine(indentStr + "}");
sw.WriteLine();
sw.WriteLine(indentStr + "[Serializable]");
sw.WriteLine(indentStr + "public sealed class " + typeName + "XrtiSerializer");
sw.WriteLine(indentStr + "{");
indentLevel++;
indentStr = GenerateIndentString(indentLevel);
sw.WriteLine(indentStr + "///<summary> Reads and returns a " + typeName + " from the specified stream.</summary>");
sw.WriteLine(indentStr + "///<param name=\"reader\"> the input stream to read from</param>");
sw.WriteLine(indentStr + "///<returns>return the decoded value</returns>");
sw.WriteLine(indentStr + "///<exception cref=\"IOException\"> if an error occurs</exception>");
sw.WriteLine(indentStr + "public static " + typeName + " Deserialize(HlaEncodingReader reader)");
sw.WriteLine(indentStr + "{");
sw.WriteLine(GenerateIndentString(indentLevel + 1) + "return (" + typeName + ")reader.Read" + representation + "();");
sw.WriteLine(indentStr + "}");
sw.WriteLine();
sw.WriteLine(indentStr + "///<summary>Writes this " + typeName + " to the specified stream.</summary>");
sw.WriteLine(indentStr + "///<param name=\"writer\"> the stream to write to</param>");
sw.WriteLine(indentStr + "///<exception cref=\"IOException\"> if an error occurs</exception>");
sw.WriteLine(indentStr + "public static void Serialize(HlaEncodingWriter writer, " + typeName + " val)");
sw.WriteLine(indentStr + "{");
sw.WriteLine(GenerateIndentString(indentLevel + 1) + "writer.Write" + representation + "((" + nativeType + ")val);");
sw.WriteLine(indentStr + "}");
sw.WriteLine();
indentLevel--;
indentStr = GenerateIndentString(indentLevel);
sw.WriteLine(indentStr + "}");
if (stream == null)
{
indentLevel--;
indentStr = GenerateIndentString(indentLevel);
sw.WriteLine(indentStr + "}");
sw.Flush();
sw.Close();
}
}
catch (System.IO.IOException ioe)
{
System.Console.Error.WriteLine("Error generating simple data type: " + ioe);
}
}
/// <summary>
/// Generates a <code>GenerateHLASimpleDataAttribute</code>.
/// </summary>
private void GenerateHLASimpleDataAttribute(int localIndentLevel, System.IO.StreamWriter ps, HLASimpleData simpleData)
{
string indentStr = GenerateIndentString(localIndentLevel);
string newLine = "," + Environment.NewLine + indentStr + " ";
ps.Write(indentStr + "[HLASimpleData(Name = \"" + simpleData.Name + "\"");
if (!String.IsNullOrEmpty(simpleData.NameNotes))
{
ps.Write(newLine);
ps.Write("NameNotes = \"" + simpleData.NameNotes + "\"");
}
if (!String.IsNullOrEmpty(simpleData.Representation))
{
ps.Write(newLine);
ps.Write("Representation = \"" + simpleData.Representation + "\"");
}
if (!String.IsNullOrEmpty(simpleData.RepresentationNotes))
{
ps.Write(newLine);
ps.Write("RepresentationNotes = \"" + simpleData.RepresentationNotes + "\"");
}
if (!String.IsNullOrEmpty(simpleData.Semantics))
{
ps.Write(newLine);
ps.Write("Semantics = \"" + simpleData.Semantics + "\"");
}
if (!String.IsNullOrEmpty(simpleData.SemanticsNotes))
{
ps.Write(newLine);
ps.Write("SemanticsNotes = \"" + simpleData.SemanticsNotes + "\"");
}
if (!String.IsNullOrEmpty(simpleData.Accuracy))
{
ps.Write(newLine);
ps.Write("Accuracy = \"" + simpleData.Accuracy + "\"");
}
if (!String.IsNullOrEmpty(simpleData.AccuracyNotes))
{
ps.Write(newLine);
ps.Write("AccuracyNotes = \"" + simpleData.AccuracyNotes + "\"");
}
if (!String.IsNullOrEmpty(simpleData.Resolution))
{
ps.Write(newLine);
ps.Write("Resolution = \"" + simpleData.Resolution + "\"");
}
if (!String.IsNullOrEmpty(simpleData.ResolutionNotes))
{
ps.Write(newLine);
ps.Write("ResolutionNotes = \"" + simpleData.ResolutionNotes + "\"");
}
if (!String.IsNullOrEmpty(simpleData.Units))
{
ps.Write(newLine);
ps.Write("Units = \"" + simpleData.Units + "\"");
}
if (!String.IsNullOrEmpty(simpleData.UnitsNotes))
{
ps.Write(newLine);
ps.Write("UnitsNotes = \"" + simpleData.UnitsNotes + "\"");
}
ps.WriteLine(")]");
}
/// <summary>
/// Creates a new instance.
/// </summary>
public HLASimpleDataAttribute()
{
baseInfo = new HLASimpleData();
}
/// <summary>
/// Adds a set of descriptors corresponding to the features contained
/// in the specified federation description document. Handle
/// values will be assigned in the order that the described features are
/// encountered in the document, starting at <code>1</code>.
/// </summary>
/// <param name="fdd">the parsed federation description document to interpret
/// </param>
public virtual void AddDescriptors(System.Xml.XmlDocument fdd)
{
System.Xml.XmlElement documentElement = (System.Xml.XmlElement)fdd.DocumentElement;
objectModel = new HLAObjectModel(documentElement);
names.Add(objectModel.Name);
System.String version = objectModel.Version;
if (!string.IsNullOrEmpty(version))
{
SupportClass.Tokenizer st = new SupportClass.Tokenizer(version, " .");
majorVersion = System.Int32.Parse(st.NextToken());
minorVersion = System.Int32.Parse(st.NextToken());
}
// First pass creates descriptors, assigns handles
System.Xml.XmlNodeList nl = documentElement.GetElementsByTagName("basicData");
for (int i = 0; i < nl.Count; i++)
{
System.Xml.XmlElement basicDataElement = (System.Xml.XmlElement)nl.Item(i);
HLABasicData basicData = new HLABasicData(basicDataElement);
basicDataMap[basicData.Name] = basicData;
}
nl = documentElement.GetElementsByTagName("simpleData");
for (int i = 0; i < nl.Count; i++)
{
System.Xml.XmlElement simpleDataElement = (System.Xml.XmlElement)nl.Item(i);
HLASimpleData simpleData = new HLASimpleData(simpleDataElement);
simpleDataMap[simpleData.Name] = simpleData;
}
nl = documentElement.GetElementsByTagName("enumeratedData");
for (int i = 0; i < nl.Count; i++)
{
System.Xml.XmlElement enumeratedDataElement = (System.Xml.XmlElement)nl.Item(i);
HLAEnumeratedData enumeratedData = new HLAEnumeratedData(enumeratedDataElement);
enumeratedDataMap[enumeratedData.Name] = enumeratedData;
}
nl = documentElement.GetElementsByTagName("fixedRecordData");
for (int i = 0; i < nl.Count; i++)
{
System.Xml.XmlElement fixedRecordDataElement = (System.Xml.XmlElement)nl.Item(i);
HLAFixedRecordData fixedRecordData = new HLAFixedRecordData(fixedRecordDataElement);
fixedRecordDataMap[fixedRecordData.Name] = fixedRecordData;
}
nl = documentElement.GetElementsByTagName("arrayData");
for (int i = 0; i < nl.Count; i++)
{
System.Xml.XmlElement arrayDataElement = (System.Xml.XmlElement)nl.Item(i);
HLAarrayDataType arrayData = new HLAarrayDataType(arrayDataElement);
arrayDataMap[arrayData.Name] = arrayData;
}
nl = documentElement.GetElementsByTagName(OBJECT_CLASS);
for (int i = 0; i < nl.Count; i++)
{
System.Xml.XmlElement objectClassElement = (System.Xml.XmlElement)nl.Item(i);
ObjectClassDescriptor ocd = new ObjectClassDescriptor(objectClassElement, new XRTIObjectClassHandle(handleCounter++), new List<ObjectClassDescriptor>());
System.Xml.XmlNodeList nl2 = objectClassElement.ChildNodes;
for (int j = 0; j < nl2.Count; j++)
{
if (nl2.Item(j) is System.Xml.XmlElement && nl2.Item(j).Name.Equals(ATTRIBUTE))
{
System.Xml.XmlElement attributeElement = (System.Xml.XmlElement)nl2.Item(j);
AttributeDescriptor ad = new AttributeDescriptor(attributeElement, new XRTIAttributeHandle(handleCounter++), new XRTIDimensionHandleSet(), "HLAreliable".Equals(attributeElement.GetAttribute(TRANSPORTATION)) ? TransportationType.HLA_RELIABLE : TransportationType.HLA_BEST_EFFORT, "Receive".Equals(attributeElement.GetAttribute(ORDER)) ? Hla.Rti1516.OrderType.RECEIVE : OrderType.TIMESTAMP);
ocd.AddAttributeDescriptor(ad);
// PATCH ANGEL
AddAttributeDescriptor(ad);
}
}
AddObjectClassDescriptor(ocd);
}
nl = documentElement.GetElementsByTagName(INTERACTION_CLASS);
for (int i = 0; i < nl.Count; i++)
{
System.Xml.XmlElement interactionClassElement = (System.Xml.XmlElement)nl.Item(i);
InteractionClassDescriptor icd = new InteractionClassDescriptor(interactionClassElement, new XRTIInteractionClassHandle(handleCounter++), new List<InteractionClassDescriptor>(), new XRTIDimensionHandleSet(), "HLAreliable".Equals(interactionClassElement.GetAttribute(TRANSPORTATION)) ? TransportationType.HLA_RELIABLE : TransportationType.HLA_BEST_EFFORT, "Receive".Equals(interactionClassElement.GetAttribute(ORDER)) ? Sxta.Rti1516.Reflection.HLAorderType.Receive : Sxta.Rti1516.Reflection.HLAorderType.TimeStamp);
System.Xml.XmlNodeList nl2 = interactionClassElement.ChildNodes;
for (int j = 0; j < nl2.Count; j++)
{
if (nl2.Item(j) is System.Xml.XmlElement && nl2.Item(j).Name.Equals(PARAMETER))
{
System.Xml.XmlElement parameterElement = (System.Xml.XmlElement)nl2.Item(j);
icd.AddParameterDescriptor(new ParameterDescriptor(parameterElement, new XRTIParameterHandle(handleCounter++)));
}
}
AddInteractionClassDescriptor(icd);
}
nl = documentElement.GetElementsByTagName(DIMENSION);
for (int i = 0; i < nl.Count; i++)
{
System.Xml.XmlElement dimensionElement = (System.Xml.XmlElement)nl.Item(i);
long upperBound = System.Int64.MaxValue;
if (dimensionElement.HasAttribute(UPPER_BOUND))
{
try
{
upperBound = System.Int64.Parse(dimensionElement.GetAttribute(UPPER_BOUND));
}
catch (System.FormatException)
{
}
}
AddDimensionDescriptor(new DimensionDescriptor(dimensionElement.GetAttribute(NAME), new XRTIDimensionHandle(handleCounter++), upperBound));
}
// Second pass resolves parents, dimensions
nl = documentElement.GetElementsByTagName(OBJECT_CLASS);
for (int i = 0; i < nl.Count; i++)
{
System.Xml.XmlElement objectClassElement = (System.Xml.XmlElement)nl.Item(i);
ObjectClassDescriptor ocd = GetObjectClassDescriptor(objectClassElement.GetAttribute(NAME));
if (objectClassElement.ParentNode.Name.Equals(OBJECT_CLASS))
{
ocd.AddParentDescriptor(GetObjectClassDescriptor(((System.Xml.XmlElement)objectClassElement.ParentNode).GetAttribute(NAME)));
}
if (objectClassElement.HasAttribute(PARENTS))
{
SupportClass.Tokenizer st = new SupportClass.Tokenizer(objectClassElement.GetAttribute(PARENTS));
// PATCH ANGEL while (st.HasMoreTokens())
//{
ocd.ParentDescriptors.Add(GetObjectClassDescriptor(st.NextToken()));
//}
}
System.Xml.XmlNodeList nl2 = objectClassElement.ChildNodes;
for (int j = 0; j < nl2.Count; j++)
{
if (nl2.Item(j) is System.Xml.XmlElement && nl2.Item(j).Name.Equals(ATTRIBUTE))
{
System.Xml.XmlElement attributeElement = (System.Xml.XmlElement)nl2.Item(j);
if (attributeElement.HasAttribute(DIMENSIONS))
{
AttributeDescriptor ad = ocd.GetAttributeDescriptor(attributeElement.GetAttribute(NAME));
SupportClass.Tokenizer st = new SupportClass.Tokenizer(attributeElement.GetAttribute(DIMENSIONS));
// PATCH ANGEL while (st.HasMoreTokens())
//{
System.String dimension = st.NextToken();
if (!dimension.Equals("NA"))
{
ad.Dimensions.Add(GetDimensionDescriptor(dimension).Handle);
}
//}
}
}
}
}
nl = documentElement.GetElementsByTagName(INTERACTION_CLASS);
for (int i = 0; i < nl.Count; i++)
{
System.Xml.XmlElement interactionClassElement = (System.Xml.XmlElement)nl.Item(i);
InteractionClassDescriptor icd = GetInteractionClassDescriptor(interactionClassElement.GetAttribute(NAME));
if (interactionClassElement.HasAttribute(DIMENSIONS))
{
SupportClass.Tokenizer st = new SupportClass.Tokenizer(interactionClassElement.GetAttribute(DIMENSIONS));
// PATCH ANGEL while (st.HasMoreTokens())
//{
System.String dimension = st.NextToken();
if (!dimension.Equals("NA"))
{
icd.Dimensions.Add(GetDimensionDescriptor(dimension).Handle);
}
//}
}
if (interactionClassElement.ParentNode.Name.Equals(INTERACTION_CLASS))
{
icd.AddParentDescriptor(GetInteractionClassDescriptor(((System.Xml.XmlElement)interactionClassElement.ParentNode).GetAttribute(NAME)));
}
if (interactionClassElement.HasAttribute(PARENTS))
{
SupportClass.Tokenizer st = new SupportClass.Tokenizer(interactionClassElement.GetAttribute(PARENTS));
// PATCH ANGEL while (st.HasMoreTokens())
//{
icd.AddParentDescriptor(GetInteractionClassDescriptor(st.NextToken()));
//}
}
}
//PATCH ANGEL CheckAopFdd();
}
/// <summary>
/// Creates a new instance.
/// </summary>
public HLASimpleDataAttribute()
{
baseInfo = new HLASimpleData();
}
