public static AxParameterData[] Convert(System.Reflection.ParameterInfo[] infos, bool ignoreByRefs)
{
if (infos == null)
{
return(new AxParameterData[0]);
}
int num = 0;
AxParameterData[] dataArray = new AxParameterData[infos.Length];
for (int i = 0; i < infos.Length; i++)
{
dataArray[i] = new AxParameterData(infos[i], ignoreByRefs);
if ((dataArray[i].Name == null) || (dataArray[i].Name == ""))
{
dataArray[i].Name = "param" + num++;
}
}
return(dataArray);
}
/// <include file='doc\AxParameterData.uex' path='docs/doc[@for="AxParameterData.Convert1"]/*' />
/// <devdoc>
/// <para>[To be supplied.]</para>
/// </devdoc>
public static AxParameterData[] Convert(ParameterInfo[] infos, bool ignoreByRefs)
{
if (infos == null)
{
return(new AxParameterData[0]);
}
int noname = 0;
AxParameterData[] parameters = new AxParameterData[infos.Length];
for (int i = 0; i < infos.Length; ++i)
{
parameters[i] = new AxParameterData(infos[i], ignoreByRefs);
if (parameters[i].Name == null || parameters[i].Name == "")
{
parameters[i].Name = "param" + (noname++);
}
}
return(parameters);
}
public static AxParameterData[] Convert(System.Reflection.ParameterInfo[] infos, bool ignoreByRefs)
{
if (infos == null)
{
return new AxParameterData[0];
}
int num = 0;
AxParameterData[] dataArray = new AxParameterData[infos.Length];
for (int i = 0; i < infos.Length; i++)
{
dataArray[i] = new AxParameterData(infos[i], ignoreByRefs);
if ((dataArray[i].Name == null) || (dataArray[i].Name == ""))
{
dataArray[i].Name = "param" + num++;
}
}
return dataArray;
}
/// <include file='doc\AxParameterData.uex' path='docs/doc[@for="AxParameterData.Convert"]/*' />
/// <devdoc>
/// <para>[To be supplied.]</para>
/// </devdoc>
public static AxParameterData[] Convert(ParameterInfo[] infos)
{
return(AxParameterData.Convert(infos, false));
}
private CodeMethodReturnStatement GetPropertyGetRValue(PropertyInfo pinfo, CodeExpression reference, ComAliasEnum alias, AxParameterData[] parameters, bool fMethodSyntax)
{
CodeExpression expression = null;
if (fMethodSyntax)
{
expression = new CodeMethodInvokeExpression(reference, pinfo.GetGetMethod().Name, new CodeExpression[0]);
for (int i = 0; i < parameters.Length; i++)
{
((CodeMethodInvokeExpression) expression).Parameters.Add(new CodeFieldReferenceExpression(null, parameters[i].Name));
}
}
else if (parameters.Length > 0)
{
expression = new CodeIndexerExpression(reference, new CodeExpression[0]);
for (int j = 0; j < parameters.Length; j++)
{
((CodeIndexerExpression) expression).Indices.Add(new CodeFieldReferenceExpression(null, parameters[j].Name));
}
}
else
{
expression = new CodePropertyReferenceExpression(reference, (parameters.Length == 0) ? pinfo.Name : "");
}
if (alias == ComAliasEnum.None)
{
return new CodeMethodReturnStatement(expression);
}
string comToManagedConverter = ComAliasConverter.GetComToManagedConverter(alias);
string comToWFParamConverter = ComAliasConverter.GetComToWFParamConverter(alias);
CodeExpression[] expressionArray = null;
if (comToWFParamConverter.Length == 0)
{
expressionArray = new CodeExpression[] { expression };
}
else
{
CodeCastExpression expression2 = new CodeCastExpression(comToWFParamConverter, expression);
expressionArray = new CodeExpression[] { expression2 };
}
return new CodeMethodReturnStatement(new CodeMethodInvokeExpression(null, comToManagedConverter, expressionArray));
}
public EventEntry(string eventName, string eventCls, string eventHandlerCls, System.Type retType, AxParameterData[] parameters, bool conflict)
{
this.eventName = eventName;
this.eventCls = eventCls;
this.eventHandlerCls = eventHandlerCls;
this.retType = retType;
this.parameters = parameters;
this.eventParam = eventName.ToLower(CultureInfo.InvariantCulture) + "Event";
this.resovledEventName = conflict ? (eventName + "Event") : eventName;
this.invokeMethodName = "RaiseOn" + this.resovledEventName;
this.eventFlags = MemberAttributes.Public | MemberAttributes.Final;
}
private static CodeExpression GetDefaultExpressionForInvoke(MethodInfo method, AxParameterData parameterInfo)
{
object rawDefaultValue = parameterInfo.ParameterInfo.RawDefaultValue;
System.Type parameterBaseType = parameterInfo.ParameterBaseType;
if (rawDefaultValue == Missing.Value)
{
if (!parameterBaseType.IsPrimitive)
{
if (!parameterBaseType.IsEnum)
{
if (parameterBaseType == typeof(object))
{
return new CodeFieldReferenceExpression(new CodeFieldReferenceExpression(null, "System.Reflection.Missing"), "Value");
}
if (parameterBaseType.IsValueType)
{
if (parameterBaseType.GetConstructor(new System.Type[0]) != null)
{
return new CodeObjectCreateExpression(parameterBaseType, new CodeExpression[0]);
}
if (parameterBaseType == typeof(decimal))
{
return new CodeObjectCreateExpression(typeof(decimal), new CodeExpression[] { new CodePrimitiveExpression(0.0) });
}
if (parameterBaseType != typeof(DateTime))
{
throw new Exception(System.Design.SR.GetString("AxImpNoDefaultValue", new object[] { method.Name, parameterInfo.Name, parameterBaseType.FullName }));
}
return new CodeObjectCreateExpression(typeof(DateTime), new CodeExpression[] { new CodePrimitiveExpression(0L) });
}
if (parameterBaseType == typeof(string))
{
rawDefaultValue = "";
}
else
{
rawDefaultValue = null;
}
parameterBaseType = null;
}
else
{
rawDefaultValue = 0;
if (!Enum.IsDefined(parameterBaseType, 0) && (Enum.GetValues(parameterBaseType).Length > 0))
{
rawDefaultValue = Enum.GetValues(parameterBaseType).GetValue(0);
}
}
}
else
{
rawDefaultValue = GetPrimitiveDefaultValue(parameterBaseType);
}
}
else if (parameterBaseType.IsPrimitive)
{
rawDefaultValue = GetClsPrimitiveValue(rawDefaultValue);
rawDefaultValue = GetDefaultValueForUnsignedType(parameterBaseType, rawDefaultValue);
}
else if (((rawDefaultValue != null) && parameterBaseType.IsInstanceOfType(rawDefaultValue)) && (((rawDefaultValue is DateTime) || (rawDefaultValue is decimal)) || (rawDefaultValue is bool)))
{
if (rawDefaultValue is DateTime)
{
CodeExpression[] parameters = new CodeExpression[1];
DateTime time = (DateTime) rawDefaultValue;
parameters[0] = new CodeCastExpression(typeof(long), new CodePrimitiveExpression(time.Ticks));
return new CodeObjectCreateExpression(typeof(DateTime), parameters);
}
if (rawDefaultValue is decimal)
{
return new CodeObjectCreateExpression(typeof(decimal), new CodeExpression[] { new CodeCastExpression(typeof(double), new CodePrimitiveExpression(decimal.ToDouble((decimal) rawDefaultValue))) });
}
if (rawDefaultValue is bool)
{
return new CodePrimitiveExpression((bool) rawDefaultValue);
}
if (!(rawDefaultValue is string))
{
throw new Exception(System.Design.SR.GetString("AxImpUnrecognizedDefaultValueType", new object[] { method.Name, parameterInfo.Name, parameterBaseType.FullName }));
}
parameterBaseType = null;
}
else if (!parameterBaseType.IsValueType)
{
if (rawDefaultValue is DispatchWrapper)
{
rawDefaultValue = null;
}
if ((rawDefaultValue != null) && !(rawDefaultValue is string))
{
throw new Exception(System.Design.SR.GetString("AxImpUnrecognizedDefaultValueType", new object[] { method.Name, parameterInfo.Name, parameterBaseType.FullName }));
}
parameterBaseType = null;
return new CodePrimitiveExpression(rawDefaultValue);
}
if ((parameterBaseType != null) && parameterBaseType.IsEnum)
{
rawDefaultValue = (int) rawDefaultValue;
}
CodeExpression expression = new CodePrimitiveExpression(rawDefaultValue);
if (parameterBaseType != null)
{
expression = new CodeCastExpression(parameterBaseType, expression);
}
return expression;
}
private void WritePropertySetterProp(CodeMemberProperty prop, PropertyInfo pinfo, ComAliasEnum alias, AxParameterData[] parameters, bool fOverride, bool useLet)
{
CodeExpression left = null;
CodeBinaryOperatorExpression expression2 = null;
CodeConditionStatement statement = null;
CodeExpression expression3;
if (fOverride)
{
if (parameters.Length > 0)
{
left = new CodeIndexerExpression(this.memIfaceRef, new CodeExpression[0]);
}
else
{
left = new CodePropertyReferenceExpression(new CodeBaseReferenceExpression(), pinfo.Name);
}
expression2 = new CodeBinaryOperatorExpression(this.memIfaceRef, CodeBinaryOperatorType.IdentityInequality, new CodePrimitiveExpression(null));
statement = new CodeConditionStatement {
Condition = expression2
};
}
if (parameters.Length > 0)
{
expression3 = new CodeIndexerExpression(this.memIfaceRef, new CodeExpression[0]);
}
else
{
expression3 = new CodePropertyReferenceExpression(this.memIfaceRef, pinfo.Name);
}
for (int i = 0; i < parameters.Length; i++)
{
if (fOverride)
{
((CodeIndexerExpression) left).Indices.Add(new CodeFieldReferenceExpression(null, parameters[i].Name));
}
((CodeIndexerExpression) expression3).Indices.Add(new CodeFieldReferenceExpression(null, parameters[i].Name));
}
CodeFieldReferenceExpression right = new CodeFieldReferenceExpression(null, "value");
CodeExpression propertySetRValue = this.GetPropertySetRValue(alias, pinfo.PropertyType);
if (fOverride)
{
prop.SetStatements.Add(new CodeAssignStatement(left, right));
statement.TrueStatements.Add(new CodeAssignStatement(expression3, propertySetRValue));
prop.SetStatements.Add(statement);
}
else
{
prop.SetStatements.Add(new CodeAssignStatement(expression3, propertySetRValue));
}
}
private void WritePropertySetterMethod(CodeMemberProperty prop, PropertyInfo pinfo, ComAliasEnum alias, AxParameterData[] parameters, bool fOverride, bool useLet)
{
CodeExpression left = null;
CodeBinaryOperatorExpression expression2 = null;
CodeConditionStatement statement = null;
CodeFieldReferenceExpression expression3;
if (fOverride)
{
if (parameters.Length > 0)
{
left = new CodeIndexerExpression(this.memIfaceRef, new CodeExpression[0]);
}
else
{
left = new CodePropertyReferenceExpression(new CodeBaseReferenceExpression(), pinfo.Name);
}
expression2 = new CodeBinaryOperatorExpression(this.memIfaceRef, CodeBinaryOperatorType.IdentityInequality, new CodePrimitiveExpression(null));
statement = new CodeConditionStatement {
Condition = expression2
};
}
string methodName = useLet ? ("let_" + pinfo.Name) : pinfo.GetSetMethod().Name;
CodeMethodInvokeExpression expression = new CodeMethodInvokeExpression(this.memIfaceRef, methodName, new CodeExpression[0]);
for (int i = 0; i < parameters.Length; i++)
{
if (fOverride)
{
((CodeIndexerExpression) left).Indices.Add(new CodeFieldReferenceExpression(null, parameters[i].Name));
}
expression.Parameters.Add(new CodeFieldReferenceExpression(null, parameters[i].Name));
}
CodeFieldReferenceExpression right = new CodeFieldReferenceExpression(null, "value");
CodeExpression propertySetRValue = this.GetPropertySetRValue(alias, pinfo.PropertyType);
if (alias != ComAliasEnum.None)
{
CodeParameterDeclarationExpression expression7;
string wFToComParamConverter = ComAliasConverter.GetWFToComParamConverter(alias, pinfo.PropertyType);
if (wFToComParamConverter.Length == 0)
{
expression7 = this.CreateParamDecl(MapTypeName(pinfo.PropertyType), "paramTemp", false);
}
else
{
expression7 = this.CreateParamDecl(wFToComParamConverter, "paramTemp", false);
}
prop.SetStatements.Add(new CodeAssignStatement(expression7, propertySetRValue));
expression3 = new CodeFieldReferenceExpression(null, "paramTemp");
}
else
{
expression3 = right;
}
expression.Parameters.Add(new CodeDirectionExpression(useLet ? FieldDirection.In : FieldDirection.Ref, expression3));
if (fOverride)
{
prop.SetStatements.Add(new CodeAssignStatement(left, right));
statement.TrueStatements.Add(new CodeExpressionStatement(expression));
prop.SetStatements.Add(statement);
}
else
{
prop.SetStatements.Add(new CodeExpressionStatement(expression));
}
}
private void WritePropertySetter(CodeMemberProperty prop, PropertyInfo pinfo, ComAliasEnum alias, AxParameterData[] parameters, bool fMethodSyntax, bool fOverride, bool useLet, bool dataSourceProp)
{
if (!fOverride && !dataSourceProp)
{
prop.SetStatements.Add(this.CreateInvalidStateException(prop.Name, "PropertySet"));
}
if (dataSourceProp)
{
string dataSourceName = this.CreateDataSourceFieldName(pinfo.Name);
this.WriteDataSourcePropertySetter(prop, pinfo, dataSourceName);
}
else if (!fMethodSyntax)
{
this.WritePropertySetterProp(prop, pinfo, alias, parameters, fOverride, useLet);
}
else
{
this.WritePropertySetterMethod(prop, pinfo, alias, parameters, fOverride, useLet);
}
}
private void WritePropertyGetter(CodeMemberProperty prop, PropertyInfo pinfo, ComAliasEnum alias, AxParameterData[] parameters, bool fMethodSyntax, bool fOverride, bool dataSourceProp)
{
if (dataSourceProp)
{
string fieldName = this.CreateDataSourceFieldName(pinfo.Name);
CodeMethodReturnStatement statement = new CodeMethodReturnStatement(new CodeFieldReferenceExpression(new CodeThisReferenceExpression(), fieldName));
prop.GetStatements.Add(statement);
}
else if (fOverride)
{
CodeConditionStatement statement2 = this.CreateValidStateCheck();
statement2.TrueStatements.Add(this.GetPropertyGetRValue(pinfo, this.memIfaceRef, alias, parameters, fMethodSyntax));
statement2.FalseStatements.Add(this.GetPropertyGetRValue(pinfo, new CodeBaseReferenceExpression(), ComAliasEnum.None, parameters, false));
prop.GetStatements.Add(statement2);
}
else
{
prop.GetStatements.Add(this.CreateInvalidStateException(prop.Name, "PropertyGet"));
prop.GetStatements.Add(this.GetPropertyGetRValue(pinfo, this.memIfaceRef, alias, parameters, fMethodSyntax));
}
}
private EventEntry AddEvent(string name, string eventCls, string eventHandlerCls, System.Type retType, AxParameterData[] parameters)
{
if (this.events == null)
{
this.events = new ArrayList();
}
if (this.axctlTypeMembers == null)
{
this.axctlTypeMembers = new Hashtable();
foreach (MemberInfo info in this.axctlType.GetMembers())
{
string key = info.Name;
if (!this.axctlTypeMembers.Contains(key))
{
this.axctlTypeMembers.Add(key, info);
}
}
}
bool conflict = (this.axctlTypeMembers.Contains(name) || this.AxHostMembers.Contains(name)) || this.ConflictableThings.Contains(name);
EventEntry entry = new EventEntry(name, eventCls, eventHandlerCls, retType, parameters, conflict);
this.events.Add(entry);
return entry;
}
