private static object[] CompileParameterArray(MethodInfo functionInfo, TSDictionary parameters)
{
Dictionary <string, object> parametersToCompile = new Dictionary <string, object>();
if (parameters != null) // copy dictionary (because content is "cleared" below, but could be necessary for a 2nd call)
{
Dictionary <string, object> pCopy = parameters.GetCopyOfContent();
foreach (string key in pCopy.Keys)
{
parametersToCompile.Add(key, pCopy[key]);
}
}
ParameterInfo[] parameterInfo = functionInfo.GetParameters(); // obtain the info about the correct set of parameters for this function
object[] paramArray = new object[parameterInfo.Count()];
string errorReport = string.Empty;
for (int i = 0; i < parameterInfo.Count(); ++i)
{
if (parameterInfo[i].IsOut)
{
paramArray[i] = null; // setting out-parameters to anything else but null does not make sense, the input is anyway ignored
parametersToCompile[parameterInfo[i].Name] = Type.Missing; // this is for error handling (to recognise an unknown parameter, see below)
}
else if (parametersToCompile.ContainsKey(parameterInfo[i].Name))
{
paramArray[i] = parametersToCompile[parameterInfo[i].Name];
parametersToCompile[parameterInfo[i].Name] = Type.Missing; // this is for error handling (to recognise an unknown parameter, see below)
}
else if (parameterInfo[i].IsOptional)
{
paramArray[i] = Type.Missing;
}
else
{
errorReport += string.Format("{0}Missing parameter '{1}'.", Environment.NewLine, parameterInfo[i].Name);
}
}
foreach (string parameterName in parametersToCompile.Keys)
{
if (parametersToCompile[parameterName] != Type.Missing)
{
errorReport += string.Format("{0}Unknown parameter '{1}'.", Environment.NewLine, parameterName);
}
}
if (errorReport != string.Empty)
{
throw new ArgumentException("Parameter mismatch: " + errorReport);
}
return(paramArray);
}
public static TSDictionary ComposeParameters(Dictionary <string, object> parameters)
{
TSDictionary parameterDic = new TSDictionary();
if (parameters != null)
{
foreach (string key in parameters.Keys)
{
parameterDic.SetItem(key, parameters[key]);
}
}
return(parameterDic);
}
// a more convenient way to pass parameters to CallStaticFunction
public static TSDictionary ComposeParameters(
string pName1, object pValue1, string pName2 = "", object pValue2 = null, string pName3 = "", object pValue3 = null,
string pName4 = "", object pValue4 = null, string pName5 = "", object pValue5 = null, string pName6 = "", object pValue6 = null,
string pName7 = "", object pValue7 = null, string pName8 = "", object pValue8 = null, string pName9 = "", object pValue9 = null,
string pName10 = "", object pValue10 = null, string pName11 = "", object pValue11 = null, string pName12 = "", object pValue12 = null,
string pName13 = "", object pValue13 = null, string pName14 = "", object pValue14 = null, string pName15 = "", object pValue15 = null)
{
TSDictionary parameterDic = new TSDictionary();
if (pName1 != string.Empty)
{
parameterDic.SetItem(pName1, pValue1);
}
if (pName2 != string.Empty)
{
parameterDic.SetItem(pName2, pValue2);
}
if (pName3 != string.Empty)
{
parameterDic.SetItem(pName3, pValue3);
}
if (pName4 != string.Empty)
{
parameterDic.SetItem(pName4, pValue4);
}
if (pName5 != string.Empty)
{
parameterDic.SetItem(pName5, pValue5);
}
if (pName6 != string.Empty)
{
parameterDic.SetItem(pName6, pValue6);
}
if (pName7 != string.Empty)
{
parameterDic.SetItem(pName7, pValue7);
}
if (pName8 != string.Empty)
{
parameterDic.SetItem(pName8, pValue8);
}
if (pName9 != string.Empty)
{
parameterDic.SetItem(pName9, pValue9);
}
if (pName10 != string.Empty)
{
parameterDic.SetItem(pName10, pValue10);
}
if (pName11 != string.Empty)
{
parameterDic.SetItem(pName11, pValue11);
}
if (pName12 != string.Empty)
{
parameterDic.SetItem(pName12, pValue12);
}
if (pName13 != string.Empty)
{
parameterDic.SetItem(pName13, pValue13);
}
if (pName14 != string.Empty)
{
parameterDic.SetItem(pName14, pValue14);
}
if (pName15 != string.Empty)
{
parameterDic.SetItem(pName15, pValue15);
}
return(parameterDic);
}
// the function CallStaticFunction (and its overload) allows for calling any public static function of the running!!! UI
// currently the only public functions of the UI are gathered in the class EM_UI.PlugInService.UISessionInfo
// these functions (providing info about pathes, active countries, etc.) are replicated by EM_Common.dll for more convenient calling
// for this purpose the class EM_Common.UISessionInfo uses the function CallStaticFunction below
// in principle plug-ins can use CallStaticFunction themselves, provided we extend the UI by public static functions
public static bool CallStaticFunction(string className, string functionName, out TSObject returnValue, out string errMsg, TSDictionary parameters = null)
{
returnValue = new TSObject(); errMsg = string.Empty; // initialise out-parameters
try
{
Assembly assembly = GetUIAssembly();
// search for class (must be unique match)
Type classType = null; foreach (Type t in assembly.GetExportedTypes())
{
if (t.Name == className)
{
classType = t;
}
}
if (classType == null)
{
throw new Exception($"class {className} not found");
}
// searching for function is more complicated as there could be overloads
List <MethodInfo> possibleMatches = new List <MethodInfo>();
foreach (MethodInfo possibleMatch in classType.GetMethods())
{
if (possibleMatch.Name != functionName)
{
continue;
}
possibleMatches.Add(possibleMatch);
}
if (possibleMatches.Count == 0)
{
throw new Exception($"function {functionName} not found");
}
// now try calling all overloads of the function to hopefully find a matching one
foreach (MethodInfo possibleMatch in possibleMatches)
{
try
{
object[] outParameters = CompileParameterArray(possibleMatch, parameters); // put parameters from dictionary into array with correct order
object[] inParameters = new object[outParameters.Count()]; outParameters.CopyTo(inParameters, 0);
returnValue.SetValue(possibleMatch.Invoke(classType, outParameters));
// gather out- and ref-parameters for appropriate returning
if (parameters != null)
{
parameters.Clear();
ParameterInfo[] parameterInfo = possibleMatch.GetParameters();
for (int i = 0; i < parameterInfo.Count(); ++i)
{
if (parameterInfo[i].ParameterType.IsByRef || parameterInfo[i].IsOut)
{
parameters.SetItem(parameterInfo[i].Name, outParameters[i]);
}
}
}
return(true);
}
catch (Exception exception) // remark: try/catch seems the most secure way to check parameter-matching
{ // "manual" check is quite problematic (consider: derived types, numeric parameters (is it int/long/double), etc.)
if (exception is TargetParameterCountException || exception is ArgumentException)
{
if (possibleMatch != possibleMatches.Last())
{
continue; // continue search as there may be an overload with matching parameters
}
}
throw new Exception("no overload with matching parameters found");
}
}
return(true);
}
catch (Exception exception)
{
errMsg = $"Calling UI-function {className}.{functionName} from other assembly failed: {exception.Message}";
return(false);
}
}
