/// <summary>
/// Uses the primary input in evalInput to depermine which curve equation needs to be
/// evaluated. Then evaluates the appropriate curve equation using the given input.
/// </summary>
/// <param name="evalInput">Stores info neede to evaluate an expression</param>
/// <returns>
/// Returns the output of the evaluated equation. The return status will not be valid if
/// the equation could not be evaluated.
/// </returns>
public ReturnStatus <double> Evaluate(EvaluationCurveInput evalInput)
{
var erroneousPoints = new HashSet <int>();
var controlPointValuesStatus = CalculateControlPointValues(evalInput.VariableParamInfoList, evalInput.TransformParamInfoList, evalInput.PointEquations, ref erroneousPoints);
if (controlPointValuesStatus.IsValid)
{
EvaluationCurveJob evalCurveJob = new EvaluationCurveJob();
string expressionStr = GetCurveExpressionString(evalInput.getPrimaryInputVal(), controlPointValuesStatus.Value, evalInput.CurveEquations);
var returnedExpression = CreateExpressionFromString(expressionStr, EvalType.Curve);
if (returnedExpression.IsValid)
{
evalCurveJob.Configure(evalInput, controlPointValuesStatus.Value, returnedExpression.Value);
evalCurveJob.Execute();
if (evalCurveJob.OutputIsValid)
{
return(new ReturnStatus <double>(evalCurveJob.OutputVal, true));
}
}
}
return(new ReturnStatus <double>(double.NaN, false));
}
/// <summary>
/// Uses the primary input in evalInput to depermine which curve equation needs to be
/// evaluated. Then evaluates the appropriate curve equation using the given input.
/// </summary>
/// <param name="evalInput">Stores info neede to evaluate an expression</param>
/// <returns>
/// Returns the output of the evaluated equation. The return status will not be valid if
/// the equation could not be evaluated.
/// </returns>
public ReturnStatus<double> Evaluate(EvaluationCurveInput evalInput)
{
var erroneousPoints = new HashSet<int>();
var controlPointValuesStatus = CalculateControlPointValues(evalInput.VariableParamInfoList, evalInput.TransformParamInfoList, evalInput.PointEquations, ref erroneousPoints);
if (controlPointValuesStatus.IsValid) {
EvaluationCurveJob evalCurveJob = new EvaluationCurveJob();
string expressionStr = GetCurveExpressionString(evalInput.getPrimaryInputVal(), controlPointValuesStatus.Value, evalInput.CurveEquations);
var returnedExpression = CreateExpressionFromString(expressionStr, EvalType.Curve);
if (returnedExpression.IsValid) {
evalCurveJob.Configure(evalInput, controlPointValuesStatus.Value, returnedExpression.Value);
evalCurveJob.Execute();
if (evalCurveJob.OutputIsValid)
{
return new ReturnStatus<double>(evalCurveJob.OutputVal, true);
}
}
}
return new ReturnStatus<double>(double.NaN, false);
}
protected ReturnStatus <XyPoint <double> > evaluateCurveAtXVal(double inputXVal, int curveIndex, IMappingEntry mappingEntry, List <MssParamInfo> variableParamInfoList, List <XyPoint <double> > controlPointList)
{
//For each sample point data1 data2 and data3 will be set to the X value of the
//sample point.
double relData1 = inputXVal;
double relData2 = inputXVal;
double relData3 = inputXVal;
IStaticMssMsgInfo inMsgInfo =
Factory_StaticMssMsgInfo.Create(mappingEntry.InMssMsgRange.MsgType);
//If curXVal is outside of the relative input range for data 1 then set
//relData1 to NaN
double max = (double)inMsgInfo.MaxData1Value;
double min = (double)inMsgInfo.MinData1Value;
double bottom = (double)mappingEntry.InMssMsgRange.Data1RangeBottom;
double top = (double)mappingEntry.InMssMsgRange.Data1RangeTop;
if (inputXVal < ((bottom - min) / (max - min + 1)) ||
inputXVal > ((top - min) / (max - min + 1)))
{
relData1 = double.NaN;
}
//If curXVal is outside of the relative input range for data 2 then set relData2
//to NaN
max = (double)inMsgInfo.MaxData2Value;
min = (double)inMsgInfo.MinData2Value;
bottom = (double)mappingEntry.InMssMsgRange.Data2RangeBottom;
top = (double)mappingEntry.InMssMsgRange.Data2RangeTop;
if (inputXVal < ((bottom - min) / (max - min + 1)) ||
inputXVal > ((top - min) / (max - min + 1)))
{
relData2 = double.NaN;
}
var evalInput = new EvaluationCurveInput();
evalInput.Init(
relData1,
relData2,
relData3,
variableParamInfoList,
mappingEntry);
var evalJob = new EvaluationCurveJob();
var returnedExpression = CreateExpressionFromString(mappingEntry.CurveShapeInfo.CurveEquations[curveIndex], EvalType.Curve);
if (returnedExpression.IsValid == false)
{
return(new ReturnStatus <XyPoint <double> >());
}
evalJob.Configure(evalInput, controlPointList, returnedExpression.Value);
evalJob.Execute();
if (evalJob.OutputIsValid)
{
var curPoint = new XyPoint <double>(inputXVal, evalJob.OutputVal);
return(new ReturnStatus <XyPoint <double> >(curPoint));
}
else
{
return(new ReturnStatus <XyPoint <double> >());
}
}
protected ReturnStatus<XyPoint<double>> evaluateCurveAtXVal(double inputXVal, int curveIndex, IMappingEntry mappingEntry, List<MssParamInfo> variableParamInfoList, List<XyPoint<double>> controlPointList)
{
//For each sample point data1 data2 and data3 will be set to the X value of the
//sample point.
double relData1 = inputXVal;
double relData2 = inputXVal;
double relData3 = inputXVal;
IStaticMssMsgInfo inMsgInfo =
Factory_StaticMssMsgInfo.Create(mappingEntry.InMssMsgRange.MsgType);
//If curXVal is outside of the relative input range for data 1 then set
//relData1 to NaN
double max = (double)inMsgInfo.MaxData1Value;
double min = (double)inMsgInfo.MinData1Value;
double bottom = (double)mappingEntry.InMssMsgRange.Data1RangeBottom;
double top = (double)mappingEntry.InMssMsgRange.Data1RangeTop;
if (inputXVal < ((bottom - min) / (max - min + 1)) ||
inputXVal > ((top - min) / (max - min + 1)))
{
relData1 = double.NaN;
}
//If curXVal is outside of the relative input range for data 2 then set relData2
//to NaN
max = (double)inMsgInfo.MaxData2Value;
min = (double)inMsgInfo.MinData2Value;
bottom = (double)mappingEntry.InMssMsgRange.Data2RangeBottom;
top = (double)mappingEntry.InMssMsgRange.Data2RangeTop;
if (inputXVal < ((bottom - min) / (max - min + 1)) ||
inputXVal > ((top - min) / (max - min + 1)))
{
relData2 = double.NaN;
}
var evalInput = new EvaluationCurveInput();
evalInput.Init(
relData1,
relData2,
relData3,
variableParamInfoList,
mappingEntry);
var evalJob = new EvaluationCurveJob();
var returnedExpression = CreateExpressionFromString(mappingEntry.CurveShapeInfo.CurveEquations[curveIndex], EvalType.Curve);
if (returnedExpression.IsValid == false)
{
return new ReturnStatus<XyPoint<double>>();
}
evalJob.Configure(evalInput, controlPointList, returnedExpression.Value);
evalJob.Execute();
if (evalJob.OutputIsValid)
{
var curPoint = new XyPoint<double>(inputXVal, evalJob.OutputVal);
return new ReturnStatus<XyPoint<double>>(curPoint);
}
else
{
return new ReturnStatus<XyPoint<double>>();
}
}