/******************************************************************************************** * Constructors ********************************************************************************************/ public QQDataSet( int n, int l, ColorState colorState, PotentialType potentialType, double temperature, double debyeMass, double displacementRMS, double softScale, double ultraSoftScale, double boundMass, double energy, double gammaDamp, double gammaDiss, double gammaTot ) { N = n; L = l; ColorState = colorState; PotentialType = potentialType; Temperature = temperature; DebyeMass = debyeMass; DisplacementRMS = displacementRMS; SoftScale = softScale; UltraSoftScale = ultraSoftScale; BoundMass = boundMass; Energy = energy; GammaDamp = gammaDamp; GammaDiss = gammaDiss; GammaTot = gammaTot; }
public void Test(string methodName, PotentialType expectedType) { var method = typeof (TestTarget.IL.CallParameterTypesRecorderTarget).GetMethod(methodName); var instructions = method.GetInstructions(); var recorder = new CallParameterTypesRecorder(); recorder.Initialize(method); var takeWhile = instructions.TakeWhile(x => x.OpCode != OpCodes.Nop); var state = recorder.Visit(TypeAnalysisState.Empty, takeWhile); Assert.That(state.StackTop, Is.EqualTo(expectedType)); }
private void CreatePotentialPlotFile() { StringBuilder plotFile = new StringBuilder(); plotFile.AppendLine("reset"); plotFile.AppendLine("set terminal windows enhanced size 1000,500"); plotFile.AppendLine(); plotFile.AppendLine("set title 'Potential (V): " + PotentialType.ToString() + "'"); plotFile.AppendLine("set xlabel 'Radius (fm)'"); plotFile.AppendLine("set ylabel 'Re V, Im V (MeV)'"); plotFile.AppendLine(); AppendPlotCommands(plotFile, style: "lines", titles: new string[] { "Re V", "Im V" }); WritePlotFile(plotFile); }
public Type GetExecutedCommandType(PotentialType[] actualParameterTypes) { return actualParameterTypes[0].Type; }
private static int FindLineIndex( List <string> allLines, int n, int l, ColorState colorState, PotentialType potentialType, double temperature, out bool lineFound ) { lineFound = false; int lineIndex; for (lineIndex = 0; lineIndex < allLines.Count; lineIndex++) { // skip commentary if (IsCommentaryLine(allLines[lineIndex])) { continue; } string[] values = SplitLineIntoValues(allLines[lineIndex]); int nComparison = int.Parse(values[(int)QQDataColumn.N]) - n; if (nComparison < 0) { continue; } else if (nComparison > 0) { // new N value - insert new line here... return(lineIndex); } int lComparison = int.Parse(values[(int)QQDataColumn.L]) - l; if (lComparison < 0) { continue; } else if (lComparison > 0) { // new L value - insert new line here... return(lineIndex); } int colorStateComparison = (int)Enum.Parse(typeof(ColorState), values[(int)QQDataColumn.ColorState]) - (int)colorState; if (colorStateComparison < 0) { continue; } else if (colorStateComparison > 0) { // new ColorState value - insert new line here... return(lineIndex); } double temperatureComparison = double.Parse(values[(int)QQDataColumn.Temperature]) - temperature; if (temperatureComparison < 0) { continue; } if (temperatureComparison > 0) { // new temperature value - insert new line here... return(lineIndex); } int potentialTypeComparison = (int)Enum.Parse(typeof(PotentialType), values[(int)QQDataColumn.PotentialType]) - (int)potentialType; if (potentialTypeComparison < 0) { continue; } else if (potentialTypeComparison > 0) { // new PotentialType value - insert new line here... return(lineIndex); } // all values match - update this line... lineFound = true; return(lineIndex); } return(lineIndex); }
public MethodCallLink(Type[] genericMethodArguments, PotentialType[][] actualParameterTypes) { this.GenericMethodArguments = genericMethodArguments; this.ActualParameterTypes = actualParameterTypes; }