public void CompileTest() { Thread.CurrentThread.CurrentCulture = new CultureInfo("fr-FR"); string testEquation = "3.2+2"; EqCompiler compiler = new EqCompiler(testEquation, true); compiler.Compile(); Assert.AreEqual(5.2, compiler.Calculate()); }
public static void getEquationInterpolation(string equationString, double startTime, double endTime, int nSamples, int startIndex, double[]output, List<Variable> existingVariables, List<Waveform> existingCommonWaveforms, double wfDuration) { string status = getEquationStatusString(equationString, existingVariables, existingCommonWaveforms); if (status == "Valid equation.") { // HERE WE GO! dotMath.EqCompiler eq = new EqCompiler(equationString, true); // This should not fail, because if it did we would have caught it with the status check eq.Compile(); string [] foundvars = eq.GetVariableList(); Dictionary<string, Waveform> waveformDependentVariables = new Dictionary<string, Waveform>(); bool usingTimeVariable = false; bool usingCommonWaveforms = false; if (foundvars != null) { foreach (string varname in foundvars) { bool variableMapped = false; if (varname != "t") { foreach (Variable var in existingVariables) { if (var.VariableName == varname) { eq.SetVariable(varname, var.VariableValue); variableMapped = true; } } } if (varname == "t") { usingTimeVariable = true; variableMapped = true; } // variable named varname has not yet been mapped. Thus it must be a common waveform if (!variableMapped) { if (existingCommonWaveforms != null) { foreach (Waveform wf in existingCommonWaveforms) { if (wf.WaveformName == varname) { if (!waveformDependentVariables.ContainsKey(varname)) { waveformDependentVariables.Add(varname, wf); usingCommonWaveforms = true; } } } } } } } Dictionary<Waveform, double[]> commonWaveformInterpolations = new Dictionary<Waveform, double[]>(); if (usingCommonWaveforms) { foreach (Waveform wf in waveformDependentVariables.Values) { WaveformEquationInterpolator.stackCount++; if (stackCount > 40) { stackCount = 0; throw new InvalidDataException("Stack count has reached 40 when attempting to interpolation an equation waveform. You have probably created a recursive reference loop using waveform equations. Please remove the offending circular references. Aborting interpolation."); } double[] interpol = wf.getInterpolation(nSamples, startTime, endTime, existingVariables, existingCommonWaveforms); commonWaveformInterpolations.Add(wf, interpol); stackCount--; } } for (int i = 0; i < nSamples; i++) { if (usingTimeVariable) { double time = i * (endTime - startTime) / (double)nSamples + startTime; if (time > wfDuration) time = wfDuration; eq.SetVariable("t", time); } if (usingCommonWaveforms) { foreach (string vname in waveformDependentVariables.Keys) { eq.SetVariable(vname, commonWaveformInterpolations[waveformDependentVariables[vname]][i]); } } try { double val = eq.Calculate(); if ((!double.IsInfinity(val)) && (!double.IsNaN(val))) { output[i + startIndex] = eq.Calculate(); } } catch (Exception) { return; } } } }