static long Parse(string expr1, string expr2) { MathParser parser = new MathParser(); bool isRadians = false; stopWatch.Restart(); double d1 = parser.Parse(expr1, isRadians); double d2 = parser.Parse(expr2, isRadians); stopWatch.Stop(); return(stopWatch.ElapsedTicks); }
public List<GlycanCompositionTable> calnumbers(List<GlycanCompositionTable> Table) { List<GlycanCompositionTable> CoTa0 = new List<GlycanCompositionTable>(); String oneBound = ""; foreach (GlycanCompositionTable j in Table) { List<String> CoTatwo = new List<String>(); foreach (String bound in j.Bound) { oneBound = ""; MathParser Pa = new MathParser(); oneBound = Convert.ToString(Pa.Parse(bound, false)); CoTatwo.Add(oneBound); } j.Bound.Clear(); //While we're at it, we'll remove the duplicate bounds also. j.Bound.AddRange(CoTatwo.Distinct().ToList()); } CoTa0 = Table; return CoTa0; }
private List<CompositionHypothesisEntry> checkAddRules(List<CompositionHypothesisEntry> Ans, GlycanHypothesisCombinatorialGenerator GD) { List<CompositionHypothesisEntry> CHy = new List<CompositionHypothesisEntry>(); List<string> elementIDs = new List<string>(); for (int j = 0; j < Ans.Count(); j++) { if (Ans[j].ElementNames.Count > 0) { for (int i = 0; i < Ans[j].ElementNames.Count(); i++) { elementIDs.Add(Ans[j].ElementNames[i]); } break; } } for (int i = 0; i < CHy.Count(); i++) { CHy[i].ElementNames.Clear(); CHy[i].MoleculeNames.Clear(); if (i == CHy.Count() - 1) { CHy[0].ElementNames = elementIDs; } } Boolean RowGood = true; try { if (GD.aTable.Count != 0) { for (int j = 0; j < Ans.Count; j++) { for (int i = 0; i < GD.aTable.Count(); i++) { //MessageBox.Show(Convert.ToString(c)); String equation = translet(Ans[j], GD.aTable[i]); String Relationship = GD.aTable[i].Relationship; String Constraint = GD.aTable[i].Constraint; Constraint = converConstraints(Ans[j],Constraint); //Five relationships //First one if (Relationship == "=") { MathParser parser = new MathParser(); Double solution = parser.Parse(equation, false); //only 3 situation exists //Equals to Even if (Constraint == "even") { if (solution % 2 != 0) { RowGood = false; } continue; } //Equals to Odd if (Constraint == "odd") { if (solution % 2 != 1) { RowGood = false; } continue; } //Equals to a number MathParser parser2 = new MathParser(); Double solution2 = parser2.Parse(Constraint, false); if (solution != solution2) { RowGood = false; } continue; } //Second one else if (Relationship == ">") { MathParser parser = new MathParser(); Double solution = parser.Parse(equation, false); //only 1 situation exists //Equals to a number MathParser parser2 = new MathParser(); Double solution2 = parser2.Parse(Constraint, false); if (solution <= solution2) { RowGood = false; } continue; } //Third one else if (Relationship == "<") { MathParser parser = new MathParser(); Double solution = parser.Parse(equation, false); //only 1 situation exists //Equals to a number MathParser parser2 = new MathParser(); Double solution2 = parser2.Parse(Constraint, false); if (solution >= solution2) { RowGood = false; } continue; } //Forth one else if (Relationship == "≥") { MathParser parser = new MathParser(); Double solution = parser.Parse(equation, false); //only 1 situation exists //Equals to a number MathParser parser2 = new MathParser(); Double solution2 = parser2.Parse(Constraint, false); if (solution < solution2) { RowGood = false; } continue; } //Fifth one else if (Relationship == "≤") { MathParser parser = new MathParser(); Double solution = parser.Parse(equation, false); //only 1 situation exists //Equals to a number MathParser parser2 = new MathParser(); Double solution2 = parser2.Parse(Constraint, false); if (solution > solution2) { RowGood = false; } continue; } //Last one else if (Relationship == "≠") { MathParser parser = new MathParser(); Double solution = parser.Parse(equation, false); //only 1 situation exists //Equals to a number MathParser parser2 = new MathParser(); Double solution2 = parser2.Parse(Constraint, false); if (solution == solution2) { RowGood = false; } continue; } } if (RowGood) CHy.Add(Ans[j]); else RowGood = true; } } else { CHy.AddRange(Ans); } } catch (Exception ex) { MessageBox.Show("Error in Additional Rule Table. Please refer to the help section and check your input. Error Code:" + ex); } for (int i = 0; i < CHy.Count(); i++) { CHy[i].ElementNames.Clear(); CHy[i].MoleculeNames.Clear(); if (i == CHy.Count() - 1) { CHy[0].ElementNames = elementIDs; } } return CHy; }
private Double getFragmentMass(String Fra) { String translate = "0"; aminoAcidMass AAMass = new aminoAcidMass(); foreach (char i in Fra) { translate = translate + "+" + Convert.ToString(AAMass.getMass(Convert.ToString(i))); } MathParser MTK = new MathParser(); Double mass = MTK.Parse(translate, false); return mass; }
/// <summary> /// Evaluates the string in the textbox /// </summary> /// <param name="sender"></param> /// <param name="e"></param> private void btnEquals_Click(object sender, EventArgs e) { MathParser parser = new MathParser(); string equation = mathText.Text; bool isRadians = false; try { result = parser.Parse(equation, isRadians); mathText.Text = result.ToString(); specialEvent = true; } catch (InvalidOperationException) { MessageBox.Show("Invalid Operation!"); } }
/// <summary> /// Store the evaluated equation in the textbox and store it into a variable /// </summary> /// <param name="sender"></param> /// <param name="e"></param> private void btnMS_Click(object sender, EventArgs e) { MathParser parser = new MathParser(); string equation = mathText.Text; bool isRadians = false; try { storedNumber = parser.Parse(equation, isRadians); lblStoreNumber.Text = "M"; specialEvent = true; } catch (InvalidOperationException) { } }
public static void TestReplaceVariablesWithValues(Thing thing, ThingPart thingPart) { #if !UNITY_EDITOR return; #endif if (!didExpressionTest) { didExpressionTest = true; bool incorrectFound = false; thing.behaviorScriptVariables = new Dictionary <string, float>(); Managers.areaManager.behaviorScriptVariables = new Dictionary <string, float>(); thing.behaviorScriptVariables.Add("foo", 257.6f); Managers.areaManager.behaviorScriptVariables.Add("area.gold", 6f); Dictionary <string, float> tests = new Dictionary <string, float> { { "18", 18.00f }, { "foo", 257.60f }, { "bar", 0.00f }, { "foo / 10", 25.76f }, { "foo/10", 25.76f }, { "foo / 10 + foo * 2", 540.96f }, { "foo/10+foo*2", 540.96f }, { "floor(6.6)", 6.00f }, { "floor(foo)", 257.00f }, { "floor(foo / 10)", 25.00f }, { " floor ( foo / 10 ) ", 25.00f }, { "ceil( floor(foo / 10) * 2.5)", 63.00f }, { "area.gold + area.bar", 6.00f }, { "area.gold + area.gold", 12.00f }, { "smaller(23 17)", 17.00f }, { "smaller(foo 17)", 17.00f }, { "smaller(17 foo)", 17.00f }, { "smaller(17 foo 18) * [foo (bar smaller **", -1f }, }; MathParserTK.MathParser parser = new MathParserTK.MathParser(); foreach (KeyValuePair <string, float> test in tests) { string expression = test.Key; float correctResult = test.Value; Debug.Log("Before: " + expression); expression = ReplaceVariablesWithValues(thing, thingPart, expression, doDebug: true); Debug.Log("After: " + expression); float result = -1f; try { result = (float)parser.Parse(expression); } catch { } Debug.Log("Result: " + result); bool isCorrect = result == correctResult; if (!isCorrect) { incorrectFound = true; } Debug.Log(isCorrect ? "Correct" : ">>> Incorrect (expected " + correctResult.ToString() + ")" ); Debug.Log("------------------"); } Debug.Log(!incorrectFound ? "- All Correct -" : "- Some incorrect -"); } }