public MethodResult ProcessMethod(MethodDefinition methodDefinition) { MethodResult methodResult = new MethodResult(); methodResult.MethodName = methodDefinition.FriendlyName(); methodResult.Result = algorithm.Compute(methodDefinition.Body); return methodResult; }
public MethodResult Calculate(MethodDefinition methodDefinition) { int cc = 1; foreach (Instruction instruction in methodDefinition.Body.Instructions) { if (isAnotherPath(instruction.OpCode)) cc++; } var friendlyName = methodDefinition.FriendlyName (); return new MethodResult(friendlyName,cc, isAcceptableComplexity(cc)); }
private MethodResult Calculate(MethodDefinition methodDefinition) { var friendlyName = methodDefinition.FriendlyName(); if (methodDefinition.Body == null) return new MethodResult(friendlyName, 0); int cc = 1; foreach (Instruction instruction in methodDefinition.Body.Instructions) { if (isAnotherPath(instruction.OpCode)) cc++; } return new MethodResult(friendlyName, cc); }
public MethodResult Calculate(MethodDefinition methodDefinition) { _lineNumberCounted = new List<int>(); foreach (Instruction ins in methodDefinition.Body.Instructions.WithSequencePoint()) { if (IsBracketOrReturnOpCode(ins.OpCode)) continue; if (hasLineBeenCounted(ins.SequencePoint.StartLine)) continue; addLine(ins.SequencePoint.StartLine); } var lines = getLineCount(); var pass = isLessThanRecommended(lines); var friendlyName = methodDefinition.FriendlyName (); return new MethodResult(friendlyName, lines, pass); }
private MethodResult Calculate(MethodDefinition methodDefinition) { var friendlyName = methodDefinition.FriendlyName(); if (methodDefinition.Body == null) return new MethodResult(friendlyName, 0); _lineNumberCounted = new List<int>(); foreach (Instruction ins in methodDefinition.Body.Instructions.WithSequencePoint()) { if (IsBracketOrReturnOpCode(ins.OpCode)) continue; if (hasLineBeenCounted(ins.SequencePoint.StartLine)) continue; addLine(ins.SequencePoint.StartLine); } var lines = getLineCount(); return new MethodResult(friendlyName, lines); }