private void Testing(ConverterGraphToDotEnum converterGraphToDotEnum) { try { // Variable ConvertGraphToDot convertGraphToDot; testPath = ReaderWriter.ReaderWriter.CreateTestFile(testsDictionary[converterGraphToDotEnum]); reader = new ReaderWriter.ReaderGraph(testPath, false); graph = reader.ReadFile(); List <Graph.IGraphInterface> graphList = graph.GetGraphProperty().GetComponents(); stringBuilder.AppendLine(converterGraphToDotEnum.ToString()); stringBuilder.AppendLine(graph.ToString()); stringBuilder.AppendLine("Standard graph"); convertGraphToDot = new ConvertGraphToDot(graphList, false, true, true, true, true); stringBuilder.AppendLine(convertGraphToDot.Convert()); stringBuilder.AppendLine("Uncolored schedule"); convertGraphToDot = new ConvertGraphToDot(graphList, true, true, true, true, true); stringBuilder.AppendLine(convertGraphToDot.Convert()); GraphColoringAlgorithm.SequenceAlgorithm.LargestFirstSequence.LargestFirstSequence largestFirstSequence; foreach (Graph.IGraphInterface graph in graphList) { largestFirstSequence = new GraphColoringAlgorithm.SequenceAlgorithm.LargestFirstSequence.LargestFirstSequence(graph, GraphColoringAlgorithm.GraphColoringAlgorithm.GraphColoringAlgorithInterchangeEnum.none); largestFirstSequence.Color(); } stringBuilder.AppendLine("Colored schedule"); convertGraphToDot = new ConvertGraphToDot(graphList, true, true, true, true, true); stringBuilder.AppendLine(convertGraphToDot.Convert()); } catch (KeyNotFoundException) { throw new MyException.TestsException.TestsMissingTestException(converterGraphToDotEnum.ToString()); } catch (MyException.ReaderWriterException.ReaderWriterException e) { stringBuilder.AppendLine(e.Message); } }
private void Testing(PathEnum pathEnum) { try { Graph.IGraphInterface graph; GraphColoringAlgorithm.SequenceAlgorithm.RandomSequence.RandomSequence randomSequence; GraphColoringAlgorithm.SequenceAlgorithm.LargestFirstSequence.LargestFirstSequence largestFirstSequence; testPath = ReaderWriter.CreateTestFile(testsDictionary[pathEnum]); reader = new ReaderGraph(testPath, false); writer = new WriterGraph(testPath, false); stringBuilder.AppendLine(pathEnum.ToString()); try { switch (pathEnum) { case PathEnum.write: graph = reader.ReadFile(); randomSequence = new GraphColoringAlgorithm.SequenceAlgorithm.RandomSequence.RandomSequence(graph); randomSequence.Color(); writer.WriteFileColor(graph, GraphColoringAlgorithm.GraphColoringAlgorithm.GraphColoringAlgorithmEnum.randomSequence, false); reader.ReadFile(); stringBuilder.AppendLine("OK"); break; case PathEnum.recordExists: graph = reader.ReadFile(); largestFirstSequence = new GraphColoringAlgorithm.SequenceAlgorithm.LargestFirstSequence.LargestFirstSequence(graph); largestFirstSequence.Color(); if (!writer.WriteFileColor(graph, GraphColoringAlgorithm.GraphColoringAlgorithm.GraphColoringAlgorithmEnum.largestFirstSequence, false)) { stringBuilder.AppendLine("OK"); } else { stringBuilder.AppendLine("NOK"); } reader.ReadFile(); break; case PathEnum.first: graph = reader.ReadFile(); randomSequence = new GraphColoringAlgorithm.SequenceAlgorithm.RandomSequence.RandomSequence(graph); randomSequence.Color(); writer.WriteFileColor(graph, GraphColoringAlgorithm.GraphColoringAlgorithm.GraphColoringAlgorithmEnum.randomSequence, false); reader.ReadFile(); stringBuilder.AppendLine("OK"); break; default: stringBuilder.AppendLine("This pathEnum isn't implemented!"); break; } } catch (MyException.ReaderWriterException.ReaderWriterException e) { stringBuilder.AppendLine(e.Message); } catch (MyException.GraphException.GraphException e) { stringBuilder.AppendLine(e.Message); } } catch (KeyNotFoundException) { throw new MyException.TestsException.TestsMissingTestException(pathEnum.ToString()); } catch (MyException.ReaderWriterException.ReaderWriterException e) { stringBuilder.AppendLine(e.Message); } }