public void Creation3() { var f = new NFFFile(NFFFileType.SVLFile, NFFFileVersion.Version1_6); f.NFFFileType.Should().Be(NFFFileType.SVLFile); f.FileVersion.Should().Be(NFFFileVersion.Version1_6); }
public void CreateDXFFromMasterAlignment(string fileName, string compareFileName) { var f = NFFFile.CreateFromFile(Path.Combine("TestData", "Common", fileName)); var master = f.GuidanceAlignments?.Where(x => x.IsMasterAlignment()).FirstOrDefault(); master.Should().NotBeNull(); var export = new ExportToDXF { AlignmentLabelingInterval = 10, Units = DistanceUnitsType.Meters }; export.ConstructSVLCenterlineDXFAlignment(master, out var calcResult, out var MS).Should().BeTrue(); calcResult.Should().Be(DesignProfilerRequestResult.OK); MS.Should().NotBeNull(); // File.WriteAllBytes(Path.GetTempFileName() + fileName + ".MasterAlignment.DXF", MS.ToArray()); // The Writer writes lines with environment line endings. Done this way we read the file with environment line endings and have // more accurate equality checking vs ReadAllBytes. var input = File.ReadAllLines(Path.Combine("TestData", "Common", compareFileName)); var sb = new StringBuilder(); foreach (var s in input) { sb.Append(s + Environment.NewLine); } // Compare with known good file var goodFile = Encoding.UTF8.GetBytes(sb.ToString()); MS.ToArray().Should().BeEquivalentTo(goodFile); }
public void Creation2(NFFFileType fileType) { var f = new NFFFile(fileType); f.Should().NotBeNull(); f.NFFFileType.Should().Be(fileType); }
public void Creation4() { var f = new NFFFile(NFFFileType.SVLFile, NFFFileVersion.Version1_6, 100); f.NFFFileType.Should().Be(NFFFileType.SVLFile); f.FileVersion.Should().Be(NFFFileVersion.Version1_6); f.GridSize.Should().Be(100); }
public void CreateFromFile(string fileName, NFFFileType fileType, NFFFileVersion fileVersion) { var f = NFFFile.CreateFromFile(Path.Combine("TestData", "Common", fileName)); f.ErrorStatus.Should().Be(NFFErrorStatus.OK); f.NFFFileType.Should().Be(fileType); f.FileVersion.Should().Be(fileVersion); }
public void Load_Files(string fileName) { var f = new NFFFile(NFFFileType.SVLFile); f.LoadFromFile(Path.Combine("TestData", "Common", fileName)).Should().Be(true); f.ErrorStatus.Should().Be(NFFErrorStatus.OK); f.GuidanceAlignments.Should().NotBeNull(); f.GuidanceAlignments.Count.Should().BeGreaterThan(0); }
/// <summary> /// Loads the content of an SVL file into a memory model for use /// </summary> public override DesignLoadResult LoadFromFile(string fileName, bool saveIndexFiles = true) { DesignLoadResult result; var nffFile = NFFFile.CreateFromFile(fileName); try { result = nffFile.GuidanceAlignments.Count > 0 ? DesignLoadResult.NoAlignmentsFound : DesignLoadResult.NoMasterAlignmentsFound; for (var i = 0; i < nffFile.GuidanceAlignments.Count; i++) { if (nffFile.GuidanceAlignments[i].IsMasterAlignment()) { _data = nffFile.GuidanceAlignments[i]; nffFile.GuidanceAlignments.RemoveAt(i); if (_data != null) { _boundingBox = _data.BoundingBox(); result = DesignLoadResult.Success; } break; } } if (result == DesignLoadResult.NoAlignmentsFound) { _log.LogDebug($"SVL file {fileName} contains no guidance alignments"); } if (result == DesignLoadResult.NoMasterAlignmentsFound) { _log.LogDebug($"SVL file {fileName} contains {nffFile.GuidanceAlignments.Count} alignments, none of which are master alignments"); } } catch (Exception e) { _log.LogError(e, $"Exception in {nameof(LoadFromFile)}"); result = DesignLoadResult.UnknownFailure; } return(result); }
public void DetermineBoundary(string fileName, NFFFileType fileType, NFFFileVersion fileVersion) { var f = NFFFile.CreateFromFile(Path.Combine("TestData", "Common", fileName)); f.ErrorStatus.Should().Be(NFFErrorStatus.OK); f.NFFFileType.Should().Be(fileType); f.FileVersion.Should().Be(fileVersion); var master = f.GuidanceAlignments?.Where(x => x.IsMasterAlignment()).FirstOrDefault(); var determinator = new SVLAlignmentBoundaryDeterminator(master, master.StartStation, master.EndStation, -1, 1); determinator.Should().NotBeNull(); determinator.DetermineBoundary(out DesignProfilerRequestResult calcResult, out Fence fence); calcResult.Should().Be(DesignProfilerRequestResult.OK); fence.Should().NotBeNull(); }
public void Load_Dimensions2012_Milling() { var f = new NFFFile(NFFFileType.SVLFile); f.LoadFromFile(Path.Combine("TestData", "Common", "Milling - Milling.svl")).Should().Be(true); }
public void Load_Dimensions2012_TopConRoad() { var f = new NFFFile(NFFFileType.SVLFile); f.LoadFromFile(Path.Combine("TestData", "Common", "Topcon Road - Topcon Phil.svl")).Should().Be(true); }
public void Load_Dimensions2012_LargeSiteRoad() { var f = new NFFFile(NFFFileType.SVLFile); f.LoadFromFile(Path.Combine("TestData", "Common", "Large Sites Road - Trimble Road.svl")).Should().Be(true); }
public void Load_CERA() { var f = new NFFFile(NFFFileType.SVLFile); f.LoadFromFile(Path.Combine("TestData", "Common", "CERA.SVL")).Should().Be(true); }
public void Creation() { var f = new NFFFile(); f.Should().NotBeNull(); }