public static void CreateHeader(IDfsFileInfo fi, DfsBuilder builder, IDfsTemporalAxis timeAxis) { builder.SetDataType(fi.DataType); builder.SetGeographicalProjection(fi.Projection); builder.SetTemporalAxis(timeAxis); builder.SetItemStatisticsType(fi.StatsType); builder.DeleteValueByte = fi.DeleteValueByte; builder.DeleteValueDouble = fi.DeleteValueDouble; builder.DeleteValueFloat = fi.DeleteValueFloat; builder.DeleteValueInt = fi.DeleteValueInt; builder.DeleteValueUnsignedInt = fi.DeleteValueUnsignedInt; if (fi.IsFileCompressed) { int[] xKey; int[] yKey; int[] zKey; fi.GetEncodeKey(out xKey, out yKey, out zKey); builder.SetEncodingKey(xKey, yKey, zKey); } foreach (var cb in fi.CustomBlocks) { builder.AddCustomBlock(cb); } }
/// <summary> /// Example of how to copy a Dfs file. /// <para> /// This example is intended to show how to generically copy a file. In /// case a copy with modified data is required, this could be used as a base /// for the copy. /// </para> /// </summary> /// <param name="sourceFilename">Path and name of the source dfs file</param> /// <param name="filename">Path and name of the new file to create</param> public static void CopyDfsFile(string sourceFilename, string filename) { IDfsFile source = DfsFileFactory.DfsGenericOpen(sourceFilename); IDfsFileInfo fileInfo = source.FileInfo; DfsBuilder builder = DfsBuilder.Create(fileInfo.FileTitle, fileInfo.ApplicationTitle, fileInfo.ApplicationVersion); // Set up the header builder.SetDataType(fileInfo.DataType); builder.SetGeographicalProjection(fileInfo.Projection); builder.SetTemporalAxis(fileInfo.TimeAxis); builder.SetItemStatisticsType(fileInfo.StatsType); builder.DeleteValueByte = fileInfo.DeleteValueByte; builder.DeleteValueDouble = fileInfo.DeleteValueDouble; builder.DeleteValueFloat = fileInfo.DeleteValueFloat; builder.DeleteValueInt = fileInfo.DeleteValueInt; builder.DeleteValueUnsignedInt = fileInfo.DeleteValueUnsignedInt; // Transfer compression keys - if any. if (fileInfo.IsFileCompressed) { int[] xkey; int[] ykey; int[] zkey; fileInfo.GetEncodeKey(out xkey, out ykey, out zkey); builder.SetEncodingKey(xkey, ykey, zkey); } // Copy custom blocks - if any foreach (IDfsCustomBlock customBlock in fileInfo.CustomBlocks) { builder.AddCustomBlock(customBlock); } // Copy dynamic items foreach (var itemInfo in source.ItemInfo) { builder.AddDynamicItem(itemInfo); } // Create file builder.CreateFile(filename); // Copy static items IDfsStaticItem sourceStaticItem; while (null != (sourceStaticItem = source.ReadStaticItemNext())) { builder.AddStaticItem(sourceStaticItem); } // Get the file DfsFile file = builder.GetFile(); // Copy dynamic item data IDfsItemData sourceData; while (null != (sourceData = source.ReadItemTimeStepNext())) { file.WriteItemTimeStepNext(sourceData.Time, sourceData.Data); } source.Close(); file.Close(); }
/// <summary> /// Create a new file, being the difference of two files. /// <para> /// The two input files must be equal in structure, e.g. coming /// from the same simulation but giving different results. /// Header and static data must be identical, only difference /// must be in values of the dynamic data. /// </para> /// </summary> public static void CreateDiffFile(string file1, string file2, string filediff = null) { IDfsFile dfs1 = DfsFileFactory.DfsGenericOpen(file1); IDfsFile dfs2 = DfsFileFactory.DfsGenericOpen(file2); // Validate that it has the same number of items. if (dfs1.ItemInfo.Count != dfs2.ItemInfo.Count) { throw new Exception("Number of dynamic items does not match"); } int numItems = dfs1.ItemInfo.Count; // In case number of time steps does not match, take the smallest. int numTimes = dfs1.FileInfo.TimeAxis.NumberOfTimeSteps; if (numTimes > dfs2.FileInfo.TimeAxis.NumberOfTimeSteps) { numTimes = dfs2.FileInfo.TimeAxis.NumberOfTimeSteps; Console.Out.WriteLine("Number of time steps does not match, using the smallest number"); } // For recording max difference for every item double[] maxDiff = new double[dfs1.ItemInfo.Count]; // Index in time (index) of maximum and first difference. -1 if no difference int[] maxDiffTime = new int[dfs1.ItemInfo.Count]; int[] firstDiffTime = new int[dfs1.ItemInfo.Count]; for (int i = 0; i < dfs1.ItemInfo.Count; i++) { maxDiffTime[i] = -1; firstDiffTime[i] = -1; } // Copy over info from the first file, assuming the second file contains the same data. IDfsFileInfo fileInfo = dfs1.FileInfo; DfsBuilder builder = null; if (!string.IsNullOrEmpty(filediff)) { builder = DfsBuilder.Create(fileInfo.FileTitle, fileInfo.ApplicationTitle, fileInfo.ApplicationVersion); // Set up the header builder.SetDataType(fileInfo.DataType); builder.SetGeographicalProjection(fileInfo.Projection); builder.SetTemporalAxis(fileInfo.TimeAxis); builder.SetItemStatisticsType(fileInfo.StatsType); builder.DeleteValueByte = fileInfo.DeleteValueByte; builder.DeleteValueDouble = fileInfo.DeleteValueDouble; builder.DeleteValueFloat = fileInfo.DeleteValueFloat; builder.DeleteValueInt = fileInfo.DeleteValueInt; builder.DeleteValueUnsignedInt = fileInfo.DeleteValueUnsignedInt; // Transfer compression keys. if (fileInfo.IsFileCompressed) { int[] xkey; int[] ykey; int[] zkey; fileInfo.GetEncodeKey(out xkey, out ykey, out zkey); builder.SetEncodingKey(xkey, ykey, zkey); } // Copy custom blocks foreach (IDfsCustomBlock customBlock in fileInfo.CustomBlocks) { builder.AddCustomBlock(customBlock); } } // Copy dynamic item definitions bool[] floatItems = new bool[dfs1.ItemInfo.Count]; for (int i = 0; i < dfs1.ItemInfo.Count; i++) { var itemInfo = dfs1.ItemInfo[i]; // Validate item sizes var itemInfo2 = dfs2.ItemInfo[i]; if (itemInfo.ElementCount != itemInfo2.ElementCount) { throw new Exception("Dynamic items must have same size, item number " + (i + 1) + " has different sizes in the two files"); } // Validate the data type, only supporting floats and doubles. if (itemInfo.DataType == DfsSimpleType.Float) { floatItems[i] = true; } else if (itemInfo.DataType != DfsSimpleType.Double) { throw new Exception("Dynamic item must be double or float, item number " + (i + 1) + " is of type " + (itemInfo.DataType)); } builder?.AddDynamicItem(itemInfo); } // Create file builder?.CreateFile(filediff); if (builder != null) { // Copy over static items from file 1, assuming the static items of file 2 are identical IDfsStaticItem si1; while (null != (si1 = dfs1.ReadStaticItemNext())) { builder.AddStaticItem(si1); } } // Get the file DfsFile diff = builder?.GetFile(); // Write dynamic data to the file, being the difference between the two for (int i = 0; i < numTimes; i++) { for (int j = 0; j < numItems; j++) { if (floatItems[j]) { IDfsItemData <float> data1 = dfs1.ReadItemTimeStepNext() as IDfsItemData <float>; IDfsItemData <float> data2 = dfs2.ReadItemTimeStepNext() as IDfsItemData <float>; for (int k = 0; k < data1.Data.Length; k++) { float valuediff = data1.Data[k] - data2.Data[k]; data1.Data[k] = valuediff; float absValueDiff = Math.Abs(valuediff); if (absValueDiff > maxDiff[j]) { maxDiff[j] = absValueDiff; maxDiffTime[j] = i; if (firstDiffTime[j] == -1) { firstDiffTime[j] = i; } } } diff?.WriteItemTimeStepNext(data1.Time, data1.Data); } else { IDfsItemData <double> data1 = dfs1.ReadItemTimeStepNext() as IDfsItemData <double>; IDfsItemData <double> data2 = dfs2.ReadItemTimeStepNext() as IDfsItemData <double>; for (int k = 0; k < data1.Data.Length; k++) { double valuediff = data1.Data[k] - data2.Data[k]; data1.Data[k] = valuediff; double absValueDiff = Math.Abs(valuediff); if (absValueDiff > maxDiff[j]) { maxDiff[j] = absValueDiff; maxDiffTime[j] = i; if (firstDiffTime[j] == -1) { firstDiffTime[j] = i; } } } diff?.WriteItemTimeStepNext(data1.Time, data1.Data); } } } System.Console.WriteLine("Difference statistics:"); for (int i = 0; i < maxDiffTime.Length; i++) { if (maxDiffTime[i] < 0) { Console.WriteLine("{0,-30}: no difference", dfs1.ItemInfo[i].Name); } else { Console.WriteLine("{0,-30}: Max difference at timestep {1,3}: {2}. First difference at timestep {3}", dfs1.ItemInfo[i].Name, maxDiffTime[i], maxDiff[i], firstDiffTime[i]); } } dfs1.Close(); dfs2.Close(); diff?.Close(); }
/// <summary> /// Example of how to merge two or more dfs files. The merger is on dynamic item basis, /// i.e. add all dynamic items of a number of dfs files to a new dfs file. /// <para> /// It is assumed that all files has the same time stepping layout. It will merge /// as many time steps as the file with the least number of timesteps. /// </para> /// <para> /// If merging one of the specific types of dfs files, dfs0 or dfs1 or dfs2 or dfs3, /// the structure of the files must be identical, i.e. the sizes of the axis must equal. /// Otherwise, the outcome will not be a valid dfs0/1/2/3 file. /// </para> /// </summary> /// <param name="targetFilename">Path and name of the new file to create</param> /// <param name="sourcesFilenames">Path and name of the source dfs files</param> public static void MergeDfsFileItems(string targetFilename, IList <string> sourcesFilenames) { // List of sources to be merged - in case of more than one, just extend this. List <IDfsFile> sources = new List <IDfsFile>(); for (int i = 0; i < sourcesFilenames.Count; i++) { sources.Add(DfsFileFactory.DfsGenericOpen(sourcesFilenames[i])); } // Use the first file as skeleton for header and static items. IDfsFile source = sources[0]; IDfsFileInfo fileInfo = source.FileInfo; DfsBuilder builder = DfsBuilder.Create(fileInfo.FileTitle, fileInfo.ApplicationTitle, fileInfo.ApplicationVersion); // Set up the header builder.SetDataType(fileInfo.DataType); builder.SetGeographicalProjection(fileInfo.Projection); builder.SetTemporalAxis(fileInfo.TimeAxis); builder.SetItemStatisticsType(fileInfo.StatsType); builder.DeleteValueByte = fileInfo.DeleteValueByte; builder.DeleteValueDouble = fileInfo.DeleteValueDouble; builder.DeleteValueFloat = fileInfo.DeleteValueFloat; builder.DeleteValueInt = fileInfo.DeleteValueInt; builder.DeleteValueUnsignedInt = fileInfo.DeleteValueUnsignedInt; // Transfer compression keys - if any. if (fileInfo.IsFileCompressed) { int[] xkey; int[] ykey; int[] zkey; fileInfo.GetEncodeKey(out xkey, out ykey, out zkey); builder.SetEncodingKey(xkey, ykey, zkey); } // Copy custom blocks - if any foreach (IDfsCustomBlock customBlock in fileInfo.CustomBlocks) { builder.AddCustomBlock(customBlock); } int minNumTimesteps = int.MaxValue; // Copy dynamic items for all source files for (int j = 0; j < sources.Count; j++) { if (sources[j].FileInfo.TimeAxis.NumberOfTimeSteps < minNumTimesteps) { minNumTimesteps = sources[j].FileInfo.TimeAxis.NumberOfTimeSteps; } foreach (var itemInfo in sources[j].ItemInfo) { builder.AddDynamicItem(itemInfo); } } // Create file builder.CreateFile(targetFilename); // Copy static items - add only from main file IDfsStaticItem sourceStaticItem; while (null != (sourceStaticItem = source.ReadStaticItemNext())) { builder.AddStaticItem(sourceStaticItem); } // Get the file DfsFile file = builder.GetFile(); // Copy dynamic item data IDfsItemData sourceData; for (int i = 0; i < minNumTimesteps; i++) { for (int j = 0; j < sources.Count; j++) { IDfsFile sourcej = sources[j]; // Copy all items for this source for (int k = 0; k < sourcej.ItemInfo.Count; k++) { sourceData = sourcej.ReadItemTimeStepNext(); file.WriteItemTimeStepNext(sourceData.Time, sourceData.Data); } } } foreach (IDfsFile sourcej in sources) { sourcej.Close(); } file.Close(); }