/// <summary> /// Given a set of C++ files, generates another set of C++ files that #include all the original /// files, the goal being to compile the same code in fewer translation units. /// The "unity" files are written to the CompileEnvironment's OutputDirectory. /// </summary> /// <param name="Target">The target we're building</param> /// <param name="CPPFiles">The C++ files to #include.</param> /// <param name="CompileEnvironment">The environment that is used to compile the C++ files.</param> /// <param name="BaseName">Base name to use for the Unity files</param> /// <returns>The "unity" C++ files.</returns> public static List <FileItem> GenerateUnityCPPs( UEBuildTarget Target, List <FileItem> CPPFiles, CPPEnvironment CompileEnvironment, string BaseName ) { var ToolChain = UEToolChain.GetPlatformToolChain(CompileEnvironment.Config.Target.Platform); var BuildPlatform = UEBuildPlatform.GetBuildPlatformForCPPTargetPlatform(CompileEnvironment.Config.Target.Platform); // Figure out size of all input files combined. We use this to determine whether to use larger unity threshold or not. long TotalBytesInCPPFiles = CPPFiles.Sum(F => F.Info.Length); // We have an increased threshold for unity file size if, and only if, all files fit into the same unity file. This // is beneficial when dealing with PCH files. The default PCH creation limit is X unity files so if we generate < X // this could be fairly slow and we'd rather bump the limit a bit to group them all into the same unity file. // // Optimization only makes sense if PCH files are enabled. bool bForceIntoSingleUnityFile = BuildConfiguration.bStressTestUnity || (TotalBytesInCPPFiles < BuildConfiguration.NumIncludedBytesPerUnityCPP * 2 && CompileEnvironment.ShouldUsePCHs()); // Build the list of unity files. List <FileCollection> AllUnityFiles; { var CPPUnityFileBuilder = new UnityFileBuilder(bForceIntoSingleUnityFile ? -1 : BuildConfiguration.NumIncludedBytesPerUnityCPP); foreach (var CPPFile in CPPFiles) { if (!bForceIntoSingleUnityFile && CPPFile.AbsolutePath.Contains(".GeneratedWrapper.")) { CPPUnityFileBuilder.EndCurrentUnityFile(); CPPUnityFileBuilder.AddFile(CPPFile); CPPUnityFileBuilder.EndCurrentUnityFile(); } else { CPPUnityFileBuilder.AddFile(CPPFile); } // Now that the CPPFile is part of this unity file, we will no longer need to treat it like a root level prerequisite for our // dependency cache, as it is now an "indirect include" from the unity file. We'll clear out the compile environment // attached to this file. This prevents us from having to cache all of the indirect includes from these files inside our // dependency cache, which speeds up iterative builds a lot! CPPFile.CachedCPPIncludeInfo = null; } AllUnityFiles = CPPUnityFileBuilder.GetUnityFiles(); } //THIS CHANGE WAS MADE TO FIX THE BUILD IN OUR BRANCH //DO NOT MERGE THIS BACK TO MAIN string PCHHeaderNameInCode = CPPFiles.Count > 0 ? CPPFiles[0].PCHHeaderNameInCode : ""; if (CompileEnvironment.Config.PrecompiledHeaderIncludeFilename != null) { PCHHeaderNameInCode = ToolChain.ConvertPath(CompileEnvironment.Config.PrecompiledHeaderIncludeFilename); // Generated unity .cpp files always include the PCH using an absolute path, so we need to update // our compile environment's PCH header name to use this instead of the text it pulled from the original // C++ source files CompileEnvironment.Config.PCHHeaderNameInCode = PCHHeaderNameInCode; } // Create a set of CPP files that combine smaller CPP files into larger compilation units, along with the corresponding // actions to compile them. int CurrentUnityFileCount = 0; var UnityCPPFiles = new List <FileItem>(); foreach (var UnityFile in AllUnityFiles) { ++CurrentUnityFileCount; StringWriter OutputUnityCPPWriter = new StringWriter(); StringWriter OutputUnityCPPWriterExtra = null; // add an extra file for UBT to get the #include dependencies from if (BuildPlatform.RequiresExtraUnityCPPWriter() == true) { OutputUnityCPPWriterExtra = new StringWriter(); } OutputUnityCPPWriter.WriteLine("// This file is automatically generated at compile-time to include some subset of the user-created cpp files."); // Explicitly include the precompiled header first, since Visual C++ expects the first top-level #include to be the header file // that was used to create the PCH. if (CompileEnvironment.Config.PrecompiledHeaderIncludeFilename != null) { OutputUnityCPPWriter.WriteLine("#include \"{0}\"", PCHHeaderNameInCode); if (OutputUnityCPPWriterExtra != null) { OutputUnityCPPWriterExtra.WriteLine("#include \"{0}\"", PCHHeaderNameInCode); } } // Add source files to the unity file foreach (var CPPFile in UnityFile.Files) { OutputUnityCPPWriter.WriteLine("#include \"{0}\"", ToolChain.ConvertPath(CPPFile.AbsolutePath)); if (OutputUnityCPPWriterExtra != null) { OutputUnityCPPWriterExtra.WriteLine("#include \"{0}\"", CPPFile.AbsolutePath); } } // Determine unity file path name string UnityCPPFilePath; if (AllUnityFiles.Count > 1) { UnityCPPFilePath = string.Format("Module.{0}.{1}_of_{2}.cpp", BaseName, CurrentUnityFileCount, AllUnityFiles.Count); } else { UnityCPPFilePath = string.Format("Module.{0}.cpp", BaseName); } UnityCPPFilePath = Path.Combine(CompileEnvironment.Config.OutputDirectory, UnityCPPFilePath); // Write the unity file to the intermediate folder. FileItem UnityCPPFile = FileItem.CreateIntermediateTextFile(UnityCPPFilePath, OutputUnityCPPWriter.ToString()); if (OutputUnityCPPWriterExtra != null) { FileItem.CreateIntermediateTextFile(UnityCPPFilePath + ".ex", OutputUnityCPPWriterExtra.ToString()); } UnityCPPFile.RelativeCost = UnityFile.TotalLength; UnityCPPFile.PCHHeaderNameInCode = PCHHeaderNameInCode; UnityCPPFiles.Add(UnityCPPFile); // Cache information about the unity .cpp dependencies // @todo ubtmake urgent: Fails when building remotely for Mac because unity .cpp has an include for a PCH on the REMOTE machine UEBuildModuleCPP.CachePCHUsageForModuleSourceFile(Target, CompileEnvironment, UnityCPPFile); } return(UnityCPPFiles); }
/// <summary> /// Given a set of C++ files, generates another set of C++ files that #include all the original /// files, the goal being to compile the same code in fewer translation units. /// The "unity" files are written to the CompileEnvironment's OutputDirectory. /// </summary> /// <param name="Target">The target we're building</param> /// <param name="CPPFiles">The C++ files to #include.</param> /// <param name="CompileEnvironment">The environment that is used to compile the C++ files.</param> /// <param name="BaseName">Base name to use for the Unity files</param> /// <returns>The "unity" C++ files.</returns> public static List <FileItem> GenerateUnityCPPs( UEToolChain ToolChain, UEBuildTarget Target, List <FileItem> CPPFiles, CPPEnvironment CompileEnvironment, string BaseName ) { List <FileItem> NewCPPFiles = new List <FileItem>(); UEBuildPlatform BuildPlatform = UEBuildPlatform.GetBuildPlatformForCPPTargetPlatform(CompileEnvironment.Config.Platform); // Figure out size of all input files combined. We use this to determine whether to use larger unity threshold or not. long TotalBytesInCPPFiles = CPPFiles.Sum(F => F.Info.Length); // We have an increased threshold for unity file size if, and only if, all files fit into the same unity file. This // is beneficial when dealing with PCH files. The default PCH creation limit is X unity files so if we generate < X // this could be fairly slow and we'd rather bump the limit a bit to group them all into the same unity file. // When enabled, UnrealBuildTool will try to determine source files that you are actively iteratively changing, and break those files // out of their unity blobs so that you can compile them as individual translation units, much faster than recompiling the entire // unity blob each time. bool bUseAdaptiveUnityBuild = BuildConfiguration.bUseAdaptiveUnityBuild && !BuildConfiguration.bStressTestUnity; // Optimization only makes sense if PCH files are enabled. bool bForceIntoSingleUnityFile = BuildConfiguration.bStressTestUnity || (TotalBytesInCPPFiles < BuildConfiguration.NumIncludedBytesPerUnityCPP * 2 && CompileEnvironment.ShouldUsePCHs()); // Build the list of unity files. List <FileCollection> AllUnityFiles; { // Sort the incoming file paths alphabetically, so there will be consistency in unity blobs across multiple machines. // Note that we're relying on this not only sorting files within each directory, but also the directories // themselves, so the whole list of file paths is the same across computers. List <FileItem> SortedCPPFiles = CPPFiles.GetRange(0, CPPFiles.Count); { // Case-insensitive file path compare, because you never know what is going on with local file systems Comparison <FileItem> FileItemComparer = (FileA, FileB) => { return(FileA.AbsolutePath.ToLowerInvariant().CompareTo(FileB.AbsolutePath.ToLowerInvariant())); }; SortedCPPFiles.Sort(FileItemComparer); } // Figure out whether we REALLY want to use adaptive unity for this module. If nearly every file in the module appears in the working // set, we'll just go ahead and let unity build do its thing. if (bUseAdaptiveUnityBuild) { int CandidateWorkingSetSourceFileCount = 0; int WorkingSetSourceFileCount = 0; foreach (FileItem CPPFile in SortedCPPFiles) { // Don't include writable source files into unity blobs if (!CPPFile.Reference.IsUnderDirectory(Target.EngineIntermediateDirectory) && !CPPFile.Reference.IsUnderDirectory(Target.ProjectIntermediateDirectory)) { ++CandidateWorkingSetSourceFileCount; if (UnrealBuildTool.ShouldSourceFileBePartOfWorkingSet(CPPFile.AbsolutePath)) { ++WorkingSetSourceFileCount; // Mark this file as part of the working set. This will be saved into the UBT Makefile so that // the assembler can automatically invalidate the Makefile when the working set changes (allowing this // code to run again, to build up new unity blobs.) SourceFileWorkingSet.Add(CPPFile); } } } if (WorkingSetSourceFileCount >= CandidateWorkingSetSourceFileCount) { // Every single file in the module appears in the working set, so don't bother using adaptive unity for this // module. Otherwise it would make full builds really slow. bUseAdaptiveUnityBuild = false; } } UnityFileBuilder CPPUnityFileBuilder = new UnityFileBuilder(bForceIntoSingleUnityFile ? -1 : BuildConfiguration.NumIncludedBytesPerUnityCPP); StringBuilder AdaptiveUnityBuildInfoString = new StringBuilder(); foreach (FileItem CPPFile in SortedCPPFiles) { if (!bForceIntoSingleUnityFile && CPPFile.AbsolutePath.IndexOf(".GeneratedWrapper.", StringComparison.InvariantCultureIgnoreCase) != -1) { NewCPPFiles.Add(CPPFile); } // When adaptive unity is enabled, go ahead and exclude any source files that we're actively working with if (bUseAdaptiveUnityBuild && SourceFileWorkingSet.Contains(CPPFile)) { // Just compile this file normally, not as part of the unity blob NewCPPFiles.Add(CPPFile); // Let the unity file builder know about the file, so that we can retain the existing size of the unity blobs. // This won't actually make the source file part of the unity blob, but it will keep track of how big the // file is so that other existing unity blobs from the same module won't be invalidated. This prevents much // longer compile times the first time you build after your working file set changes. CPPUnityFileBuilder.AddVirtualFile(CPPFile); string CPPFileName = Path.GetFileName(CPPFile.AbsolutePath); if (AdaptiveUnityBuildInfoString.Length == 0) { AdaptiveUnityBuildInfoString.Append(String.Format("[Adaptive unity build] Excluded from {0} unity file: {1}", BaseName, CPPFileName)); } else { AdaptiveUnityBuildInfoString.Append(", " + CPPFileName); } } else { // If adaptive unity build is enabled for this module, add this source file to the set that will invalidate the makefile if (bUseAdaptiveUnityBuild) { CandidateSourceFilesForWorkingSet.Add(CPPFile); } // Compile this file as part of the unity blob CPPUnityFileBuilder.AddFile(CPPFile); // Now that the CPPFile is part of this unity file, we will no longer need to treat it like a root level prerequisite for our // dependency cache, as it is now an "indirect include" from the unity file. We'll clear out the compile environment // attached to this file. This prevents us from having to cache all of the indirect includes from these files inside our // dependency cache, which speeds up iterative builds a lot! CPPFile.CachedCPPIncludeInfo = null; } } if (AdaptiveUnityBuildInfoString.Length > 0) { Log.TraceInformation(AdaptiveUnityBuildInfoString.ToString()); } AllUnityFiles = CPPUnityFileBuilder.GetUnityFiles(); } // Create a set of CPP files that combine smaller CPP files into larger compilation units, along with the corresponding // actions to compile them. int CurrentUnityFileCount = 0; foreach (FileCollection UnityFile in AllUnityFiles) { ++CurrentUnityFileCount; StringWriter OutputUnityCPPWriter = new StringWriter(); StringWriter OutputUnityCPPWriterExtra = null; // add an extra file for UBT to get the #include dependencies from if (BuildPlatform.RequiresExtraUnityCPPWriter() == true) { OutputUnityCPPWriterExtra = new StringWriter(); } OutputUnityCPPWriter.WriteLine("// This file is automatically generated at compile-time to include some subset of the user-created cpp files."); // Add source files to the unity file foreach (FileItem CPPFile in UnityFile.Files) { OutputUnityCPPWriter.WriteLine("#include \"{0}\"", ToolChain.ConvertPath(CPPFile.AbsolutePath)); if (OutputUnityCPPWriterExtra != null) { OutputUnityCPPWriterExtra.WriteLine("#include \"{0}\"", CPPFile.AbsolutePath); } } // Determine unity file path name string UnityCPPFileName; if (AllUnityFiles.Count > 1) { UnityCPPFileName = string.Format("{0}{1}.{2}_of_{3}.cpp", ModulePrefix, BaseName, CurrentUnityFileCount, AllUnityFiles.Count); } else { UnityCPPFileName = string.Format("{0}{1}.cpp", ModulePrefix, BaseName); } FileReference UnityCPPFilePath = FileReference.Combine(CompileEnvironment.Config.OutputDirectory, UnityCPPFileName); // Write the unity file to the intermediate folder. FileItem UnityCPPFile = FileItem.CreateIntermediateTextFile(UnityCPPFilePath, OutputUnityCPPWriter.ToString()); if (OutputUnityCPPWriterExtra != null) { FileItem.CreateIntermediateTextFile(UnityCPPFilePath + ".ex", OutputUnityCPPWriterExtra.ToString()); } UnityCPPFile.RelativeCost = UnityFile.TotalLength; NewCPPFiles.Add(UnityCPPFile); // Cache information about the unity .cpp dependencies // @todo ubtmake urgent: Fails when building remotely for Mac because unity .cpp has an include for a PCH on the REMOTE machine UEBuildModuleCPP.CachePCHUsageForModuleSourceFile(CompileEnvironment, UnityCPPFile); } return(NewCPPFiles); }