public override bool Compile(ProjectContext context, BuildCommandApp args) { // Set up Output Paths var outputPaths = context.GetOutputPaths(args.ConfigValue, args.BuildBasePathValue); var outputPath = outputPaths.CompilationOutputPath; var intermediateOutputPath = outputPaths.IntermediateOutputDirectoryPath; Directory.CreateDirectory(outputPath); Directory.CreateDirectory(intermediateOutputPath); // Create the library exporter var exporter = context.CreateExporter(args.ConfigValue, args.BuildBasePathValue); // Gather exports for the project var dependencies = exporter.GetDependencies().ToList(); Reporter.Output.WriteLine($"Compiling {context.RootProject.Identity.Name.Yellow()} for {context.TargetFramework.DotNetFrameworkName.Yellow()}"); var sw = Stopwatch.StartNew(); var diagnostics = new List <DiagnosticMessage>(); var missingFrameworkDiagnostics = new List <DiagnosticMessage>(); // Collect dependency diagnostics foreach (var diag in context.LibraryManager.GetAllDiagnostics()) { if (diag.ErrorCode == ErrorCodes.DOTNET1011 || diag.ErrorCode == ErrorCodes.DOTNET1012) { missingFrameworkDiagnostics.Add(diag); } diagnostics.Add(diag); } if (diagnostics.Any(d => d.Severity == DiagnosticMessageSeverity.Error)) { // We got an unresolved dependency or missing framework. Don't continue the compilation. PrintSummary(diagnostics, sw); return(false); } // Get compilation options var outputName = outputPaths.CompilationFiles.Assembly; // Assemble args var compilerArgs = new List <string>() { $"--temp-output:{intermediateOutputPath}", $"--out:{outputName}" }; var compilationOptions = context.ResolveCompilationOptions(args.ConfigValue); // Set default platform if it isn't already set and we're on desktop if (compilationOptions.EmitEntryPoint == true && string.IsNullOrEmpty(compilationOptions.Platform) && context.TargetFramework.IsDesktop()) { // See https://github.com/dotnet/cli/issues/2428 for more details. compilationOptions.Platform = RuntimeInformation.ProcessArchitecture == Architecture.X64 ? "x64" : "anycpu32bitpreferred"; } var languageId = CompilerUtil.ResolveLanguageId(context); var references = new List <string>(); // Add compilation options to the args compilerArgs.AddRange(compilationOptions.SerializeToArgs()); // Add metadata options compilerArgs.AddRange(AssemblyInfoOptions.SerializeToArgs(AssemblyInfoOptions.CreateForProject(context))); foreach (var dependency in dependencies) { references.AddRange(dependency.CompilationAssemblies.Select(r => r.ResolvedPath)); compilerArgs.AddRange(dependency.SourceReferences.Select(s => s.GetTransformedFile(intermediateOutputPath))); foreach (var resourceFile in dependency.EmbeddedResources) { var transformedResource = resourceFile.GetTransformedFile(intermediateOutputPath); var resourceName = ResourceManifestName.CreateManifestName( Path.GetFileName(resourceFile.ResolvedPath), compilationOptions.OutputName); compilerArgs.Add($"--resource:\"{transformedResource}\",{resourceName}"); } // Add analyzer references compilerArgs.AddRange(dependency.AnalyzerReferences .Where(a => a.AnalyzerLanguage == languageId) .Select(a => $"--analyzer:{a.AssemblyPath}")); } compilerArgs.AddRange(references.Select(r => $"--reference:{r}")); if (compilationOptions.PreserveCompilationContext == true) { var allExports = exporter.GetAllExports().ToList(); var dependencyContext = new DependencyContextBuilder().Build(compilationOptions, allExports, allExports, false, // For now, just assume non-portable mode in the legacy deps file (this is going away soon anyway) context.TargetFramework, context.RuntimeIdentifier ?? string.Empty); var writer = new DependencyContextWriter(); var depsJsonFile = Path.Combine(intermediateOutputPath, compilationOptions.OutputName + "dotnet-compile.deps.json"); using (var fileStream = File.Create(depsJsonFile)) { writer.Write(dependencyContext, fileStream); } compilerArgs.Add($"--resource:\"{depsJsonFile}\",{compilationOptions.OutputName}.deps.json"); } if (!AddNonCultureResources(context.ProjectFile, compilerArgs, intermediateOutputPath, compilationOptions)) { return(false); } // Add project source files var sourceFiles = CompilerUtil.GetCompilationSources(context, compilationOptions); compilerArgs.AddRange(sourceFiles); var compilerName = compilationOptions.CompilerName; // Write RSP file var rsp = Path.Combine(intermediateOutputPath, $"dotnet-compile.rsp"); File.WriteAllLines(rsp, compilerArgs); // Run pre-compile event var contextVariables = new Dictionary <string, string>() { { "compile:TargetFramework", context.TargetFramework.GetShortFolderName() }, { "compile:FullTargetFramework", context.TargetFramework.DotNetFrameworkName }, { "compile:Configuration", args.ConfigValue }, { "compile:OutputFile", outputName }, { "compile:OutputDir", outputPath.TrimEnd('\\', '/') }, { "compile:ResponseFile", rsp } }; if (context.ProjectFile.HasRuntimeOutput(args.ConfigValue)) { var runtimeContext = args.Workspace.GetRuntimeContext(context, args.GetRuntimes()); var runtimeOutputPath = runtimeContext.GetOutputPaths(args.ConfigValue, args.BuildBasePathValue, args.OutputValue); contextVariables.Add( "compile:RuntimeOutputDir", runtimeOutputPath.RuntimeOutputPath.TrimEnd('\\', '/')); contextVariables.Add( "compile:RuntimeIdentifier", runtimeContext.RuntimeIdentifier); } _scriptRunner.RunScripts(context, ScriptNames.PreCompile, contextVariables); // Cache the reporters before invoking the command in case it is a built-in command, which replaces // the static Reporter instances. Reporter errorReporter = Reporter.Error; Reporter outputReporter = Reporter.Output; CommandResult result = _commandFactory.Create($"compile-{compilerName}", new[] { $"@{rsp}" }) .WorkingDirectory(context.ProjectDirectory) .OnErrorLine(line => HandleCompilerOutputLine(line, context, diagnostics, errorReporter)) .OnOutputLine(line => HandleCompilerOutputLine(line, context, diagnostics, outputReporter)) .Execute(); // Run post-compile event contextVariables["compile:CompilerExitCode"] = result.ExitCode.ToString(); _scriptRunner.RunScripts(context, ScriptNames.PostCompile, contextVariables); var success = result.ExitCode == 0; if (!success) { Reporter.Error.WriteLine($"{result.StartInfo.FileName} {result.StartInfo.Arguments} returned Exit Code {result.ExitCode}"); } if (success) { success &= GenerateCultureResourceAssemblies(context.ProjectFile, dependencies, outputPath, compilationOptions); } return(PrintSummary(diagnostics, sw, success)); }
private static bool CompileProject(ProjectContext context, CompilerCommandApp args) { // Set up Output Paths var outputPathCalculator = context.GetOutputPathCalculator(args.OutputValue); var outputPath = outputPathCalculator.GetOutputDirectoryPath(args.ConfigValue); var intermediateOutputPath = outputPathCalculator.GetIntermediateOutputDirectoryPath(args.ConfigValue, args.IntermediateValue); Directory.CreateDirectory(outputPath); Directory.CreateDirectory(intermediateOutputPath); // Create the library exporter var exporter = context.CreateExporter(args.ConfigValue); // Gather exports for the project var dependencies = exporter.GetDependencies().ToList(); Reporter.Output.WriteLine($"Compiling {context.RootProject.Identity.Name.Yellow()} for {context.TargetFramework.DotNetFrameworkName.Yellow()}"); var sw = Stopwatch.StartNew(); var diagnostics = new List <DiagnosticMessage>(); var missingFrameworkDiagnostics = new List <DiagnosticMessage>(); // Collect dependency diagnostics foreach (var diag in context.LibraryManager.GetAllDiagnostics()) { if (diag.ErrorCode == ErrorCodes.DOTNET1011 || diag.ErrorCode == ErrorCodes.DOTNET1012) { missingFrameworkDiagnostics.Add(diag); } diagnostics.Add(diag); } if (missingFrameworkDiagnostics.Count > 0) { // The framework isn't installed so we should short circuit the rest of the compilation // so we don't get flooded with errors PrintSummary(missingFrameworkDiagnostics, sw); return(false); } // Get compilation options var outputName = outputPathCalculator.GetAssemblyPath(args.ConfigValue); // Assemble args var compilerArgs = new List <string>() { $"--temp-output:\"{intermediateOutputPath}\"", $"--out:\"{outputName}\"" }; var compilationOptions = CompilerUtil.ResolveCompilationOptions(context, args.ConfigValue); var languageId = CompilerUtil.ResolveLanguageId(context); var references = new List <string>(); // Add compilation options to the args compilerArgs.AddRange(compilationOptions.SerializeToArgs()); // Add metadata options compilerArgs.AddRange(AssemblyInfoOptions.SerializeToArgs(AssemblyInfoOptions.CreateForProject(context))); foreach (var dependency in dependencies) { references.AddRange(dependency.CompilationAssemblies.Select(r => r.ResolvedPath)); compilerArgs.AddRange(dependency.SourceReferences.Select(s => $"\"{s}\"")); // Add analyzer references compilerArgs.AddRange(dependency.AnalyzerReferences .Where(a => a.AnalyzerLanguage == languageId) .Select(a => $"--analyzer:\"{a.AssemblyPath}\"")); } compilerArgs.AddRange(references.Select(r => $"--reference:\"{r}\"")); if (compilationOptions.PreserveCompilationContext == true) { var dependencyContext = DependencyContextBuilder.Build(compilationOptions, exporter, args.ConfigValue, context.TargetFramework, context.RuntimeIdentifier); var writer = new DependencyContextWriter(); var depsJsonFile = Path.Combine(intermediateOutputPath, context.ProjectFile.Name + "dotnet-compile.deps.json"); using (var fileStream = File.Create(depsJsonFile)) { writer.Write(dependencyContext, fileStream); } compilerArgs.Add($"--resource:\"{depsJsonFile},{context.ProjectFile.Name}.deps.json\""); } if (!AddNonCultureResources(context.ProjectFile, compilerArgs, intermediateOutputPath)) { return(false); } // Add project source files var sourceFiles = CompilerUtil.GetCompilationSources(context); compilerArgs.AddRange(sourceFiles); var compilerName = CompilerUtil.ResolveCompilerName(context); // Write RSP file var rsp = Path.Combine(intermediateOutputPath, $"dotnet-compile.rsp"); File.WriteAllLines(rsp, compilerArgs); // Run pre-compile event var contextVariables = new Dictionary <string, string>() { { "compile:TargetFramework", context.TargetFramework.DotNetFrameworkName }, { "compile:Configuration", args.ConfigValue }, { "compile:OutputFile", outputName }, { "compile:OutputDir", outputPath }, { "compile:ResponseFile", rsp } }; RunScripts(context, ScriptNames.PreCompile, contextVariables); var result = Command.CreateDotNet($"compile-{compilerName}", new[] { "@" + $"{rsp}" }) .OnErrorLine(line => { var diagnostic = ParseDiagnostic(context.ProjectDirectory, line); if (diagnostic != null) { diagnostics.Add(diagnostic); } else { Reporter.Error.WriteLine(line); } }) .OnOutputLine(line => { var diagnostic = ParseDiagnostic(context.ProjectDirectory, line); if (diagnostic != null) { diagnostics.Add(diagnostic); } else { Reporter.Output.WriteLine(line); } }).Execute(); // Run post-compile event contextVariables["compile:CompilerExitCode"] = result.ExitCode.ToString(); RunScripts(context, ScriptNames.PostCompile, contextVariables); var success = result.ExitCode == 0; if (!success) { Reporter.Error.WriteLine($"{result.StartInfo.FileName} {result.StartInfo.Arguments} returned Exit Code {result.ExitCode}"); } if (success) { success &= GenerateCultureResourceAssemblies(context.ProjectFile, dependencies, intermediateOutputPath, outputPath); } return(PrintSummary(diagnostics, sw, success)); }