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 => $"--reference:{r}"));
if (compilationOptions.PreserveCompilationContext == true)
{
var allExports = exporter.GetAllExports().ToList();
var exportsLookup = allExports.ToDictionary(e => e.Library.Identity.Name);
var buildExclusionList = context.GetTypeBuildExclusionList(exportsLookup);
var filteredExports = allExports
.Where(e => e.Library.Identity.Type.Equals(LibraryType.ReferenceAssembly) ||
!buildExclusionList.Contains(e.Library.Identity.Name));
var dependencyContext = new DependencyContextBuilder().Build(compilationOptions,
filteredExports,
filteredExports,
false, // For now, just assume non-portable mode in the legacy deps file (this is going away soon anyway)
context.TargetFramework,
context.RuntimeIdentifier ?? string.Empty);
var writer = new DependencyContextWriter();
var depsJsonFile = Path.Combine(intermediateOutputPath, compilationOptions.OutputName + "dotnet-compile.deps.json");
using (var fileStream = File.Create(depsJsonFile))
{
writer.Write(dependencyContext, fileStream);
}
compilerArgs.Add($"--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 bool IsDynamicContext(ProjectContext context)
{
var compilationOptions = context.ResolveCompilationOptions(Configuration);
return CompilerUtility.GetCompilationSources(context, compilationOptions).Any();
}
public override bool Compile(ProjectContext context, CompilerCommandApp 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 (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 = outputPaths.CompilationFiles.Assembly;
// Assemble args
var compilerArgs = new List<string>()
{
$"--temp-output:{intermediateOutputPath}",
$"--out:{outputName}"
};
var compilationOptions = context.ResolveCompilationOptions(args.ConfigValue);
var languageId = CompilerUtil.ResolveLanguageId(context);
var references = new List<string>();
// Add compilation options to the args
compilerArgs.AddRange(compilationOptions.SerializeToArgs());
// Add metadata options
compilerArgs.AddRange(AssemblyInfoOptions.SerializeToArgs(AssemblyInfoOptions.CreateForProject(context)));
foreach (var dependency in dependencies)
{
references.AddRange(dependency.CompilationAssemblies.Select(r => r.ResolvedPath));
compilerArgs.AddRange(dependency.SourceReferences.Select(s => s.GetTransformedFile(intermediateOutputPath)));
foreach (var resourceFile in dependency.EmbeddedResources)
{
var transformedResource = resourceFile.GetTransformedFile(intermediateOutputPath);
var resourceName = ResourceManifestName.CreateManifestName(
Path.GetFileName(resourceFile.ResolvedPath), compilationOptions.OutputName);
compilerArgs.Add($"--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))
{
return false;
}
// Add project source files
var sourceFiles = CompilerUtil.GetCompilationSources(context);
compilerArgs.AddRange(sourceFiles);
var compilerName = context.ProjectFile.CompilerName;
// Write RSP file
var rsp = Path.Combine(intermediateOutputPath, $"dotnet-compile.rsp");
File.WriteAllLines(rsp, compilerArgs);
// Run pre-compile event
var contextVariables = new Dictionary<string, string>()
{
{ "compile:TargetFramework", context.TargetFramework.GetShortFolderName() },
{ "compile:FullTargetFramework", context.TargetFramework.DotNetFrameworkName },
{ "compile:Configuration", args.ConfigValue },
{ "compile:OutputFile", outputName },
{ "compile:OutputDir", outputPath.TrimEnd('\\', '/') },
{ "compile:ResponseFile", rsp }
};
if (context.ProjectFile.HasRuntimeOutput(args.ConfigValue))
{
var runtimeContext = context.CreateRuntimeContext(args.GetRuntimes());
var runtimeOutputPath = runtimeContext.GetOutputPaths(args.ConfigValue, args.BuildBasePathValue, args.OutputValue);
contextVariables.Add(
"compile:RuntimeOutputDir",
runtimeOutputPath.RuntimeOutputPath.TrimEnd('\\', '/'));
contextVariables.Add(
"compile:RuntimeIdentifier",
runtimeContext.RuntimeIdentifier);
}
_scriptRunner.RunScripts(context, ScriptNames.PreCompile, contextVariables);
var result = _commandFactory.Create($"compile-{compilerName}", new[] { "@" + $"{rsp}" })
.OnErrorLine(line =>
{
var diagnostic = ParseDiagnostic(context.ProjectDirectory, line);
if (diagnostic != null)
{
diagnostics.Add(diagnostic);
}
else
{
Reporter.Error.WriteLine(line);
}
})
.OnOutputLine(line =>
{
var diagnostic = ParseDiagnostic(context.ProjectDirectory, line);
if (diagnostic != null)
{
diagnostics.Add(diagnostic);
}
else
{
Reporter.Output.WriteLine(line);
}
}).Execute();
// Run post-compile event
contextVariables["compile:CompilerExitCode"] = result.ExitCode.ToString();
_scriptRunner.RunScripts(context, ScriptNames.PostCompile, contextVariables);
var success = result.ExitCode == 0;
if (!success)
{
Reporter.Error.WriteLine($"{result.StartInfo.FileName} {result.StartInfo.Arguments} returned Exit Code {result.ExitCode}");
}
if (success)
{
success &= GenerateCultureResourceAssemblies(context.ProjectFile, dependencies, intermediateOutputPath, outputPath);
}
return PrintSummary(diagnostics, sw, success);
}
internal bool CompileInternal(ProjectContext context, string config, string probingFolderPath)
{
// Check if ambient library
if (AmbientLibraries.Contains(context.ProjectName()))
{
return true;
}
bool compilationResult;
// Check if already compiled
if (_compiledLibraries.TryGetValue(context.ProjectName(), out compilationResult))
{
return compilationResult;
}
// Get compilation options and source files
var compilationOptions = context.ResolveCompilationOptions(config);
var projectSourceFiles = CompilerUtility.GetCompilationSources(context, compilationOptions);
// Check if precompiled
if (!projectSourceFiles.Any())
{
return _compiledLibraries[context.ProjectName()] = true;
}
// Set up Output Paths
var outputPaths = context.GetOutputPaths(config);
var outputPath = outputPaths.CompilationOutputPath;
var intermediateOutputPath = outputPaths.IntermediateOutputDirectoryPath;
Directory.CreateDirectory(outputPath);
Directory.CreateDirectory(intermediateOutputPath);
// Create the library exporter
var exporter = context.CreateExporter(config);
// Gather exports for the project
var dependencies = exporter.GetDependencies().ToList();
// Get compilation options
var outputName = outputPaths.CompilationFiles.Assembly;
// 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 references = new List<string>();
var sourceFiles = new List<string>();
var resources = new List<string>();
// Get the runtime directory
var runtimeDirectory = Path.GetDirectoryName(EntryAssembly.Location);
foreach (var dependency in dependencies)
{
sourceFiles.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);
resources.Add($"\"{transformedResource}\",{resourceName}");
}
var library = dependency.Library as ProjectDescription;
var package = dependency.Library as PackageDescription;
// Compile other referenced libraries
if (library != null && !AmbientLibraries.Contains(library.Identity.Name) && dependency.CompilationAssemblies.Any())
{
if (!_compiledLibraries.ContainsKey(library.Identity.Name))
{
var projectContext = GetProjectContextFromPath(library.Project.ProjectDirectory);
if (projectContext != null)
{
// Right now, if !success we try to use the last build
var success = Compile(projectContext, config, probingFolderPath);
}
}
}
// Check for an unresolved library
if (library != null && !library.Resolved)
{
var fileName = GetAssemblyFileName(library.Identity.Name);
// Search in the runtime directory
var path = Path.Combine(runtimeDirectory, fileName);
if (!File.Exists(path))
{
// Fallback to the project output path or probing folder
path = ResolveAssetPath(outputPath, probingFolderPath, fileName);
}
if (!String.IsNullOrEmpty(path))
{
references.Add(path);
}
}
// Check for an unresolved package
else if (package != null && !package.Resolved)
{
var runtimeAssets = new HashSet<string>(package.RuntimeAssemblies.Select(x => x.Path), StringComparer.OrdinalIgnoreCase);
foreach (var asset in package.CompileTimeAssemblies)
{
var assetFileName = Path.GetFileName(asset.Path);
var isRuntimeAsset = runtimeAssets.Contains(asset.Path);
// Search in the runtime directory
var path = isRuntimeAsset ? Path.Combine(runtimeDirectory, assetFileName)
: Path.Combine(runtimeDirectory, CompilerUtility.RefsDirectoryName, assetFileName);
if (!File.Exists(path))
{
// Fallback to the project output path or probing folder
var relativeFolderPath = isRuntimeAsset ? String.Empty : CompilerUtility.RefsDirectoryName;
path = ResolveAssetPath(outputPath, probingFolderPath, assetFileName, relativeFolderPath);
}
if (!String.IsNullOrEmpty(path))
{
references.Add(path);
}
}
}
// Check for a precompiled library
else if (library != null && !dependency.CompilationAssemblies.Any())
{
var projectContext = GetProjectContextFromPath(library.Project.ProjectDirectory);
if (projectContext != null)
{
var fileName = GetAssemblyFileName(library.Identity.Name);
// Search in the precompiled project output path
var path = Path.Combine(projectContext.GetOutputPaths(config).CompilationOutputPath, fileName);
if (!File.Exists(path))
{
// Fallback to this project output path or probing folder
path = ResolveAssetPath(outputPath, probingFolderPath, fileName);
}
if (!String.IsNullOrEmpty(path))
{
references.Add(path);
}
}
}
// Check for a resolved but ambient library (compiled e.g by VS)
else if (library != null && AmbientLibraries.Contains(library.Identity.Name))
{
// Search in the regular project bin folder, fallback to the runtime directory
references.AddRange(dependency.CompilationAssemblies.Select(r => File.Exists(r.ResolvedPath)
? r.ResolvedPath : Path.Combine(runtimeDirectory, r.FileName)));
}
else
{
references.AddRange(dependency.CompilationAssemblies.Select(r => r.ResolvedPath));
}
}
// Check again if already compiled, here through the dependency graph
if (_compiledLibraries.TryGetValue(context.ProjectName(), out compilationResult))
{
return compilationResult;
}
var sw = Stopwatch.StartNew();
string depsJsonFile = null;
DependencyContext dependencyContext = null;
// Add dependency context as a resource
if (compilationOptions.PreserveCompilationContext == true)
{
var allExports = exporter.GetAllExports().ToList();
var exportsLookup = allExports.ToDictionary(e => e.Library.Identity.Name);
var buildExclusionList = context.GetTypeBuildExclusionList(exportsLookup);
var filteredExports = allExports
.Where(e => e.Library.Identity.Type.Equals(LibraryType.ReferenceAssembly) ||
!buildExclusionList.Contains(e.Library.Identity.Name));
dependencyContext = new DependencyContextBuilder().Build(compilationOptions,
filteredExports,
filteredExports,
false, // For now, just assume non-portable mode in the legacy deps file (this is going away soon anyway)
context.TargetFramework,
depsJsonFile = Path.Combine(intermediateOutputPath, compilationOptions.OutputName + "dotnet-compile.deps.json"));
resources.Add($"\"{depsJsonFile}\",{compilationOptions.OutputName}.deps.json");
}
// Add project source files
sourceFiles.AddRange(projectSourceFiles);
// Add non culture resources
var resgenFiles = CompilerUtility.GetNonCultureResources(context.ProjectFile, intermediateOutputPath, compilationOptions);
AddNonCultureResources(resources, resgenFiles);
var translated = TranslateCommonOptions(compilationOptions, outputName);
var allArgs = new List<string>(translated);
allArgs.AddRange(GetDefaultOptions());
// Add assembly info
var assemblyInfo = Path.Combine(intermediateOutputPath, $"dotnet-compile.assemblyinfo.cs");
allArgs.Add($"\"{assemblyInfo}\"");
if (!String.IsNullOrEmpty(outputName))
{
allArgs.Add($"-out:\"{outputName}\"");
}
allArgs.AddRange(references.Select(r => $"-r:\"{r}\""));
allArgs.AddRange(resources.Select(resource => $"-resource:{resource}"));
allArgs.AddRange(sourceFiles.Select(s => $"\"{s}\""));
// Gather all compile IO
var inputs = new List<string>();
var outputs = new List<string>();
inputs.Add(context.ProjectFile.ProjectFilePath);
if (context.LockFile != null)
{
inputs.Add(context.LockFile.LockFilePath);
}
if (context.LockFile.ExportFile != null)
{
inputs.Add(context.LockFile.ExportFile.ExportFilePath);
}
inputs.AddRange(sourceFiles);
inputs.AddRange(references);
inputs.AddRange(resgenFiles.Select(x => x.InputFile));
var cultureResgenFiles = CompilerUtility.GetCultureResources(context.ProjectFile, outputPath, compilationOptions);
inputs.AddRange(cultureResgenFiles.SelectMany(x => x.InputFileToMetadata.Keys));
outputs.AddRange(outputPaths.CompilationFiles.All());
outputs.AddRange(resgenFiles.Where(x => x.OutputFile != null).Select(x => x.OutputFile));
//outputs.AddRange(cultureResgenFiles.Where(x => x.OutputFile != null).Select(x => x.OutputFile));
// Locate RSP file
var rsp = Path.Combine(intermediateOutputPath, $"dotnet-compile-csc.rsp");
// Check if there is no need to compile
if (!CheckMissingIO(inputs, outputs) && !TimestampsChanged(inputs, outputs))
{
if (File.Exists(rsp))
{
// Check if the compilation context has been changed
var prevInputs = new HashSet<string>(File.ReadAllLines(rsp));
var newInputs = new HashSet<string>(allArgs);
if (!prevInputs.Except(newInputs).Any() && !newInputs.Except(prevInputs).Any())
{
PrintMessage($"{context.ProjectName()}: Previously compiled, skipping dynamic compilation.");
return _compiledLibraries[context.ProjectName()] = true;
}
}
else
{
// Write RSP file for the next time
File.WriteAllLines(rsp, allArgs);
PrintMessage($"{context.ProjectName()}: Previously compiled, skipping dynamic compilation.");
return _compiledLibraries[context.ProjectName()] = true;
}
}
if (!CompilerUtility.GenerateNonCultureResources(context.ProjectFile, resgenFiles, Diagnostics))
{
return _compiledLibraries[context.ProjectName()] = false;
}
PrintMessage(String.Format($"{context.ProjectName()}: Dynamic compiling for {context.TargetFramework.DotNetFrameworkName}"));
// Write the dependencies file
if (dependencyContext != null)
{
var writer = new DependencyContextWriter();
using (var fileStream = File.Create(depsJsonFile))
{
writer.Write(dependencyContext, fileStream);
}
}
// Write assembly info and RSP files
var assemblyInfoOptions = AssemblyInfoOptions.CreateForProject(context);
File.WriteAllText(assemblyInfo, AssemblyInfoFileGenerator.GenerateCSharp(assemblyInfoOptions, sourceFiles));
File.WriteAllLines(rsp, allArgs);
// Locate runtime config files
var runtimeConfigPath = Path.Combine(runtimeDirectory, EntryAssembly.GetName().Name + FileNameSuffixes.RuntimeConfigJson);
var cscRuntimeConfigPath = Path.Combine(runtimeDirectory, "csc" + FileNameSuffixes.RuntimeConfigJson);
// Automatically create the csc runtime config file
if (File.Exists(runtimeConfigPath) && (!File.Exists(cscRuntimeConfigPath)
|| File.GetLastWriteTimeUtc(runtimeConfigPath) > File.GetLastWriteTimeUtc(cscRuntimeConfigPath)))
{
lock (_syncLock)
{
if (!File.Exists(cscRuntimeConfigPath)
|| File.GetLastWriteTimeUtc(runtimeConfigPath) > File.GetLastWriteTimeUtc(cscRuntimeConfigPath))
{
File.Copy(runtimeConfigPath, cscRuntimeConfigPath, true);
}
}
}
// Locate csc.dll and the csc.exe asset
var cscDllPath = Path.Combine(runtimeDirectory, GetAssemblyFileName("csc"));
// Search in the runtime directory
var cscRelativePath = Path.Combine("runtimes", "any", "native", "csc.exe");
var cscExePath = Path.Combine(runtimeDirectory, cscRelativePath);
// Fallback to the packages storage
if (!File.Exists(cscExePath) && !String.IsNullOrEmpty(context.PackagesDirectory))
{
cscExePath = Path.Combine(context.PackagesDirectory, CscLibrary?.Name ?? String.Empty,
CscLibrary?.Version ?? String.Empty, cscRelativePath);
}
// Automatically create csc.dll
if (File.Exists(cscExePath) && (!File.Exists(cscDllPath)
|| File.GetLastWriteTimeUtc(cscExePath) > File.GetLastWriteTimeUtc(cscDllPath)))
{
lock (_syncLock)
{
if (!File.Exists(cscDllPath)
|| File.GetLastWriteTimeUtc(cscExePath) > File.GetLastWriteTimeUtc(cscDllPath))
{
File.Copy(cscExePath, cscDllPath, true);
}
}
}
// Execute CSC!
var result = Command.Create("csc.dll", new string[] { $"-noconfig", "@" + $"{rsp}" })
.WorkingDirectory(runtimeDirectory)
.OnErrorLine(line => Diagnostics.Add(line))
.OnOutputLine(line => Diagnostics.Add(line))
.Execute();
compilationResult = result.ExitCode == 0;
if (compilationResult)
{
compilationResult &= CompilerUtility.GenerateCultureResourceAssemblies(context.ProjectFile, cultureResgenFiles, references, Diagnostics);
}
PrintMessage(String.Empty);
if (compilationResult && Diagnostics.Count == 0)
{
PrintMessage($"{context.ProjectName()}: Dynamic compilation succeeded.");
PrintMessage($"0 Warning(s)");
PrintMessage($"0 Error(s)");
}
else if (compilationResult && Diagnostics.Count > 0)
{
PrintMessage($"{context.ProjectName()}: Dynamic compilation succeeded but has warnings.");
PrintMessage($"0 Error(s)");
}
else
{
PrintMessage($"{context.ProjectName()}: Dynamic compilation failed.");
}
foreach (var diagnostic in Diagnostics)
{
PrintMessage(diagnostic);
}
PrintMessage($"Time elapsed {sw.Elapsed}");
PrintMessage(String.Empty);
return _compiledLibraries[context.ProjectName()] = compilationResult;
}
private static void AddCompilationOptions(ProjectContext project, string config, CompilerIO compilerIO)
{
var compilerOptions = project.ResolveCompilationOptions(config);
// input: key file
if (compilerOptions.KeyFile != null)
{
compilerIO.Inputs.Add(compilerOptions.KeyFile);
}
}
public bool Compile(ProjectContext context, string config, string buildBasePath)
{
// Set up Output Paths
var outputPaths = context.GetOutputPaths(config, buildBasePath);
var outputPath = outputPaths.CompilationOutputPath;
var intermediateOutputPath = outputPaths.IntermediateOutputDirectoryPath;
Directory.CreateDirectory(outputPath);
Directory.CreateDirectory(intermediateOutputPath);
// Create the library exporter
var exporter = context.CreateExporter(config, buildBasePath);
// Gather exports for the project
var dependencies = exporter.GetDependencies().ToList();
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.
return false;
}
// Get compilation options
var outputName = outputPaths.CompilationFiles.Assembly;
var compilationOptions = context.ResolveCompilationOptions(config);
// 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 references = new List<string>();
var sourceFiles = new List<string>();
// Add metadata options
var assemblyInfoOptions = AssemblyInfoOptions.CreateForProject(context);
foreach (var dependency in dependencies)
{
references.AddRange(dependency.CompilationAssemblies.Select(r => r.ResolvedPath));
sourceFiles.AddRange(dependency.SourceReferences.Select(s => s.GetTransformedFile(intermediateOutputPath)));
}
var resources = new List<string>();
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);
}
resources.Add($"\"{depsJsonFile}\",{compilationOptions.OutputName}.deps.json");
}
// Add project source files
if (compilationOptions.CompileInclude == null)
{
sourceFiles.AddRange(context.ProjectFile.Files.SourceFiles);
}
else {
var includeFiles = IncludeFilesResolver.GetIncludeFiles(compilationOptions.CompileInclude, "/", diagnostics: null);
sourceFiles.AddRange(includeFiles.Select(f => f.SourcePath));
}
if (String.IsNullOrEmpty(intermediateOutputPath))
{
return false;
}
var translated = TranslateCommonOptions(compilationOptions, outputName);
var allArgs = new List<string>(translated);
allArgs.AddRange(GetDefaultOptions());
// Generate assembly info
var assemblyInfo = Path.Combine(intermediateOutputPath, $"dotnet-compile.assemblyinfo.cs");
File.WriteAllText(assemblyInfo, AssemblyInfoFileGenerator.GenerateCSharp(assemblyInfoOptions, sourceFiles));
allArgs.Add($"\"{assemblyInfo}\"");
if (!String.IsNullOrEmpty(outputName))
{
allArgs.Add($"-out:\"{outputName}\"");
}
allArgs.AddRange(references.Select(r => $"-r:\"{r}\""));
allArgs.AddRange(resources.Select(resource => $"-resource:{resource}"));
allArgs.AddRange(sourceFiles.Select(s => $"\"{s}\""));
allArgs.Prepend($"-noconfig");
// Execute CSC!
var result = RunCsc(allArgs.ToArray())
.WorkingDirectory(Directory.GetCurrentDirectory())
.ForwardStdErr()
.ForwardStdOut()
.Execute();
return result.ExitCode == 0;
}