private int Run()
{
InitializeDefaultOptions();
ProcessCommandLine();
if (_commandLineOptions.OutputFilePath == null)
{
throw new CommandLineException("Output filename must be specified (/out <file>)");
}
//
// Set target Architecture and OS
//
if (_commandLineOptions.TargetArch != null)
{
if (_commandLineOptions.TargetArch.Equals("x86", StringComparison.OrdinalIgnoreCase))
{
_targetArchitecture = TargetArchitecture.X86;
}
else if (_commandLineOptions.TargetArch.Equals("x64", StringComparison.OrdinalIgnoreCase))
{
_targetArchitecture = TargetArchitecture.X64;
}
else if (_commandLineOptions.TargetArch.Equals("arm", StringComparison.OrdinalIgnoreCase))
{
_targetArchitecture = TargetArchitecture.ARM;
}
else if (_commandLineOptions.TargetArch.Equals("armel", StringComparison.OrdinalIgnoreCase))
{
_targetArchitecture = TargetArchitecture.ARM;
}
else if (_commandLineOptions.TargetArch.Equals("arm64", StringComparison.OrdinalIgnoreCase))
{
_targetArchitecture = TargetArchitecture.ARM64;
}
else
{
throw new CommandLineException("Target architecture is not supported");
}
}
if (_commandLineOptions.TargetOS != null)
{
if (_commandLineOptions.TargetOS.Equals("windows", StringComparison.OrdinalIgnoreCase))
{
_targetOS = TargetOS.Windows;
}
else if (_commandLineOptions.TargetOS.Equals("linux", StringComparison.OrdinalIgnoreCase))
{
_targetOS = TargetOS.Linux;
}
else if (_commandLineOptions.TargetOS.Equals("osx", StringComparison.OrdinalIgnoreCase))
{
_targetOS = TargetOS.OSX;
}
else
{
throw new CommandLineException("Target OS is not supported");
}
}
using (PerfEventSource.StartStopEvents.CompilationEvents())
{
ICompilation compilation;
using (PerfEventSource.StartStopEvents.LoadingEvents())
{
//
// Initialize type system context
//
SharedGenericsMode genericsMode = SharedGenericsMode.CanonicalReferenceTypes;
var targetDetails = new TargetDetails(_targetArchitecture, _targetOS, TargetAbi.CoreRT, SimdVectorLength.None);
CompilerTypeSystemContext typeSystemContext = new ReadyToRunCompilerContext(targetDetails, genericsMode);
//
// TODO: To support our pre-compiled test tree, allow input files that aren't managed assemblies since
// some tests contain a mixture of both managed and native binaries.
//
// See: https://github.com/dotnet/corert/issues/2785
//
// When we undo this this hack, replace this foreach with
// typeSystemContext.InputFilePaths = _inputFilePaths;
//
Dictionary <string, string> inputFilePaths = new Dictionary <string, string>();
foreach (var inputFile in _inputFilePaths)
{
try
{
var module = typeSystemContext.GetModuleFromPath(inputFile.Value);
inputFilePaths.Add(inputFile.Key, inputFile.Value);
}
catch (TypeSystemException.BadImageFormatException)
{
// Keep calm and carry on.
}
}
typeSystemContext.InputFilePaths = inputFilePaths;
typeSystemContext.ReferenceFilePaths = _referenceFilePaths;
string systemModuleName = _commandLineOptions.SystemModule ?? DefaultSystemModule;
typeSystemContext.SetSystemModule(typeSystemContext.GetModuleForSimpleName(systemModuleName));
if (typeSystemContext.InputFilePaths.Count == 0)
{
throw new CommandLineException("No input files specified");
}
//
// Initialize compilation group and compilation roots
//
// Single method mode?
MethodDesc singleMethod = CheckAndParseSingleMethodModeArguments(typeSystemContext);
var logger = new Logger(Console.Out, _commandLineOptions.Verbose);
List <ModuleDesc> referenceableModules = new List <ModuleDesc>();
foreach (var inputFile in inputFilePaths)
{
try
{
referenceableModules.Add(typeSystemContext.GetModuleFromPath(inputFile.Value));
}
catch { } // Ignore non-managed pe files
}
foreach (var referenceFile in _referenceFilePaths.Values)
{
try
{
referenceableModules.Add(typeSystemContext.GetModuleFromPath(referenceFile));
}
catch { } // Ignore non-managed pe files
}
ProfileDataManager profileDataManager = new ProfileDataManager(logger, referenceableModules);
CompilationModuleGroup compilationGroup;
List <ICompilationRootProvider> compilationRoots = new List <ICompilationRootProvider>();
if (singleMethod != null)
{
// Compiling just a single method
compilationGroup = new SingleMethodCompilationModuleGroup(singleMethod);
compilationRoots.Add(new SingleMethodRootProvider(singleMethod));
}
else
{
// Either single file, or multifile library, or multifile consumption.
EcmaModule entrypointModule = null;
foreach (var inputFile in typeSystemContext.InputFilePaths)
{
EcmaModule module = typeSystemContext.GetModuleFromPath(inputFile.Value);
if (module.PEReader.PEHeaders.IsExe)
{
if (entrypointModule != null)
{
throw new Exception("Multiple EXE modules");
}
entrypointModule = module;
}
}
List <EcmaModule> inputModules = new List <EcmaModule>();
foreach (var inputFile in typeSystemContext.InputFilePaths)
{
EcmaModule module = typeSystemContext.GetModuleFromPath(inputFile.Value);
compilationRoots.Add(new ReadyToRunRootProvider(module, profileDataManager));
inputModules.Add(module);
if (!_commandLineOptions.InputBubble)
{
break;
}
}
List <ModuleDesc> versionBubbleModules = new List <ModuleDesc>();
if (_commandLineOptions.InputBubble)
{
// In large version bubble mode add reference paths to the compilation group
foreach (string referenceFile in _referenceFilePaths.Values)
{
try
{
// Currently SimpleTest.targets has no easy way to filter out non-managed assemblies
// from the reference list.
EcmaModule module = typeSystemContext.GetModuleFromPath(referenceFile);
versionBubbleModules.Add(module);
}
catch (TypeSystemException.BadImageFormatException ex)
{
Console.WriteLine("Warning: cannot open reference assembly '{0}': {1}", referenceFile, ex.Message);
}
}
}
compilationGroup = new ReadyToRunSingleAssemblyCompilationModuleGroup(
typeSystemContext, inputModules, versionBubbleModules, _commandLineOptions.CompileBubbleGenerics,
_commandLineOptions.Partial ? profileDataManager : null);
}
//
// Compile
//
string inputFilePath = "";
foreach (var input in typeSystemContext.InputFilePaths)
{
inputFilePath = input.Value;
break;
}
ReadyToRunCodegenCompilationBuilder builder = new ReadyToRunCodegenCompilationBuilder(typeSystemContext, compilationGroup, inputFilePath);
string compilationUnitPrefix = "";
builder.UseCompilationUnitPrefix(compilationUnitPrefix);
ILProvider ilProvider = new ReadyToRunILProvider();
DependencyTrackingLevel trackingLevel = _commandLineOptions.DgmlLogFileName == null ?
DependencyTrackingLevel.None : (_commandLineOptions.GenerateFullDgmlLog ? DependencyTrackingLevel.All : DependencyTrackingLevel.First);
builder
.UseIbcTuning(_commandLineOptions.Tuning)
.UseResilience(_commandLineOptions.Resilient)
.UseMapFile(_commandLineOptions.GenerateMapFile)
.UseParallelism(_commandLineOptions.Parallelism)
.UseILProvider(ilProvider)
.UseJitPath(_commandLineOptions.JitPath)
.UseBackendOptions(_commandLineOptions.CodegenOptions)
.UseLogger(logger)
.UseDependencyTracking(trackingLevel)
.UseCompilationRoots(compilationRoots)
.UseOptimizationMode(_optimizationMode);
compilation = builder.ToCompilation();
}
compilation.Compile(_commandLineOptions.OutputFilePath.FullName);
if (_commandLineOptions.DgmlLogFileName != null)
{
compilation.WriteDependencyLog(_commandLineOptions.DgmlLogFileName.FullName);
}
}
return(0);
}
private void RunSingleCompilation(Dictionary <string, string> inFilePaths, InstructionSetSupport instructionSetSupport, string compositeRootPath, Dictionary <string, string> unrootedInputFilePaths, HashSet <ModuleDesc> versionBubbleModulesHash, CompilerTypeSystemContext typeSystemContext)
{
//
// Initialize output filename
//
string inFilePath = inFilePaths.First().Value;
string inputFileExtension = Path.GetExtension(inFilePath);
string nearOutFilePath = inputFileExtension switch
{
".dll" => Path.ChangeExtension(inFilePath,
_commandLineOptions.SingleFileCompilation && _commandLineOptions.InputBubble
? ".ni.dll.tmp"
: ".ni.dll"),
".exe" => Path.ChangeExtension(inFilePath,
_commandLineOptions.SingleFileCompilation && _commandLineOptions.InputBubble
? ".ni.exe.tmp"
: ".ni.exe"),
_ => throw new CommandLineException(string.Format(SR.UnsupportedInputFileExtension, inputFileExtension))
};
string outFile = _commandLineOptions.OutNearInput ? nearOutFilePath : _commandLineOptions.OutputFilePath;
using (PerfEventSource.StartStopEvents.CompilationEvents())
{
ICompilation compilation;
using (PerfEventSource.StartStopEvents.LoadingEvents())
{
List <EcmaModule> inputModules = new List <EcmaModule>();
List <EcmaModule> rootingModules = new List <EcmaModule>();
foreach (var inputFile in inFilePaths)
{
EcmaModule module = typeSystemContext.GetModuleFromPath(inputFile.Value);
inputModules.Add(module);
rootingModules.Add(module);
versionBubbleModulesHash.Add(module);
if (!_commandLineOptions.CompositeOrInputBubble)
{
break;
}
}
foreach (var unrootedInputFile in unrootedInputFilePaths)
{
EcmaModule module = typeSystemContext.GetModuleFromPath(unrootedInputFile.Value);
inputModules.Add(module);
versionBubbleModulesHash.Add(module);
}
//
// Initialize compilation group and compilation roots
//
// Single method mode?
MethodDesc singleMethod = CheckAndParseSingleMethodModeArguments(typeSystemContext);
var logger = new Logger(Console.Out, _commandLineOptions.Verbose);
List <string> mibcFiles = new List <string>();
foreach (var file in _commandLineOptions.MibcFilePaths)
{
mibcFiles.Add(file);
}
List <ModuleDesc> versionBubbleModules = new List <ModuleDesc>(versionBubbleModulesHash);
if (!_commandLineOptions.Composite && inputModules.Count != 1)
{
throw new Exception(string.Format(SR.ErrorMultipleInputFilesCompositeModeOnly, string.Join("; ", inputModules)));
}
ReadyToRunCompilationModuleGroupBase compilationGroup;
List <ICompilationRootProvider> compilationRoots = new List <ICompilationRootProvider>();
if (singleMethod != null)
{
// Compiling just a single method
compilationGroup = new SingleMethodCompilationModuleGroup(
typeSystemContext,
_commandLineOptions.Composite,
_commandLineOptions.InputBubble,
inputModules,
versionBubbleModules,
_commandLineOptions.CompileBubbleGenerics,
singleMethod);
compilationRoots.Add(new SingleMethodRootProvider(singleMethod));
}
else if (_commandLineOptions.CompileNoMethods)
{
compilationGroup = new NoMethodsCompilationModuleGroup(
typeSystemContext,
_commandLineOptions.Composite,
_commandLineOptions.InputBubble,
inputModules,
versionBubbleModules,
_commandLineOptions.CompileBubbleGenerics);
}
else
{
// Single assembly compilation.
compilationGroup = new ReadyToRunSingleAssemblyCompilationModuleGroup(
typeSystemContext,
_commandLineOptions.Composite,
_commandLineOptions.InputBubble,
inputModules,
versionBubbleModules,
_commandLineOptions.CompileBubbleGenerics);
}
// Load any profiles generated by method call chain analyis
CallChainProfile jsonProfile = null;
if (!string.IsNullOrEmpty(_commandLineOptions.CallChainProfileFile))
{
jsonProfile = new CallChainProfile(_commandLineOptions.CallChainProfileFile, typeSystemContext, _referenceableModules);
}
// Examine profile guided information as appropriate
ProfileDataManager profileDataManager =
new ProfileDataManager(logger,
_referenceableModules,
inputModules,
versionBubbleModules,
_commandLineOptions.CompileBubbleGenerics ? inputModules[0] : null,
mibcFiles,
jsonProfile,
typeSystemContext,
compilationGroup,
_commandLineOptions.EmbedPgoData);
if (_commandLineOptions.Partial)
{
compilationGroup.ApplyProfilerGuidedCompilationRestriction(profileDataManager);
}
else
{
compilationGroup.ApplyProfilerGuidedCompilationRestriction(null);
}
if ((singleMethod == null) && !_commandLineOptions.CompileNoMethods)
{
// For normal compilations add compilation roots.
foreach (var module in rootingModules)
{
compilationRoots.Add(new ReadyToRunRootProvider(
module,
profileDataManager,
profileDrivenPartialNGen: _commandLineOptions.Partial));
if (!_commandLineOptions.CompositeOrInputBubble)
{
break;
}
}
}
// In single-file compilation mode, use the assembly's DebuggableAttribute to determine whether to optimize
// or produce debuggable code if an explicit optimization level was not specified on the command line
OptimizationMode optimizationMode = _optimizationMode;
if (optimizationMode == OptimizationMode.None && !_commandLineOptions.OptimizeDisabled && !_commandLineOptions.Composite)
{
System.Diagnostics.Debug.Assert(inputModules.Count == 1);
optimizationMode = ((EcmaAssembly)inputModules[0].Assembly).HasOptimizationsDisabled() ? OptimizationMode.None : OptimizationMode.Blended;
}
CompositeImageSettings compositeImageSettings = new CompositeImageSettings();
if (_commandLineOptions.CompositeKeyFile != null)
{
ImmutableArray <byte> compositeStrongNameKey = File.ReadAllBytes(_commandLineOptions.CompositeKeyFile).ToImmutableArray();
if (!IsValidPublicKey(compositeStrongNameKey))
{
throw new Exception(string.Format(SR.ErrorCompositeKeyFileNotPublicKey));
}
compositeImageSettings.PublicKey = compositeStrongNameKey;
}
//
// Compile
//
ReadyToRunCodegenCompilationBuilder builder = new ReadyToRunCodegenCompilationBuilder(
typeSystemContext, compilationGroup, _allInputFilePaths.Values, compositeRootPath);
string compilationUnitPrefix = "";
builder.UseCompilationUnitPrefix(compilationUnitPrefix);
ILProvider ilProvider = new ReadyToRunILProvider();
DependencyTrackingLevel trackingLevel = _commandLineOptions.DgmlLogFileName == null ?
DependencyTrackingLevel.None : (_commandLineOptions.GenerateFullDgmlLog ? DependencyTrackingLevel.All : DependencyTrackingLevel.First);
builder
.UseIbcTuning(_commandLineOptions.Tuning)
.UseResilience(_commandLineOptions.Resilient)
.UseMapFile(_commandLineOptions.Map)
.UseMapCsvFile(_commandLineOptions.MapCsv)
.UsePdbFile(_commandLineOptions.Pdb, _commandLineOptions.PdbPath)
.UsePerfMapFile(_commandLineOptions.PerfMap, _commandLineOptions.PerfMapPath, _commandLineOptions.PerfMapFormatVersion)
.UseProfileFile(jsonProfile != null)
.UseParallelism(_commandLineOptions.Parallelism)
.UseProfileData(profileDataManager)
.FileLayoutAlgorithms(_methodLayout, _fileLayout)
.UseCompositeImageSettings(compositeImageSettings)
.UseJitPath(_commandLineOptions.JitPath)
.UseInstructionSetSupport(instructionSetSupport)
.UseCustomPESectionAlignment(_commandLineOptions.CustomPESectionAlignment)
.UseVerifyTypeAndFieldLayout(_commandLineOptions.VerifyTypeAndFieldLayout)
.GenerateOutputFile(outFile)
.UseILProvider(ilProvider)
.UseBackendOptions(_commandLineOptions.CodegenOptions)
.UseLogger(logger)
.UseDependencyTracking(trackingLevel)
.UseCompilationRoots(compilationRoots)
.UseOptimizationMode(optimizationMode);
if (_commandLineOptions.PrintReproInstructions)
{
builder.UsePrintReproInstructions(CreateReproArgumentString);
}
compilation = builder.ToCompilation();
}
compilation.Compile(outFile);
if (_commandLineOptions.DgmlLogFileName != null)
{
compilation.WriteDependencyLog(_commandLineOptions.DgmlLogFileName);
}
compilation.Dispose();
}
}
private int Run()
{
using (PerfEventSource.StartStopEvents.CompilationEvents())
{
ICompilation compilation;
using (PerfEventSource.StartStopEvents.LoadingEvents())
{
InitializeDefaultOptions();
ProcessCommandLine();
if (_commandLineOptions.OutputFilePath == null)
{
throw new CommandLineException(SR.MissingOutputFile);
}
CheckCustomPESectionAlignment();
ConfigureTarget();
InstructionSetSupport instructionSetSupport = ConfigureInstructionSetSupport();
//
// Initialize type system context
//
SharedGenericsMode genericsMode = SharedGenericsMode.CanonicalReferenceTypes;
var targetDetails = new TargetDetails(_targetArchitecture, _targetOS, TargetAbi.CoreRT, instructionSetSupport.GetVectorTSimdVector());
_typeSystemContext = new ReadyToRunCompilerContext(targetDetails, genericsMode);
string compositeRootPath = _commandLineOptions.CompositeRootPath?.FullName;
//
// TODO: To support our pre-compiled test tree, allow input files that aren't managed assemblies since
// some tests contain a mixture of both managed and native binaries.
//
// See: https://github.com/dotnet/corert/issues/2785
//
// When we undo this this hack, replace this foreach with
// typeSystemContext.InputFilePaths = _inputFilePaths;
//
Dictionary <string, string> allInputFilePaths = new Dictionary <string, string>();
Dictionary <string, string> inputFilePaths = new Dictionary <string, string>();
List <ModuleDesc> referenceableModules = new List <ModuleDesc>();
foreach (var inputFile in _inputFilePaths)
{
try
{
var module = _typeSystemContext.GetModuleFromPath(inputFile.Value);
allInputFilePaths.Add(inputFile.Key, inputFile.Value);
inputFilePaths.Add(inputFile.Key, inputFile.Value);
referenceableModules.Add(module);
if (compositeRootPath == null)
{
compositeRootPath = Path.GetDirectoryName(inputFile.Value);
}
}
catch (TypeSystemException.BadImageFormatException)
{
// Keep calm and carry on.
}
}
Dictionary <string, string> unrootedInputFilePaths = new Dictionary <string, string>();
foreach (var unrootedInputFile in _unrootedInputFilePaths)
{
try
{
var module = _typeSystemContext.GetModuleFromPath(unrootedInputFile.Value);
if (!allInputFilePaths.ContainsKey(unrootedInputFile.Key))
{
allInputFilePaths.Add(unrootedInputFile.Key, unrootedInputFile.Value);
unrootedInputFilePaths.Add(unrootedInputFile.Key, unrootedInputFile.Value);
referenceableModules.Add(module);
if (compositeRootPath == null)
{
compositeRootPath = Path.GetDirectoryName(unrootedInputFile.Value);
}
}
}
catch (TypeSystemException.BadImageFormatException)
{
// Keep calm and carry on.
}
}
CheckManagedCppInputFiles(allInputFilePaths.Values);
_typeSystemContext.InputFilePaths = allInputFilePaths;
_typeSystemContext.ReferenceFilePaths = _referenceFilePaths;
List <EcmaModule> inputModules = new List <EcmaModule>();
List <EcmaModule> rootingModules = new List <EcmaModule>();
HashSet <ModuleDesc> versionBubbleModulesHash = new HashSet <ModuleDesc>();
foreach (var inputFile in inputFilePaths)
{
EcmaModule module = _typeSystemContext.GetModuleFromPath(inputFile.Value);
inputModules.Add(module);
rootingModules.Add(module);
versionBubbleModulesHash.Add(module);
if (!_commandLineOptions.CompositeOrInputBubble)
{
break;
}
}
foreach (var unrootedInputFile in unrootedInputFilePaths)
{
EcmaModule module = _typeSystemContext.GetModuleFromPath(unrootedInputFile.Value);
inputModules.Add(module);
versionBubbleModulesHash.Add(module);
}
string systemModuleName = _commandLineOptions.SystemModule ?? DefaultSystemModule;
_typeSystemContext.SetSystemModule((EcmaModule)_typeSystemContext.GetModuleForSimpleName(systemModuleName));
if (_typeSystemContext.InputFilePaths.Count == 0)
{
throw new CommandLineException(SR.NoInputFiles);
}
//
// Initialize compilation group and compilation roots
//
// Single method mode?
MethodDesc singleMethod = CheckAndParseSingleMethodModeArguments(_typeSystemContext);
var logger = new Logger(Console.Out, _commandLineOptions.Verbose);
List <string> mibcFiles = new List <string>();
if (_commandLineOptions.Mibc != null)
{
foreach (var file in _commandLineOptions.Mibc)
{
mibcFiles.Add(file.FullName);
}
}
foreach (var referenceFile in _referenceFilePaths.Values)
{
try
{
EcmaModule module = _typeSystemContext.GetModuleFromPath(referenceFile);
if (versionBubbleModulesHash.Contains(module))
{
// Ignore reference assemblies that have also been passed as inputs
continue;
}
referenceableModules.Add(module);
if (_commandLineOptions.InputBubble)
{
// In large version bubble mode add reference paths to the compilation group
versionBubbleModulesHash.Add(module);
}
}
catch { } // Ignore non-managed pe files
}
List <ModuleDesc> versionBubbleModules = new List <ModuleDesc>(versionBubbleModulesHash);
if (!_commandLineOptions.Composite && inputModules.Count != 1)
{
throw new Exception(string.Format(SR.ErrorMultipleInputFilesCompositeModeOnly, string.Join("; ", inputModules)));
}
ReadyToRunCompilationModuleGroupBase compilationGroup;
List <ICompilationRootProvider> compilationRoots = new List <ICompilationRootProvider>();
if (singleMethod != null)
{
// Compiling just a single method
compilationGroup = new SingleMethodCompilationModuleGroup(
_typeSystemContext,
_commandLineOptions.Composite,
_commandLineOptions.InputBubble,
inputModules,
versionBubbleModules,
_commandLineOptions.CompileBubbleGenerics,
singleMethod);
compilationRoots.Add(new SingleMethodRootProvider(singleMethod));
}
else if (_commandLineOptions.CompileNoMethods)
{
compilationGroup = new NoMethodsCompilationModuleGroup(
_typeSystemContext,
_commandLineOptions.Composite,
_commandLineOptions.InputBubble,
inputModules,
versionBubbleModules,
_commandLineOptions.CompileBubbleGenerics);
}
else
{
// Single assembly compilation.
compilationGroup = new ReadyToRunSingleAssemblyCompilationModuleGroup(
_typeSystemContext,
_commandLineOptions.Composite,
_commandLineOptions.InputBubble,
inputModules,
versionBubbleModules,
_commandLineOptions.CompileBubbleGenerics);
}
// Examine profile guided information as appropriate
ProfileDataManager profileDataManager =
new ProfileDataManager(logger,
referenceableModules,
inputModules,
versionBubbleModules,
_commandLineOptions.CompileBubbleGenerics ? inputModules[0] : null,
mibcFiles,
_typeSystemContext,
compilationGroup);
if (_commandLineOptions.Partial)
{
compilationGroup.ApplyProfilerGuidedCompilationRestriction(profileDataManager);
}
else
{
compilationGroup.ApplyProfilerGuidedCompilationRestriction(null);
}
if ((singleMethod == null) && !_commandLineOptions.CompileNoMethods)
{
// For normal compilations add compilation roots.
foreach (var module in rootingModules)
{
compilationRoots.Add(new ReadyToRunRootProvider(
module,
profileDataManager,
profileDrivenPartialNGen: _commandLineOptions.Partial));
if (!_commandLineOptions.CompositeOrInputBubble)
{
break;
}
}
}
//
// Compile
//
ReadyToRunCodegenCompilationBuilder builder = new ReadyToRunCodegenCompilationBuilder(
_typeSystemContext, compilationGroup, allInputFilePaths.Values, compositeRootPath);
string compilationUnitPrefix = "";
builder.UseCompilationUnitPrefix(compilationUnitPrefix);
ILProvider ilProvider = new ReadyToRunILProvider();
DependencyTrackingLevel trackingLevel = _commandLineOptions.DgmlLogFileName == null ?
DependencyTrackingLevel.None : (_commandLineOptions.GenerateFullDgmlLog ? DependencyTrackingLevel.All : DependencyTrackingLevel.First);
builder
.UseIbcTuning(_commandLineOptions.Tuning)
.UseResilience(_commandLineOptions.Resilient)
.UseMapFile(_commandLineOptions.Map)
.UseParallelism(_commandLineOptions.Parallelism)
.UseProfileData(profileDataManager)
.FileLayoutAlgorithms(_commandLineOptions.MethodLayout, _commandLineOptions.FileLayout)
.UseJitPath(_commandLineOptions.JitPath)
.UseInstructionSetSupport(instructionSetSupport)
.UseCustomPESectionAlignment(_commandLineOptions.CustomPESectionAlignment)
.UseVerifyTypeAndFieldLayout(_commandLineOptions.VerifyTypeAndFieldLayout)
.GenerateOutputFile(_commandLineOptions.OutputFilePath.FullName)
.UseILProvider(ilProvider)
.UseBackendOptions(_commandLineOptions.CodegenOptions)
.UseLogger(logger)
.UseDependencyTracking(trackingLevel)
.UseCompilationRoots(compilationRoots)
.UseOptimizationMode(_optimizationMode);
compilation = builder.ToCompilation();
}
compilation.Compile(_commandLineOptions.OutputFilePath.FullName);
if (_commandLineOptions.DgmlLogFileName != null)
{
compilation.WriteDependencyLog(_commandLineOptions.DgmlLogFileName.FullName);
}
}
return(0);
}
private int Run()
{
InitializeDefaultOptions();
ProcessCommandLine();
if (_commandLineOptions.OutputFilePath == null)
{
throw new CommandLineException(SR.MissingOutputFile);
}
//
// Set target Architecture and OS
//
if (_commandLineOptions.TargetArch != null)
{
if (_commandLineOptions.TargetArch.Equals("x86", StringComparison.OrdinalIgnoreCase))
{
_targetArchitecture = TargetArchitecture.X86;
}
else if (_commandLineOptions.TargetArch.Equals("x64", StringComparison.OrdinalIgnoreCase))
{
_targetArchitecture = TargetArchitecture.X64;
}
else if (_commandLineOptions.TargetArch.Equals("arm", StringComparison.OrdinalIgnoreCase))
{
_targetArchitecture = TargetArchitecture.ARM;
}
else if (_commandLineOptions.TargetArch.Equals("armel", StringComparison.OrdinalIgnoreCase))
{
_targetArchitecture = TargetArchitecture.ARM;
}
else if (_commandLineOptions.TargetArch.Equals("arm64", StringComparison.OrdinalIgnoreCase))
{
_targetArchitecture = TargetArchitecture.ARM64;
}
else
{
throw new CommandLineException(SR.TargetArchitectureUnsupported);
}
}
if (_commandLineOptions.TargetOS != null)
{
if (_commandLineOptions.TargetOS.Equals("windows", StringComparison.OrdinalIgnoreCase))
{
_targetOS = TargetOS.Windows;
}
else if (_commandLineOptions.TargetOS.Equals("linux", StringComparison.OrdinalIgnoreCase))
{
_targetOS = TargetOS.Linux;
}
else if (_commandLineOptions.TargetOS.Equals("osx", StringComparison.OrdinalIgnoreCase))
{
_targetOS = TargetOS.OSX;
}
else
{
throw new CommandLineException(SR.TargetOSUnsupported);
}
}
InstructionSetSupportBuilder instructionSetSupportBuilder = new InstructionSetSupportBuilder(_targetArchitecture);
// Ready to run images are built with certain instruction set baselines
if ((_targetArchitecture == TargetArchitecture.X86) || (_targetArchitecture == TargetArchitecture.X64))
{
instructionSetSupportBuilder.AddSupportedInstructionSet("sse");
instructionSetSupportBuilder.AddSupportedInstructionSet("sse2");
}
else if (_targetArchitecture == TargetArchitecture.ARM64)
{
instructionSetSupportBuilder.AddSupportedInstructionSet("base");
instructionSetSupportBuilder.AddSupportedInstructionSet("neon");
}
if (_commandLineOptions.InstructionSet != null)
{
List <string> instructionSetParams = new List <string>();
// At this time, instruction sets may only be specified with --input-bubble, as
// we do not yet have a stable ABI for all vector parameter/return types.
if (!_commandLineOptions.InputBubble)
{
throw new CommandLineException(SR.InstructionSetWithoutInputBubble);
}
// Normalize instruction set format to include implied +.
string[] instructionSetParamsInput = _commandLineOptions.InstructionSet.Split(",");
for (int i = 0; i < instructionSetParamsInput.Length; i++)
{
string instructionSet = instructionSetParamsInput[i];
if (String.IsNullOrEmpty(instructionSet))
{
throw new CommandLineException(String.Format(SR.InstructionSetMustNotBe, ""));
}
char firstChar = instructionSet[0];
if ((firstChar != '+') && (firstChar != '-'))
{
instructionSet = "+" + instructionSet;
}
instructionSetParams.Add(instructionSet);
}
Dictionary <string, bool> instructionSetSpecification = new Dictionary <string, bool>();
foreach (string instructionSetSpecifier in instructionSetParams)
{
string instructionSet = instructionSetSpecifier.Substring(1, instructionSetSpecifier.Length - 1);
bool enabled = instructionSetSpecifier[0] == '+' ? true : false;
if (enabled)
{
if (!instructionSetSupportBuilder.AddSupportedInstructionSet(instructionSet))
{
throw new CommandLineException(String.Format(SR.InstructionSetMustNotBe, instructionSet));
}
}
else
{
if (!instructionSetSupportBuilder.RemoveInstructionSetSupport(instructionSet))
{
throw new CommandLineException(String.Format(SR.InstructionSetMustNotBe, instructionSet));
}
}
}
}
instructionSetSupportBuilder.ComputeInstructionSetFlags(out var supportedInstructionSet, out var unsupportedInstructionSet,
(string specifiedInstructionSet, string impliedInstructionSet) =>
throw new CommandLineException(String.Format(SR.InstructionSetInvalidImplication, specifiedInstructionSet, impliedInstructionSet)));
InstructionSetSupportBuilder optimisticInstructionSetSupportBuilder = new InstructionSetSupportBuilder(_targetArchitecture);
// Ready to run images are built with certain instruction sets that are optimistically assumed to be present
if ((_targetArchitecture == TargetArchitecture.X86) || (_targetArchitecture == TargetArchitecture.X64))
{
// For ReadyToRun we set these hardware features as enabled always, as most
// of hardware in the wild supports them. Note that we do not indicate support for AVX, or any other
// instruction set which uses the VEX encodings as the presence of those makes otherwise acceptable
// code be unusable on hardware which does not support VEX encodings, as well as emulators that do not
// support AVX instructions. As the jit generates logic that depends on these features it will call
// notifyInstructionSetUsage, which will result in generation of a fixup to verify the behavior of
// code.
//
optimisticInstructionSetSupportBuilder.AddSupportedInstructionSet("sse");
optimisticInstructionSetSupportBuilder.AddSupportedInstructionSet("sse2");
optimisticInstructionSetSupportBuilder.AddSupportedInstructionSet("sse4.1");
optimisticInstructionSetSupportBuilder.AddSupportedInstructionSet("sse4.2");
optimisticInstructionSetSupportBuilder.AddSupportedInstructionSet("aes");
optimisticInstructionSetSupportBuilder.AddSupportedInstructionSet("pclmul");
optimisticInstructionSetSupportBuilder.AddSupportedInstructionSet("popcnt");
optimisticInstructionSetSupportBuilder.AddSupportedInstructionSet("lzcnt");
}
optimisticInstructionSetSupportBuilder.ComputeInstructionSetFlags(out var optimisticInstructionSet, out _,
(string specifiedInstructionSet, string impliedInstructionSet) => throw new NotSupportedException());
optimisticInstructionSet.Remove(unsupportedInstructionSet);
optimisticInstructionSet.Add(supportedInstructionSet);
var instructionSetSupport = new InstructionSetSupport(supportedInstructionSet,
unsupportedInstructionSet,
optimisticInstructionSet,
InstructionSetSupportBuilder.GetNonSpecifiableInstructionSetsForArch(_targetArchitecture),
_targetArchitecture);
using (PerfEventSource.StartStopEvents.CompilationEvents())
{
ICompilation compilation;
using (PerfEventSource.StartStopEvents.LoadingEvents())
{
//
// Initialize type system context
//
SharedGenericsMode genericsMode = SharedGenericsMode.CanonicalReferenceTypes;
var targetDetails = new TargetDetails(_targetArchitecture, _targetOS, TargetAbi.CoreRT, instructionSetSupport.GetVectorTSimdVector());
CompilerTypeSystemContext typeSystemContext = new ReadyToRunCompilerContext(targetDetails, genericsMode);
//
// TODO: To support our pre-compiled test tree, allow input files that aren't managed assemblies since
// some tests contain a mixture of both managed and native binaries.
//
// See: https://github.com/dotnet/corert/issues/2785
//
// When we undo this this hack, replace this foreach with
// typeSystemContext.InputFilePaths = _inputFilePaths;
//
Dictionary <string, string> allInputFilePaths = new Dictionary <string, string>();
Dictionary <string, string> inputFilePaths = new Dictionary <string, string>();
List <ModuleDesc> referenceableModules = new List <ModuleDesc>();
foreach (var inputFile in _inputFilePaths)
{
try
{
var module = typeSystemContext.GetModuleFromPath(inputFile.Value);
allInputFilePaths.Add(inputFile.Key, inputFile.Value);
inputFilePaths.Add(inputFile.Key, inputFile.Value);
referenceableModules.Add(module);
}
catch (TypeSystemException.BadImageFormatException)
{
// Keep calm and carry on.
}
}
Dictionary <string, string> unrootedInputFilePaths = new Dictionary <string, string>();
foreach (var unrootedInputFile in _unrootedInputFilePaths)
{
try
{
var module = typeSystemContext.GetModuleFromPath(unrootedInputFile.Value);
if (!allInputFilePaths.ContainsKey(unrootedInputFile.Key))
{
allInputFilePaths.Add(unrootedInputFile.Key, unrootedInputFile.Value);
unrootedInputFilePaths.Add(unrootedInputFile.Key, unrootedInputFile.Value);
referenceableModules.Add(module);
}
}
catch (TypeSystemException.BadImageFormatException)
{
// Keep calm and carry on.
}
}
typeSystemContext.InputFilePaths = allInputFilePaths;
typeSystemContext.ReferenceFilePaths = _referenceFilePaths;
List <EcmaModule> inputModules = new List <EcmaModule>();
List <EcmaModule> rootingModules = new List <EcmaModule>();
HashSet <ModuleDesc> versionBubbleModulesHash = new HashSet <ModuleDesc>();
foreach (var inputFile in inputFilePaths)
{
EcmaModule module = typeSystemContext.GetModuleFromPath(inputFile.Value);
inputModules.Add(module);
rootingModules.Add(module);
versionBubbleModulesHash.Add(module);
if (!_commandLineOptions.CompositeOrInputBubble)
{
break;
}
}
foreach (var unrootedInputFile in unrootedInputFilePaths)
{
EcmaModule module = typeSystemContext.GetModuleFromPath(unrootedInputFile.Value);
inputModules.Add(module);
versionBubbleModulesHash.Add(module);
}
string systemModuleName = _commandLineOptions.SystemModule ?? DefaultSystemModule;
typeSystemContext.SetSystemModule((EcmaModule)typeSystemContext.GetModuleForSimpleName(systemModuleName));
if (typeSystemContext.InputFilePaths.Count == 0)
{
throw new CommandLineException(SR.NoInputFiles);
}
//
// Initialize compilation group and compilation roots
//
// Single method mode?
MethodDesc singleMethod = CheckAndParseSingleMethodModeArguments(typeSystemContext);
var logger = new Logger(Console.Out, _commandLineOptions.Verbose);
List <string> mibcFiles = new List <string>();
if (_commandLineOptions.Mibc != null)
{
foreach (var file in _commandLineOptions.Mibc)
{
mibcFiles.Add(file.FullName);
}
}
foreach (var referenceFile in _referenceFilePaths.Values)
{
try
{
EcmaModule module = typeSystemContext.GetModuleFromPath(referenceFile);
if (versionBubbleModulesHash.Contains(module))
{
// Ignore reference assemblies that have also been passed as inputs
continue;
}
referenceableModules.Add(module);
if (_commandLineOptions.InputBubble)
{
// In large version bubble mode add reference paths to the compilation group
versionBubbleModulesHash.Add(module);
}
}
catch { } // Ignore non-managed pe files
}
List <ModuleDesc> versionBubbleModules = new List <ModuleDesc>(versionBubbleModulesHash);
if (!_commandLineOptions.Composite && inputModules.Count != 1)
{
throw new Exception(string.Format(SR.ErrorMultipleInputFilesCompositeModeOnly, string.Join("; ", inputModules)));
}
ReadyToRunCompilationModuleGroupBase compilationGroup;
List <ICompilationRootProvider> compilationRoots = new List <ICompilationRootProvider>();
if (singleMethod != null)
{
// Compiling just a single method
compilationGroup = new SingleMethodCompilationModuleGroup(
typeSystemContext,
_commandLineOptions.Composite,
_commandLineOptions.InputBubble,
inputModules,
versionBubbleModules,
_commandLineOptions.CompileBubbleGenerics,
singleMethod);
compilationRoots.Add(new SingleMethodRootProvider(singleMethod));
}
else if (_commandLineOptions.CompileNoMethods)
{
compilationGroup = new NoMethodsCompilationModuleGroup(
typeSystemContext,
_commandLineOptions.Composite,
_commandLineOptions.InputBubble,
inputModules,
versionBubbleModules,
_commandLineOptions.CompileBubbleGenerics);
}
else
{
// Single assembly compilation.
compilationGroup = new ReadyToRunSingleAssemblyCompilationModuleGroup(
typeSystemContext,
_commandLineOptions.Composite,
_commandLineOptions.InputBubble,
inputModules,
versionBubbleModules,
_commandLineOptions.CompileBubbleGenerics);
}
// Examine profile guided information as appropriate
ProfileDataManager profileDataManager =
new ProfileDataManager(logger,
referenceableModules,
inputModules,
versionBubbleModules,
_commandLineOptions.CompileBubbleGenerics ? inputModules[0] : null,
mibcFiles,
typeSystemContext,
compilationGroup);
if (_commandLineOptions.Partial)
{
compilationGroup.ApplyProfilerGuidedCompilationRestriction(profileDataManager);
}
else
{
compilationGroup.ApplyProfilerGuidedCompilationRestriction(null);
}
if ((singleMethod == null) && !_commandLineOptions.CompileNoMethods)
{
// For normal compilations add compilation roots.
foreach (var module in rootingModules)
{
compilationRoots.Add(new ReadyToRunRootProvider(
module,
profileDataManager,
profileDrivenPartialNGen: _commandLineOptions.Partial));
if (!_commandLineOptions.CompositeOrInputBubble)
{
break;
}
}
}
//
// Compile
//
ReadyToRunCodegenCompilationBuilder builder = new ReadyToRunCodegenCompilationBuilder(
typeSystemContext, compilationGroup, allInputFilePaths.Values);
string compilationUnitPrefix = "";
builder.UseCompilationUnitPrefix(compilationUnitPrefix);
ILProvider ilProvider = new ReadyToRunILProvider();
DependencyTrackingLevel trackingLevel = _commandLineOptions.DgmlLogFileName == null ?
DependencyTrackingLevel.None : (_commandLineOptions.GenerateFullDgmlLog ? DependencyTrackingLevel.All : DependencyTrackingLevel.First);
builder
.UseIbcTuning(_commandLineOptions.Tuning)
.UseResilience(_commandLineOptions.Resilient)
.UseMapFile(_commandLineOptions.Map)
.UseParallelism(_commandLineOptions.Parallelism)
.UseProfileData(profileDataManager)
.FileLayoutAlgorithms(_commandLineOptions.MethodLayout, _commandLineOptions.FileLayout)
.UseJitPath(_commandLineOptions.JitPath)
.UseInstructionSetSupport(instructionSetSupport)
.GenerateOutputFile(_commandLineOptions.OutputFilePath.FullName)
.UseILProvider(ilProvider)
.UseBackendOptions(_commandLineOptions.CodegenOptions)
.UseLogger(logger)
.UseDependencyTracking(trackingLevel)
.UseCompilationRoots(compilationRoots)
.UseOptimizationMode(_optimizationMode);
compilation = builder.ToCompilation();
}
compilation.Compile(_commandLineOptions.OutputFilePath.FullName);
if (_commandLineOptions.DgmlLogFileName != null)
{
compilation.WriteDependencyLog(_commandLineOptions.DgmlLogFileName.FullName);
}
}
return(0);
}
private int Run(string[] args)
{
InitializeDefaultOptions();
ArgumentSyntax syntax = ParseCommandLine(args);
if (_help)
{
Help(syntax.GetHelpText());
return(1);
}
if (_outputFilePath == null)
{
throw new CommandLineException("Output filename must be specified (/out <file>)");
}
//
// Set target Architecture and OS
//
if (_targetArchitectureStr != null)
{
if (_targetArchitectureStr.Equals("x86", StringComparison.OrdinalIgnoreCase))
{
_targetArchitecture = TargetArchitecture.X86;
}
else if (_targetArchitectureStr.Equals("x64", StringComparison.OrdinalIgnoreCase))
{
_targetArchitecture = TargetArchitecture.X64;
}
else if (_targetArchitectureStr.Equals("arm", StringComparison.OrdinalIgnoreCase))
{
_targetArchitecture = TargetArchitecture.ARM;
}
else if (_targetArchitectureStr.Equals("armel", StringComparison.OrdinalIgnoreCase))
{
_targetArchitecture = TargetArchitecture.ARM;
}
else if (_targetArchitectureStr.Equals("arm64", StringComparison.OrdinalIgnoreCase))
{
_targetArchitecture = TargetArchitecture.ARM64;
}
else if (_targetArchitectureStr.Equals("wasm", StringComparison.OrdinalIgnoreCase))
{
_targetArchitecture = TargetArchitecture.Wasm32;
_isWasmCodegen = true;
}
else
{
throw new CommandLineException("Target architecture is not supported");
}
}
if (_targetOSStr != null)
{
if (_targetOSStr.Equals("windows", StringComparison.OrdinalIgnoreCase))
{
_targetOS = TargetOS.Windows;
}
else if (_targetOSStr.Equals("linux", StringComparison.OrdinalIgnoreCase))
{
_targetOS = TargetOS.Linux;
}
else if (_targetOSStr.Equals("osx", StringComparison.OrdinalIgnoreCase))
{
_targetOS = TargetOS.OSX;
}
else
{
throw new CommandLineException("Target OS is not supported");
}
}
if (_isWasmCodegen)
{
_targetArchitecture = TargetArchitecture.Wasm32;
}
bool supportsReflection = !_disableReflection && !_isReadyToRunCodeGen && _systemModuleName == DefaultSystemModule;
//
// Initialize type system context
//
SharedGenericsMode genericsMode = _useSharedGenerics || !_isWasmCodegen ?
SharedGenericsMode.CanonicalReferenceTypes : SharedGenericsMode.Disabled;
// TODO: compiler switch for SIMD support?
var simdVectorLength = (_isCppCodegen || _isWasmCodegen) ? SimdVectorLength.None : SimdVectorLength.Vector128Bit;
var targetAbi = _isCppCodegen ? TargetAbi.CppCodegen : TargetAbi.CoreRT;
var targetDetails = new TargetDetails(_targetArchitecture, _targetOS, targetAbi, simdVectorLength);
CompilerTypeSystemContext typeSystemContext = (_isReadyToRunCodeGen
? new ReadyToRunCompilerContext(targetDetails, genericsMode)
: new CompilerTypeSystemContext(targetDetails, genericsMode, supportsReflection ? DelegateFeature.All : 0));
//
// TODO: To support our pre-compiled test tree, allow input files that aren't managed assemblies since
// some tests contain a mixture of both managed and native binaries.
//
// See: https://github.com/dotnet/corert/issues/2785
//
// When we undo this this hack, replace this foreach with
// typeSystemContext.InputFilePaths = _inputFilePaths;
//
Dictionary <string, string> inputFilePaths = new Dictionary <string, string>();
foreach (var inputFile in _inputFilePaths)
{
try
{
var module = typeSystemContext.GetModuleFromPath(inputFile.Value);
inputFilePaths.Add(inputFile.Key, inputFile.Value);
}
catch (TypeSystemException.BadImageFormatException)
{
// Keep calm and carry on.
}
}
typeSystemContext.InputFilePaths = inputFilePaths;
typeSystemContext.ReferenceFilePaths = _referenceFilePaths;
typeSystemContext.SetSystemModule(typeSystemContext.GetModuleForSimpleName(_systemModuleName));
if (typeSystemContext.InputFilePaths.Count == 0)
{
throw new CommandLineException("No input files specified");
}
//
// Initialize compilation group and compilation roots
//
// Single method mode?
MethodDesc singleMethod = CheckAndParseSingleMethodModeArguments(typeSystemContext);
CompilationModuleGroup compilationGroup;
List <ICompilationRootProvider> compilationRoots = new List <ICompilationRootProvider>();
if (singleMethod != null)
{
// Compiling just a single method
compilationGroup = new SingleMethodCompilationModuleGroup(singleMethod);
compilationRoots.Add(new SingleMethodRootProvider(singleMethod));
}
else
{
// Either single file, or multifile library, or multifile consumption.
EcmaModule entrypointModule = null;
bool systemModuleIsInputModule = false;
foreach (var inputFile in typeSystemContext.InputFilePaths)
{
EcmaModule module = typeSystemContext.GetModuleFromPath(inputFile.Value);
if (module.PEReader.PEHeaders.IsExe)
{
if (entrypointModule != null)
{
throw new Exception("Multiple EXE modules");
}
entrypointModule = module;
}
if (module == typeSystemContext.SystemModule)
{
systemModuleIsInputModule = true;
}
if (!_isReadyToRunCodeGen)
{
compilationRoots.Add(new ExportedMethodsRootProvider(module));
}
}
if (entrypointModule != null && !_isReadyToRunCodeGen)
{
compilationRoots.Add(new MainMethodRootProvider(entrypointModule, CreateInitializerList(typeSystemContext)));
compilationRoots.Add(new RuntimeConfigurationRootProvider(_runtimeOptions));
}
if (_isReadyToRunCodeGen)
{
List <EcmaModule> inputModules = new List <EcmaModule>();
foreach (var inputFile in typeSystemContext.InputFilePaths)
{
EcmaModule module = typeSystemContext.GetModuleFromPath(inputFile.Value);
compilationRoots.Add(new ReadyToRunRootProvider(module));
inputModules.Add(module);
if (!_isInputVersionBubble)
{
break;
}
}
List <ModuleDesc> versionBubbleModules = new List <ModuleDesc>();
if (_isInputVersionBubble)
{
// In large version bubble mode add reference paths to the compilation group
foreach (string referenceFile in _referenceFilePaths.Values)
{
try
{
// Currently SimpleTest.targets has no easy way to filter out non-managed assemblies
// from the reference list.
EcmaModule module = typeSystemContext.GetModuleFromPath(referenceFile);
versionBubbleModules.Add(module);
}
catch (TypeSystemException.BadImageFormatException ex)
{
Console.WriteLine("Warning: cannot open reference assembly '{0}': {1}", referenceFile, ex.Message);
}
}
}
compilationGroup = new ReadyToRunSingleAssemblyCompilationModuleGroup(
typeSystemContext, inputModules, versionBubbleModules);
}
else if (_multiFile)
{
List <EcmaModule> inputModules = new List <EcmaModule>();
foreach (var inputFile in typeSystemContext.InputFilePaths)
{
EcmaModule module = typeSystemContext.GetModuleFromPath(inputFile.Value);
if (entrypointModule == null)
{
// This is a multifile production build - we need to root all methods
compilationRoots.Add(new LibraryRootProvider(module));
}
inputModules.Add(module);
}
compilationGroup = new MultiFileSharedCompilationModuleGroup(typeSystemContext, inputModules);
}
else
{
if (entrypointModule == null && !_nativeLib)
{
throw new Exception("No entrypoint module");
}
if (!systemModuleIsInputModule)
{
compilationRoots.Add(new ExportedMethodsRootProvider((EcmaModule)typeSystemContext.SystemModule));
}
compilationGroup = new SingleFileCompilationModuleGroup();
}
if (_nativeLib)
{
// Set owning module of generated native library startup method to compiler generated module,
// to ensure the startup method is included in the object file during multimodule mode build
compilationRoots.Add(new NativeLibraryInitializerRootProvider(typeSystemContext.GeneratedAssembly, CreateInitializerList(typeSystemContext)));
compilationRoots.Add(new RuntimeConfigurationRootProvider(_runtimeOptions));
}
if (_rdXmlFilePaths.Count > 0)
{
Console.WriteLine("Warning: RD.XML processing will change before release (https://github.com/dotnet/corert/issues/5001)");
}
foreach (var rdXmlFilePath in _rdXmlFilePaths)
{
compilationRoots.Add(new RdXmlRootProvider(typeSystemContext, rdXmlFilePath));
}
}
//
// Compile
//
CompilationBuilder builder;
if (_isWasmCodegen)
{
builder = new WebAssemblyCodegenCompilationBuilder(typeSystemContext, compilationGroup);
}
else if (_isReadyToRunCodeGen)
{
string inputFilePath = "";
foreach (var input in typeSystemContext.InputFilePaths)
{
inputFilePath = input.Value;
break;
}
builder = new ReadyToRunCodegenCompilationBuilder(typeSystemContext, compilationGroup, inputFilePath);
}
else if (_isCppCodegen)
{
builder = new CppCodegenCompilationBuilder(typeSystemContext, compilationGroup);
}
else
{
builder = new RyuJitCompilationBuilder(typeSystemContext, compilationGroup);
}
string compilationUnitPrefix = _multiFile ? System.IO.Path.GetFileNameWithoutExtension(_outputFilePath) : "";
builder.UseCompilationUnitPrefix(compilationUnitPrefix);
PInvokeILEmitterConfiguration pinvokePolicy;
if (!_isCppCodegen && !_isWasmCodegen)
{
pinvokePolicy = new ConfigurablePInvokePolicy(typeSystemContext.Target);
}
else
{
pinvokePolicy = new DirectPInvokePolicy();
}
RemovedFeature removedFeatures = 0;
foreach (string feature in _removedFeatures)
{
if (feature == "EventSource")
{
removedFeatures |= RemovedFeature.Etw;
}
else if (feature == "FrameworkStrings")
{
removedFeatures |= RemovedFeature.FrameworkResources;
}
else if (feature == "Globalization")
{
removedFeatures |= RemovedFeature.Globalization;
}
else if (feature == "Comparers")
{
removedFeatures |= RemovedFeature.Comparers;
}
else if (feature == "CurlHandler")
{
removedFeatures |= RemovedFeature.CurlHandler;
}
}
ILProvider ilProvider = _isReadyToRunCodeGen ? (ILProvider) new ReadyToRunILProvider() : new CoreRTILProvider();
if (removedFeatures != 0)
{
ilProvider = new RemovingILProvider(ilProvider, removedFeatures);
}
var stackTracePolicy = _emitStackTraceData ?
(StackTraceEmissionPolicy) new EcmaMethodStackTraceEmissionPolicy() : new NoStackTraceEmissionPolicy();
MetadataBlockingPolicy mdBlockingPolicy = _noMetadataBlocking
? (MetadataBlockingPolicy) new NoMetadataBlockingPolicy()
: new BlockedInternalsBlockingPolicy(typeSystemContext);
ManifestResourceBlockingPolicy resBlockingPolicy = (removedFeatures & RemovedFeature.FrameworkResources) != 0 ?
new FrameworkStringResourceBlockingPolicy() : (ManifestResourceBlockingPolicy) new NoManifestResourceBlockingPolicy();
UsageBasedMetadataGenerationOptions metadataGenerationOptions = UsageBasedMetadataGenerationOptions.AnonymousTypeHeuristic;
if (_completeTypesMetadata)
{
metadataGenerationOptions |= UsageBasedMetadataGenerationOptions.CompleteTypesOnly;
}
if (_scanReflection)
{
metadataGenerationOptions |= UsageBasedMetadataGenerationOptions.ILScanning;
}
if (_rootAllApplicationAssemblies)
{
metadataGenerationOptions |= UsageBasedMetadataGenerationOptions.FullUserAssemblyRooting;
}
DynamicInvokeThunkGenerationPolicy invokeThunkGenerationPolicy = new DefaultDynamicInvokeThunkGenerationPolicy();
MetadataManager metadataManager;
if (_isReadyToRunCodeGen)
{
metadataManager = new ReadyToRunTableManager(typeSystemContext);
}
else if (supportsReflection)
{
metadataManager = new UsageBasedMetadataManager(
compilationGroup,
typeSystemContext,
mdBlockingPolicy,
resBlockingPolicy,
_metadataLogFileName,
stackTracePolicy,
invokeThunkGenerationPolicy,
ilProvider,
metadataGenerationOptions);
}
else
{
metadataManager = new EmptyMetadataManager(typeSystemContext);
}
InteropStateManager interopStateManager = new InteropStateManager(typeSystemContext.GeneratedAssembly);
InteropStubManager interopStubManager;
if (_isReadyToRunCodeGen)
{
interopStubManager = new EmptyInteropStubManager();
}
else
{
interopStubManager = new UsageBasedInteropStubManager(interopStateManager, pinvokePolicy);
}
// Unless explicitly opted in at the command line, we enable scanner for retail builds by default.
// We don't do this for CppCodegen and Wasm, because those codegens are behind.
// We also don't do this for multifile because scanner doesn't simulate inlining (this would be
// fixable by using a CompilationGroup for the scanner that has a bigger worldview, but
// let's cross that bridge when we get there).
bool useScanner = _useScanner ||
(_optimizationMode != OptimizationMode.None && !_isCppCodegen && !_isWasmCodegen && !_isReadyToRunCodeGen && !_multiFile);
useScanner &= !_noScanner;
builder.UseILProvider(ilProvider);
ILScanResults scanResults = null;
if (useScanner)
{
ILScannerBuilder scannerBuilder = builder.GetILScannerBuilder()
.UseCompilationRoots(compilationRoots)
.UseMetadataManager(metadataManager)
.UseInteropStubManager(interopStubManager);
if (_scanDgmlLogFileName != null)
{
scannerBuilder.UseDependencyTracking(_generateFullScanDgmlLog ? DependencyTrackingLevel.All : DependencyTrackingLevel.First);
}
IILScanner scanner = scannerBuilder.ToILScanner();
scanResults = scanner.Scan();
if (metadataManager is UsageBasedMetadataManager usageBasedManager)
{
metadataManager = usageBasedManager.ToAnalysisBasedMetadataManager();
}
interopStubManager = scanResults.GetInteropStubManager(interopStateManager, pinvokePolicy);
}
var logger = new Logger(Console.Out, _isVerbose);
DebugInformationProvider debugInfoProvider = _enableDebugInfo ?
(_ilDump == null ? new DebugInformationProvider() : new ILAssemblyGeneratingMethodDebugInfoProvider(_ilDump, new EcmaOnlyDebugInformationProvider())) :
new NullDebugInformationProvider();
DependencyTrackingLevel trackingLevel = _dgmlLogFileName == null ?
DependencyTrackingLevel.None : (_generateFullDgmlLog ? DependencyTrackingLevel.All : DependencyTrackingLevel.First);
compilationRoots.Add(metadataManager);
compilationRoots.Add(interopStubManager);
builder
.UseBackendOptions(_codegenOptions)
.UseMethodBodyFolding(_methodBodyFolding)
.UseMetadataManager(metadataManager)
.UseInteropStubManager(interopStubManager)
.UseLogger(logger)
.UseDependencyTracking(trackingLevel)
.UseCompilationRoots(compilationRoots)
.UseOptimizationMode(_optimizationMode)
.UseDebugInfoProvider(debugInfoProvider);
if (scanResults != null)
{
// If we have a scanner, feed the vtable analysis results to the compilation.
// This could be a command line switch if we really wanted to.
builder.UseVTableSliceProvider(scanResults.GetVTableLayoutInfo());
// If we have a scanner, feed the generic dictionary results to the compilation.
// This could be a command line switch if we really wanted to.
builder.UseGenericDictionaryLayoutProvider(scanResults.GetDictionaryLayoutInfo());
// If we feed any outputs of the scanner into the compilation, it's essential
// we use scanner's devirtualization manager. It prevents optimizing codegens
// from accidentally devirtualizing cases that can never happen at runtime
// (e.g. devirtualizing a method on a type that never gets allocated).
builder.UseDevirtualizationManager(scanResults.GetDevirtualizationManager());
}
ICompilation compilation = builder.ToCompilation();
ObjectDumper dumper = _mapFileName != null ? new ObjectDumper(_mapFileName) : null;
CompilationResults compilationResults = compilation.Compile(_outputFilePath, dumper);
if (_exportsFile != null)
{
ExportsFileWriter defFileWriter = new ExportsFileWriter(typeSystemContext, _exportsFile);
foreach (var compilationRoot in compilationRoots)
{
if (compilationRoot is ExportedMethodsRootProvider provider)
{
defFileWriter.AddExportedMethods(provider.ExportedMethods);
}
}
defFileWriter.EmitExportedMethods();
}
if (_dgmlLogFileName != null)
{
compilationResults.WriteDependencyLog(_dgmlLogFileName);
}
if (scanResults != null)
{
SimdHelper simdHelper = new SimdHelper();
if (_scanDgmlLogFileName != null)
{
scanResults.WriteDependencyLog(_scanDgmlLogFileName);
}
// If the scanner and compiler don't agree on what to compile, the outputs of the scanner might not actually be usable.
// We are going to check this two ways:
// 1. The methods and types generated during compilation are a subset of method and types scanned
// 2. The methods and types scanned are a subset of methods and types compiled (this has a chance to hold for unoptimized builds only).
// Check that methods and types generated during compilation are a subset of method and types scanned
bool scanningFail = false;
DiffCompilationResults(ref scanningFail, compilationResults.CompiledMethodBodies, scanResults.CompiledMethodBodies,
"Methods", "compiled", "scanned", method => !(method.GetTypicalMethodDefinition() is EcmaMethod) || method.Name == "ThrowPlatformNotSupportedException");
DiffCompilationResults(ref scanningFail, compilationResults.ConstructedEETypes, scanResults.ConstructedEETypes,
"EETypes", "compiled", "scanned", type => !(type.GetTypeDefinition() is EcmaType));
// If optimizations are enabled, the results will for sure not match in the other direction due to inlining, etc.
// But there's at least some value in checking the scanner doesn't expand the universe too much in debug.
if (_optimizationMode == OptimizationMode.None)
{
// Check that methods and types scanned are a subset of methods and types compiled
// If we find diffs here, they're not critical, but still might be causing a Size on Disk regression.
bool dummy = false;
// We additionally skip methods in SIMD module because there's just too many intrisics to handle and IL scanner
// doesn't expand them. They would show up as noisy diffs.
DiffCompilationResults(ref dummy, scanResults.CompiledMethodBodies, compilationResults.CompiledMethodBodies,
"Methods", "scanned", "compiled", method => !(method.GetTypicalMethodDefinition() is EcmaMethod) || simdHelper.IsSimdType(method.OwningType));
DiffCompilationResults(ref dummy, scanResults.ConstructedEETypes, compilationResults.ConstructedEETypes,
"EETypes", "scanned", "compiled", type => !(type.GetTypeDefinition() is EcmaType));
}
if (scanningFail)
{
throw new Exception("Scanning failure");
}
}
if (debugInfoProvider is IDisposable)
{
((IDisposable)debugInfoProvider).Dispose();
}
return(0);
}
private int Run(string[] args)
{
using (PerfEventSource.StartStopEvents.CompilationEvents())
{
ICompilation compilation;
using (PerfEventSource.StartStopEvents.LoadingEvents())
{
InitializeDefaultOptions();
ProcessCommandLine(args);
if (_commandLineOptions.Help)
{
Console.WriteLine(_commandLineOptions.HelpText);
return(1);
}
if (_commandLineOptions.OutputFilePath == null)
{
throw new CommandLineException(SR.MissingOutputFile);
}
ConfigureTarget();
InstructionSetSupport instructionSetSupport = ConfigureInstructionSetSupport();
//
// Initialize type system context
//
SharedGenericsMode genericsMode = SharedGenericsMode.CanonicalReferenceTypes;
var targetDetails = new TargetDetails(_targetArchitecture, _targetOS, _armelAbi ? TargetAbi.CoreRTArmel : TargetAbi.CoreRT, instructionSetSupport.GetVectorTSimdVector());
bool versionBubbleIncludesCoreLib = false;
if (_commandLineOptions.InputBubble)
{
versionBubbleIncludesCoreLib = true;
}
else
{
foreach (var inputFile in _inputFilePaths)
{
if (String.Compare(inputFile.Key, "System.Private.CoreLib", StringComparison.OrdinalIgnoreCase) == 0)
{
versionBubbleIncludesCoreLib = true;
break;
}
}
if (!versionBubbleIncludesCoreLib)
{
foreach (var inputFile in _unrootedInputFilePaths)
{
if (String.Compare(inputFile.Key, "System.Private.CoreLib", StringComparison.OrdinalIgnoreCase) == 0)
{
versionBubbleIncludesCoreLib = true;
break;
}
}
}
}
_typeSystemContext = new ReadyToRunCompilerContext(targetDetails, genericsMode, versionBubbleIncludesCoreLib);
string compositeRootPath = _commandLineOptions.CompositeRootPath;
//
// TODO: To support our pre-compiled test tree, allow input files that aren't managed assemblies since
// some tests contain a mixture of both managed and native binaries.
//
// See: https://github.com/dotnet/corert/issues/2785
//
// When we undo this this hack, replace this foreach with
// typeSystemContext.InputFilePaths = _inputFilePaths;
//
Dictionary <string, string> allInputFilePaths = new Dictionary <string, string>();
Dictionary <string, string> inputFilePaths = new Dictionary <string, string>();
List <ModuleDesc> referenceableModules = new List <ModuleDesc>();
foreach (var inputFile in _inputFilePaths)
{
try
{
var module = _typeSystemContext.GetModuleFromPath(inputFile.Value);
allInputFilePaths.Add(inputFile.Key, inputFile.Value);
inputFilePaths.Add(inputFile.Key, inputFile.Value);
referenceableModules.Add(module);
if (compositeRootPath == null)
{
compositeRootPath = Path.GetDirectoryName(inputFile.Value);
}
}
catch (TypeSystemException.BadImageFormatException)
{
// Keep calm and carry on.
}
}
Dictionary <string, string> unrootedInputFilePaths = new Dictionary <string, string>();
foreach (var unrootedInputFile in _unrootedInputFilePaths)
{
try
{
var module = _typeSystemContext.GetModuleFromPath(unrootedInputFile.Value);
if (!allInputFilePaths.ContainsKey(unrootedInputFile.Key))
{
allInputFilePaths.Add(unrootedInputFile.Key, unrootedInputFile.Value);
unrootedInputFilePaths.Add(unrootedInputFile.Key, unrootedInputFile.Value);
referenceableModules.Add(module);
if (compositeRootPath == null)
{
compositeRootPath = Path.GetDirectoryName(unrootedInputFile.Value);
}
}
}
catch (TypeSystemException.BadImageFormatException)
{
// Keep calm and carry on.
}
}
CheckManagedCppInputFiles(allInputFilePaths.Values);
_typeSystemContext.InputFilePaths = allInputFilePaths;
_typeSystemContext.ReferenceFilePaths = _referenceFilePaths;
List <EcmaModule> inputModules = new List <EcmaModule>();
List <EcmaModule> rootingModules = new List <EcmaModule>();
HashSet <ModuleDesc> versionBubbleModulesHash = new HashSet <ModuleDesc>();
Guid?inputModuleMvid = null;
foreach (var inputFile in inputFilePaths)
{
EcmaModule module = _typeSystemContext.GetModuleFromPath(inputFile.Value);
inputModules.Add(module);
rootingModules.Add(module);
versionBubbleModulesHash.Add(module);
if (!_commandLineOptions.Composite && !inputModuleMvid.HasValue)
{
inputModuleMvid = module.MetadataReader.GetGuid(module.MetadataReader.GetModuleDefinition().Mvid);
}
if (!_commandLineOptions.CompositeOrInputBubble)
{
break;
}
}
foreach (var unrootedInputFile in unrootedInputFilePaths)
{
EcmaModule module = _typeSystemContext.GetModuleFromPath(unrootedInputFile.Value);
inputModules.Add(module);
versionBubbleModulesHash.Add(module);
}
string systemModuleName = _commandLineOptions.SystemModule ?? DefaultSystemModule;
_typeSystemContext.SetSystemModule((EcmaModule)_typeSystemContext.GetModuleForSimpleName(systemModuleName));
if (_typeSystemContext.InputFilePaths.Count == 0)
{
if (_commandLineOptions.InputFilePaths.Count > 0)
{
Console.WriteLine(SR.InputWasNotLoadable);
return(2);
}
throw new CommandLineException(SR.NoInputFiles);
}
//
// Initialize compilation group and compilation roots
//
// Single method mode?
MethodDesc singleMethod = CheckAndParseSingleMethodModeArguments(_typeSystemContext);
var logger = new Logger(Console.Out, _commandLineOptions.Verbose);
List <string> mibcFiles = new List <string>();
foreach (var file in _commandLineOptions.MibcFilePaths)
{
mibcFiles.Add(file);
}
foreach (var referenceFile in _referenceFilePaths.Values)
{
try
{
EcmaModule module = _typeSystemContext.GetModuleFromPath(referenceFile);
if (versionBubbleModulesHash.Contains(module))
{
// Ignore reference assemblies that have also been passed as inputs
continue;
}
referenceableModules.Add(module);
if (_commandLineOptions.InputBubble)
{
// In large version bubble mode add reference paths to the compilation group
versionBubbleModulesHash.Add(module);
}
}
catch { } // Ignore non-managed pe files
}
List <ModuleDesc> versionBubbleModules = new List <ModuleDesc>(versionBubbleModulesHash);
if (!_commandLineOptions.Composite && inputModules.Count != 1)
{
throw new Exception(string.Format(SR.ErrorMultipleInputFilesCompositeModeOnly, string.Join("; ", inputModules)));
}
ReadyToRunCompilationModuleGroupBase compilationGroup;
List <ICompilationRootProvider> compilationRoots = new List <ICompilationRootProvider>();
if (singleMethod != null)
{
// Compiling just a single method
compilationGroup = new SingleMethodCompilationModuleGroup(
_typeSystemContext,
_commandLineOptions.Composite,
_commandLineOptions.InputBubble,
inputModules,
versionBubbleModules,
_commandLineOptions.CompileBubbleGenerics,
singleMethod);
compilationRoots.Add(new SingleMethodRootProvider(singleMethod));
}
else if (_commandLineOptions.CompileNoMethods)
{
compilationGroup = new NoMethodsCompilationModuleGroup(
_typeSystemContext,
_commandLineOptions.Composite,
_commandLineOptions.InputBubble,
inputModules,
versionBubbleModules,
_commandLineOptions.CompileBubbleGenerics);
}
else
{
// Single assembly compilation.
compilationGroup = new ReadyToRunSingleAssemblyCompilationModuleGroup(
_typeSystemContext,
_commandLineOptions.Composite,
_commandLineOptions.InputBubble,
inputModules,
versionBubbleModules,
_commandLineOptions.CompileBubbleGenerics);
}
// Load any profiles generated by method call chain analyis
CallChainProfile jsonProfile = null;
if (!string.IsNullOrEmpty(_commandLineOptions.CallChainProfileFile))
{
jsonProfile = new CallChainProfile(_commandLineOptions.CallChainProfileFile, _typeSystemContext, referenceableModules);
}
// Examine profile guided information as appropriate
ProfileDataManager profileDataManager =
new ProfileDataManager(logger,
referenceableModules,
inputModules,
versionBubbleModules,
_commandLineOptions.CompileBubbleGenerics ? inputModules[0] : null,
mibcFiles,
jsonProfile,
_typeSystemContext,
compilationGroup,
_commandLineOptions.EmbedPgoData);
if (_commandLineOptions.Partial)
{
compilationGroup.ApplyProfilerGuidedCompilationRestriction(profileDataManager);
}
else
{
compilationGroup.ApplyProfilerGuidedCompilationRestriction(null);
}
if ((singleMethod == null) && !_commandLineOptions.CompileNoMethods)
{
// For normal compilations add compilation roots.
foreach (var module in rootingModules)
{
compilationRoots.Add(new ReadyToRunRootProvider(
module,
profileDataManager,
profileDrivenPartialNGen: _commandLineOptions.Partial));
if (!_commandLineOptions.CompositeOrInputBubble)
{
break;
}
}
}
// In single-file compilation mode, use the assembly's DebuggableAttribute to determine whether to optimize
// or produce debuggable code if an explicit optimization level was not specified on the command line
if (_optimizationMode == OptimizationMode.None && !_commandLineOptions.OptimizeDisabled && !_commandLineOptions.Composite)
{
System.Diagnostics.Debug.Assert(inputModules.Count == 1);
_optimizationMode = ((EcmaAssembly)inputModules[0].Assembly).HasOptimizationsDisabled() ? OptimizationMode.None : OptimizationMode.Blended;
}
//
// Compile
//
ReadyToRunCodegenCompilationBuilder builder = new ReadyToRunCodegenCompilationBuilder(
_typeSystemContext, compilationGroup, allInputFilePaths.Values, compositeRootPath);
string compilationUnitPrefix = "";
builder.UseCompilationUnitPrefix(compilationUnitPrefix);
ILProvider ilProvider = new ReadyToRunILProvider();
DependencyTrackingLevel trackingLevel = _commandLineOptions.DgmlLogFileName == null ?
DependencyTrackingLevel.None : (_commandLineOptions.GenerateFullDgmlLog ? DependencyTrackingLevel.All : DependencyTrackingLevel.First);
builder
.UseIbcTuning(_commandLineOptions.Tuning)
.UseResilience(_commandLineOptions.Resilient)
.UseMapFile(_commandLineOptions.Map)
.UseMapCsvFile(_commandLineOptions.MapCsv)
.UsePdbFile(_commandLineOptions.Pdb, _commandLineOptions.PdbPath)
.UsePerfMapFile(_commandLineOptions.PerfMap, _commandLineOptions.PerfMapPath, inputModuleMvid)
.UseProfileFile(jsonProfile != null)
.UseParallelism(_commandLineOptions.Parallelism)
.UseProfileData(profileDataManager)
.FileLayoutAlgorithms(_methodLayout, _fileLayout)
.UseJitPath(_commandLineOptions.JitPath)
.UseInstructionSetSupport(instructionSetSupport)
.UseCustomPESectionAlignment(_commandLineOptions.CustomPESectionAlignment)
.UseVerifyTypeAndFieldLayout(_commandLineOptions.VerifyTypeAndFieldLayout)
.GenerateOutputFile(_commandLineOptions.OutputFilePath)
.UseILProvider(ilProvider)
.UseBackendOptions(_commandLineOptions.CodegenOptions)
.UseLogger(logger)
.UseDependencyTracking(trackingLevel)
.UseCompilationRoots(compilationRoots)
.UseOptimizationMode(_optimizationMode);
if (_commandLineOptions.PrintReproInstructions)
{
builder.UsePrintReproInstructions(CreateReproArgumentString);
}
compilation = builder.ToCompilation();
}
compilation.Compile(_commandLineOptions.OutputFilePath);
if (_commandLineOptions.DgmlLogFileName != null)
{
compilation.WriteDependencyLog(_commandLineOptions.DgmlLogFileName);
}
compilation.Dispose();
}
return(0);
}
private int Run()
{
InitializeDefaultOptions();
ProcessCommandLine();
if (_commandLineOptions.OutputFilePath == null)
{
throw new CommandLineException(SR.MissingOutputFile);
}
//
// Set target Architecture and OS
//
if (_commandLineOptions.TargetArch != null)
{
if (_commandLineOptions.TargetArch.Equals("x86", StringComparison.OrdinalIgnoreCase))
{
_targetArchitecture = TargetArchitecture.X86;
}
else if (_commandLineOptions.TargetArch.Equals("x64", StringComparison.OrdinalIgnoreCase))
{
_targetArchitecture = TargetArchitecture.X64;
}
else if (_commandLineOptions.TargetArch.Equals("arm", StringComparison.OrdinalIgnoreCase))
{
_targetArchitecture = TargetArchitecture.ARM;
}
else if (_commandLineOptions.TargetArch.Equals("armel", StringComparison.OrdinalIgnoreCase))
{
_targetArchitecture = TargetArchitecture.ARM;
}
else if (_commandLineOptions.TargetArch.Equals("arm64", StringComparison.OrdinalIgnoreCase))
{
_targetArchitecture = TargetArchitecture.ARM64;
}
else
{
throw new CommandLineException(SR.TargetArchitectureUnsupported);
}
}
if (_commandLineOptions.TargetOS != null)
{
if (_commandLineOptions.TargetOS.Equals("windows", StringComparison.OrdinalIgnoreCase))
{
_targetOS = TargetOS.Windows;
}
else if (_commandLineOptions.TargetOS.Equals("linux", StringComparison.OrdinalIgnoreCase))
{
_targetOS = TargetOS.Linux;
}
else if (_commandLineOptions.TargetOS.Equals("osx", StringComparison.OrdinalIgnoreCase))
{
_targetOS = TargetOS.OSX;
}
else
{
throw new CommandLineException(SR.TargetOSUnsupported);
}
}
using (PerfEventSource.StartStopEvents.CompilationEvents())
{
ICompilation compilation;
using (PerfEventSource.StartStopEvents.LoadingEvents())
{
//
// Initialize type system context
//
SharedGenericsMode genericsMode = SharedGenericsMode.CanonicalReferenceTypes;
var targetDetails = new TargetDetails(_targetArchitecture, _targetOS, TargetAbi.CoreRT, SimdVectorLength.None);
CompilerTypeSystemContext typeSystemContext = new ReadyToRunCompilerContext(targetDetails, genericsMode);
//
// TODO: To support our pre-compiled test tree, allow input files that aren't managed assemblies since
// some tests contain a mixture of both managed and native binaries.
//
// See: https://github.com/dotnet/corert/issues/2785
//
// When we undo this this hack, replace this foreach with
// typeSystemContext.InputFilePaths = _inputFilePaths;
//
Dictionary <string, string> inputFilePaths = new Dictionary <string, string>();
List <ModuleDesc> referenceableModules = new List <ModuleDesc>();
foreach (var inputFile in _inputFilePaths)
{
try
{
var module = typeSystemContext.GetModuleFromPath(inputFile.Value);
inputFilePaths.Add(inputFile.Key, inputFile.Value);
referenceableModules.Add(module);
}
catch (TypeSystemException.BadImageFormatException)
{
// Keep calm and carry on.
}
}
typeSystemContext.InputFilePaths = inputFilePaths;
typeSystemContext.ReferenceFilePaths = _referenceFilePaths;
List <EcmaModule> inputModules = new List <EcmaModule>();
HashSet <ModuleDesc> versionBubbleModulesHash = new HashSet <ModuleDesc>();
foreach (var inputFile in typeSystemContext.InputFilePaths)
{
EcmaModule module = typeSystemContext.GetModuleFromPath(inputFile.Value);
inputModules.Add(module);
versionBubbleModulesHash.Add(module);
if (!_commandLineOptions.InputBubble)
{
break;
}
}
string systemModuleName = _commandLineOptions.SystemModule ?? DefaultSystemModule;
typeSystemContext.SetSystemModule(typeSystemContext.GetModuleForSimpleName(systemModuleName));
if (typeSystemContext.InputFilePaths.Count == 0)
{
throw new CommandLineException(SR.NoInputFiles);
}
//
// Initialize compilation group and compilation roots
//
// Single method mode?
MethodDesc singleMethod = CheckAndParseSingleMethodModeArguments(typeSystemContext);
var logger = new Logger(Console.Out, _commandLineOptions.Verbose);
List <string> mibcFiles = new List <string>();
if (_commandLineOptions.Mibc != null)
{
foreach (var file in _commandLineOptions.Mibc)
{
mibcFiles.Add(file.FullName);
}
}
foreach (var referenceFile in _referenceFilePaths.Values)
{
try
{
EcmaModule module = typeSystemContext.GetModuleFromPath(referenceFile);
referenceableModules.Add(module);
if (_commandLineOptions.InputBubble)
{
// In large version bubble mode add reference paths to the compilation group
versionBubbleModulesHash.Add(module);
}
}
catch { } // Ignore non-managed pe files
}
List <ModuleDesc> versionBubbleModules = new List <ModuleDesc>(versionBubbleModulesHash);
ReadyToRunCompilationModuleGroupBase compilationGroup;
List <ICompilationRootProvider> compilationRoots = new List <ICompilationRootProvider>();
if (singleMethod != null)
{
// Compiling just a single method
compilationGroup = new SingleMethodCompilationModuleGroup(typeSystemContext, inputModules, versionBubbleModules, _commandLineOptions.CompileBubbleGenerics, singleMethod);
compilationRoots.Add(new SingleMethodRootProvider(singleMethod));
}
else
{
// Single assembly compilation.
compilationGroup = new ReadyToRunSingleAssemblyCompilationModuleGroup(
typeSystemContext, inputModules, versionBubbleModules, _commandLineOptions.CompileBubbleGenerics);
}
// Examine profile guided information as appropriate
ProfileDataManager profileDataManager =
new ProfileDataManager(logger,
referenceableModules,
inputModules,
versionBubbleModules,
_commandLineOptions.CompileBubbleGenerics ? inputModules[0] : null,
mibcFiles,
typeSystemContext,
compilationGroup);
if (_commandLineOptions.Partial)
{
compilationGroup.ApplyProfilerGuidedCompilationRestriction(profileDataManager);
}
else
{
compilationGroup.ApplyProfilerGuidedCompilationRestriction(null);
}
if (singleMethod == null)
{
// For non-single-method compilations add compilation roots.
foreach (var module in inputModules)
{
compilationRoots.Add(new ReadyToRunRootProvider(module, profileDataManager, _commandLineOptions.Partial));
if (!_commandLineOptions.InputBubble)
{
break;
}
}
}
//
// Compile
//
string inputFilePath = "";
foreach (var input in typeSystemContext.InputFilePaths)
{
inputFilePath = input.Value;
break;
}
ReadyToRunCodegenCompilationBuilder builder = new ReadyToRunCodegenCompilationBuilder(typeSystemContext, compilationGroup, inputFilePath);
string compilationUnitPrefix = "";
builder.UseCompilationUnitPrefix(compilationUnitPrefix);
ILProvider ilProvider = new ReadyToRunILProvider();
DependencyTrackingLevel trackingLevel = _commandLineOptions.DgmlLogFileName == null ?
DependencyTrackingLevel.None : (_commandLineOptions.GenerateFullDgmlLog ? DependencyTrackingLevel.All : DependencyTrackingLevel.First);
builder
.UseIbcTuning(_commandLineOptions.Tuning)
.UseResilience(_commandLineOptions.Resilient)
.UseMapFile(_commandLineOptions.Map)
.UseParallelism(_commandLineOptions.Parallelism)
.UseJitPath(_commandLineOptions.JitPath)
.UseILProvider(ilProvider)
.UseBackendOptions(_commandLineOptions.CodegenOptions)
.UseLogger(logger)
.UseDependencyTracking(trackingLevel)
.UseCompilationRoots(compilationRoots)
.UseOptimizationMode(_optimizationMode);
compilation = builder.ToCompilation();
}
compilation.Compile(_commandLineOptions.OutputFilePath.FullName);
if (_commandLineOptions.DgmlLogFileName != null)
{
compilation.WriteDependencyLog(_commandLineOptions.DgmlLogFileName.FullName);
}
}
return(0);
}