static int RealMain(string[] args) { int errorReturnValue = -1; #region Check options ILMerge.options = new ILMergeOptions(); options.Parse(args); if (options.HelpRequested) { options.PrintOptions(""); return(errorReturnValue); } if (options.HasErrors) { options.PrintErrorsAndExit(Console.Out); } if (options.breakIntoDebugger) { System.Diagnostics.Debugger.Break(); } #endregion Version version = null; if (options.version != null) { TryGetVersionNumber(options.version, out version); } using (var host = new ILMergeHost(options.libpaths)) { if (options.libpaths != null) { foreach (var libpath in options.libpaths) { host.AddLibPath(libpath); } } Assembly /*?*/ primaryAssembly = null; var modules = new List <Module>(); var unit2SourceLocationProviderMap = new Dictionary <IUnit, ISourceLocationProvider>(); var unit2LocalScopeProviderMap = new Dictionary <IUnit, ILocalScopeProvider>(); try { for (int i = 0; i < options.GeneralArguments.Count; i++) { var unitName = options.GeneralArguments[i]; var u = host.LoadUnitFrom(unitName) as IModule; if (i == 0) { IAssembly /*?*/ assembly = u as IAssembly; if (assembly == null || assembly is Dummy) { Console.WriteLine(unitName + " is not a PE file containing a CLR assembly, or an error occurred when loading it."); return(errorReturnValue); } // Use (the copy of) the first input assembly as the merged assembly! primaryAssembly = new MetadataDeepCopier(host).Copy(assembly); } else { var copier = new MetadataDeepCopier(host, primaryAssembly); var mutableModule = copier.Copy(u); modules.Add(mutableModule); } PdbReader /*?*/ pdbReader = null; string pdbFile = Path.ChangeExtension(u.Location, "pdb"); if (File.Exists(pdbFile)) { using (var pdbStream = File.OpenRead(pdbFile)) { pdbReader = new PdbReader(pdbStream, host); } unit2SourceLocationProviderMap.Add(u, pdbReader); unit2LocalScopeProviderMap.Add(u, pdbReader); } else { Console.WriteLine("Could not load the PDB file for the unit '" + u.Name.Value + "' . Proceeding anyway."); unit2SourceLocationProviderMap.Add(u, null); } } //PdbWriter/*?*/ pdbWriter = null; RewriteUnitReferences renamer = new RewriteUnitReferences(host, modules, options); renamer.targetAssembly = primaryAssembly; renamer.originalAssemblyIdentity = primaryAssembly.AssemblyIdentity; int totalNumberOfTypes = primaryAssembly.AllTypes.Count; #region Pass 1: Mutate each input module (including the primary assembly) so everything is re-parented to the merged assembly renamer.RewriteChildren(primaryAssembly); for (int i = 0, n = modules.Count; i < n; i++) { var mutableModule = modules[i]; // call Rewrite and not RewriteChildren so dynamic dispatch can call the right rewriter method // otherwise, it just rewrites it as a module, not whatever subtype it is. renamer.Rewrite(mutableModule); // However, the rewriter does *not* rewrite parents. So need to re-parent the root unit namespace // of the mutable assembly so it points to the merged assembly. Otherwise, interning (among other // things) will not work correctly. var rootUnitNs = (RootUnitNamespace)mutableModule.UnitNamespaceRoot; rootUnitNs.Unit = primaryAssembly; totalNumberOfTypes += mutableModule.AllTypes.Count; } #endregion #region Pass 2: Collect all of the types into the merged assembly var mergedTypes = new List <INamedTypeDefinition>(totalNumberOfTypes); #region Merge together all of the <Module> classes from the input assemblies // TODO: Merge all of the <Module> classes, i.e., type 0 from each of the input assemblies mergedTypes.Add(primaryAssembly.AllTypes[0]); #endregion var internedKeys = new HashSet <string>(); // keep track of all namespace type definitions #region Types from the primary assembly for (int i = 1, n = primaryAssembly.AllTypes.Count; i < n; i++) { var t = primaryAssembly.AllTypes[i]; mergedTypes.Add(t); if (t is INamespaceTypeDefinition) // don't care about nested types { var key = TypeHelper.GetTypeName(t, NameFormattingOptions.None); internedKeys.Add(key); } } #endregion #region Types from the other input assemblies, taking care of duplicates for (int i = 0, n = modules.Count; i < n; i++) { var module = modules[i]; var unitName = module.Name.Value; for (int j = 1, m = module.AllTypes.Count; j < m; j++) { var t = module.AllTypes[j]; var namespaceTypeDefinition = t as NamespaceTypeDefinition; // duplicates can be only at the top-level: namespace type definitions // if a namespace type definition is unique, then so are all of its nested types if (namespaceTypeDefinition != null) { var typeName = TypeHelper.GetTypeName(namespaceTypeDefinition, NameFormattingOptions.UseGenericTypeNameSuffix); if (internedKeys.Contains(typeName)) // error: duplicate! { if (!namespaceTypeDefinition.IsPublic || options.allowDup) { var newName = String.Format("{0}_from_{1}", namespaceTypeDefinition.Name.Value, unitName); namespaceTypeDefinition.Name = host.NameTable.GetNameFor(newName); var newTypeName = TypeHelper.GetTypeName(namespaceTypeDefinition, NameFormattingOptions.UseGenericTypeNameSuffix); Console.WriteLine("Adding '{0}' as '{1}'", typeName, newTypeName); internedKeys.Add(typeName); t = namespaceTypeDefinition; } else { Console.WriteLine("Error: Duplicate type '{0}'", typeName); continue; //TODO: set a flag somewhere to force a failure. } } else { //Console.WriteLine("Adding '{0}'", typeName); internedKeys.Add(typeName); } } mergedTypes.Add(t); } } #endregion primaryAssembly.AllTypes = mergedTypes; #endregion CopyResourcesToPrimaryAssembly(primaryAssembly, modules); if (version != null) { primaryAssembly.Version = version; } string outputPath; if (options.output != null) { outputPath = options.output; } else { outputPath = primaryAssembly.Name.Value + Path.GetExtension(options.GeneralArguments[0]) + ".meta"; } using (var aggregateSourceLocationProvider = new AggregatingSourceLocationProvider(unit2SourceLocationProviderMap)) { using (var aggregateLocalScopeProvider = new AggregatingLocalScopeProvider(unit2LocalScopeProviderMap)) { using (var peStream = File.Create(outputPath)) { using (var pdbWriter = new PdbWriter(Path.ChangeExtension(outputPath, "pdb"), aggregateSourceLocationProvider)) { PeWriter.WritePeToStream(primaryAssembly, host, peStream, aggregateSourceLocationProvider, aggregateLocalScopeProvider, pdbWriter); } } } } } finally { } return(0); // success } }