|
public DecompileType ( Mono.Cecil.TypeDefinition type, ITextOutput output, |
||
| type | Mono.Cecil.TypeDefinition | |
| output | ITextOutput | |
| options | ||
| return | void | |
public override void Decompile(ICSharpCode.ILSpy.Language language, ITextOutput output, ICSharpCode.ILSpy.DecompilationOptions options)
{
//Switches on the token
switch (_tokenProvider.MetadataToken.TokenType)
{
case TokenType.Module:
language.DecompileModule((ModuleDefinition)_tokenProvider, output, options);
break;
case TokenType.Assembly:
language.WriteCommentLine(output, ((AssemblyNameReference)_tokenProvider).FullName);
break;
case TokenType.TypeDef:
language.DecompileType((TypeDefinition)_tokenProvider, output, options);
break;
case TokenType.Field:
language.DecompileField((FieldDefinition)_tokenProvider, output, options);
break;
case TokenType.Method:
language.DecompileMethod((MethodDefinition)_tokenProvider, output, options);
break;
case TokenType.Event:
language.DecompileEvent((EventDefinition)_tokenProvider, output, options);
break;
case TokenType.Property:
language.DecompileProperty((PropertyDefinition)_tokenProvider, output, options);
break;
case TokenType.MemberRef:
var memberRef = (MemberReference)_tokenProvider;
if (memberRef.DeclaringType != null && memberRef.DeclaringType is GenericInstanceType)
{
var giType = (GenericInstanceType)memberRef.DeclaringType;
var type = giType.ElementType.Resolve();
var memberDef = type.Fields.Cast <IMemberDefinition>()
.Concat(type.Methods)
.Concat(type.Properties)
.Concat(type.Events)
.FirstOrDefault(m => m.Name == memberRef.Name);
if (memberDef != null)
{
new ILEditTreeNode(memberDef, true).Decompile(language, output, options);
}
}
break;
default:
language.WriteCommentLine(output, (string)this.Text);
break;
}
}
private void DecompileAssembly(AssemblyDefinition adef, string outputDir, string location)
{
Utils.WriteToConsole("Decompiling assembly: " + adef.FullName);
//Each visitor is responsible of changing the file if necessary (from here it is ipmossible to know the file names)
ICSharpCode.Decompiler.ITextOutput textOutput = new ICSharpCode.Decompiler.FileTextOutput(outputDir);
FileWritterManager.WorkingPath = outputDir;
ICSharpCode.ILSpy.Language lang = null;
//CONFIGURE OUTPUT LANGUAGE
if (Config.ToCSharp)
{
lang = OutputLanguage("C#");
}
else
{
lang = OutputLanguage("CXX");
}
if (Config.RecursiveDependencies)
{
var resolver = new DefaultAssemblyResolver();
Utils.WriteToConsole("Adding " + location + " to resolver search directories");
resolver.AddSearchDirectory(location);
foreach (AssemblyNameReference anref in adef.MainModule.AssemblyReferences)
{
if (!Config.IgnoreReferences.Contains(anref.Name))
{
AssemblyDefinition assembly = resolver.Resolve(anref);
//TODO: Change directory ?
DecompileAssembly(assembly, outputDir, location);
if (assembly == null)
{
Utils.WriteToConsole("alternative: ");
Utils.WriteToConsole("ERROR - could not resolve assembly " + anref.FullName + " .");
}
}
}
}
//DECOMPILE FIRST TIME AND FILL THE TABLES
foreach (TypeDefinition tdef in adef.MainModule.Types)
{
if (!tdef.Name.Contains("<"))
{
lang.DecompileType(tdef, textOutput, new ICSharpCode.ILSpy.DecompilationOptions()
{
FullDecompilation = false
});
}
}
//DECOMPILE
foreach (TypeDefinition tdef in adef.MainModule.Types)
{
if (!tdef.Name.Contains("<"))
{
lang.DecompileType(tdef, textOutput, new ICSharpCode.ILSpy.DecompilationOptions()
{
FullDecompilation = false
});
Utils.WriteToConsole("Decompiled: " + tdef.FullName);
}
}
}
private void DecomplieType(Language language, TypeDefinition type, ITextOutput output, DecompilationOptions options)
{
language.DecompileType(type, output, options);
}
public string Decompile(string language, object o)
{
if (o == null)
{
return(String.Empty);
}
Language l = CreateLanguage(language);
if (l == null)
{
return(String.Format("Can't create language: {0}", language));
}
ITextOutput output = new RtfTextOutput();
DecompilationOptions options = new DecompilationOptions();
if (o is AssemblyDefinition)
{
l.DecompileAssembly((AssemblyDefinition)o, output, options);
}
else if (o is TypeDefinition)
{
l.DecompileType((TypeDefinition)o, output, options);
}
else if (o is MethodDefinition)
{
l.DecompileMethod((MethodDefinition)o, output, options);
}
else if (o is FieldDefinition)
{
l.DecompileField((FieldDefinition)o, output, options);
}
else if (o is PropertyDefinition)
{
l.DecompileProperty((PropertyDefinition)o, output, options);
}
else if (o is EventDefinition)
{
l.DecompileEvent((EventDefinition)o, output, options);
}
else if (o is AssemblyNameReference)
{
output.Write("// Assembly Reference ");
output.WriteDefinition(o.ToString(), null);
output.WriteLine();
}
else if (o is ModuleReference)
{
output.Write("// Module Reference ");
output.WriteDefinition(o.ToString(), null);
output.WriteLine();
}
else
{
output.Write(String.Format("// {0} ", o.GetType().Name));
output.WriteDefinition(o.ToString(), null);
output.WriteLine();
}
return(output.ToString());
}
