SMAPI/ModLoader/Mono/Cecil/MetadataResolver.cs

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2019-05-13 22:33:45 +08:00
//
// Author:
// Jb Evain (jbevain@gmail.com)
//
// Copyright (c) 2008 - 2015 Jb Evain
// Copyright (c) 2008 - 2011 Novell, Inc.
//
// Licensed under the MIT/X11 license.
//
using System;
using Mono.Collections.Generic;
namespace Mono.Cecil {
public interface IAssemblyResolver : IDisposable {
AssemblyDefinition Resolve (AssemblyNameReference name);
AssemblyDefinition Resolve (AssemblyNameReference name, ReaderParameters parameters);
}
public interface IMetadataResolver {
TypeDefinition Resolve (TypeReference type);
FieldDefinition Resolve (FieldReference field);
MethodDefinition Resolve (MethodReference method);
}
#if !NET_CORE
[Serializable]
#endif
public sealed class ResolutionException : Exception {
readonly MemberReference member;
public MemberReference Member {
get { return member; }
}
public IMetadataScope Scope {
get {
var type = member as TypeReference;
if (type != null)
return type.Scope;
var declaring_type = member.DeclaringType;
if (declaring_type != null)
return declaring_type.Scope;
throw new NotSupportedException ();
}
}
public ResolutionException (MemberReference member)
: base ("Failed to resolve " + member.FullName)
{
if (member == null)
throw new ArgumentNullException ("member");
this.member = member;
}
public ResolutionException (MemberReference member, Exception innerException)
: base ("Failed to resolve " + member.FullName, innerException)
{
if (member == null)
throw new ArgumentNullException ("member");
this.member = member;
}
#if !NET_CORE
ResolutionException (
System.Runtime.Serialization.SerializationInfo info,
System.Runtime.Serialization.StreamingContext context)
: base (info, context)
{
}
#endif
}
public class MetadataResolver : IMetadataResolver {
readonly IAssemblyResolver assembly_resolver;
public IAssemblyResolver AssemblyResolver {
get { return assembly_resolver; }
}
public MetadataResolver (IAssemblyResolver assemblyResolver)
{
if (assemblyResolver == null)
throw new ArgumentNullException ("assemblyResolver");
assembly_resolver = assemblyResolver;
}
public virtual TypeDefinition Resolve (TypeReference type)
{
Mixin.CheckType (type);
type = type.GetElementType ();
var scope = type.Scope;
if (scope == null)
return null;
switch (scope.MetadataScopeType) {
case MetadataScopeType.AssemblyNameReference:
var assembly = assembly_resolver.Resolve ((AssemblyNameReference) scope);
if (assembly == null)
return null;
return GetType (assembly.MainModule, type);
case MetadataScopeType.ModuleDefinition:
return GetType ((ModuleDefinition) scope, type);
case MetadataScopeType.ModuleReference:
var modules = type.Module.Assembly.Modules;
var module_ref = (ModuleReference) scope;
for (int i = 0; i < modules.Count; i++) {
var netmodule = modules [i];
if (netmodule.Name == module_ref.Name)
return GetType (netmodule, type);
}
break;
}
throw new NotSupportedException ();
}
static TypeDefinition GetType (ModuleDefinition module, TypeReference reference)
{
var type = GetTypeDefinition (module, reference);
if (type != null)
return type;
if (!module.HasExportedTypes)
return null;
var exported_types = module.ExportedTypes;
for (int i = 0; i < exported_types.Count; i++) {
var exported_type = exported_types [i];
if (exported_type.Name != reference.Name)
continue;
if (exported_type.Namespace != reference.Namespace)
continue;
return exported_type.Resolve ();
}
return null;
}
static TypeDefinition GetTypeDefinition (ModuleDefinition module, TypeReference type)
{
if (!type.IsNested)
return module.GetType (type.Namespace, type.Name);
var declaring_type = type.DeclaringType.Resolve ();
if (declaring_type == null)
return null;
return declaring_type.GetNestedType (type.TypeFullName ());
}
public virtual FieldDefinition Resolve (FieldReference field)
{
Mixin.CheckField (field);
var type = Resolve (field.DeclaringType);
if (type == null)
return null;
if (!type.HasFields)
return null;
return GetField (type, field);
}
FieldDefinition GetField (TypeDefinition type, FieldReference reference)
{
while (type != null) {
var field = GetField (type.Fields, reference);
if (field != null)
return field;
if (type.BaseType == null)
return null;
type = Resolve (type.BaseType);
}
return null;
}
static FieldDefinition GetField (Collection<FieldDefinition> fields, FieldReference reference)
{
for (int i = 0; i < fields.Count; i++) {
var field = fields [i];
if (field.Name != reference.Name)
continue;
if (!AreSame (field.FieldType, reference.FieldType))
continue;
return field;
}
return null;
}
public virtual MethodDefinition Resolve (MethodReference method)
{
Mixin.CheckMethod (method);
var type = Resolve (method.DeclaringType);
if (type == null)
return null;
method = method.GetElementMethod ();
if (!type.HasMethods)
return null;
return GetMethod (type, method);
}
MethodDefinition GetMethod (TypeDefinition type, MethodReference reference)
{
while (type != null) {
var method = GetMethod (type.Methods, reference);
if (method != null)
return method;
if (type.BaseType == null)
return null;
type = Resolve (type.BaseType);
}
return null;
}
public static MethodDefinition GetMethod (Collection<MethodDefinition> methods, MethodReference reference)
{
for (int i = 0; i < methods.Count; i++) {
var method = methods [i];
if (method.Name != reference.Name)
continue;
if (method.HasGenericParameters != reference.HasGenericParameters)
continue;
if (method.HasGenericParameters && method.GenericParameters.Count != reference.GenericParameters.Count)
continue;
if (!AreSame (method.ReturnType, reference.ReturnType))
continue;
if (method.IsVarArg () != reference.IsVarArg ())
continue;
if (method.IsVarArg () && IsVarArgCallTo (method, reference))
return method;
if (method.HasParameters != reference.HasParameters)
continue;
if (!method.HasParameters && !reference.HasParameters)
return method;
if (!AreSame (method.Parameters, reference.Parameters))
continue;
return method;
}
return null;
}
static bool AreSame (Collection<ParameterDefinition> a, Collection<ParameterDefinition> b)
{
var count = a.Count;
if (count != b.Count)
return false;
if (count == 0)
return true;
for (int i = 0; i < count; i++)
if (!AreSame (a [i].ParameterType, b [i].ParameterType))
return false;
return true;
}
static bool IsVarArgCallTo (MethodDefinition method, MethodReference reference)
{
if (method.Parameters.Count >= reference.Parameters.Count)
return false;
if (reference.GetSentinelPosition () != method.Parameters.Count)
return false;
for (int i = 0; i < method.Parameters.Count; i++)
if (!AreSame (method.Parameters [i].ParameterType, reference.Parameters [i].ParameterType))
return false;
return true;
}
static bool AreSame (TypeSpecification a, TypeSpecification b)
{
if (!AreSame (a.ElementType, b.ElementType))
return false;
if (a.IsGenericInstance)
return AreSame ((GenericInstanceType) a, (GenericInstanceType) b);
if (a.IsRequiredModifier || a.IsOptionalModifier)
return AreSame ((IModifierType) a, (IModifierType) b);
if (a.IsArray)
return AreSame ((ArrayType) a, (ArrayType) b);
return true;
}
static bool AreSame (ArrayType a, ArrayType b)
{
if (a.Rank != b.Rank)
return false;
// TODO: dimensions
return true;
}
static bool AreSame (IModifierType a, IModifierType b)
{
return AreSame (a.ModifierType, b.ModifierType);
}
static bool AreSame (GenericInstanceType a, GenericInstanceType b)
{
if (a.GenericArguments.Count != b.GenericArguments.Count)
return false;
for (int i = 0; i < a.GenericArguments.Count; i++)
if (!AreSame (a.GenericArguments [i], b.GenericArguments [i]))
return false;
return true;
}
static bool AreSame (GenericParameter a, GenericParameter b)
{
return a.Position == b.Position;
}
static bool AreSame (TypeReference a, TypeReference b)
{
if (ReferenceEquals (a, b))
return true;
if (a == null || b == null)
return false;
if (a.etype != b.etype)
return false;
if (a.IsGenericParameter)
return AreSame ((GenericParameter) a, (GenericParameter) b);
if (a.IsTypeSpecification ())
return AreSame ((TypeSpecification) a, (TypeSpecification) b);
if (a.Name != b.Name || a.Namespace != b.Namespace)
return false;
//TODO: check scope
return AreSame (a.DeclaringType, b.DeclaringType);
}
}
}