internal override bool CacheEquals(object?o)
{
return
(o is RuntimeEventInfo m &&
m.m_token == m_token &&
RuntimeTypeHandle.GetModule(m_declaringType).Equals(
RuntimeTypeHandle.GetModule(m.m_declaringType)));
}
internal override bool CacheEquals(object o)
{
RuntimePropertyInfo runtimePropertyInfo = o as RuntimePropertyInfo;
if (runtimePropertyInfo == null || runtimePropertyInfo.m_token != this.m_token)
{
return(false);
}
return(RuntimeTypeHandle.GetModule(this.m_declaringType).Equals((object)RuntimeTypeHandle.GetModule(runtimePropertyInfo.m_declaringType)));
}
internal override bool CacheEquals(object o)
{
RuntimePropertyInfo info = o as RuntimePropertyInfo;
if (info == null)
{
return(false);
}
return((info.m_token == this.m_token) && RuntimeTypeHandle.GetModule(this.m_declaringType).Equals(RuntimeTypeHandle.GetModule(info.m_declaringType)));
}
internal override bool CacheEquals(object o)
{
RuntimePropertyInfo m = o as RuntimePropertyInfo;
if ((object)m == null)
{
return(false);
}
return(m.m_token == m_token &&
RuntimeTypeHandle.GetModule(m_declaringType).Equals(
RuntimeTypeHandle.GetModule(m.m_declaringType)));
}
internal override bool CacheEquals(object?o)
{
RuntimeEventInfo?m = o as RuntimeEventInfo;
if (m is null)
{
return(false);
}
return(m.m_token == m_token &&
RuntimeTypeHandle.GetModule(m_declaringType).Equals(
RuntimeTypeHandle.GetModule(m.m_declaringType)));
}
private static RuntimeMethodInfo?AssignAssociates(
int tkMethod,
RuntimeType declaredType,
RuntimeType reflectedType)
{
if (MetadataToken.IsNullToken(tkMethod))
{
return(null);
}
Debug.Assert(declaredType != null);
Debug.Assert(reflectedType != null);
bool isInherited = declaredType != reflectedType;
Span <IntPtr> genericArgumentHandles = stackalloc IntPtr[0];
RuntimeType[] genericArguments = declaredType.TypeHandle.GetInstantiationInternal();
if (genericArguments != null)
{
genericArgumentHandles = genericArguments.Length <= 16 ? // arbitrary stackalloc limit
stackalloc IntPtr[genericArguments.Length] :
new IntPtr[genericArguments.Length];
for (int i = 0; i < genericArguments.Length; i++)
{
genericArgumentHandles[i] = genericArguments[i].TypeHandle.Value;
}
}
RuntimeMethodHandleInternal associateMethodHandle = ModuleHandle.ResolveMethodHandleInternal(RuntimeTypeHandle.GetModule(declaredType), tkMethod, genericArgumentHandles, default);
Debug.Assert(!associateMethodHandle.IsNullHandle(), "Failed to resolve associateRecord methodDef token");
if (isInherited)
{
MethodAttributes methAttr = RuntimeMethodHandle.GetAttributes(associateMethodHandle);
// ECMA MethodSemantics: "All methods for a given Property or Event shall have the same accessibility
// (ie the MemberAccessMask subfield of their Flags row) and cannot be CompilerControlled [CLS]"
// Consequently, a property may be composed of public and private methods. If the declared type !=
// the reflected type, the private methods should not be exposed. Note that this implies that the
// identity of a property includes it's reflected type.
if ((methAttr & MethodAttributes.MemberAccessMask) == MethodAttributes.Private)
{
return(null);
}
// Note this is the first time the property was encountered walking from the most derived class
// towards the base class. It would seem to follow that any associated methods would not
// be overriden -- but this is not necessarily true. A more derived class may have overriden a
// virtual method associated with a property in a base class without associating the override with
// the same or any property in the derived class.
if ((methAttr & MethodAttributes.Virtual) != 0)
{
bool declaringTypeIsClass =
(RuntimeTypeHandle.GetAttributes(declaredType) & TypeAttributes.ClassSemanticsMask) == TypeAttributes.Class;
// It makes no sense to search for a virtual override of a method declared on an interface.
if (declaringTypeIsClass)
{
int slot = RuntimeMethodHandle.GetSlot(associateMethodHandle);
// Find the override visible from the reflected type
associateMethodHandle = RuntimeTypeHandle.GetMethodAt(reflectedType, slot);
}
}
}
RuntimeMethodInfo?associateMethod =
RuntimeType.GetMethodBase(reflectedType, associateMethodHandle) as RuntimeMethodInfo;
// suppose a property was mapped to a method not in the derivation hierarchy of the reflectedTypeHandle
return(associateMethod ?? reflectedType.Module.ResolveMethod(tkMethod, null, null) as RuntimeMethodInfo);
}
internal RuntimeModule GetRuntimeModule()
{
return(RuntimeTypeHandle.GetModule(m_declaringType));
}
[System.Security.SecuritySafeCritical] // auto-generated
internal override RuntimeModule GetRuntimeModule()
{
return(RuntimeTypeHandle.GetModule(RuntimeFieldHandle.GetApproxDeclaringType(this)));
}
[System.Security.SecurityCritical] // auto-generated
private static unsafe RuntimeMethodInfo AssignAssociates(
int tkMethod,
RuntimeType declaredType,
RuntimeType reflectedType)
{
if (MetadataToken.IsNullToken(tkMethod))
{
return(null);
}
Contract.Assert(declaredType != null);
Contract.Assert(reflectedType != null);
bool isInherited = declaredType != reflectedType;
IntPtr[] genericArgumentHandles = null;
int genericArgumentCount = 0;
RuntimeType [] genericArguments = declaredType.GetTypeHandleInternal().GetInstantiationInternal();
if (genericArguments != null)
{
genericArgumentCount = genericArguments.Length;
genericArgumentHandles = new IntPtr[genericArguments.Length];
for (int i = 0; i < genericArguments.Length; i++)
{
genericArgumentHandles[i] = genericArguments[i].GetTypeHandleInternal().Value;
}
}
RuntimeMethodHandleInternal associateMethodHandle = ModuleHandle.ResolveMethodHandleInternalCore(RuntimeTypeHandle.GetModule(declaredType), tkMethod, genericArgumentHandles, genericArgumentCount, null, 0);
Contract.Assert(!associateMethodHandle.IsNullHandle(), "Failed to resolve associateRecord methodDef token");
if (isInherited)
{
MethodAttributes methAttr = RuntimeMethodHandle.GetAttributes(associateMethodHandle);
// ECMA MethodSemantics: "All methods for a given Property or Event shall have the same accessibility
//(ie the MemberAccessMask subfield of their Flags row) and cannot be CompilerControlled [CLS]"
// Consequently, a property may be composed of public and private methods. If the declared type !=
// the reflected type, the private methods should not be exposed. Note that this implies that the
// identity of a property includes it's reflected type.
// NetCF actually includes private methods from parent classes in Reflection results
// We will mimic that in Mango Compat mode.
if (!CompatibilitySwitches.IsAppEarlierThanWindowsPhone8)
{
if ((methAttr & MethodAttributes.MemberAccessMask) == MethodAttributes.Private)
{
return(null);
}
}
// Note this is the first time the property was encountered walking from the most derived class
// towards the base class. It would seem to follow that any associated methods would not
// be overriden -- but this is not necessarily true. A more derived class may have overriden a
// virtual method associated with a property in a base class without associating the override with
// the same or any property in the derived class.
if ((methAttr & MethodAttributes.Virtual) != 0)
{
bool declaringTypeIsClass =
(RuntimeTypeHandle.GetAttributes(declaredType) & TypeAttributes.ClassSemanticsMask) == TypeAttributes.Class;
// It makes no sense to search for a virtual override of a method declared on an interface.
if (declaringTypeIsClass)
{
int slot = RuntimeMethodHandle.GetSlot(associateMethodHandle);
// Find the override visible from the reflected type
associateMethodHandle = RuntimeTypeHandle.GetMethodAt(reflectedType, slot);
}
}
}
RuntimeMethodInfo associateMethod =
RuntimeType.GetMethodBase(reflectedType, associateMethodHandle) as RuntimeMethodInfo;
// suppose a property was mapped to a method not in the derivation hierarchy of the reflectedTypeHandle
if (associateMethod == null)
{
associateMethod = reflectedType.Module.ResolveMethod(tkMethod, null, null) as RuntimeMethodInfo;
}
return(associateMethod);
}
private static RuntimeMethodInfo AssignAssociates(int tkMethod, RuntimeType declaredType, RuntimeType reflectedType)
{
if (MetadataToken.IsNullToken(tkMethod))
{
return(null);
}
bool flag = declaredType != reflectedType;
IntPtr[] array = null;
int typeInstCount = 0;
RuntimeType[] instantiationInternal = declaredType.GetTypeHandleInternal().GetInstantiationInternal();
if (instantiationInternal != null)
{
typeInstCount = instantiationInternal.Length;
array = new IntPtr[instantiationInternal.Length];
for (int i = 0; i < instantiationInternal.Length; i++)
{
array[i] = instantiationInternal[i].GetTypeHandleInternal().Value;
}
}
RuntimeMethodHandleInternal runtimeMethodHandleInternal = ModuleHandle.ResolveMethodHandleInternalCore(RuntimeTypeHandle.GetModule(declaredType), tkMethod, array, typeInstCount, null, 0);
if (flag)
{
MethodAttributes attributes = RuntimeMethodHandle.GetAttributes(runtimeMethodHandleInternal);
if (!CompatibilitySwitches.IsAppEarlierThanWindowsPhone8 && (attributes & MethodAttributes.MemberAccessMask) == MethodAttributes.Private)
{
return(null);
}
if ((attributes & MethodAttributes.Virtual) != MethodAttributes.PrivateScope)
{
bool flag2 = (RuntimeTypeHandle.GetAttributes(declaredType) & TypeAttributes.ClassSemanticsMask) == TypeAttributes.NotPublic;
if (flag2)
{
int slot = RuntimeMethodHandle.GetSlot(runtimeMethodHandleInternal);
runtimeMethodHandleInternal = RuntimeTypeHandle.GetMethodAt(reflectedType, slot);
}
}
}
RuntimeMethodInfo runtimeMethodInfo = RuntimeType.GetMethodBase(reflectedType, runtimeMethodHandleInternal) as RuntimeMethodInfo;
if (runtimeMethodInfo == null)
{
runtimeMethodInfo = (reflectedType.Module.ResolveMethod(tkMethod, null, null) as RuntimeMethodInfo);
}
return(runtimeMethodInfo);
}
private static RuntimeMethodInfo AssignAssociates(int tkMethod, RuntimeType declaredType, RuntimeType reflectedType)
{
if (MetadataToken.IsNullToken(tkMethod))
{
return(null);
}
bool flag = declaredType != reflectedType;
IntPtr[] typeInstantiationContext = null;
int typeInstCount = 0;
RuntimeType[] instantiationInternal = declaredType.GetTypeHandleInternal().GetInstantiationInternal();
if (instantiationInternal != null)
{
typeInstCount = instantiationInternal.Length;
typeInstantiationContext = new IntPtr[instantiationInternal.Length];
for (int i = 0; i < instantiationInternal.Length; i++)
{
typeInstantiationContext[i] = instantiationInternal[i].GetTypeHandleInternal().Value;
}
}
RuntimeMethodHandleInternal method = ModuleHandle.ResolveMethodHandleInternalCore(RuntimeTypeHandle.GetModule(declaredType), tkMethod, typeInstantiationContext, typeInstCount, null, 0);
if (flag)
{
MethodAttributes attributes = RuntimeMethodHandle.GetAttributes(method);
if ((attributes & MethodAttributes.MemberAccessMask) == MethodAttributes.Private)
{
return(null);
}
if (((attributes & MethodAttributes.Virtual) != MethodAttributes.PrivateScope) && ((RuntimeTypeHandle.GetAttributes(declaredType) & TypeAttributes.ClassSemanticsMask) == TypeAttributes.AnsiClass))
{
int slot = RuntimeMethodHandle.GetSlot(method);
method = RuntimeTypeHandle.GetMethodAt(reflectedType, slot);
}
}
RuntimeMethodInfo methodBase = RuntimeType.GetMethodBase(reflectedType, method) as RuntimeMethodInfo;
if (methodBase == null)
{
methodBase = reflectedType.Module.ResolveMethod(tkMethod, null, null) as RuntimeMethodInfo;
}
return(methodBase);
}
internal override bool CacheEquals(object o)
{
RuntimeEventInfo runtimeEventInfo = o as RuntimeEventInfo;
return(runtimeEventInfo != null && runtimeEventInfo.m_token == this.m_token && RuntimeTypeHandle.GetModule(this.m_declaringType).Equals(RuntimeTypeHandle.GetModule(runtimeEventInfo.m_declaringType)));
}
private static RuntimeMethodInfo AssignAssociates(int tkMethod, RuntimeType declaredType, RuntimeType reflectedType)
{
if (MetadataToken.IsNullToken(tkMethod))
{
return((RuntimeMethodInfo)null);
}
bool flag = declaredType != reflectedType;
IntPtr[] typeInstantiationContext = (IntPtr[])null;
int typeInstCount = 0;
RuntimeType[] instantiationInternal = declaredType.GetTypeHandleInternal().GetInstantiationInternal();
if (instantiationInternal != null)
{
typeInstCount = instantiationInternal.Length;
typeInstantiationContext = new IntPtr[instantiationInternal.Length];
for (int index = 0; index < instantiationInternal.Length; ++index)
{
typeInstantiationContext[index] = instantiationInternal[index].GetTypeHandleInternal().Value;
}
}
RuntimeMethodHandleInternal methodHandleInternal = ModuleHandle.ResolveMethodHandleInternalCore(RuntimeTypeHandle.GetModule(declaredType), tkMethod, typeInstantiationContext, typeInstCount, (IntPtr[])null, 0);
if (flag)
{
MethodAttributes attributes = RuntimeMethodHandle.GetAttributes(methodHandleInternal);
if (!CompatibilitySwitches.IsAppEarlierThanWindowsPhone8 && (attributes & MethodAttributes.MemberAccessMask) == MethodAttributes.Private)
{
return((RuntimeMethodInfo)null);
}
if ((attributes & MethodAttributes.Virtual) != MethodAttributes.PrivateScope && (RuntimeTypeHandle.GetAttributes(declaredType) & TypeAttributes.ClassSemanticsMask) == TypeAttributes.NotPublic)
{
int slot = RuntimeMethodHandle.GetSlot(methodHandleInternal);
methodHandleInternal = RuntimeTypeHandle.GetMethodAt(reflectedType, slot);
}
}
RuntimeMethodInfo runtimeMethodInfo = RuntimeType.GetMethodBase(reflectedType, methodHandleInternal) as RuntimeMethodInfo;
if ((MethodInfo)runtimeMethodInfo == (MethodInfo)null)
{
runtimeMethodInfo = reflectedType.Module.ResolveMethod(tkMethod, (Type[])null, (Type[])null) as RuntimeMethodInfo;
}
return(runtimeMethodInfo);
}
internal RuntimeModule GetRuntimeModule()
{
return RuntimeTypeHandle.GetModule((RuntimeType)DeclaringType);
}