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|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
// See the LICENSE file in the project root for more information.
using System.Reflection;
using System.Diagnostics;
using CultureInfo = System.Globalization.CultureInfo;
namespace System
{
#if CORECLR
internal
#else
public sealed
#endif
partial class DefaultBinder : Binder
{
// This method is passed a set of methods and must choose the best
// fit. The methods all have the same number of arguments and the object
// array args. On exit, this method will choice the best fit method
// and coerce the args to match that method. By match, we mean all primitive
// arguments are exact matchs and all object arguments are exact or subclasses
// of the target. If the target OR is an interface, the object must implement
// that interface. There are a couple of exceptions
// thrown when a method cannot be returned. If no method matchs the args and
// ArgumentException is thrown. If multiple methods match the args then
// an AmbiguousMatchException is thrown.
//
// The most specific match will be selected.
//
public sealed override MethodBase BindToMethod(
BindingFlags bindingAttr, MethodBase[] match, ref object[] args,
ParameterModifier[] modifiers, CultureInfo cultureInfo, string[] names, out object state)
{
if (match == null || match.Length == 0)
throw new ArgumentException(SR.Arg_EmptyArray, nameof(match));
MethodBase[] candidates = (MethodBase[])match.Clone();
int i;
int j;
state = null;
#region Map named parameters to candidate parameter postions
// We are creating an paramOrder array to act as a mapping
// between the order of the args and the actual order of the
// parameters in the method. This order may differ because
// named parameters (names) may change the order. If names
// is not provided, then we assume the default mapping (0,1,...)
int[][] paramOrder = new int[candidates.Length][];
for (i = 0; i < candidates.Length; i++)
{
ParameterInfo[] par = candidates[i].GetParametersNoCopy();
// args.Length + 1 takes into account the possibility of a last paramArray that can be omitted
paramOrder[i] = new int[(par.Length > args.Length) ? par.Length : args.Length];
if (names == null)
{
// Default mapping
for (j = 0; j < args.Length; j++)
paramOrder[i][j] = j;
}
else
{
// Named parameters, reorder the mapping. If CreateParamOrder fails, it means that the method
// doesn't have a name that matchs one of the named parameters so we don't consider it any further.
if (!CreateParamOrder(paramOrder[i], par, names))
candidates[i] = null;
}
}
#endregion
Type[] paramArrayTypes = new Type[candidates.Length];
Type[] argTypes = new Type[args.Length];
#region Cache the type of the provided arguments
// object that contain a null are treated as if they were typeless (but match either object
// references or value classes). We mark this condition by placing a null in the argTypes array.
for (i = 0; i < args.Length; i++)
{
if (args[i] != null)
{
argTypes[i] = args[i].GetType();
}
}
#endregion
// Find the method that matches...
int CurIdx = 0;
bool defaultValueBinding = ((bindingAttr & BindingFlags.OptionalParamBinding) != 0);
Type paramArrayType = null;
#region Filter methods by parameter count and type
for (i = 0; i < candidates.Length; i++)
{
paramArrayType = null;
// If we have named parameters then we may have a hole in the candidates array.
if (candidates[i] == null)
continue;
// Validate the parameters.
ParameterInfo[] par = candidates[i].GetParametersNoCopy();
#region Match method by parameter count
if (par.Length == 0)
{
#region No formal parameters
if (args.Length != 0)
{
if ((candidates[i].CallingConvention & CallingConventions.VarArgs) == 0)
continue;
}
// This is a valid routine so we move it up the candidates list.
paramOrder[CurIdx] = paramOrder[i];
candidates[CurIdx++] = candidates[i];
continue;
#endregion
}
else if (par.Length > args.Length)
{
#region Shortage of provided parameters
// If the number of parameters is greater than the number of args then
// we are in the situation were we may be using default values.
for (j = args.Length; j < par.Length - 1; j++)
{
if (par[j].DefaultValue == System.DBNull.Value)
break;
}
if (j != par.Length - 1)
continue;
if (par[j].DefaultValue == System.DBNull.Value)
{
if (!par[j].ParameterType.IsArray)
continue;
if (!par[j].IsDefined(typeof(ParamArrayAttribute), true))
continue;
paramArrayType = par[j].ParameterType.GetElementType();
}
#endregion
}
else if (par.Length < args.Length)
{
#region Excess provided parameters
// test for the ParamArray case
int lastArgPos = par.Length - 1;
if (!par[lastArgPos].ParameterType.IsArray)
continue;
if (!par[lastArgPos].IsDefined(typeof(ParamArrayAttribute), true))
continue;
if (paramOrder[i][lastArgPos] != lastArgPos)
continue;
paramArrayType = par[lastArgPos].ParameterType.GetElementType();
#endregion
}
else
{
#region Test for paramArray, save paramArray type
int lastArgPos = par.Length - 1;
if (par[lastArgPos].ParameterType.IsArray
&& par[lastArgPos].IsDefined(typeof(ParamArrayAttribute), true)
&& paramOrder[i][lastArgPos] == lastArgPos)
{
if (!par[lastArgPos].ParameterType.IsAssignableFrom(argTypes[lastArgPos]))
paramArrayType = par[lastArgPos].ParameterType.GetElementType();
}
#endregion
}
#endregion
Type pCls = null;
int argsToCheck = (paramArrayType != null) ? par.Length - 1 : args.Length;
#region Match method by parameter type
for (j = 0; j < argsToCheck; j++)
{
#region Classic argument coersion checks
// get the formal type
pCls = par[j].ParameterType;
if (pCls.IsByRef)
pCls = pCls.GetElementType();
// the type is the same
if (pCls == argTypes[paramOrder[i][j]])
continue;
// a default value is available
if (defaultValueBinding && args[paramOrder[i][j]] == Type.Missing)
continue;
// the argument was null, so it matches with everything
if (args[paramOrder[i][j]] == null)
continue;
// the type is Object, so it will match everything
if (pCls == typeof(object))
continue;
// now do a "classic" type check
if (pCls.IsPrimitive)
{
if (argTypes[paramOrder[i][j]] == null || !CanChangePrimitiveObjectToType(args[paramOrder[i][j]], pCls))
{
break;
}
}
else
{
if (argTypes[paramOrder[i][j]] == null)
continue;
if (!pCls.IsAssignableFrom(argTypes[paramOrder[i][j]]))
{
if (argTypes[paramOrder[i][j]].IsCOMObject)
{
if (pCls.IsInstanceOfType(args[paramOrder[i][j]]))
continue;
}
break;
}
}
#endregion
}
if (paramArrayType != null && j == par.Length - 1)
{
#region Check that excess arguments can be placed in the param array
for (; j < args.Length; j++)
{
if (paramArrayType.IsPrimitive)
{
if (argTypes[j] == null || !CanChangePrimitiveObjectToType(args[j], paramArrayType))
break;
}
else
{
if (argTypes[j] == null)
continue;
if (!paramArrayType.IsAssignableFrom(argTypes[j]))
{
if (argTypes[j].IsCOMObject)
{
if (paramArrayType.IsInstanceOfType(args[j]))
continue;
}
break;
}
}
}
#endregion
}
#endregion
if (j == args.Length)
{
#region This is a valid routine so we move it up the candidates list
paramOrder[CurIdx] = paramOrder[i];
paramArrayTypes[CurIdx] = paramArrayType;
candidates[CurIdx++] = candidates[i];
#endregion
}
}
#endregion
// If we didn't find a method
if (CurIdx == 0)
throw new MissingMethodException(SR.MissingMember);
if (CurIdx == 1)
{
#region Found only one method
if (names != null)
{
state = new BinderState((int[])paramOrder[0].Clone(), args.Length, paramArrayTypes[0] != null);
ReorderParams(paramOrder[0], args);
}
// If the parameters and the args are not the same length or there is a paramArray
// then we need to create a argument array.
ParameterInfo[] parms = candidates[0].GetParametersNoCopy();
if (parms.Length == args.Length)
{
if (paramArrayTypes[0] != null)
{
object[] objs = new object[parms.Length];
int lastPos = parms.Length - 1;
Array.Copy(args, 0, objs, 0, lastPos);
objs[lastPos] = Array.CreateInstance(paramArrayTypes[0], 1);
((Array)objs[lastPos]).SetValue(args[lastPos], 0);
args = objs;
}
}
else if (parms.Length > args.Length)
{
object[] objs = new object[parms.Length];
for (i = 0; i < args.Length; i++)
objs[i] = args[i];
for (; i < parms.Length - 1; i++)
objs[i] = parms[i].DefaultValue;
if (paramArrayTypes[0] != null)
objs[i] = Array.CreateInstance(paramArrayTypes[0], 0); // create an empty array for the
else
objs[i] = parms[i].DefaultValue;
args = objs;
}
else
{
if ((candidates[0].CallingConvention & CallingConventions.VarArgs) == 0)
{
object[] objs = new object[parms.Length];
int paramArrayPos = parms.Length - 1;
Array.Copy(args, 0, objs, 0, paramArrayPos);
objs[paramArrayPos] = Array.CreateInstance(paramArrayTypes[0], args.Length - paramArrayPos);
Array.Copy(args, paramArrayPos, (System.Array)objs[paramArrayPos], 0, args.Length - paramArrayPos);
args = objs;
}
}
#endregion
return candidates[0];
}
int currentMin = 0;
bool ambig = false;
for (i = 1; i < CurIdx; i++)
{
#region Walk all of the methods looking the most specific method to invoke
int newMin = FindMostSpecificMethod(candidates[currentMin], paramOrder[currentMin], paramArrayTypes[currentMin],
candidates[i], paramOrder[i], paramArrayTypes[i], argTypes, args);
if (newMin == 0)
{
ambig = true;
}
else if (newMin == 2)
{
currentMin = i;
ambig = false;
}
#endregion
}
if (ambig)
throw new AmbiguousMatchException(SR.Arg_AmbiguousMatchException);
// Reorder (if needed)
if (names != null)
{
state = new BinderState((int[])paramOrder[currentMin].Clone(), args.Length, paramArrayTypes[currentMin] != null);
ReorderParams(paramOrder[currentMin], args);
}
// If the parameters and the args are not the same length or there is a paramArray
// then we need to create a argument array.
ParameterInfo[] parameters = candidates[currentMin].GetParametersNoCopy();
if (parameters.Length == args.Length)
{
if (paramArrayTypes[currentMin] != null)
{
object[] objs = new object[parameters.Length];
int lastPos = parameters.Length - 1;
Array.Copy(args, 0, objs, 0, lastPos);
objs[lastPos] = Array.CreateInstance(paramArrayTypes[currentMin], 1);
((Array)objs[lastPos]).SetValue(args[lastPos], 0);
args = objs;
}
}
else if (parameters.Length > args.Length)
{
object[] objs = new object[parameters.Length];
for (i = 0; i < args.Length; i++)
objs[i] = args[i];
for (; i < parameters.Length - 1; i++)
objs[i] = parameters[i].DefaultValue;
if (paramArrayTypes[currentMin] != null)
{
objs[i] = Array.CreateInstance(paramArrayTypes[currentMin], 0);
}
else
{
objs[i] = parameters[i].DefaultValue;
}
args = objs;
}
else
{
if ((candidates[currentMin].CallingConvention & CallingConventions.VarArgs) == 0)
{
object[] objs = new object[parameters.Length];
int paramArrayPos = parameters.Length - 1;
Array.Copy(args, 0, objs, 0, paramArrayPos);
objs[paramArrayPos] = Array.CreateInstance(paramArrayTypes[currentMin], args.Length - paramArrayPos);
Array.Copy(args, paramArrayPos, (System.Array)objs[paramArrayPos], 0, args.Length - paramArrayPos);
args = objs;
}
}
return candidates[currentMin];
}
// Given a set of fields that match the base criteria, select a field.
// if value is null then we have no way to select a field
public sealed override FieldInfo BindToField(BindingFlags bindingAttr, FieldInfo[] match, object value, CultureInfo cultureInfo)
{
if (match == null)
{
throw new ArgumentNullException(nameof(match));
}
int i;
// Find the method that match...
int CurIdx = 0;
Type valueType = null;
FieldInfo[] candidates = (FieldInfo[])match.Clone();
// If we are a FieldSet, then use the value's type to disambiguate
if ((bindingAttr & BindingFlags.SetField) != 0)
{
valueType = value.GetType();
for (i = 0; i < candidates.Length; i++)
{
Type pCls = candidates[i].FieldType;
if (pCls == valueType)
{
candidates[CurIdx++] = candidates[i];
continue;
}
if (value == Empty.Value)
{
// the object passed in was null which would match any non primitive non value type
if (pCls.IsClass)
{
candidates[CurIdx++] = candidates[i];
continue;
}
}
if (pCls == typeof(object))
{
candidates[CurIdx++] = candidates[i];
continue;
}
if (pCls.IsPrimitive)
{
if (CanChangePrimitiveObjectToType(value, pCls))
{
candidates[CurIdx++] = candidates[i];
continue;
}
}
else
{
if (pCls.IsAssignableFrom(valueType))
{
candidates[CurIdx++] = candidates[i];
continue;
}
}
}
if (CurIdx == 0)
throw new MissingFieldException(SR.MissingField);
if (CurIdx == 1)
return candidates[0];
}
// Walk all of the methods looking the most specific method to invoke
int currentMin = 0;
bool ambig = false;
for (i = 1; i < CurIdx; i++)
{
int newMin = FindMostSpecificField(candidates[currentMin], candidates[i]);
if (newMin == 0)
ambig = true;
else
{
if (newMin == 2)
{
currentMin = i;
ambig = false;
}
}
}
if (ambig)
throw new AmbiguousMatchException(SR.Arg_AmbiguousMatchException);
return candidates[currentMin];
}
// Given a set of methods that match the base criteria, select a method based
// upon an array of types. This method should return null if no method matchs
// the criteria.
public sealed override MethodBase SelectMethod(BindingFlags bindingAttr, MethodBase[] match, Type[] types, ParameterModifier[] modifiers)
{
int i;
int j;
Type[] realTypes = new Type[types.Length];
for (i = 0; i < types.Length; i++)
{
realTypes[i] = types[i].UnderlyingSystemType;
if (!(realTypes[i].IsRuntimeImplemented()))
throw new ArgumentException(SR.Arg_MustBeType, nameof(types));
}
types = realTypes;
// We don't automatically jump out on exact match.
if (match == null || match.Length == 0)
throw new ArgumentException(SR.Arg_EmptyArray, nameof(match));
MethodBase[] candidates = (MethodBase[])match.Clone();
// Find all the methods that can be described by the types parameter.
// Remove all of them that cannot.
int CurIdx = 0;
for (i = 0; i < candidates.Length; i++)
{
ParameterInfo[] par = candidates[i].GetParametersNoCopy();
if (par.Length != types.Length)
continue;
for (j = 0; j < types.Length; j++)
{
Type pCls = par[j].ParameterType;
if (pCls == types[j])
continue;
if (pCls == typeof(object))
continue;
if (pCls.IsPrimitive)
{
if (!(types[j].UnderlyingSystemType.IsRuntimeImplemented()) ||
!CanChangePrimitive(types[j].UnderlyingSystemType, pCls.UnderlyingSystemType))
break;
}
else
{
if (!pCls.IsAssignableFrom(types[j]))
break;
}
}
if (j == types.Length)
candidates[CurIdx++] = candidates[i];
}
if (CurIdx == 0)
return null;
if (CurIdx == 1)
return candidates[0];
// Walk all of the methods looking the most specific method to invoke
int currentMin = 0;
bool ambig = false;
int[] paramOrder = new int[types.Length];
for (i = 0; i < types.Length; i++)
paramOrder[i] = i;
for (i = 1; i < CurIdx; i++)
{
int newMin = FindMostSpecificMethod(candidates[currentMin], paramOrder, null, candidates[i], paramOrder, null, types, null);
if (newMin == 0)
ambig = true;
else
{
if (newMin == 2)
{
currentMin = i;
ambig = false;
currentMin = i;
}
}
}
if (ambig)
throw new AmbiguousMatchException(SR.Arg_AmbiguousMatchException);
return candidates[currentMin];
}
// Given a set of properties that match the base criteria, select one.
public sealed override PropertyInfo SelectProperty(BindingFlags bindingAttr, PropertyInfo[] match, Type returnType,
Type[] indexes, ParameterModifier[] modifiers)
{
// Allow a null indexes array. But if it is not null, every element must be non-null as well.
if (indexes != null)
{
foreach (Type index in indexes)
{
if (index == null)
throw new ArgumentNullException(nameof(indexes));
}
}
if (match == null || match.Length == 0)
throw new ArgumentException(SR.Arg_EmptyArray, nameof(match));
PropertyInfo[] candidates = (PropertyInfo[])match.Clone();
int i, j = 0;
// Find all the properties that can be described by type indexes parameter
int CurIdx = 0;
int indexesLength = (indexes != null) ? indexes.Length : 0;
for (i = 0; i < candidates.Length; i++)
{
if (indexes != null)
{
ParameterInfo[] par = candidates[i].GetIndexParameters();
if (par.Length != indexesLength)
continue;
for (j = 0; j < indexesLength; j++)
{
Type pCls = par[j].ParameterType;
// If the classes exactly match continue
if (pCls == indexes[j])
continue;
if (pCls == typeof(object))
continue;
if (pCls.IsPrimitive)
{
if (!(indexes[j].UnderlyingSystemType.IsRuntimeImplemented()) ||
!CanChangePrimitive(indexes[j].UnderlyingSystemType, pCls.UnderlyingSystemType))
break;
}
else
{
if (!pCls.IsAssignableFrom(indexes[j]))
break;
}
}
}
if (j == indexesLength)
{
if (returnType != null)
{
if (candidates[i].PropertyType.IsPrimitive)
{
if (!(returnType.UnderlyingSystemType.IsRuntimeImplemented()) ||
!CanChangePrimitive(returnType.UnderlyingSystemType, candidates[i].PropertyType.UnderlyingSystemType))
continue;
}
else
{
if (!candidates[i].PropertyType.IsAssignableFrom(returnType))
continue;
}
}
candidates[CurIdx++] = candidates[i];
}
}
if (CurIdx == 0)
return null;
if (CurIdx == 1)
return candidates[0];
// Walk all of the properties looking the most specific method to invoke
int currentMin = 0;
bool ambig = false;
int[] paramOrder = new int[indexesLength];
for (i = 0; i < indexesLength; i++)
paramOrder[i] = i;
for (i = 1; i < CurIdx; i++)
{
int newMin = FindMostSpecificType(candidates[currentMin].PropertyType, candidates[i].PropertyType, returnType);
if (newMin == 0 && indexes != null)
newMin = FindMostSpecific(candidates[currentMin].GetIndexParameters(),
paramOrder,
null,
candidates[i].GetIndexParameters(),
paramOrder,
null,
indexes,
null);
if (newMin == 0)
{
newMin = FindMostSpecificProperty(candidates[currentMin], candidates[i]);
if (newMin == 0)
ambig = true;
}
if (newMin == 2)
{
ambig = false;
currentMin = i;
}
}
if (ambig)
throw new AmbiguousMatchException(SR.Arg_AmbiguousMatchException);
return candidates[currentMin];
}
// ChangeType
// The default binder doesn't support any change type functionality.
// This is because the default is built into the low level invoke code.
public override object ChangeType(object value, Type type, CultureInfo cultureInfo)
{
throw new NotSupportedException(SR.NotSupported_ChangeType);
}
public sealed override void ReorderArgumentArray(ref object[] args, object state)
{
BinderState binderState = (BinderState)state;
ReorderParams(binderState._argsMap, args);
if (binderState._isParamArray)
{
int paramArrayPos = args.Length - 1;
if (args.Length == binderState._originalSize)
args[paramArrayPos] = ((object[])args[paramArrayPos])[0];
else
{
// must be args.Length < state.originalSize
object[] newArgs = new object[args.Length];
Array.Copy(args, 0, newArgs, 0, paramArrayPos);
for (int i = paramArrayPos, j = 0; i < newArgs.Length; i++, j++)
{
newArgs[i] = ((object[])args[paramArrayPos])[j];
}
args = newArgs;
}
}
else
{
if (args.Length > binderState._originalSize)
{
object[] newArgs = new object[binderState._originalSize];
Array.Copy(args, 0, newArgs, 0, binderState._originalSize);
args = newArgs;
}
}
}
// Return any exact bindings that may exist. (This method is not defined on the
// Binder and is used by RuntimeType.)
public static MethodBase ExactBinding(MethodBase[] match, Type[] types, ParameterModifier[] modifiers)
{
if (match == null)
throw new ArgumentNullException(nameof(match));
MethodBase[] aExactMatches = new MethodBase[match.Length];
int cExactMatches = 0;
for (int i = 0; i < match.Length; i++)
{
ParameterInfo[] par = match[i].GetParametersNoCopy();
if (par.Length == 0)
{
continue;
}
int j;
for (j = 0; j < types.Length; j++)
{
Type pCls = par[j].ParameterType;
// If the classes exactly match continue
if (!pCls.Equals(types[j]))
break;
}
if (j < types.Length)
continue;
// Add the exact match to the array of exact matches.
aExactMatches[cExactMatches] = match[i];
cExactMatches++;
}
if (cExactMatches == 0)
return null;
if (cExactMatches == 1)
return aExactMatches[0];
return FindMostDerivedNewSlotMeth(aExactMatches, cExactMatches);
}
// Return any exact bindings that may exist. (This method is not defined on the
// Binder and is used by RuntimeType.)
public static PropertyInfo ExactPropertyBinding(PropertyInfo[] match, Type returnType, Type[] types, ParameterModifier[] modifiers)
{
if (match == null)
throw new ArgumentNullException(nameof(match));
PropertyInfo bestMatch = null;
int typesLength = (types != null) ? types.Length : 0;
for (int i = 0; i < match.Length; i++)
{
ParameterInfo[] par = match[i].GetIndexParameters();
int j;
for (j = 0; j < typesLength; j++)
{
Type pCls = par[j].ParameterType;
// If the classes exactly match continue
if (pCls != types[j])
break;
}
if (j < typesLength)
continue;
if (returnType != null && returnType != match[i].PropertyType)
continue;
if (bestMatch != null)
throw new AmbiguousMatchException(SR.Arg_AmbiguousMatchException);
bestMatch = match[i];
}
return bestMatch;
}
private static int FindMostSpecific(ParameterInfo[] p1, int[] paramOrder1, Type paramArrayType1,
ParameterInfo[] p2, int[] paramOrder2, Type paramArrayType2,
Type[] types, object[] args)
{
// A method using params is always less specific than one not using params
if (paramArrayType1 != null && paramArrayType2 == null) return 2;
if (paramArrayType2 != null && paramArrayType1 == null) return 1;
// now either p1 and p2 both use params or neither does.
bool p1Less = false;
bool p2Less = false;
for (int i = 0; i < types.Length; i++)
{
if (args != null && args[i] == Type.Missing)
continue;
Type c1, c2;
// If a param array is present, then either
// the user re-ordered the parameters in which case
// the argument to the param array is either an array
// in which case the params is conceptually ignored and so paramArrayType1 == null
// or the argument to the param array is a single element
// in which case paramOrder[i] == p1.Length - 1 for that element
// or the user did not re-order the parameters in which case
// the paramOrder array could contain indexes larger than p.Length - 1 (see VSW 577286)
// so any index >= p.Length - 1 is being put in the param array
if (paramArrayType1 != null && paramOrder1[i] >= p1.Length - 1)
c1 = paramArrayType1;
else
c1 = p1[paramOrder1[i]].ParameterType;
if (paramArrayType2 != null && paramOrder2[i] >= p2.Length - 1)
c2 = paramArrayType2;
else
c2 = p2[paramOrder2[i]].ParameterType;
if (c1 == c2) continue;
switch (FindMostSpecificType(c1, c2, types[i]))
{
case 0: return 0;
case 1: p1Less = true; break;
case 2: p2Less = true; break;
}
}
// Two way p1Less and p2Less can be equal. All the arguments are the
// same they both equal false, otherwise there were things that both
// were the most specific type on....
if (p1Less == p2Less)
{
// if we cannot tell which is a better match based on parameter types (p1Less == p2Less),
// let's see which one has the most matches without using the params array (the longer one wins).
if (!p1Less && args != null)
{
if (p1.Length > p2.Length)
{
return 1;
}
else if (p2.Length > p1.Length)
{
return 2;
}
}
return 0;
}
else
{
return (p1Less == true) ? 1 : 2;
}
}
private static int FindMostSpecificType(Type c1, Type c2, Type t)
{
// If the two types are exact move on...
if (c1 == c2)
return 0;
if (c1 == t)
return 1;
if (c2 == t)
return 2;
bool c1FromC2;
bool c2FromC1;
if (c1.IsByRef || c2.IsByRef)
{
if (c1.IsByRef && c2.IsByRef)
{
c1 = c1.GetElementType();
c2 = c2.GetElementType();
}
else if (c1.IsByRef)
{
if (c1.GetElementType() == c2)
return 2;
c1 = c1.GetElementType();
}
else
{
if (c2.GetElementType() == c1)
return 1;
c2 = c2.GetElementType();
}
}
if (c1.IsPrimitive && c2.IsPrimitive)
{
c1FromC2 = CanChangePrimitive(c2, c1);
c2FromC1 = CanChangePrimitive(c1, c2);
}
else
{
c1FromC2 = c1.IsAssignableFrom(c2);
c2FromC1 = c2.IsAssignableFrom(c1);
}
if (c1FromC2 == c2FromC1)
return 0;
if (c1FromC2)
{
return 2;
}
else
{
return 1;
}
}
private static int FindMostSpecificMethod(MethodBase m1, int[] paramOrder1, Type paramArrayType1,
MethodBase m2, int[] paramOrder2, Type paramArrayType2,
Type[] types, object[] args)
{
// Find the most specific method based on the parameters.
int res = FindMostSpecific(m1.GetParametersNoCopy(), paramOrder1, paramArrayType1,
m2.GetParametersNoCopy(), paramOrder2, paramArrayType2, types, args);
// If the match was not ambigous then return the result.
if (res != 0)
return res;
// Check to see if the methods have the exact same name and signature.
if (CompareMethodSig(m1, m2))
{
// Determine the depth of the declaring types for both methods.
int hierarchyDepth1 = GetHierarchyDepth(m1.DeclaringType);
int hierarchyDepth2 = GetHierarchyDepth(m2.DeclaringType);
// The most derived method is the most specific one.
if (hierarchyDepth1 == hierarchyDepth2)
{
return 0;
}
else if (hierarchyDepth1 < hierarchyDepth2)
{
return 2;
}
else
{
return 1;
}
}
// The match is ambigous.
return 0;
}
private static int FindMostSpecificField(FieldInfo cur1, FieldInfo cur2)
{
// Check to see if the fields have the same name.
if (cur1.Name == cur2.Name)
{
int hierarchyDepth1 = GetHierarchyDepth(cur1.DeclaringType);
int hierarchyDepth2 = GetHierarchyDepth(cur2.DeclaringType);
if (hierarchyDepth1 == hierarchyDepth2)
{
Debug.Assert(cur1.IsStatic != cur2.IsStatic, "hierarchyDepth1 == hierarchyDepth2");
return 0;
}
else if (hierarchyDepth1 < hierarchyDepth2)
return 2;
else
return 1;
}
// The match is ambigous.
return 0;
}
private static int FindMostSpecificProperty(PropertyInfo cur1, PropertyInfo cur2)
{
// Check to see if the fields have the same name.
if (cur1.Name == cur2.Name)
{
int hierarchyDepth1 = GetHierarchyDepth(cur1.DeclaringType);
int hierarchyDepth2 = GetHierarchyDepth(cur2.DeclaringType);
if (hierarchyDepth1 == hierarchyDepth2)
{
return 0;
}
else if (hierarchyDepth1 < hierarchyDepth2)
return 2;
else
return 1;
}
// The match is ambigous.
return 0;
}
public static bool CompareMethodSig(MethodBase m1, MethodBase m2)
{
ParameterInfo[] params1 = m1.GetParametersNoCopy();
ParameterInfo[] params2 = m2.GetParametersNoCopy();
if (params1.Length != params2.Length)
return false;
int numParams = params1.Length;
for (int i = 0; i < numParams; i++)
{
if (params1[i].ParameterType != params2[i].ParameterType)
return false;
}
return true;
}
private static int GetHierarchyDepth(Type t)
{
int depth = 0;
Type currentType = t;
do
{
depth++;
currentType = currentType.BaseType;
} while (currentType != null);
return depth;
}
internal static MethodBase FindMostDerivedNewSlotMeth(MethodBase[] match, int cMatches)
{
int deepestHierarchy = 0;
MethodBase methWithDeepestHierarchy = null;
for (int i = 0; i < cMatches; i++)
{
// Calculate the depth of the hierarchy of the declaring type of the
// current method.
int currentHierarchyDepth = GetHierarchyDepth(match[i].DeclaringType);
// The two methods have the same name, signature, and hierarchy depth.
// This can only happen if at least one is vararg or generic.
if (currentHierarchyDepth == deepestHierarchy)
{
throw new AmbiguousMatchException(SR.Arg_AmbiguousMatchException);
}
// Check to see if this method is on the most derived class.
if (currentHierarchyDepth > deepestHierarchy)
{
deepestHierarchy = currentHierarchyDepth;
methWithDeepestHierarchy = match[i];
}
}
return methWithDeepestHierarchy;
}
// This method will sort the vars array into the mapping order stored
// in the paramOrder array.
private static void ReorderParams(int[] paramOrder, object[] vars)
{
object[] varsCopy = new object[vars.Length];
for (int i = 0; i < vars.Length; i++)
varsCopy[i] = vars[i];
for (int i = 0; i < vars.Length; i++)
vars[i] = varsCopy[paramOrder[i]];
}
// This method will create the mapping between the Parameters and the underlying
// data based upon the names array. The names array is stored in the same order
// as the values and maps to the parameters of the method. We store the mapping
// from the parameters to the names in the paramOrder array. All parameters that
// don't have matching names are then stored in the array in order.
private static bool CreateParamOrder(int[] paramOrder, ParameterInfo[] pars, string[] names)
{
bool[] used = new bool[pars.Length];
// Mark which parameters have not been found in the names list
for (int i = 0; i < pars.Length; i++)
paramOrder[i] = -1;
// Find the parameters with names.
for (int i = 0; i < names.Length; i++)
{
int j;
for (j = 0; j < pars.Length; j++)
{
if (names[i].Equals(pars[j].Name))
{
paramOrder[j] = i;
used[i] = true;
break;
}
}
// This is an error condition. The name was not found. This
// method must not match what we sent.
if (j == pars.Length)
return false;
}
// Now we fill in the holes with the parameters that are unused.
int pos = 0;
for (int i = 0; i < pars.Length; i++)
{
if (paramOrder[i] == -1)
{
for (; pos < pars.Length; pos++)
{
if (!used[pos])
{
paramOrder[i] = pos;
pos++;
break;
}
}
}
}
return true;
}
internal class BinderState
{
internal readonly int[] _argsMap;
internal readonly int _originalSize;
internal readonly bool _isParamArray;
internal BinderState(int[] argsMap, int originalSize, bool isParamArray)
{
_argsMap = argsMap;
_originalSize = originalSize;
_isParamArray = isParamArray;
}
}
}
}
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