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#region License
// Copyright (c) 2007 James Newton-King
//
// Permission is hereby granted, free of charge, to any person
// obtaining a copy of this software and associated documentation
// files (the "Software"), to deal in the Software without
// restriction, including without limitation the rights to use,
// copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the
// Software is furnished to do so, subject to the following
// conditions:
//
// The above copyright notice and this permission notice shall be
// included in all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES
// OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT
// HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY,
// WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
// FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
// OTHER DEALINGS IN THE SOFTWARE.
#endregion
#if !(NET35 || NET20 || PORTABLE40)
using System;
using System.Collections.Generic;
using System.Dynamic;
using System.Linq;
using System.Linq.Expressions;
using System.Reflection;
namespace Newtonsoft.Json.Utilities
{
internal sealed class DynamicProxyMetaObject<T> : DynamicMetaObject
{
private readonly DynamicProxy<T> _proxy;
private readonly bool _dontFallbackFirst;
internal DynamicProxyMetaObject(Expression expression, T value, DynamicProxy<T> proxy, bool dontFallbackFirst)
: base(expression, BindingRestrictions.Empty, value)
{
_proxy = proxy;
_dontFallbackFirst = dontFallbackFirst;
}
private new T Value
{
get { return (T)base.Value; }
}
private bool IsOverridden(string method)
{
return ReflectionUtils.IsMethodOverridden(_proxy.GetType(), typeof(DynamicProxy<T>), method);
}
public override DynamicMetaObject BindGetMember(GetMemberBinder binder)
{
return IsOverridden("TryGetMember")
? CallMethodWithResult("TryGetMember", binder, NoArgs, e => binder.FallbackGetMember(this, e))
: base.BindGetMember(binder);
}
public override DynamicMetaObject BindSetMember(SetMemberBinder binder, DynamicMetaObject value)
{
return IsOverridden("TrySetMember")
? CallMethodReturnLast("TrySetMember", binder, GetArgs(value), e => binder.FallbackSetMember(this, value, e))
: base.BindSetMember(binder, value);
}
public override DynamicMetaObject BindDeleteMember(DeleteMemberBinder binder)
{
return IsOverridden("TryDeleteMember")
? CallMethodNoResult("TryDeleteMember", binder, NoArgs, e => binder.FallbackDeleteMember(this, e))
: base.BindDeleteMember(binder);
}
public override DynamicMetaObject BindConvert(ConvertBinder binder)
{
return IsOverridden("TryConvert")
? CallMethodWithResult("TryConvert", binder, NoArgs, e => binder.FallbackConvert(this, e))
: base.BindConvert(binder);
}
public override DynamicMetaObject BindInvokeMember(InvokeMemberBinder binder, DynamicMetaObject[] args)
{
if (!IsOverridden("TryInvokeMember"))
return base.BindInvokeMember(binder, args);
//
// Generate a tree like:
//
// {
// object result;
// TryInvokeMember(payload, out result)
// ? result
// : TryGetMember(payload, out result)
// ? FallbackInvoke(result)
// : fallbackResult
// }
//
// Then it calls FallbackInvokeMember with this tree as the
// "error", giving the language the option of using this
// tree or doing .NET binding.
//
Fallback fallback = e => binder.FallbackInvokeMember(this, args, e);
DynamicMetaObject call = BuildCallMethodWithResult(
"TryInvokeMember",
binder,
GetArgArray(args),
BuildCallMethodWithResult(
"TryGetMember",
new GetBinderAdapter(binder),
NoArgs,
fallback(null),
e => binder.FallbackInvoke(e, args, null)
),
null
);
return _dontFallbackFirst ? call : fallback(call);
}
public override DynamicMetaObject BindCreateInstance(CreateInstanceBinder binder, DynamicMetaObject[] args)
{
return IsOverridden("TryCreateInstance")
? CallMethodWithResult("TryCreateInstance", binder, GetArgArray(args), e => binder.FallbackCreateInstance(this, args, e))
: base.BindCreateInstance(binder, args);
}
public override DynamicMetaObject BindInvoke(InvokeBinder binder, DynamicMetaObject[] args)
{
return IsOverridden("TryInvoke")
? CallMethodWithResult("TryInvoke", binder, GetArgArray(args), e => binder.FallbackInvoke(this, args, e))
: base.BindInvoke(binder, args);
}
public override DynamicMetaObject BindBinaryOperation(BinaryOperationBinder binder, DynamicMetaObject arg)
{
return IsOverridden("TryBinaryOperation")
? CallMethodWithResult("TryBinaryOperation", binder, GetArgs(arg), e => binder.FallbackBinaryOperation(this, arg, e))
: base.BindBinaryOperation(binder, arg);
}
public override DynamicMetaObject BindUnaryOperation(UnaryOperationBinder binder)
{
return IsOverridden("TryUnaryOperation")
? CallMethodWithResult("TryUnaryOperation", binder, NoArgs, e => binder.FallbackUnaryOperation(this, e))
: base.BindUnaryOperation(binder);
}
public override DynamicMetaObject BindGetIndex(GetIndexBinder binder, DynamicMetaObject[] indexes)
{
return IsOverridden("TryGetIndex")
? CallMethodWithResult("TryGetIndex", binder, GetArgArray(indexes), e => binder.FallbackGetIndex(this, indexes, e))
: base.BindGetIndex(binder, indexes);
}
public override DynamicMetaObject BindSetIndex(SetIndexBinder binder, DynamicMetaObject[] indexes, DynamicMetaObject value)
{
return IsOverridden("TrySetIndex")
? CallMethodReturnLast("TrySetIndex", binder, GetArgArray(indexes, value), e => binder.FallbackSetIndex(this, indexes, value, e))
: base.BindSetIndex(binder, indexes, value);
}
public override DynamicMetaObject BindDeleteIndex(DeleteIndexBinder binder, DynamicMetaObject[] indexes)
{
return IsOverridden("TryDeleteIndex")
? CallMethodNoResult("TryDeleteIndex", binder, GetArgArray(indexes), e => binder.FallbackDeleteIndex(this, indexes, e))
: base.BindDeleteIndex(binder, indexes);
}
private delegate DynamicMetaObject Fallback(DynamicMetaObject errorSuggestion);
private static readonly Expression[] NoArgs = new Expression[0];
private static Expression[] GetArgs(params DynamicMetaObject[] args)
{
return args.Select(arg => Expression.Convert(arg.Expression, typeof(object))).ToArray();
}
private static Expression[] GetArgArray(DynamicMetaObject[] args)
{
return new[] { Expression.NewArrayInit(typeof(object), GetArgs(args)) };
}
private static Expression[] GetArgArray(DynamicMetaObject[] args, DynamicMetaObject value)
{
return new Expression[]
{
Expression.NewArrayInit(typeof(object), GetArgs(args)),
Expression.Convert(value.Expression, typeof(object))
};
}
private static ConstantExpression Constant(DynamicMetaObjectBinder binder)
{
Type t = binder.GetType();
while (!t.IsVisible())
t = t.BaseType();
return Expression.Constant(binder, t);
}
/// <summary>
/// Helper method for generating a MetaObject which calls a
/// specific method on Dynamic that returns a result
/// </summary>
private DynamicMetaObject CallMethodWithResult(string methodName, DynamicMetaObjectBinder binder, Expression[] args, Fallback fallback, Fallback fallbackInvoke = null)
{
//
// First, call fallback to do default binding
// This produces either an error or a call to a .NET member
//
DynamicMetaObject fallbackResult = fallback(null);
DynamicMetaObject callDynamic = BuildCallMethodWithResult(methodName, binder, args, fallbackResult, fallbackInvoke);
//
// Now, call fallback again using our new MO as the error
// When we do this, one of two things can happen:
// 1. Binding will succeed, and it will ignore our call to
// the dynamic method, OR
// 2. Binding will fail, and it will use the MO we created
// above.
//
return _dontFallbackFirst ? callDynamic : fallback(callDynamic);
}
private DynamicMetaObject BuildCallMethodWithResult(string methodName, DynamicMetaObjectBinder binder, Expression[] args, DynamicMetaObject fallbackResult, Fallback fallbackInvoke)
{
//
// Build a new expression like:
// {
// object result;
// TryGetMember(payload, out result) ? fallbackInvoke(result) : fallbackResult
// }
//
ParameterExpression result = Expression.Parameter(typeof(object), null);
IList<Expression> callArgs = new List<Expression>();
callArgs.Add(Expression.Convert(Expression, typeof(T)));
callArgs.Add(Constant(binder));
callArgs.AddRange(args);
callArgs.Add(result);
DynamicMetaObject resultMetaObject = new DynamicMetaObject(result, BindingRestrictions.Empty);
// Need to add a conversion if calling TryConvert
if (binder.ReturnType != typeof(object))
{
UnaryExpression convert = Expression.Convert(resultMetaObject.Expression, binder.ReturnType);
// will always be a cast or unbox
resultMetaObject = new DynamicMetaObject(convert, resultMetaObject.Restrictions);
}
if (fallbackInvoke != null)
resultMetaObject = fallbackInvoke(resultMetaObject);
DynamicMetaObject callDynamic = new DynamicMetaObject(
Expression.Block(
new[] { result },
Expression.Condition(
Expression.Call(
Expression.Constant(_proxy),
typeof(DynamicProxy<T>).GetMethod(methodName),
callArgs
),
resultMetaObject.Expression,
fallbackResult.Expression,
binder.ReturnType
)
),
GetRestrictions().Merge(resultMetaObject.Restrictions).Merge(fallbackResult.Restrictions)
);
return callDynamic;
}
/// <summary>
/// Helper method for generating a MetaObject which calls a
/// specific method on Dynamic, but uses one of the arguments for
/// the result.
/// </summary>
private DynamicMetaObject CallMethodReturnLast(string methodName, DynamicMetaObjectBinder binder, Expression[] args, Fallback fallback)
{
//
// First, call fallback to do default binding
// This produces either an error or a call to a .NET member
//
DynamicMetaObject fallbackResult = fallback(null);
//
// Build a new expression like:
// {
// object result;
// TrySetMember(payload, result = value) ? result : fallbackResult
// }
//
ParameterExpression result = Expression.Parameter(typeof(object), null);
IList<Expression> callArgs = new List<Expression>();
callArgs.Add(Expression.Convert(Expression, typeof(T)));
callArgs.Add(Constant(binder));
callArgs.AddRange(args);
callArgs[args.Length + 1] = Expression.Assign(result, callArgs[args.Length + 1]);
DynamicMetaObject callDynamic = new DynamicMetaObject(
Expression.Block(
new[] { result },
Expression.Condition(
Expression.Call(
Expression.Constant(_proxy),
typeof(DynamicProxy<T>).GetMethod(methodName),
callArgs
),
result,
fallbackResult.Expression,
typeof(object)
)
),
GetRestrictions().Merge(fallbackResult.Restrictions)
);
//
// Now, call fallback again using our new MO as the error
// When we do this, one of two things can happen:
// 1. Binding will succeed, and it will ignore our call to
// the dynamic method, OR
// 2. Binding will fail, and it will use the MO we created
// above.
//
return _dontFallbackFirst ? callDynamic : fallback(callDynamic);
}
/// <summary>
/// Helper method for generating a MetaObject which calls a
/// specific method on Dynamic, but uses one of the arguments for
/// the result.
/// </summary>
private DynamicMetaObject CallMethodNoResult(string methodName, DynamicMetaObjectBinder binder, Expression[] args, Fallback fallback)
{
//
// First, call fallback to do default binding
// This produces either an error or a call to a .NET member
//
DynamicMetaObject fallbackResult = fallback(null);
IList<Expression> callArgs = new List<Expression>();
callArgs.Add(Expression.Convert(Expression, typeof(T)));
callArgs.Add(Constant(binder));
callArgs.AddRange(args);
//
// Build a new expression like:
// if (TryDeleteMember(payload)) { } else { fallbackResult }
//
DynamicMetaObject callDynamic = new DynamicMetaObject(
Expression.Condition(
Expression.Call(
Expression.Constant(_proxy),
typeof(DynamicProxy<T>).GetMethod(methodName),
callArgs
),
Expression.Empty(),
fallbackResult.Expression,
typeof(void)
),
GetRestrictions().Merge(fallbackResult.Restrictions)
);
//
// Now, call fallback again using our new MO as the error
// When we do this, one of two things can happen:
// 1. Binding will succeed, and it will ignore our call to
// the dynamic method, OR
// 2. Binding will fail, and it will use the MO we created
// above.
//
return _dontFallbackFirst ? callDynamic : fallback(callDynamic);
}
/// <summary>
/// Returns a Restrictions object which includes our current restrictions merged
/// with a restriction limiting our type
/// </summary>
private BindingRestrictions GetRestrictions()
{
return (Value == null && HasValue)
? BindingRestrictions.GetInstanceRestriction(Expression, null)
: BindingRestrictions.GetTypeRestriction(Expression, LimitType);
}
public override IEnumerable<string> GetDynamicMemberNames()
{
return _proxy.GetDynamicMemberNames(Value);
}
// It is okay to throw NotSupported from this binder. This object
// is only used by DynamicObject.GetMember--it is not expected to
// (and cannot) implement binding semantics. It is just so the DO
// can use the Name and IgnoreCase properties.
private sealed class GetBinderAdapter : GetMemberBinder
{
internal GetBinderAdapter(InvokeMemberBinder binder) :
base(binder.Name, binder.IgnoreCase)
{
}
public override DynamicMetaObject FallbackGetMember(DynamicMetaObject target, DynamicMetaObject errorSuggestion)
{
throw new NotSupportedException();
}
}
}
}
#endif
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