For what it's worth, I had a completely different problem on .NET 4 that produced the same exception, with little useful information to diagnose it.
I updated several tables in my DBML. I may have re-loaded a stored procedure, but I don't remember doing so.
I was left with the following sproc wrapper in the designer.cs:
[global::System.Data.Linq.Mapping.FunctionAttribute(Name="dbo.GetSomeInformation", IsComposable=true)]
public IQueryable<GetSomeInformationResult> GetSomeInformation([global::System.Data.Linq.Mapping.ParameterAttribute(DbType="BigInt")] System.Nullable<long> infoId)
{
return this.CreateMethodCallQuery<GetSomeInformationResult>(this, ((MethodInfo)(MethodInfo.GetCurrentMethod())), infoId);
}
CreateMethodCallQuery
is intended for calling table-valued functions, rather than stored procedures. I'm baffled as to why it would have changed this. I reverted it to use ExecuteMethodCall
:
[global::System.Data.Linq.Mapping.FunctionAttribute(Name="dbo.GetSomeInformation")]
public ISingleResult<GetSomeInformationResult> GetSomeInformation([global::System.Data.Linq.Mapping.ParameterAttribute(DbType="BigInt")] System.Nullable<long> infoId)
{
IExecuteResult result = this.ExecuteMethodCall(this, ((MethodInfo)(MethodInfo.GetCurrentMethod())), infoId);
return ((ISingleResult<GetSomeInformationResult>)(result.ReturnValue));
}
And all is well. Very strange.
UPDATE: This seems to have been caused by Visual Studio deciding a stored procedure was a table-valued function when it was added to the dbml. I've never seen that happen before.
The "IsComposable" flag seems to be the only way it distinguishes between stored procedures and table-values functions. Once I cleared the flag from the Function node in the dbml, Visual Studio generated correct code in the designer file.