I'm playing around with DynamicMethod and trying to use IL to create some objects. I want to create the following very basic object:

new Queue<double>(new List<double>{100});

I have used ILDASM to see what OpCodes are needed to generate this. This is what ILDASM tells me:

IL_0000:  newobj     instance void class [System.Collections]System.Collections.Generic.List`1<float64>::.ctor()
IL_0005:  dup
IL_0006:  ldc.r8     100.
IL_000f:  callvirt   instance void class [System.Collections]System.Collections.Generic.List`1<float64>::Add(!0)
IL_0014:  newobj     instance void class [System.Collections]System.Collections.Generic.Queue`1<float64>::.ctor(class  [System.Runtime]System.Collections.Generic.IEnumerable`1<!0>)
IL_0019:  pop
IL_001a:  ret

This is what I am doing:

var dynMethod = new DynamicMethod("QueueMaker", typeof(Queue<double>), Type.EmptyTypes);
ILGenerator ilGen = dynMethod.GetILGenerator();
ilGen.Emit(OpCodes.Newobj, typeof(List<double>).GetConstructor(Type.EmptyTypes));
ilGen.Emit(OpCodes.Ldc_R8, 100);
ilGen.EmitCall(OpCodes.Callvirt, typeof(List<double>).GetMethod("Add"), null);
ilGen.Emit(OpCodes.Newobj, typeof(Queue<double>).GetConstructor(new[] { typeof(IEnumerable<double>) }));
var returnFunc = (Func<Queue<double>>)dynMethod.CreateDelegate(typeof(Func<Queue<double>>));
var queue = returnFunc();

I get exception System.InvalidProgramException: 'Common Language Runtime detected an invalid program.' What am I doing wrong?

  • 1
    Looks like a dust fleck on your monitor when you look at the ildasm.exe output. The distinction between 100 and 100.0 matters, you want to emit a double and not an int. – Hans Passant Dec 11 '18 at 8:52

What am I doing wrong?

Two things:


ilGen.Emit(OpCodes.Ldc_R8, 100);

This is passing incorrect value type. Make sure you call the overload for double:

ilGen.Emit(OpCodes.Ldc_R8, (double)100); // or 100d



Most probably ILDASM included that because here new Queue<double>(new List<double>{100}); you are discarding the result, but this instruction is invalid when you need to return the result to the caller. The Dup instruction which saved the new List<double> instance on the evaluation stack has been consumed by the Queue<double> constructor call, so this removes the result from the stack, which at the end leads to invalid stack.

Remove that line and the problem will be solved.

  • Brilliant, that solved it. Thanks! – JohanP Dec 11 '18 at 9:36

Do you realy want to play arround with Emit? You only want to create dynamic methods and in my opinion Expressions Trees are much more easier to use.

The result will be the same: a Func<Queue<double>>.

But first of all your code can be simplyfied. You call a ctor of Queue that takes a collection of elements. You only want to add the value 100 to the queue. Maybe the result will be the same as:

var result = new Queue<double>();
return result;

That's the code to create this is:

// Getting types/methods
var queueItemType = typeof(double);
var queueType = typeof(Queue<>).MakeGenericType(queueItemType);
var queueEnqueueMethod = queueType.GetMethod(nameof(Queue<object>.Enqueue), new[] { queueItemType });

// Build the Func<>
var result = Expression.Parameter(queueType, "result");

var queueInstance = Expression.New(queueType);
var resultAssign = Expression.Assign(result, queueInstance);

var queueItem = Expression.Constant(Convert.ChangeType(100, queueItemType), queueItemType);
var addCall = Expression.Call(result, queueEnqueueMethod, queueItem);

var body = new List<Expression>
    result  // The last line in body will be the result value of the Func<>.

var lambda = Expression.Lambda<Func<Queue<double>>>(Expression.Block(new[] { result }, body));
var func = lambda.Compile();

// Call it :-)
var queue = func();



The code can be shortened by mergins some lines but I wrote every part in a single line for clearity.

Hint: You can call ToString() on every expression to see what will be generated with is very usefull to find errors.

The list can be created the same way if you realy need it.


There is also a 'one-liner':

() => new Queue<double>(Enumerable.Repeat(100.0, 1))

This is the code that builds it:

// Getting types/methods
var itemType = typeof(double);
var repeatMethod = typeof(Enumerable).GetMethod(nameof(Enumerable.Repeat)).MakeGenericMethod(itemType);

var queueType = typeof(Queue<>).MakeGenericType(itemType);
var queueCtor = queueType.GetConstructor(new[] { typeof(IEnumerable<>).MakeGenericType(itemType) });

// Build the Func<>
var repeatCall = Expression.Call(repeatMethod, Expression.Constant(Convert.ChangeType(100, itemType)), Expression.Constant(1, typeof(int)));
var ctorCall = Expression.New(queueCtor, repeatCall);

var lambda = Expression.Lambda<Func<Queue<double>>>(ctorCall);
var func = lambda.Compile();

// Call it :-)
var queue = func();



  • Thanks Vera, this is really neat! I need to create an implementation of IEnumerable<T> to supply to constructor. The reason is that I want to substitute Queue<T> with a Stack<T> or List<T>, so I cannot depend on Enqueue. – JohanP Dec 11 '18 at 7:31
  • @JohanP Yes you can change the type easyly in the "one-line" version :-) – Sebastian Schumann Dec 11 '18 at 10:55

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