Liskov-substitution principle requires that subtypes must satisfy the contracts of super-types. In my understanding, this would entail that
ReadOnlyCollection<T> violates Liskov.
ICollection<T>'s contract exposes
Remove operations, but the read only subtype does not satisfy this contract. For example,
IList<object> collection = new List<object>(); collection = new System.Collections.ObjectModel.ReadOnlyCollection<object>(collection); collection.Add(new object()); -- not supported exception
There is clearly a need for immutable collections. Is there something broken about .NET's way of modeling them? What would be the better way to do it?
IEnumerable<T> does a good job of exposing a collection while, at least, appearing to be immutable. However, the semantics are very different, primarily because
IEnumerable doesn't explicitly expose any of state.
In my particular case, I am trying to build an immutable DAG class to support an FSM. I will obviously need
AddEdge methods at the beginning but I don't want it to be possible to change the state machine once it is already running. I'm having difficulty representing the similarity between the immutable and mutable representations of the DAG.
Right now, my design involves using a DAG Builder up front, and then creating the immutable graph once, at which point it is no longer editable. The only common interface between the Builder and the concrete immutable DAG is an
Accept(IVisitor visitor). I'm concerned that this may be over-engineered / too abstract in the face of possibly simpler options. At the same time, I'm having trouble accepting that I can expose methods on the my graph interface that may throw
NotSupportedException if the client gets a particular implementation. What is the right way to handle this?