Here's a more complex but pretty flexible approach. We'll define an interface
for a type that can draw some events:
// Draw the given event, if it can. Return true if the event was drawn,
// false otherwise.
bool Draw(Event event);
It does two things: it checks to see if it can draw a given event, and, if so,
draws it. Otherwise it bails and returns false.
For example, a class that can render Sport1Events looks like:
class Sport1EventRenderer : IEventRenderer
public bool Draw(Event event)
var sportEvent = event as Sport1Event;
// can only draw this type
if (sportEvent == null) return false;
// draw the event...
Then we'll define a registry class. It's job is to maintain a collection of
these renderers and hand off the work of drawing an event to the appropriate
public void Add(IEventRenderer renderer)
public void Draw(Event event)
foreach (var renderer in mRenderers)
if (renderer.Draw(event)) break;
private readonly List<IEventRenderer> mRenderers = new List<IEventRenderer>();
All it does is find the first renderer that can successfully draw the event.
You would then use this like:
var registry = new EventRendererRegistry();
- Event types are not coupled to any rendering code.
- Renderers are not coupled to each other.
- Renderers are only coupled to the events they care about. (For example a
Sport2EventRenderer would not need to be coupled to Sport1Event.)
- Renders can do arbitrary logic to determine if they're appropriate. We're just
doing a type test here, but we could see if the event implements a certain
interface, has a certain property, is in a certain state, etc.
- Relatively fast. No reflection beyond simple casting.
- Fairly complex.
- Can fail at runtime to find a matching renderer.
- Have to iterate through renderer collection each time to find a match.