It took a while to work it out, but I finally got my own solution.
I have defined two extension methods called FromCacheOrFetch
with these signatures:
IObservable<R> FromCacheOrFetch<T, R>(
this IObservable<T> source,
Func<T, R> cache,
Func<IObservable<T>, IObservable<R>> fetch,
IScheduler scheduler)
where R : class
IObservable<R> FromCacheOrFetch<T, R>(
this IObservable<T> source,
Func<T, Maybe<R>> cache,
Func<IObservable<T>, IObservable<R>> fetch,
IScheduler scheduler)
The first uses standard CLR/Rx types and the second uses a Maybe
monad (nullable types not restricted to value types).
The first just turns the Func<T, R>
into Func<T, Maybe<R>>
and calls the second method.
The basic idea behind is that when the source is to be queried the cache is examined for each value to see if a result already exists and if it does the result is immediately returned. If, however, any result is missing then and only then is the fetch function called by passing in a Subject<T>
and now all cache misses are passed through the fetch function. The calling code is responsible for adding the results to the cache. The code asynchronously processes all the values through the fetch function and reassembles the results, along with cached results, into the correct order.
Works like a treat. :-)
Here's the code:
public static IObservable<R> FromCacheOrFetch<T, R>(this IObservable<T> source,
Func<T, R> cache, Func<IObservable<T>, IObservable<R>> fetch,
IScheduler scheduler)
where R : class
{
return source
.FromCacheOrFetch<T, R>(t => cache(t).ToMaybe(null), fetch, scheduler);
}
public static IObservable<R> FromCacheOrFetch<T, R>(this IObservable<T> source,
Func<T, Maybe<R>> cache, Func<IObservable<T>, IObservable<R>> fetch,
IScheduler scheduler)
{
var results = new Subject<R>();
var disposables = new CompositeDisposable();
var loop = new EventLoopScheduler();
disposables.Add(loop);
var sourceDone = false;
var pairsDone = true;
var exception = (Exception)null;
var fetchIn = new Subject<T>();
var fetchOut = (IObservable<R>)null;
var pairs = (IObservable<KeyValuePair<int, R>>)null;
var lookup = new Dictionary<T, int>();
var list = new List<Maybe<R>>();
var cursor = 0;
Action checkCleanup = () =>
{
if (sourceDone && pairsDone)
{
if (exception == null)
{
results.OnCompleted();
}
else
{
results.OnError(exception);
}
loop.Schedule(() => disposables.Dispose());
}
};
Action dequeue = () =>
{
while (cursor != list.Count)
{
var mr = list[cursor];
if (mr.HasValue)
{
results.OnNext(mr.Value);
cursor++;
}
else
{
break;
}
}
};
Action<KeyValuePair<int, R>> nextPairs = kvp =>
{
list[kvp.Key] = Maybe<R>.Something(kvp.Value);
dequeue();
};
Action<Exception> errorPairs = ex =>
{
fetchIn.OnCompleted();
pairsDone = true;
exception = ex;
checkCleanup();
};
Action completedPairs = () =>
{
pairsDone = true;
checkCleanup();
};
Action<T> sourceNext = t =>
{
var mr = cache(t);
list.Add(mr);
if (mr.IsNothing)
{
lookup[t] = list.Count - 1;
if (fetchOut == null)
{
pairsDone = false;
fetchOut = fetch(fetchIn.ObserveOn(Scheduler.ThreadPool));
pairs = fetchIn
.Select(x => lookup[x])
.Zip(fetchOut, (i, r2) => new KeyValuePair<int, R>(i, r2));
disposables.Add(pairs
.ObserveOn(loop)
.Subscribe(nextPairs, errorPairs, completedPairs));
}
fetchIn.OnNext(t);
}
else
{
dequeue();
}
};
Action<Exception> errorSource = ex =>
{
sourceDone = true;
exception = ex;
fetchIn.OnCompleted();
checkCleanup();
};
Action completedSource = () =>
{
sourceDone = true;
fetchIn.OnCompleted();
checkCleanup();
};
disposables.Add(source
.ObserveOn(loop)
.Subscribe(sourceNext, errorSource, completedSource));
return results.ObserveOn(scheduler);
}