I think that your approach looks good. The only problem is that
Stream is a relatively complicated class that has quite a few members and you probably don't want to implement most of them - if you want to pass it to some code that uses some of the additional members, you'll need to make the implementation more complex. Anyway, a simple stream that implements only
Read can look like this:
type SeqStream<'a>(sequence:seq<'a>, formatter:'a -> byte) =
// Keeps bytes that were read previously, but were not used
let temp = ResizeArray<_>()
// Enumerator for reading data from the sequence
let en = sequence.GetEnumerator()
override x.Read(buffer, offset, size) =
// Read next element and add it to temp until we have enough
// data or until we reach the end of the sequence
while temp.Count < size && en.MoveNext() do
// Copy data to the output & return count (may be less then
// required (at the end of the sequence)
let ret = min size temp.Count
temp.CopyTo(0, buffer, offset, ret)
override x.Seek(offset, dir) = invalidOp "Seek"
override x.Flush() = invalidOp "Flush"
override x.SetLength(l) = invalidOp "SetLength"
override x.Length = invalidOp "Length"
with get() = invalidOp "Position"
and set(p) = invalidOp "Position"
override x.Write(buffer, offset, size) = invalidOp "Write"
override x.CanWrite = false
override x.CanSeek = false
override x.CanRead = true
Note that I added an additional parameter - a function to convert value of the generic type to a byte array. In general, it is difficult to convert anything to bytes (you could use some serialization), so this is probably easier. For example, for integers you can write:
let stream = new SeqStream<_>([ 1 .. 5 ], System.BitConverter.GetBytes)