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# F#: How do i split up a sequence into a sequence of sequences

Background:

I have a sequence of contiguous, time-stamped data. The data-sequence has gaps in it where the data is not contiguous. I want create a method to split the sequence up into a sequence of sequences so that each subsequence contains contiguous data (split the input-sequence at the gaps).

Constraints:

• The return value must be a sequence of sequences to ensure that elements are only produced as needed (cannot use list/array/cacheing)
• The solution must NOT be O(n^2), probably ruling out a Seq.take - Seq.skip pattern (cf. Brian's post)
• Bonus points for a functionally idiomatic approach (since I want to become more proficient at functional programming), but it's not a requirement.

Method signature

``````let groupContiguousDataPoints (timeBetweenContiguousDataPoints : TimeSpan) (dataPointsWithHoles : seq<DateTime * float>) : (seq<seq< DateTime * float >>)= ...
``````

On the face of it the problem looked trivial to me, but even employing Seq.pairwise, IEnumerator<_>, sequence comprehensions and yield statements, the solution eludes me. I am sure that this is because I still lack experience with combining F#-idioms, or possibly because there are some language-constructs that I have not yet been exposed to.

``````// Test data
let numbers = {1.0..1000.0}
let baseTime = DateTime.Now
let contiguousTimeStamps = seq { for n in numbers ->baseTime.AddMinutes(n)}

let dataWithOccationalHoles = Seq.zip contiguousTimeStamps numbers |> Seq.filter (fun (dateTime, num) -> num % 77.0 <> 0.0) // Has a gap in the data every 77 items

let timeBetweenContiguousValues = (new TimeSpan(0,1,0))

dataWithOccationalHoles |> groupContiguousDataPoints timeBetweenContiguousValues |> Seq.iteri (fun i sequence -> printfn "Group %d has %d data-points: Head: %f" i (Seq.length sequence) (snd(Seq.hd sequence)))
``````
-
Cross reference: here is the same question, but for lists. – Benjol Feb 5 '13 at 7:27

I think this does what you want

``````dataWithOccationalHoles
|> Seq.pairwise
|> Seq.map(fun ((time1,elem1),(time2,elem2)) -> if time2-time1 = timeBetweenContiguousValues then 0, ((time1,elem1),(time2,elem2)) else 1, ((time1,elem1),(time2,elem2)) )
|> Seq.scan(fun (indexres,(t1,e1),(t2,e2)) (index,((time1,elem1),(time2,elem2))) ->  (index+indexres,(time1,elem1),(time2,elem2))  ) (0,(baseTime,-1.0),(baseTime,-1.0))
|> Seq.map( fun (index,(time1,elem1),(time2,elem2)) -> index,(time2,elem2) )
|> Seq.filter( fun (_,(_,elem)) -> elem <> -1.0)
|> PSeq.groupBy(fst)
|> Seq.map(snd>>Seq.map(snd))
``````

Thanks for asking this cool question

-

I translated Alexey's Haskell to F#, but it's not pretty in F#, and still one element too eager.

I expect there is a better way, but I'll have to try again later.

``````let N = 20
let data =  // produce some arbitrary data with holes
seq {
for x in 1..N do
if x % 4 <> 0 && x % 7 <> 0 then
printfn "producing %d" x
yield x
}

let rec GroupBy comp (input:LazyList<'a>) : LazyList<LazyList<'a>> =
LazyList.delayed (fun () ->
match input with
| LazyList.Nil -> LazyList.cons (LazyList.empty()) (LazyList.empty())
| LazyList.Cons(x,LazyList.Nil) ->
LazyList.cons (LazyList.cons x (LazyList.empty())) (LazyList.empty())
| LazyList.Cons(x,(LazyList.Cons(y,_) as xs)) ->
let groups = GroupBy comp xs
if comp x y then
LazyList.consf
(LazyList.consf x (fun () ->
let (LazyList.Cons(firstGroup,_)) = groups
firstGroup))
(fun () ->
let (LazyList.Cons(_,otherGroups)) = groups
otherGroups)
else
LazyList.cons (LazyList.cons x (LazyList.empty())) groups)

let result = data |> LazyList.of_seq |> GroupBy (fun x y -> y = x + 1)
printfn "Consuming..."
for group in result do
printfn "about to do a group"
for x in group do
printfn "  %d" x
``````
-
Brian, I when trying to FSI your code I get the error-message below, even though I have FSharp.PowerPack.dll referenced. (I can even find LazyList in the PowerPack using the object browser) "The type 'LazyList' is not defined. A construct with this name was found in FSharp.PowerPack.dll, which contains some modules and types that were implicitly referenced in some previous versions of F#. You may need to add an explicit reference to this DLL in order to compile this code." – Treefrog Aug 24 '09 at 19:43
FSI cannot see references in the project; you need to say #r "FSharp.PowerPack.dll";; in the FSI window to get that reference. – Brian Aug 24 '09 at 22:37
@Brian: Thanks, #r does the trick :-) – Treefrog Aug 25 '09 at 10:30

You seem to want a function that has signature

``````(`a -> bool) -> seq<'a> -> seq<seq<'a>>
``````

I.e. a function and a sequence, then break up the input sequence into a sequence of sequences based on the result of the function.

Caching the values into a collection that implements IEnumerable would likely be simplest (albeit not exactly purist, but avoiding iterating the input multiple times. It will lose much of the laziness of the input):

```let groupBy (fun: 'a -> bool) (input: seq) =
seq {
let cache = ref (new System.Collections.Generic.List())
for e in input do
if not (fun e) then
yield !cache
cache := new System.Collections.Generic.List()
if cache.Length > 0 then
yield !cache
}
```

An alternative implementation could pass cache collection (as `seq<'a>`) to the function so it can see multiple elements to chose the break points.

-
Richard, I was hoping to be able to avoid using a cache for the inner sequences. – Treefrog Aug 24 '09 at 11:16
Also, the inner-most let appears to be scoped only in the if statement. Did you intend to make cache mutable? – Treefrog Aug 24 '09 at 11:38
@Treefrog: oops yes, it should be a ref List<'a>, will correct that. – Richard Aug 24 '09 at 12:16
@Treefrog: I don't think this can be done without caching,: seq<'a> is an interface, you need a concrete type of which to yield instances. – Richard Aug 24 '09 at 12:18
Well, you could use a nested `seq` workflow instead. – Alexey Romanov Aug 24 '09 at 14:24

A Haskell solution, because I don't know F# syntax well, but it should be easy enough to translate:

``````type TimeStamp = Integer -- ticks
type TimeSpan  = Integer -- difference between TimeStamps

groupContiguousDataPoints :: TimeSpan -> [(TimeStamp, a)] -> [[(TimeStamp, a)]]
``````

There is a function `groupBy :: (a -> a -> Bool) -> [a] -> [[a]]` in the Prelude:

The group function takes a list and returns a list of lists such that the concatenation of the result is equal to the argument. Moreover, each sublist in the result contains only equal elements. For example,

``````group "Mississippi" = ["M","i","ss","i","ss","i","pp","i"]
``````

It is a special case of groupBy, which allows the programmer to supply their own equality test.

It isn't quite what we want, because it compares each element in the list with the first element of the current group, and we need to compare consecutive elements. If we had such a function `groupBy1`, we could write `groupContiguousDataPoints` easily:

``````groupContiguousDataPoints maxTimeDiff list = groupBy1 (\(t1, _) (t2, _) -> t2 - t1 <= maxTimeDiff) list
``````

So let's write it!

``````groupBy1 :: (a -> a -> Bool) -> [a] -> [[a]]
groupBy1 _    []            = [[]]
groupBy1 _    [x]           = [[x]]
groupBy1 comp (x : xs@(y : _))
| comp x y  = (x : firstGroup) : otherGroups
| otherwise = [x] : groups
where groups@(firstGroup : otherGroups) = groupBy1 comp xs
``````

UPDATE: it looks like F# doesn't let you pattern match on `seq`, so it isn't too easy to translate after all. However, this thread on HubFS shows a way to pattern match sequences by converting them to `LazyList` when needed.

UPDATE2: Haskell lists are lazy and generated as needed, so they correspond to F#'s `LazyList` (not to `seq`, because the generated data is cached (and garbage collected, of course, if you no longer hold a reference to it)).

-
Alexey, you are working on an input-list, and producing an output of list of lists. As I explained in my question, I need to operate on a sequence of sequences rather than a list of lists, since in F# sequences are generated as needed, as opposed to lists that are immediately constructed in memory (which is a problem for very large data-sets) – Treefrog Aug 24 '09 at 13:40

(EDIT: This suffers from a similar problem to Brian's solution, in that iterating the outer sequence without iterating over each inner sequence will mess things up badly!)

Here's a solution that nests sequence expressions. The imperitave nature of .NET's `IEnumerable<T>` is pretty apparent here, which makes it a bit harder to write idiomatic F# code for this problem, but hopefully it's still clear what's going on.

``````let groupBy cmp (sq:seq<_>) =
let en = sq.GetEnumerator()
let rec partitions (first:option<_>) =
seq {
match first with
| Some first' ->             //'
(* The following value is always overwritten;
it represents the first element of the next subsequence to output, if any *)
let next = ref None

(* This function generates a subsequence to output,
setting next appropriately as it goes *)
let rec iter item =
seq {
yield item
if (en.MoveNext()) then
let curr = en.Current
if (cmp item curr) then
yield! iter curr
else // consumed one too many - pass it on as the start of the next sequence
next := Some curr
else
next := None
}
yield iter first' (* ' generate the first sequence *)
yield! partitions !next (* recursively generate all remaining sequences *)
| None -> () // return an empty sequence if there are no more values
}
let first = if en.MoveNext() then Some en.Current else None
partitions first

let groupContiguousDataPoints (time:TimeSpan) : (seq<DateTime*_> -> _) =
groupBy (fun (t,_) (t',_) -> t' - t <= time)
``````
-
kvb, I am impressed with how functional you managed to make this (using only one ref cell). I will study it to improve my grasp of functional programming (The recursion makes it a little hard for me to follow). Thanks for your effort! – Treefrog Aug 25 '09 at 12:04
Ha, I was just about to comment on the issues similar to Brian's solution :-) This is turning into a real brain-twister (not Brian-twister). – Treefrog Aug 25 '09 at 17:07

Okay, trying again. Achieving the optimal amount of laziness turns out to be a bit difficult in F#... On the bright side, this is somewhat more functional than my last attempt, in that it doesn't use any ref cells.

``````let groupBy cmp (sq:seq<_>) =
let en = sq.GetEnumerator()
let next() = if en.MoveNext() then Some en.Current else None
(* this function returns a pair containing the first sequence and a lazy option indicating the first element in the next sequence (if any) *)
let rec seqStartingWith start =
match next() with
| Some y when cmp start y ->
let rest_next = lazy seqStartingWith y // delay evaluation until forced - stores the rest of this sequence and the start of the next one as a pair
seq { yield start; yield! fst (Lazy.force rest_next) },
lazy Lazy.force (snd (Lazy.force rest_next))
| next -> seq { yield start }, lazy next
let rec iter start =
seq {
match (Lazy.force start) with
| None -> ()
| Some start ->
let (first,next) = seqStartingWith start
yield first
yield! iter next
}
Seq.cache (iter (lazy next()))
``````
-
This doesn't dispose the enumerator. At a glance, you could probably do that in the 'else' branch of next(). – Brian Aug 26 '09 at 5:25
I get an exception with the following (using VS2010 beta 1): "error FS0193: internal error: the module/namespace 'Microsoft.FSharp.Control' from compilation unit 'FSharp.Core' did not contain the val 'Lazy`1.Force.1'" Any ideas? – Treefrog Aug 26 '09 at 9:25
@Treefrog - I don't have VS2010 on this computer, but I don't get that error using F# 1.9.6.16... The "internal error" bit makes it look like a compiler bug to me; maybe report it to fsbugs@microsoft.com and see what they say? – kvb Aug 26 '09 at 13:11

Below is some code that does what I think you want. It is not idiomatic F#.

(It may be similar to Brian's answer, though I can't tell because I'm not familiar with the LazyList semantics.)

But it doesn't exactly match your test specification: Seq.length enumerates its entire input. Your "test code" calls `Seq.length` and then calls `Seq.hd`. That will generate an enumerator twice, and since there is no caching, things get messed up. I'm not sure if there is any clean way to allow multiple enumerators without caching. Frankly, `seq<seq<'a>>` may not be the best data structure for this problem.

Anyway, here's the code:

``````type State<'a> = Unstarted | InnerOkay of 'a | NeedNewInner of 'a | Finished

// f() = true means the neighbors should be kept together
// f() = false means they should be split
let split_up (f : 'a -> 'a -> bool) (input : seq<'a>) =
// simple unfold that assumes f captured a mutable variable
let iter f = Seq.unfold (fun _ ->
match f() with
| Some(x) -> Some(x,())
| None -> None) ()

seq {
let state = ref (Unstarted)
use ie = input.GetEnumerator()

let innerMoveNext() =
match !state with
| Unstarted ->
if ie.MoveNext()
then let cur = ie.Current
state := InnerOkay(cur); Some(cur)
else state := Finished; None
| InnerOkay(last) ->
if ie.MoveNext()
then let cur = ie.Current
if f last cur
then state := InnerOkay(cur); Some(cur)
else state := NeedNewInner(cur); None
else state := Finished; None
| NeedNewInner(last) -> state := InnerOkay(last); Some(last)
| Finished -> None

let outerMoveNext() =
match !state with
| Unstarted | NeedNewInner(_) -> Some(iter innerMoveNext)
| InnerOkay(_) -> failwith "Move to next inner seq when current is active: undefined behavior."
| Finished -> None

yield! iter outerMoveNext }

open System

let groupContigs (contigTime : TimeSpan) (holey : seq<DateTime * int>) =
split_up (fun (t1,_) (t2,_) -> (t2 - t1) <= contigTime) holey

// Test data
let numbers = {1 .. 15}
let contiguousTimeStamps =
let baseTime = DateTime.Now
seq { for n in numbers -> baseTime.AddMinutes(float n)}

let holeyData =
Seq.zip contiguousTimeStamps numbers
|> Seq.filter (fun (dateTime, num) -> num % 7 <> 0)

let grouped_data = groupContigs (new TimeSpan(0,1,0)) holeyData

printfn "Consuming..."
for group in grouped_data do
printfn "about to do a group"
for x in group do
printfn "  %A" x
``````
-
I think that your use of the `use` keyword is causing the problems with enumerating your sequences twice. Off hand, I'm not sure if there's an easy way to dispose of the enumerator correctly while still allowing multiple traversals. – kvb Aug 24 '09 at 21:50
@kvb, can you elaborate? I have not tried running this code, but at a glance it looks ok to me. Is there a repro that fails? – Brian Aug 25 '09 at 0:40
It seems that the problems people are encountering with this and other solutions (iterating the second seq before the first has been iterated completely) comes from a mis-specification or underspecification of the original problem: It asks for no caching. Therefore, if the consumer begins consuming the 2nd seq before it finishes consuming the 1st, what is the producer (this code we're all trying to write) supposed to yield for the 2nd seq? ... – Gabriel Aug 26 '09 at 13:59
... If the 2nd seq yields the current element and moves on, then the 1st seq is now invalid (ask yourself, what should it (1st seq) yield if the consumer then resumes iterating it?). If the 2nd doesn't yield the current element, what should it do instead? – Gabriel Aug 26 '09 at 14:01
Basically, seq<seq<_>> allows the consumer to do things (like skip uncompleted inner seqs) that are make no sense given the nature of the underlying data and the requirement that it not be cached. – Gabriel Aug 26 '09 at 14:09

Ok, here's an answer I'm not unhappy with.

(EDIT: I am unhappy - it's wrong! No time to try to fix right now though.)

It uses a bit of imperative state, but it is not too difficult to follow (provided you recall that '!' is the F# dereference operator, and not 'not'). It is as lazy as possible, and takes a seq as input and returns a seq of seqs as output.

``````let N = 20
let data =  // produce some arbitrary data with holes
seq {
for x in 1..N do
if x % 4 <> 0 && x % 7 <> 0 then
printfn "producing %d" x
yield x
}
let rec GroupBy comp (input:seq<_>) = seq {
let doneWithThisGroup = ref false
let areMore = ref true
use e = input.GetEnumerator()
let Next() = areMore := e.MoveNext(); !areMore
// deal with length 0 or 1, seed 'prev'
if not(e.MoveNext()) then () else
let prev = ref e.Current
while !areMore do
yield seq {
while not(!doneWithThisGroup) do
if Next() then
let next = e.Current
doneWithThisGroup := not(comp !prev next)
yield !prev
prev := next
else
// end of list, yield final value
yield !prev
doneWithThisGroup := true }
doneWithThisGroup := false }
let result = data |> GroupBy (fun x y -> y = x + 1)
printfn "Consuming..."
for group in result do
printfn "about to do a group"
for x in group do
printfn "  %d" x
``````
-
Brian, this is what I was looking for :-) My own attempt at solving the problem used a very similar approach (nested sequence comprehensions), but produced erratic results. At first I thought that this was due to sequence comprehension closures all capturing the same ref cell, but I just now discovered that the error were due to erroneous test data. I seem to have made multiple calls to "DateTime.Now" where only one was intended, causing subsequent DateTime comparisons to fail. BTW - The "if not(e.MoveNext()) then () else ..." appears to be equivalent to the simpler "if e.MoveNext() then..."? – Treefrog Aug 25 '09 at 11:18
The more I use sequence expressions, the less I understand them... Why does `Seq.length (GroupBy (fun _ _ -> true) [1])` go into an infinite loop? – kvb Aug 25 '09 at 14:23
Also, there seems to be no need to declare GroupBy "rec" since it is not recursive :-) – Treefrog Aug 25 '09 at 14:25
I am also getting an infinite loop in the "while !areMore do". It is as if the "yield seq" statement is never entered. – Treefrog Aug 25 '09 at 15:21
Yup; this solution is totally wrong, argh. If the consumer demands elements of the outer seq, but does not consume elements of the inner seq, for example, the effects never happen and no progress is ever made consuming the original list. – Brian Aug 25 '09 at 16:42