# FoldList like primitive in J

Mathematica has a built-in function called `FoldList` FoldList function description. Is there a similar primitive verb in J?

(I know that J has a `^:` verb, which is like `Nest` and `FixedPoint`.)

To clarify my question, J has dyadic verb, so usually `u / x1 x2 x3` becomes `x1 u (x2 u x3)`, which works just like `FoldList`, with reverse order.

Except if the function `u` takes `y`, in a different shape from `x`. In `FoldList` there is an initial `x`. In J, if x3 is a different shape, one has to rely on `<` to pack it together. For example, one has to pack and unpack

``````   [list =. (;/ 3 3 4 3 3 34),(< 1 2)
+-+-+-+-+-+--+---+
|3|3|4|3|3|34|1 2|
+-+-+-+-+-+--+---+

tf =: 4 : '<((> x) , >y)'

tf/ list
+----------------+
|1 2 3 3 4 3 3 34|
+----------------+
tf/\ |. list
+---+------+--------+----------+------------+--------------+----------------+
|1 2|1 2 34|1 2 34 3|1 2 34 3 3|1 2 34 3 3 4|1 2 34 3 3 4 3|1 2 34 3 3 4 3 3|
+---+------+--------+----------+------------+--------------+----------------+
``````

which is kind of inconvenient. Any better solutions?

-
And `<` is not a universal solution. Suppose we want to insert + in the list 1 2 3 4 with initial value 1 2. Box and unbox seem inefficient. –  ahala Apr 28 at 13:28
need to correct the mistake: u / x1 x2 x3 is x1 u x2 u x3, because J evaluates expression from right to left, so it becomes x1 u (x2 u x3), which is as Eelvex pointed out "right folding" –  Zhe Hu Apr 28 at 20:09
The first two elements of FoldList are `x` and `f(x,a)`. In J those two have to be of the same "kind". The inconvenience comes from J's data structures not from the lack of a `FoldList` verb. –  Eelvex Apr 28 at 23:30
Agreed (and +1'd) with @Eelvex comment that this boils down to J's type system. In J, all arrays are rectilinear (orthotopic, i.e. rectangular in the N-dimensional sense) and homogeneous in type. So the question can be distilled to "how can I collect unlike things in J", and the answer to Zhe's original observation that boxing is required (collecting unlike things is the raison d'etre of boxes in J). As to inconvenience: well, this use-case has been noticed before, and various conveniences developed: jsoftware.com/pipermail/programming/2006-May/002245.html –  Dan Bron Apr 29 at 1:50

## 2 Answers

`u/\` comes very close (if you don't mind the right folding):

``````+/\ 1 2 3 4
1 3 6 10

*/\1+i.10
1 2 6 24 120 720 5040 ...

(+%)/\7#1. NB. continued fraction of phi
1 2 1.5 1.66667 1.6 1.625 1.61538
``````

edit on your edit:

The first two elements of `FoldList` are `x` and `f(x,a)`. In J those two have to be of the same "kind" (shape+type) if you want them on the same list. The inconvenience comes from J's data structures not from the lack of a `FoldList` verb. If you exclude `x` from the list, things are easier:

``````FoldListWithout_x =: 1 : 'u/ each }.<\y'

; FoldListWithout_x 1 2 3 4
┌─────┬───────┬─────────┐
│┌─┬─┐│┌─┬─┬─┐│┌─┬─┬─┬─┐│
││1│2│││1│2│3│││1│2│3│4││
│└─┴─┘│└─┴─┴─┘│└─┴─┴─┴─┘│
└─────┴───────┴─────────┘
>+ FoldListWithout_x 1 2 3 4
3 6 10
(+%) FoldListWithout_x 7#1
┌─┬───┬───────┬───┬─────┬───────┐
│2│1.5│1.66667│1.6│1.625│1.61538│
└─┴───┴───────┴───┴─────┴───────┘
``````

The next logical step is to include a boxed `x` after making the folds, but that will either require more complex code or a case-by-case construction. Eg:

``````FoldList =: 1 :'({.y) ; u FoldListWithout_x y'
+ FoldList 1 2 3 4
┌─┬─┬─┬──┐
│1│3│6│10│
└─┴─┴─┴──┘
; FoldList 1 2 3 4
┌─┬─────┬───────┬─────────┐
│1│┌─┬─┐│┌─┬─┬─┐│┌─┬─┬─┬─┐│
│ ││1│2│││1│2│3│││1│2│3│4││
│ │└─┴─┘│└─┴─┴─┘│└─┴─┴─┴─┘│
└─┴─────┴───────┴─────────┘
``````

vs

``````FoldList =: 1 :'(<{.y) ; u FoldListWithout_x y'
+ FoldList 1 2 3 4
┌───┬─┬─┬──┐
│┌─┐│3│6│10│
││1││ │ │  │
│└─┘│ │ │  │
└───┴─┴─┴──┘
; FoldList 1 2 3 4
┌───┬─────┬───────┬─────────┐
│┌─┐│┌─┬─┐│┌─┬─┬─┐│┌─┬─┬─┬─┐│
││1│││1│2│││1│2│3│││1│2│3│4││
│└─┘│└─┴─┘│└─┴─┴─┘│└─┴─┴─┴─┘│
└───┴─────┴───────┴─────────┘
``````
-

I guess @Dan Bron's comment deserves an answer. It is discussed with some solutions in http://www.jsoftware.com/pipermail/programming/2006-May/002245.html

if we define an adverb (modified from the link above)

``````   upd =: 1 : 0
:
u&.> /\ ( <"_ x),<"0 y
)
``````

then

``````1 2  , upd |. 3 3 4 3 3 34
┌───┬──────┬────────┬──────────┬────────────┬──────────────┬────────────────┐
│1 2│1 2 34│1 2 34 3│1 2 34 3 3│1 2 34 3 3 4│1 2 34 3 3 4 3│1 2 34 3 3 4 3 3│
└───┴──────┴────────┴──────────┴────────────┴──────────────┴────────────────┘
``````
-