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I am trying to name what I think is a new idea for a higher-order function. To the important part, here is the code in Python and Haskell to demonstrate the concept, which will be explained afterward.


>>> def pleat(f, l):
       return map(lambda t: f(*t), zip(l, l[1:]))
>>> pleat(operator.add, [0, 1, 2, 3])
[1, 3, 5]


Prelude> let pleatWith f xs = zipWith f xs (drop 1 xs)
Prelude> pleatWith (+) [0,1,2,3]

As you may be able to infer, the sequence is being iterated through, utilizing adjacent elements as the parameters for the function you pass it, projecting the results into a new sequence. So, has anyone seen the functionality we've created? Is this familiar at all to those in the functional community? If not, what do we name it?

---- Update ----

Pleat wins!

Prelude> let pleat xs = zip xs (drop 1 xs)
Prelude> pleat [1..4]

Prelude> let pleatWith f xs = zipWith f xs (drop 1 xs)
Prelude> pleatWith (+) [1..4]
share|improve this question
naturally it'll have to be short. So plow is winning there. My question is whether it's important enough to merit a name. What applications does it have that we would use it so often that we wouldn't just use the one-liner zipWith? – Chuck Vose Sep 22 '10 at 23:07
I don't know if there is a name for it but I know that I have followed this pattern alot. I would be interested to know if it had a common name. I usually call it a 'merger' because of the way that you are merging values together. – Robert Massaioli Sep 22 '10 at 23:10
@lshpeck: A quick search says no for the base libs. It really doesn't belong in the basic libs seeing as its so easily recreated yet not widely used. I'd also question the value of adding a package dependency for such a small function. On hackage MissingH or ListLike are the two likely places to find such functionality, but it isn't there. – Thomas M. DuBuisson Sep 22 '10 at 23:25
Stop trying to come up with cute little buzzwords that nobody will understand for obscure, special-purpose operations. Don't even consider a generic name like "merge". Use a descriptive phrase, eg. apply_to_pairs. – Glenn Maynard Sep 23 '10 at 1:11
So I posted this on the Haskell Reddit and they are clever (…): let meld f = map (uncurry f) . (zip ap tail) – Robert Massaioli Sep 23 '10 at 3:28

16 Answers 16

up vote 3 down vote accepted

I really can't see any codified names for this anywhere in Python, that's for sure. "Merge" is good but spoken for in a variety of other contexts. "Plow" tends to be unused and supplies a great visual of pushing steadily through a line of soil. Maybe I've just spent too much time gardening.

I also expanded the principle to allow functions that receive any number of parameters.

You might also consider: Pleat. It describes well the way you're taking a list (like a long strand of fabric) and bunching segments of it together.

import operator

def stagger(l, w):
    if len(l)>=w:
        return [tuple(l[0:w])]+stagger(l[1:], w)
    return []

def pleat(f, l, w=2):
    return map(lambda p: f(*p), stagger(l, w))

print pleat(operator.add, range(10))
print pleat(lambda x, y, z: x*y/z, range(3, 13), 3)
print pleat(lambda x: "~%s~"%(x), range(10), 1)
print pleat(lambda a, b, x, y: a+b==x+y, [3, 2, 4, 1, 5, 0, 9, 9, 0], 4)
share|improve this answer
better to use itertools.starmap instead of map(lambda p: f(*p)... – John La Rooy Sep 26 '10 at 2:24

Hmm... a counterpoint.

(`ap` tail) . zipWith

doesn't deserve a name.

BTW, quicksilver says:


The Aztec god of consecutive numbers

share|improve this answer
Why wouldn't it? As counter-counterpoints, flip mapM, foldr (>>) (return ()) and liftM2 id have been attributed some. (NB I'm not arguing it should, I'm pointing out the argument is weak) – JB. Sep 23 '10 at 6:24
map and fold are the two fundamental higher order functions, as a result, uses like this are very common. tail is moderately rare, zip ap tail is exceedingly rare. rare + trivial == not a good reason to name. – Don Stewart Sep 23 '10 at 16:48
I did not know about this though and I think that other people may be in the same boat, irrespective of how long they have used Haskell for. Is there anywhere that goes through a bunch of these useful code snippets, stuff that is not as common as prelude code but common enough to make these posts? Or do most people stumble upon this themselves? – Robert Massaioli Sep 24 '10 at 0:02
I have seen this higher-order function used quit often by science graduate students. Mostly in MatLab and Mathematica and once or twice in python. Knowledge of it was either passed down from whom ever taught them or rediscovered. – Davorak Oct 1 '10 at 23:48

Since it's similar to "fold" but doesn't collapse the list into a single value, how about "crease"? If you keep "creasing", you end up "folding" (sort of).

We could go with a cooking metaphor and call it "pinch", like pinching the crust of a pie, though this might suggest a circular zipping, where the last element of the list is paired with the first.

def pinch(f, l):
    return map(lambda t: f(*t), zip(l, l[1:]+l[:1]))

(If you only like one of "crease" or "pinch", please note so as a comment. Should these be separate suggestions?)

share|improve this answer
You can do an "infiniplow" where you can reduce the sequence to a single value by continually "plowing" it. I've called this PlowReduce hitherto. For example, a PlowReduce would plow a sequence [0..9] to the value 2304. – Squirrelsama Sep 22 '10 at 23:37
"Plow" doesn't seem like a good description, since plows turn over, break things up and aerate, none of which seem to apply to what the function does. – outis Sep 23 '10 at 0:14
I think pinch is a great candidate! – Squirrelsama Sep 23 '10 at 0:28
No, no, "crease" clearly means a fold followed by an unfold. – C. A. McCann Sep 23 '10 at 14:36
I love the "crease" one. – JB. Sep 23 '10 at 15:01

In Python the meld equivalent is in the itertools receipes and called pairwise.

from itertools import starmap, izp, tee

def pairwise(iterable):
    "s -> (s0,s1), (s1,s2), (s2, s3), ..."
    a, b = tee(iterable)
    next(b, None)
    return izip(a, b)

So I would call it:

def pairwith(func, seq):
    return starmap(func, pairwise(seq))

I think this makes sense because when you call it with the identity function, it simply returns pairs.

share|improve this answer

Here's another implementation for Python which works if l is a generator too

import itertools as it

def apply_pairwise(f, l):
    left, right = it.tee(l)
    return it.starmap(f, it.izip(left, right))

I think apply_pairwise is a better name

share|improve this answer
+.5 for name, +.5 for implementation. – aaronasterling Sep 23 '10 at 0:12

zipWithTail or adjacentPairs.

share|improve this answer

I vote for smearWith or smudgeWith because it's like you are smearing/smudging the operation across the list.

share|improve this answer

this seems like ruby's each_cons

ruby-1.9.2-p0 > (1..10).each_cons(2).to_a

=> [[1, 2], [2, 3], [3, 4], [4, 5], [5, 6], [6, 7], [7, 8], [8, 9], [9, 10]] 
share|improve this answer

This reminds me of convolution from image processing. But not sure if this is mathematically correct.

share|improve this answer
In image processing images are functions represented as arrays. The example 'binaryProjection (+) [0,1,2,3]' is like convolving a '[1,1]' kernel over a 1D-image (first multiply overlapping coefficients than sum). Though being able to use any other function than '+' makes the higher-order function in question more general. – sfty Sep 23 '10 at 12:19
This is convolution of a sort. The two functions convolved are f 1 = 1, f 2 = 1 and the function from natural numbers to the input list. The binary operation is specified by the function argument to plow or meld or whatever it's called. Very similar to the DSP sense of convolution of signals where the binop is (+). – John L Sep 23 '10 at 12:29
@John, good eye. I withdraw my statement. – aaronasterling Sep 23 '10 at 12:36
@AaronMcSmooth, no problem. As @sfty notes, this is an interesting hybrid which is mostly like signal convolution but more general because of the varying binop. In the more general sense of convolution (rather than the restricted DSP version), this extra generality isn't a difficulty. Anyway, @sfty noticed it; I didn't on my own. – John L Sep 23 '10 at 13:26

The generalized variant of the plain zip version of this is what I would think of as window. Not at a ghci terminal right now, but I think window n = take n . tails. Then your function is zipWith (\[x,yj -> f x y) . window 2. This sort of style naturally works better when f is of type [a] -> b.

share|improve this answer

in C++ Standard Template Library, it is called adjacent_difference (though the operator can be any operation, not just subtraction)

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So because there seems to be no name for this I suggest 'merger' or simple 'merge' because you are merging adjacent values together.

So merge is already taken so I now suggest 'meld' (or 'merger' still but that may be too close to 'merge')

For example:

meld :: (a -> a -> b) -> [a] -> [b]
meld _ [] = []
meld f xs = zipWith f (init xs) (tail xs)

Which can be used as:

> meld (+) [1..10]
> meld compare "hello world"

Where the second example makes no real sense but makes a cool example.

share|improve this answer
I am currently favoring this name. I think it's sufficiently descriptive. – Squirrelsama Sep 22 '10 at 23:41
It's ok but conflicts with merge :: Ord a => [a] -> [a] -> [a] which merges two sorted lists together into one sorted list. – Thomas M. DuBuisson Sep 23 '10 at 0:03
@TomMD: good point, changing to 'meld' instead. It is not taken, I checked and it is short and descriptive. "Just, meld this list with the (+) function." – Robert Massaioli Sep 23 '10 at 0:08

I'd be tempted to call it contour as I've used it for "contour" processing in music software - at the time I called it twomap or something silly like that.

There are also two specific named 'contours' in music processing one is gross contour - does the pitch go up or down. The other is refined contour where the the contour is either up, down, leap up or leap down, though I can't seem to find a reference for how large the semitone difference has to be to make a leap.

share|improve this answer

Using Mathematica

Plus @@@ Partition[{0, 1, 2, 3}, 2, 1] or either of these more verbose alternatives

Apply[Plus, Partition[{0, 1, 2, 3}, 2, 1], {1}]
Map[Apply[Plus, #] &, Partition[{0, 1, 2, 3}, 2, 1]]

I have used and enjoyed this higher order function in many languages but I have enjoyed it the most in Mathematica; it seems succinct and flexible broken down into Partition and Apply with levelspec option.

share|improve this answer
I must admit Haskell has won me over for the most part 15 months later. – Davorak Jan 20 '12 at 16:46

Nice idiom! I just needed to use this in Perl to determine the time between sequential events. Here's what I ended up with.

sub pinch(&@) {
  my ( $f, @list ) = @_;
  no strict "refs";

  use vars qw( $a $b );

  my $caller = caller;
  local( *{$caller . "::a"} ) = \my $a;
  local( *{$caller . "::b"} ) = \my $b;

  my @res;
  for ( my $i = 0; $i < @list - 1; ++$i ) {
    $a = $list[$i];
    $b = $list[$i + 1];
    push( @res, $f->() );
  wantarray ? @res : \@res;

print join( ",", pinch { $b - $a } qw( 1 2 3 4 5 6 7 ) ), $/;
# ==> 1,1,1,1,1,1

The implementation could probably be prettier if I'd made it dependent on List::Util, but... meh!

share|improve this answer
Congrats, necromancer ;) Oh wait... for the necromancer badge, you need +5 for this answer... – delnan Sep 29 '10 at 16:24
looks like 1337 speak to me. – aaronasterling Oct 16 '10 at 4:47
Yeah, Perl gets ugly fast, sigh! – Chris Waterson Oct 18 '10 at 20:11

BinaryOperate or BinaryMerge

share|improve this answer
If you're going to confine this to only allowing functions that receive two parameters, "dyadic" would be a better prefix. But the principle here, using elements in a sequence as parameters, should, in theory, expand to more than just dyadic functions. – Ishpeck Sep 23 '10 at 4:49

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