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I'm solving a Project Euler problem which involves all the n-digit numbers with a certain property. It seems that the easiest way to get them might be to get a list of all the numbers with that property (which would be infinitely long), then select out the ones with the right number of digits. Like this:

numsWithCoolProperty = filter hasCoolProperty [1..]

nDigitNumsWithCoolProperty n = takeWhile (< 10^n) $ dropWhile (<= 10^(n-1)) numsWithOtherCoolProperty

But now if I want to do the same thing with a different property, I'll be repeating myself:

nDigitNumsWithOtherCoolProperty n = takeWhile (< 10^n) $ dropWhile (<= 10^(n-1)) numsWithOtherCoolProperty

so I want a function that captures the dropWhile/takeWhile logic. Something like:

f :: (a -> Bool) -> [a] -> [a]
f pred = takeWhile pred . dropWhile (not . pred)

and then if I have a predicate hasNDigits n m which returns true if m has n digits, I can do:

nDigitNumsWithCoolProperty n = f (hasNDigits n) numsWithCoolProperty
nDigitNumsWithOtherCoolProperty n = f (hasNDigits n) numsWithOtherCoolProperty

Anyway, my question is about the function f which has the same type as dropWhile and takeWhile: Does it already exist somewhere? If not, what would be a good name for it? All I can think of is something like dropUntilTakeWhile but I'm sure there's a better name out there.

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Wouldn't you have to make take until + drop while recursive? Otherwise it would only work on a single transition between predicate matches and non-predicate matches. (I don't know the syntax well at all, so I can't tell if your definition of f already does this) – Merlyn Morgan-Graham Jun 11 '11 at 7:14
In this particular case, I know that numsWithCoolProperty is sorted (I guess I should have said that) which means I know all the three digit numbers will be grouped together. When it switches from two-digit to three-digit numbers, I want to start including those, and when it switches from three-digit to four-digit, I want to stop. If I didn't know the list was sorted (or that all the numbers matching the predicate were grouped in a single run) then I would use filter. But I can't do that here because it's an infinite list, and I want to get a finite one back. – MatrixFrog Jun 11 '11 at 7:24
Not that helpful, but you might call it takeRange, and call the predicate isInRange – Merlyn Morgan-Graham Jun 11 '11 at 7:36
How about a different approach: nDigitNums n = [10^(n-1)..10^n-1] and then filter on that. – hammar Jun 11 '11 at 11:08
I would call that function simply dropTakeWhile. – Landei Jun 11 '11 at 11:24

Your function:

f pred = takeWhile pred . dropWhile (not . pred)

Is strongly related to the span and break functions, as you can see:

span  :: (a -> Bool) -> [a] -> ([a], [a]) 

break :: (a -> Bool) -> [a] -> ([a], [a])       

Let's see some examples:

> span (< 3) [1,2,3,4,1,2,3,4]

> break (< 3) [1,2,3,4,1,2,3,4]

and your function:

> f (< 3) [1,2,3,4,1,2,3,4]

Now, we have one law relating span to takeWhile and dropWhile,

span p xs is equivalent to (takeWhile p xs, dropWhile p xs)

so we might consider your function part of the span and break group of functions. It is also related to lexing, where you gather some token that matches a predicate.

So, you might call this function gather or lex or something similar.

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