# Finding local mins in an array

Is there a easy way to determine the local min and maxes of an array of values. For example

``````Element Value   Note
1         1
2         3
3         5
4         6
5         7       max
5         5
6         4       min
7         6
8         9
9         10      max
10        8
11        7
12        5      min
13        10
``````

so an array that is defined like:

``````let arr = [|1;3;5;6;7;5;4;6;9;10;8;7;5;10|]
``````

would identify

``````mins  = [|4;5|]
``````

and

``````maxs  = [|7;10|]
``````

It could be a list or Sequence as well as an array. Two questions

1. Is there any faciliities in F# that that lend themselves to this task
2. Is there a common algorithm for determining either the mins or maxs or both?
3. If writing from scratch should it be approached functionally or imperatively?

Thx

-
You want to divide the array into strictly increasing runs? –  SLaks Oct 6 '10 at 1:55
How exactly do you define local max and min? –  casablanca Oct 6 '10 at 1:55
@SLaks I think, he wants to find all numbers i for which 'a[i-1] > a[i] < a[i+1]' and call it mins. What I don't understand is where the problem. Just iterate through the numbers and compare. –  Nikita Rybak Oct 6 '10 at 1:57
+1 for interesting problem. –  Alexander Rautenberg Oct 6 '10 at 11:02
Dumb question I guess--why isn't mins = [|1;3|]? –  Onorio Catenacci Oct 6 '10 at 14:05

This looks like a job for... Seq.windowed! <cue superhero music>

``````let arr = [|1;3;5;6;7;5;4;6;9;10;8;7;5;10|]

let _,mins,maxs =
arr |> Seq.windowed 3 |> Seq.fold (fun (i,mins,maxs) [|a;b;c|] ->
if a>b&&b<c then   (i+1, i::mins,    maxs)
elif a<b&&b>c then (i+1,    mins, i::maxs)
else               (i+1,    mins,    maxs)) (1,[],[])

arr |> Seq.iteri (fun i x -> printfn "%2d: %2d" i x)
printfn "mins %A" mins
printfn "maxs %A" maxs
(*
0:  1
1:  3
2:  5
3:  6
4:  7
5:  5
6:  4
7:  6
8:  9
9: 10
10:  8
11:  7
12:  5
13: 10
mins [12; 6]
maxs [9; 4]
*)
``````
-
I like the approach, not having to worry about navigating array indexes etc. the windowed function is an interesting - obviously I didn't think of using it in this problem, however I used it for calcing moving averages earlier today... –  akaphenom Oct 6 '10 at 2:19
I liked this answer so much I made an inefficient (but more me-readable) version! –  Massif Oct 6 '10 at 12:48
I am following up on old unanswered questions, the problem with this solution is it falls apart on duplicate values... –  akaphenom Nov 19 '10 at 19:22
I am unclear what you are saying, can you show a testcase that it fails on? (perhaps if you mean adjacent same values, just turn e.g. `<` to `<=` in the `if`s?) –  Brian Nov 19 '10 at 19:28

Based on Brian's answer, I slightly prefer this version:

``````let arr = [|1;3;5;6;7;5;4;6;9;10;8;7;5;10|]

let find_min_max input =
let windows = Seq.windowed 3 input
let mins = Seq.filter (fun [|a;b;c|] -> a>b && b<c) windows
|> Seq.map (fun [|a;b;c|] -> b)
let maxs = Seq.filter (fun [|a;b;c|] -> a<b && b>c) windows
|> Seq.map (fun [|a;b;c|] -> b)

mins, maxs

let mins, maxs = find_min_max arr

printfn "mins %A" mins
printfn "maxs %A" maxs
``````
-

Based on Massif's answer, which is based on Brian's answer, I'd problably roll the filter and map into one:

``````let find_min_max input =
let windows = Seq.windowed 3 input
let mins = Seq.choose (fun [|a;b;c|] -> if a>b && b<c then Some(b) else None) windows
let maxs = Seq.choose (fun [|a;b;c|] -> if a<b && b>c then Some(b) else None) windows

mins, maxs
``````

:)

-
I much prefer this version. –  Massif Oct 6 '10 at 14:28

I think it'd be trivial to write

``````for x from 0 to size-2:
if (a[x] > a[x+1] && a[x+1] < a[x+2]) // also, there should be bound checking
//a[x+1] is a min!
minima.cram(x+1)
if (a[x] < a[x+1] && a[x+1] > a[x+2]) // also, there should be bound checking
//a[x+1] is a max!
maxima.cram(x+1)
``````

Or have I oversimplified?

-
Y - that simple, however as I am implementing in F# I am attempting to find a more functional approach. As far as imperative approach this is it... –  akaphenom Oct 6 '10 at 2:08

If you're looking for a functional example, you could probably do (in Ruby)

``````def derivative_signs(list)
(0..list.length-2).map { |i| (list[i+1] - list[i]) <=> 0 }
## <=> is the "rocketship" operator which is basically: be -1 if number is negative
##                                                      be 0 if number is zero
##                                                      be 1 if number is positive
## Alternatively, one could use x / x.abs, with an exception if x == 0
end

def derivative(list)
(0..list.length-2).map { |i| list[i+1] - list[i] }
end
``````

Coming from calculus, minimums/maximums are when the first derivative changes signs. So one could look through `derivative_signs(arr)` and find all of the sign changes.

``````first_derivative_signs = derivative_signs(arr)
# => [1, 1, 1, 1, -1, -1, 1, 1, 1, -1, -1, -1, 1]
``````

Alternatively, you could also do

``````second_derivative = derivative(derivative_signs(arr))
``````

On the list you provided, you'll get:

``````[0, 0, 0, -2, 0, 2, 0, 0, -2, 0, 0, 2]
``````

It's clear to see that values with second derivative `-2` are maximums, and values with second derivative `2` are minimums. The index of the second derivative is the index of the original list + 1. So the `second_derivative[4]` that is a `-2` corresponds to `arr[5]` (7), which is a maximum.

Why do we do a "normal" derivative the second time, instead of a derivative_sign?

This is because when a value repeats twice in a row, you'll get unwanted behavior.

For example, consider

``````[1, 3, 6, 6, 7, 5, 4, 6, 9, 10, 8, 7, 5, 10]
# first_derivative_signs =>  [1, 1, 0, 1, -1, -1, 1, 1, 1, -1, -1, -1, 1]
# second_derivative_signs => [0, -1, 1, -1, 0, 1, 0, 0, -1, 0, 0, 1]
# second_derivative       => [0, -1, 1, -2, 0, 2, 0, 0, -2, 0, 0, 2]
``````

Note that `second_derivative_signs` throws us some "false" minimums/maximums, while `second_derivative`, when we check for only `-2` and `2`, is good.

-
I would use `Seq.pairwise` to get each number and its predecessor. Then you can calculate the difference between each number and its predecessor to get the difference between all values.
``````let diffs = Seq.pairwise arr |> Seq.map (-)