Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Implement an algorithm to merge an arbitrary number of sorted lists into one sorted list. The aim is to create the smallest working programme, in whatever language you like.

For example:

input:  ((1, 4, 7), (2, 5, 8), (3, 6, 9))
output: (1, 2, 3, 4, 5, 6, 7, 8, 9)

input:  ((1, 10), (), (2, 5, 6, 7))
output: (1, 2, 5, 6, 7, 10)

Note: solutions which concatenate the input lists then use a language-provided sort function are not in-keeping with the spirit of golf, and will not be accepted:

sorted(sum(lists,[])) # cheating: out of bounds!

Apart from anything else, your algorithm should be (but doesn't have to be) a lot faster!

Clearly state the language, any foibles and the character count. Only include meaningful characters in the count, but feel free to add whitespace to the code for artistic / readability purposes.

To keep things tidy, suggest improvement in comments or by editing answers where appropriate, rather than creating a new answer for each "revision".

EDIT: if I was submitting this question again, I would expand on the "no language provided sort" rule to be "don't concatenate all the lists then sort the result". Existing entries which do concatenate-then-sort are actually very interesting and compact, so I won't retro-actively introduce a rule they break, but feel free to work to the more restrictive spec in new submissions.

Inspired by http://stackoverflow.com/questions/464342/combining-two-sorted-lists-in-python

share|improve this question
wouldn't the fastest implementation in any given language be more interesting? –  Christoph Jan 21 '09 at 13:20
I would certainly not use the terseness of a solution as any quality-criteria of any code though. Good use of standard libraries, tested, good memory and time performance, those are quality factors, not the number of characters in the code. Example: while (*t++ = *s++); –  Lasse V. Karlsen Jan 21 '09 at 13:28
This is code-golf, people. Not a nicest-code-competition. –  JesperE Jan 21 '09 at 15:20
I'd like to see a version in pure Python that could be faster than L = sum(lists,[]); L.sort() –  J.F. Sebastian Jan 21 '09 at 20:05
This is a bad codegolf because of the "you cannot use language's sort" statement. –  LiraNuna Feb 22 '10 at 0:53

26 Answers 26

up vote 8 down vote accepted

Common Lisp already has a merge function for general sequences in the language standard, but it only works on two sequences. For multiple lists of numbers sorted ascendingly, it can be used in the following function (97 essential characters).

(defun m (&rest s)
  (if (not (cdr s))
      (car s)
      (apply #'m
             (cons (merge 'list (car s) (cadr s) #'<)
                   (cddr s))))) 

edit: Revisiting after some time: this can be done in one line:

(defun multi-merge (&rest lists)
  (reduce (lambda (a b) (merge 'list a b #'<)) lists))

This has 79 essential characters with meaningful names, reducing those to a single letter, it comes out at 61:

(defun m(&rest l)(reduce(lambda(a b)(merge 'list a b #'<))l))
share|improve this answer

OCaml in 42 characters:

let f=List.fold_left(List.merge compare)[]

I think I should get extra credit for 42 exactly?

share|improve this answer
+1 for hitting 42 ;) –  knittl Apr 26 '10 at 10:29

Ruby: 100 characters (1 significant whitespace, 4 significant newlines)

def m(i)

Human version:

def sorted_join(numbers)

  numbers.each do |sub_numbers|
    sub_numbers.each do |number|
      bigger_than_me = sorted_numbers.select { |i| i > number }
      if bigger_than_me.last
        pos = sorted_numbers.index(bigger_than_me.last) + 1
        pos = 0

      sorted_numbers.insert(pos, number)


This can all just be replaced by numbers.flatten.sort


 a = [[1, 4, 7], [2, 4, 8], [3, 6, 9]]
 n = 50000
 Benchmark.bm do |b|
   b.report { n.times { m(a) } }
   b.report { n.times { a.flatten.sort } }


      user     system      total        real
 2.940000   0.380000   3.320000 (  7.573263)
 0.380000   0.000000   0.380000 (  0.892291)

So my algorithm performs horribly, yey!

share|improve this answer
Hate to rain on your parade but there is something fishy going on: m([[2,3,6],[4,7,9],[1,5]]) => [2, 3, 4, 6, 7, 9, 1, 5] –  Jonas Elfström Jan 21 '09 at 20:39
Found the problem, updating... –  Samuel Jan 21 '09 at 21:48
+1 for the thorough work :-) –  David Hanak Jan 22 '09 at 9:24
When I put e.g. m([[1,4,7],[2,4,8],[3,6,9]]) into this I get: => [1, 2, 4, 3, 4, 6, 7, 8, 9]. Or is that just me? –  thesunneversets Sep 21 '10 at 22:14


Python - 74 chars (counting whitespace and newlines)

def m(i):
 while x:n=min(x);y+=[n];x.remove(n)
 return y

i is input as list of lists


>>> m([[1,5],[6,3]])
[1, 3, 5, 6]
share|improve this answer
That's pretty much doing the combine and sort - you've just implemented the sort yourself. –  Douglas Leeder Jan 21 '09 at 13:06
...and inefficiently as well ;) –  Christoph Jan 21 '09 at 13:27
@Christoph: Yeah; spirit of Code Golf. :) –  Deestan Jan 21 '09 at 13:57
@Douglas: Yeah, I know. My original submission is the one now given as "cheating!" in the question. –  Deestan Jan 21 '09 at 14:00
Not only are you sorting, you're using selection sort, which has best-case O(N^2) behavior. –  Adam Rosenfield Jan 21 '09 at 22:24

Python: 113 characters

def m(c,l):
        c += [l[min((m[0], i) for i,m in enumerate(l) if m)[1]].pop(0)]
        return m(c,l)
        return c

# called as:
>>> m([], [[1,4], [2,6], [3,5]])
[1, 2, 3, 4, 5, 6]

EDIT: seeing as talk of performance has come up in a few places, I'll mention that I think this is pretty efficient implementation, especially as the lists grow. I ran three algorithms on 10 lists of sorted random numbers:

  • my solution (Merge)
  • sorted(sum(lists, [])) (Built-in)
  • Deestan's solution which sorted in a different way (Re-implement)

List merge performance


The figure's labels:

  • merge_26 -- heapq.merge() from Python 2.6 stdlib
  • merge_alabaster -- the above code (labeled Merge on the above figure)
  • sort_builtin -- L = sum(lists,[]); L.sort()
  • Deestan's solution is O(N**2) so it is excluded from the comparison (all other solutions are O(N) (for the input provided))

Input data are [f(N) for _ in range(10)], where f() is:

max_ = 2**31-1
def f(N):
    L = random.sample(xrange(max_), n)
    return L
f.__name__ = "sorted_random_%d" % max_

Performance data Nmax=2**16 NOTE: merge_alabaster() doesn't work for N > 100 due to RuntimeError: "maximum recursion depth exceeded".

To get Python scripts that generated this figure, type:

$ git clone git://gist.github.com/51074.git

Conclusion: For reasonably large lists the built-in sort shows near linear behaviour and it is the fastest.

share|improve this answer
Test you function for [[1]*10 for _ in range(100)] input (expected output [1]*1000). I've tested L = sum(lists, []); L.sort(); it is faster than version based on heapq.merge() (Python 2.6) for the inputs I've tried ` –  J.F. Sebastian Jan 22 '09 at 22:55
len(m([], [[1]*10 for _ in range(100)])) must be 1000, but it returns 994. –  J.F. Sebastian Jan 23 '09 at 0:25
Oh cool, that's an interesting bug! In golfifying my solution, I used the except: which masks the "RuntimeError: maximum recursion depth exceeded in cmp" you get when l is very long. The "never use a bare except" rule wins again. –  James Brady Jan 23 '09 at 11:29
I've added updated performance graph. And a link to source code if someone'd like to reproduce it. –  J.F. Sebastian Jan 23 '09 at 17:07

Haskell: 127 characters (without indentation and newlines)

m l|all null l=[]
   (_,min)=minimum$zip(map head n)[0..]
   (a,((x:xs):b))=splitAt min n

It basically generalizes the merging of two lists.

share|improve this answer

I'll just leave this here...

Language: C, Char count: 265

L[99][99];N;n[99];m[99];i;I;b=0;main(char t){while(scanf("%d%c",L[i]+I,&t)+1){++
I;if(t==10){n[i++]=I;I=0;}}if(I)n[i++] = I;N=i;while(b+1){b=-1;for(i=0;i<N;++i){
I=m[i];if(I-n[i])if(b<0||L[i][I]<L[b][m[b]])b=i;}if(b<0)break;printf("%d ",L[b][

Takes input like such:

1 4 7
2 5 8
3 6 9
share|improve this answer
Wow. Works for me GCC 4.0.1 on a Mac. –  James Brady Jan 21 '09 at 23:06

Though I have not had the patience to try this, a colleague of mine showed me a way that it may be possible to do this using 0 character key - Whie Space

share|improve this answer

(all other solutions are O(N) (for the input provided))

If we let N be the number of elements in the output and k the number of input lists, then you can't do faster than O(N log k) -- suppose that each list was only a single element, and you'd have faster-than-O(N log N) comparison-based sorting.

Those I've looked at look more like they're O(N*k).

You can fairly easily get down to O(N log k) time: just put the lists in a heap. This is one of the ways to do I/O-efficient sorting (you can generalize quicksort and heaps/heapsort as well).

[no code, just commentary]

share|improve this answer

F#: 116 chars:

let p l=
    let f a b=List.filter(a b) in
    let rec s=function[]->[]|x::y->s(f(>)x y)@[x]@s(f(<=)x y) in
    [for a in l->>a]|>s

Note: this code causes F# to throw a lot of warnings, but it works :)

Here's the annotated version with whitespace and meaningful identifiers (note: the code above doesn't use #light syntax, the code below does):

let golf l=
    // filters my list with a specified filter operator
    // uses built-in F# function
    // ('a -> 'b -> bool) -> 'a -> ('b list -> 'b list)
    let filter a b = List.filter(a b)

    // quicksort algorithm
    // ('a list -> 'a list)
    let rec qsort =function
        | []->[]
        | x :: y -> qsort ( filter (>) x y) @ [x] @ qsort ( filter (<=) x y)

    // flattens list
    [for a in l ->> a ] |> qsort
share|improve this answer
I'll post this as a comment rather than a submission, but the absolute shortest version of this code is "let m l=sort(reduce(@)l)", 24 chars, assuming you've opened the Seq module. –  Juliet Jan 21 '09 at 14:40
@Princess, isn't that violating the "no sort built-in" rule? –  James Brady Jan 21 '09 at 15:39
@Alabaster: I've rolled my own sort without relying on F#'s built-in sort –  Juliet Jan 27 '09 at 0:55


static void f(params int[][] b)
    var l = new List<int>();
    foreach(var a in b)l.AddRange(a);
static void Main()
    f(new int[] { 1, 4, 7 },
      new int[] { 2, 5, 8 },
      new int[] { 3, 6, 9 });
share|improve this answer


function merge(a) {
    var r=[], p;
    while(a.length>0) {
        for (var i=0,j=0; i<a.length && p!=a[j][0]; i++)
            if (a[i][0]<a[j][0])
                j = i;

        r.push(p = a[j].shift());

        if (!a[j].length)
            a.splice(j, 1);
    return r;


var arr = [[1, 4, 7], [2, 5, 8], [3, 6, 9]]​;
share|improve this answer

VB is usually not the language of choice for code golf, but here goes anyway.

The setup -

        Dim m1 As List(Of Integer) = New List(Of Integer)
        Dim m2 As List(Of Integer) = New List(Of Integer)
        Dim m3 As List(Of Integer) = New List(Of Integer)
        Dim m4 As List(Of Integer) = New List(Of Integer)




        Dim m5 As List(Of List(Of Integer)) = New List(Of List(Of Integer))

An attempt in VB.NET (without sort)

        While m5.Count > 0
            Dim idx As Integer = 0
            Dim min As Integer = Integer.MaxValue
            For k As Integer = 0 To m5.Count - 1
                If m5(k)(0) < min Then min = m5(k)(0) : idx = k
            m4.Add(min) : m5(idx).RemoveAt(0)
            If m5(idx).Count = 0 Then m5.RemoveAt(idx)
        End While

Another VB.NET attempt (with an allowed sort)

    Private Function Comp(ByVal l1 As List(Of Integer), ByVal l2 As List(Of Integer)) As Integer
        Return l1(0).CompareTo(l2(0))
    End Function
    While m5.Count > 0
        m5.Sort(AddressOf Comp)
        m4.Add(m5(0)(0)) : m5(0).RemoveAt(0)
        If m5(0).Count = 0 Then m5.RemoveAt(0)
    End While

The entire program -

        Dim rand As New Random
        Dim m1 As List(Of Integer) = New List(Of Integer)
        Dim m2 As List(Of Integer) = New List(Of Integer)
        Dim m3 As List(Of Integer) = New List(Of Integer)
        Dim m4 As List(Of Integer) = New List(Of Integer)
        Dim m5 As List(Of List(Of Integer)) = New List(Of List(Of Integer))

        For Each d As List(Of Integer) In m5
            For i As Integer = 0 To 100000

        Dim sw As New Stopwatch
        While m5.Count > 0
            Dim idx As Integer = 0
            Dim min As Integer = Integer.MaxValue
            For k As Integer = 0 To m5.Count - 1
                If m5(k)(0) < min Then min = m5(k)(0) : idx = k
            m4.Add(min) : m5(idx).RemoveAt(0)
            If m5(idx).Count = 0 Then m5.RemoveAt(idx)
        End While

        'Dim sw As New Stopwatch
        'While m5.Count > 0
        '    m5.Sort(AddressOf Comp)
        '    m4.Add(m5(0)(0)) : m5(0).RemoveAt(0)
        '    If m5(0).Count = 0 Then m5.RemoveAt(0)
        'End While

share|improve this answer
Interesting that your "sort" verion is slower than the your first one. –  user51886 Jan 24 '09 at 22:50
Just a note this uses .NET 2.0. –  user50612 Jan 27 '09 at 14:07


41 significant chars, 3 significant whitespace chars in the body of the merge method.

arrs is an array of arrays

  def merge_sort(arrs)
    o = Array.new
    arrs.each do |a|
      o = o | a

To test in irb:

  arrs = [ [ 90, 4, -2 ], [ 5, 6, -100 ], [ 5, 7, 2 ] ]

Returns: [-100, -2, 2, 4, 5, 6, 7, 90]

Edit: Used the language provided merge/sort because it is likely backed by C code and meets the 'faster' requirement. I'll think about the solution without later (it's the weekend here and I am on holiday).

share|improve this answer
Same interface, 27 chars: def m *l;l.flatten.sort;end –  AShelly Jan 31 '09 at 1:01

F#, 32 chars

let f x=List.sort(List.concat x)

And without using a built in function for the concat (57 chars):

let f x=List.sort(Seq.toList(seq{for l in x do yield!l}))
share|improve this answer

I don't think you can get much better than @Sykora's response, here, for Python.

Changed to handle your inputs:

import heapq
def m(i): 
    return list(heapq.merge(*i))

print m(((1, 4, 7), (2, 5, 8), (3, 6, 9)))

For the actual function, 59 characters, or the 52 in reduced version:

import heapq
def m(i): return list(heapq.merge(*i))

This also has the benefit of using a tested and true implementation built into Python

Edit: Removed the semi-colons (thanks @Douglas).

share|improve this answer
And you don't need the semi-colons... –  Douglas Leeder Jan 21 '09 at 13:37
Heh, of course, I'm just in the habit of adding them. Good catch. –  Lasse V. Karlsen Jan 21 '09 at 13:41
Surely this is equivalent to using a built-in sort function. –  Paul Johnson Jan 21 '09 at 19:17
It doesn't use a sort. It relies on the inputs being sorted. It uses a heap though. –  recursive Jan 21 '09 at 20:08
I really don't care if people vote this down. "Code Golf" is a "Do something within these specific boundaries" kinda problem, and the problem was stated as "do not use a sort". If you want to invent new rules, fine by me. It's pure academic either way as nobody would use these self-built "ways". –  Lasse V. Karlsen Jan 24 '09 at 22:58

Perl: 22 characters, including two significant whitespace characters.

sub a{sort map{@$_}@_}

Only builtins here. See? ;)

Call like so:

my @sorted = a([1, 2, 3], [5, 6, 89], [13, -1, 3]);
print "@sorted" # prints -1, 1, 1, 2, 3, 3, 5, 6, 89

Honestly, denying language features (note: not libraries...) seems kind-of counter the point. Shortest code to implement in a language should include buildins/language features. Of course, if you import a module, you should count that code against your solution.

Edit: removed unnecessary {}'s around the $_.

share|improve this answer
For the record, the question was posed as such to try and limit people to 1-pass merge sorts, or other novel sort techniques suitable for this special case of input data. –  James Brady Jan 28 '09 at 22:13

Even though it might break the rules. Here's a nice and short c++ entry:

13 Characters

l1.merge(l2); // Removes the elements from the argument list, inserts 
              // them into the target list, and orders the new, combined 
              // set of elements in ascending order or in some other 
              // specified order.
share|improve this answer

GNU system scripting (I guess that's cheating, but it is nice to know too).

sort -m file1 file2 file3 ...
share|improve this answer

BASH in about 250 essential chars

BASH is not really good at list manipulation, anyway this is does the job.

# This merges two lists together
    [[ -z $1 ]] && echo $2 && return; 
    [[ -z $2 ]] && echo $1 && return; 
    A=($1); B=($2); 
    if (( ${A[0]} > ${B[0]} ));then 
        echo -n ${B[0]}\ ;
        unset B[0];
        echo -n ${A[0]}\ ;
        unset A[0];
    m "${A[*]}" "${B[*]}";
# This merges multiple lists
    for x in $@; do
        A=`m "$A" "$x"`
    echo $A

$ M '1 4 7' '2 5 8' '3 6 9'
1 2 3 4 5 6 7 8 9
share|improve this answer

VB.NET (2008) 185 chars

Accepts List(Of List(Of Byte))

Function s(i)

    s=New List(Of Byte)

    Dim m,c
    Dim N=Nothing

        For Each l In i:
            If l.Count AndAlso(l(0)<m Or m=N)Then m=l(0):c=l


        If m<>N Then s.Add(m):c.Remove(m)       

    Loop Until m=N

End Function
share|improve this answer

Python, 107 chars:

def f(l):  
 for t in l:  
  for i in t: n+=[t]  
 while n: s.+=[min(n)]; n.remove(min(n))  
 return s  
share|improve this answer

Haskell like (158, but more than 24 spaces could be removed.):

mm = foldl1 m where
  m [] b = b
  m a [] = a
  m (a:as) (b:bs)
   | a <= b = a : m as (b:bs)
   | true   = b : m (a:as) bs
share|improve this answer


The setup:

Sub Main()
    f(New Int32() {1, 4, 7}, _
      New Int32() {2, 5, 8}, _
      New Int32() {3, 6, 9})
End Sub

The output:

Sub f(ByVal ParamArray b As Int32()())
    Dim l = New List(Of Int32)
    For Each a In b
    For Each a In l.OrderBy(Function(i) i)
End Sub
share|improve this answer
An interesting attempt. However, the rules state that concatenating and sorting aren't allowed. –  user50612 Jan 27 '09 at 14:06
Adding ranges to a list is effective concatenation. –  user50612 Jan 27 '09 at 14:07

Python, 181 chars

from heapq import *
def m(l):
 for x in l:
  if x:
   heappush(h, (x[0], x[1:]))
 while h:
  if f:
   heappush(h, (f.pop(0),f))
 return r

This runs in O(NlgM) time, where N is the total number of items and M is the number of lists.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.