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Identify groups of continuous numbers in a list

I'd like to identify groups of continuous numbers in a list, so that:

myfunc([2, 3, 4, 5, 12, 13, 14, 15, 16, 17, 20])

Returns:

[(2,5), (12,17), 20]

And was wondering what the best way to do this was (particularly if there's something inbuilt in开发者_运维技巧to Python).

Edit: Note I originally forgot to mention that individual numbers should be returned as individual numbers, not ranges.


EDIT 2: To answer the OP new requirement

ranges = []
for key, group in groupby(enumerate(data), lambda (index, item): index - item):
    group = map(itemgetter(1), group)
    if len(group) > 1:
        ranges.append(xrange(group[0], group[-1]))
    else:
        ranges.append(group[0])

Output:

[xrange(2, 5), xrange(12, 17), 20]

You can replace xrange with range or any other custom class.


Python docs have a very neat recipe for this:

from operator import itemgetter
from itertools import groupby
data = [2, 3, 4, 5, 12, 13, 14, 15, 16, 17]
for k, g in groupby(enumerate(data), lambda (i,x):i-x):
    print(map(itemgetter(1), g))

Output:

[2, 3, 4, 5]
[12, 13, 14, 15, 16, 17]

If you want to get the exact same output, you can do this:

ranges = []
for k, g in groupby(enumerate(data), lambda (i,x):i-x):
    group = map(itemgetter(1), g)
    ranges.append((group[0], group[-1]))

output:

[(2, 5), (12, 17)]

EDIT: The example is already explained in the documentation but maybe I should explain it more:

The key to the solution is differencing with a range so that consecutive numbers all appear in same group.

If the data was: [2, 3, 4, 5, 12, 13, 14, 15, 16, 17] Then groupby(enumerate(data), lambda (i,x):i-x) is equivalent of the following:

groupby(
    [(0, 2), (1, 3), (2, 4), (3, 5), (4, 12),
    (5, 13), (6, 14), (7, 15), (8, 16), (9, 17)],
    lambda (i,x):i-x
)

The lambda function subtracts the element index from the element value. So when you apply the lambda on each item. You'll get the following keys for groupby:

[-2, -2, -2, -2, -8, -8, -8, -8, -8, -8]

groupby groups elements by equal key value, so the first 4 elements will be grouped together and so forth.

I hope this makes it more readable.

python 3 version may be helpful for beginners

import the libraries required first

from itertools import groupby
from operator import itemgetter

ranges =[]

for k,g in groupby(enumerate(data),lambda x:x[0]-x[1]):
    group = (map(itemgetter(1),g))
    group = list(map(int,group))
    ranges.append((group[0],group[-1]))


more_itertools.consecutive_groups was added in version 4.0.

Demo

import more_itertools as mit


iterable = [2, 3, 4, 5, 12, 13, 14, 15, 16, 17, 20]
[list(group) for group in mit.consecutive_groups(iterable)]
# [[2, 3, 4, 5], [12, 13, 14, 15, 16, 17], [20]]

Code

Applying this tool, we make a generator function that finds ranges of consecutive numbers.

def find_ranges(iterable):
    """Yield range of consecutive numbers."""
    for group in mit.consecutive_groups(iterable):
        group = list(group)
        if len(group) == 1:
            yield group[0]
        else:
            yield group[0], group[-1]


iterable = [2, 3, 4, 5, 12, 13, 14, 15, 16, 17, 20]
list(find_ranges(iterable))
# [(2, 5), (12, 17), 20]

The source implementation emulates a classic recipe (as demonstrated by @Nadia Alramli).

Note: more_itertools is a third-party package installable via pip install more_itertools.


The "naive" solution which I find somewhat readable atleast.

x = [2, 3, 4, 5, 12, 13, 14, 15, 16, 17, 22, 25, 26, 28, 51, 52, 57]

def group(L):
    first = last = L[0]
    for n in L[1:]:
        if n - 1 == last: # Part of the group, bump the end
            last = n
        else: # Not part of the group, yield current group and start a new
            yield first, last
            first = last = n
    yield first, last # Yield the last group


>>>print list(group(x))
[(2, 5), (12, 17), (22, 22), (25, 26), (28, 28), (51, 52), (57, 57)]


Assuming your list is sorted:

>>> from itertools import groupby
>>> def ranges(lst):
    pos = (j - i for i, j in enumerate(lst))
    t = 0
    for i, els in groupby(pos):
        l = len(list(els))
        el = lst[t]
        t += l
        yield range(el, el+l)


>>> lst = [2, 3, 4, 5, 12, 13, 14, 15, 16, 17]
>>> list(ranges(lst))
[range(2, 6), range(12, 18)]


Here it is something that should work, without any import needed:

def myfunc(lst):
    ret = []
    a = b = lst[0]                           # a and b are range's bounds

    for el in lst[1:]:
        if el == b+1: 
            b = el                           # range grows
        else:                                # range ended
            ret.append(a if a==b else (a,b)) # is a single or a range?
            a = b = el                       # let's start again with a single
    ret.append(a if a==b else (a,b))         # corner case for last single/range
    return ret


Please note that the code using groupby doesn't work as given in Python 3 so use this.

for k, g in groupby(enumerate(data), lambda x:x[0]-x[1]):
    group = list(map(itemgetter(1), g))
    ranges.append((group[0], group[-1]))


This doesn't use a standard function - it just iiterates over the input, but it should work:

def myfunc(l):
    r = []
    p = q = None
    for x in l + [-1]:
        if x - 1 == q:
            q += 1
        else:
            if p:
               if q > p:
                   r.append('%s-%s' % (p, q))
               else:
                   r.append(str(p))
            p = q = x
    return '(%s)' % ', '.join(r)

Note that it requires that the input contains only positive numbers in ascending order. You should validate the input, but this code is omitted for clarity.


import numpy as np

myarray = [2, 3, 4, 5, 12, 13, 14, 15, 16, 17, 20]
sequences = np.split(myarray, np.array(np.where(np.diff(myarray) > 1)[0]) + 1)
l = []
for s in sequences:
    if len(s) > 1:
        l.append((np.min(s), np.max(s)))
    else:
        l.append(s[0])
print(l)

Output:

[(2, 5), (12, 17), 20]


I think this way is simpler than any of the answers I've seen here (Edit: fixed based on comment from Pleastry):

data = [2, 3, 4, 5, 12, 13, 14, 15, 16, 17, 20]

starts = [x for x in data if x-1 not in data and x+1 in data]
ends = [x for x in data if x-1 in data and x+1 not in data and x not in starts]
singles = [x for x in data if x-1 not in data and x+1 not in data]
list(zip(starts, ends)) + singles

Output:

[(2, 5), (12, 17), 20]

Edited:

As @dawg notes, this is O(n**2). One option to improve performance would be to convert the original list to a set (and also the starts list to a set) i.e.

data = [2, 3, 4, 5, 12, 13, 14, 15, 16, 17, 20]
data_as_set = set(data)

starts = [x for x in data_as_set if x-1 not in data_as_set and x+1 in data_as_set]
startset = set(starts)
ends = [x for x in data_as_set if x-1 in data_as_set and x+1 not in data_as_set and x not in startset]
singles = [x for x in data_as_set if x-1 not in data_as_set and x+1 not in data_as_set]

print(list(zip(starts, ends)) + singles) 


Using groupby and count from itertools gives us a short solution. The idea is that, in an increasing sequence, the difference between the index and the value will remain the same.

In order to keep track of the index, we can use an itertools.count, which makes the code cleaner as using enumerate:

from itertools import groupby, count

def intervals(data):
    out = []
    counter = count()

    for key, group in groupby(data, key = lambda x: x-next(counter)):
        block = list(group)
        out.append([block[0], block[-1]])
    return out

Some sample output:

print(intervals([0, 1, 3, 4, 6]))
# [[0, 1], [3, 4], [6, 6]]

print(intervals([2, 3, 4, 5]))
# [[2, 5]]


This is my method in which I tried to prioritize readability. Note that it returns a tuple of the same values if there is only one value in a group. That can be fixed easily in the second snippet I'll post.

def group(values):
    """return the first and last value of each continuous set in a list of sorted values"""

    values = sorted(values)
    first = last = values[0]

    for index in values[1:]:
        if index - last > 1:  # triggered if in a new group
            yield first, last

            first = index  # update first only if in a new group

        last = index  # update last on every iteration

    yield first, last  # this is needed to yield the last set of numbers

Here is the result of a test:

values = [0, 5, 6, 7, 12, 13, 21, 22, 23, 24, 25, 26, 30, 44, 45, 50]
result = list(group(values))
print(result)

result = [(0, 0), (5, 7), (12, 13), (21, 26), (30, 30), (44, 45), (50, 50)]

If you want to return only a single value in the case of a single value in a group, just add a conditional check to the yields:

def group(values):
    """return the first and last value of each continuous set in a list of sorted values"""

    values = sorted(values)

    first = last = values[0]

    for index in values[1:]:
        if index - last > 1:  # triggered if in a new group
            if first == last:
                yield first

            else:
                yield first, last

            first = index  # update first only if in a new group

        last = index  # update last on every iteration

    if first == last:
        yield first

    else:
        yield first, last

result = [0, (5, 7), (12, 13), (21, 26), 30, (44, 45), 50]


Here's the answer I came up with. I'm writing the code for other people to understand, so I'm fairly verbose with variable names and comments.

First a quick helper function:

def getpreviousitem(mylist,myitem):
    '''Given a list and an item, return previous item in list'''
    for position, item in enumerate(mylist):
        if item == myitem:
            # First item has no previous item
            if position == 0:
                return None
            # Return previous item    
            return mylist[position-1] 

And then the actual code:

def getranges(cpulist):
    '''Given a sorted list of numbers, return a list of ranges'''
    rangelist = []
    inrange = False
    for item in cpulist:
        previousitem = getpreviousitem(cpulist,item)
        if previousitem == item - 1:
            # We're in a range
            if inrange == True:
                # It's an existing range - change the end to the current item
                newrange[1] = item
            else:    
                # We've found a new range.
                newrange = [item-1,item]
            # Update to show we are now in a range    
            inrange = True    
        else:   
            # We were in a range but now it just ended
            if inrange == True:
                # Save the old range
                rangelist.append(newrange)
            # Update to show we're no longer in a range    
            inrange = False 
    # Add the final range found to our list
    if inrange == True:
        rangelist.append(newrange)
    return rangelist

Example run:

getranges([2, 3, 4, 5, 12, 13, 14, 15, 16, 17])

returns:

[[2, 5], [12, 17]]


Using numpy + comprehension lists:
With numpy diff function, consequent input vector entries that their difference is not equal to one can be identified. The start and end of the input vector need to be considered.

import numpy as np
data = np.array([2, 3, 4, 5, 12, 13, 14, 15, 16, 17, 20])

d = [i for i, df in enumerate(np.diff(data)) if df!= 1] 
d = np.hstack([-1, d, len(data)-1])  # add first and last elements 
d = np.vstack([d[:-1]+1, d[1:]]).T

print(data[d])

Output:

 [[ 2  5]   
  [12 17]   
  [20 20]]

Note: The request that individual numbers should be treated differently, (returned as individual, not ranges) was omitted. This can be reached by further post-processing the results. Usually this will make things more complex without gaining any benefit.


One-liner in Python 2.7 if interested:

x = [2, 3, 6, 7, 8, 14, 15, 19, 20, 21]

d = iter(x[:1] + sum(([i1, i2] for i1, i2 in zip(x, x[1:] + x[:1]) if i2 != i1+1), []))

print zip(d, d)

>>> [(2, 3), (6, 8), (14, 15), (19, 21)]


A short solution that works without additional imports. It accepts any iterable, sorts unsorted inputs, and removes duplicate items:

def ranges(nums):
    nums = sorted(set(nums))
    gaps = [[s, e] for s, e in zip(nums, nums[1:]) if s+1 < e]
    edges = iter(nums[:1] + sum(gaps, []) + nums[-1:])
    return list(zip(edges, edges))

Example:

>>> ranges([2, 3, 4, 7, 8, 9, 15])
[(2, 4), (7, 9), (15, 15)]

>>> ranges([-1, 0, 1, 2, 3, 12, 13, 15, 100])
[(-1, 3), (12, 13), (15, 15), (100, 100)]

>>> ranges(range(100))
[(0, 99)]

>>> ranges([0])
[(0, 0)]

>>> ranges([])
[]

This is the same as @dansalmo's solution which I found amazing, albeit a bit hard to read and apply (as it's not given as a function).

Note that it could easily be modified to spit out "traditional" open ranges [start, end), by e.g. altering the return statement:

    return [(s, e+1) for s, e in zip(edges, edges)]

I copied this answer over from another question that was marked as a duplicate of this one with the intention to make it easier findable (after I just now searched again for this topic, finding only the question here at first and not being satisfied with the answers given).


The versions by Mark Byers, Andrea Ambu, SilentGhost, Nadia Alramli, and truppo are simple and fast. The 'truppo' version encouraged me to write a version that retains the same nimble behavior while handling step sizes other than 1 (and lists as singletons elements that don't extend more than 1 step with a given step size). It is given here.

>>> list(ranges([1,2,3,4,3,2,1,3,5,7,11,1,2,3]))
[(1, 4, 1), (3, 1, -1), (3, 7, 2), 11, (1, 3, 1)]


Not the best approach , but here is my 2 cents

def getConsecutiveValues2(arr): 
    x = ""
    final = []
    end = 0
    start = 0
    for i in range(1,len(arr)) :
        if arr[i] - arr[i-1] == 1 :
            end = i
        else :
            print(start,end)
            final.append(arr[start:end+1])
            start = i
        if i == len(arr) - 1 :
            final.append(arr[start:end+1])
    return final

x = [1,2,3,5,6,8,9,10,11,12]
print(getConsecutiveValues2(x))

>> [[1, 2, 3], [5, 6], [8, 9, 10, 11]]


This implementation works for regular or irregular steps

I needed to achieve the same thing but with the slight difference where steps can be irregular. this is my implementation

def ranges(l):
    if not len(l):
        return range(0,0)
    elif len(l)==1:
        return range(l[0],l[0]+1)
    # get steps
    sl    = sorted(l)
    steps = [i-j for i,j in zip(sl[1:],sl[:-1])]
    # get unique steps indexes range
    groups = [[0,0,steps[0]],]
    for i,s in enumerate(steps):
        if s==groups[-1][-1]:
            groups[-1][1] = i+1
        else:
            groups.append( [i+1,i+1,s] )
            g2 = groups[-2]
            if g2[0]==g2[1]:
                if sl[i+1]-sl[i]==s:
                    _=groups.pop(-2)
                    groups[-1][0] = i
    # create list of ranges 
    return [range(sl[i],sl[j]+s,s) if s!=0 else [sl[i]]*(j+1-i) for i,j,s in groups]

Here's an example

from timeit import timeit

# for regular ranges
l = list(range(1000000))
ranges(l)
>>> [range(0, 1000000)]
l = list(range(10)) + list(range(20,25)) + [1,2,3]
ranges(l)
>>> [range(0, 2), range(1, 3), range(2, 4), range(3, 10), range(20, 25)]
sorted(l);[list(i) for i in ranges(l)]
>>> [0, 1, 1, 2, 2, 3, 3, 4, 5, 6, 7, 8, 9, 20, 21, 22, 23, 24]
>>> [[0, 1], [1, 2], [2, 3], [3, 4, 5, 6, 7, 8, 9], [20, 21, 22, 23, 24]]

# for irregular steps list
l = [1, 3, 5, 7, 10, 11, 12, 100, 200, 300, 400, 60, 99, 4000,4001]
ranges(l)
>>> [range(1, 9, 2), range(10, 13), range(60, 138, 39), range(100, 500, 100), range(4000, 4002)]

## Speed test
timeit("ranges(l)","from __main__ import ranges,l", number=1000)/1000
>>> 9.303160999934334e-06


Yet another solution if you expect your input to be a set:

def group_years(years):
  consecutive_years = []
  for year in years:
    close = {y for y in years if abs(y - year) == 1}
    for group in consecutive_years:
      if len(close.intersection(group)):
        group |= close
        break
    else:
      consecutive_years.append({year, *close})
  
  return consecutive_years

Example:

group_years({2016, 2017, 2019, 2020, 2022})
Out[54]: [{2016, 2017}, {2019, 2020}, {2022}]
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