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I have a list and need to find two lists in list a, keeping track of the maximum/minimum, respectively.

Is there a function in some package or numpy that doesn't require loop? I need to speed up my code as my dataset is huge. 

a=[4,2,6,5,2,6,9,7,10,1,2,1]
b=[];c=[];
for i in range(len(a)):
    if i==0:
        b.append(a[i])
    elif a[i]>b[-1]:
        b.append(a[i])
for i in range(len(a)):
   if i==0:
       c.append(a[i])
   elif a[i]<c[-1]:
       c.append(a[i])
#The output should be a list :
b=[4,6,9,10];c=[4,2,1]
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8
  • 1
    Didn't quite understand what the two lists are, please clarify. To find maximum in list you can use standard max() or numpy.max in numpy
    – Roim
    Jun 4, 2020 at 20:16
  • 1
    The title of your question doesn't match the output that you are looking for, which is a bit confusing.
    – mapf
    Jun 4, 2020 at 20:17
  • You can use max() and slicing to find the maximum of a portion of a list. i.e. max(a[:5]) will find the maximum of the first five elements of a.
    – John Gordon
    Jun 4, 2020 at 20:18
  • 1
    The expected output looks like a progressive collection of mins and maxes. For example, 4 is the largest value until you see 6, which is the largest until you see 9, etc.
    – chepner
    Jun 4, 2020 at 20:19
  • Are you looking for ascending (b) and descending (c) values inside the initial list (a)?
    – MisterMiyagi
    Jun 4, 2020 at 20:20

2 Answers 2

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3

Since you are saying you are dealing with a very large dataset, and want to avoid using loops, maybe this is a potential solution, which keeps the loops to a minimum:

def while_loop(a):
    b = [a[0]]
    c = [a[0]]
    a = np.array(a[1:])
    while a.size:
        if a[0] > b[-1]:
            b.append(a[0])
        elif a[0] < c[-1]:
            c.append(a[0])
        a = a[(a > b[-1]) | (a < c[-1])]

    return b, c

EDIT:

def for_loop(a):
    b = [a[0]]
    c = [a[0]]
    for x in a[1:]:
        if x > b[-1]:
            b.append(x)
        elif x < c[-1]:
            c.append(x)

    return b, c


print(
    timeit(lambda: while_loop(np.random.randint(0, 10000, 10000)), number=100000)
)  # 27.847886939000002
print(
    timeit(lambda: for_loop(np.random.randint(0, 10000, 10000)), number=100000)
)  # 112.90950811199998

Ok, so I just checked the timing against the regular for loop, and the while loop seems to be about 4-5x faster. No guarantee though, since this strongly seems to depend on the structure of your dataset (see comments).

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8
  • 1
    Upvoting, as I suspect this will be faster in most cases (i.e., when a is not something like [5,4,6,3,7,2,8,1], alternating between new mins and new maxes).
    – chepner
    Jun 4, 2020 at 20:42
  • Thank you @chepner and good point! I'm not very sure about the performance, since I don't really have a feel yet for how expensive certain operations are, it was just something that came to mind trying to eliminate as many loops as possible.
    – mapf
    Jun 4, 2020 at 20:47
  • Maybe somebody else can improve my approach.
    – mapf
    Jun 4, 2020 at 20:49
  • 1
    I doubt this is faster for very large inputs in general. This is O(n^2) whereas the single-scan for-loop is O(n). The while a.size: is O(n) and the nested a = a[(a > b[-1]) | (a < c[-1])] is also O(n) for a total O(n^2) . This approach should only have an advantage when each masking eliminates very many items, benefitting from the raw performance advantage of numpy arrays. Depending on the data, this might actually be a reasonable assumption, though.
    – MisterMiyagi
    Jun 4, 2020 at 20:53
  • 1
    Yes, for random numbers this should work fairly well. Consider that if you draw n numbers from the interval [0,n), there is a 50% chance the first number is larger than 50% of the following items. If the number of items is larger than the range of items, that will also be an advantage (e.g. if there are only the numbers 0 and 1 your algorithm takes two steps, no matter the size). As a hunch, your algorithm probably is O(a * n) where n is the size of the list and a is the size of the alphabet (range of values). Since the O(n) part is done by numpy, that part is extremely fast.
    – MisterMiyagi
    Jun 4, 2020 at 21:11
2

To start, you can simply initialize b and c with the first element of a. This simplifies the loop (of which you only need 1):

a = [...]
b = [a[0]]
c = [a[0]]
for x in a[1:]:
    if x > b[-1]:
        b.append(x)
    elif x < c[-1]:
        c.append(x)

Note that inside the loop, a value of x cannot be both larger than the current maximum and smaller than the current minimum, hence the elif rather than two separate if statements.

Another optimization would be two use additional variables to avoid indexing b and c repeatedly, as well as an explicit iterator to avoid making a shallow copy of a.

a = [...]
a_iter = iter(a)
curr_min = curr_max = next(a_iter)
b = [curr_max]
c = [curr_min]
for x in a_iter:
    if x > curr_max:
        b.append(x)
        curr_max = x
    elif x curr_min:
        c.append(x)
        curr_min = x
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