12

Given a list l1 = ['apple', 'pear', 'grapes, 'banana']

How can I remove all items after 'pear'

  • 1
    You could slice up to it - l1[:2]. – jonrsharpe Jan 27 '15 at 11:44
16

use list slice method

>>> l1 = ['apple', 'pear', 'grapes', 'banana']
>>> target_ibdex = l1.index('pear')
>>> target_ibdex
1
>>> l1[:target_ibdex+1]
['apple', 'pear']
>>> 

With exception handling when element is not present in the list.

>>> l1 = ['apple', 'pear', 'grapes', 'banana']
>>> target_element = "mango"
>>> try:
...     target_index = l1.index(target_element) + 1
... except ValueError, e:
...     target_index = None
... 
>>> l1[:target_index]
['apple', 'pear', 'grapes', 'banana']

when element present in the list

>>> l1 = ['apple', 'pear', 'grapes', 'banana']
>>> target_element = "pear"
>>> try:
...     target_index = l1.index(target_element) + 1
... except ValueError, e:
...     target_index = None
... 
>>> l1[:target_index]
['apple', 'pear']
  • You should check for the element being part of the list or try..catch ValueError – Hubert Grzeskowiak Jan 27 '15 at 11:52
  • @HubertGrzeskowiak yes, updated now. – Vivek Sable Jan 27 '15 at 11:56
  • Instead of target_index = len(l1) - you could just use target_index = None – Jon Clements Jan 27 '15 at 12:17
  • @JonClements : yes thank. None work.. – Vivek Sable Jan 27 '15 at 12:30
6

You can build a custom generator function which will work on any iterable, not just lists - although for your example, list.index, exception handling and slicing is fine...

def takewhile_including(iterable, value):
    for it in iterable:
        yield it
        if it == value:
            return

l1 = ['apple', 'pear', 'grapes', 'banana']
print('Until pear', list(takewhile_including(l1, 'pear')))
# Until pear ['apple', 'pear']
print('Until blah', list(takewhile_including(l1, 'blah')))
# Until blah ['apple', 'pear', 'grapes', 'banana']
5
l1 = ['apple', 'pear', 'grapes', 'banana']
if "pear" in l1:
    l2 = l1[:l1.index("pear")+1]
    print l2

Output:

['apple', 'pear']

2

Well, I was interested how fast each solution is. Here is the code and estimations:

setup = """
from itertools import takewhile, dropwhile

def dropwhile_v1(iterable, sentinel):
    return reversed(list(dropwhile(lambda x: x != sentinel, reversed(iterable))))

def dropwhile_v2(iterable, sentinel):
    return list(dropwhile(lambda x: x != sentinel, iterable[::-1]))[::-1]


def dropwhile_jon(iterable, sentinel):
    for item in iterable:
        yield item
        if item == sentinel:
            return

def dropwhile_vivek(iterable, sentinel):
    try:
        target_index = iterable.index(sentinel) + 1
    except ValueError:
        target_index = None

    return iterable[:target_index]

def dropwhile_autonomou(iterable, sentinel):
    if sentinel in iterable:
       slice = [fr for fr in iterable[:fruits.index(sentinel)+1]]
       return slice


from random import uniform
seq = [uniform(1,100) for _ in range(100)]

def test(callable):
    sentinel = uniform(1,100)
    callable(seq, sentinel)
"""

import timeit
for method in ['dropwhile_v1', 'dropwhile_v2', 'dropwhile_vivek', 'dropwhile_jon', 'dropwhile_autonomou']:
    print ('%s: %fs' % (method, timeit.timeit('test(%s)' % method, setup=setup, number=1000000)))

Output:

dropwhile_v1: 12.979626s
dropwhile_v2: 13.234087s
dropwhile_vivek: 3.883617s
dropwhile_jon: 0.622481s
dropwhile_autonomou: 2.100633s
  • 3
    To correctly test dropwhile_jon - you need to materialise to a list so you're comparing apples with apples - otherwise, the test is only initialising the generator function – Jon Clements Jan 27 '15 at 15:50
  • Also you have "fruits" in there where it should be "iterable" I think. – Hubert Grzeskowiak Jan 27 '15 at 15:58
  • 1
    Other than that you should test with the same sentinel for all methods, not with random ones. – Hubert Grzeskowiak Jan 27 '15 at 16:00
1

There is a dropwhile in itertools that you can use to filter the elements coming after your choice and then you can take minus both you will get what you want :

from itertools import dropwhile

dictionary = ['apple', 'pear', 'grapes', 'banana']
filtered = dropwhile(lambda t: 'pear' not in t, dictionary)
next(filtered)
print(list(set(dictionary)-set(list(filtered)))

It will o/p like :

['apple', 'pear']
0
l1 = ['apple', 'pear', 'grapes', 'banana']
l1 = [x for x in l1[0:l1.index(<target>)+1]]

Abstracting it out to a function, for modularity and re-use would be ideal.

>>> li
['apple', 'orange', 'pear', 'tomato']
>>> 
>>> def slice_and_dice(fruit, fruits):
...    
        if fruit in fruits:
...        slice = [fr for fr in l1[:fruits.index(fruit)+1]]
...        return slice
... 
>>> slice_and_dice('pear', li)
['apple', 'orange', 'pear']
  • 1
    Your [fr for fr in l1[:fruits.index(fruit)+1]] can be shorter written as l1[:fruits.index(fruit)+1]. The list comprehension here has no benefit. – Hubert Grzeskowiak Jan 27 '15 at 16:02
  • It might also be shorter if I included the condition within it, the benefit I have for list comprehensions is easier to read, not the same for everyone. – AutonomouSystem Jan 28 '15 at 10:29
  • how is unnecessary extra code easier to read? – Hubert Grzeskowiak Jan 29 '15 at 12:10
  • 1
    Ahh, cool, I see what you mean now. I misread what you meant before. Decided to re-write for fun using your advice fpaste.org/181051/14229894 – AutonomouSystem Feb 3 '15 at 18:47

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