Say, I have a list of tuples like so

tupleSet=[(0, 2), (3, 4), (5, 7)]

I want to get another list of tuples satisfying the condition where the second element of the tuple is an even number.

>>> [(0, 2), (3, 4)]

I am wondering if this can be done using the itemgetter in the filter function.

I know a lambda can be used

list(filter(lambda x: not x[1]%2,tupleSet))

I want an equivalent code (one-liner) using the operator.itemgetter, if at all it is possible.

I tried using


but I get this

TypeError: unsupported operand type(s) for %: 'operator.itemgetter' and 'int'

Required Output :

[(0, 2), (3, 4)]

using the itemgetter function

  • You missed to pass your variable to itemgetter. Try list(filter(operator.itemgetter(1)(tupleSet)%2==0,tupleSet)) – Sparky05 Apr 25 at 15:53
  • 1
    if this is getting downvoted can you at least explain why ?? its not like I am asking for something I never tired – TheNamesAlc Apr 25 at 15:54
  • it still gives me an error but a different one ``` TypeError: unsupported operand type(s) for %: 'tuple' and 'int' ``` exactly did what you commented on here minus the variable names – TheNamesAlc Apr 25 at 15:56
  • I read here that passing a itemgettter as a key in a sort function is faster than passing in lambdas, so I was wondering if that was the case here, idk why people downvote when I ask something out of curiosity, its not like I am asking for the complete answer. – TheNamesAlc Apr 25 at 16:00

Yes, you can use itemgetter(), but not without using a lambda (or the def functionname(): ... statement syntax to define a callable, or other compositions of objects).

The first argument to filter() must be a callable object. While operator.itemgetter(1), on its own, is such an object and can be used in filter(), the expression operator.itemgetter(1)%2==0 doesn't work because you can't just use the % operator on itemgetter() objects and so raises a TypeError. Even if it didn't do that, you'd be passing the outcome of the operator.itemgetter(1)%2==0 expression to filter(), so it'd be called once, before filter() runs, and that's not what you want either.

The lambda you passed in, lambda x: not x[1]%2, is also a callable object, namely a function. It works because the lambda <args>: <expression> syntax doesn't immediately call the <expression> part, but instead returns a function object, so a callable object. The expression contained in the function (not x[1]%2), is executed only when the function is called (so, by filter() for each element).

A different way of spelling the same thing would use a def statement to create a named function first:

def second_element_is_even(tup):
    return not tup[1] % 2

list(filter(second_element_is_even, tupleSet))

That's exactly the same thing as the version with lambda, except now the function object is available under the name second_element_is_even too.

If you must use an itemgetter() object, then you would have to write a different callable that then called for each filtered item, and uses the itemgetter() object as a tool to produce the desired filtering decision. Like a lambda:

get_second = operator.itemgetter(1)
list(filter(lambda x: not get_second(x) % 2, tupleSet))

That's not very useful, as x[1] is really a lot more readable.

However, if you ever needed for the specific element to be variable (sometimes it has to be the first, sometimes the second element of the tuple, sometimes it should be the sum), then an itemgetter object could be used to codify this. You can produce a element is even function that accepts a key to figure out what it should test:

def even_tester(key=None):
    if key is None:
        # identity function, test the value directly
        key = lambda v: v
    def is_even(value):
        return not key(value) % 2
    return is_even

# test if the second element is even
list(filter(even_tester(operator.itemgetter(1)), tupleSet))

# test if the first element is even
list(filter(even_tester(operator.itemgetter(1)), tupleSet))

# test if the sum of the elements is even
list(filter(even_tester(sum), tupleSet))

even_tester() here works a lot like itemgetter(): calling it gives you a new object that itself can be called too. What it does when called is determined by the argument you pass to even_tester().

  • Makes perfect sense, so in simple words, the object must get called every time and I need something that is callable on every "iteration" of the filter function, got it. Thank You!! – TheNamesAlc Apr 25 at 16:05

Disclaimer: this answer only serves as a curiosity; the correct method is still to use lambdas.

For this particular case there is a rather convoluted way to avoid lambdas:

# imports
import operator as op, itertools as it
  1. Fetch the second element from each tuple and zip them with 2:

    >>> a = zip(map(op.itemgetter(1), tupleSet), it.repeat(2, len(tupleSet)))
    >>> list(a)
    [(2, 2), (4, 2), (7, 2)]
  2. Using itertools.starmap, call operator.mod with each of these tuples as arguments:

    >>> b = it.starmap(op.mod, a)
    >>> list(b)
    [0, 0, 1]
  3. Check for even numbers in a similar way:

    >>> c = it.starmap(op.eq, zip(b, it.repeat(0, len(tupleSet))))
    >>> list(c)
    [True, True, False]
  4. zip with the original array, filter by these boolean flags, and extract the desired results with itemgetter:

    >>> d = map(op.itemgetter(1), filter(op.itemgetter(0), zip(c, tupleSet)))
    >>> list(d)
    [(0, 2), (3, 4)]

Combining these parts creates a horrible mess:

list(map(op.itemgetter(1), filter(op.itemgetter(0), zip(it.starmap(op.eq, zip(it.starmap(op.mod, zip(map(op.itemgetter(1), tupleSet), it.repeat(2, len(tupleSet)))), it.repeat(0, len(tupleSet)))), tupleSet))))

Although the above stays true to the original intent, it is in no way as efficient or readable as the "canonical" solution with lambdas.

  • this and the other comment seems to have answered what I was expecting, thank you!! yes it is a mess, but I am learning python right now and I wanted to know how these functions worked. – TheNamesAlc Apr 25 at 17:17

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