In functional programming is sometimes useful to have a function that always return True (or False) for every parameter (or even multiple parameters).

Is there a built-in or a function defined in some module that have this exact behaviour?

  • 3
    I'm curious. Could you specify an example in which this would be useful? If, as in your answer, you have keywords that represent true or false, why do you need a function to take their place?
    – Arc676
    Jan 20 '16 at 13:49
  • 1
    @Arc676: I'm using objgraph to view the memory graph. You can specify a function that defines if a node in the graph should be explored or not. I want every node to be explored, so now I'm using a lambda that always return True. This is only one case, but this is a pattern that I've seen a few times. Jan 20 '16 at 13:57
  • object returns an instance which will be treated as True in a Boolean context.
    – chepner
    Jan 20 '16 at 14:53

I'm not aware of any built-in, but you can define them as:

false = lambda *_: False
true  = lambda *_: True
  • 1
    Could you elaborate on the *_-syntax?
    – Jasper
    Jan 20 '16 at 14:04
  • 7
    There is two things to elaborate on this syntax. First, the star is used to pass any number of arguments , usually noted def myfunc(*args): (works also with lambdas). A more correct version would use (*args, **kwargs) to also catch keywords arguments. The second thing to elaborate, is the use of unnamed variable _ to indicate that we do not use the parameter. Hence, those lambda take any number of (nonkeywor) arguments and drops them all, which is what *_ do.
    – DainDwarf
    Jan 20 '16 at 15:02
  • 4
    @Jasper: DainDwarf is right, just one note: _ is a valid variable identifier in python, and has no special syntactical (i.e., it does not drop anything), it is commonly used for variables that you don't care about, since nobody sane would ever write something like _ + _ * _ instead of x + x * x. Jan 21 '16 at 10:09

You can use object, since its instances will always be treated as a true value, since object defines neither __len__, __nonzero__ (in Python 2), nor __bool__ (in Python 3).

>>> bool(object())
>>> if object():
...   print("Hi")

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