(Python 3.5.2)

I have defined __repr__ for one of my classes as follows:

class d():
    def __init__(self):
        self._values = []
    def __pos__(self):
        return self._values[0]
    def __repr__(self, value):

Now I want

x = d()

to return


but instead I get

TypeError: __repr__() missing 1 required positional argument: 'value'

I've tried a few variations such as print(x),"a" with no luck.

  • 8
    ... __repr__() doesn't take any arguments... Nov 15, 2016 at 0:45
  • 1
    And your function should return a string, not nothing. The init also needs no return statement Nov 15, 2016 at 0:47
  • (although technically it is legal to return nothing, or at least None, from __init__()) Nov 15, 2016 at 0:48
  • 3
    I think that the real question is "Why do you want __repr__ to take arguments"? __repr__ is supposed to take an object (self) and return a string representation of that object. It shouldn't be mutating the object in any way and the object should have all the information that it needs to represent itself... so why do you need to have another argument passed?
    – mgilson
    Nov 15, 2016 at 0:51
  • 2
    @JackOffToJanetYellen: This question is like asking how to drive nails with a banana. That is not what bananas are for, and this is not what __repr__ is for. What do you think __repr__ is for? Nov 15, 2016 at 0:52

3 Answers 3


If you want to control how an instance of your class is displayed, the right way to do that is to override the __format__ method. In general, the three methods you can override are used to:

  1. __repr__ - used when the object needs to be displayed in the interactive interpreter, usually as a debugging aid. As far as possible, it should be a string that could recreate the object if evaluated.
  2. __str__ - used when the object is passed to str or called when print attempts to display your object. Without another definition, it simply calls __repr__. This is the "default" string representation for an instance.
  3. __format__ - used when your object is an argument to str.format. It receives as an additional argument the format specification (if any) that appears after the optional : in a replacement field.

Here is a simple example of a class to represent pairs of numbers. The character used to separate the numbers can be configured via the format specification.

class Pair():
    def __init__(self, x, y):
        self.x = x
        self.y = y

    def __format__(self, spec):
        return "{}{}{}".format(self.x, spec, self.y)

    def __str__(self):
        return "{:/}".format(self)

    def __repr__(self):
        return "Pair({}, {})".format(self.x, self.y) 

It can be used as follows:

>>> x = Pair(1,2)
>>> x  # using __repr__
Pair(1, 2)
>>> str(x)   # using __str__, with a default separator of /
>>> print(x)  # uses __str__ implicitly
>>> "{}".format(x)  # no separator specified
>>> "{:-}".format(x)  # use - to separate the two numbers

Note that in the case of format, the spec is not necessarily part of the return value, but acts as an instruction on how to format the value.


There are a few people saying you should never add arguments to __str__ or __repr__ but I disagree.

For example, if you want to display the string representation of a class's objects you would write a custom __str__. But what if some of the objects were really long? Sometimes you may want to truncate those objects, sometimes you may want them in full.

class Compute:

    def __init__(self, foo, ...):
        self.foo = foo

    def __str__(self, trunc=False):
        return_str = ''
        for item in self.__dict__:
            if trunc:
                # If the length of the str representation of the item is long, shorten it.
                return_str += f'\n{item} = {self.__dict__[item] if len(str(self.__dict__[item] < 50) else str(self.__dict__[item])[:51]}'
                # This would be whatever your usual __str__ method returns
                return_str += f'\n{item} = {self.__dict__[item]}'

        return return_str

You would call this simply using:

bar = Compute(foo=...)


Now, if your __init__ contains any objects whose length as a string is particularly long, (say you've got a large list of data) it will only print up to the 51st character.

You can add a lot more logic to how you want the truncated strings to be printed too.

I would recommend having default arguments set to False in the dunder method. This means that unless explicitly asked for, the __str__ method can behave normally.

I have used this when I wanted to print a class's objects both to the terminal and to a log file. I only wanted them printed in full to the log file, and a truncated version to the terminal so I wrote something similar to this.

Hope this helps.


Your using __repr__ the wrong way. __repr__ should be used to return a representation of your object in a printable, formatted way. As opposed to Python simply printing the name and memory address of your object. Per the documentation of __repr__:

Called by the repr() built-in function to compute the “official” string representation of an object. If at all possible, this should look like a valid Python expression that could be used to recreate an object with the same value (given an appropriate environment). If this is not possible, a string of the form <...some useful description...> should be returned. The return value must be a string object. If a class defines __repr__() but not __str__(), then __repr__() is also used when an “informal” string representation of instances of that class is required.

I'm really not sure what your trying to achive with using __repr__ though. If you simply want add an element to self.values via a method of d, ditch the magic methods and just create your own:

class d():
    def __init__(self):
        self._values = []

    def __pos__(self):
        return self._values[0]

    def append(self, value): # create your won function

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