What is the difference between __str__ and __repr__ in Python?


28 Answers 28


Alex Martelli summarized well but, surprisingly, was too succinct.

First, let me reiterate the main points in Alex’s post:

  • The default implementation is useless (it’s hard to think of one which wouldn’t be, but yeah)
  • __repr__ goal is to be unambiguous
  • __str__ goal is to be readable
  • Container’s __str__ uses contained objects’ __repr__

Default implementation is useless

This is mostly a surprise because Python’s defaults tend to be fairly useful. However, in this case, having a default for __repr__ which would act like:

return "%s(%r)" % (self.__class__, self.__dict__)

would have been too dangerous (for example, too easy to get into infinite recursion if objects reference each other). So Python cops out. Note that there is one default which is true: if __repr__ is defined, and __str__ is not, the object will behave as though __str__=__repr__.

This means, in simple terms: almost every object you implement should have a functional __repr__ that’s usable for understanding the object. Implementing __str__ is optional: do that if you need a “pretty print” functionality (for example, used by a report generator).

The goal of __repr__ is to be unambiguous

Let me come right out and say it — I do not believe in debuggers. I don’t really know how to use any debugger, and have never used one seriously. Furthermore, I believe that the big fault in debuggers is their basic nature — most failures I debug happened a long long time ago, in a galaxy far far away. This means that I do believe, with religious fervor, in logging. Logging is the lifeblood of any decent fire-and-forget server system. Python makes it easy to log: with maybe some project specific wrappers, all you need is a

log(INFO, "I am in the weird function and a is", a, "and b is", b, "but I got a null C — using default", default_c)

But you have to do the last step — make sure every object you implement has a useful repr, so code like that can just work. This is why the “eval” thing comes up: if you have enough information so eval(repr(c))==c, that means you know everything there is to know about c. If that’s easy enough, at least in a fuzzy way, do it. If not, make sure you have enough information about c anyway. I usually use an eval-like format: "MyClass(this=%r,that=%r)" % (self.this,self.that). It does not mean that you can actually construct MyClass, or that those are the right constructor arguments — but it is a useful form to express “this is everything you need to know about this instance”.

Note: I used %r above, not %s. You always want to use repr() [or %r formatting character, equivalently] inside __repr__ implementation, or you’re defeating the goal of repr. You want to be able to differentiate MyClass(3) and MyClass("3").

The goal of __str__ is to be readable

Specifically, it is not intended to be unambiguous — notice that str(3)==str("3"). Likewise, if you implement an IP abstraction, having the str of it look like is just fine. When implementing a date/time abstraction, the str can be "2010/4/12 15:35:22", etc. The goal is to represent it in a way that a user, not a programmer, would want to read it. Chop off useless digits, pretend to be some other class — as long is it supports readability, it is an improvement.

Container’s __str__ uses contained objects’ __repr__

This seems surprising, doesn’t it? It is a little, but how readable would it be if it used their __str__?

[moshe is, 3, hello
world, this is a list, oh I don't know, containing just 4 elements]

Not very. Specifically, the strings in a container would find it way too easy to disturb its string representation. In the face of ambiguity, remember, Python resists the temptation to guess. If you want the above behavior when you’re printing a list, just

print("[" + ", ".join(lst) + "]")

(you can probably also figure out what to do about dictionaries).


Implement __repr__ for any class you implement. This should be second nature. Implement __str__ if you think it would be useful to have a string version which errs on the side of readability.

  • 380
    Definitely disagree with your opinion that debugging isn't the way to go. For development use a debugger (and/or logging), for production use logging. With a debugger you have a view of everything that went wrong when the problem occurred. You can see the full picture. Unless you are logging EVERYTHING you can't get that. Plus if you are logging everything you're going have to wade through tons of data to get at what you want.
    – Samuel
    Commented Feb 21, 2015 at 19:06
  • 45
    Great answer (except the bit about not using debuggers). I'd just like to add a link to this other Q&A about str vs unicode in Python 3 which could be relevant to the discussion for people who have made the switch. Commented Mar 23, 2015 at 21:04
  • 33
    on debugger vs no debugger: don't get such entrenched opinions. In some applications debugging is not realistic, typically when real-time is involved, or when your code only executes remotely on a platform with little access or no console. In most other cases it will be much quicker to stop at an exception to investigate, or to set a breakpoint, because you don't have to go through thousands of lines of logging (which will clutter your disk and slow down the application). Finally, it's not always possible to log, for example on embedded devices, there debugger is your friend too.
    – RedGlyph
    Commented Aug 2, 2019 at 11:42
  • 8
    About debuggging vs logging, they are both useful. If a bug is reproducible, debugging is more simple. If the bug is randomic, logging is essential. Commented Jan 15, 2020 at 15:16
  • 10
    A small update for recent versions of Python 3: you can use f-strings and still invoke the __repr__ of data you embed, by adding !r: you can replace "MyClass(this=%r,that=%r)" % (self.this,self.that) by f"MyClass(this={self.this!r},that={self.that!r})". Otherwise, thanks for this great post!
    – joanis
    Commented May 12, 2021 at 18:36

My rule of thumb: __repr__ is for developers, __str__ is for customers.

  • 26
    This is true because for obj = uuid.uuid1(), obj.__str__() is "2d7fc7f0-7706-11e9-94ae-0242ac110002" and obj.__repr__() is "UUID('2d7fc7f0-7706-11e9-94ae-0242ac110002')". Developers need (value + origin) whereas customers need a value and they don't care how they got it! Commented May 15, 2019 at 11:45
  • 16
    Here customer may not necessarily mean end-user. It's the client or user of the object. So if its an SDK then the SDK developers will use __str__ so normal developers have readable object. On the other hand, __repr__ is for the SDK developers themselves. Commented Jan 9, 2020 at 13:16
  • 1
    @NarenYellavula if you're exposing a UUID to a customer you're probably doing something wrong. Commented Dec 18, 2021 at 19:37
  • @AbdessabourMtk they're overly complex, and there's no protection against typing them wrong. Maybe in certain contexts like as part of a QR code they would be OK. Commented Apr 13, 2022 at 14:02
  • 1
    @Mark Customers can be technical too, like for example GParted exposes UUIDs for partitions (screenshot). If you want an example that works for non-technical customers: d = datetime.date.today() str: 2023-05-20 repr: datetime.date(2023, 5, 20)
    – wjandrea
    Commented May 20, 2023 at 20:06

Unless you specifically act to ensure otherwise, most classes don't have helpful results for either:

>>> class Sic(object): pass
>>> print(str(Sic()))
<__main__.Sic object at 0x8b7d0>
>>> print(repr(Sic()))
<__main__.Sic object at 0x8b7d0>

As you see -- no difference, and no info beyond the class and object's id. If you only override one of the two:

>>> class Sic(object): 
...   def __repr__(self): return 'foo'
>>> print(str(Sic()))
>>> print(repr(Sic()))
>>> class Sic(object):
...   def __str__(self): return 'foo'
>>> print(str(Sic()))
>>> print(repr(Sic()))
<__main__.Sic object at 0x2617f0>

As you see, if you override __repr__, that's ALSO used for __str__, but not vice versa.

Other crucial tidbits to know: __str__ on a built-on container uses the __repr__, NOT the __str__, for the items it contains. And, despite the words on the subject found in typical docs, hardly anybody bothers making the __repr__ of objects be a string that eval may use to build an equal object (it's just too hard, AND not knowing how the relevant module was actually imported makes it actually flat out impossible).

So, my advice: focus on making __str__ reasonably human-readable, and __repr__ as unambiguous as you possibly can, even if that interferes with the fuzzy unattainable goal of making __repr__'s returned value acceptable as input to eval!

  • 54
    In my unit tests I always check that eval(repr(foo)) evaluates to an object equal to foo. You're right that it won't work outside of my test cases since I don't know how the module is imported, but this at least ensures that it works in some predictable context. I think this a good way of evaluating if the result of __repr__ is explicit enough. Doing this in a unit test also helps ensure that __repr__ follows changes to the class. Commented Nov 15, 2011 at 19:58
  • 8
    I always try to make sure that either eval(repr(spam)) == spam (at least in the right context), or eval(repr(spam)) raises a SyntaxError. That way you avoid confusion. (And that's almost true for the builtins and most of the stdlib, except for, e.g., recursive lists, where a=[]; a.append(a); print(eval(repr(a))) gives you [[Ellipses]]…) Of course I don't do that to actually use eval(repr(spam)), except as a sanity check in unit tests… but I do sometimes copy and paste repr(spam) into an interactive session.
    – abarnert
    Commented Sep 20, 2014 at 5:34
  • 1
    Why would not containers (lists, tuples) use __str__ for each element instead of __repr__? Seems plain wrong to me, as I implemented a readable __str__ in my object and when it is part of a list I see the uglier __repr__ instead.
    – SuperGeo
    Commented Jan 26, 2018 at 14:15
  • 1
    @SuperGeo Other answers cover this: container str use element repr because [1, 2, 3] != ["1", "2, 3"].
    – mtraceur
    Commented Dec 6, 2019 at 8:15
  • 2
    @abarnert: for a custom class Spam, eval(repr(spam)) == spam would require Spam.__eq__to be implemented as well, right? By default object.__eq__ uses is (docs).
    – djvg
    Commented Dec 4, 2020 at 10:32

In short, the goal of __repr__ is to be unambiguous and __str__ is to be readable.

Here is a good example:

>>> import datetime
>>> today = datetime.datetime.now()
>>> str(today)
'2012-03-14 09:21:58.130922'
>>> repr(today)
'datetime.datetime(2012, 3, 14, 9, 21, 58, 130922)'

Read this documentation for repr:


Return a string containing a printable representation of an object. This is the same value yielded by conversions (reverse quotes). It is sometimes useful to be able to access this operation as an ordinary function. For many types, this function makes an attempt to return a string that would yield an object with the same value when passed to eval(), otherwise the representation is a string enclosed in angle brackets that contains the name of the type of the object together with additional information often including the name and address of the object. A class can control what this function returns for its instances by defining a __repr__() method.

Here is the documentation for str:


Return a string containing a nicely printable representation of an object. For strings, this returns the string itself. The difference with repr(object) is that str(object) does not always attempt to return a string that is acceptable to eval(); its goal is to return a printable string. If no argument is given, returns the empty string, ''.

  • 3
    What is the meaning of printable string here? Can you explain it please?
    – Vicrobot
    Commented Aug 19, 2018 at 5:44
  • 3
    building upon the above example by "bitoffdev" and @deadly we can see how str is for the end user because it only gives us a readable string where as repr is fro developers because it gives us the value as well as the type. If you are looking for interview answers then it would be perfect.
    – PSK0007
    Commented Jul 13, 2020 at 18:40

__repr__: representation of python object usually eval will convert it back to that object

__str__: is whatever you think is that object in text form


>>> s="""w'o"w"""
>>> repr(s)
>>> str(s)
>>> eval(str(s))==s
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
  File "<string>", line 1
SyntaxError: EOL while scanning single-quoted string
>>> eval(repr(s))==s
  • 4
    __repr__() : used to create "constructor-like expression" in string, so that eval() can re-construct an object back from this string representation __str__() : used to create string containing a printable representation of an object Commented Dec 31, 2021 at 7:16
  • This answer would a bit clearer if the commands in the REPL were print(repr(s)) and print(str(s)). Without the print(...), the output includes extra quotes and escaping that aren't actually part of the content of those strings. Commented Feb 15 at 2:39

What is the difference between __str__ and __repr__ in Python?

__str__ (read as "dunder (double-underscore) string") and __repr__ (read as "dunder-repper" (for "representation")) are both special methods that return strings based on the state of the object.

__repr__ provides backup behavior if __str__ is missing.

So one should first write a __repr__ that allows you to reinstantiate an equivalent object from the string it returns e.g. using eval or by typing it in character-for-character in a Python shell.

At any time later, one can write a __str__ for a user-readable string representation of the instance, when one believes it to be necessary.


If you print an object, or pass it to format, str.format, or str, then if a __str__ method is defined, that method will be called, otherwise, __repr__ will be used.


The __repr__ method is called by the builtin function repr and is what is echoed on your python shell when it evaluates an expression that returns an object.

Since it provides a backup for __str__, if you can only write one, start with __repr__

Here's the builtin help on repr:

    repr(object) -> string
    Return the canonical string representation of the object.
    For most object types, eval(repr(object)) == object.

That is, for most objects, if you type in what is printed by repr, you should be able to create an equivalent object. But this is not the default implementation.

Default Implementation of __repr__

The default object __repr__ is (C Python source) something like:

def __repr__(self):
    return '<{0}.{1} object at {2}>'.format(
      type(self).__module__, type(self).__qualname__, hex(id(self)))

That means by default you'll print the module the object is from, the class name, and the hexadecimal representation of its location in memory - for example:

<__main__.Foo object at 0x7f80665abdd0>

This information isn't very useful, but there's no way to derive how one might accurately create a canonical representation of any given instance, and it's better than nothing, at least telling us how we might uniquely identify it in memory.

How can __repr__ be useful?

Let's look at how useful it can be, using the Python shell and datetime objects. First we need to import the datetime module:

import datetime

If we call datetime.now in the shell, we'll see everything we need to recreate an equivalent datetime object. This is created by the datetime __repr__:

>>> datetime.datetime.now()
datetime.datetime(2015, 1, 24, 20, 5, 36, 491180)

If we print a datetime object, we see a nice human readable (in fact, ISO) format. This is implemented by datetime's __str__:

>>> print(datetime.datetime.now())
2015-01-24 20:05:44.977951

It is a simple matter to recreate the object we lost because we didn't assign it to a variable by copying and pasting from the __repr__ output, and then printing it, and we get it in the same human readable output as the other object:

>>> the_past = datetime.datetime(2015, 1, 24, 20, 5, 36, 491180)
>>> print(the_past)
2015-01-24 20:05:36.491180

How do I implement them?

As you're developing, you'll want to be able to reproduce objects in the same state, if possible. This, for example, is how the datetime object defines __repr__ (Python source). It is fairly complex, because of all of the attributes needed to reproduce such an object:

def __repr__(self):
    """Convert to formal string, for repr()."""
    L = [self._year, self._month, self._day,  # These are never zero
         self._hour, self._minute, self._second, self._microsecond]
    if L[-1] == 0:
        del L[-1]
    if L[-1] == 0:
        del L[-1]
    s = "%s.%s(%s)" % (self.__class__.__module__,
                       ", ".join(map(str, L)))
    if self._tzinfo is not None:
        assert s[-1:] == ")"
        s = s[:-1] + ", tzinfo=%r" % self._tzinfo + ")"
    if self._fold:
        assert s[-1:] == ")"
        s = s[:-1] + ", fold=1)"
    return s

If you want your object to have a more human readable representation, you can implement __str__ next. Here's how the datetime object (Python source) implements __str__, which it easily does because it already has a function to display it in ISO format:

def __str__(self):
    "Convert to string, for str()."
    return self.isoformat(sep=' ')

Set __repr__ = __str__?

This is a critique of another answer here that suggests setting __repr__ = __str__.

Setting __repr__ = __str__ is silly - __repr__ is a fallback for __str__ and a __repr__, written for developers usage in debugging, should be written before you write a __str__.

You need a __str__ only when you need a textual representation of the object.


Define __repr__ for objects you write so you and other developers have a reproducible example when using it as you develop. Define __str__ when you need a human readable string representation of it.

  • 1
    Shouldn't it be something along the lines of type(obj).__qualname__? Commented Dec 1, 2018 at 1:10
  • @SolomonUcko yes in Python 3, that would seem to be the case - I've been hunting down the source code where this is implemented and I'll update my answer with that information when I get it together.
    – Aaron Hall
    Commented Dec 1, 2018 at 20:50
  • This answer will be more helpful for beginners. Nice explanation!!
    – Gokul nath
    Commented Feb 6, 2022 at 6:48
  • I have changed self.__module__ to type(self).__module__ (since for exemple 3 has no __module__) and type(self).__name__ to type(self).__qualname__ (since for instance with class A: class B: pass that is what repr(A.B()) returns).
    – Géry Ogam
    Commented Mar 31, 2022 at 17:06

On page 358 of the book Python scripting for computational science by Hans Petter Langtangen, it clearly states that

  • The __repr__ aims at a complete string representation of the object;
  • The __str__ is to return a nice string for printing.

So, I prefer to understand them as

  • repr = reproduce
  • str = string (representation)

from the user's point of view although this is a misunderstanding I made when learning python.

A small but good example is also given on the same page as follows:


In [38]: str('s')
Out[38]: 's'

In [39]: repr('s')
Out[39]: "'s'"

In [40]: eval(str('s'))
Traceback (most recent call last):

  File "<ipython-input-40-abd46c0c43e7>", line 1, in <module>

  File "<string>", line 1, in <module>

NameError: name 's' is not defined

In [41]: eval(repr('s'))
Out[41]: 's'
  • It is at pg. #351.
    – jiten
    Commented Dec 21, 2018 at 13:10
  • 10
    It's kind of misleading to refer to repr as reproduce. It is better to think of it as represent.
    – NelsonGon
    Commented Jun 19, 2019 at 7:48
  • 1
    @NelsonGon he is not totally wrong, docs say - "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." so it makes sense to in a way think of this as reproducing the object, as many have pointed out the use of eval Commented Oct 29, 2023 at 17:25

Apart from all the answers given, I would like to add few points :-

  1. __repr__() is invoked when you simply write object's name on interactive python console and press enter.

  2. __str__() is invoked when you use object with print statement.

  3. In case, if __str__ is missing, then print and any function using str() invokes __repr__() of object.

  4. __str__() of containers, when invoked will execute __repr__() method of its contained elements.

  5. str() called within __str__() could potentially recurse without a base case, and error on maximum recursion depth.

  6. __repr__() can call repr() which will attempt to avoid infinite recursion automatically, replacing an already represented object with ....

  • "repr() which will attempt to avoid infinite recursion automatically, replacing an already represented object with ..." — Where did you get that from? It doesn't do that. Maybe you're thinking of reprlib.recursive_repr
    – wjandrea
    Commented Oct 15, 2023 at 6:46
  • @wjandrea I see the ... behavior in an interactive python 3.11 session: a = [0,1,2]; a.append(a); repr(a) outputs '[0, 1, 2, [...]]'
    – Don Hatch
    Commented Jun 11 at 0:53
  • @DonHatch Yeah, builtin types have that functionality, but if you implement your own class with its own __repr__, it doesn't happen automatically. That's what reprlib.recursive_repr is for.
    – wjandrea
    Commented Jun 11 at 1:28


Differences between str()/repr() and __str__()/__repr__()


When it comes down to the nitty-gritty, this question is analogous to asking the difference between the str() and repr() built-in functions. I'm going to describe the differences in my own words (which means I may be "borrowing" liberally from Core Python Programming so please forgive me).

Both str() and repr() have the same basic job: their goal is to return a string representation of a Python object. What kind of string representation is what differentiates them.

  • str() & __str__() return a printable string representation of an object... something human-readable/for human consumption
  • repr() & __repr__() return a string representation of an object that is a valid Python expression, an object you can pass to eval() or type into the Python shell without getting an error.

For example, let's assign a string to x and an int to y, and simply showing human-readable string versions of each:

>>> x, y = 'foo', 123
>>> str(x), str(y)
('foo', '123')

Can we take what is inside the quotes in both cases and enter them verbatim into the Python interpreter? Let's give it a try:

>>> 123
>>> foo
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
NameError: name 'foo' is not defined

Clearly you can for an int but not necessarily for a str. Similarly, while I can pass '123' to eval(), that doesn't work for 'foo':

>>> eval('123')
>>> eval('foo')
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
  File "<string>", line 1, in <module>
NameError: name 'foo' is not defined

So this tells you the Python shell just eval()s what you give it. Now, let's repr() both expressions and see what we get. More specifically, take its output and dump those out in the interpreter (there's a point to this which we'll address afterwards):

>>> repr(x), repr(y)
("'foo'", '123')
>>> 123
>>> 'foo'

Wow, they both work? That's because 'foo', while a printable string representation of that string, it's not evaluatable, but "'foo'" is. 123 is a valid Python int called by either str() or repr(). What happens when we call eval() with these?

>>> eval('123')
>>> eval("'foo'")

It works because 123 and 'foo' are valid Python objects. Another key takeaway is that while sometimes both return the same thing (the same string representation), that's not always the case. (And yes, yes, I can go create a variable foo where the eval() works, but that's not the point.)

More factoids about both pairs

  1. Sometimes, str() and repr() are called implicitly, meaning they're called on behalf of users: when users use print, even if they don't call str() explicitly, such a call is made on their behalf before the object is displayed.
  2. In the Python shell (interactive interpreter), if you enter a variable at the >>> prompt and press RETURN, the interpreter displays the results of repr() implicitly called on that object.
  3. To connect str() and repr() to __str__() and __repr__(), realize that calls to the built-in functions, i.e., str(x) or repr(y) result in calling their object's corresponding special methods: x.__str__() or y.__repr__()
  4. By implementing __str__() and __repr__() for your Python classes, you overload the built-in functions (str() and repr()), allowing instances of your classes to be passed in to str() and repr(). When such calls are made, they turn around and call the class' __str__() and __repr__() (per #3).
  • Don't post pictures of text. Stack Exchange supports table formatting now if you want to use that.
    – wjandrea
    Commented Oct 15, 2023 at 5:45
  • 1
    "repr() & __repr__() return a string representation of an object that is a valid Python expression" — Not always. Yes it's a goal, but some objects can't be meaningfully represented, like object for example: object()<object object at 0x7f4aa8b38f50>. I know other answers cover this and you're probably aware of it, but I found it strange you didn't mention it anywhere in this long explanation.
    – wjandrea
    Commented Oct 15, 2023 at 6:06
  • 1
    Yep, I didn't know table-formatting was available... will convert that soon. As far as unrepresentable objects, yeah, repr() shows the default "object string" and its id(). I probably should've mentioned it and specify it's the default if you don't implement __str__() or __repr()__. I'll see if I can weave it into the response when I fix the table. Thx for the useful comments!
    – wescpy
    Commented May 9 at 3:27

To put it simply:

__str__ is used in to show a string representation of your object to be read easily by others.

__repr__ is used to show a string representation of the object.

Let's say I want to create a Fraction class where the string representation of a fraction is '(1/2)' and the object (Fraction class) is to be represented as 'Fraction (1,2)'

So we can create a simple Fraction class:

class Fraction:
    def __init__(self, num, den):
        self.__num = num
        self.__den = den

    def __str__(self):
        return '(' + str(self.__num) + '/' + str(self.__den) + ')'

    def __repr__(self):
        return 'Fraction (' + str(self.__num) + ',' + str(self.__den) + ')'

f = Fraction(1,2)
print('I want to represent the Fraction STRING as ' + str(f)) # (1/2)
print('I want to represent the Fraction OBJECT as ', repr(f)) # Fraction (1,2)

From an (An Unofficial) Python Reference Wiki (archive copy) by effbot:

__str__ "computes the "informal" string representation of an object. This differs from __repr__ in that it does not have to be a valid Python expression: a more convenient or concise representation may be used instead."

  • 4
    __repr__ is by no means required to return a vaild Python expression. Commented Oct 20, 2017 at 3:23

In all honesty, eval(repr(obj)) is never used. If you find yourself using it, you should stop, because eval is dangerous, and strings are a very inefficient way to serialize your objects (use pickle instead).

Therefore, I would recommend setting __repr__ = __str__. The reason is that str(list) calls repr on the elements (I consider this to be one of the biggest design flaws of Python that was not addressed by Python 3). An actual repr will probably not be very helpful as the output of print([your, objects]).

To qualify this, in my experience, the most useful use case of the repr function is to put a string inside another string (using string formatting). This way, you don't have to worry about escaping quotes or anything. But note that there is no eval happening here.

  • 26
    I think this misses the point. The use of eval(repr(obj)) is a sanity test and a rule of thumb - if this recreates the original object correctly then you have a decent __repr__ implementation. It's not intended that you actually serialize objects this way.
    – jwg
    Commented Jun 6, 2014 at 13:56
  • 10
    eval is not inherently dangerous. Is not more dangerous than unlink, open, or writing to files. Should we stop writing to files because perhaps a malicious attack could use an arbitrary file path to put content inside? Everything is dangerous if dumbly used by dumb people. Idiocy is dangerous. Dunning-Kruger effects are dangerous. eval is just a function. Commented Mar 1, 2016 at 15:12

You can get some insight from this code:

class Foo:
    def __repr__(self):
        return "repr"

    def __str__(self):
        return "str"

foo = Foo()
foo  # repr
print(foo)  # str

str - Creates a new string object from the given object.

repr - Returns the canonical string representation of the object.

The differences:


  • makes object readable
  • generates output for end-user


  • needs code that reproduces object
  • generates output for developer

__str__ can be invoked on an object by calling str(obj) and should return a human readable string.

__repr__ can be invoked on an object by calling repr(obj) and should return internal object (object fields/attributes)

This example may help:

class C1:pass

class C2:        
    def __str__(self):
        return str(f"{self.__class__.__name__} class str ")

class C3:        
    def __repr__(self):        
         return str(f"{self.__class__.__name__} class repr")

class C4:        
    def __str__(self):
        return str(f"{self.__class__.__name__} class str ")
    def __repr__(self):        
         return str(f"{self.__class__.__name__} class repr")

ci1 = C1()    
ci2 = C2()  
ci3 = C3()  
ci4 = C4()

print(ci1)       #<__main__.C1 object at 0x0000024C44A80C18>
print(str(ci1))  #<__main__.C1 object at 0x0000024C44A80C18>
print(repr(ci1)) #<__main__.C1 object at 0x0000024C44A80C18>
print(ci2)       #C2 class str
print(str(ci2))  #C2 class str
print(repr(ci2)) #<__main__.C2 object at 0x0000024C44AE12E8>
print(ci3)       #C3 class repr
print(str(ci3))  #C3 class repr
print(repr(ci3)) #C3 class repr
print(ci4)       #C4 class str 
print(str(ci4))  #C4 class str 
print(repr(ci4)) #C4 class repr

From the book Fluent Python:

A basic requirement for a Python object is to provide usable string representations of itself, one used for debugging and logging, another for presentation to end users. That is why the special methods __repr__ and __str__ exist in the data model.


One aspect that is missing in other answers. It's true that in general the pattern is:

  • Goal of __str__: human-readable
  • Goal of __repr__: unambiguous, possibly machine-readable via eval

Unfortunately, this differentiation is flawed, because the Python REPL and also IPython use __repr__ for printing objects in a REPL console (see related questions for Python and IPython). Thus, projects which are targeted for interactive console work (e.g., Numpy or Pandas) have started to ignore above rules and provide a human-readable __repr__ implementation instead.

>>> print(decimal.Decimal(23) / decimal.Decimal("1.05"))
>>> decimal.Decimal(23) / decimal.Decimal("1.05")

When print() is called on the result of decimal.Decimal(23) / decimal.Decimal("1.05") the raw number is printed; this output is in string form which can be achieved with __str__(). If we simply enter the expression we get a decimal.Decimal output — this output is in representational form which can be achieved with __repr__(). All Python objects have two output forms. String form is designed to be human-readable. The representational form is designed to produce output that if fed to a Python interpreter would (when possible) reproduce the represented object.


The difference between __str__ and __repr__ for me boils down to the former being readable even by an end user, and the latter being as useful as possible to developers. Given that, I find that the default implementation of __repr__ often fails to achieve this goal because it omits information useful to developers.

For this reason, if I have a simple enough __str__, I generally just try to get the best of both worlds with something like:

def __repr__(self):
    return '{0} ({1})'.format(object.__repr__(self), str(self))

One important thing to keep in mind is that container's __str__ uses contained objects' __repr__.

>>> from datetime import datetime
>>> from decimal import Decimal
>>> print (Decimal('52'), datetime.now())
(Decimal('52'), datetime.datetime(2015, 11, 16, 10, 51, 26, 185000))
>>> str((Decimal('52'), datetime.now()))
"(Decimal('52'), datetime.datetime(2015, 11, 16, 10, 52, 22, 176000))"

Python favors unambiguity over readability, the __str__ call of a tuple calls the contained objects' __repr__, the "formal" representation of an object. Although the formal representation is harder to read than an informal one, it is unambiguous and more robust against bugs.

  • It uses __repr__ when it (__str__ ) is not defined! So, you are wrong.
    – jiten
    Commented Dec 21, 2018 at 13:48

In a nutshell:

class Demo:
  def __repr__(self):
    return 'repr'
  def __str__(self):
    return 'str'

demo = Demo()
print(demo) # use __str__, output 'str' to stdout

s = str(demo) # __str__ is used, return 'str'
r = repr(demo) # __repr__ is used, return 'repr'

import logging
logger = logging.getLogger(logging.INFO)
logger.info(demo) # use __str__, output 'str' to stdout

from pprint import pprint, pformat
pprint(demo) # use __repr__, output 'repr' to stdout
result = pformat(demo) # use __repr__, result is string which value is 'str'

Understand __str__ and __repr__ intuitively and permanently distinguish them at all.

__str__ return the string disguised body of a given object for readable of eyes
__repr__ return the real flesh body of a given object (return itself) for unambiguity to identify.

See it in an example

In [30]: str(datetime.datetime.now())
Out[30]: '2017-12-07 15:41:14.002752'
Disguised in string form

As to __repr__

In [32]: datetime.datetime.now()
Out[32]: datetime.datetime(2017, 12, 7, 15, 43, 27, 297769)
Presence in real body which allows to be manipulated directly.

We can do arithmetic operation on __repr__ results conveniently.

In [33]: datetime.datetime.now()
Out[33]: datetime.datetime(2017, 12, 7, 15, 47, 9, 741521)
In [34]: datetime.datetime(2017, 12, 7, 15, 47, 9, 741521) - datetime.datetime(2
    ...: 017, 12, 7, 15, 43, 27, 297769)
Out[34]: datetime.timedelta(0, 222, 443752)

if apply the operation on __str__

In [35]: '2017-12-07 15:43:14.002752' - '2017-12-07 15:41:14.002752'
TypeError: unsupported operand type(s) for -: 'str' and 'str'

Returns nothing but error.

Another example.

In [36]: str('string_body')
Out[36]: 'string_body' # in string form

In [37]: repr('real_body')
Out[37]: "'real_body'" #its real body hide inside

Hope this help you build concrete grounds to explore more answers.


__repr__ is used everywhere, except by print and str methods (when a __str__is defined !)

  1. __str__ must return string object whereas __repr__ can return any python expression.
  2. If __str__ implementation is missing then __repr__ function is used as fallback. There is no fallback if __repr__ function implementation is missing.
  3. If __repr__ function is returning String representation of the object, we can skip implementation of __str__ function.

Source: https://www.journaldev.com/22460/python-str-repr-functions

  • "__repr__ can return any python expression" — Where did you get that from? __repr__ also needs to return a string, plus expressions are elements of syntax, not objects, so they can't be "returned".
    – wjandrea
    Commented Oct 15, 2023 at 6:20
  • "There is no fallback if __repr__ function implementation is missing." — There is a fallback: object.__repr__
    – wjandrea
    Commented Oct 15, 2023 at 6:22

Every object inherits __repr__ from the base class that all objects created.

class Person:


if you call repr(p) you will get this as default:

 <__main__.Person object at 0x7fb2604f03a0>

But if you call str(p) you will get the same output. it is because when __str__ does not exist, Python calls __repr__

Let's implement our own __str__

class Person:
    def __init__(self,name,age):
    def __repr__(self):
        print("__repr__ called")
        return f"Person(name='{self.name}',age={self.age})"


print(p) and str(p)will return

 __repr__ called

let's add __str__()

class Person:
    def __init__(self, name, age):
        self.name = name
        self.age = age
    def __repr__(self):
        print('__repr__ called')
        return f"Person(name='{self.name}, age=self.age')"
    def __str__(self):
        print('__str__ called')
        return self.name


if we call print(p) and str(p), it will call __str__() so it will return

__str__ called

repr(p) will return

repr called "Person(name='ali, age=self.age')"

Let's omit __repr__ and just implement __str__.

class Person:
def __init__(self, name, age):
    self.name = name
    self.age = age

def __str__(self):
    print('__str__ called')
    return self.name


print(p) will look for the __str__ and will return:

__str__ called

NOTE= if we had __repr__ and __str__ defined, f'name is {p}' would call __str__


Programmers with prior experience in languages with a toString method tend to implement __str__ and not __repr__. If you only implement one of these special methods in Python, choose __repr__.

From Fluent Python book, by Ramalho, Luciano.


repr() used when we debug or log.It is used for developers to understand code. one the other hand str() user for non developer like(QA) or user.

class Customer:
    def __init__(self,name):
        self.name = name
    def __repr__(self):
        return "Customer('{}')".format(self.name)
    def __str__(self):
        return f"cunstomer name is {self.name}"

cus_1 = Customer("Thusi")
print(repr(cus_1)) #print(cus_1.__repr__()) 
print(str(cus_1)) #print(cus_1.__str__())

Basically __str__ or str() is used for creating output that is human-readable are must be for end-users. On the other hand, repr() or __repr__ mainly returns canonical string representation of objects which serve the purpose of debugging and development helps the programmers.

  • "__str__ or str() is" — Do you mean "__str__ and str() are"? They're not the same thing.
    – wjandrea
    Commented Oct 15, 2023 at 18:50
  • I didn't say they are same thing !
    – barii
    Commented May 6 at 7:20
  • You used "is" and "returns", which are singular verbs. Did you mean "are" and "return"?
    – wjandrea
    Commented May 6 at 16:59

Not the answer you're looking for? Browse other questions tagged or ask your own question.