Python repr() The repr() function returns a printable representation of the given object.
Both str() and repr() return a “textual representation” of a Python object. The difference is: str() gives a user-friendly representation. repr() gives a developer-friendly representation.
TrueNow, according to the official documentation by Python, repr() returns a string that holds a printable representation of an object.
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.
>>> x = 'foo'
>>> x
'foo'
So the name x
is attached to 'foo'
string. When you call for example repr(x)
the interpreter puts 'foo'
instead of x
and then calls repr('foo')
.
>>> repr(x)
"'foo'"
>>> x.__repr__()
"'foo'"
repr
actually calls a magic method __repr__
of x
, which gives the string containing the representation of the value 'foo'
assigned to x
. So it returns 'foo'
inside the string ""
resulting in "'foo'"
. The idea of repr
is to give a string which contains a series of symbols which we can type in the interpreter and get the same value which was sent as an argument to repr
.
>>> eval("'foo'")
'foo'
When we call eval("'foo'")
, it's the same as we type 'foo'
in the interpreter. It's as we directly type the contents of the outer string ""
in the interpreter.
>>> eval('foo')
Traceback (most recent call last):
File "<pyshell#5>", line 1, in <module>
eval('foo')
File "<string>", line 1, in <module>
NameError: name 'foo' is not defined
If we call eval('foo')
, it's the same as we type foo
in the interpreter. But there is no foo
variable available and an exception is raised.
>>> str(x)
'foo'
>>> x.__str__()
'foo'
>>>
str
is just the string representation of the object (remember, x
variable refers to 'foo'
), so this function returns string.
>>> str(5)
'5'
String representation of integer 5
is '5'
.
>>> str('foo')
'foo'
And string representation of string 'foo'
is the same string 'foo'
.
The feedback you get on the interactive interpreter uses repr
too. When you type in an expression (let it be expr
), the interpreter basically does result = expr; if result is not None: print repr(result)
. So the second line in your example is formatting the string foo
into the representation you want ('foo'
). And then the interpreter creates the repr
esentation of that, leaving you with double quotes.
Why when I combine %r with double-quote and single quote escapes and print them out, it prints it the way I'd write it in my .py file but not the way I'd like to see it?
I'm not sure what you're asking here. The text single ' and double " quotes
, when run through repr
, includes escapes for one kind of quote. Of course it does, otherwise it wouldn't be a valid string literal by Python rules. That's precisely what you asked for by calling repr
.
Also note that the eval(repr(x)) == x
analogy isn't meant literal. It's an approximation and holds true for most (all?) built-in types, but the main thing is that you get a fairly good idea of the type and logical "value" from looking the the repr
output.
str()
is used for creating output for end user while repr()
is used for debugging during development. And it's an official representation of the object.
Example:
>>> import datetime
>>> today = datetime.datetime.now()
>>> str(today)
'2018-04-08 18:00:15.178404'
>>> repr(today)
'datetime.datetime(2018, 4, 8, 18, 3, 21, 167886)'
From output we see that repr()
shows the official representation of date object.
1) The result of repr('foo')
is the string 'foo'
. In your Python shell, the result of the expression is expressed as a representation too, so you're essentially seeing repr(repr('foo'))
.
2) eval
calculates the result of an expression. The result is always a value (such as a number, a string, or an object). Multiple variables can refer to the same value, as in:
x = 'foo'
y = x
x and y now refer to the same value.
3) I have no idea what you meant here. Can you post an example, and what you'd like to see?
When you say
foo = 'bar'
baz(foo)
you are not passing foo
to the baz
function. foo
is just a name used to represent a value, in this case 'bar'
, and that value is passed to the baz
function.
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