Can I somehow call a function without the ()? Maybe abusing the magic methods such as __call__() somehow?
I'd like to be able to something similar to
from IPython import embed as qq
but call embed() only via qq rather than qq()
This is more out of curiosity, and as a learning exercise for python, rather than practical purposes.
If you are using the REPL (the Python shell), then you can hack your way around this, because the REPL will call repr() on objects for you (which in turn invokes their __repr__ method):
from IPython import embed
class WrappedFunctionCall(object):
def __init__(self, fn):
self.fn = fn
def __repr__(self):
self.fn()
return "" # `__repr__` must return a string
qq = WrappedFunctionCall(embed)
# Typing "qq" will invoke embed now and load iPython.
But really, you should not be doing this!
And of course, it won't work outside of the REPL, because there won't be anything to call __repr__ in that case. Obviously, passing arguments isn't "supported" either.
__call__ will be invoked only if the function is invoked with (). If the function is in a class, then you can use #property decorator, to do something like this
import math
class Circle(object):
def __init__(self, radius):
self.radius = radius
#property
def area(self):
return math.pi * (self.radius ** 2)
print(Circle(5).area)
# 78.53981633974483
Read more about getter and setter here
If you want to learn, play around with Python.
In [1]: def foo():
...: pass
...:
In [2]: foo
Out[2]: <function __main__.foo>
In [3]: foo()
In [4]: bar = foo
In [5]: bar
Out[5]: <function __main__.foo>
In [6]: bar()
As you see, foo will not call the function, it will return it. And that is a good thing becaus you can pass it as an argument and assign it, for example bar = foo.
In pure Python, the only way I can think of is to use an object and a property:
>>> class Wtf(object):
... #property
... def yadda(self):
... print "Yadda"
...
>>> w = Wtf()
>>> w.yadda
Yadda
>>>
Else you might want to check IPython's doc on how to define your own custom "magic" commands: http://ipython.org/ipython-doc/dev/config/custommagics.html
You can call the function foo without using () (on that function):
def call_function(fun_name,*args):
return fun_name(*args)
def foo(a,b):
return a+b
print call_function(foo,1,2)
# Prints 3
Note that this answer isn't entirely serious, but it does contain a snippet of interesting Python code.
Related
Suppose I have a Python function as defined below:
def foo(arg1,arg2):
#do something with args
a = arg1 + arg2
return a
I can get the name of the function using foo.func_name. How can I programmatically get its source code, as I typed above?
If the function is from a source file available on the filesystem, then inspect.getsource(foo) might be of help:
If foo is defined as:
def foo(arg1,arg2):
#do something with args
a = arg1 + arg2
return a
Then:
import inspect
lines = inspect.getsource(foo)
print(lines)
Returns:
def foo(arg1,arg2):
#do something with args
a = arg1 + arg2
return a
But I believe that if the function is compiled from a string, stream or imported from a compiled file, then you cannot retrieve its source code.
The inspect module has methods for retrieving source code from python objects. Seemingly it only works if the source is located in a file though. If you had that I guess you wouldn't need to get the source from the object.
The following tests inspect.getsource(foo) using Python 3.6:
import inspect
def foo(arg1,arg2):
#do something with args
a = arg1 + arg2
return a
source_foo = inspect.getsource(foo) # foo is normal function
print(source_foo)
source_max = inspect.getsource(max) # max is a built-in function
print(source_max)
This first prints:
def foo(arg1,arg2):
#do something with args
a = arg1 + arg2
return a
Then fails on inspect.getsource(max) with the following error:
TypeError: <built-in function max> is not a module, class, method, function, traceback, frame, or code object
Just use foo?? or ??foo.
If you are using IPython, then you need to type foo?? or ??foo to see the complete source code. To see only the docstring in the function, use foo? or ?foo. This works in Jupyter notebook as well.
In [19]: foo??
Signature: foo(arg1, arg2)
Source:
def foo(arg1,arg2):
#do something with args
a = arg1 + arg2
return a
File: ~/Desktop/<ipython-input-18-3174e3126506>
Type: function
dis is your friend if the source code is not available:
>>> import dis
>>> def foo(arg1,arg2):
... #do something with args
... a = arg1 + arg2
... return a
...
>>> dis.dis(foo)
3 0 LOAD_FAST 0 (arg1)
3 LOAD_FAST 1 (arg2)
6 BINARY_ADD
7 STORE_FAST 2 (a)
4 10 LOAD_FAST 2 (a)
13 RETURN_VALUE
While I'd generally agree that inspect is a good answer, I'd disagree that you can't get the source code of objects defined in the interpreter. If you use dill.source.getsource from dill, you can get the source of functions and lambdas, even if they are defined interactively.
It also can get the code for from bound or unbound class methods and functions defined in curries... however, you might not be able to compile that code without the enclosing object's code.
>>> from dill.source import getsource
>>>
>>> def add(x,y):
... return x+y
...
>>> squared = lambda x:x**2
>>>
>>> print getsource(add)
def add(x,y):
return x+y
>>> print getsource(squared)
squared = lambda x:x**2
>>>
>>> class Foo(object):
... def bar(self, x):
... return x*x+x
...
>>> f = Foo()
>>>
>>> print getsource(f.bar)
def bar(self, x):
return x*x+x
>>>
To expand on runeh's answer:
>>> def foo(a):
... x = 2
... return x + a
>>> import inspect
>>> inspect.getsource(foo)
u'def foo(a):\n x = 2\n return x + a\n'
print inspect.getsource(foo)
def foo(a):
x = 2
return x + a
EDIT: As pointed out by #0sh this example works using ipython but not plain python. It should be fine in both, however, when importing code from source files.
Since this post is marked as the duplicate of this other post, I answer here for the "lambda" case, although the OP is not about lambdas.
So, for lambda functions that are not defined in their own lines: in addition to marko.ristin's answer, you may wish to use mini-lambda or use SymPy as suggested in this answer.
mini-lambda is lighter and supports any kind of operation, but works only for a single variable
SymPy is heavier but much more equipped with mathematical/calculus operations. In particular it can simplify your expressions. It also supports several variables in the same expression.
Here is how you can do it using mini-lambda:
from mini_lambda import x, is_mini_lambda_expr
import inspect
def get_source_code_str(f):
if is_mini_lambda_expr(f):
return f.to_string()
else:
return inspect.getsource(f)
# test it
def foo(arg1, arg2):
# do something with args
a = arg1 + arg2
return a
print(get_source_code_str(foo))
print(get_source_code_str(x ** 2))
It correctly yields
def foo(arg1, arg2):
# do something with args
a = arg1 + arg2
return a
x ** 2
See mini-lambda documentation for details. I'm the author by the way ;)
You can use inspect module to get full source code for that. You have to use getsource() method for that from the inspect module. For example:
import inspect
def get_my_code():
x = "abcd"
return x
print(inspect.getsource(get_my_code))
You can check it out more options on the below link.
retrieve your python code
to summarize :
import inspect
print( "".join(inspect.getsourcelines(foo)[0]))
Please mind that the accepted answers work only if the lambda is given on a separate line. If you pass it in as an argument to a function and would like to retrieve the code of the lambda as object, the problem gets a bit tricky since inspect will give you the whole line.
For example, consider a file test.py:
import inspect
def main():
x, f = 3, lambda a: a + 1
print(inspect.getsource(f))
if __name__ == "__main__":
main()
Executing it gives you (mind the indention!):
x, f = 3, lambda a: a + 1
To retrieve the source code of the lambda, your best bet, in my opinion, is to re-parse the whole source file (by using f.__code__.co_filename) and match the lambda AST node by the line number and its context.
We had to do precisely that in our design-by-contract library icontract since we had to parse the lambda functions we pass in as arguments to decorators. It is too much code to paste here, so have a look at the implementation of this function.
If you're strictly defining the function yourself and it's a relatively short definition, a solution without dependencies would be to define the function in a string and assign the eval() of the expression to your function.
E.g.
funcstring = 'lambda x: x> 5'
func = eval(funcstring)
then optionally to attach the original code to the function:
func.source = funcstring
Rafał Dowgird's answer states:
I believe that if the function is compiled from a string, stream or imported from a compiled file, then you cannot retrieve its source code.
However, it is possible to retrieve the source code of a function compiled from a string, provided that the compiling code also added an entry to the linecache.cache dict:
import linecache
import inspect
script = '''
def add_nums(a, b):
return a + b
'''
bytecode = compile(script, 'unique_filename', 'exec')
tmp = {}
eval(bytecode, {}, tmp)
add_nums = tmp["add_nums"]
linecache.cache['unique_filename'] = (
len(script),
None,
script.splitlines(True),
'unique_filename',
)
print(inspect.getsource(add_nums))
# prints:
# """
# def add_nums(a, b):
# return a + b
# """
This is how the attrs library creates various methods for classes automatically, given a set of attributes that the class expects to be initialized with. See their source code here. As the source explains, this is a feature primarily intended to enable debuggers such as PDB to step through the code.
I believe that variable names aren't stored in pyc/pyd/pyo files, so you can not retrieve the exact code lines if you don't have source files.
Suppose I have a Python function as defined below:
def foo(arg1,arg2):
#do something with args
a = arg1 + arg2
return a
I can get the name of the function using foo.func_name. How can I programmatically get its source code, as I typed above?
If the function is from a source file available on the filesystem, then inspect.getsource(foo) might be of help:
If foo is defined as:
def foo(arg1,arg2):
#do something with args
a = arg1 + arg2
return a
Then:
import inspect
lines = inspect.getsource(foo)
print(lines)
Returns:
def foo(arg1,arg2):
#do something with args
a = arg1 + arg2
return a
But I believe that if the function is compiled from a string, stream or imported from a compiled file, then you cannot retrieve its source code.
The inspect module has methods for retrieving source code from python objects. Seemingly it only works if the source is located in a file though. If you had that I guess you wouldn't need to get the source from the object.
The following tests inspect.getsource(foo) using Python 3.6:
import inspect
def foo(arg1,arg2):
#do something with args
a = arg1 + arg2
return a
source_foo = inspect.getsource(foo) # foo is normal function
print(source_foo)
source_max = inspect.getsource(max) # max is a built-in function
print(source_max)
This first prints:
def foo(arg1,arg2):
#do something with args
a = arg1 + arg2
return a
Then fails on inspect.getsource(max) with the following error:
TypeError: <built-in function max> is not a module, class, method, function, traceback, frame, or code object
Just use foo?? or ??foo.
If you are using IPython, then you need to type foo?? or ??foo to see the complete source code. To see only the docstring in the function, use foo? or ?foo. This works in Jupyter notebook as well.
In [19]: foo??
Signature: foo(arg1, arg2)
Source:
def foo(arg1,arg2):
#do something with args
a = arg1 + arg2
return a
File: ~/Desktop/<ipython-input-18-3174e3126506>
Type: function
dis is your friend if the source code is not available:
>>> import dis
>>> def foo(arg1,arg2):
... #do something with args
... a = arg1 + arg2
... return a
...
>>> dis.dis(foo)
3 0 LOAD_FAST 0 (arg1)
3 LOAD_FAST 1 (arg2)
6 BINARY_ADD
7 STORE_FAST 2 (a)
4 10 LOAD_FAST 2 (a)
13 RETURN_VALUE
While I'd generally agree that inspect is a good answer, I'd disagree that you can't get the source code of objects defined in the interpreter. If you use dill.source.getsource from dill, you can get the source of functions and lambdas, even if they are defined interactively.
It also can get the code for from bound or unbound class methods and functions defined in curries... however, you might not be able to compile that code without the enclosing object's code.
>>> from dill.source import getsource
>>>
>>> def add(x,y):
... return x+y
...
>>> squared = lambda x:x**2
>>>
>>> print getsource(add)
def add(x,y):
return x+y
>>> print getsource(squared)
squared = lambda x:x**2
>>>
>>> class Foo(object):
... def bar(self, x):
... return x*x+x
...
>>> f = Foo()
>>>
>>> print getsource(f.bar)
def bar(self, x):
return x*x+x
>>>
To expand on runeh's answer:
>>> def foo(a):
... x = 2
... return x + a
>>> import inspect
>>> inspect.getsource(foo)
u'def foo(a):\n x = 2\n return x + a\n'
print inspect.getsource(foo)
def foo(a):
x = 2
return x + a
EDIT: As pointed out by #0sh this example works using ipython but not plain python. It should be fine in both, however, when importing code from source files.
Since this post is marked as the duplicate of this other post, I answer here for the "lambda" case, although the OP is not about lambdas.
So, for lambda functions that are not defined in their own lines: in addition to marko.ristin's answer, you may wish to use mini-lambda or use SymPy as suggested in this answer.
mini-lambda is lighter and supports any kind of operation, but works only for a single variable
SymPy is heavier but much more equipped with mathematical/calculus operations. In particular it can simplify your expressions. It also supports several variables in the same expression.
Here is how you can do it using mini-lambda:
from mini_lambda import x, is_mini_lambda_expr
import inspect
def get_source_code_str(f):
if is_mini_lambda_expr(f):
return f.to_string()
else:
return inspect.getsource(f)
# test it
def foo(arg1, arg2):
# do something with args
a = arg1 + arg2
return a
print(get_source_code_str(foo))
print(get_source_code_str(x ** 2))
It correctly yields
def foo(arg1, arg2):
# do something with args
a = arg1 + arg2
return a
x ** 2
See mini-lambda documentation for details. I'm the author by the way ;)
You can use inspect module to get full source code for that. You have to use getsource() method for that from the inspect module. For example:
import inspect
def get_my_code():
x = "abcd"
return x
print(inspect.getsource(get_my_code))
You can check it out more options on the below link.
retrieve your python code
to summarize :
import inspect
print( "".join(inspect.getsourcelines(foo)[0]))
Please mind that the accepted answers work only if the lambda is given on a separate line. If you pass it in as an argument to a function and would like to retrieve the code of the lambda as object, the problem gets a bit tricky since inspect will give you the whole line.
For example, consider a file test.py:
import inspect
def main():
x, f = 3, lambda a: a + 1
print(inspect.getsource(f))
if __name__ == "__main__":
main()
Executing it gives you (mind the indention!):
x, f = 3, lambda a: a + 1
To retrieve the source code of the lambda, your best bet, in my opinion, is to re-parse the whole source file (by using f.__code__.co_filename) and match the lambda AST node by the line number and its context.
We had to do precisely that in our design-by-contract library icontract since we had to parse the lambda functions we pass in as arguments to decorators. It is too much code to paste here, so have a look at the implementation of this function.
If you're strictly defining the function yourself and it's a relatively short definition, a solution without dependencies would be to define the function in a string and assign the eval() of the expression to your function.
E.g.
funcstring = 'lambda x: x> 5'
func = eval(funcstring)
then optionally to attach the original code to the function:
func.source = funcstring
Rafał Dowgird's answer states:
I believe that if the function is compiled from a string, stream or imported from a compiled file, then you cannot retrieve its source code.
However, it is possible to retrieve the source code of a function compiled from a string, provided that the compiling code also added an entry to the linecache.cache dict:
import linecache
import inspect
script = '''
def add_nums(a, b):
return a + b
'''
bytecode = compile(script, 'unique_filename', 'exec')
tmp = {}
eval(bytecode, {}, tmp)
add_nums = tmp["add_nums"]
linecache.cache['unique_filename'] = (
len(script),
None,
script.splitlines(True),
'unique_filename',
)
print(inspect.getsource(add_nums))
# prints:
# """
# def add_nums(a, b):
# return a + b
# """
This is how the attrs library creates various methods for classes automatically, given a set of attributes that the class expects to be initialized with. See their source code here. As the source explains, this is a feature primarily intended to enable debuggers such as PDB to step through the code.
I believe that variable names aren't stored in pyc/pyd/pyo files, so you can not retrieve the exact code lines if you don't have source files.
Suppose I have a Python function as defined below:
def foo(arg1,arg2):
#do something with args
a = arg1 + arg2
return a
I can get the name of the function using foo.func_name. How can I programmatically get its source code, as I typed above?
If the function is from a source file available on the filesystem, then inspect.getsource(foo) might be of help:
If foo is defined as:
def foo(arg1,arg2):
#do something with args
a = arg1 + arg2
return a
Then:
import inspect
lines = inspect.getsource(foo)
print(lines)
Returns:
def foo(arg1,arg2):
#do something with args
a = arg1 + arg2
return a
But I believe that if the function is compiled from a string, stream or imported from a compiled file, then you cannot retrieve its source code.
The inspect module has methods for retrieving source code from python objects. Seemingly it only works if the source is located in a file though. If you had that I guess you wouldn't need to get the source from the object.
The following tests inspect.getsource(foo) using Python 3.6:
import inspect
def foo(arg1,arg2):
#do something with args
a = arg1 + arg2
return a
source_foo = inspect.getsource(foo) # foo is normal function
print(source_foo)
source_max = inspect.getsource(max) # max is a built-in function
print(source_max)
This first prints:
def foo(arg1,arg2):
#do something with args
a = arg1 + arg2
return a
Then fails on inspect.getsource(max) with the following error:
TypeError: <built-in function max> is not a module, class, method, function, traceback, frame, or code object
Just use foo?? or ??foo.
If you are using IPython, then you need to type foo?? or ??foo to see the complete source code. To see only the docstring in the function, use foo? or ?foo. This works in Jupyter notebook as well.
In [19]: foo??
Signature: foo(arg1, arg2)
Source:
def foo(arg1,arg2):
#do something with args
a = arg1 + arg2
return a
File: ~/Desktop/<ipython-input-18-3174e3126506>
Type: function
dis is your friend if the source code is not available:
>>> import dis
>>> def foo(arg1,arg2):
... #do something with args
... a = arg1 + arg2
... return a
...
>>> dis.dis(foo)
3 0 LOAD_FAST 0 (arg1)
3 LOAD_FAST 1 (arg2)
6 BINARY_ADD
7 STORE_FAST 2 (a)
4 10 LOAD_FAST 2 (a)
13 RETURN_VALUE
While I'd generally agree that inspect is a good answer, I'd disagree that you can't get the source code of objects defined in the interpreter. If you use dill.source.getsource from dill, you can get the source of functions and lambdas, even if they are defined interactively.
It also can get the code for from bound or unbound class methods and functions defined in curries... however, you might not be able to compile that code without the enclosing object's code.
>>> from dill.source import getsource
>>>
>>> def add(x,y):
... return x+y
...
>>> squared = lambda x:x**2
>>>
>>> print getsource(add)
def add(x,y):
return x+y
>>> print getsource(squared)
squared = lambda x:x**2
>>>
>>> class Foo(object):
... def bar(self, x):
... return x*x+x
...
>>> f = Foo()
>>>
>>> print getsource(f.bar)
def bar(self, x):
return x*x+x
>>>
To expand on runeh's answer:
>>> def foo(a):
... x = 2
... return x + a
>>> import inspect
>>> inspect.getsource(foo)
u'def foo(a):\n x = 2\n return x + a\n'
print inspect.getsource(foo)
def foo(a):
x = 2
return x + a
EDIT: As pointed out by #0sh this example works using ipython but not plain python. It should be fine in both, however, when importing code from source files.
Since this post is marked as the duplicate of this other post, I answer here for the "lambda" case, although the OP is not about lambdas.
So, for lambda functions that are not defined in their own lines: in addition to marko.ristin's answer, you may wish to use mini-lambda or use SymPy as suggested in this answer.
mini-lambda is lighter and supports any kind of operation, but works only for a single variable
SymPy is heavier but much more equipped with mathematical/calculus operations. In particular it can simplify your expressions. It also supports several variables in the same expression.
Here is how you can do it using mini-lambda:
from mini_lambda import x, is_mini_lambda_expr
import inspect
def get_source_code_str(f):
if is_mini_lambda_expr(f):
return f.to_string()
else:
return inspect.getsource(f)
# test it
def foo(arg1, arg2):
# do something with args
a = arg1 + arg2
return a
print(get_source_code_str(foo))
print(get_source_code_str(x ** 2))
It correctly yields
def foo(arg1, arg2):
# do something with args
a = arg1 + arg2
return a
x ** 2
See mini-lambda documentation for details. I'm the author by the way ;)
You can use inspect module to get full source code for that. You have to use getsource() method for that from the inspect module. For example:
import inspect
def get_my_code():
x = "abcd"
return x
print(inspect.getsource(get_my_code))
You can check it out more options on the below link.
retrieve your python code
to summarize :
import inspect
print( "".join(inspect.getsourcelines(foo)[0]))
Please mind that the accepted answers work only if the lambda is given on a separate line. If you pass it in as an argument to a function and would like to retrieve the code of the lambda as object, the problem gets a bit tricky since inspect will give you the whole line.
For example, consider a file test.py:
import inspect
def main():
x, f = 3, lambda a: a + 1
print(inspect.getsource(f))
if __name__ == "__main__":
main()
Executing it gives you (mind the indention!):
x, f = 3, lambda a: a + 1
To retrieve the source code of the lambda, your best bet, in my opinion, is to re-parse the whole source file (by using f.__code__.co_filename) and match the lambda AST node by the line number and its context.
We had to do precisely that in our design-by-contract library icontract since we had to parse the lambda functions we pass in as arguments to decorators. It is too much code to paste here, so have a look at the implementation of this function.
If you're strictly defining the function yourself and it's a relatively short definition, a solution without dependencies would be to define the function in a string and assign the eval() of the expression to your function.
E.g.
funcstring = 'lambda x: x> 5'
func = eval(funcstring)
then optionally to attach the original code to the function:
func.source = funcstring
Rafał Dowgird's answer states:
I believe that if the function is compiled from a string, stream or imported from a compiled file, then you cannot retrieve its source code.
However, it is possible to retrieve the source code of a function compiled from a string, provided that the compiling code also added an entry to the linecache.cache dict:
import linecache
import inspect
script = '''
def add_nums(a, b):
return a + b
'''
bytecode = compile(script, 'unique_filename', 'exec')
tmp = {}
eval(bytecode, {}, tmp)
add_nums = tmp["add_nums"]
linecache.cache['unique_filename'] = (
len(script),
None,
script.splitlines(True),
'unique_filename',
)
print(inspect.getsource(add_nums))
# prints:
# """
# def add_nums(a, b):
# return a + b
# """
This is how the attrs library creates various methods for classes automatically, given a set of attributes that the class expects to be initialized with. See their source code here. As the source explains, this is a feature primarily intended to enable debuggers such as PDB to step through the code.
I believe that variable names aren't stored in pyc/pyd/pyo files, so you can not retrieve the exact code lines if you don't have source files.
If you type help(vars), the following is produced:
vars(...)
vars([object]) -> dictionary
Without arguments, equivalent to locals().
With an argument, equivalent to object.__dict__.
When I do the following:
def func(x, y): pass
help(func)
it displays this:
func(x, y)
How can I change it so that it shows up with ... between the parentheses like the built-in function vars()? (That is, func(...))
Edit: It has been suggested to use a docstring, but that won't do what I want. Here is an example:
def func(x, y):
"""func(...) -> None"""
help(func)
result:
func(x, y)
func(...) -> None
You see, x, y is still being displayed instead of ...
You have (at least) two alternatives to achieve what you want.
The best alternative would be to override the __str__ method of the inspect.Signature class. However, as it is written in C, it is read only.
So to do that you need to extend the class as following:
class MySignature(inspect.Signature):
def __str__(self):
return '(...)'
then after defining your function you execute:
func_signature = inspect.signature(func)
func.__signature__ = MySignature(func_signature.parameters.values(),
return_annotation=func_signature.return_annotation)
which would then return the following for help(func):
Help on function func in module __main__:
func(...)
(END)
With this approach inspect.signature still works:
In [1]: inspect.signature(func)
Out[1]: <MySignature (...)>
Alternatively if you don't really care about being able to properly introspect your function (and probably some other use cases), then you can define the value of your function's __signature__ to an object which is not a Signature instance:
def func(x, y):
pass
func.__signature__ = object()
help(func)
generates the result:
Help on function func in module __main__:
func(...)
(END)
But now inspect.signature(func) will raise TypeError: unexpected object <object object at 0x10182e200> in __signature__ attribute.
Note: this last version is quite hacky and I would not recommend it.
For more info on these two techniques and how the signature works see PEP 0362.
Update:
For python 2.7 you can do the following (probably better using a mock framework):
In [1]: import inspect
In [2]: def myformatargspec(*args, **kwargs):
...: return '(...)'
...:
In [3]: def func(x, y):
...: pass
...:
In [6]: inspect.formatargspec = myformatargspec
In [7]: help(func)
Help on function func in module __main__:
func(...)
(END)
Is it possible to do something like the following:
class foo():
def bar(): # a method that doesn't take any args
# slow calculation
return somefloat
b = bar # bar is a function but b just gives you the float attribute
f = foo()
f.b # returns somefloat but doesn't require the empty parentheses
I hope the example is clear since I'm not super clear on what the terminology is for what I want to do. My basic goal is to remove a bunch of parentheses for methods that don't have arguments to make the code cleaner to read.
The function is slow and rarely used so it would be easiest to calculate it real time rather than calculate it once ahead of time and store the variable.
Is this possible? Is it good practice? Is there a better way?
The standard way to achieve this is to use property, which is a decorator:
class Foo():
#property
def bar(self):
# slow calculation
return somefloat
f = Foo()
f.bar # returns somefloat but doesn't require the empty parentheses
A couple of things to notice:
You still need self in the method signature as usual, because sometimes you're going to need to refer to e.g. self.some_attribute inside the method. As you can see, that doesn't affect the use of the property at all.
There's no need to clutter your API with both a f.bar() method and a f.b property - it's better to decide what makes most sense for your class than offer a heap of different ways to do the same thing.
b = bar obviously wouldn't work. However a property would for the simplest "doesn't require the empty parentheses" ask of yours:
b = property(bar)
Now every access to f.b will call f.bar() "behind the curtains".
However this means that if you access f.b twice, f.bar() gets called twice, repeating the computation. If the repetition is irrelevant (i.e if the result doesn't change for repeated computations on the same object) you can do better ("caching" the result in f.b forever once it's first been computed) -- something like:
class foo(object):
def bar(self): # a method that doesn't take any args
# slow calculation
return somefloat
def _cache_bar(self):
result = self.bar()
setattr(self, 'b', result)
return result
b = property(_cache_bar)
By static method, but need to call by parentheses.
class foo(object):
#staticmethod
def bar(): # a method that doesn't take any args
# slow calculation
return "abc"
b = bar # bar is a function but b just gives you the float attribute
f = foo()
print f.b()
output:
$ python test.py
abc