Python function invoked before definition - python

I am confused about the below given code in Python where a function has been called before its definition. Is it possible? Is it because the function does not return a value?
from Circle import Circle
def main():
myCircle = Circle()
n = 5
printAreas(myCircle, n) #The function is called here
def printAreas(c, times):
xxxx
xxxx
main()

What happens in your program:
main is defined, with a reference to printAreas in its body—note, this is just a reference, not a call
printAreas is defined
main is invoked
main calls printAreas.
So all is good—you are allowed to reference any names you want at any time you want, as long as you ensure these names will have been defined (bound to a value) by the time the code containing the reference is executed:
def foo():
print bar # reference to as-of-yet non-existent bar
# calling foo here would be an error
bar = 3
foo() # prints 3

Python will first parse your file, register all function, variables, etc into the global namespace. It will then call the main function, which will then call printAreas. At the time, both functions are in your script namespace, and hence perfectly accessible.
The thing that is confusing you is just the reading order.

You are calling main at the end of your program. This allows the interpreter to load up all your functions and then start your main function.

Related

Function prototype in python? [duplicate]

Is it possible to forward-declare a function in Python? I want to sort a list using my own cmp function before it is declared.
print "\n".join([str(bla) for bla in sorted(mylist, cmp = cmp_configs)])
I've put the definition of cmp_configs method after the invocation. It fails with this error:
NameError: name 'cmp_configs' is not defined
Is there any way to "declare" cmp_configs method before it's used?
Sometimes, it is difficult to reorganize code to avoid this problem. For instance, when implementing some forms of recursion:
def spam():
if end_condition():
return end_result()
else:
return eggs()
def eggs():
if end_condition():
return end_result()
else:
return spam()
Where end_condition and end_result have been previously defined.
Is the only solution to reorganize the code and always put definitions before invocations?
Wrap the invocation into a function of its own so that
foo()
def foo():
print "Hi!"
will break, but
def bar():
foo()
def foo():
print "Hi!"
bar()
will work properly.
The general rule in Python is that a function should be defined before its usage, which does not necessarily mean it needs to be higher in the code.
If you kick-start your script through the following:
if __name__=="__main__":
main()
then you probably do not have to worry about things like "forward declaration". You see, the interpreter would go loading up all your functions and then start your main() function. Of course, make sure you have all the imports correct too ;-)
Come to think of it, I've never heard such a thing as "forward declaration" in python... but then again, I might be wrong ;-)
If you don't want to define a function before it's used, and defining it afterwards is impossible, what about defining it in some other module?
Technically you still define it first, but it's clean.
You could create a recursion like the following:
def foo():
bar()
def bar():
foo()
Python's functions are anonymous just like values are anonymous, yet they can be bound to a name.
In the above code, foo() does not call a function with the name foo, it calls a function that happens to be bound to the name foo at the point the call is made. It is possible to redefine foo somewhere else, and bar would then call the new function.
Your problem cannot be solved because it's like asking to get a variable which has not been declared.
I apologize for reviving this thread, but there was a strategy not discussed here which may be applicable.
Using reflection it is possible to do something akin to forward declaration. For instance lets say you have a section of code that looks like this:
# We want to call a function called 'foo', but it hasn't been defined yet.
function_name = 'foo'
# Calling at this point would produce an error
# Here is the definition
def foo():
bar()
# Note that at this point the function is defined
# Time for some reflection...
globals()[function_name]()
So in this way we have determined what function we want to call before it is actually defined, effectively a forward declaration. In python the statement globals()[function_name]() is the same as foo() if function_name = 'foo' for the reasons discussed above, since python must lookup each function before calling it. If one were to use the timeit module to see how these two statements compare, they have the exact same computational cost.
Of course the example here is very useless, but if one were to have a complex structure which needed to execute a function, but must be declared before (or structurally it makes little sense to have it afterwards), one can just store a string and try to call the function later.
If the call to cmp_configs is inside its own function definition, you should be fine. I'll give an example.
def a():
b() # b() hasn't been defined yet, but that's fine because at this point, we're not
# actually calling it. We're just defining what should happen when a() is called.
a() # This call fails, because b() hasn't been defined yet,
# and thus trying to run a() fails.
def b():
print "hi"
a() # This call succeeds because everything has been defined.
In general, putting your code inside functions (such as main()) will resolve your problem; just call main() at the end of the file.
There is no such thing in python like forward declaration. You just have to make sure that your function is declared before it is needed.
Note that the body of a function isn't interpreted until the function is executed.
Consider the following example:
def a():
b() # won't be resolved until a is invoked.
def b():
print "hello"
a() # here b is already defined so this line won't fail.
You can think that a body of a function is just another script that will be interpreted once you call the function.
Sometimes an algorithm is easiest to understand top-down, starting with the overall structure and drilling down into the details.
You can do so without forward declarations:
def main():
make_omelet()
eat()
def make_omelet():
break_eggs()
whisk()
fry()
def break_eggs():
for egg in carton:
break(egg)
# ...
main()
# declare a fake function (prototype) with no body
def foo(): pass
def bar():
# use the prototype however you see fit
print(foo(), "world!")
# define the actual function (overwriting the prototype)
def foo():
return "Hello,"
bar()
Output:
Hello, world!
No, I don't believe there is any way to forward-declare a function in Python.
Imagine you are the Python interpreter. When you get to the line
print "\n".join([str(bla) for bla in sorted(mylist, cmp = cmp_configs)])
either you know what cmp_configs is or you don't. In order to proceed, you have to
know cmp_configs. It doesn't matter if there is recursion.
You can't forward-declare a function in Python. If you have logic executing before you've defined functions, you've probably got a problem anyways. Put your action in an if __name__ == '__main__' at the end of your script (by executing a function you name "main" if it's non-trivial) and your code will be more modular and you'll be able to use it as a module if you ever need to.
Also, replace that list comprehension with a generator express (i.e., print "\n".join(str(bla) for bla in sorted(mylist, cmp=cmp_configs)))
Also, don't use cmp, which is deprecated. Use key and provide a less-than function.
Import the file itself. Assuming the file is called test.py:
import test
if __name__=='__main__':
test.func()
else:
def func():
print('Func worked')
TL;DR: Python does not need forward declarations. Simply put your function calls inside function def definitions, and you'll be fine.
def foo(count):
print("foo "+str(count))
if(count>0):
bar(count-1)
def bar(count):
print("bar "+str(count))
if(count>0):
foo(count-1)
foo(3)
print("Finished.")
recursive function definitions, perfectly successfully gives:
foo 3
bar 2
foo 1
bar 0
Finished.
However,
bug(13)
def bug(count):
print("bug never runs "+str(count))
print("Does not print this.")
breaks at the top-level invocation of a function that hasn't been defined yet, and gives:
Traceback (most recent call last):
File "./test1.py", line 1, in <module>
bug(13)
NameError: name 'bug' is not defined
Python is an interpreted language, like Lisp. It has no type checking, only run-time function invocations, which succeed if the function name has been bound and fail if it's unbound.
Critically, a function def definition does not execute any of the funcalls inside its lines, it simply declares what the function body is going to consist of. Again, it doesn't even do type checking. So we can do this:
def uncalled():
wild_eyed_undefined_function()
print("I'm not invoked!")
print("Only run this one line.")
and it runs perfectly fine (!), with output
Only run this one line.
The key is the difference between definitions and invocations.
The interpreter executes everything that comes in at the top level, which means it tries to invoke it. If it's not inside a definition.
Your code is running into trouble because you attempted to invoke a function, at the top level in this case, before it was bound.
The solution is to put your non-top-level function invocations inside a function definition, then call that function sometime much later.
The business about "if __ main __" is an idiom based on this principle, but you have to understand why, instead of simply blindly following it.
There are certainly much more advanced topics concerning lambda functions and rebinding function names dynamically, but these are not what the OP was asking for. In addition, they can be solved using these same principles: (1) defs define a function, they do not invoke their lines; (2) you get in trouble when you invoke a function symbol that's unbound.
Python does not support forward declarations, but common workaround for this is use of the the following condition at the end of your script/code:
if __name__ == '__main__': main()
With this it will read entire file first and then evaluate condition and call main() function which will be able to call any forward declared function as it already read the entire file first. This condition leverages special variable __name__ which returns __main__ value whenever we run Python code from current file (when code was imported as a module, then __name__ returns module name).
"just reorganize my code so that I don't have this problem." Correct. Easy to do. Always works.
You can always provide the function prior to it's reference.
"However, there are cases when this is probably unavoidable, for instance when implementing some forms of recursion"
Can't see how that's even remotely possible. Please provide an example of a place where you cannot define the function prior to it's use.
Now wait a minute. When your module reaches the print statement in your example, before cmp_configs has been defined, what exactly is it that you expect it to do?
If your posting of a question using print is really trying to represent something like this:
fn = lambda mylist:"\n".join([str(bla)
for bla in sorted(mylist, cmp = cmp_configs)])
then there is no requirement to define cmp_configs before executing this statement, just define it later in the code and all will be well.
Now if you are trying to reference cmp_configs as a default value of an argument to the lambda, then this is a different story:
fn = lambda mylist,cmp_configs=cmp_configs : \
"\n".join([str(bla) for bla in sorted(mylist, cmp = cmp_configs)])
Now you need a cmp_configs variable defined before you reach this line.
[EDIT - this next part turns out not to be correct, since the default argument value will get assigned when the function is compiled, and that value will be used even if you change the value of cmp_configs later.]
Fortunately, Python being so type-accommodating as it is, does not care what you define as cmp_configs, so you could just preface with this statement:
cmp_configs = None
And the compiler will be happy. Just be sure to declare the real cmp_configs before you ever invoke fn.
Python technically has support for forward declaration.
if you define a function/class then set the body to pass, it will have an empty entry in the global table.
you can then "redefine" the function/class later on to implement the function/class.
unlike c/c++ forward declaration though, this does not work from outside the scope (i.e. another file) as they have their own "global" namespace
example:
def foo(): pass
foo()
def foo(): print("FOOOOO")
foo()
foo is declared both times
however the first time foo is called it does not do anything as the body is just pass
but the second time foo is called. it executes the new body of print("FOOOOO")
but again. note that this does not fix circular dependancies. this is because files have their own name and have their own definitions of functions
example 2:
class bar: pass
print(bar)
this prints <class '__main__.bar'> but if it was declared in another file it would be <class 'otherfile.foo'>
i know this post is old, but i though that this answer would be useful to anyone who keeps finding this post after the many years it has been posted for
One way is to create a handler function. Define the handler early on, and put the handler below all the methods you need to call.
Then when you invoke the handler method to call your functions, they will always be available.
The handler could take an argument nameOfMethodToCall. Then uses a bunch of if statements to call the right method.
This would solve your issue.
def foo():
print("foo")
#take input
nextAction=input('What would you like to do next?:')
return nextAction
def bar():
print("bar")
nextAction=input('What would you like to do next?:')
return nextAction
def handler(action):
if(action=="foo"):
nextAction = foo()
elif(action=="bar"):
nextAction = bar()
else:
print("You entered invalid input, defaulting to bar")
nextAction = "bar"
return nextAction
nextAction=input('What would you like to do next?:')
while 1:
nextAction = handler(nextAction)

Why does two main functions in a single Python script work?

I was trying to do silly things in Python and tried the silliest of the things (see below) to see how Python reacts. To my surprise it executed perfectly. But I do not understand why.
How does Python know which foo to execute? Why does it not execute the same foo twice?
def main():
foo()
def foo():
print('this is foo 1.')
if __name__ == '__main__':
main()
def main():
foo()
def foo():
print('this is foo 2.')
if __name__ == '__main__':
main()
Python executes statements from top to bottom as they appear in the input file.
So first it defines two functions main and foo and then calls main, leading to the output from foo, "this is foo 1".
Then it defines two other functions which happen to be also named main and foo, these names now refer to the new functions and the first two functions are no longer accessible by these names. You could also say that the new functions override the old functions or that they are redefined.
Then it calls main (which now refers to the new function) which leads to the output of the new function foo, "this is foo 2".
Also note that the function name main has no special meaning in Python.
The interpreter does these things, in the order they appear in the file:
Defines main as your first definition of that function.
Defines foo as your first definition of that function.
Because __name__ is __main__: executes the function (currently defined as main) which calls the function currently defined as foo.
Redefines main as your second definition of that function. (Albeit that's no different from the first definition.)
Redefines foo as your second definition of that function.
Because __name__ is __main__: executes the function (currently defined as main) which calls the function currently defined as foo, which by now is your second foo.
You might be assuming that the interpreter somehow does a "first pass" and processes all function definitions, and only then executes the code under if __name__ == '__main__'. But that's not how it works. The steps are executed in order, like they would be if you ran:
x = 5
y = 7
print(x+y)
x = 6
y = 10
print(x+y)
For similar reasons, this code would not work:
if __name__ == '__main__':
foo()
def foo():
print(2)
because foo is undefined at the point it is referenced.
When main is called the first time, foo is the function that prints "This is foo 1.". When main is called the second time, foo is the function that prints "This is foo 2." Therefore, the first time, "This is foo 1." is the output, and the second time, "This is foo 2." is the output.
Python is in interpretted language so it executes each line as it encounters it.
Which means if you ran this on the python shell or as a script your output would be determined by whatever is encountered first foo() - foo1, and then the newer value of the function foo() - foo2
Output:
this is foo 1.
this is foo 2.

General Question about function and returning variable - python [duplicate]

Is it possible to forward-declare a function in Python? I want to sort a list using my own cmp function before it is declared.
print "\n".join([str(bla) for bla in sorted(mylist, cmp = cmp_configs)])
I've put the definition of cmp_configs method after the invocation. It fails with this error:
NameError: name 'cmp_configs' is not defined
Is there any way to "declare" cmp_configs method before it's used?
Sometimes, it is difficult to reorganize code to avoid this problem. For instance, when implementing some forms of recursion:
def spam():
if end_condition():
return end_result()
else:
return eggs()
def eggs():
if end_condition():
return end_result()
else:
return spam()
Where end_condition and end_result have been previously defined.
Is the only solution to reorganize the code and always put definitions before invocations?
Wrap the invocation into a function of its own so that
foo()
def foo():
print "Hi!"
will break, but
def bar():
foo()
def foo():
print "Hi!"
bar()
will work properly.
The general rule in Python is that a function should be defined before its usage, which does not necessarily mean it needs to be higher in the code.
If you kick-start your script through the following:
if __name__=="__main__":
main()
then you probably do not have to worry about things like "forward declaration". You see, the interpreter would go loading up all your functions and then start your main() function. Of course, make sure you have all the imports correct too ;-)
Come to think of it, I've never heard such a thing as "forward declaration" in python... but then again, I might be wrong ;-)
If you don't want to define a function before it's used, and defining it afterwards is impossible, what about defining it in some other module?
Technically you still define it first, but it's clean.
You could create a recursion like the following:
def foo():
bar()
def bar():
foo()
Python's functions are anonymous just like values are anonymous, yet they can be bound to a name.
In the above code, foo() does not call a function with the name foo, it calls a function that happens to be bound to the name foo at the point the call is made. It is possible to redefine foo somewhere else, and bar would then call the new function.
Your problem cannot be solved because it's like asking to get a variable which has not been declared.
I apologize for reviving this thread, but there was a strategy not discussed here which may be applicable.
Using reflection it is possible to do something akin to forward declaration. For instance lets say you have a section of code that looks like this:
# We want to call a function called 'foo', but it hasn't been defined yet.
function_name = 'foo'
# Calling at this point would produce an error
# Here is the definition
def foo():
bar()
# Note that at this point the function is defined
# Time for some reflection...
globals()[function_name]()
So in this way we have determined what function we want to call before it is actually defined, effectively a forward declaration. In python the statement globals()[function_name]() is the same as foo() if function_name = 'foo' for the reasons discussed above, since python must lookup each function before calling it. If one were to use the timeit module to see how these two statements compare, they have the exact same computational cost.
Of course the example here is very useless, but if one were to have a complex structure which needed to execute a function, but must be declared before (or structurally it makes little sense to have it afterwards), one can just store a string and try to call the function later.
If the call to cmp_configs is inside its own function definition, you should be fine. I'll give an example.
def a():
b() # b() hasn't been defined yet, but that's fine because at this point, we're not
# actually calling it. We're just defining what should happen when a() is called.
a() # This call fails, because b() hasn't been defined yet,
# and thus trying to run a() fails.
def b():
print "hi"
a() # This call succeeds because everything has been defined.
In general, putting your code inside functions (such as main()) will resolve your problem; just call main() at the end of the file.
There is no such thing in python like forward declaration. You just have to make sure that your function is declared before it is needed.
Note that the body of a function isn't interpreted until the function is executed.
Consider the following example:
def a():
b() # won't be resolved until a is invoked.
def b():
print "hello"
a() # here b is already defined so this line won't fail.
You can think that a body of a function is just another script that will be interpreted once you call the function.
Sometimes an algorithm is easiest to understand top-down, starting with the overall structure and drilling down into the details.
You can do so without forward declarations:
def main():
make_omelet()
eat()
def make_omelet():
break_eggs()
whisk()
fry()
def break_eggs():
for egg in carton:
break(egg)
# ...
main()
# declare a fake function (prototype) with no body
def foo(): pass
def bar():
# use the prototype however you see fit
print(foo(), "world!")
# define the actual function (overwriting the prototype)
def foo():
return "Hello,"
bar()
Output:
Hello, world!
No, I don't believe there is any way to forward-declare a function in Python.
Imagine you are the Python interpreter. When you get to the line
print "\n".join([str(bla) for bla in sorted(mylist, cmp = cmp_configs)])
either you know what cmp_configs is or you don't. In order to proceed, you have to
know cmp_configs. It doesn't matter if there is recursion.
You can't forward-declare a function in Python. If you have logic executing before you've defined functions, you've probably got a problem anyways. Put your action in an if __name__ == '__main__' at the end of your script (by executing a function you name "main" if it's non-trivial) and your code will be more modular and you'll be able to use it as a module if you ever need to.
Also, replace that list comprehension with a generator express (i.e., print "\n".join(str(bla) for bla in sorted(mylist, cmp=cmp_configs)))
Also, don't use cmp, which is deprecated. Use key and provide a less-than function.
Import the file itself. Assuming the file is called test.py:
import test
if __name__=='__main__':
test.func()
else:
def func():
print('Func worked')
TL;DR: Python does not need forward declarations. Simply put your function calls inside function def definitions, and you'll be fine.
def foo(count):
print("foo "+str(count))
if(count>0):
bar(count-1)
def bar(count):
print("bar "+str(count))
if(count>0):
foo(count-1)
foo(3)
print("Finished.")
recursive function definitions, perfectly successfully gives:
foo 3
bar 2
foo 1
bar 0
Finished.
However,
bug(13)
def bug(count):
print("bug never runs "+str(count))
print("Does not print this.")
breaks at the top-level invocation of a function that hasn't been defined yet, and gives:
Traceback (most recent call last):
File "./test1.py", line 1, in <module>
bug(13)
NameError: name 'bug' is not defined
Python is an interpreted language, like Lisp. It has no type checking, only run-time function invocations, which succeed if the function name has been bound and fail if it's unbound.
Critically, a function def definition does not execute any of the funcalls inside its lines, it simply declares what the function body is going to consist of. Again, it doesn't even do type checking. So we can do this:
def uncalled():
wild_eyed_undefined_function()
print("I'm not invoked!")
print("Only run this one line.")
and it runs perfectly fine (!), with output
Only run this one line.
The key is the difference between definitions and invocations.
The interpreter executes everything that comes in at the top level, which means it tries to invoke it. If it's not inside a definition.
Your code is running into trouble because you attempted to invoke a function, at the top level in this case, before it was bound.
The solution is to put your non-top-level function invocations inside a function definition, then call that function sometime much later.
The business about "if __ main __" is an idiom based on this principle, but you have to understand why, instead of simply blindly following it.
There are certainly much more advanced topics concerning lambda functions and rebinding function names dynamically, but these are not what the OP was asking for. In addition, they can be solved using these same principles: (1) defs define a function, they do not invoke their lines; (2) you get in trouble when you invoke a function symbol that's unbound.
Python does not support forward declarations, but common workaround for this is use of the the following condition at the end of your script/code:
if __name__ == '__main__': main()
With this it will read entire file first and then evaluate condition and call main() function which will be able to call any forward declared function as it already read the entire file first. This condition leverages special variable __name__ which returns __main__ value whenever we run Python code from current file (when code was imported as a module, then __name__ returns module name).
"just reorganize my code so that I don't have this problem." Correct. Easy to do. Always works.
You can always provide the function prior to it's reference.
"However, there are cases when this is probably unavoidable, for instance when implementing some forms of recursion"
Can't see how that's even remotely possible. Please provide an example of a place where you cannot define the function prior to it's use.
Now wait a minute. When your module reaches the print statement in your example, before cmp_configs has been defined, what exactly is it that you expect it to do?
If your posting of a question using print is really trying to represent something like this:
fn = lambda mylist:"\n".join([str(bla)
for bla in sorted(mylist, cmp = cmp_configs)])
then there is no requirement to define cmp_configs before executing this statement, just define it later in the code and all will be well.
Now if you are trying to reference cmp_configs as a default value of an argument to the lambda, then this is a different story:
fn = lambda mylist,cmp_configs=cmp_configs : \
"\n".join([str(bla) for bla in sorted(mylist, cmp = cmp_configs)])
Now you need a cmp_configs variable defined before you reach this line.
[EDIT - this next part turns out not to be correct, since the default argument value will get assigned when the function is compiled, and that value will be used even if you change the value of cmp_configs later.]
Fortunately, Python being so type-accommodating as it is, does not care what you define as cmp_configs, so you could just preface with this statement:
cmp_configs = None
And the compiler will be happy. Just be sure to declare the real cmp_configs before you ever invoke fn.
Python technically has support for forward declaration.
if you define a function/class then set the body to pass, it will have an empty entry in the global table.
you can then "redefine" the function/class later on to implement the function/class.
unlike c/c++ forward declaration though, this does not work from outside the scope (i.e. another file) as they have their own "global" namespace
example:
def foo(): pass
foo()
def foo(): print("FOOOOO")
foo()
foo is declared both times
however the first time foo is called it does not do anything as the body is just pass
but the second time foo is called. it executes the new body of print("FOOOOO")
but again. note that this does not fix circular dependancies. this is because files have their own name and have their own definitions of functions
example 2:
class bar: pass
print(bar)
this prints <class '__main__.bar'> but if it was declared in another file it would be <class 'otherfile.foo'>
i know this post is old, but i though that this answer would be useful to anyone who keeps finding this post after the many years it has been posted for
One way is to create a handler function. Define the handler early on, and put the handler below all the methods you need to call.
Then when you invoke the handler method to call your functions, they will always be available.
The handler could take an argument nameOfMethodToCall. Then uses a bunch of if statements to call the right method.
This would solve your issue.
def foo():
print("foo")
#take input
nextAction=input('What would you like to do next?:')
return nextAction
def bar():
print("bar")
nextAction=input('What would you like to do next?:')
return nextAction
def handler(action):
if(action=="foo"):
nextAction = foo()
elif(action=="bar"):
nextAction = bar()
else:
print("You entered invalid input, defaulting to bar")
nextAction = "bar"
return nextAction
nextAction=input('What would you like to do next?:')
while 1:
nextAction = handler(nextAction)

python - get list of all functions in current module. inspecting current module does not work?

I have following code
fset = [ obj for name,obj in inspect.getmembers(sys.modules[__name__]) if inspect.isfunction(obj) ]
def func(num):
pass
if __name__ == "__main__":
print(fset)
prints
[]
however this
def func(num):
pass
fset = [ obj for name,obj in inspect.getmembers(sys.modules[__name__]) if inspect.isfunction(obj) ]
if __name__ == "__main__":
print(fset)
prints
[<function func at 0x7f35c29383b0>]
so how can fset be list of all functions in current module where fset is defined at the top of all functions ?
EDIT 1: What I am trying to do is
def testall(arg):
return any(f(arg) for f in testfunctions)
def test1(arg):
#code here
# may call testall but wont call anyother test*
def test2(arg):
#code here
# may call testall but wont call anyother test*
More test function may be added in the future. So thats the reason of fset/testfunctions
EDIT 1: What I am trying to do is
def testall(arg):
return any(f(arg) for f in testfunctions)
def test1(arg):
#code here
# may call testall but wont call anyother test*
This works just fine:
def testall(arg):
testfunctions = [obj for name,obj in inspect.getmembers(sys.modules[__name__])
if (inspect.isfunction(obj) and
name.startwith('test') and name != 'testall')]
return any(f(arg) for f in testfunctions)
def test1(arg):
#code here
# may call testall but wont call anyother test*
In this case, testfunctions isn't evaluated until testall is called, so there's no problem here—by that time, all top-level module code (including the test1 definition) will have been evaluated, so testfunctions will get all of the top-level functions. (I'm assuming here that testall or test1 is being called from an if __name__ == '__main__' block at the bottom of the module, or another script is doing import tests; tests.test1(10), or something similar.)
In fact, even if you explicitly named test1 and test2, there would be no problem:
def testall(arg):
testfunctions = ('test1',)
return any(f(arg) for f in testfunctions)
def test1(arg):
#code here
# may call testall but wont call anyother test*
Again, test1 is already defined by the time you call testall, so everything is fine.
If you want to understand why this works, you have to understand the stages here.
When you import a module, or run a top-level script, the first stage is compilation (unless there's already a cached .pyc file). The compiler doesn't need to know what value a name has, just whether it's local or global (or a closure cell), and it can already tell that sys and inspect and test1 are globals (because you don't assign to them in testall or in an enclosing scope).
Next, the interpreter executes the compiled bytecode for the top-level module, in order. This includes executing the function definitions. So, testall becomes a function, then test1 becomes a function, then test2 becomes a function. (A function is really just the appropriate compiled code, with some extra stuff attached, like the global namespace it was defined in.)
Later, when you call the testall function, the interpreter executes the function. This is when the list comprehension (in the first version) or the global name lookup (in the second) happens. Since the function definitions for test1 and test2 have already been evaluated and bound to global names in the module, everything works.
What if you instead later call test1, which calls testall? No problem. The interpreter executes test1, which has a call to testall, which is obviously already defined, so the interpreter calls that, and the rest is the same as in the previous paragraph.
So, what if you put a call to testall or test1 in between the test1 and test2 definitions? In that case, test2 wouldn't have been defined yet, so it would not appear in the list (first version), or would raise a NameError (second version). But as long as you don't do that, there's no problem. And there's no good reason to do so.
If you're worried about the horrible performance cost of computing testfunctions every time you call testall… Well, first, that's a silly worry; how many times are you going to call it? Are your functions really so fast that the time to call and filter getmembers even shows up on the radar? But if it really is a worry, just cache the value in your favorite of the usual ways—mutable default, privat global, function attribute, …:
def testall(arg, _functions_cache=[]):
if not _functions_cache:
_functions_cache.extend([…])
It can't be. Function definitions are executed in Python. The functions don't exist until their definition is executed. Your fset variable can't be defined until after the functions are defined.
To exclude any imported functions this works:
import sys
import inspect
[obj for name,obj in inspect.getmembers(sys.modules[__name__])
if (inspect.isfunction(obj) and
name.startswith('test') and
obj.__module__ == __name__)]

Declaration functions in python after call

$ cat declare_funcs.py
#!/usr/bin/python3
def declared_after():
print("good declared after")
declared_after()
$ python3 declare_funcs.py
good declared after
Change call place:
$ cat declare_funcs.py
#!/usr/bin/python3
declared_after()
def declared_after():
print("good declared after")
$ python3 declare_funcs.py
Traceback (most recent call last):
File "declare_funcs.py", line 4, in <module>
declared_after()
NameError: name 'declared_after' is not defined
Is there way to declare only header of function like it was in C/C++?
For example:
#!/usr/bin/python3
def declared_after() # declaration about defined function
declared_after()
def declared_after():
print("good declared after")
I found this Declare function at end of file in Python
Any way there appear another function in the beginning like wrapper, and this wrapper must be called after declaration of wrapped function, this is not an exit. Is there more elegant true-python way?
You can't forward-declare functions in Python. It doesn't make a lot of sense to do so, because Python is dynamically typed. You could do something silly like this, and what would expect it to do?
foo = 3
foo()
def foo():
print "bar"
Obviously, you are trying to __call__ the int object for 3. It's absolutely silly.
You ask if you can forward-declare like in C/C++. Well, you typically don't run C through an interpreter. However, although Python is compiled to bytecode, the python3 program is an interpreter.
Forward declaration in a compiled language makes sense because you are simply establishing a symbol and its type, and the compiler can run through the code several times to make sense of it. When you use an interpreter, however, you typically can't have that luxury, because you would have to run through the rest of the code to find the meaning of that forward declaration, and run through it again after having done that.
You can, of course, do something like this:
foo = lambda: None
foo()
def foo():
print "bar"
But you instantiated foo nonetheless. Everything has to point to an actual, existing object in Python.
This doesn't apply to def or class statements, though. These create a function or class object, but they don't execute the code inside yet. So, you have time to instantiate things inside them before their code runs.
def foo():
print bar()
# calling foo() won't work yet because you haven't defined bar()
def bar():
return "bar"
# now it will work
The difference was that you simply created function objects with the variable names foo and bar representing them respectively. You can now refer to these objects by those variable names.
With regard to the way that Python is typically interpreted (in CPython) you should make sure that you execute no code in your modules unless they are being run as the main program or unless you want them to do something when being imported (a rare, but valid case). You should do the following:
Put code meant to be executed into function and class definitions.
Unless the code only makes sense to be executed in the main program, put it in another module.
Use if __name__ == "__main__": to create a block of code which will only execute if the program is the main program.
In fact, you should do the third in all of your modules. You can simply write this at the bottom of every file which you don't want to be run as a main program:
if __name__ = "__main__":
pass
This prevents anything from happening if the module is imported.
Python doesn't work that way. The def is executed in sequence, top-to-bottom, with the remainder of the file's contents. You cannot call something before it is defined as a callable (e.g. a function), and even if you had a stand-in callable, it would not contain the code you are looking for.
This, of course, doesn't mean the code isn't compiled before execution begins—in fact, it is. But it is when the def is executed that declared_after is actually assigned the code within the def block, and not before.
Any tricks you pull to sort-of achieve your desired effect must have the effect of delaying the call to declared_after() until after it is defined, for example, by enclosing it in another def block that is itself called later.
One thing you can do is enclose everything in a main function:
def main():
declared_after()
def declared_after():
print("good declared after")
main()
However, the point still stands that the function must be defined prior to calling. This only works because main is called AFTER declared_after is defined.
As zigg wrote, Python files are executed in order they are written from top to bottom, so even if you could “declare” the variable before, the actual function body would only get there after the function was called.
The usual way to solve this is to just have a main function where all your standard execution stuff happens:
def main ():
# do stuff
declared_after();
def declared_after():
pass
main()
You can then also combine this with the __name__ == '__main__' idiom to make the function only execute when you are executing the module directly:
def main ():
# do stuff
declared_after();
def declared_after():
pass
if __name__ == '__main__':
main()

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