I have below decorator demonstration code. If I execute it without explicitly calling greet function, it is executing print statement inside decorator function and outputs Inside decorator.

I am unable to understand this behavior of decorator. How the time_decorator is called even if I didn't call greet function?

I am using Python 3.

def time_decorator(original_func):
    print('Inside decorator')
    def wrapper(*args, **kwargs):
        start = time.clock()
        result = original_func(*args, **kwargs)
        end = time.clock()
        print('{0} is executed in {1}'.format(original_func.__name__, end-start))
        return result
    return wrapper

def greet(name):
    return 'Hello {0}'.format(name)

Decorators are called at start time (when the python interpreter reads the code as the program starts), not at runtime (when the decorated function is actually called).

At runtime, it is the wrapped function wrapper which is called and which itself calls the decorated function and returns its result.

So this is totally normal that the print line gets executed.

If, i.e, you decorate 10 functions, you will see 10 times the print output. No need to even call the decorated functions for this to happen.

Move the print inside wrapper and this won't happen anymore.

Decorators as well as metaclasses are part of what is called meta-programming (modify / create code, from existing code). This is a really fascinating aspect of programming which takes time to understand but offers amazing possibilities.

  • Thank you @Apero! What is motivation behind calling decorator at compile time? Are there any objects that are called during compile time apart from decorators? – vivek ratnaparkhi Apr 5 '16 at 19:30
  • Yes, metaclasses also modify the classes they are "metaclassing" at compile time, not at runtime. Metaclasses and decorators can be seens like code hacks in a way, because they modify the code they respectively metaclass or decorate, without having to modify the initial code itself. Then whenever this "now code" gets called, the new hacked behaviour will happen. – Anthony Perot Apr 5 '16 at 19:31
  • I think saying "compile time" is rather misleading. Python function (and class) definitions are created by statements which are run by the interpreter at runtime (e.g. when you start the program), not at some earlier time (like Java or C programs). There is a compiling step involved with Python code (which gets from source code to bytecode), but that's irrelevant to the execution of a statement like a def. – Blckknght Apr 5 '16 at 19:39
  • I find your use of "compile time" and "runtime" confusing. The decorator is definitely not applied at compile time, it's applied when the module's compiled bytecode is executed (thus, effectively, at runtime). – Vincent Savard Apr 5 '16 at 19:39
  • What is motivation behind calling decorator at compile time? Python interpreter interprets file line by line. Function definitions / class definitions etc. - all of these code structures are executed when code is run or module is imported first time. Execution means creating callable objects in local namespace, associated with function / class name. With decorator you effectively create original callable, create decorator, call decorator with argument of original callable and substitute it in local namespace. And all of this is simply driven by running code line by line. – Łukasz Rogalski Apr 5 '16 at 19:39

time_decorator is executed during function decoration. wrapper is not (this is function invoked when decorated greet() is called).

@ is just syntactic sugar. Following code snippets are equivalent.

Decorator syntax:

def greet(name):
    return 'Hello {0}'.format(name)

Explicit decoration process - decorator is a function that returns new function based on another one.

def greet(name):
    return 'Hello {0}'.format(name)

greet = time_decorator(greet)

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

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