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I have an awesome little function that looks like this:

def verbose_print(message, *args, **kwargs):
    """Prints `message` with a helpful prefix when in verbose mode

    Args:
        message (str): The message to print. Can be a format string, e.g.
            `A %s with some %s in it`
        *args: Variables for the message format
        **kwargs: Keyword variables for the message format
    """

    # Only print when in verbose mode
    if not config.verbose:
        return

    # Ready a prefix for the message
    try:
        s = inspect.stack()
        module_name = inspect.getmodule(s[1][0]).__name__
        func_name = s[1][3]
        prefix = '### %s->%s' % (module_name, func_name)
    except Exception as e:
        prefix = '### [stack unavailable]'

    if args:
        message = message % args
    elif kwargs:
        message = message % kwargs

    print '%s: %s' % (prefix, message)

The point of the function is that I can call it from anywhere with a message, and if my project config file is set to verbose mode, all the messages will be printed with a helpful prefix to show where it was called. Here's an example of some output:

### avesta.webserver->check_login: Checking login for client at 127.0.0.1
### avesta.webserver->check_login: Found credentials cookie with username: tomas, token: blablabla
### avesta.webserver->check_login: Login valid, refreshing session
### avesta.webserver->get_flash_memory: Fetched flash data: None
### avesta.webserver->get: Fetched data from empty path ('previous_values', 'name'), returning ''
### avesta.webserver->get: Fetched data from empty path ('previous_values', 'description'), returning ''
### avesta.webserver->get: Fetched data from empty path ('validation_errors', 'name'), returning ''

The format is "### module->function: message".

Now most of the time this is really helpful, but it's not perfect. In the example above, the "get" function is actually a bound method of a class, but that's not visible. What I'm trying to accomplish is that when a function is a bound method, I print with this format instead:

"### module->ClassName.function"

But the problem is:

  1. I only get the function name from the stack, so I can't really check if it's a bound method
  2. Even if I had the function reference, how would I extrapolate the class name it's bound to?

Thanks for any answers that can help me figure this out.

share|improve this question
up vote 5 down vote accepted

I thought this was going to be easy, but it turned out to be a bit complicated. If you have a reference to the bound method, you can get its class name via boundMethod.im_class.__name__. However, when you're grabbing the stack, you can't easily get a reference to the bound method, just to stack frames.

However all is not lost! The inspect module can get you function arguments from a stack frame using the getargvalues function. You do have to cheat a little, by relying on the convention that methods always have their first argument named "self". You can check for that, then grab the "self" value from the function's locals dict, and from there it's easy to get the class name. Try replacing your current try block with his code:

s = inspect.stack()
module_name = inspect.getmodule(s[1][0]).__name__
func_name = s[1][3]
arginfo = inspect.getargvalues(s[1][0])
if len(arginfo.args) > 0 and arginfo.args[0] == "self":
    func_name = "%s.%s" (arginfo.locals["self"].__class__.__name__, func_name)
prefix = '### %s->%s' % (module_name, func_name)
share|improve this answer
    
Brilliant! Could one make the danger of the cheat less potent by checking if 'self' is a class instance and checking that it in fact has a bound method named func_name? If so, how does one check for those things? – Hubro Jul 29 '12 at 1:28
    
It's probably possible to dig deeper and verify that the first argument does indeed have a bound method named func_name, but I doubt it's worth bothering with. I think you're more likely to end up with false negatives (functions that are incorrectly thought not to be methods) than false positives (regular functions incorrectly through to be methods) using this approach. That's because you can name the first argument of a method anything, self simply being a convention. Hmm, actually, now that I think of it, my code above won't work for functions with no arguments. I'll edit to fix that. – Blckknght Jul 29 '12 at 1:59

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