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Im trying to build a calculator with PyQt4 and connecting the 'clicked()' signals from the buttons doesn't as expected. Im creating my buttons for the numbers inside a for loop where i try to connect them afterwards.

def __init__(self):    
    for i in range(0,10):
        self._numberButtons += [QPushButton(str(i), self)]
        self.connect(self._numberButtons[i], SIGNAL('clicked()'), lambda : self._number(i))

def _number(self, x):
    print(x)

When I click on the buttons all of them print out '9'. Why is that so and how can i fix this?

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3 Answers 3

up vote 6 down vote accepted

This is just, how scoping, name lookup and closures are defined in Python.

Python only introduces new bindings in namespace through assignment and through parameter lists of functions. i is therefore not actually defined in the namespace of the lambda, but in the namespace of __init__(). The name lookup for i in the lambda consequently ends up in the namespace of __init__(), where i is eventually bound to 9. This is called "closure".

You can work around these admittedly not really intuitive (but well-defined) semantics by passing i as a keyword argument with default value. As said, names in parameter lists introduce new bindings in the local namespace, so i inside the lambda then becomes independent from i in .__init__():

self._numberButtons[i].clicked.connect(lambda i=i: self._number(i))

A more readable, less magic alternative is functools.partial:

self._numberButtons[i].clicked.connect(partial(self._number, i))

I'm using new-style signal and slot syntax here simply for convenience, old style syntax works just the same.

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Using functools.partial for this is a very good idea. +1 –  delnan Jan 2 '11 at 15:10
    
Thank you. I'll go with the functools.partial solution. –  lukad Jan 2 '11 at 15:18

You are creating closures. Closures really capture a variable, not the value of a variable. At the end of __init__, i is the last element of range(0, 10), i.e. 9. All the lambdas you created in this scope refer to this i and only when they are invoked, they get the value of i at the time they are at invoked (however, seperate invocations of __init__ create lambdas referring to seperate variables!).

There are two popular ways to avoid this:

  1. Using a default parameter: lambda i=i: self._number(i). This work because default parameters bind a value at function definition time.
  2. Defining a helper function helper = lambda i: (lambda: self._number(i)) and use helper(i) in the loop. This works because the "outer" i is evaluated at the time i is bound, and - as mentioned before - the next closure created in the next invokation of helper will refer to a different variable.
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Use the Qt way, use QSignalMapper instead.

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1  
Please don't. QSignalMapper is a remnant of C++ 98, which does not have lambdas or partial functions and where such workaround are a necessary evil. In Python however QSignalMapper is simply superfluous and really bloated compared to functools.partial() or lambda. Solutions with partial() or lambda are shorter and more elegant than QSignalMapper. –  lunaryorn Jan 2 '11 at 15:51
    
Oh well its about the choice, I would choose QSignalMapper for Qt/C++ compatibility. –  ismail Jan 2 '11 at 15:59
1  
Of course it's about the choice, but I simply don't understand your choice and I can't follow it. I'm using Python for Qt applications exactly because it is not C++, and if I'd abandon all of Python's special features to maintain or to reach C++ compatibility, I could just as well use C++ ;) –  lunaryorn Jan 3 '11 at 19:10

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