I'm attempting to use signals/slots with large integers ranging from 0 - 2^32-1. I've discovered something a little weird -- once I emit > 7FFFFFFF boundary, I get OverflowError exceptions thrown after the slot is run. I might expect this kind of overflow if I or QT were explicitly using a signed 32 bit integer in another language like C or C++--as we all know 0x80000000 wraps back to -2^31 in 2s complement notation. In python though, its just 2^32 without wrapping. My assumption when writing the code though was that this is python and that the built-in int can grow very large (maybe arbitrarilly so?) and that I don't explicitly need to define something as 32 or 64 bit or signed/unsigned. It would all just work.

The code below demonstrates what I'm seeing (Python 2.7.2 (64 bit), Pyside 1.1.0, Windows 7)

from PySide.QtCore import *

def say(i):
    print "Say %i" % i

class Communicate(QObject):
    speak = Signal(int)

someone = Communicate()
someone.speak.emit(0x7FFFFFFF) #works fine
someone.speak.emit(0x80000000) #OverflowError after slot "say" runs
say(0x80000000)                #works fine

The exact output is:

Say 2147483647
Say -2147483648
Say 2147483648
  1. Why does Qt seem to treat the signals/slots of type integer as if its dealing with signed 32 bit integers and not python built-in ints?
  2. If this is a restriction of Qt, what can I do to mark the int as unsigned or make sure QT can deal with integers > 0x7FFFFFFF?
  • 1
    "we all know 0x80000000 wraps back to -1" - i don't think it changes anything, but 0xfffffffff is -1 and 0x80000000 is the largest negative 32 bit integer in 2s complement. – andrew cooke May 26 '12 at 0:52
  • @andrewcooke you are correct, I fixed the question. – Doug T. May 26 '12 at 0:54
  • 3
    Obviously Qt makes assumptions that don't fit for Python. – Ignacio Vazquez-Abrams May 26 '12 at 0:55
  • Also, in Python, 0x80000000 doesn't wrap back around to negative numbers, not even at the C level. – Ignacio Vazquez-Abrams May 26 '12 at 0:56
  • 1
    It seems to me it's saying "Don't do that!" Is there a reason why you need to use such values? You're simply begging for trouble in any complex environment, especially one with multiple languages involved. – Hot Licks May 26 '12 at 1:05

I'm mostly a PyQt user, but I believe the behavior is similar. int in signal definition is mapped to 4-byte integer (as Qt understands an int).

One possible solution is to force the signal to emit a Python object. This works:

class Communicate(QObject):
    speak = Signal(object)

But be aware that, if you connect this signal to a slot that expects a Qt's version of int (for example QtGui.QSpinBox.setMaximum) you'll see the same behavior. Other than that, using this signal purely on the Python side should be fine.

  • Thanks. Do you have a link saying int in signal definition is tied to QT's (or C++'s) notion of an int and not to pythons? – Doug T. May 28 '12 at 23:50
  • 1
    @DougT. : PyQt does it that way. Specifically: "When a signal is emitted then any arguments are converted to C++ types if possible." And PySide says, it implements the same interface. int has a direct C++ representation. – Avaris May 29 '12 at 0:04
  • Additional documentation, all the examples in new-style signals and slots point at "int" meaning C integer qt-project.org/wiki/Signals_and_Slots_in_PySide – Doug T. Jul 16 '12 at 0:48

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