eventloops.rst
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RstLexer
Thomas Kluyver
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r17893 | ================================ | ||
Integrating with GUI event loops | ||||
================================ | ||||
When the user types ``%gui qt``, IPython integrates itself with the Qt event | ||||
loop, so you can use both a GUI and an interactive prompt together. IPython | ||||
supports a number of common GUI toolkits, but from IPython 3.0, it is possible | ||||
to integrate other event loops without modifying IPython itself. | ||||
Jeremy Sikes
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r24027 | Supported event loops include ``qt4``, ``qt5``, ``gtk2``, ``gtk3``, ``wx``, | ||
``osx`` and ``tk``. Make sure the event loop you specify matches the GUI | ||||
toolkit used by your own code. | ||||
To make IPython GUI event loop integration occur automatically at every | ||||
startup, set the ``c.InteractiveShellApp.gui`` configuration key in your | ||||
IPython profile (see :ref:`setting_config`). | ||||
Jeremy Sikes
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r24028 | If the event loop you use is supported by IPython, turning on event loop | ||
integration follows the steps just described whether you use Terminal IPython | ||||
or an IPython kernel. | ||||
Thomas Kluyver
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r17893 | |||
Jeremy Sikes
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r24028 | However, the way Terminal IPython handles event loops is very different from | ||
the way IPython kernel does, so if you need to integrate with a new kind of | ||||
event loop, different steps are needed to integrate with each. | ||||
Integrating with a new event loop in the terminal | ||||
------------------------------------------------- | ||||
Thomas Kluyver
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r17893 | |||
Thomas Kluyver
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r22613 | .. versionchanged:: 5.0 | ||
There is a new API for event loop integration using prompt_toolkit. | ||||
In the terminal, IPython uses prompt_toolkit to prompt the user for input. | ||||
prompt_toolkit provides hooks to integrate with an external event loop. | ||||
To integrate an event loop, define a function which runs the GUI event loop | ||||
until there is input waiting for prompt_toolkit to process. There are two ways | ||||
to detect this condition:: | ||||
# Polling for input. | ||||
def inputhook(context): | ||||
while not context.input_is_ready(): | ||||
# Replace this with the appropriate call for the event loop: | ||||
iterate_loop_once() | ||||
# Using a file descriptor to notify the event loop to stop. | ||||
def inputhook2(context): | ||||
fd = context.fileno() | ||||
# Replace the functions below with those for the event loop. | ||||
add_file_reader(fd, callback=stop_the_loop) | ||||
run_the_loop() | ||||
Once you have defined this function, register it with IPython: | ||||
.. currentmodule:: IPython.terminal.pt_inputhooks | ||||
.. function:: register(name, inputhook) | ||||
Register the function *inputhook* as the event loop integration for the | ||||
GUI *name*. If ``name='foo'``, then the user can enable this integration | ||||
by running ``%gui foo``. | ||||
Thomas Kluyver
|
r17893 | |||
Jeremy Sikes
|
r24028 | Integrating with a new event loop in the kernel | ||
----------------------------------------------- | ||||
Thomas Kluyver
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r17893 | |||
The kernel runs its own event loop, so it's simpler to integrate with others. | ||||
IPython allows the other event loop to take control, but it must call | ||||
:meth:`IPython.kernel.zmq.kernelbase.Kernel.do_one_iteration` periodically. | ||||
To integrate with this, write a function that takes a single argument, | ||||
the IPython kernel instance, arranges for your event loop to call | ||||
``kernel.do_one_iteration()`` at least every ``kernel._poll_interval`` seconds, | ||||
and starts the event loop. | ||||
Decorate this function with :func:`IPython.kernel.zmq.eventloops.register_integration`, | ||||
passing in the names you wish to register it for. Here is a slightly simplified | ||||
version of the Tkinter integration already included in IPython:: | ||||
@register_integration('tk') | ||||
def loop_tk(kernel): | ||||
"""Start a kernel with the Tk event loop.""" | ||||
from tkinter import Tk | ||||
# Tk uses milliseconds | ||||
poll_interval = int(1000*kernel._poll_interval) | ||||
# For Tkinter, we create a Tk object and call its withdraw method. | ||||
class Timer(object): | ||||
def __init__(self, func): | ||||
self.app = Tk() | ||||
self.app.withdraw() | ||||
self.func = func | ||||
def on_timer(self): | ||||
self.func() | ||||
self.app.after(poll_interval, self.on_timer) | ||||
def start(self): | ||||
self.on_timer() # Call it once to get things going. | ||||
self.app.mainloop() | ||||
kernel.timer = Timer(kernel.do_one_iteration) | ||||
kernel.timer.start() | ||||
Some event loops can go one better, and integrate checking for messages on the | ||||
kernel's ZMQ sockets, making the kernel more responsive than plain polling. How | ||||
to do this is outside the scope of this document; if you are interested, look at | ||||
the integration with Qt in :mod:`IPython.kernel.zmq.eventloops`. | ||||