# Copyright (c) 2001-2004 Twisted Matrix Laboratories. # See LICENSE for details. """ This module provides support for Twisted to interact with the PyGTK mainloop. In order to use this support, simply do the following:: | from twisted.internet import gtkreactor | gtkreactor.install() Then use twisted.internet APIs as usual. The other methods here are not intended to be called directly. API Stability: stable Maintainer: U{Itamar Shtull-Trauring} """ __all__ = ['install'] # System Imports try: import pygtk pygtk.require('1.2') except ImportError, AttributeError: pass # maybe we're using pygtk before this hack existed. import gtk import sys, time from zope.interface import implements # Twisted Imports from twisted.python import log, threadable, runtime, failure, components from twisted.internet.interfaces import IReactorFDSet # Sibling Imports from twisted.internet import main, posixbase, selectreactor reads = {} writes = {} hasReader = reads.has_key hasWriter = writes.has_key # the next callback _simtag = None class GtkReactor(posixbase.PosixReactorBase): """GTK+ event loop reactor. """ implements(IReactorFDSet) def addReader(self, reader): if not hasReader(reader): reads[reader] = gtk.input_add(reader, gtk.GDK.INPUT_READ, self.callback) def addWriter(self, writer): if not hasWriter(writer): writes[writer] = gtk.input_add(writer, gtk.GDK.INPUT_WRITE, self.callback) def removeAll(self): return self._removeAll(reads, writes) def removeReader(self, reader): if hasReader(reader): gtk.input_remove(reads[reader]) del reads[reader] def removeWriter(self, writer): if hasWriter(writer): gtk.input_remove(writes[writer]) del writes[writer] doIterationTimer = None def doIterationTimeout(self, *args): self.doIterationTimer = None return 0 # auto-remove def doIteration(self, delay): # flush some pending events, return if there was something to do # don't use the usual "while gtk.events_pending(): mainiteration()" # idiom because lots of IO (in particular test_tcp's # ProperlyCloseFilesTestCase) can keep us from ever exiting. log.msg(channel='system', event='iteration', reactor=self) if gtk.events_pending(): gtk.mainiteration(0) return # nothing to do, must delay if delay == 0: return # shouldn't delay, so just return self.doIterationTimer = gtk.timeout_add(int(delay * 1000), self.doIterationTimeout) # This will either wake up from IO or from a timeout. gtk.mainiteration(1) # block # note: with the .simulate timer below, delays > 0.1 will always be # woken up by the .simulate timer if self.doIterationTimer: # if woken by IO, need to cancel the timer gtk.timeout_remove(self.doIterationTimer) self.doIterationTimer = None def crash(self): gtk.mainquit() def run(self, installSignalHandlers=1): self.startRunning(installSignalHandlers=installSignalHandlers) gtk.timeout_add(0, self.simulate) gtk.mainloop() def _readAndWrite(self, source, condition): # note: gtk-1.2's gtk_input_add presents an API in terms of gdk # constants like INPUT_READ and INPUT_WRITE. Internally, it will add # POLL_HUP and POLL_ERR to the poll() events, but if they happen it # will turn them back into INPUT_READ and INPUT_WRITE. gdkevents.c # maps IN/HUP/ERR to INPUT_READ, and OUT/ERR to INPUT_WRITE. This # means there is no immediate way to detect a disconnected socket. # The g_io_add_watch() API is more suited to this task. I don't think # pygtk exposes it, though. why = None didRead = None try: if condition & gtk.GDK.INPUT_READ: why = source.doRead() didRead = source.doRead if not why and condition & gtk.GDK.INPUT_WRITE: # if doRead caused connectionLost, don't call doWrite # if doRead is doWrite, don't call it again. if not source.disconnected and source.doWrite != didRead: why = source.doWrite() didRead = source.doWrite # if failed it was in write except: why = sys.exc_info()[1] log.msg('Error In %s' % source) log.deferr() if why: self._disconnectSelectable(source, why, didRead == source.doRead) def callback(self, source, condition): log.callWithLogger(source, self._readAndWrite, source, condition) self.simulate() # fire Twisted timers return 1 # 1=don't auto-remove the source def simulate(self): """Run simulation loops and reschedule callbacks. """ global _simtag if _simtag is not None: gtk.timeout_remove(_simtag) self.runUntilCurrent() timeout = min(self.timeout(), 0.1) if timeout is None: timeout = 0.1 _simtag = gtk.timeout_add(int(timeout * 1010), self.simulate) # grumble components.backwardsCompatImplements(GtkReactor) class PortableGtkReactor(selectreactor.SelectReactor): """Reactor that works on Windows. input_add is not supported on GTK+ for Win32, apparently. """ def crash(self): gtk.mainquit() def run(self, installSignalHandlers=1): self.startRunning(installSignalHandlers=installSignalHandlers) self.simulate() gtk.mainloop() def simulate(self): """Run simulation loops and reschedule callbacks. """ global _simtag if _simtag is not None: gtk.timeout_remove(_simtag) self.iterate() timeout = min(self.timeout(), 0.1) if timeout is None: timeout = 0.1 _simtag = gtk.timeout_add((timeout * 1010), self.simulate) # grumble def install(): """Configure the twisted mainloop to be run inside the gtk mainloop. """ reactor = GtkReactor() from twisted.internet.main import installReactor installReactor(reactor) return reactor def portableInstall(): """Configure the twisted mainloop to be run inside the gtk mainloop. """ reactor = PortableGtkReactor() from twisted.internet.main import installReactor installReactor(reactor) return reactor if runtime.platform.getType() != 'posix': install = portableInstall