# -*- Mode: Python -*- # vi:si:et:sw=4:sts=4:ts=4 # # gst-python - Python bindings for GStreamer # Copyright (C) 2002 David I. Lehn # Copyright (C) 2004 Johan Dahlin # Copyright (C) 2005 Edward Hervey # # This library is free software; you can redistribute it and/or # modify it under the terms of the GNU Lesser General Public # License as published by the Free Software Foundation; either # version 2.1 of the License, or (at your option) any later version. # # This library is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU # Lesser General Public License for more details. # # You should have received a copy of the GNU Lesser General Public # License along with this library; if not, write to the Free Software # Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA from common import gst, unittest, TestCase import sys import gc import gobject class SrcBin(gst.Bin): def prepare(self): src = gst.element_factory_make('fakesrc') self.add(src) pad = src.get_pad("src") ghostpad = gst.GhostPad("src", pad) self.add_pad(ghostpad) gobject.type_register(SrcBin) class SinkBin(gst.Bin): def prepare(self): sink = gst.element_factory_make('fakesink') self.add(sink) pad = sink.get_pad("sink") ghostpad = gst.GhostPad("sink", pad) self.add_pad(ghostpad) self.sink = sink def connect_handoff(self, cb, *args, **kwargs): self.sink.set_property('signal-handoffs', True) self.sink.connect('handoff', cb, *args, **kwargs) gobject.type_register(SinkBin) class PipeTest(TestCase): def setUp(self): gst.info("setUp") TestCase.setUp(self) self.pipeline = gst.Pipeline() self.assertEquals(self.pipeline.__gstrefcount__, 1) self.assertEquals(sys.getrefcount(self.pipeline), 3) self.src = SrcBin() self.src.prepare() self.sink = SinkBin() self.sink.prepare() self.assertEquals(self.src.__gstrefcount__, 1) self.assertEquals(sys.getrefcount(self.src), 3) self.assertEquals(self.sink.__gstrefcount__, 1) self.assertEquals(sys.getrefcount(self.sink), 3) gst.info("end of SetUp") def tearDown(self): gst.info("tearDown") self.assertTrue (self.pipeline.__gstrefcount__ >= 1 and self.pipeline.__gstrefcount__ <= 2) self.assertEquals(sys.getrefcount(self.pipeline), 3) self.assertEquals(self.src.__gstrefcount__, 2) self.assertEquals(sys.getrefcount(self.src), 3) self.assertEquals(self.sink.__gstrefcount__, 2) self.assertEquals(sys.getrefcount(self.sink), 3) gst.debug('deleting pipeline') del self.pipeline self.gccollect() self.assertEquals(self.src.__gstrefcount__, 1) # parent gone self.assertEquals(self.sink.__gstrefcount__, 1) # parent gone self.assertEquals(sys.getrefcount(self.src), 3) self.assertEquals(sys.getrefcount(self.sink), 3) gst.debug('deleting src') del self.src self.gccollect() gst.debug('deleting sink') del self.sink self.gccollect() TestCase.tearDown(self) def testBinState(self): self.pipeline.add(self.src, self.sink) self.src.link(self.sink) self.sink.connect_handoff(self._sink_handoff_cb) self._handoffs = 0 self.pipeline.set_state(gst.STATE_PLAYING) while True: (ret, cur, pen) = self.pipeline.get_state() if ret == gst.STATE_CHANGE_SUCCESS and cur == gst.STATE_PLAYING: break while self._handoffs < 10: pass self.pipeline.set_state(gst.STATE_NULL) while True: (ret, cur, pen) = self.pipeline.get_state() if ret == gst.STATE_CHANGE_SUCCESS and cur == gst.STATE_NULL: break ## def testProbedLink(self): ## self.pipeline.add(self.src) ## pad = self.src.get_pad("src") ## self.sink.connect_handoff(self._sink_handoff_cb) ## self._handoffs = 0 ## # FIXME: adding a probe to the ghost pad does not work atm ## # id = pad.add_buffer_probe(self._src_buffer_probe_cb) ## realpad = pad.get_target() ## self._probe_id = realpad.add_buffer_probe(self._src_buffer_probe_cb) ## self._probed = False ## while True: ## (ret, cur, pen) = self.pipeline.get_state() ## if ret == gst.STATE_CHANGE_SUCCESS and cur == gst.STATE_PLAYING: ## break ## while not self._probed: ## pass ## while self._handoffs < 10: ## pass ## self.pipeline.set_state(gst.STATE_NULL) ## while True: ## (ret, cur, pen) = self.pipeline.get_state() ## if ret == gst.STATE_CHANGE_SUCCESS and cur == gst.STATE_NULL: ## break def _src_buffer_probe_cb(self, pad, buffer): gst.debug("received probe on pad %r" % pad) self._probed = True gst.debug('adding sink bin') self.pipeline.add(self.sink) # this seems to get rid of the warnings about pushing on an unactivated # pad gst.debug('setting sink state') # FIXME: attempt one: sync to current pending state of bin (res, cur, pen) = self.pipeline.get_state(timeout=0) target = pen if target == gst.STATE_VOID_PENDING: target = cur gst.debug("setting sink state to %r" % target) # FIXME: the following print can cause a lock-up; why ? # print target # if we don't set async, it will possibly end up in PAUSED self.sink.set_state(target) gst.debug('linking') self.src.link(self.sink) gst.debug('removing buffer probe id %r' % self._probe_id) pad.remove_buffer_probe(self._probe_id) self._probe_id = None gst.debug('done') def _sink_handoff_cb(self, sink, buffer, pad): gst.debug('received handoff on pad %r' % pad) self._handoffs += 1 if __name__ == "__main__": unittest.main()