#! /usr/bin/env python
#
# This file is part of DisOrder.
-# Copyright (C) 2007 Richard Kettlewell
+# Copyright (C) 2007-2009 Richard Kettlewell
#
-# This program is free software; you can redistribute it and/or modify
+# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
-# the Free Software Foundation; either version 2 of the License, or
+# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
-# This program 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
-# General Public License for more details.
-#
+# This program 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 General Public License for more details.
+#
# You should have received a copy of the GNU General Public License
-# along with this program; if not, write to the Free Software
-# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307
-# USA
+# along with this program. If not, see <http://www.gnu.org/licenses/>.
#
-import dtest,time,disorder,re
+import dtest,time,disorder,re,sys
def test():
"""Play some tracks"""
dtest.start_daemon()
+ dtest.create_user()
+ dtest.rescan() # ensure all files are scanned
c = disorder.client()
+ c.random_disable()
+ assert c.random_enabled() == False
track = u"%s/Joe Bloggs/First Album/02:Second track.ogg" % dtest.tracks
- print "adding track to queue"
+ track2 = u"%s/Joe Bloggs/First Album/04:Fourth track.ogg" % dtest.tracks
+ track3 = u"%s/Joe Bloggs/First Album/05:Fifth track.ogg" % dtest.tracks
+ print " adding track to queue"
+ c.disable()
+ assert c.enabled() == False
c.play(track)
print " checking track turned up in queue"
q = c.queue()
assert t['submitter'] == u'fred', "check queue submitter"
i = t['id']
print " waiting for track"
+ c.enable()
+ assert c.enabled() == True
p = c.playing()
r = c.recent()
+ limit = 60
while not((p is not None and p['id'] == i)
- or (len(filter(lambda t: t['track'] == track and 'submitter' in t, r)) > 0)):
+ or (len(filter(lambda t: t['track'] == track
+ and 'submitter' in t, r)) > 0)) and limit > 0:
time.sleep(1)
p = c.playing()
r = c.recent()
+ limit -= 1
+ assert limit > 0, "check track did complete in a reasonable time"
print " checking track turned up in recent list"
while (p is not None and p['id'] == i):
time.sleep(1)
assert len(ts) == 1, "check track appears exactly once in recent"
t = ts[0]
assert t['submitter'] == u'fred', "check recent entry submitter"
- print " scratching current track"
- p = c.playing()
- i = p['id']
- c.scratch(i)
- print " checking scratched track turned up in recent list"
- while (p is not None and p['id'] == i):
+
+ print " ensuring queue is clear"
+ c.disable()
+ while c.playing() is not None:
time.sleep(1)
+ q = c.queue()
+ for qe in q:
+ c.remove(qe["id"])
+
+ print " testing playafter"
+ print " adding to empty queue"
+ c.playafter(None, [track])
+ q = c.queue()
+ print '\n'.join(map(lambda n: "%d: %s" % (n, q[n]["track"]),
+ range(0, len(q))))
+ assert len(q) == 1
+ assert q[0]['track'] == track
+ print " insert at start of queue"
+ c.playafter(None, [track2])
+ q = c.queue()
+ print '\n'.join(map(lambda n: "%d: %s" % (n, q[n]["track"]),
+ range(0, len(q))))
+ assert len(q) == 2
+ assert q[0]['track'] == track2
+ assert q[1]['track'] == track
+ print " insert in middle of queue"
+ c.playafter(q[0]['id'], [track3])
+ q = c.queue()
+ print '\n'.join(map(lambda n: "%d: %s" % (n, q[n]["track"]),
+ range(0, len(q))))
+ assert len(q) == 3
+ assert q[0]['track'] == track2
+ assert q[1]['track'] == track3
+ assert q[2]['track'] == track
+ print " insert multiple tracks at end of queue"
+ c.playafter(q[2]['id'], [track2, track])
+ q = c.queue()
+ print '\n'.join(map(lambda n: "%d: %s" % (n, q[n]["track"]),
+ range(0, len(q))))
+ assert len(q) == 5
+ assert q[0]['track'] == track2
+ assert q[1]['track'] == track3
+ assert q[2]['track'] == track
+ assert q[3]['track'] == track2
+ assert q[4]['track'] == track
+
+ print " clearing queue"
+ for qe in q:
+ c.remove(qe["id"])
+
+ print " testing scratches"
+ retry = False
+ scratchlimit = 5
+ while scratchlimit > 0:
+ scratchlimit -= 1
+ c.disable()
+ print " starting a track"
+ c.play(track)
+ c.enable()
p = c.playing()
- r = c.recent()
- ts = filter(lambda t: t['id'] == i, r)
- assert len(ts) == 1, "check scratched track appears exactly once in recent"
- assert ts[0]['state'] == 'scratched', "checking track scratched"
+ if p is None:
+ print " track played too quickly, trying again..."
+ continue
+ print " scratching track"
+ i = p['id']
+ c.scratch(i)
+ print " waiting for track to finish"
+ p = c.playing()
+ limit = 60
+ while (p is not None and p['id'] == i) and limit > 0:
+ time.sleep(1)
+ p = c.playing()
+ limit -= 1
+ assert limit > 0, "check track finishes in a reasonable period"
+ print " checking scratched track turned up in recent list"
+ r = c.recent()
+ ts = filter(lambda t: t['id'] == i, r)
+ assert len(ts) == 1, "check scratched track appears exactly once in recent"
+ if ts[0]['state'] == 'ok':
+ print " track played too quickly, trying again..."
+ continue
+ assert ts[0]['state'] == 'scratched', "checking track scratched"
+ break
+ if scratchlimit == 0:
+ # TODO this is really not a great approach!
+ print " didn't complete in a reasonable time"
+ sys.exit(77)
+ print " waiting for scratch to complete"
+ p = c.recent()
+ while p is not None:
+ time.sleep(1)
+ p = c.playing()
+ assert p is None, "checking nothing is playing"
+ assert c.enabled() == True
+ c.random_enable()
+ assert c.random_enabled() == True
if __name__ == '__main__':
dtest.run()