def test_gso():
obj = GSO("gso")
assert isinstance(obj.node(), PandaNode)
def test_store_restore():
sso = GSO("foo")
sso.set_model("smiley.egg")
cache = Cache.store(sso)
sso2 = cache.restore()
assert sso.tree() == sso2.tree()
def test_destroy_tree():
sso = GSO("foo")
sso2 = GSO("bar")
sso.set_model("smiley.egg")
sso2.set_model("smiley.egg")
sso2.reparentTo(sso)
nodes = sso.descendants()
for n in nodes:
n.init_resources()
sso.destroy_tree()
assert not any(isinstance(n.node(), resource_types) for n in nodes)
def test_store_restore_tree():
sso = GSO("foo")
sso2 = GSO("bar")
sso.set_model("smiley.egg")
sso2.set_model("smiley.egg")
sso2.reparentTo(sso)
cache = sso.store_tree()
sso3 = cache.restore()
assert sso.tree() == sso3.tree()
def test_default():
props = GSO.default()
assert props["pos"] == Point3(0, 0, 0)
class RenderMovies(ViewTowers):
def __init__(self, script, force, fps, ext):
ViewTowers.__init__(self, script)
for key in self.permanent_events:
logger.debug("ignoring key '%s'", key)
self.ignore(key)
self.accept("escape", self.cancel)
self.render_root = None
self.num_to_do = len(self.options['stimulus'])
self.fps = fps
self.ext = ext
self.encode = " ".join([
"mencoder", "-really-quiet", "mf://%(framespth)s\*.%(fmt)s",
"-mf fps=%(fps)d:type=%(fmt)s", "-ovc lavc",
"-lavcopts vcodec=mpeg4:vbitrate=3200", "-oac copy",
"-o %(moviepth)s"
])
self.occluder_start_pos = 10
self.occluder_accum = 0
self.create_occluder()
def create_occluder(self):
"""Create the occluder, which drops down after people view the
tower before they make their response, to ensure everybody
sees the stimulus for the same amount of time.
"""
self.occluder = GSO('occluder')
self.occluder.set_model('cylinderZ')
self.occluder.setScale(1.5, 1.5, 5)
self.occluder.setPos(0, 0, self.occluder_start_pos)
self.occluder.setColor(Vec4(0.2, 0.2, 0.2, 1))
self.occluder.reparentTo(self.scene)
self.occluder.init_tree(tags=('model', ))
def set_camera_angle(self, angle, task):
self.camera_rot.setH(angle)
def thunk(self, task):
if task.getElapsedFrames() > 2:
return task.done
return task.cont
def hide_stimulus(self, task):
self.sso.detachNode()
def show_stimulus(self, task):
self.sso.reparentTo(self.scene)
def save_screenshot(self, phase, task):
ext = self.ext
outdir = self.render_root
if not outdir.exists():
logger.debug("Creating output directory %s", outdir)
outdir.makedirs_p()
ss_name = "%s~%s.%s" % (self.sso.getName(), phase, ext)
ss_path = outdir.joinpath(ss_name)
self.screenshot(namePrefix=ss_path, defaultFilename=False)
logger.info("Saved screenshot to %s", ss_path.relpath())
def start_recording(self, time, task):
# create a temporary directory for the frame files
self.render_path = path(tempfile.mkdtemp())
logger.debug("Temporary render path is %s", self.render_path)
self.render_prefix = self.render_path.joinpath("movie")
self.movie(namePrefix=self.render_prefix,
duration=time,
fps=self.fps,
format=self.ext,
sd=4)
def stop_recording(self, phase, task):
if self.taskMgr.hasTaskNamed(self.render_prefix + "_task"):
raise ValueError("Movie task is still running")
outdir = self.render_root
# remove the first file, because it is sometimes corrupted
files = sorted(path(self.render_path).listdir())
to_remove = files.pop(0)
logger.debug("Deleting file %s", to_remove)
os.remove(to_remove)
# encode the files into a movie
movie_name = "%s~%s.avi" % (self.sso.getName(), phase)
movie_path = outdir.joinpath(movie_name)
cmd = self.encode % {
'framespth': self.render_prefix,
'fmt': self.ext,
'fps': self.fps,
'moviepth': movie_path
}
logger.debug(cmd)
sp.call(cmd, shell=True)
logger.info("Saved video to %s", movie_path.relpath())
# remove the temporary directory and files
logger.debug("Removing temporary directory %s", self.render_path)
path(self.render_path).rmtree()
def reset_occluder(self):
self.start_time = self.taskMgr.globalClock.getFrameTime()
def move_occluder(self, action, time, task):
# helper variables
if action == "drop":
start = self.occluder_start_pos
end = self.occluder.getScale()[2] / 2.0
elif action == "raise":
start = self.occluder.getScale()[2] / 2.0
end = self.occluder_start_pos
else:
raise ValueError("invalid action: %s" % action)
# amount of time that's passed since we started dropping the
# occluder
self.occluder_accum = self._get_elapsed()
if self.occluder_accum > time:
new_zpos = end
else:
amt = self.occluder_accum / time
new_zpos = start + (amt * (end - start))
# compute the new position of the occluder
pos = self.occluder.getPos()
pos[2] = new_zpos
self.occluder.setPos(pos)
return task.cont
def wait(self, task):
return task.cont
def reset_camera(self):
self.start_time = self.taskMgr.globalClock.getFrameTime()
def spin_camera(self, start, rot, time, task):
end = start + rot
self.camera_accum = self._get_elapsed()
if self.camera_accum > time:
self.camera_rot.setH(end)
return task.done
else:
amt = self.camera_accum / time
self.camera_rot.setH(start + (amt * (end - start)))
return task.cont
def mark_finished(self, i, task):
script_path = self.options['script_path'][i]
script_index = self.options['script_index'][i]
tasks.mark_finished(script_path, script_index)
self.num_to_do -= 1
def stop_task(self, task):
if self.taskMgr.hasTaskNamed(task):
self.taskMgr.remove(task)
def cancel(self):
sys.exit(100)
def exit(self):
sys.exit(0)
def execute_script_step(self, t):
if len(self.script) == 0:
return self.next()
howlong, taskname, args = self.script.pop(0)
task = getattr(self, taskname)
argstr = "" if len(args) == 0 else ", ".join(map(str, args))
longstr = " " if not howlong else " for %.1fs " % howlong
logger.debug("Executing script step: %s(%s)%s", taskname, argstr,
longstr)
self.taskMgr.add(task,
taskname,
extraArgs=args,
uponDeath=self.execute_script_step,
appendTask=True)
if howlong:
self.taskMgr.doMethodLater(howlong,
self.stop_task,
"remove_task",
extraArgs=[taskname])
if taskname == "physics":
self.reset_physics()
elif taskname == "move_occluder":
self.reset_occluder()
elif taskname == "spin_camera":
self.reset_camera()
def make_script(self, i):
show_feedback = self.options['feedback'][i]
drop_occluder = self.options['occlude'][i]
full_render = self.options['full_render'][i]
ptime = self.options['presentation_time'][i] - 1.0
ftime = self.options['feedback_time'][i]
camstart = self.options['camera_start'][i]
camrot = self.options['camera_spin'][i]
script = []
def add_step(howlong, task, *args):
script.append([howlong, task, args])
# set the camera angle
add_step(None, "set_camera_angle", camstart)
# save a screenshot of the floor -- we need to add these
# "thunk" steps to render a few frames before we actually take
# the screenshot, to ensure that the graphics buffer is
# cleaned out
add_step(None, "hide_stimulus")
add_step(None, "thunk")
add_step(None, "save_screenshot", "floor")
add_step(None, "show_stimulus")
add_step(None, "thunk")
# start recording
if full_render and show_feedback:
if drop_occluder:
rtime = 2.5 + ptime + ftime
else:
rtime = 1.5 + ptime + ftime
else:
if drop_occluder:
rtime = 1.5 + ptime
else:
rtime = 1.0 + ptime
add_step(None, "save_screenshot", "stimulus~A")
add_step(None, "start_recording", rtime)
# spin the camera
add_step(None, "spin_camera", camstart, camrot, ptime)
# then pause for a moment, possibly dropping the occluder
add_step(1.0, "wait")
if drop_occluder:
add_step(0.3, "move_occluder", "drop", 0.3)
add_step(0.2, "wait")
# save the stimulus presentation
if not full_render:
add_step(None, "stop_recording", "stimulus")
add_step(None, "save_screenshot", "stimulus~B")
if show_feedback:
if not full_render:
if drop_occluder:
rtime = 1.0 + ftime
else:
rtime = 0.5 + ftime
add_step(None, "save_screenshot", "feedback~A")
add_step(None, "start_recording", rtime)
# raise the occluder
add_step(0.5, "wait")
if drop_occluder:
add_step(0.3, "move_occluder", "raise", 0.3)
add_step(0.2, "wait")
# simulate physics
add_step(ftime, "physics")
# save the feedback
if full_render:
add_step(None, "stop_recording", "stimulus")
add_step(None, "save_screenshot", "stimulus~B")
else:
add_step(None, "stop_recording", "feedback")
add_step(None, "save_screenshot", "feedback~B")
add_step(None, "mark_finished", i)
return script
def next(self, steps=1):
"""Go forward one SSO."""
i = self.ssos.index(self.sso) + steps
if i == len(self.ssos):
return self.exit()
else:
self.goto_sso(i)
def goto_sso(self, i):
ViewTowers.goto_sso(self, i)
logger.info("%d stimuli left to render", self.num_to_do)
self.render_root = path(self.options['render_root'][i])
self.script = self.make_script(i)
self.taskMgr.add(self.execute_script_step, "execute_script_step")
