- Video jerks a bit .. is this because the play edge is too close to the block edge and it runs empty before new frames arrive?
"""
setValkkaLogLevel(loglevel_debug)
def cb(mstime):
print("mstime callback", mstime)
# create OpenGLThread (for drawing video) and AVThread (for decoding)
glthread = OpenGLThread(name="gl_thread")
ctx = core.FrameFifoContext()
avthread = core.AVThread(
"avthread",
glthread.getInput(),
ctx)
av_in_filter = avthread.getFrameFilter()
avthread.startCall()
avthread.decodingOnCall()
# create an X-window
window_id = glthread.createWindow()
# map frames with slot 1 to that window
glthread.newRenderGroup(window_id)
context_id = glthread.newRenderContext(1, window_id, 0)
valkkafs = ValkkaFS.loadFromDirectory(dirname="/home/sampsa/tmp/testvalkkafs")
# manager = ValkkaFSManager(valkkafs, cb)
class MyGui(QtWidgets.QMainWindow):
debug = False
# debug=True
def __init__(self, pardic, valkkafs, parent=None):
super(MyGui, self).__init__()
self.pardic = pardic
self.valkkafs = valkkafs
self.initVars()
self.setupUi()
if (self.debug):
return
self.openValkka()
self.start_streams()
def initVars(self):
pass
def setupUi(self):
self.setGeometry(QtCore.QRect(100, 100, 800, 800))
self.w = QtWidgets.QWidget(self)
self.setCentralWidget(self.w)
self.lay = QtWidgets.QGridLayout(self.w)
self.videoframes = []
self.widget_pairs = []
self.addresses = self.pardic["cams"]
# self.rec_window = QtWidgets.QMainWindow(self)
# self.rec_window = QtWidgets.QTabWidget(None)
self.rec_window = MyTabWidget(None)
self.rec_window.setGeometry(QtCore.QRect(50, 50, 800, 800))
self.rec_window.show()
self.rec_video_tab = QtWidgets.QWidget(None)
self.rec_video_lay = QtWidgets.QVBoxLayout(self.rec_video_tab)
self.rec_calendar_tab = QtWidgets.QWidget(None)
self.rec_calendar_lay = QtWidgets.QVBoxLayout(self.rec_calendar_tab)
self.rec_window.addTab(self.rec_video_tab, "Video")
self.rec_window.addTab(self.rec_calendar_tab, "Calendar")
self.rec_video_area = QtWidgets.QWidget(self.rec_video_tab)
self.rec_video_area.setSizePolicy(QtWidgets.QSizePolicy.Expanding,
QtWidgets.QSizePolicy.Expanding)
self.rec_video_area_lay = QtWidgets.QGridLayout(self.rec_video_area)
self.rec_video_lay.addWidget(self.rec_video_area)
# timeline
self.timelinewidget = TimeLineWidget(datetime.date.today(),
parent=self.rec_video_area)
# self.timelinewidget.setLogLevel(logging.DEBUG)
self.rec_video_lay.addWidget(self.timelinewidget)
# buttons
self.buttons = QtWidgets.QWidget(self.rec_video_area)
self.buttons_lay = QtWidgets.QHBoxLayout(self.buttons)
self.play_button = QtWidgets.QPushButton("play", self.buttons)
self.stop_button = QtWidgets.QPushButton("stop", self.buttons)
self.zoom_to_fs_button = QtWidgets.QPushButton("limits", self.buttons)
self.buttons_lay.addWidget(self.play_button)
self.buttons_lay.addWidget(self.stop_button)
self.buttons_lay.addWidget(self.zoom_to_fs_button)
self.rec_video_lay.addWidget(self.buttons)
# calendar
self.calendarwidget = CalendarWidget(datetime.date.today(),
parent=self.rec_calendar_tab)
self.rec_calendar_lay.addWidget(self.calendarwidget)
def openValkka(self):
self.valkkafsmanager = ValkkaFSManager(
self.valkkafs,
# read = False, # debugging
# cache = False, # debugging
# write = False # debugging
)
self.playback_controller = PlaybackController(
calendar_widget=self.calendarwidget,
timeline_widget=self.timelinewidget,
valkkafs_manager=self.valkkafsmanager,
play_button=self.play_button,
stop_button=self.stop_button,
zoom_to_fs_button=self.zoom_to_fs_button)
self.livethread = LiveThread( # starts live stream services (using live555)
name="live_thread",
# verbose=True,
verbose=False,
affinity=self.pardic["live affinity"])
self.openglthread = OpenGLThread( # starts frame presenting services
name="mythread",
# reserve stacks of YUV video frames for various resolutions
n_720p=self.pardic["n_720p"],
n_1080p=self.pardic["n_1080p"],
n_1440p=self.pardic["n_1440p"],
n_4K=self.pardic["n_4K"],
# naudio =self.pardic["naudio"], # obsolete
verbose=True,
# verbose=False,
msbuftime=self.pardic["msbuftime"],
affinity=self.pardic["gl affinity"])
if (self.openglthread.hadVsync()):
w = QtWidgets.QMessageBox.warning(
self, "VBLANK WARNING",
"Syncing to vertical refresh enabled\n THIS WILL DESTROY YOUR FRAMERATE\n Disable it with 'export vblank_mode=0' for nvidia proprietary drivers, use 'export __GL_SYNC_TO_VBLANK=0'"
)
tokens = []
self.chains = []
a = self.pardic["dec affinity start"]
cw = 0 # widget / window index
cs = 1 # slot / stream count
for address in self.addresses:
# now livethread and openglthread are running
if (a > self.pardic["dec affinity stop"]):
a = self.pardic["dec affinity start"]
print(pre, "openValkka: setting decoder thread on processor", a)
if use_live:
chain_live = ValkkaFSLiveFilterchain( # decoding and branching the stream happens here
valkkafsmanager=self.valkkafsmanager,
id_rec=cs, # identifies the stream in ValkkaFS
livethread=self.livethread,
address=address,
slot=cs,
affinity=a,
# verbose =True
verbose=False,
msreconnect=10000,
# Reordering buffer time for Live555 packets in MILLIseconds # 0 means default
reordering_mstime=0
# reordering_mstime =300
)
rec_slot = cs + 100 # live and rec slot numbers must be kept separated ..
chain_rec = ValkkaFSFileFilterchain( # decoding and branching the stream happens here
valkkafsmanager=self.valkkafsmanager,
id_rec=cs, # identifies the stream in ValkkaFS
slot=rec_slot,
affinity=a,
# verbose =True
verbose=False)
# send yuv to OpenGLThread
if use_live:
chain_live.connect_to_yuv("yuv_to_opengl_" + str(cs),
self.openglthread.getInput())
chain_rec.connect_to_yuv("yuv_to_opengl_" + str(cs),
self.openglthread.getInput())
# important .. otherwise chain will go out of context and get
# garbage collected ..
if use_live: self.chains.append(chain_live)
self.chains.append(chain_rec)
if ("no_qt" in self.pardic):
# create our own x-windowses
win_id = self.openglthread.createWindow(show=True)
win_id_rec = self.openglthread.createWindow(show=True)
else:
# *** Choose one of the following sections ***
# (1) Let Valkka create the windows/widget # use this: we get a window with correct parametrization
# win_id =self.openglthread.createWindow(show=False)
# fr =getForeignWidget(self.w, win_id)
if (valkka_xwin == False):
# (2) Let Qt create the widget
fr = TestWidget0(self.w)
win_id = int(fr.winId())
fr_rec = TestWidget0(self.rec_video_area)
win_id_rec = int(fr_rec.winId())
else:
# """
# (3) Again, let Valkka create the window, but put on top a translucent widget (that catches mouse gestures)
win_id = self.openglthread.createWindow(show=False)
widget_pair = WidgetPair(self.w, win_id, TestWidget0)
fr = widget_pair.getWidget()
self.widget_pairs.append(widget_pair)
win_id_rec = self.openglthread.createWindow(show=False)
widget_pair = WidgetPair(self.rec_video_area, win_id_rec,
TestWidget0)
fr_rec = widget_pair.getWidget()
self.widget_pairs.append(widget_pair)
# """
nrow = self.pardic["videos per row"]
print(pre, "setupUi: layout index, address : ", cw // nrow,
cw % nrow, address)
self.lay.addWidget(fr, cw // nrow, cw % nrow)
self.rec_video_area_lay.addWidget(fr_rec, cw // nrow,
cw % nrow)
self.videoframes.append(fr)
self.videoframes.append(fr_rec)
# present frames with slot number cs at window win_id
# rec_slot = cs # debug
print(pre, "setupUi: live:", cs, win_id)
print(pre, "setupUi: rec :", rec_slot, win_id_rec)
token = self.openglthread.connect(slot=cs, window_id=win_id)
tokens.append(token)
token = self.openglthread.connect(slot=rec_slot,
window_id=win_id_rec)
tokens.append(token)
cw += 1
cs += 1
if use_live:
chain_live.decodingOn(
) # tell the decoding thread to start its job
chain_rec.decodingOn()
a += 1
def closeValkka(self):
self.livethread.close()
self.valkkafsmanager.close()
for chain in self.chains:
chain.close()
self.chains = []
self.widget_pairs = []
self.videoframes = []
self.openglthread.close()
# time.sleep(5)
def start_streams(self):
pass
def stop_streams(self):
pass
def closeEvent(self, e):
print("\n", pre, "closeEvent!\n")
self.stop_streams()
self.closeValkka()
self.rec_window.forceClose()
# self.rec_window.close()
e.accept()
