def initializeGL(self) -> None:
self.mpv_gl = MpvRenderContext(
self.mpv,
"opengl",
opengl_init_params={"get_proc_address": self.get_proc_addr_c},
)
self.mpv_gl.update_cb = self.on_update
def on_realize(self, area):
self.make_current()
self.ctx = MpvRenderContext(
self.mpv,
'opengl',
opengl_init_params={'get_proc_address': self._proc_addr_wrapper})
self.ctx.update_cb = self.wrapped_c_render_func
class MpvOpenGLWidget(VideoOpenGLWidget):
"""Mpv 视频输出窗口
销毁时,应该调用 shutdown 方法来释放资源。
该 Widget 是模仿一些 C++ 程序编写而成(详见项目 research 目录下的例子),
我们对背后的原理不太理解,目前测试是可以正常工作的。
目前主要的疑问有:
- [ ] shutdown 方法期望是用来释放资源的,目前的写法不知是否合理?
应该在什么时候调用 shutdown 方法?
"""
def __init__(self, app, parent=None):
super().__init__(app=app, parent=parent)
self._app = app
self.mpv = self._app.player._mpv # noqa
self.ctx = None
self.get_proc_addr_c = OpenGlCbGetProcAddrFn(get_proc_addr)
def initializeGL(self):
params = {'get_proc_address': self.get_proc_addr_c}
self.ctx = MpvRenderContext(self.mpv,
'opengl',
opengl_init_params=params)
self.ctx.update_cb = self.on_update
def shutdown(self):
if self.ctx is not None:
self.ctx.free()
self.ctx = None
def paintGL(self):
# HELP: It seems that `initializeGL` is called by Qt on
# old version (<= v5.15.2)
if self.ctx is None:
self.initializeGL()
# compatible with HiDPI display
ratio = self._app.devicePixelRatio()
w = int(self.width() * ratio)
h = int(self.height() * ratio)
opengl_fbo = {'w': w, 'h': h, 'fbo': self.defaultFramebufferObject()}
self.ctx.render(flip_y=True, opengl_fbo=opengl_fbo)
@pyqtSlot()
def maybe_update(self):
if self.window().isMinimized():
self.makeCurrent()
self.paintGL()
self.context().swapBuffers(self.context().surface())
self.doneCurrent()
else:
self.update()
def on_update(self, ctx=None):
# maybe_update method should run on the thread that creates the
# OpenGLContext, which in general is the main thread.
# QMetaObject.invokeMethod can do this trick.
QMetaObject.invokeMethod(self, 'maybe_update')
class MpvWidget(QOpenGLWidget):
def __init__(self, parent=None):
super().__init__(parent=parent)
self.mpv = MPV(ytdl=True)
self.ctx = None
self.get_proc_addr_c = OpenGlCbGetProcAddrFn(get_proc_addr)
def initializeGL(self):
params = {'get_proc_address': self.get_proc_addr_c}
self.ctx = MpvRenderContext(self.mpv,
'opengl',
opengl_init_params=params)
self.ctx.update_cb = self.on_update
def paintGL(self):
# compatible with HiDPI display
ratio = self.windowHandle().devicePixelRatio()
w = int(self.width() * ratio)
h = int(self.height() * ratio)
opengl_fbo = {'w': w, 'h': h, 'fbo': self.defaultFramebufferObject()}
self.ctx.render(flip_y=True, opengl_fbo=opengl_fbo)
@pyqtSlot()
def maybe_update(self):
if self.window().isMinimized():
self.makeCurrent()
self.paintGL()
self.context().swapBuffers(self.context().surface())
self.doneCurrent()
else:
self.update()
def on_update(self, ctx=None):
# maybe_update method should run on the thread that creates the OpenGLContext,
# which in general is the main thread. QMetaObject.invokeMethod can
# do this trick.
QMetaObject.invokeMethod(self, 'maybe_update')
def on_update_fake(self, ctx=None):
pass
def closeEvent(self, _):
# self.makeCurrent()
# self.mpv.terminate()
pass
def __init__(self, filename):
self.filename = filename
self.open = True
self.fbo = gl.glGenFramebuffers(1)
gl.glBindFramebuffer(gl.GL_FRAMEBUFFER, self.fbo)
self.texture = gl.glGenTextures(1)
gl.glBindTexture(gl.GL_TEXTURE_2D, self.texture)
gl.glTexParameteri(gl.GL_TEXTURE_2D, gl.GL_TEXTURE_MIN_FILTER,
gl.GL_LINEAR)
gl.glTexParameteri(gl.GL_TEXTURE_2D, gl.GL_TEXTURE_MAG_FILTER,
gl.GL_LINEAR)
gl.glFramebufferTexture2D(gl.GL_FRAMEBUFFER, gl.GL_COLOR_ATTACHMENT0,
gl.GL_TEXTURE_2D, self.texture, 0)
gl.glTexImage2D(gl.GL_TEXTURE_2D, 0, gl.GL_RGB, 100, 100, 0, gl.GL_RGB,
gl.GL_UNSIGNED_BYTE, None)
gl.glBindTexture(gl.GL_TEXTURE_2D, 0)
gl.glBindFramebuffer(gl.GL_FRAMEBUFFER, 0)
self.playbackPos = (0, )
self.volume = (0, )
self.loop = 'inf'
self.mpv = MPV(log_handler=print, loglevel='debug')
def get_process_address(_, name):
print(name)
address = glfw.get_proc_address(name.decode('utf8'))
return ctypes.cast(address, ctypes.c_void_p).value
proc_addr_wrapper = OpenGlCbGetProcAddrFn(get_process_address)
self.ctx = MpvRenderContext(
self.mpv,
'opengl',
opengl_init_params={'get_proc_address': proc_addr_wrapper})
self.mpv.play(self.filename)
self.mpv.volume = 0
def initializeGL(self):
params = {'get_proc_address': self.get_proc_addr_c}
self.ctx = MpvRenderContext(self.mpv,
'opengl',
opengl_init_params=params)
self.ctx.update_cb = self.on_update
class VideoPlayer:
def terminate(self):
self.ctx.free()
self.mpv.terminate()
def __init__(self, filename):
self.filename = filename
self.open = True
self.fbo = gl.glGenFramebuffers(1)
gl.glBindFramebuffer(gl.GL_FRAMEBUFFER, self.fbo)
self.texture = gl.glGenTextures(1)
gl.glBindTexture(gl.GL_TEXTURE_2D, self.texture)
gl.glTexParameteri(gl.GL_TEXTURE_2D, gl.GL_TEXTURE_MIN_FILTER,
gl.GL_LINEAR)
gl.glTexParameteri(gl.GL_TEXTURE_2D, gl.GL_TEXTURE_MAG_FILTER,
gl.GL_LINEAR)
gl.glFramebufferTexture2D(gl.GL_FRAMEBUFFER, gl.GL_COLOR_ATTACHMENT0,
gl.GL_TEXTURE_2D, self.texture, 0)
gl.glTexImage2D(gl.GL_TEXTURE_2D, 0, gl.GL_RGB, 100, 100, 0, gl.GL_RGB,
gl.GL_UNSIGNED_BYTE, None)
gl.glBindTexture(gl.GL_TEXTURE_2D, 0)
gl.glBindFramebuffer(gl.GL_FRAMEBUFFER, 0)
self.playbackPos = (0, )
self.volume = (0, )
self.loop = 'inf'
self.mpv = MPV(log_handler=print, loglevel='debug')
def get_process_address(_, name):
print(name)
address = glfw.get_proc_address(name.decode('utf8'))
return ctypes.cast(address, ctypes.c_void_p).value
proc_addr_wrapper = OpenGlCbGetProcAddrFn(get_process_address)
self.ctx = MpvRenderContext(
self.mpv,
'opengl',
opengl_init_params={'get_proc_address': proc_addr_wrapper})
self.mpv.play(self.filename)
self.mpv.volume = 0
def render(self):
videowindow, self.open = imgui.begin("Video window {}".format(
self.filename),
self.open,
flags=imgui.WINDOW_NO_SCROLLBAR)
w, h = imgui.get_window_size()
if imgui.APPEARING:
imgui.set_window_size(400, 300)
w, h = imgui.core.get_content_region_available()
w = int(max(w, 0))
h = int(max(h - 85, 0))
if not self.open:
imgui.end()
self.terminate()
return
if self.ctx.update() and w > 0 and h > 0:
gl.glBindFramebuffer(gl.GL_FRAMEBUFFER, self.fbo)
gl.glBindTexture(gl.GL_TEXTURE_2D, self.texture)
gl.glTexImage2D(gl.GL_TEXTURE_2D, 0, gl.GL_RGB, w, h, 0, gl.GL_RGB,
gl.GL_UNSIGNED_BYTE, None)
gl.glBindFramebuffer(gl.GL_FRAMEBUFFER, 0)
gl.glBindTexture(gl.GL_TEXTURE_2D, 0)
self.ctx.render(flip_y=False,
opengl_fbo={
'w': w,
'h': h,
'fbo': self.fbo
})
try:
imgui.text("Filename: {} fbo: {} tex: {}".format(
self.mpv.filename, self.fbo, self.texture))
except:
imgui.text("Filename: {} fbo: {} tex: {}".format(
self.mpv.filename, self.fbo, self.texture))
try:
imgui.text("{0:.2f}s/{1:.2f}s ({2:.2f}s remaining)".format(
self.mpv.time_pos, self.mpv.duration,
self.mpv.playtime_remaining))
except:
imgui.text("Loading...")
imgui.image(self.texture, w, h)
imgui.push_item_width(-1)
changed, values = imgui.slider_float("##Playback Percentage",
*self.playbackPos,
min_value=0.0,
max_value=100.0,
format="Playback Percentage %.0f",
power=1.0)
if changed and values:
try:
self.mpv.command('seek', values, 'absolute-percent')
except:
pass
self.playbackPos = (values, )
elif self.mpv.percent_pos:
self.playbackPos = (self.mpv.percent_pos, )
changed, values = imgui.slider_float("##Volume",
*self.volume,
min_value=0.0,
max_value=100.0,
format="Volume %.0f",
power=1.0)
if changed:
self.mpv.volume = values
self.volume = (values, )
elif self.mpv.volume:
self.volume = (self.mpv.volume, )
imgui.end()
class MpvWidget(QOpenGLWidget):
_schedule_update = pyqtSignal()
def __init__(self, api: Api, parent: Optional[QWidget] = None) -> None:
super().__init__(parent)
self._api = api
locale.setlocale(locale.LC_NUMERIC, "C")
self._destroyed = False
self._need_subs_refresh = False
self.mpv = MPV(ytdl=False, loglevel="info", log_handler=print)
self.mpv_gl = None
self.get_proc_addr_c = OpenGlCbGetProcAddrFn(get_proc_addr)
self.frameSwapped.connect(self.swapped,
Qt.ConnectionType.DirectConnection)
for key, value in {
# "config": False,
"quiet": False,
"msg-level": "all=info",
"osc": False,
"osd-bar": False,
"input-cursor": False,
"input-vo-keyboard": False,
"input-default-bindings": False,
"ytdl": False,
"sub-auto": False,
"audio-file-auto": False,
"vo": "null" if api.args.no_video else "libmpv",
"hwdec": "no",
"pause": True,
"idle": True,
"blend-subtitles": "video",
"video-sync": "display-vdrop",
"keepaspect": True,
"stop-playback-on-init-failure": False,
"keep-open": True,
"track-auto-selection": False,
}.items():
setattr(self.mpv, key, value)
self._opengl = None
self._timer = QTimer(parent=None)
self._timer.setInterval(api.cfg.opt["video"]["subs_sync_interval"])
self._timer.timeout.connect(self._refresh_subs_if_needed)
api.subs.loaded.connect(self._on_subs_load)
api.video.stream_created.connect(self._on_video_state_change)
api.video.stream_unloaded.connect(self._on_video_state_change)
api.video.current_stream_switched.connect(self._on_video_state_change)
api.audio.stream_created.connect(self._on_audio_state_change)
api.audio.stream_unloaded.connect(self._on_audio_state_change)
api.audio.current_stream_switched.connect(self._on_audio_state_change)
api.playback.request_seek.connect(self._on_request_seek,
Qt.ConnectionType.DirectConnection)
api.playback.request_playback.connect(self._on_request_playback)
api.playback.playback_speed_changed.connect(
self._on_playback_speed_change)
api.playback.volume_changed.connect(self._on_volume_change)
api.playback.mute_changed.connect(self._on_mute_change)
api.playback.pause_changed.connect(self._on_pause_change)
api.video.view.zoom_changed.connect(self._on_video_zoom_change)
api.video.view.pan_changed.connect(self._on_video_pan_change)
api.gui.terminated.connect(self.shutdown)
self._schedule_update.connect(self.update)
self.mpv.observe_property("time-pos", self._on_mpv_time_pos_change)
self.mpv.observe_property("track-list", self._on_mpv_track_list_change)
self.mpv.observe_property("pause", self._on_mpv_pause_change)
self._timer.start()
def initializeGL(self) -> None:
self.mpv_gl = MpvRenderContext(
self.mpv,
"opengl",
opengl_init_params={"get_proc_address": self.get_proc_addr_c},
)
self.mpv_gl.update_cb = self.on_update
def paintGL(self) -> None:
if self.mpv_gl:
ratio = self.devicePixelRatioF()
w = int(self.width() * ratio)
h = int(self.height() * ratio)
self.mpv_gl.render(
flip_y=True,
opengl_fbo={
"fbo": self.defaultFramebufferObject(),
"w": w,
"h": h,
},
)
@pyqtSlot()
def maybe_update(self) -> None:
if self._destroyed:
return
if self.window().isMinimized():
self.makeCurrent()
self.paintGL()
self.context().swapBuffers(self.context().surface())
self.swapped()
self.doneCurrent()
else:
self.update()
def on_update(self) -> None:
self._schedule_update.emit()
def on_update_fake(self) -> None:
pass
def swapped(self) -> None:
if self.mpv_gl:
self.mpv_gl.report_swap()
def closeEvent(self, _: Any) -> None:
self.makeCurrent()
if self.mpv_gl:
self.mpv_gl.update_cb = self.on_update_fake
self.mpv_gl.free()
def _on_subs_load(self) -> None:
self._api.subs.script_info.changed.subscribe(
lambda _event: self._on_subs_change())
self._api.subs.events.changed.subscribe(
lambda _event: self._on_subs_change())
self._api.subs.styles.changed.subscribe(
lambda _event: self._on_subs_change())
def _on_video_state_change(self, stream: VideoStream) -> None:
self._sync_media()
self._need_subs_refresh = True
def _on_audio_state_change(self, stream: AudioStream) -> None:
self._sync_media()
def _sync_media(self) -> None:
self.mpv.pause = True
self.mpv.loadfile("null://")
external_files: set[str] = set()
for video_stream in self._api.video.streams:
external_files.add(str(video_stream.path))
for audio_stream in self._api.audio.streams:
external_files.add(str(audio_stream.path))
self.mpv.external_files = list(external_files)
if not external_files:
self._api.playback.state = PlaybackFrontendState.NOT_READY
else:
self._api.playback.state = PlaybackFrontendState.LOADING
def shutdown(self) -> None:
self._destroyed = True
self.makeCurrent()
if self._opengl:
self._opengl.set_update_callback(lambda: None)
self._opengl.close()
self.deleteLater()
self._timer.stop()
def _refresh_subs_if_needed(self) -> None:
if self._need_subs_refresh:
self._refresh_subs()
def _refresh_subs(self) -> None:
if not self._api.playback.is_ready:
return
if self.mpv.sub:
try:
self.mpv.command("sub_remove")
except mpv.MPVError:
pass
with io.StringIO() as handle:
write_ass(self._api.subs.ass_file, handle)
self.mpv.command("sub_add", "memory://" + handle.getvalue())
self._need_subs_refresh = False
def _set_end(self, end: Optional[int]) -> None:
if not self._api.playback.is_ready:
return
if end is None:
ret = "none"
else:
end = max(0, end - 1)
ret = ms_to_str(end)
if self.mpv.end != ret:
self.mpv.end = ret
def _on_request_seek(self, pts: int, precise: bool) -> None:
self._set_end(None) # mpv refuses to seek beyond --end
self.mpv.seek(ms_to_str(pts), "absolute", "exact")
def _on_request_playback(self, start: Optional[int],
end: Optional[int]) -> None:
if start is not None:
self.mpv.seek(ms_to_str(start), "absolute")
self._set_end(end)
self.mpv.pause = False
def _on_playback_speed_change(self) -> None:
self.mpv.speed = float(self._api.playback.playback_speed)
def _on_volume_change(self) -> None:
self.mpv.volume = float(self._api.playback.volume)
def _on_mute_change(self) -> None:
self.mpv.mute = self._api.playback.is_muted
def _on_pause_change(self, is_paused: bool) -> None:
self._set_end(None)
self.mpv.pause = is_paused
def _on_video_zoom_change(self) -> None:
# ignore errors coming from setting extreme values
try:
self.mpv.video_zoom = float(self._api.video.view.zoom)
except mpv.MPVError:
pass
def _on_video_pan_change(self) -> None:
# ignore errors coming from setting extreme values
try:
self.mpv.video_pan_x = float(self._api.video.view.pan_x)
self.mpv.video_pan_y = float(self._api.video.view.pan_y)
except mpv.MPVError:
pass
def _on_subs_change(self) -> None:
self._need_subs_refresh = True
def _on_mpv_unload(self) -> None:
self._api.playback.state = PlaybackFrontendState.NOT_READY
def _on_mpv_load(self) -> None:
self._api.playback.state = PlaybackFrontendState.READY
self._need_subs_refresh = True
def _on_track_list_ready(self, track_list: Any) -> None:
# self._api.log.debug(json.dumps(track_list, indent=4))
vid: Optional[int] = None
aid: Optional[int] = None
current_audio_stream: Optional[AudioStream]
try:
current_audio_stream = self._api.audio.current_stream
except ResourceUnavailable:
current_audio_stream = None
current_video_stream: Optional[VideoStream]
try:
current_video_stream = self._api.video.current_stream
except ResourceUnavailable:
current_video_stream = None
for track in track_list:
track_type = track["type"]
track_path = track.get("external-filename")
if (track_type == "video" and current_video_stream
and current_video_stream.path.samefile(track_path)):
vid = track["id"]
if (track_type == "audio" and current_audio_stream
and current_audio_stream.path.samefile(track_path)):
aid = track["id"]
if self.mpv.vid != vid:
self.mpv.vid = vid if vid is not None else "no"
self._api.log.debug(f"playback: changing vid to {vid}")
if self.mpv.aid != aid:
self.mpv.aid = aid if aid is not None else "no"
self._api.log.debug(f"playback: changing aid to {aid}")
delay = (current_audio_stream.delay
if current_audio_stream else 0) / 1000.0
if self.mpv.audio_delay != delay:
self.mpv.audio_delay = delay
if vid is not None or aid is not None:
self._api.playback.state = PlaybackFrontendState.READY
else:
self._api.playback.state = PlaybackFrontendState.NOT_READY
def _on_mpv_time_pos_change(self, prop_name: str, new_value: Any) -> None:
pts = round((new_value or 0) * 1000)
self._api.playback.receive_current_pts_change.emit(pts)
def _on_mpv_pause_change(self, prop_name: str, new_value: Any) -> None:
self._api.playback.pause_changed.disconnect(self._on_pause_change)
self._api.playback.is_paused = new_value
self._api.playback.pause_changed.connect(self._on_pause_change)
def _on_mpv_track_list_change(self, prop_name: str,
new_value: Any) -> None:
self._on_track_list_ready(new_value)
class OpenGlArea(Gtk.GLArea):
def __init__(self, mpv_commands_async: bool, **properties):
super().__init__(**properties)
self.mpv_commands_async = mpv_commands_async
self._proc_addr_wrapper = OpenGlCbGetProcAddrFn(get_process_address)
self.ctx = None
self.mpv = MPV(input_default_bindings=True,
input_vo_keyboard=True,
osc=True
# log_handler=print,
# loglevel='debug'
)
self.connect("realize", self.on_realize)
self.connect("render", self.on_render)
self.connect("unrealize", self.on_unrealize)
self.add_events(Gdk.EventMask.POINTER_MOTION_MASK)
self.add_events(Gdk.EventMask.BUTTON_PRESS_MASK)
self.add_events(Gdk.EventMask.BUTTON_RELEASE_MASK)
# self.add_events(Gdk.EventMask.KEY_PRESS_MASK)
# self.add_events(Gdk.EventMask.STRUCTURE_MASK)
# self.add_events(Gdk.EventMask.SCROLL_MASK)
self.connect("motion-notify-event", self.on_mouse_move_event)
self.connect("button-press-event", self.on_button_press_event)
self.connect("button-release-event", self.on_button_release_event)
def on_realize(self, area):
self.make_current()
self.ctx = MpvRenderContext(
self.mpv,
'opengl',
opengl_init_params={'get_proc_address': self._proc_addr_wrapper})
self.ctx.update_cb = self.wrapped_c_render_func
def on_unrealize(self, arg):
self.ctx.free()
self.mpv.terminate()
def wrapped_c_render_func(self):
GLib.idle_add(self.call_frame_ready, None, GLib.PRIORITY_HIGH)
def call_frame_ready(self, *args):
if self.ctx.update():
self.queue_render()
def on_render(self, arg1, arg2):
if self.ctx:
factor = self.get_scale_factor()
rect = self.get_allocated_size()[0]
width = rect.width * factor
height = rect.height * factor
fbo = GL.glGetIntegerv(GL.GL_DRAW_FRAMEBUFFER_BINDING)
self.ctx.render(flip_y=True,
opengl_fbo={
'w': width,
'h': height,
'fbo': fbo
})
return True
return False
def play(self, media):
self.mpv.command_async("script-binding", "stats/display-stats-toggle")
self.mpv.play(media)
def on_mouse_move_event(self, _, event) -> bool:
scale_factor = self.get_scale_factor()
if self.mpv_commands_async:
self.mpv.command_async("mouse", int(event.x * scale_factor),
int(event.y * scale_factor))
else:
self.mpv.command("mouse", int(event.x * scale_factor),
int(event.y * scale_factor))
return True
def on_button_press_event(self, _, event) -> bool:
btn = event.button
# PRESS = "keypress"
# DOWN = "keydown"
# UP = "keyup"
if btn == 1: # MouseButton LEFT:
if self.mpv_commands_async:
self.mpv.command_async("keydown", "MOUSE_BTN" + str(0))
else:
self.mpv.command("keydown", "MOUSE_BTN" + str(0))
return True
return False
def on_button_release_event(self, _: Gtk.Widget, event) -> bool:
btn = event.button
if btn == 1:
if self.mpv_commands_async:
self.mpv.command_async("keyup", "MOUSE_BTN" + str(0))
else:
self.mpv.command("keyup", "MOUSE_BTN" + str(0))
return True
return False