CV renderer and binning options
This commit is contained in:
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d8004e9125
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6b12ddf08a
7 changed files with 120 additions and 62 deletions
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@ -63,13 +63,14 @@ class AnimationRenderer:
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self.frame_size = (self.config.camera.w,self.config.camera.h)
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self.frame_size = (self.config.camera.w,self.config.camera.h)
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self.hide_stats = False
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self.hide_stats = False
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self.out_writer = None # self.start_writer() if self.config.render_file else None
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self.out_writer = None # self.start_writer() if self.config.render_file else None
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self.streaming_process = None # self.start_streaming() if self.config.render_url else None
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self.streaming_process = self.start_streaming() if self.config.render_url else None
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if self.config.render_window:
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# if self.config.render_window:
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pass
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# pass
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# cv2.namedWindow("frame", cv2.WND_PROP_FULLSCREEN)
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# # cv2.namedWindow("frame", cv2.WND_PROP_FULLSCREEN)
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# cv2.setWindowProperty("frame",cv2.WND_PROP_FULLSCREEN,cv2.WINDOW_FULLSCREEN)
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# # cv2.setWindowProperty("frame",cv2.WND_PROP_FULLSCREEN,cv2.WINDOW_FULLSCREEN)
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else:
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# else:
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if self.streaming_process is not None:
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pyglet.options["headless"] = True
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pyglet.options["headless"] = True
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config = pyglet.gl.Config(sample_buffers=1, samples=4)
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config = pyglet.gl.Config(sample_buffers=1, samples=4)
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@ -78,7 +79,9 @@ class AnimationRenderer:
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display = pyglet.canvas.get_display()
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display = pyglet.canvas.get_display()
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screen = display.get_screens()[0]
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screen = display.get_screens()[0]
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# self.window = pyglet.window.Window(width=self.frame_size[0], height=self.frame_size[1], config=config, fullscreen=False, screen=screens[1])
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if self.streaming_process is not None:
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self.window = pyglet.window.Window(width=self.frame_size[0], height=self.frame_size[1], config=config, fullscreen=False, screen=screen)
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else:
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self.window = pyglet.window.Window(width=screen.width, height=screen.height, config=config, fullscreen=True, screen=screen)
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self.window = pyglet.window.Window(width=screen.width, height=screen.height, config=config, fullscreen=True, screen=screen)
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self.window.set_handler('on_draw', self.on_draw)
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self.window.set_handler('on_draw', self.on_draw)
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self.window.set_handler('on_refresh', self.on_refresh)
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self.window.set_handler('on_refresh', self.on_refresh)
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@ -93,8 +96,9 @@ class AnimationRenderer:
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self.pins = PygletCornerPin(
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self.pins = PygletCornerPin(
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self.window,
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self.window,
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source_points=[[540, 670-360], [1380,670-360], [540,760-360], [1380,760-360]],
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# source_points=[[540, 670-360], [1380,670-360], [540,760-360], [1380,760-360]],
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corners=[[471, 304], [1797, 376], [467, 387], [1792, 484]])
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# corners=[[471, 304], [1797, 376], [467, 387], [1792, 484]]
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)
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self.window.push_handlers(self.pins)
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self.window.push_handlers(self.pins)
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pyglet.gl.glClearColor(255,255,255,255)
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pyglet.gl.glClearColor(255,255,255,255)
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@ -153,6 +157,32 @@ class AnimationRenderer:
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self.init_labels()
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self.init_labels()
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def start_streaming(self):
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"""TODO)) This should be inherited from a generic renderer"""
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return (
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ffmpeg
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.input('pipe:', format='rawvideo',codec="rawvideo", pix_fmt='bgr24', s='{}x{}'.format(*self.frame_size))
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.output(
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self.config.render_url,
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#codec = "copy", # use same codecs of the original video
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codec='libx264',
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listen=1, # enables HTTP server
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pix_fmt="yuv420p",
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preset="ultrafast",
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tune="zerolatency",
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# g=f"{self.fps*2}",
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g=f"{60*2}",
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analyzeduration="2000000",
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probesize="1000000",
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f='mpegts'
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)
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.overwrite_output()
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.run_async(pipe_stdin=True)
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)
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# return process
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def init_shapes(self):
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def init_shapes(self):
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'''
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'''
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Due to error when running headless, we need to configure options before extending the shapes class
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Due to error when running headless, we need to configure options before extending the shapes class
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@ -483,18 +483,22 @@ def decorate_frame(frame: Frame, tracker_frame: Frame, prediction_frame: Frame,
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base_color = (255,)*3
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base_color = (255,)*3
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info_color = (255,255,0)
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info_color = (255,255,0)
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predictor_color = (255,0,255)
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tracker_color = (0,255,255)
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cv2.putText(img, f"{frame.index:06d}", (20,17), cv2.FONT_HERSHEY_PLAIN, 1, base_color, 1)
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cv2.putText(img, f"{frame.index:06d}", (20,17), cv2.FONT_HERSHEY_PLAIN, 1, base_color, 1)
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cv2.putText(img, f"{frame.time - first_time:.3f}s", (120,17), cv2.FONT_HERSHEY_PLAIN, 1, base_color, 1)
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cv2.putText(img, f"{frame.time - first_time: >10.2f}s", (150,17), cv2.FONT_HERSHEY_PLAIN, 1, base_color, 1)
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if prediction_frame:
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if prediction_frame:
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# render Δt and Δ frames
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# render Δt and Δ frames
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cv2.putText(img, f"{prediction_frame.index - frame.index}", (90,17), cv2.FONT_HERSHEY_PLAIN, 1, info_color, 1)
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cv2.putText(img, f"{tracker_frame.index - frame.index}", (90,17), cv2.FONT_HERSHEY_PLAIN, 1, tracker_color, 1)
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cv2.putText(img, f"{prediction_frame.time - time.time():.2f}s", (200,17), cv2.FONT_HERSHEY_PLAIN, 1, info_color, 1)
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cv2.putText(img, f"{prediction_frame.index - frame.index}", (120,17), cv2.FONT_HERSHEY_PLAIN, 1, predictor_color, 1)
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cv2.putText(img, f"{len(prediction_frame.tracks)} tracks", (500,17), cv2.FONT_HERSHEY_PLAIN, 1, base_color, 1)
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cv2.putText(img, f"{tracker_frame.time - time.time():.2f}s", (230,17), cv2.FONT_HERSHEY_PLAIN, 1, tracker_color, 1)
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cv2.putText(img, f"h: {np.average([len(t.history or []) for t in prediction_frame.tracks.values()]):.2f}", (580,17), cv2.FONT_HERSHEY_PLAIN, 1, info_color, 1)
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cv2.putText(img, f"{prediction_frame.time - time.time():.2f}s", (290,17), cv2.FONT_HERSHEY_PLAIN, 1, predictor_color, 1)
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cv2.putText(img, f"ph: {np.average([len(t.predictor_history or []) for t in prediction_frame.tracks.values()]):.2f}", (660,17), cv2.FONT_HERSHEY_PLAIN, 1, info_color, 1)
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cv2.putText(img, f"{len(tracker_frame.tracks)} tracks", (620,17), cv2.FONT_HERSHEY_PLAIN, 1, base_color, 1)
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cv2.putText(img, f"p: {np.average([len(t.predictions or []) for t in prediction_frame.tracks.values()]):.2f}", (740,17), cv2.FONT_HERSHEY_PLAIN, 1, info_color, 1)
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cv2.putText(img, f"h: {np.average([len(t.history or []) for t in prediction_frame.tracks.values()]):.2f}", (700,17), cv2.FONT_HERSHEY_PLAIN, 1, tracker_color, 1)
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cv2.putText(img, f"ph: {np.average([len(t.predictor_history or []) for t in prediction_frame.tracks.values()]):.2f}", (780,17), cv2.FONT_HERSHEY_PLAIN, 1, predictor_color, 1)
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cv2.putText(img, f"p: {np.average([len(t.predictions or []) for t in prediction_frame.tracks.values()]):.2f}", (860,17), cv2.FONT_HERSHEY_PLAIN, 1, predictor_color, 1)
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options = []
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options = []
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for option in ['prediction_horizon','num_samples','full_dist','gmm_mode','z_mode', 'model_dir']:
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for option in ['prediction_horizon','num_samples','full_dist','gmm_mode','z_mode', 'model_dir']:
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@ -25,7 +25,8 @@ from bytetracker.basetrack import TrackState as ByteTrackTrackState
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from trajectron.environment import Environment, Node, Scene
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from trajectron.environment import Environment, Node, Scene
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from urllib.parse import urlparse
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from urllib.parse import urlparse
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from trap.utils import lerp
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from trap.utils import get_bins
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from trap.utils import inv_lerp, lerp
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logger = logging.getLogger('trap.frame_emitter')
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logger = logging.getLogger('trap.frame_emitter')
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@ -219,7 +220,7 @@ class Track:
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history: List[Detection] = field(default_factory=list)
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history: List[Detection] = field(default_factory=list)
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predictor_history: Optional[list] = None # in image space
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predictor_history: Optional[list] = None # in image space
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predictions: Optional[list] = None
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predictions: Optional[list] = None
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fps: int = 12
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fps: int = 12 # TODO)) convert this to camera? That way, incorporates H and dist, alternatively, each track is as a whole attached to a space
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source: Optional[int] = None # to keep track of processed tracks
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source: Optional[int] = None # to keep track of processed tracks
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def get_projected_history(self, H: Optional[cv2.Mat] = None, camera: Optional[Camera]= None) -> np.array:
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def get_projected_history(self, H: Optional[cv2.Mat] = None, camera: Optional[Camera]= None) -> np.array:
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@ -290,49 +291,67 @@ class Track:
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t.predictions,
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t.predictions,
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t.fps/step_size)
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t.fps/step_size)
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# def get_binned(self, bin_size=.5, remove_overlap=True):
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def get_binned(self, bin_size, camera: Camera, bin_start=True):
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# """
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"""
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# For an experiment: what if we predict using only concrete positions, by mapping
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For an experiment: what if we predict using only concrete positions, by mapping
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# dx,dy to a grid. Thus prediction can be for 8 moves, or rather headings
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dx,dy to a grid. Thus prediction can be for 8 moves, or rather headings
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# see ~/notes/attachments example svg
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see ~/notes/attachments example svg
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# """
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"""
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# new_history: List[Detection] = []
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history = self.get_projected_history_as_dict(H=None, camera=camera)
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# for i, (det0, det1) in enumerate(zip(self.history[:-1], self.history[1:]):
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# if i == 0:
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# new_history.append(det0)
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# continue
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# if abs(det1.x - new_history[-1].x) < bin_size or abs(det1.y - new_history[-1].y) < bin_size:
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# continue
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# # det1 falls outside of the box [-bin_size:+bin_size] around last detection
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def round_to_grid_precision(x):
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factor = 1/bin_size
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return round(x * factor) / factor
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# # 1. Interpolate exact point between det0 and det1 that this happens
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new_history: List[dict] = []
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# if abs(det1.x - new_history[-1].x) >= bin_size:
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for i, (det0, det1) in enumerate(zip(history[:-1], history[1:])):
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# if det1.x - new_history[-1].x >= bin_size:
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if i == 0:
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# # det1 left of last
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new_history.append({
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# x = new_history[-1].x + bin_size
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'x': round_to_grid_precision(det0['x']),
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# f = inv_lerp(det0.x, det1.x, x)
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'y': round_to_grid_precision(det0['y'])
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# elif new_history[-1].x - det1.x >= bin_size:
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} if bin_start else det0)
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# # det1 left of last
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continue
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# x = new_history[-1].x - bin_size
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if abs(det1['x'] - new_history[-1]['x']) < bin_size and abs(det1['y'] - new_history[-1]['y']) < bin_size:
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# f = inv_lerp(det0.x, det1.x, x)
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continue
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# y = lerp(det0.y, det1.y, f)
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# if abs(det1.y - new_history[-1].y) >= bin_size:
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# det1 falls outside of the box [-bin_size:+bin_size] around last detection
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# if det1.y - new_history[-1].y >= bin_size:
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# # det1 left of last
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# 1. Interpolate exact point between det0 and det1 that this happens
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# y = new_history[-1].y + bin_size
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if abs(det1['x'] - new_history[-1]['x']) >= bin_size:
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# f = inv_lerp(det0.y, det1.y, x)
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if det1['x'] - new_history[-1]['x'] >= bin_size:
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# elif new_history[-1].y - det1.y >= bin_size:
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# det1 left of last
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# # det1 left of last
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x = new_history[-1]['x'] + bin_size
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# y = new_history[-1].y - bin_size
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f = inv_lerp(det0['x'], det1['x'], x)
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# f = inv_lerp(det0.y, det1.y, x)
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elif new_history[-1]['x'] - det1['x'] >= bin_size:
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# x = lerp(det0.x, det1.x, f)
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# det1 left of last
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x = new_history[-1]['x'] - bin_size
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f = inv_lerp(det0['x'], det1['x'], x)
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y = lerp(det0['y'], det1['y'], f)
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if abs(det1['y'] - new_history[-1]['y']) >= bin_size:
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if det1['y'] - new_history[-1]['y'] >= bin_size:
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# det1 left of last
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y = new_history[-1]['y'] + bin_size
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f = inv_lerp(det0['y'], det1['y'], y)
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elif new_history[-1]['y'] - det1['y'] >= bin_size:
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# det1 left of last
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y = new_history[-1]['y'] - bin_size
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f = inv_lerp(det0['y'], det1['y'], y)
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x = lerp(det0['x'], det1['x'], f)
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# # 2. Find closest point on rectangle (rectangle's four corners, or 4 midpoints)
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# 2. Find closest point on rectangle (rectangle's four corners, or 4 midpoints)
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# points = [[bin_size, 0], [bin_size, bin_size], [0, bin_size], [-bin_size, bin_size], [-bin_size, 0], [-bin_size, -bin_size], [0, -bin_size], [bin_size, -bin_size]]
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points = get_bins(bin_size)
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# # todo Offsets to points:[ history for in points]
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points = [[new_history[-1]['x']+p[0], new_history[-1]['y'] + p[1]] for p in points]
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distances = [np.linalg.norm([p[0] - x, p[1]-y]) for p in points]
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closest = np.argmin(distances)
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point = points[closest]
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new_history.append({'x': point[0], 'y':point[1]})
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# todo Offsets to points:[ history for in points]
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return new_history
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def to_trajectron_node(self, camera: Camera, env: Environment) -> Node:
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def to_trajectron_node(self, camera: Camera, env: Environment) -> Node:
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@ -93,7 +93,7 @@ def start():
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]
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]
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if args.render_file or args.render_url or args.render_window:
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if args.render_file or args.render_url or args.render_window:
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if not args.render_no_preview or args.render_file or args.render_url:
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if not args.render_no_preview: #or args.render_file or args.render_url:
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procs.append(
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procs.append(
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# ExceptionHandlingProcess(target=run_cv_renderer, kwargs={'config': args, 'is_running': isRunning}, name='preview')
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# ExceptionHandlingProcess(target=run_cv_renderer, kwargs={'config': args, 'is_running': isRunning}, name='preview')
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ExceptionHandlingProcess(target=run_cv_renderer, kwargs={'config': args, 'is_running': isRunning}, name='preview')
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ExceptionHandlingProcess(target=run_cv_renderer, kwargs={'config': args, 'is_running': isRunning}, name='preview')
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@ -361,7 +361,8 @@ class PredictionServer:
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# data = json.dumps({})
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# data = json.dumps({})
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# TODO)) signal doing nothing
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# TODO)) signal doing nothing
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# self.send_frame(frame)
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# TODO)) And update the network
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self.send_frame(frame)
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continue
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continue
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@ -17,3 +17,7 @@ def inv_lerp(a: float, b: float, v: float) -> float:
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0.8 == inv_lerp(1, 5, 4.2)
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0.8 == inv_lerp(1, 5, 4.2)
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"""
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"""
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return (v - a) / (b - a)
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return (v - a) / (b - a)
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def get_bins(bin_size: float):
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return [[bin_size, 0], [bin_size, bin_size], [0, bin_size], [-bin_size, bin_size], [-bin_size, 0], [-bin_size, -bin_size], [0, -bin_size], [bin_size, -bin_size]]
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