WIP refactor to keep predictions longer

2024-10-02 12:05:53 +02:00 · 2024-10-02 12:05:53 +02:00 · e837617e39
commit e837617e39
parent c3263e7448
1 changed files with 112 additions and 40 deletions
--- a/trap/renderer.py
+++ b/trap/renderer.py
@ -18,6 +18,7 @@ import tempfile
 from pathlib import Path
 import shutil
 import math
 from collections import deque
 from pyglet import shapes
 from PIL import Image
@ -62,11 +63,13 @@ class DrawnTrack:
        self.update_at = self.created_at = time.time()
        self.track_id = track_id
        self.renderer = renderer
        self.set_track(track, H)
        self.drawn_positions = []
        self.drawn_predictions = []
        self.predictions: deque[DrawnPrediction] = deque(maxlen=20) # TODO; make configurable
        self.shapes: list[pyglet.shapes.Line] = []
-        self.pred_shapes: list[list[pyglet.shapes.Line]] = []
+
        self.set_track(track, H)
        self.set_prediction(track)
    def set_track(self, track: Track, H):
        self.update_at = time.time()
@ -78,11 +81,17 @@ class DrawnTrack:
        # perhaps only do in constructor:
        self.inv_H = np.linalg.pinv(self.H)
    def set_prediction(self, track: Track):
        # TODO: turn into add_prediction
        pred_coords = []
        if not track.predictions:
            return
        for pred_i, pred in enumerate(track.predictions):
            pred_coords.append(cv2.perspectiveTransform(np.array([pred]), self.inv_H)[0].tolist())
-        self.pred_coords = pred_coords
+        # self.pred_coords = pred_coords
        self.predictions.append(DrawnPrediction(self, pred_coords))
            # color = (128,0,128) if pred_i else (128,
@ -98,23 +107,26 @@ class DrawnTrack:
        if len(self.coords) > len(self.drawn_positions):
            self.drawn_positions.extend(self.coords[len(self.drawn_positions):])
-        for a, drawn_prediction in enumerate(self.drawn_predictions):
+        # Superseded by individual drawnprediction elements
-            for i, pos in enumerate(drawn_prediction):
+        # for a, drawn_prediction in enumerate(self.drawn_predictions):
-                # TODO: this should be done in polar space starting from origin (i.e. self.drawn_posision[-1])
+        #     for i, pos in enumerate(drawn_prediction):
-                decay = max(3, (18/i) if i else 10) # points further away move with more delay
+        #         # TODO: this should be done in polar space starting from origin (i.e. self.drawn_posision[-1])
-                decay = 6
+        #         decay = max(3, (18/i) if i else 10) # points further away move with more delay
-                origin = self.drawn_positions[-1]
+        #         decay = 6
-                drawn_r, drawn_angle = relativePointToPolar(  origin, drawn_prediction[i])
+        #         origin = self.drawn_positions[-1]
-                pred_r, pred_angle = relativePointToPolar(origin, self.pred_coords[a][i])
+        #         drawn_r, drawn_angle = relativePointToPolar(  origin, drawn_prediction[i])
-                r = exponentialDecay(drawn_r, pred_r, decay, dt)
+        #         pred_r, pred_angle = relativePointToPolar(origin, self.pred_coords[a][i])
-                angle = exponentialDecay(drawn_angle, pred_angle, decay, dt)
+        #         r = exponentialDecay(drawn_r, pred_r, decay, dt)
-                x, y = relativePolarToPoint(origin, r, angle)
+        #         angle = exponentialDecay(drawn_angle, pred_angle, decay, dt)
-                self.drawn_predictions[a][i] = int(x), int(y)
+        #         x, y = relativePolarToPoint(origin, r, angle)
-                # self.drawn_predictions[i][0] = int(exponentialDecay(self.drawn_predictions[i][0], self.pred_coords[i][0], decay, dt))
+        #         self.drawn_predictions[a][i] = int(x), int(y)
-                # self.drawn_predictions[i][1] = int(exponentialDecay(self.drawn_predictions[i][1], self.pred_coords[i][1], decay, dt))
+        #         # self.drawn_predictions[i][0] = int(exponentialDecay(self.drawn_predictions[i][0], self.pred_coords[i][0], decay, dt))
        #         # self.drawn_predictions[i][1] = int(exponentialDecay(self.drawn_predictions[i][1], self.pred_coords[i][1], decay, dt))
        #     if len(self.pred_coords) > len(self.drawn_predictions):
        #         self.drawn_predictions.extend(self.pred_coords[len(self.drawn_predictions):])
        if len(self.pred_coords) > len(self.drawn_predictions):
            self.drawn_predictions.extend(self.pred_coords[len(self.drawn_predictions):])
        # for a, drawn_prediction in self.drawn_predictions:
        #     if len(self.pred_coords) > len(self.drawn_predictions):
        #         self.drawn_predictions.extend(self.pred_coords[len(self.drawn_predictions):])
@ -192,6 +204,55 @@ class DrawnTrack:
                        target_opacity = (1 - ((ci - half) / half)) * 180
                    line.opacity = int(exponentialDecay(line.opacity, target_opacity, decay, dt))
 class DrawnPrediction:
    def __init__(self, drawn_track: DrawnTrack, coords: list[list] = []):
        self.created_at = time.time()
        # self.renderer = renderer
        self.drawn_track = drawn_track
        self.coords = coords
        self.color = colorset[self.drawn_track.track_id % len(colorset)]
        self.pred_shapes: list[list[pyglet.shapes.Line]] = []
        # coords is a list of predictions
        for a, coords in enumerate(self.coords):
            prediction_shapes = []
            for ci in range(0, len(coords)):
                if ci == 0:
                    x, y = [int(p) for p in self.drawn_track.coords[-1]]
                else:
                    x, y = [int(p) for p in coords[ci-1]]
                x2, y2 = [int(p) for p in coords[ci]]
                # flip in window:
                y, y2 = self.drawn_track.renderer.window.height - y, self.drawn_track.renderer.window.height - y2
                line = self.drawn_track.renderer.gradientLine(x, y, x2, y2, 3, self.color, self.color, batch=self.drawn_track.renderer.batch_anim)
                line.opacity = 5
                prediction_shapes.append(line)
            self.pred_shapes.append(prediction_shapes)
    def update_opacities(self, dt: float):
        """
        Update the opacties of the drawn line, by only using the dt provided by the renderer
        Done using exponential decal, with a different decay value per item
        """
        for a, coords in enumerate(self.coords):
            for ci in range(0, len(coords)):
                line = self.pred_shapes[a][ci-1]
                # Positions of prediction no longer update
                # line.x, line.y = x, y
                # line.x2, line.y2 = x2, y2
                # line.color = color
                decay = (16/ci) if ci else 16
                half = len(coords) / 2
                if ci < half:
                    target_opacity = 180
                else:
                    target_opacity = (1 - ((ci - half) / half)) * 180
                line.opacity = int(exponentialDecay(line.opacity, target_opacity, decay, dt))
 class FrameWriter:
    """
@ -415,14 +476,14 @@ class Renderer:
    def check_frames(self, dt):
        new_tracks = False
        try:
            self.frame: Frame = self.frame_sock.recv_pyobj(zmq.NOBLOCK)
            if not self.first_time:
                self.first_time = self.frame.time
            img = cv2.GaussianBlur(self.frame.img, (15, 15), 0)
-            img = cv2.flip(cv2.cvtColor(img, cv2.COLOR_BGR2RGB), 0)
+            img = cv2.cvtColor(cv2.cvtColor(img, cv2.COLOR_BGR2GRAY), cv2.COLOR_GRAY2RGB)
-            img = pyglet.image.ImageData(self.frame_size[0], self.frame_size[1], 'RGB', img.tobytes())
+            channels = 3 # unfortunately, pyglet seems to draw single channel as Red only
            img = pyglet.image.ImageData(self.frame_size[0], self.frame_size[1], 'RGB', img.tobytes(), pitch=self.frame_size[0] * -1 * channels)
            # don't draw in batch, so that it is the background
            self.video_sprite = pyglet.sprite.Sprite(img=img, batch=self.batch_bg)
            self.video_sprite.opacity = 100
@ -432,17 +493,15 @@ class Renderer:
            pass
        try:
            self.prediction_frame: Frame = self.prediction_sock.recv_pyobj(zmq.NOBLOCK)
-            new_tracks = True
+            self.update_predictions()
        except zmq.ZMQError as e:
            pass
        try:
            self.tracker_frame: Frame = self.tracker_sock.recv_pyobj(zmq.NOBLOCK)
-            new_tracks = True
+            self.update_tracks()
        except zmq.ZMQError as e:
            pass
        if new_tracks:
            self.update_tracks()
    def update_tracks(self):
        """Updates the track objects and shapes. Called after setting `prediction_frame`
@ -454,18 +513,30 @@ class Renderer:
        #         # TODO fade out
        #         del self.drawn_tracks[track_id]
        if self.tracker_frame:
            for track_id, track in self.tracker_frame.tracks.items():
                if track_id not in self.drawn_tracks:
                    self.drawn_tracks[track_id] = DrawnTrack(track_id, track, self, self.tracker_frame.H)
                else:
                    self.drawn_tracks[track_id].set_track(track, self.tracker_frame.H)
        # clean up
        for track_id in list(self.drawn_tracks.keys()):
            # TODO make delay configurable
            if self.drawn_tracks[track_id].update_at < time.time() - 5:
                # TODO fade out
                del self.drawn_tracks[track_id]
    def update_predictions(self):
        if self.prediction_frame:
            for track_id, track in self.prediction_frame.tracks.items():
                if track_id not in self.drawn_tracks:
                    self.drawn_tracks[track_id] = DrawnTrack(track_id, track, self, self.prediction_frame.H)
                    logger.warning("Prediction for uninitialised frame. This should not happen? (maybe huge delay in prediction?)")
                else:
-                    self.drawn_tracks[track_id].set_track(track, self.prediction_frame.H)
+                    self.drawn_tracks[track_id].set_prediction(track)
        # clean up
        for track in self.drawn_tracks.values():
            if track.update_at < time.time() - 5:
                # TODO fade out
                del self.drawn_tracks[track_id]
    def on_key_press(self, symbol, modifiers):
        print('A key was pressed, use f to hide')
@ -504,7 +575,8 @@ class Renderer:
            for shape in track.shapes:
                shape.draw() # for some reason the batches don't work
        for track in self.drawn_tracks.values():
-            for shapes in track.pred_shapes:
+            for prediction in track.predictions:
                for shapes in prediction.pred_shapes:
                    for shape in shapes:
                        shape.draw()
        # self.batch_anim.draw()
@ -668,12 +740,12 @@ def decorate_frame(frame: Frame, prediction_frame: Frame, first_time: float, con
    # or https://api.arcade.academy/en/stable/index.html (supports gradient color in line -- "Arcade is built on top of Pyglet and OpenGL.")
    frame.img
-    overlay = np.zeros(frame.img.shape, np.uint8)
+    # # Fill image with red color(set each pixel to red)
-    # Fill image with red color(set each pixel to red)
+    # overlay = np.zeros(frame.img.shape, np.uint8)
-    overlay[:] = (130, 0, 75)
+    # overlay[:] = (130, 0, 75)
-    img = cv2.addWeighted(frame.img, .4, overlay, .6, 0)
+    # img = cv2.addWeighted(frame.img, .4, overlay, .6, 0)
-    # img = frame.img.copy()
+    img = frame.img.copy()
    # all not working:
    # if i == 1: