Experiment with separate renderer for actual projection
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6 changed files with 493 additions and 18 deletions
427
trap/animation_renderer.py
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427
trap/animation_renderer.py
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# used for "Forward Referencing of type annotations"
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from __future__ import annotations
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import time
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import ffmpeg
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from argparse import Namespace
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import datetime
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import logging
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from multiprocessing import Event
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from multiprocessing.synchronize import Event as BaseEvent
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import cv2
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import numpy as np
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import pyglet
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import pyglet.event
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import zmq
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import tempfile
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from pathlib import Path
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import shutil
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import math
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from pyglet import shapes
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from PIL import Image
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from trap.frame_emitter import DetectionState, Frame, Track
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from trap.preview_renderer import DrawnTrack, PROJECTION_IMG, PROJECTION_MAP
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logger = logging.getLogger("trap.renderer")
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class AnimationRenderer:
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def __init__(self, config: Namespace, is_running: BaseEvent):
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self.config = config
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self.is_running = is_running
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context = zmq.Context()
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self.prediction_sock = context.socket(zmq.SUB)
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self.prediction_sock.setsockopt(zmq.CONFLATE, 1) # only keep latest frame. NB. make sure this comes BEFORE connect, otherwise it's ignored!!
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self.prediction_sock.setsockopt(zmq.SUBSCRIBE, b'')
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self.prediction_sock.connect(config.zmq_prediction_addr if not self.config.bypass_prediction else config.zmq_trajectory_addr)
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self.tracker_sock = context.socket(zmq.SUB)
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self.tracker_sock.setsockopt(zmq.CONFLATE, 1) # only keep latest frame. NB. make sure this comes BEFORE connect, otherwise it's ignored!!
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self.tracker_sock.setsockopt(zmq.SUBSCRIBE, b'')
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self.tracker_sock.connect(config.zmq_trajectory_addr)
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self.frame_sock = context.socket(zmq.SUB)
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self.frame_sock.setsockopt(zmq.CONFLATE, 1) # only keep latest frame. NB. make sure this comes BEFORE connect, otherwise it's ignored!!
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self.frame_sock.setsockopt(zmq.SUBSCRIBE, b'')
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self.frame_sock.connect(config.zmq_frame_addr)
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self.H = self.config.H
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self.inv_H = np.linalg.pinv(self.H)
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# TODO: get FPS from frame_emitter
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# self.out = cv2.VideoWriter(str(filename), fourcc, 23.97, (1280,720))
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self.fps = 60
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self.frame_size = (self.config.frame_width,self.config.frame_height)
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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.streaming_process = None # self.start_streaming() if self.config.render_url else None
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if self.config.render_window:
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pass
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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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else:
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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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# , fullscreen=self.config.render_window
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self.window = pyglet.window.Window(width=self.frame_size[0], height=self.frame_size[1], config=config, fullscreen=self.config.full_screen)
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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_close', self.on_close)
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pyglet.gl.glClearColor(0,0,0, 0)
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self.fps_display = pyglet.window.FPSDisplay(window=self.window, color=(255,255,255,255))
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self.fps_display.label.x = self.window.width - 50
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self.fps_display.label.y = self.window.height - 17
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self.fps_display.label.bold = False
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self.fps_display.label.font_size = 10
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self.drawn_tracks: dict[str, DrawnTrack] = {}
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self.first_time: float|None = None
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self.frame: Frame|None= None
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self.tracker_frame: Frame|None = None
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self.prediction_frame: Frame|None = None
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self.batch_bg = pyglet.graphics.Batch()
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self.batch_overlay = pyglet.graphics.Batch()
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self.batch_anim = pyglet.graphics.Batch()
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self.init_shapes()
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self.init_labels()
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def init_shapes(self):
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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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'''
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class GradientLine(shapes.Line):
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def __init__(self, x, y, x2, y2, width=1, color1=[255,255,255], color2=[255,255,255], batch=None, group=None):
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# print('colors!', colors)
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# assert len(colors) == 6
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r, g, b, *a = color1
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self._rgba1 = (r, g, b, a[0] if a else 255)
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r, g, b, *a = color2
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self._rgba2 = (r, g, b, a[0] if a else 255)
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# print('rgba', self._rgba)
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super().__init__(x, y, x2, y2, width, color1, batch=None, group=None)
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# <pyglet.graphics.vertexdomain.VertexList
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# pyglet.graphics.vertexdomain
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# print(self._vertex_list)
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def _create_vertex_list(self):
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'''
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copy of super()._create_vertex_list but with additional colors'''
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self._vertex_list = self._group.program.vertex_list(
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6, self._draw_mode, self._batch, self._group,
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position=('f', self._get_vertices()),
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colors=('Bn', self._rgba1+ self._rgba2 + self._rgba2 + self._rgba1 + self._rgba2 +self._rgba1 ),
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translation=('f', (self._x, self._y) * self._num_verts))
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def _update_colors(self):
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self._vertex_list.colors[:] = self._rgba1+ self._rgba2 + self._rgba2 + self._rgba1 + self._rgba2 +self._rgba1
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def color1(self, color):
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r, g, b, *a = color
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self._rgba1 = (r, g, b, a[0] if a else 255)
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self._update_colors()
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def color2(self, color):
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r, g, b, *a = color
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self._rgba2 = (r, g, b, a[0] if a else 255)
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self._update_colors()
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self.gradientLine = GradientLine
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def init_labels(self):
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base_color = (255,)*4
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color_predictor = (255,255,0, 255)
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color_info = (255,0, 255, 255)
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color_tracker = (0,255, 255, 255)
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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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options.append(f"{option}: {self.config.__dict__[option]}")
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self.labels = {
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'waiting': pyglet.text.Label("Waiting for prediction"),
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'frame_idx': pyglet.text.Label("", x=20, y=self.window.height - 17, color=base_color, batch=self.batch_overlay),
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'tracker_idx': pyglet.text.Label("", x=90, y=self.window.height - 17, color=color_tracker, batch=self.batch_overlay),
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'pred_idx': pyglet.text.Label("", x=110, y=self.window.height - 17, color=color_predictor, batch=self.batch_overlay),
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'frame_time': pyglet.text.Label("t", x=140, y=self.window.height - 17, color=base_color, batch=self.batch_overlay),
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'frame_latency': pyglet.text.Label("", x=235, y=self.window.height - 17, color=color_info, batch=self.batch_overlay),
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'tracker_time': pyglet.text.Label("", x=300, y=self.window.height - 17, color=color_tracker, batch=self.batch_overlay),
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'pred_time': pyglet.text.Label("", x=360, y=self.window.height - 17, color=color_predictor, batch=self.batch_overlay),
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'track_len': pyglet.text.Label("", x=800, y=self.window.height - 17, color=color_tracker, batch=self.batch_overlay),
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'options1': pyglet.text.Label(options.pop(-1), x=20, y=30, color=base_color, batch=self.batch_overlay),
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'options2': pyglet.text.Label(" | ".join(options), x=20, y=10, color=base_color, batch=self.batch_overlay),
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}
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def refresh_labels(self, dt: float):
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"""Every frame"""
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if self.frame:
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self.labels['frame_idx'].text = f"{self.frame.index:06d}"
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self.labels['frame_time'].text = f"{self.frame.time - self.first_time: >10.2f}s"
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self.labels['frame_latency'].text = f"{self.frame.time - time.time():.2f}s"
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if self.tracker_frame:
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self.labels['tracker_idx'].text = f"{self.tracker_frame.index - self.frame.index}"
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self.labels['tracker_time'].text = f"{self.tracker_frame.time - time.time():.3f}s"
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self.labels['track_len'].text = f"{len(self.tracker_frame.tracks)} tracks"
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if self.prediction_frame:
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self.labels['pred_idx'].text = f"{self.prediction_frame.index - self.frame.index}"
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self.labels['pred_time'].text = f"{self.prediction_frame.time - time.time():.3f}s"
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# self.labels['track_len'].text = f"{len(self.prediction_frame.tracks)} tracks"
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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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# if prediction_frame:
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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"{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"{len(prediction_frame.tracks)} tracks", (500,17), cv2.FONT_HERSHEY_PLAIN, 1, base_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"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"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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# options = []
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# for option in ['prediction_horizon','num_samples','full_dist','gmm_mode','z_mode', 'model_dir']:
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# options.append(f"{option}: {config.__dict__[option]}")
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# cv2.putText(img, options.pop(-1), (20,img.shape[0]-30), cv2.FONT_HERSHEY_PLAIN, 1, base_color, 1)
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# cv2.putText(img, " | ".join(options), (20,img.shape[0]-10), cv2.FONT_HERSHEY_PLAIN, 1, base_color, 1)
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def check_frames(self, dt):
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new_tracks = False
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try:
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self.frame: Frame = self.frame_sock.recv_pyobj(zmq.NOBLOCK)
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if not self.first_time:
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self.first_time = self.frame.time
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img = self.frame.img
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img = cv2.warpPerspective(img, self.H, (self.frame.img.shape[1], self.frame.img.shape[0]))
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img = cv2.GaussianBlur(img, (15, 15), 0)
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img = cv2.flip(cv2.cvtColor(img, cv2.COLOR_BGR2RGB), 0)
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img = pyglet.image.ImageData(self.frame_size[0], self.frame_size[1], 'RGB', img.tobytes())
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# don't draw in batch, so that it is the background
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self.video_sprite = pyglet.sprite.Sprite(img=img, batch=self.batch_bg)
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self.video_sprite.opacity = 100
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except zmq.ZMQError as e:
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# idx = frame.index if frame else "NONE"
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# logger.debug(f"reuse video frame {idx}")
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pass
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try:
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self.prediction_frame: Frame = self.prediction_sock.recv_pyobj(zmq.NOBLOCK)
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new_tracks = True
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except zmq.ZMQError as e:
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pass
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try:
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self.tracker_frame: Frame = self.tracker_sock.recv_pyobj(zmq.NOBLOCK)
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new_tracks = True
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except zmq.ZMQError as e:
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pass
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if new_tracks:
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self.update_tracks()
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def update_tracks(self):
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"""Updates the track objects and shapes. Called after setting `prediction_frame`
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"""
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# clean up
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# for track_id in list(self.drawn_tracks.keys()):
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# if track_id not in self.prediction_frame.tracks.keys():
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# # TODO fade out
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# del self.drawn_tracks[track_id]
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if self.prediction_frame:
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for track_id, track in self.prediction_frame.tracks.items():
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if track_id not in self.drawn_tracks:
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self.drawn_tracks[track_id] = DrawnTrack(track_id, track, self, self.prediction_frame.H, PROJECTION_MAP)
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else:
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self.drawn_tracks[track_id].set_track(track, self.prediction_frame.H)
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# clean up
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for track_id in list(self.drawn_tracks.keys()):
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# TODO make delay configurable
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if self.drawn_tracks[track_id].update_at < time.time() - 5:
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# TODO fade out
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del self.drawn_tracks[track_id]
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def on_key_press(self, symbol, modifiers):
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print('A key was pressed, use f to hide')
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if symbol == ord('f'):
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self.window.set_fullscreen(not self.window.fullscreen)
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if symbol == ord('h'):
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self.hide_stats = not self.hide_stats
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def check_running(self, dt):
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if not self.is_running.is_set():
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self.window.close()
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self.event_loop.exit()
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def on_close(self):
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self.is_running.clear()
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def on_refresh(self, dt: float):
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# update shapes
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# self.bg =
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for track_id, track in self.drawn_tracks.items():
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track.update_drawn_positions(dt)
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self.refresh_labels(dt)
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# self.shape1 = shapes.Circle(700, 150, 100, color=(50, 0, 30), batch=self.batch_anim)
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# self.shape3 = shapes.Circle(800, 150, 100, color=(100, 225, 30), batch=self.batch_anim)
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pass
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def on_draw(self):
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self.window.clear()
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self.batch_bg.draw()
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for track in self.drawn_tracks.values():
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for shape in track.shapes:
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shape.draw() # for some reason the batches don't work
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for track in self.drawn_tracks.values():
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for shapes in track.pred_shapes:
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for shape in shapes:
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shape.draw()
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# self.batch_anim.draw()
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self.batch_overlay.draw()
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# pyglet.graphics.draw(3, pyglet.gl.GL_LINE, ("v2i", (100,200, 600,800)), ('c3B', (255,255,255, 255,255,255)))
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if not self.hide_stats:
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self.fps_display.draw()
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# if streaming, capture buffer and send
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try:
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if self.streaming_process or self.out_writer:
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buf = pyglet.image.get_buffer_manager().get_color_buffer()
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img_data = buf.get_image_data()
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data = img_data.get_data() # alternative: .get_data("RGBA", image_data.pitch)
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img = np.asanyarray(data).reshape((img_data.height, img_data.width, 4))
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img = cv2.cvtColor(img, cv2.COLOR_BGRA2RGB)
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img = np.flip(img, 0)
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# img = cv2.flip(img, cv2.0)
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# cv2.imshow('frame', img)
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# cv2.waitKey(1)
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if self.streaming_process:
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self.streaming_process.stdin.write(img.tobytes())
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if self.out_writer:
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self.out_writer.write(img)
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except Exception as e:
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logger.exception(e)
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def run(self):
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frame = None
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prediction_frame = None
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tracker_frame = None
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i=0
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first_time = None
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self.event_loop = pyglet.app.EventLoop()
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pyglet.clock.schedule_interval(self.check_running, 0.1)
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pyglet.clock.schedule(self.check_frames)
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self.event_loop.run()
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# while self.is_running.is_set():
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# i+=1
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# # zmq_ev = self.frame_sock.poll(timeout=2000)
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# # if not zmq_ev:
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# # # when no data comes in, loop so that is_running is checked
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# # continue
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# try:
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# frame: Frame = self.frame_sock.recv_pyobj(zmq.NOBLOCK)
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# except zmq.ZMQError as e:
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# # idx = frame.index if frame else "NONE"
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# # logger.debug(f"reuse video frame {idx}")
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# pass
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# # else:
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# # logger.debug(f'new video frame {frame.index}')
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# if frame is None:
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# # might need to wait a few iterations before first frame comes available
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# time.sleep(.1)
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# continue
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# try:
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# prediction_frame: Frame = self.prediction_sock.recv_pyobj(zmq.NOBLOCK)
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# except zmq.ZMQError as e:
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# logger.debug(f'reuse prediction')
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# if first_time is None:
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# first_time = frame.time
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# img = decorate_frame(frame, prediction_frame, first_time, self.config)
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# img_path = (self.config.output_dir / f"{i:05d}.png").resolve()
|
||||
|
||||
# logger.debug(f"write frame {frame.time - first_time:.3f}s")
|
||||
# if self.out_writer:
|
||||
# self.out_writer.write(img)
|
||||
# if self.streaming_process:
|
||||
# self.streaming_process.stdin.write(img.tobytes())
|
||||
# if self.config.render_window:
|
||||
# cv2.imshow('frame',img)
|
||||
# cv2.waitKey(1)
|
||||
logger.info('Stopping')
|
||||
|
||||
# if i>2:
|
||||
if self.streaming_process:
|
||||
self.streaming_process.stdin.close()
|
||||
if self.out_writer:
|
||||
self.out_writer.release()
|
||||
if self.streaming_process:
|
||||
# oddly wrapped, because both close and release() take time.
|
||||
self.streaming_process.wait()
|
||||
|
||||
# colorset = itertools.product([0,255], repeat=3) # but remove white
|
||||
colorset = [(0, 0, 0),
|
||||
(0, 0, 255),
|
||||
(0, 255, 0),
|
||||
(0, 255, 255),
|
||||
(255, 0, 0),
|
||||
(255, 0, 255),
|
||||
(255, 255, 0)
|
||||
]
|
||||
|
||||
|
||||
|
||||
def run_animation_renderer(config: Namespace, is_running: BaseEvent):
|
||||
renderer = AnimationRenderer(config, is_running)
|
||||
renderer.run()
|
|
@ -1,6 +1,8 @@
|
|||
import argparse
|
||||
from pathlib import Path
|
||||
import types
|
||||
import numpy as np
|
||||
import json
|
||||
|
||||
from trap.tracker import DETECTORS
|
||||
|
||||
|
@ -49,6 +51,21 @@ frame_emitter_parser = parser.add_argument_group('Frame emitter')
|
|||
tracker_parser = parser.add_argument_group('Tracker')
|
||||
render_parser = parser.add_argument_group('Renderer')
|
||||
|
||||
class HomographyAction(argparse.Action):
|
||||
def __init__(self, option_strings, dest, nargs=None, **kwargs):
|
||||
if nargs is not None:
|
||||
raise ValueError("nargs not allowed")
|
||||
super().__init__(option_strings, dest, **kwargs)
|
||||
def __call__(self, parser, namespace, values: Path, option_string=None):
|
||||
if values.suffix == '.json':
|
||||
with values.open('r') as fp:
|
||||
H = np.array(json.load(fp))
|
||||
else:
|
||||
H = np.loadtxt(values, delimiter=',')
|
||||
print('%r %r %r' % (namespace, values, option_string))
|
||||
setattr(namespace, self.dest, values)
|
||||
setattr(namespace, 'H', H)
|
||||
|
||||
inference_parser.add_argument("--model_dir",
|
||||
help="directory with the model to use for inference",
|
||||
type=str, # TODO: make into Path
|
||||
|
@ -234,7 +251,8 @@ frame_emitter_parser.add_argument("--video-loop",
|
|||
tracker_parser.add_argument("--homography",
|
||||
help="File with homography params",
|
||||
type=Path,
|
||||
default='../DATASETS/VIRAT_subset_0102x/VIRAT_0102_homography_img2world.txt')
|
||||
default='../DATASETS/VIRAT_subset_0102x/VIRAT_0102_homography_img2world.txt',
|
||||
action=HomographyAction)
|
||||
tracker_parser.add_argument("--save-for-training",
|
||||
help="Specify the path in which to save",
|
||||
type=Path,
|
||||
|
@ -246,6 +264,15 @@ tracker_parser.add_argument("--detector",
|
|||
tracker_parser.add_argument("--smooth-tracks",
|
||||
help="Smooth the tracker tracks before sending them to the predictor",
|
||||
action='store_true')
|
||||
tracker_parser.add_argument("--frame-width",
|
||||
help="width of the frames",
|
||||
type=int,
|
||||
default=1280)
|
||||
tracker_parser.add_argument("--frame-height",
|
||||
help="height of the frames",
|
||||
type=int,
|
||||
default=720)
|
||||
|
||||
|
||||
# Renderer
|
||||
|
||||
|
|
|
@ -85,7 +85,7 @@ class Track:
|
|||
|
||||
def get_projected_history(self, H) -> np.array:
|
||||
foot_coordinates = [d.get_foot_coords() for d in self.history]
|
||||
|
||||
# TODO)) Undistort points before perspective transform
|
||||
if len(foot_coordinates):
|
||||
coords = cv2.perspectiveTransform(np.array([foot_coordinates]),H)
|
||||
return coords[0]
|
||||
|
@ -151,8 +151,8 @@ class FrameEmitter:
|
|||
# numeric input is a CV camera
|
||||
video = cv2.VideoCapture(int(str(video_path)))
|
||||
# TODO: make config variables
|
||||
video.set(cv2.CAP_PROP_FRAME_WIDTH, int(1280))
|
||||
video.set(cv2.CAP_PROP_FRAME_HEIGHT, int(720))
|
||||
video.set(cv2.CAP_PROP_FRAME_WIDTH, int(self.config.frame_width))
|
||||
video.set(cv2.CAP_PROP_FRAME_HEIGHT, int(self.config.frame_height))
|
||||
print("exposure!", video.get(cv2.CAP_PROP_AUTO_EXPOSURE))
|
||||
video.set(cv2.CAP_PROP_FPS, 5)
|
||||
else:
|
||||
|
|
|
@ -9,7 +9,8 @@ import time
|
|||
from trap.config import parser
|
||||
from trap.frame_emitter import run_frame_emitter
|
||||
from trap.prediction_server import run_prediction_server
|
||||
from trap.renderer import run_renderer
|
||||
from trap.preview_renderer import run_preview_renderer
|
||||
from trap.animation_renderer import run_animation_renderer
|
||||
from trap.socket_forwarder import run_ws_forwarder
|
||||
from trap.tracker import run_tracker
|
||||
|
||||
|
@ -75,7 +76,10 @@ def start():
|
|||
|
||||
if args.render_file or args.render_url or args.render_window:
|
||||
procs.append(
|
||||
ExceptionHandlingProcess(target=run_renderer, kwargs={'config': args, 'is_running': isRunning}, name='renderer')
|
||||
ExceptionHandlingProcess(target=run_preview_renderer, kwargs={'config': args, 'is_running': isRunning}, name='renderer')
|
||||
)
|
||||
procs.append(
|
||||
ExceptionHandlingProcess(target=run_animation_renderer, kwargs={'config': args, 'is_running': isRunning}, name='map_renderer')
|
||||
)
|
||||
|
||||
if not args.bypass_prediction:
|
||||
|
|
|
@ -10,7 +10,7 @@ from multiprocessing import Event
|
|||
from multiprocessing.synchronize import Event as BaseEvent
|
||||
import cv2
|
||||
import numpy as np
|
||||
|
||||
import json
|
||||
import pyglet
|
||||
import pyglet.event
|
||||
import zmq
|
||||
|
@ -26,7 +26,7 @@ from trap.frame_emitter import DetectionState, Frame, Track
|
|||
|
||||
|
||||
|
||||
logger = logging.getLogger("trap.renderer")
|
||||
logger = logging.getLogger("trap.preview")
|
||||
|
||||
class FrameAnimation:
|
||||
def __init__(self, frame: Frame):
|
||||
|
@ -55,10 +55,15 @@ def relativePointToPolar(origin, point) -> tuple[float, float]:
|
|||
def relativePolarToPoint(origin, r, angle) -> tuple[float, float]:
|
||||
return r * np.cos(angle) + origin[0], r * np.sin(angle) + origin[1]
|
||||
|
||||
PROJECTION_IMG = 0
|
||||
PROJECTION_UNDISTORT = 1
|
||||
PROJECTION_MAP = 2
|
||||
PROJECTION_PROJECTOR = 4
|
||||
|
||||
class DrawnTrack:
|
||||
def __init__(self, track_id, track: Track, renderer: Renderer, H):
|
||||
def __init__(self, track_id, track: Track, renderer: PreviewRenderer, H, draw_projection = PROJECTION_IMG):
|
||||
# self.created_at = time.time()
|
||||
self.draw_projection = draw_projection
|
||||
self.update_at = self.created_at = time.time()
|
||||
self.track_id = track_id
|
||||
self.renderer = renderer
|
||||
|
@ -73,14 +78,17 @@ class DrawnTrack:
|
|||
|
||||
self.track = track
|
||||
self.H = H
|
||||
self.coords = [d.get_foot_coords() for d in track.history]
|
||||
self.coords = [d.get_foot_coords() for d in track.history] if self.draw_projection == PROJECTION_IMG else track.get_projected_history(self.H)
|
||||
|
||||
# perhaps only do in constructor:
|
||||
self.inv_H = np.linalg.pinv(self.H)
|
||||
|
||||
pred_coords = []
|
||||
if self.draw_projection == PROJECTION_IMG:
|
||||
for pred_i, pred in enumerate(track.predictions):
|
||||
pred_coords.append(cv2.perspectiveTransform(np.array([pred]), self.inv_H)[0].tolist())
|
||||
elif self.draw_projection == PROJECTION_MAP:
|
||||
pred_coords = [pred for pred in track.predictions]
|
||||
|
||||
self.pred_coords = pred_coords
|
||||
# color = (128,0,128) if pred_i else (128,
|
||||
|
@ -232,7 +240,7 @@ class FrameWriter:
|
|||
|
||||
|
||||
|
||||
class Renderer:
|
||||
class PreviewRenderer:
|
||||
def __init__(self, config: Namespace, is_running: BaseEvent):
|
||||
self.config = config
|
||||
self.is_running = is_running
|
||||
|
@ -253,14 +261,23 @@ class Renderer:
|
|||
self.frame_sock.setsockopt(zmq.SUBSCRIBE, b'')
|
||||
self.frame_sock.connect(config.zmq_frame_addr)
|
||||
|
||||
self.H = np.loadtxt(self.config.homography, delimiter=',')
|
||||
|
||||
# TODO)) Move loading H to config.py
|
||||
# if self.config.homography.suffix == '.json':
|
||||
# with self.config.homography.open('r') as fp:
|
||||
# self.H = np.array(json.load(fp))
|
||||
# else:
|
||||
# self.H = np.loadtxt(self.config.homography, delimiter=',')
|
||||
print('h', self.config.H)
|
||||
self.H = self.config.H
|
||||
|
||||
|
||||
self.inv_H = np.linalg.pinv(self.H)
|
||||
|
||||
# TODO: get FPS from frame_emitter
|
||||
# self.out = cv2.VideoWriter(str(filename), fourcc, 23.97, (1280,720))
|
||||
self.fps = 60
|
||||
self.frame_size = (1280,720)
|
||||
self.frame_size = (self.config.frame_width,self.config.frame_height)
|
||||
self.hide_stats = False
|
||||
self.out_writer = self.start_writer() if self.config.render_file else None
|
||||
self.streaming_process = self.start_streaming() if self.config.render_url else None
|
||||
|
@ -772,6 +789,6 @@ def decorate_frame(frame: Frame, prediction_frame: Frame, first_time: float, con
|
|||
return img
|
||||
|
||||
|
||||
def run_renderer(config: Namespace, is_running: BaseEvent):
|
||||
renderer = Renderer(config, is_running)
|
||||
def run_preview_renderer(config: Namespace, is_running: BaseEvent):
|
||||
renderer = PreviewRenderer(config, is_running)
|
||||
renderer.run()
|
|
@ -105,7 +105,7 @@ class Tracker:
|
|||
|
||||
# homography = list(source.glob('*img2world.txt'))[0]
|
||||
|
||||
self.H = np.loadtxt(self.config.homography, delimiter=',')
|
||||
self.H = self.config.H
|
||||
|
||||
if self.config.smooth_tracks:
|
||||
logger.info("Smoother enabled")
|
||||
|
|
Loading…
Reference in a new issue