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import cv2 |
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import numpy as np |
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import IPython |
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import os |
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num_rows = 6 |
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output_folder = "output/output_gifs/" |
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total_tasks = os.listdir(output_folder) |
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videos = [cv2.VideoCapture(os.path.join(output_folder, s)) |
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for s in total_tasks if s.endswith("mp4") and not s.startswith("grid")] |
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num_cols = len(videos) // num_rows + 1 |
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print(f"num_rows: {num_rows} num_cols: {num_cols}") |
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video_width = 640 |
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video_height = 480 |
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output_width = video_width * num_cols |
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output_height = video_height * num_rows |
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output_filename = output_folder + 'gslide_output2.mp4' |
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zoomed_output_filename = output_folder + 'zoom_gslide_output.mp4' |
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output_video = cv2.VideoCapture(output_filename) |
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fourcc = cv2.VideoWriter_fourcc(*'mp4v') |
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resolution_factor = 2 |
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grid_video = cv2.VideoWriter(zoomed_output_filename, fourcc, 30.0, (resolution_factor * video_width, resolution_factor * video_height)) |
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print(video_width, video_height) |
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stop = 100 |
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max_length = 500 |
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for idx in range(max_length): |
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if idx < stop: |
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ratio = 0.23 |
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elif idx > max_length - stop: |
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ratio = 1 |
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else: |
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ratio = 0.23 + 0.8 * float(idx - stop) / (max_length - 2 * stop) |
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print(idx) |
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ret, frame = output_video.read() |
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if not ret: |
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break |
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center = frame.shape[0] // 2, frame.shape[1] // 2 |
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size = int(ratio * center[0]), int(ratio * center[1]) |
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zoomed_frame = frame[center[0]-size[0]:center[0]+size[0],center[1]-size[1]:center[1]+size[1]] |
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resized_image = cv2.resize(zoomed_frame, (resolution_factor * video_width, resolution_factor * video_height)) |
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cv2.imshow('Zoom Out Grid', resized_image) |
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grid_video.write(resized_image) |
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if cv2.waitKey(1) & 0xFF == ord('q'): |
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break |
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grid_video.release() |
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output_video.release() |
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cv2.destroyAllWindows() |
