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| import tempfile | |
| import urllib.request | |
| import logging | |
| import os | |
| import hashlib | |
| import datetime | |
| import time | |
| import pandas | |
| import gradio as gr | |
| from moviepy.editor import VideoFileClip | |
| import seaborn as sns | |
| import matplotlib.pyplot as plt | |
| import imagehash | |
| from PIL import Image | |
| import numpy as np | |
| import pandas as pd | |
| import faiss | |
| FPS = 5 | |
| video_directory = tempfile.gettempdir() | |
| def download_video_from_url(url): | |
| """Download video from url or return md5 hash as video name""" | |
| filename = os.path.join(video_directory, hashlib.md5(url.encode()).hexdigest()) | |
| if not os.path.exists(filename): | |
| with (urllib.request.urlopen(url)) as f, open(filename, 'wb') as fileout: | |
| fileout.write(f.read()) | |
| logging.info(f"Downloaded video from {url} to {filename}.") | |
| else: | |
| logging.info(f"Skipping downloading from {url} because {filename} already exists.") | |
| return filename | |
| def change_ffmpeg_fps(clip, fps=FPS): | |
| # Hacking the ffmpeg call based on | |
| # https://github.com/Zulko/moviepy/blob/master/moviepy/video/io/ffmpeg_reader.py#L126 | |
| import subprocess as sp | |
| cmd = [arg + ",fps=%d" % fps if arg.startswith("scale=") else arg for arg in clip.reader.proc.args] | |
| clip.reader.close() | |
| clip.reader.proc = sp.Popen(cmd, bufsize=clip.reader.bufsize, | |
| stdout=sp.PIPE, stderr=sp.PIPE, stdin=sp.DEVNULL) | |
| clip.fps = clip.reader.fps = fps | |
| clip.reader.lastread = clip.reader.read_frame() | |
| return clip | |
| def compute_hash(frame, hash_size=16): | |
| image = Image.fromarray(np.array(frame)) | |
| return imagehash.phash(image, hash_size) | |
| def binary_array_to_uint8s(arr): | |
| bit_string = ''.join(str(1 * x) for l in arr for x in l) | |
| return [int(bit_string[i:i+8], 2) for i in range(0, len(bit_string), 8)] | |
| def compute_hashes(clip, fps=FPS): | |
| for index, frame in enumerate(change_ffmpeg_fps(clip, fps).iter_frames()): | |
| # Each frame is a triplet of size (height, width, 3) of the video since it is RGB | |
| # The hash itself is of size (hash_size, hash_size) | |
| # The uint8 version of the hash is of size (hash_size * highfreq_factor,) and represents the hash | |
| hashed = np.array(binary_array_to_uint8s(compute_hash(frame).hash), dtype='uint8') | |
| yield {"frame": 1+index*fps, "hash": hashed} | |
| def index_hashes_for_video(url): | |
| filename = download_video_from_url(url) | |
| if os.path.exists(f'{filename}.index'): | |
| logging.info(f"Loading indexed hashes from {filename}.index") | |
| binary_index = faiss.read_index_binary(f'{filename}.index') | |
| logging.info(f"Index {filename}.index has in total {binary_index.ntotal} frames") | |
| return binary_index | |
| hash_vectors = np.array([x['hash'] for x in compute_hashes(VideoFileClip(filename))]) | |
| logging.info(f"Computed hashes for {hash_vectors.shape} frames.") | |
| # Initializing the quantizer. | |
| quantizer = faiss.IndexBinaryFlat(hash_vectors.shape[1]*8) | |
| # Initializing index. | |
| index = faiss.IndexBinaryIVF(quantizer, hash_vectors.shape[1]*8, min(16, hash_vectors.shape[0])) | |
| index.nprobe = 1 # Number of nearest clusters to be searched per query. | |
| # Training the quantizer. | |
| index.train(hash_vectors) | |
| #index = faiss.IndexBinaryFlat(64) | |
| index.add(hash_vectors) | |
| faiss.write_index_binary(index, f'{filename}.index') | |
| logging.info(f"Indexed hashes for {index.ntotal} frames to {filename}.index.") | |
| return index | |
| def compare_videos(url, target, MIN_DISTANCE = 3): | |
| """" The comparison between the target and the original video will be plotted based | |
| on the matches between the target and the original video over time. The matches are determined | |
| based on the minimum distance between hashes (as computed by faiss-vectors) before they're considered a match. | |
| args: | |
| - url: url of the source video you want to check for overlap with the target video | |
| - target: url of the target video | |
| - MIN_DISTANCE: integer representing the minimum distance between hashes on bit-level before its considered a match | |
| """ | |
| # TODO: Fix crash if no matches are found | |
| # Url (short video) | |
| video_index = index_hashes_for_video(url) | |
| video_index.make_direct_map() # Make sure the index is indexable | |
| hash_vectors = np.array([video_index.reconstruct(i) for i in range(video_index.ntotal)]) # Retrieve original indices | |
| # Target video (long video) | |
| target_indices = [index_hashes_for_video(x) for x in [target]] | |
| # The results are returned as a triplet of 1D arrays | |
| # lims, D, I, where result for query i is in I[lims[i]:lims[i+1]] | |
| # (indices of neighbors), D[lims[i]:lims[i+1]] (distances). | |
| lims, D, I = target_indices[0].range_search(hash_vectors, MIN_DISTANCE) | |
| return plot_comparison(lims, D, I, hash_vectors, MIN_DISTANCE = MIN_DISTANCE) | |
| def plot_comparison(lims, D, I, hash_vectors, MIN_DISTANCE = 3): | |
| sns.set_theme() | |
| x = [(lims[i+1]-lims[i]) * [i] for i in range(hash_vectors.shape[0])] | |
| x = [i/FPS for j in x for i in j] | |
| y = [i/FPS for i in I] | |
| # Create figure and dataframe to plot with sns | |
| fig = plt.figure() | |
| # plt.tight_layout() | |
| df = pd.DataFrame(zip(x, y), columns = ['X', 'Y']) | |
| g = sns.scatterplot(data=df, x='X', y='Y', s=2*(1-D/(MIN_DISTANCE+1)), alpha=1-D/MIN_DISTANCE) | |
| # Set x-labels to be more readable | |
| x_locs, x_labels = plt.xticks() # Get original locations and labels for x ticks | |
| x_labels = [time.strftime('%H:%M:%S', time.gmtime(x)) for x in x_locs] | |
| plt.xticks(x_locs, x_labels) | |
| plt.xticks(rotation=90) | |
| plt.xlabel('Time in source video (H:M:S)') | |
| plt.xlim(0, None) | |
| # Set y-labels to be more readable | |
| y_locs, y_labels = plt.yticks() # Get original locations and labels for x ticks | |
| y_labels = [time.strftime('%H:%M:%S', time.gmtime(y)) for y in y_locs] | |
| plt.yticks(y_locs, y_labels) | |
| plt.ylabel('Time in target video (H:M:S)') | |
| # Adjust padding to fit gradio | |
| plt.subplots_adjust(bottom=0.25, left=0.20) | |
| return fig | |
| logging.basicConfig() | |
| logging.getLogger().setLevel(logging.DEBUG) | |
| video_urls = ["https://www.dropbox.com/s/8c89a9aba0w8gjg/Ploumen.mp4?dl=1", | |
| "https://www.dropbox.com/s/rzmicviu1fe740t/Bram%20van%20Ojik%20krijgt%20reprimande.mp4?dl=1", | |
| "https://www.dropbox.com/s/wcot34ldmb84071/Baudet%20ontmaskert%20Omtzigt_%20u%20bent%20door%20de%20mand%20gevallen%21.mp4?dl=1", | |
| "https://www.dropbox.com/s/4ognq8lshcujk43/Plenaire_zaal_20200923132426_Omtzigt.mp4?dl=1"] | |
| index_iface = gr.Interface(fn=lambda url: index_hashes_for_video(url).ntotal, | |
| inputs="text", outputs="text", | |
| examples=video_urls, cache_examples=True) | |
| compare_iface = gr.Interface(fn=compare_videos, | |
| inputs=["text", "text", gr.Slider(1, 25, 3, step=1)], outputs="plot", | |
| examples=[[x, video_urls[-1]] for x in video_urls[:-1]]) | |
| iface = gr.TabbedInterface([index_iface, compare_iface], ["Index", "Compare"]) | |
| if __name__ == "__main__": | |
| import matplotlib | |
| matplotlib.use('SVG') | |
| logging.basicConfig() | |
| logging.getLogger().setLevel(logging.DEBUG) | |
| iface.launch() | |
| #iface.launch(auth=("test", "test"), share=True, debug=True) |