This feature focuses on analyzing video content and providing recommendations based on user preferences.
# Load video metadata video_data = pd.read_csv("video_data.csv") missax in love with daddy 4 xxx 2022 1080p
# Calculate cosine similarity between video vectors similarity_matrix = cosine_similarity(video_vectors) This feature focuses on analyzing video content and
# Provide personalized recommendations based on user viewing history def recommend_videos(user_id, num_recommendations): # Get user's viewing history user_history = video_data[user_data["user_id"] == user_id]["video_id"] # Calculate similarity between user's history and video vectors similarity_scores = similarity_matrix[user_history] # Get top-N recommended videos recommended_videos = video_data.iloc[similarity_scores.argsort()[:num_recommendations]] return recommended_videos This feature can be further developed and refined to accommodate specific use cases and requirements. missax in love with daddy 4 xxx 2022 1080p
# Create TF-IDF vectorizer for video titles and descriptions vectorizer = TfidfVectorizer(stop_words="english")
import pandas as pd from sklearn.feature_extraction.text import TfidfVectorizer from sklearn.metrics.pairwise import cosine_similarity
# Fit vectorizer to video data and transform into vectors video_vectors = vectorizer.fit_transform(video_data["title"] + " " + video_data["description"])