import moviepy.editor as mpy from PIL import Image from transformers import AutoTokenizer, AutoModelForSeq2SeqLM import gradio as gr import torch from min_dalle import MinDalle from huggingface_hub import snapshot_download from PIL import Image, ImageDraw, ImageFont import textwrap from mutagen.mp3 import MP3 from gtts import gTTS from pydub import AudioSegment import os import glob import nltk import subprocess import shutil import matplotlib.pyplot as plt import gc # Import the garbage collector from audio import * import os # Download necessary NLTK data try: nltk.data.find('tokenizers/punkt') except LookupError: nltk.download('punkt') description = "Video Story Generator with Audio \n PS: Generation of video by using Artifical Intellingence by dalle-mini and distilbart and gtss " title = "Video Story Generator with Audio by using dalle-mini and distilbart and gtss " # Load tokenizer and model for text summarization tokenizer = AutoTokenizer.from_pretrained("sshleifer/distilbart-cnn-12-6") model = AutoModelForSeq2SeqLM.from_pretrained("sshleifer/distilbart-cnn-12-6") # Check for CUDA availability and set device device = torch.device("cuda:0" if torch.cuda.is_available() else "cpu") print(f"Using device: {device}") model.to(device) # Function to log GPU memory (optional, for debugging) def log_gpu_memory(): if torch.cuda.is_available(): print(subprocess.check_output('nvidia-smi').decode('utf-8')) else: print("CUDA is not available. Cannot log GPU memory.") # --------- MinDalle Image Generation Functions --------- # Load MinDalle model once def load_min_dalle_model(models_root: str = 'pretrained', fp16: bool = True): """ Load the MinDalle model. Args: models_root: Path to the directory containing MinDalle models. fp16: Whether to use float16 for faster generation (requires CUDA). Returns: An instance of the MinDalle model. """ print("DEBUG: Loading MinDalle model...") return MinDalle( is_mega=True, models_root=models_root, is_reusable=False, # Set is_reusable to False is_verbose=True, dtype=torch.float16 if fp16 else torch.float32, device=device ) # Initialize the MinDalle model min_dalle_model = load_min_dalle_model() def generate_image_with_min_dalle( model: MinDalle, text: str, seed: int = -1, grid_size: int = 1 ): """ Generates an image from text using MinDalle. Args: model: The preloaded MinDalle model. text: The text prompt to generate the image from. seed: The random seed for image generation. -1 for random. grid_size: The grid size for multiple image generation. Returns: A PIL Image object. """ print(f"DEBUG: Generating image with MinDalle for text: '{text}'") model.is_reusable = False with torch.no_grad(): image = model.generate_image( text, seed, grid_size, is_verbose=False ) # Clear GPU memory after generation torch.cuda.empty_cache() gc.collect() print("DEBUG: Image generated successfully.") return image # --------- End of MinDalle Functions --------- # Merge audio files from pydub import AudioSegment import os # Function to generate video from text def get_output_video(text): print("DEBUG: Starting get_output_video function...") # Summarize the input text print("DEBUG: Summarizing text...") inputs = tokenizer( text, max_length=1024, truncation=True, return_tensors="pt" ).to(device) summary_ids = model.generate(inputs["input_ids"]) summary = tokenizer.batch_decode( summary_ids, skip_special_tokens=True, clean_up_tokenization_spaces=False ) plot = list(summary[0].split('.')) print(f"DEBUG: Summary generated: {plot}") # Generate images for each sentence in the plot generated_images = [] for i, senten in enumerate(plot[:-1]): print(f"DEBUG: Generating image {i+1} of {len(plot)-1}...") image_dir = f"image_{i}" os.makedirs(image_dir, exist_ok=True) min_dalle_model = load_min_dalle_model() image = generate_image_with_min_dalle( min_dalle_model, text=senten, seed=1, grid_size=1 ) generated_images.append(image) image_path = os.path.join(image_dir, "generated_image.png") image.save(image_path) print(f"DEBUG: Image generated and saved to {image_path}") del min_dalle_model torch.cuda.empty_cache() gc.collect() # Create subtitles from the plot sentences = plot[:-1] print("DEBUG: Creating subtitles...") assert len(generated_images) == len(sentences), "Mismatch in number of images and sentences." sub_names = [nltk.tokenize.sent_tokenize(sentence) for sentence in sentences] # Add subtitles to images with dynamic adjustments def get_dynamic_wrap_width(font, text, image_width, padding): # Estimate the number of characters per line dynamically avg_char_width = sum(font.getbbox(c)[2] for c in text) / len(text) return max(1, (image_width - padding * 2) // avg_char_width) def draw_multiple_line_text(image, text, font, text_color, text_start_height, padding=10): draw = ImageDraw.Draw(image) image_width, _ = image.size y_text = text_start_height lines = textwrap.wrap(text, width=get_dynamic_wrap_width(font, text, image_width, padding)) for line in lines: line_width, line_height = font.getbbox(line)[2:] draw.text(((image_width - line_width) / 2, y_text), line, font=font, fill=text_color) y_text += line_height + padding def add_text_to_img(text1, image_input): print(f"DEBUG: Adding text to image: '{text1}'") # Scale font size dynamically base_font_size = 30 image_width, image_height = image_input.size scaled_font_size = max(10, int(base_font_size * (image_width / 800))) # Adjust 800 based on typical image width path_font = "/usr/share/fonts/truetype/liberation/LiberationSans-Bold.ttf" if not os.path.exists(path_font): path_font = "/usr/share/fonts/truetype/dejavu/DejaVuSans-Bold.ttf" font = ImageFont.truetype(path_font, scaled_font_size) text_color = (255, 255, 0) padding = 10 # Estimate starting height dynamically line_height = font.getbbox("A")[3] + padding total_text_height = len(textwrap.wrap(text1, get_dynamic_wrap_width(font, text1, image_width, padding))) * line_height text_start_height = image_height - total_text_height - 20 draw_multiple_line_text(image_input, text1, font, text_color, text_start_height, padding) return image_input # Process images with subtitles generated_images_sub = [] for k, image in enumerate(generated_images): text_to_add = sub_names[k][0] result = add_text_to_img(text_to_add, image.copy()) generated_images_sub.append(result) result.save(f"image_{k}/generated_image_with_subtitles.png") # Generate audio for each subtitle mp3_names = [] mp3_lengths = [] for k, text_to_add in enumerate(sub_names): print(f"DEBUG: Generating audio for: '{text_to_add[0]}'") f_name = f'audio_{k}.mp3' mp3_names.append(f_name) myobj = gTTS(text=text_to_add[0], lang='en', slow=False) myobj.save(f_name) audio = MP3(f_name) mp3_lengths.append(audio.info.length) print(f"DEBUG: Audio duration: {audio.info.length} seconds") # Merge audio files export_path = merge_audio_files(mp3_names) # Create video clips from images clips = [] for k, img in enumerate(generated_images_sub): duration = mp3_lengths[k] print(f"DEBUG: Creating video clip {k+1} with duration: {duration} seconds") clip = mpy.ImageClip(f"image_{k}/generated_image_with_subtitles.png").set_duration(duration + 0.5) clips.append(clip) # Concatenate video clips print("DEBUG: Concatenating video clips...") concat_clip = mpy.concatenate_videoclips(clips, method="compose") concat_clip.write_videofile("result_no_audio.mp4", fps=24) # Combine video and audio movie_name = 'result_no_audio.mp4' movie_final = 'result_final.mp4' def combine_audio(vidname, audname, outname, fps=24): print(f"DEBUG: Combining audio for video: '{vidname}'") my_clip = mpy.VideoFileClip(vidname) audio_background = mpy.AudioFileClip(audname) final_clip = my_clip.set_audio(audio_background) final_clip.write_videofile(outname, fps=fps) combine_audio(movie_name, export_path, movie_final) # Clean up print("DEBUG: Cleaning up files...") for i in range(len(generated_images_sub)): shutil.rmtree(f"image_{i}") os.remove(f"audio_{i}.mp3") os.remove("result.mp3") os.remove("result_no_audio.mp4") print("DEBUG: Cleanup complete.") print("DEBUG: get_output_video function completed successfully.") return 'result_final.mp4' # Example text (can be changed by user in Gradio interface) text = 'Once, there was a girl called Laura who went to the supermarket to buy the ingredients to make a cake. Because today is her birthday and her friends come to her house and help her to prepare the cake.' # Create Gradio interface demo = gr.Blocks() with demo: gr.Markdown("# Video Generator from stories with Artificial Intelligence") gr.Markdown("A story can be input by user. The story is summarized using DistilBART model. Then, the images are generated by using Dalle-mini, and the subtitles and audio are created using gTTS. These are combined to generate a video.") with gr.Row(): with gr.Column(): input_start_text = gr.Textbox(value=text, label="Type your story here, for now a sample story is added already!") with gr.Row(): button_gen_video = gr.Button("Generate Video") with gr.Column(): output_interpolation = gr.Video(value="test.mp4", label="Generated Video") # Set default video gr.Markdown("

Future Works

") gr.Markdown("This program is a text-to-video AI software generating videos from any prompt! AI software to build an art gallery. The future version will use Dalle-2. For more info visit [ruslanmv.com](https://ruslanmv.com/) ") button_gen_video.click(fn=get_output_video, inputs=input_start_text, outputs=output_interpolation) # Launch the Gradio app demo.launch(debug=True, share=True)