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TextToVideo-Dalle / app.py

Ruslan Magana Vsevolodovna

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	# Step 2 - Importing Libraries
	from moviepy.editor import *
	from PIL import Image
	from transformers import AutoTokenizer, AutoModelForSeq2SeqLM,pipeline
	import gradio as gr
	import torch, torch.backends.cudnn, torch.backends.cuda
	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
	from os import getcwd
	import glob
	import nltk
	import subprocess
	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 "
	tokenizer = AutoTokenizer.from_pretrained("sshleifer/distilbart-cnn-12-6")
	model = AutoModelForSeq2SeqLM.from_pretrained("sshleifer/distilbart-cnn-12-6")

	device = torch.device("cuda:0" if torch.cuda.is_available() else "cpu")
	print(device)

	#def log_gpu_memory():
	# print(subprocess.check_output('nvidia-smi').decode('utf-8'))
	#log_gpu_memory()


	def get_output_video(text):
	inputs = tokenizer(text,
	max_length=1024,
	truncation=True,
	return_tensors="pt")

	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('.'))

	'''
	The required models will be downloaded to models_root if they are not already there.
	Set the dtype to torch.float16 to save GPU memory.
	If you have an Ampere architecture GPU you can use torch.bfloat16.
	Set the device to either "cuda" or "cpu". Once everything has finished initializing,
	float32 is faster than float16 but uses more GPU memory.

	'''

	def generate_image(
	is_mega: bool,
	text: str,
	seed: int,
	grid_size: int,
	top_k: int,
	image_path: str,
	models_root: str,
	fp16: bool,):
	model = MinDalle(
	is_mega=is_mega,
	models_root=models_root,
	is_reusable=True,
	is_verbose=True,
	dtype=torch.float16 if fp16 else torch.float32, #param ["float32", "float16", "bfloat16"]
	#device='cuda' #'cpu'
	)
	#log_gpu_memory()

	image = model.generate_image(
	text,
	seed,
	grid_size,
	top_k=top_k,
	is_verbose=True
	)

	return image

	generated_images = []
	for senten in plot[:-1]:
	image=generate_image(
	is_mega= True,
	text=senten,
	seed=1,
	grid_size=1, #param {type:"integer"}
	top_k=256, #param {type:"integer"}

	image_path='generated',
	models_root='pretrained',
	fp16=256,)
	generated_images.append(image)

	# Step 4- Creation of the subtitles
	sentences =plot[:-1]
	num_sentences=len(sentences)
	assert len(generated_images) == len(sentences) , print('Something is wrong')
	#We can generate our list of subtitles
	from nltk import tokenize
	c = 0
	sub_names = []
	for k in range(len(generated_images)):
	subtitles=tokenize.sent_tokenize(sentences[k])
	sub_names.append(subtitles)

	# Step 5- Adding Subtitles to the Images
	def draw_multiple_line_text(image, text, font, text_color, text_start_height):
	draw = ImageDraw.Draw(image)
	image_width, image_height = image.size
	y_text = text_start_height
	lines = textwrap.wrap(text, width=40)
	for line in lines:
	line_width, line_height = font.getsize(line)
	draw.text(((image_width - line_width) / 2, y_text),
	line, font=font, fill=text_color)
	y_text += line_height

	def add_text_to_img(text1,image_input):
	'''
	Testing draw_multiple_line_text
	'''
	image =image_input
	fontsize = 13 # starting font size
	path_font="/usr/share/fonts/truetype/liberation/LiberationSans-Bold.ttf"
	font = ImageFont.truetype(path_font, fontsize)
	text_color = (255,255,0)
	text_start_height = 200
	draw_multiple_line_text(image, text1, font, text_color, text_start_height)
	return image

	generated_images_sub = []
	for k in range(len(generated_images)):
	imagenes = generated_images[k].copy()
	text_to_add=sub_names[k][0]
	result=add_text_to_img(text_to_add,imagenes)
	generated_images_sub.append(result)
	# Step 7 - Creation of audio
	c = 0
	mp3_names = []
	mp3_lengths = []
	for k in range(len(generated_images)):
	text_to_add=sub_names[k][0]
	print(text_to_add)
	f_name = 'audio_'+str(c)+'.mp3'
	mp3_names.append(f_name)
	# The text that you want to convert to audio
	mytext = text_to_add
	# Language in which you want to convert
	language = 'en'
	# Passing the text and language to the engine,
	# here we have marked slow=False. Which tells
	# the module that the converted audio should
	# have a high speed
	myobj = gTTS(text=mytext, lang=language, slow=False)
	# Saving the converted audio in a mp3 file named
	sound_file=f_name
	myobj.save(sound_file)
	audio = MP3(sound_file)
	duration=audio.info.length
	mp3_lengths.append(duration)
	print(audio.info.length)
	c+=1

	# Step 8 - Merge audio files
	cwd = (getcwd()).replace(chr(92), '/')
	#export_path = f'{cwd}/result.mp3'
	export_path ='result.mp3'
	MP3_FILES = glob.glob(pathname=f'{cwd}/*.mp3', recursive=True)
	silence = AudioSegment.silent(duration=500)
	full_audio = AudioSegment.empty() # this will accumulate the entire mp3 audios
	for n, mp3_file in enumerate(mp3_names):
	mp3_file = mp3_file.replace(chr(92), '/')
	print(n, mp3_file)

	# Load the current mp3 into `audio_segment`
	audio_segment = AudioSegment.from_mp3(mp3_file)

	# Just accumulate the new `audio_segment` + `silence`
	full_audio += audio_segment + silence
	print('Merging ', n)

	# The loop will exit once all files in the list have been used
	# Then export
	full_audio.export(export_path, format='mp3')
	print('\ndone!')

	# Step 9 - Creation of the video with adjusted times of the sound
	c = 0
	file_names = []
	for img in generated_images_sub:
	f_name = 'img_'+str(c)+'.jpg'
	file_names.append(f_name)
	img = img.save(f_name)
	c+=1
	print(file_names)
	clips=[]
	d=0
	for m in file_names:
	duration=mp3_lengths[d]
	print(d,duration)
	clips.append(ImageClip(m).set_duration(duration+0.5))
	d+=1
	concat_clip = concatenate_videoclips(clips, method="compose")
	concat_clip.write_videofile("result_new.mp4", fps=24)

	# Step 10 - Merge Video + Audio
	movie_name = 'result_new.mp4'
	export_path='result.mp3'
	movie_final= 'result_final.mp4'

	def combine_audio(vidname, audname, outname, fps=60):
	import moviepy.editor as mpe
	my_clip = mpe.VideoFileClip(vidname)
	audio_background = mpe.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) # create a new file
	return 'result_final.mp4'
	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.'
	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 DistillBART model. Then, then it is generated the images by using Dalle-mini and created the subtitles and audio gtts. These are generated as a video.")
	with gr.Row():
	# Left column (inputs)
	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")
	# Right column (outputs)
	with gr.Column():
	output_interpolation = gr.Video(label="Generated Video")
	gr.Markdown("<h3>Future Works </h3>")
	gr.Markdown("This program 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)

	demo.launch(debug=False)