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Ilaria_Audio_Analyzer / app.py

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	import gradio as gr
	import matplotlib.pyplot as plt
	import numpy as np
	import os
	import soundfile as sf
	import requests

	def download_file(url):
	# Estrai l'ID del file dal link di Google Drive
	file_id = url.split('/')[-2]

	# Crea il link di download diretto
	download_url = f'https://docs.google.com/uc?export=download&id={file_id}'

	# Scarica il file
	response = requests.get(download_url, allow_redirects=True)
	local_filename = url.split('/')[-1] + '.wav'
	open(local_filename, 'wb').write(response.content)

	return local_filename

	def main():
	# Gradio Interface
	with gr.Blocks() as app:
	gr.Markdown(
	"""
	# <div align="center"> Ilaria Audio Analyzer 💖 </div>
	Audio Analyzer Software by Ilaria, Help me on [Ko-Fi!](https://ko-fi.com/ilariaowo)\n
	Special thanks to Alex Murkoff for helping me coding it!

	Need help with AI? Join [Join AI Hub!](https://discord.gg/aihub)
	"""
	)

	with gr.Row():
	with gr.Column():
	audio_input = gr.Audio(type='filepath')
	create_spec_butt = gr.Button(value='Create Spectrogram And Get Info', variant='primary')

	with gr.Column():
	output_markdown = gr.Markdown(value="", visible=True)
	image_output = gr.Image(type='filepath', interactive=False)

	with gr.Accordion('Audio Downloader', open=False):
	url_input = gr.Textbox(value='', label='Google Drive Audio URL')
	download_butt = gr.Button(value='Download audio', variant='primary')

	download_butt.click(fn=download_file, inputs=[url_input], outputs=[audio_input])
	create_spec_butt.click(fn=create_spectrogram_and_get_info, inputs=[audio_input], outputs=[output_markdown, image_output])

	download_butt.click(fn=download_file, inputs=[url_input], outputs=[audio_input])
	create_spec_butt.click(fn=create_spectrogram_and_get_info, inputs=[audio_input], outputs=[output_markdown, image_output])

	app.queue(max_size=1022).launch(share=True)

	def create_spectrogram_and_get_info(audio_file):
	# Clear figure in case it has data in it
	plt.clf()

	# Read the audio data from the file
	audio_data, sample_rate = sf.read(audio_file)

	# Convert to mono if it's not mono
	if len(audio_data.shape) > 1:
	audio_data = np.mean(audio_data, axis=1)

	# Create the spectrogram
	plt.specgram(audio_data, Fs=sample_rate / 1, NFFT=4096, sides='onesided',
	cmap="inferno", scale_by_freq=True, scale='dB', mode='magnitude', window=np.hanning(4096))

	# Save the spectrogram to a PNG file
	plt.savefig('spectrogram.png')

	# Get the audio file info
	audio_info = sf.info(audio_file)

	bit_depth = {'PCM_16': 16, 'FLOAT': 32}.get(audio_info.subtype, 0)

	# Convert duration to minutes, seconds, and milliseconds
	minutes, seconds = divmod(audio_info.duration, 60)
	seconds, milliseconds = divmod(seconds, 1)
	milliseconds *= 1000 # convert from seconds to milliseconds

	# Convert bitrate to mb/s
	bitrate = audio_info.samplerate * audio_info.channels * bit_depth / 8 / 1024 / 1024

	# Calculate speed in kbps
	speed_in_kbps = audio_info.samplerate * bit_depth / 1000

	# Create a table with the audio file info
	filename_without_extension, _ = os.path.splitext(os.path.basename(audio_file))
	info_table = f"""

	\| Information \| Value \|
	\| :---: \| :---: \|
	\| File Name \| {filename_without_extension} \|
	\| Duration \| {int(minutes)} minutes - {int(seconds)} seconds - {int(milliseconds)} milliseconds \|
	\| Bitrate \| {speed_in_kbps} kbp/s \|
	\| Audio Channels \| {audio_info.channels} \|
	\| Samples per second \| {audio_info.samplerate} Hz \|
	\| Bit per second \| {audio_info.samplerate * audio_info.channels * bit_depth} bit/s \|

	"""

	# Return the PNG file of the spectrogram and the info table
	return info_table, 'spectrogram.png'

	# Create the Gradio interface
	main()