import librosa import gradio as gr import os from matplotlib import pyplot as plt from rvc.lib.predictors.F0Extractor import F0Extractor from assets.i18n.i18n import I18nAuto i18n = I18nAuto() def extract_f0_curve(audio_path: str, method: str) -> tuple: print("Extracting F0 Curve...") image_path = os.path.join("logs", "f0_plot.png") txt_path = os.path.join("logs", "f0_curve.txt") y, sr = librosa.load(audio_path, sr=None) hop_length = 160 librosa.note_to_hz("C1") librosa.note_to_hz("C8") f0_extractor = F0Extractor(audio_path, sample_rate=sr, method=method) f0 = f0_extractor.extract_f0() plt.figure(figsize=(10, 4)) plt.plot(f0) plt.title(method) plt.xlabel("Time (frames)") plt.ylabel("Frequency (Hz)") plt.savefig(image_path) plt.close() with open(txt_path, "w") as txtfile: for i, f0_value in enumerate(f0): frequency = i * sr / hop_length txtfile.write(f"{frequency},{f0_value}\n") print("F0 Curve extracted successfully!") return image_path, txt_path def f0_extractor_tab(): with gr.Accordion(label=i18n("Extract F0 Curve")): with gr.Row(): audio = gr.Audio(label=i18n("Upload Audio"), type="filepath") f0_method = gr.Radio( label=i18n("Pitch extraction algorithm"), info=i18n( "Pitch extraction algorithm to use for the audio conversion. The default algorithm is rmvpe, which is recommended for most cases." ), choices=["crepe", "fcpe", "rmvpe"], value="rmvpe", ) button = gr.Button(i18n("Extract F0 Curve"), variant="primary") with gr.Accordion(label=i18n("Output Information")): txt_output = gr.File(label="F0 Curve", type="filepath") image_output = gr.Image(type="filepath", interactive=False) button.click( fn=extract_f0_curve, inputs=[ audio, f0_method, ], outputs=[image_output, txt_output], )