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Running
on
Zero
import numpy as np | |
import matplotlib.pyplot as plt | |
import librosa.display | |
import librosa | |
def calculate_features(y, sr): | |
stft = np.abs(librosa.stft(y)) | |
duration = librosa.get_duration(y=y, sr=sr) | |
cent = librosa.feature.spectral_centroid(S=stft, sr=sr)[0] | |
bw = librosa.feature.spectral_bandwidth(S=stft, sr=sr)[0] | |
rolloff = librosa.feature.spectral_rolloff(S=stft, sr=sr)[0] | |
return stft, duration, cent, bw, rolloff | |
def plot_title(title): | |
plt.suptitle(title, fontsize=16, fontweight="bold") | |
def plot_spectrogram(y, sr, stft, duration, cmap="inferno"): | |
plt.subplot(3, 1, 1) | |
plt.imshow( | |
librosa.amplitude_to_db(stft, ref=np.max), | |
origin="lower", | |
extent=[0, duration, 0, sr / 1000], | |
aspect="auto", | |
cmap=cmap, # Change the colormap here | |
) | |
plt.colorbar(format="%+2.0f dB") | |
plt.xlabel("Time (s)") | |
plt.ylabel("Frequency (kHz)") | |
plt.title("Spectrogram") | |
def plot_waveform(y, sr, duration): | |
plt.subplot(3, 1, 2) | |
librosa.display.waveshow(y, sr=sr) | |
plt.xlabel("Time (s)") | |
plt.ylabel("Amplitude") | |
plt.title("Waveform") | |
def plot_features(times, cent, bw, rolloff, duration): | |
plt.subplot(3, 1, 3) | |
plt.plot(times, cent, label="Spectral Centroid (kHz)", color="b") | |
plt.plot(times, bw, label="Spectral Bandwidth (kHz)", color="g") | |
plt.plot(times, rolloff, label="Spectral Rolloff (kHz)", color="r") | |
plt.xlabel("Time (s)") | |
plt.title("Spectral Features") | |
plt.legend() | |
def analyze_audio(audio_file, save_plot_path="logs/audio_analysis.png"): | |
y, sr = librosa.load(audio_file) | |
stft, duration, cent, bw, rolloff = calculate_features(y, sr) | |
plt.figure(figsize=(12, 10)) | |
plot_title("Audio Analysis" + " - " + audio_file.split("/")[-1]) | |
plot_spectrogram(y, sr, stft, duration) | |
plot_waveform(y, sr, duration) | |
plot_features(librosa.times_like(cent), cent, bw, rolloff, duration) | |
plt.tight_layout() | |
if save_plot_path: | |
plt.savefig(save_plot_path, bbox_inches="tight", dpi=300) | |
plt.close() | |
audio_info = f"""Sample Rate: {sr}\nDuration: {( | |
str(round(duration, 2)) + " seconds" | |
if duration < 60 | |
else str(round(duration / 60, 2)) + " minutes" | |
)}\nNumber of Samples: {len(y)}\nBits per Sample: {librosa.get_samplerate(audio_file)}\nChannels: {"Mono (1)" if y.ndim == 1 else "Stereo (2)"}""" | |
return audio_info, save_plot_path | |