Merge 1d5f26e647 into 8a2563ecab

scripts/recording_tools.py

@@ -0,0 +1,166 @@
+import argparse
+import time
+from pydub import AudioSegment
+from scipy.signal import resample
+from tqdm import tqdm
+import os
+import sounddevice as sd
+import soundfile as sf
+
+DURATION = 10.0
+
+def countdown(count: int):
+    """Create a countdown for specified number of seconds.
+
+    Args:
+        count (int): The amount of milliseconds to wait for.
+    """
+    for elapsed_ms in range(count):
+        print(f'{(count-elapsed_ms)/1000}', end='\r')
+        time.sleep(0.001)
+
+def record_until_keypress(
+        voice_name: str,
+        samplerate: int=22050,
+        channels: int=1):
+    """Record audio in chunks until interrupted, then chop into 10s fragments.
+
+    Args:
+        voice_name (str): The name of the voice that records.
+        samplerate (int, optional): Target sample rate. Defaults to 22050.
+        channels (int, optional): The number of channels (1=mono, 2=stereo). Defaults to 1.
+    """
+    recordings = []
+    print("·You are recording! Press Ctrl+C to stop.")
+    i=0
+    try:
+        while True:
+            recording = sd.rec(
+                int(samplerate * DURATION), samplerate=samplerate, channels=channels, blocking=True)
+            i+=1
+            print(f"Chunk #{i} was recorded")
+            recordings.append(recording)
+    except KeyboardInterrupt:
+        print("Recording stopped.")
+
+    output_folder = f'../tortoise/voices/{voice_name}/'
+    try:
+        os.mkdir(output_folder)
+    except FileExistsError:
+        pass
+    for i, rec in enumerate(recordings):
+        fname = f'{output_folder}/{i+1}.wav'
+        try:
+            sf.write(fname, rec, samplerate, subtype='FLOAT')
+        except Exception:
+            print(f"Error saving chunk #{i+1}.")
+
+def record_audio(
+        file_path: str,
+        num_samples: int=3,
+        samplerate: int=22050,
+        channels: int=1,
+        timeout: int=5):
+    """Record audio with the specified parameters.
+
+    Args:
+        file_path (str): Path to the voice folder where the samples will be saved.
+        num_samples (int, optional): The amount of samples to save. Defaults to 3.
+        samplerate (int, optional): Target sample rate. Defaults to 22050.
+        channels (int, optional): The number of channels (1=mono, 2=stereo). Defaults to 1.
+        timeout (int, optional): The seconds to wait between samples. Defaults to 5.
+    """
+    for i in range(num_samples):
+        print(f"Preparing to record sample {i+1} in {timeout} seconds...")
+        countdown(timeout * 1000)
+
+        print("Recording...")
+        recording = sd.rec(int(samplerate * DURATION), samplerate=samplerate,
+                           channels=channels, blocking=True)
+
+        fname = f'{file_path}/{i+1}.wav'
+        sf.write(fname, recording, samplerate, subtype='FLOAT')
+
+        print(f"Recording of sample {i+1} finished and saved as '{fname}'.")
+
+def chop_audio(input_path: str,
+               output_folder: str,
+               no_conversion: bool=True,
+               samplerate: int=22050):
+    """Chop an audio file into chunks with specified duration.
+
+    Args:
+        input_path (str): Path to the original voice sample.
+        output_folder (str): Path to the voice folder where the sample's chunks will be saved.
+        no_conversion (bool, optional): Ignore the conversion to WAV format. Defaults to True.
+        samplerate (int, optional): Target sample rate. Defaults to 22050.
+    """
+    if no_conversion:
+        intermediate_path = input_path
+    else:
+        print("Loading file...")
+        audio = AudioSegment.from_file(input_path)
+
+        print("Converting to WAV...")
+        intermediate_path = "intermediate.wav"
+        audio.export(intermediate_path, format="wav")
+
+    print("Loading WAV file...")
+    data, og_samplerate = sf.read(intermediate_path)
+
+    print("Resampling audio data...")
+    data = resample(data, len(data) * samplerate // og_samplerate)
+
+    num_chunks = len(data) // int(samplerate * DURATION) + 1
+
+    print("Saving chunks...")
+    for i, _ in tqdm(enumerate(range(0, len(data), int(samplerate * DURATION)), 1),
+                     total=num_chunks):
+        chunk = data[i:i + int(samplerate * DURATION)]
+        sf.write(f'{output_folder}/{i}.wav', chunk, samplerate, subtype='FLOAT')
+
+    print(f"Conversion and chopping finished. Saved files in '{output_folder}'.")
+
+if __name__ == "__main__":
+    parser = argparse.ArgumentParser(description='Process some audio.')
+    parser.add_argument(
+        'command',
+        choices=['record', 'chop', 'keypress'],
+        help='Command to execute')
+    parser.add_argument(
+        '--file_path',
+        help='Path to the file to process')
+    parser.add_argument(
+        '--voice_name',
+        help='The name of the voice that will record')
+    parser.add_argument(
+        '--output_folder',
+        help='Folder to save the chunks')
+    parser.add_argument(
+        '--no-convert',
+        action='store_false', default=True,
+        help='Convert file to WAV format')
+    parser.add_argument(
+        '--num_samples',
+        type=int, default=1,
+        help='Number of samples to record')
+    parser.add_argument(
+        '--rec_timeout',
+        type=int, default=5,
+        help='Seconds between recordings')
+
+    args = parser.parse_args()
+    print(args.no_convert)
+
+    if args.command == 'record':
+        record_audio(
+            args.file_path,
+            num_samples=args.num_samples,
+            timeout=args.rec_timeout)
+    elif args.command == 'chop':
+        chop_audio(
+            args.file_path,
+            args.output_folder,
+            no_conversion=args.no_convert)
+    elif args.command == 'keypress':
+        record_until_keypress(args.voice_name)