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Testing Seed Values
Browse filesAllow loading from file
- app.py +19 -7
- audiocraft/models/loaders.py +4 -0
- audiocraft/models/musicgen.py +5 -4
- audiocraft/utils/extend.py +22 -61
app.py
CHANGED
@@ -15,6 +15,7 @@ from audiocraft.models import MusicGen
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from audiocraft.data.audio import audio_write
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from audiocraft.utils.extend import generate_music_segments, add_settings_to_image, sanitize_file_name
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import numpy as np
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MODEL = None
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IS_SHARED_SPACE = "musicgen/MusicGen" in os.environ.get('SPACE_ID', '')
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@@ -25,7 +26,7 @@ def load_model(version):
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return MusicGen.get_pretrained(version)
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-
def predict(model, text, melody, duration, dimension, topk, topp, temperature, cfg_coef, background, title, include_settings, settings_font, settings_font_color):
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global MODEL
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output_segments = None
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topk = int(topk)
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@@ -36,6 +37,10 @@ def predict(model, text, melody, duration, dimension, topk, topp, temperature, c
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segment_duration = MODEL.lm.cfg.dataset.segment_duration
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else:
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segment_duration = duration
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MODEL.set_generation_params(
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use_sampling=True,
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top_k=topk,
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@@ -47,7 +52,7 @@ def predict(model, text, melody, duration, dimension, topk, topp, temperature, c
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if melody:
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if duration > MODEL.lm.cfg.dataset.segment_duration:
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-
output_segments = generate_music_segments(text, melody, MODEL, duration, MODEL.lm.cfg.dataset.segment_duration)
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else:
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# pure original code
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sr, melody = melody[0], torch.from_numpy(melody[1]).to(MODEL.device).float().t().unsqueeze(0)
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@@ -76,14 +81,13 @@ def predict(model, text, melody, duration, dimension, topk, topp, temperature, c
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output = output.detach().cpu().float()[0]
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with NamedTemporaryFile("wb", suffix=".wav", delete=False) as file:
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if include_settings:
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-
video_description = f"{text}\n Duration: {str(duration)} Dimension: {dimension}\n Top-k:{topk} Top-p:{topp}\n Randomness:{temperature}\n cfg:{cfg_coef}"
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background = add_settings_to_image(title, video_description, background_path=background, font=settings_font, font_color=settings_font_color)
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-
#filename = sanitize_file_name(title) if title != "" else file.name
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audio_write(
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file.name, output, MODEL.sample_rate, strategy="loudness",
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loudness_headroom_db=16, loudness_compressor=True, add_suffix=False)
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waveform_video = gr.make_waveform(file.name,bg_image=background, bar_count=40)
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return waveform_video
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def ui(**kwargs):
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@@ -121,15 +125,23 @@ def ui(**kwargs):
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model = gr.Radio(["melody", "medium", "small", "large"], label="Model", value="melody", interactive=True)
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with gr.Row():
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duration = gr.Slider(minimum=1, maximum=1000, value=10, label="Duration", interactive=True)
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dimension = gr.Slider(minimum=-2, maximum=1, value=1, step=1, label="Dimension", info="determines which direction to add new segements of audio. (0 = stack tracks, 1 = lengthen, -1 = ?)", interactive=True)
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with gr.Row():
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topk = gr.Number(label="Top-k", value=250, interactive=True)
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topp = gr.Number(label="Top-p", value=0, interactive=True)
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temperature = gr.Number(label="Randomness Temperature", value=1.0, precision=2, interactive=True)
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cfg_coef = gr.Number(label="Classifier Free Guidance", value=3.0, precision=2, interactive=True)
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-
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output = gr.Video(label="Generated Music")
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-
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gr.Examples(
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fn=predict,
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examples=[
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from audiocraft.data.audio import audio_write
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from audiocraft.utils.extend import generate_music_segments, add_settings_to_image, sanitize_file_name
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import numpy as np
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import random
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MODEL = None
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IS_SHARED_SPACE = "musicgen/MusicGen" in os.environ.get('SPACE_ID', '')
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return MusicGen.get_pretrained(version)
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+
def predict(model, text, melody, duration, dimension, topk, topp, temperature, cfg_coef, background, title, include_settings, settings_font, settings_font_color, seed, overlap=1):
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global MODEL
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output_segments = None
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topk = int(topk)
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segment_duration = MODEL.lm.cfg.dataset.segment_duration
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else:
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segment_duration = duration
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# implement seed
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if seed < 0:
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seed = random.randint(0, 0xffff_ffff_ffff)
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torch.manual_seed(seed)
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MODEL.set_generation_params(
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use_sampling=True,
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top_k=topk,
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if melody:
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if duration > MODEL.lm.cfg.dataset.segment_duration:
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output_segments = generate_music_segments(text, melody, MODEL, seed, duration, overlap, MODEL.lm.cfg.dataset.segment_duration)
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else:
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# pure original code
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sr, melody = melody[0], torch.from_numpy(melody[1]).to(MODEL.device).float().t().unsqueeze(0)
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output = output.detach().cpu().float()[0]
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with NamedTemporaryFile("wb", suffix=".wav", delete=False) as file:
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if include_settings:
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video_description = f"{text}\n Duration: {str(duration)} Dimension: {dimension}\n Top-k:{topk} Top-p:{topp}\n Randomness:{temperature}\n cfg:{cfg_coef} overlap: {overlap}\n Seed: {seed}"
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background = add_settings_to_image(title, video_description, background_path=background, font=settings_font, font_color=settings_font_color)
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audio_write(
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file.name, output, MODEL.sample_rate, strategy="loudness",
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loudness_headroom_db=16, loudness_compressor=True, add_suffix=False)
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waveform_video = gr.make_waveform(file.name,bg_image=background, bar_count=40)
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return waveform_video, seed
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def ui(**kwargs):
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model = gr.Radio(["melody", "medium", "small", "large"], label="Model", value="melody", interactive=True)
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with gr.Row():
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duration = gr.Slider(minimum=1, maximum=1000, value=10, label="Duration", interactive=True)
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overlap = gr.Slider(minimum=1, maximum=29, value=5, step=1, label="Overlap", interactive=True)
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dimension = gr.Slider(minimum=-2, maximum=1, value=1, step=1, label="Dimension", info="determines which direction to add new segements of audio. (0 = stack tracks, 1 = lengthen, -1 = ?)", interactive=True)
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with gr.Row():
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topk = gr.Number(label="Top-k", value=250, interactive=True)
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topp = gr.Number(label="Top-p", value=0, interactive=True)
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temperature = gr.Number(label="Randomness Temperature", value=1.0, precision=2, interactive=True)
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cfg_coef = gr.Number(label="Classifier Free Guidance", value=3.0, precision=2, interactive=True)
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with gr.Row():
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seed = gr.Number(label="Seed", value=-1, precision=0, interactive=True)
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gr.Button('\U0001f3b2\ufe0f').style(full_width=False).click(fn=lambda: -1, outputs=[seed], queue=False)
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reuse_seed = gr.Button('\u267b\ufe0f').style(full_width=False)
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with gr.Column() as c:
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output = gr.Video(label="Generated Music")
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seed_used = gr.Number(label='Seed used', value=-1, interactive=False)
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reuse_seed.click(fn=lambda x: x, inputs=[seed_used], outputs=[seed], queue=False)
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submit.click(predict, inputs=[model, text, melody, duration, dimension, topk, topp, temperature, cfg_coef, background, title, include_settings, settings_font, settings_font_color, seed, overlap], outputs=[output, seed_used])
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gr.Examples(
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fn=predict,
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examples=[
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audiocraft/models/loaders.py
CHANGED
@@ -50,6 +50,10 @@ def _get_state_dict(
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if os.path.isfile(file_or_url_or_id):
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return torch.load(file_or_url_or_id, map_location=device)
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elif file_or_url_or_id.startswith('https://'):
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return torch.hub.load_state_dict_from_url(file_or_url_or_id, map_location=device, check_hash=True)
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if os.path.isfile(file_or_url_or_id):
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return torch.load(file_or_url_or_id, map_location=device)
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if os.path.isdir(file_or_url_or_id):
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file = f"{file_or_url_or_id}/{filename}"
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return torch.load(file, map_location=device)
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elif file_or_url_or_id.startswith('https://'):
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return torch.hub.load_state_dict_from_url(file_or_url_or_id, map_location=device, check_hash=True)
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audiocraft/models/musicgen.py
CHANGED
@@ -80,10 +80,11 @@ class MusicGen:
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return MusicGen(name, compression_model, lm)
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if name not in HF_MODEL_CHECKPOINTS_MAP:
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-
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-
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cache_dir = os.environ.get('MUSICGEN_ROOT', None)
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compression_model = load_compression_model(name, device=device, cache_dir=cache_dir)
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return MusicGen(name, compression_model, lm)
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if name not in HF_MODEL_CHECKPOINTS_MAP:
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if not os.path.isfile(name) and not os.path.isdir(name):
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raise ValueError(
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f"{name} is not a valid checkpoint name. "
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f"Choose one of {', '.join(HF_MODEL_CHECKPOINTS_MAP.keys())}"
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)
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cache_dir = os.environ.get('MUSICGEN_ROOT', None)
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compression_model = load_compression_model(name, device=device, cache_dir=cache_dir)
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audiocraft/utils/extend.py
CHANGED
@@ -8,29 +8,34 @@ import tempfile
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import os
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import textwrap
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def separate_audio_segments(audio, segment_duration=30):
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sr, audio_data = audio[0], audio[1]
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total_samples = len(audio_data)
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segment_samples = sr * segment_duration
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-
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segments = []
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end_sample = (segment_idx + 1) * segment_samples
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segment = audio_data[start_sample:end_sample]
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segments.append((sr, segment))
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-
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return segments
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-
def generate_music_segments(text, melody, MODEL, duration:int=10, segment_duration:int=30):
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# generate audio segments
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melody_segments = separate_audio_segments(melody, segment_duration)
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# Create a list to store the melody tensors for each segment
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melodys = []
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@@ -40,7 +45,7 @@ def generate_music_segments(text, melody, MODEL, duration:int=10, segment_durati
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total_segments = max(math.ceil(duration / segment_duration),1)
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print(f"total Segments to Generate: {total_segments} for {duration} seconds. Each segment is {segment_duration} seconds")
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# If melody_segments is shorter than total_segments, repeat the segments until the
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if len(melody_segments) < total_segments:
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for i in range(total_segments - len(melody_segments)):
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segment = melody_segments[i]
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@@ -59,6 +64,7 @@ def generate_music_segments(text, melody, MODEL, duration:int=10, segment_durati
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# Append the segment to the melodys list
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melodys.append(verse)
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for idx, verse in enumerate(melodys):
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print(f"Generating New Melody Segment {idx + 1}: {text}\r")
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output = MODEL.generate_with_chroma(
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@@ -74,42 +80,6 @@ def generate_music_segments(text, melody, MODEL, duration:int=10, segment_durati
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print(f"output_segments: {len(output_segments)}: shape: {output.shape} dim {output.dim()}")
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return output_segments
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-
#def generate_music_segments(text, melody, duration, MODEL, segment_duration=30):
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# sr, melody = melody[0], torch.from_numpy(melody[1]).to(MODEL.device).float().t().unsqueeze(0)
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# # Create a list to store the melody tensors for each segment
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# melodys = []
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# # Calculate the total number of segments
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# total_segments = math.ceil(melody.shape[1] / (sr * segment_duration))
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# # Iterate over the segments
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# for segment_idx in range(total_segments):
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# print(f"segment {segment_idx + 1} / {total_segments + 1} \r")
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# start_frame = segment_idx * sr * segment_duration
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# end_frame = (segment_idx + 1) * sr * segment_duration
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# # Extract the segment from the melody tensor
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# segment = melody[:, start_frame:end_frame]
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# # Append the segment to the melodys list
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# melodys.append(segment)
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# output_segments = []
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# for segment in melodys:
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# output = MODEL.generate_with_chroma(
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# descriptions=[text],
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# melody_wavs=segment,
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# melody_sample_rate=sr,
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# progress=False
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# )
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# # Append the generated output to the list of segments
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# output_segments.append(output[:, :segment_duration])
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# return output_segments
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def save_image(image):
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"""
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Saves a PIL image to a temporary file and returns the file path.
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@@ -184,13 +154,4 @@ def add_settings_to_image(title: str = "title", description: str = "", width: in
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background.paste(image, offset, mask=image)
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# Save the image and return the file path
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return save_image(background)
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def sanitize_file_name(filename):
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valid_chars = "-_.() " + string.ascii_letters + string.digits
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sanitized_filename = ''.join(c for c in filename if c in valid_chars)
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return sanitized_filename
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import os
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import textwrap
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def separate_audio_segments(audio, segment_duration=30, overlap=1):
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sr, audio_data = audio[0], audio[1]
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total_samples = len(audio_data)
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segment_samples = sr * segment_duration
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overlap_samples = sr * overlap
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segments = []
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start_sample = 0
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while total_samples >= segment_samples:
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end_sample = start_sample + segment_samples
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segment = audio_data[start_sample:end_sample]
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segments.append((sr, segment))
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start_sample += segment_samples - overlap_samples
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total_samples -= segment_samples - overlap_samples
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# Collect the final segment
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if total_samples > 0:
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segment = audio_data[-segment_samples:]
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segments.append((sr, segment))
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return segments
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def generate_music_segments(text, melody, MODEL, seed, duration:int=10, overlap:int=1, segment_duration:int=30):
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# generate audio segments
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melody_segments = separate_audio_segments(melody, segment_duration, overlap)
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# Create a list to store the melody tensors for each segment
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melodys = []
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total_segments = max(math.ceil(duration / segment_duration),1)
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print(f"total Segments to Generate: {total_segments} for {duration} seconds. Each segment is {segment_duration} seconds")
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# If melody_segments is shorter than total_segments, repeat the segments until the total_segments is reached
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if len(melody_segments) < total_segments:
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for i in range(total_segments - len(melody_segments)):
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segment = melody_segments[i]
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# Append the segment to the melodys list
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melodys.append(verse)
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torch.manual_seed(seed)
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for idx, verse in enumerate(melodys):
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print(f"Generating New Melody Segment {idx + 1}: {text}\r")
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output = MODEL.generate_with_chroma(
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print(f"output_segments: {len(output_segments)}: shape: {output.shape} dim {output.dim()}")
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return output_segments
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def save_image(image):
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"""
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Saves a PIL image to a temporary file and returns the file path.
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background.paste(image, offset, mask=image)
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# Save the image and return the file path
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return save_image(background)
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