riffusion-inference/integrations/cog_riffusion.py

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"""
Prediction interface for Cog
https://github.com/replicate/cog/blob/main/docs/python.md
"""
import argparse
import os
import shutil
import typing as T
import numpy as np
import PIL
import torch
from cog import BaseModel, BasePredictor, Input, Path
from riffusion.datatypes import InferenceInput, PromptInput
from riffusion.riffusion_pipeline import RiffusionPipeline
from riffusion.spectrogram_image_converter import SpectrogramImageConverter
from riffusion.spectrogram_params import SpectrogramParams
MODEL_ID = "riffusion/riffusion-model-v1"
MODEL_CACHE = "riffusion-cache"
# Where built-in seed images are stored
SEED_IMAGES_DIR = Path("./seed_images")
SEED_IMAGES = [val.split(".")[0] for val in os.listdir(SEED_IMAGES_DIR) if "png" in val]
SEED_IMAGES.sort()
class Output(BaseModel):
"""
Output class for riffusion predictions
"""
audio: Path
spectrogram: Path
error: T.Optional[str] = None
class RiffusionPredictor(BasePredictor):
"""
Implementation of cog predictor object s.t. we can run riffusion predictions w/cog.
See README & https://github.com/replicate/cog for details
"""
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def setup(self, local_files_only=True):
"""
Loads the model onto GPU from local cache.
"""
self.device = "cuda" if torch.cuda.is_available() else "cpu"
self.model = RiffusionPipeline.load_checkpoint(
checkpoint=MODEL_ID,
use_traced_unet=True,
device=self.device,
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local_files_only=local_files_only,
cache_dir=MODEL_CACHE,
)
def predict(
self,
prompt_a: str = Input(description="The prompt for your audio", default="funky synth solo"),
denoising: float = Input(
description="How much to transform input spectrogram",
default=0.75,
ge=0,
le=1,
),
prompt_b: str = Input(
description="The second prompt to interpolate with the first,"
"leave blank if no interpolation",
default=None,
),
alpha: float = Input(
description="Interpolation alpha if using two prompts."
"A value of 0 uses prompt_a fully, a value of 1 uses prompt_b fully",
default=0.5,
ge=0,
le=1,
),
num_inference_steps: int = Input(
description="Number of steps to run the diffusion model", default=50, ge=1
),
seed_image_id: str = Input(
description="Seed spectrogram to use", default="vibes", choices=SEED_IMAGES
),
) -> Output:
"""
Runs riffusion inference.
"""
# Load the seed image by ID
init_image_path = Path(SEED_IMAGES_DIR, f"{seed_image_id}.png")
if not init_image_path.is_file():
return Output(error=f"Invalid seed image: {seed_image_id}")
init_image = PIL.Image.open(str(init_image_path)).convert("RGB")
# fake max ints
seed_a = np.random.randint(0, 2147483647)
seed_b = np.random.randint(0, 2147483647)
start = PromptInput(prompt=prompt_a, seed=seed_a, denoising=denoising)
if not prompt_b: # no transition
prompt_b = prompt_a
alpha = 0
end = PromptInput(prompt=prompt_b, seed=seed_b, denoising=denoising)
riffusion_input = InferenceInput(
start=start,
end=end,
alpha=alpha,
num_inference_steps=num_inference_steps,
seed_image_id=seed_image_id,
)
# Execute the model to get the spectrogram image
image = self.model.riffuse(riffusion_input, init_image=init_image, mask_image=None)
# Reconstruct audio from the image
params = SpectrogramParams()
converter = SpectrogramImageConverter(params=params, device=self.device)
segment = converter.audio_from_spectrogram_image(image)
if not os.path.exists("out/"):
os.mkdir("out")
out_img_path = "out/spectrogram.jpg"
image.save("out/spectrogram.jpg", exif=image.getexif())
out_wav_path = "out/gen_sound.wav"
segment.export(out_wav_path, format="wav")
return Output(audio=Path(out_wav_path), spectrogram=Path(out_img_path))
# TODO(hayk): Can we get rid of the below functions and incorporate into
# RiffusionPipeline.load_checkpoint?
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def download_weights():
"""
Clears local cache & downloads riffusion weights
"""
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if os.path.exists(MODEL_CACHE):
shutil.rmtree(MODEL_CACHE)
os.makedirs(MODEL_CACHE)
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pred = RiffusionPredictor()
pred.setup(local_files_only=False)
if __name__ == "__main__":
parser = argparse.ArgumentParser()
parser.add_argument(
"--download_weights", action="store_true", help="Download and cache weights"
)
args = parser.parse_args()
if args.download_weights:
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download_weights()