mirror of
https://github.com/finegrain-ai/refiners.git
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311 lines
11 KiB
Python
311 lines
11 KiB
Python
import itertools
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from typing import cast
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from warnings import warn
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import pytest
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from torch import Generator, Tensor, allclose, device as Device, equal, isclose, randn, tensor
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from refiners.fluxion import manual_seed
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from refiners.foundationals.latent_diffusion.solvers import (
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DDIM,
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DDPM,
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DPMSolver,
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Euler,
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FrankenSolver,
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LCMSolver,
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ModelPredictionType,
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NoiseSchedule,
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Solver,
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SolverParams,
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TimestepSpacing,
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)
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def test_ddpm_diffusers():
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from diffusers import DDPMScheduler # type: ignore
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diffusers_scheduler = DDPMScheduler(beta_schedule="scaled_linear", beta_start=0.00085, beta_end=0.012)
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diffusers_scheduler.set_timesteps(1000)
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solver = DDPM(num_inference_steps=1000)
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assert equal(diffusers_scheduler.timesteps, solver.timesteps)
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@pytest.mark.parametrize(
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"n_steps, last_step_first_order, sde_variance, use_karras_sigmas",
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list(itertools.product([5, 30], [False, True], [0.0, 1.0], [False, True])),
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)
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def test_dpm_solver_diffusers(n_steps: int, last_step_first_order: bool, sde_variance: float, use_karras_sigmas: bool):
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from diffusers import DPMSolverMultistepScheduler as DiffuserScheduler # type: ignore
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manual_seed(0)
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diffusers_scheduler = DiffuserScheduler(
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beta_schedule="scaled_linear",
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beta_start=0.00085,
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beta_end=0.012,
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lower_order_final=False,
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euler_at_final=last_step_first_order,
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final_sigmas_type="sigma_min", # default before Diffusers 0.26.0
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algorithm_type="sde-dpmsolver++" if sde_variance == 1.0 else "dpmsolver++",
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use_karras_sigmas=use_karras_sigmas,
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)
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diffusers_scheduler.set_timesteps(n_steps)
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solver = DPMSolver(
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num_inference_steps=n_steps,
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last_step_first_order=last_step_first_order,
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params=SolverParams(
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sde_variance=sde_variance,
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sigma_schedule=NoiseSchedule.KARRAS if use_karras_sigmas else None,
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),
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)
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assert equal(solver.timesteps, diffusers_scheduler.timesteps)
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sample = randn(1, 3, 32, 32)
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predicted_noise = randn(1, 3, 32, 32)
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manual_seed(37)
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diffusers_outputs: list[Tensor] = [
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cast(Tensor, diffusers_scheduler.step(predicted_noise, timestep, sample).prev_sample) # type: ignore
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for timestep in diffusers_scheduler.timesteps
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]
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manual_seed(37)
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refiners_outputs = [solver(x=sample, predicted_noise=predicted_noise, step=step) for step in range(n_steps)]
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atol = 1e-4 if use_karras_sigmas else 1e-6
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for step, (diffusers_output, refiners_output) in enumerate(zip(diffusers_outputs, refiners_outputs)):
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assert allclose(diffusers_output, refiners_output, rtol=0.01, atol=atol), f"outputs differ at step {step}"
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def test_ddim_diffusers():
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from diffusers import DDIMScheduler # type: ignore
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manual_seed(0)
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diffusers_scheduler = DDIMScheduler(
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beta_end=0.012,
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beta_schedule="scaled_linear",
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beta_start=0.00085,
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num_train_timesteps=1000,
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steps_offset=1,
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clip_sample=False,
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)
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diffusers_scheduler.set_timesteps(30)
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solver = DDIM(num_inference_steps=30)
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assert equal(solver.timesteps, diffusers_scheduler.timesteps)
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sample = randn(1, 4, 32, 32)
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predicted_noise = randn(1, 4, 32, 32)
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for step, timestep in enumerate(diffusers_scheduler.timesteps):
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diffusers_output = cast(Tensor, diffusers_scheduler.step(predicted_noise, timestep, sample).prev_sample) # type: ignore
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refiners_output = solver(x=sample, predicted_noise=predicted_noise, step=step)
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assert allclose(diffusers_output, refiners_output, rtol=0.01), f"outputs differ at step {step}"
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@pytest.mark.parametrize("model_prediction_type", [ModelPredictionType.NOISE, ModelPredictionType.SAMPLE])
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def test_euler_diffusers(model_prediction_type: ModelPredictionType):
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from diffusers import EulerDiscreteScheduler # type: ignore
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manual_seed(0)
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diffusers_prediction_type = "epsilon" if model_prediction_type == ModelPredictionType.NOISE else "sample"
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diffusers_scheduler = EulerDiscreteScheduler(
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beta_end=0.012,
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beta_schedule="scaled_linear",
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beta_start=0.00085,
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num_train_timesteps=1000,
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steps_offset=1,
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timestep_spacing="linspace",
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use_karras_sigmas=False,
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prediction_type=diffusers_prediction_type,
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)
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diffusers_scheduler.set_timesteps(30)
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solver = Euler(num_inference_steps=30, params=SolverParams(model_prediction_type=model_prediction_type))
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assert equal(solver.timesteps, diffusers_scheduler.timesteps)
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sample = randn(1, 4, 32, 32)
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predicted_noise = randn(1, 4, 32, 32)
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ref_init_noise_sigma = diffusers_scheduler.init_noise_sigma # type: ignore
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assert isinstance(ref_init_noise_sigma, Tensor)
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assert isclose(ref_init_noise_sigma, solver.init_noise_sigma), "init_noise_sigma differ"
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for step, timestep in enumerate(diffusers_scheduler.timesteps):
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diffusers_output = cast(Tensor, diffusers_scheduler.step(predicted_noise, timestep, sample).prev_sample) # type: ignore
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refiners_output = solver(x=sample, predicted_noise=predicted_noise, step=step)
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assert allclose(diffusers_output, refiners_output, rtol=0.02), f"outputs differ at step {step}"
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def test_franken_diffusers():
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from diffusers import EulerDiscreteScheduler # type: ignore
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manual_seed(0)
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params = {
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"beta_end": 0.012,
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"beta_schedule": "scaled_linear",
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"beta_start": 0.00085,
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"num_train_timesteps": 1000,
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"steps_offset": 1,
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"timestep_spacing": "linspace",
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"use_karras_sigmas": False,
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}
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diffusers_scheduler = EulerDiscreteScheduler(**params) # type: ignore
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diffusers_scheduler.set_timesteps(30)
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diffusers_scheduler_2 = EulerDiscreteScheduler(**params) # type: ignore
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solver = FrankenSolver(lambda: diffusers_scheduler_2, num_inference_steps=30)
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assert equal(solver.timesteps, diffusers_scheduler.timesteps)
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sample = randn(1, 4, 32, 32)
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predicted_noise = randn(1, 4, 32, 32)
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ref_init_noise_sigma = diffusers_scheduler.init_noise_sigma # type: ignore
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assert isinstance(ref_init_noise_sigma, Tensor)
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init_noise_sigma = solver.scale_model_input(tensor(1), step=-1)
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assert equal(ref_init_noise_sigma, init_noise_sigma), "init_noise_sigma differ"
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for step, timestep in enumerate(diffusers_scheduler.timesteps):
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diffusers_output = cast(Tensor, diffusers_scheduler.step(predicted_noise, timestep, sample).prev_sample) # type: ignore
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refiners_output = solver(x=sample, predicted_noise=predicted_noise, step=step)
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assert equal(diffusers_output, refiners_output), f"outputs differ at step {step}"
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def test_lcm_diffusers():
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from diffusers import LCMScheduler # type: ignore
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manual_seed(0)
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# LCMScheduler is stochastic, make sure we use identical generators
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diffusers_generator = Generator().manual_seed(42)
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refiners_generator = Generator().manual_seed(42)
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diffusers_scheduler = LCMScheduler()
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diffusers_scheduler.set_timesteps(4)
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solver = LCMSolver(num_inference_steps=4)
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assert equal(solver.timesteps, diffusers_scheduler.timesteps)
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sample = randn(1, 4, 32, 32)
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predicted_noise = randn(1, 4, 32, 32)
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for step, timestep in enumerate(diffusers_scheduler.timesteps):
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alpha_prod_t = diffusers_scheduler.alphas_cumprod[timestep]
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diffusers_noise_ratio = (1 - alpha_prod_t).sqrt()
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diffusers_scale_factor = alpha_prod_t.sqrt()
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refiners_scale_factor = solver.cumulative_scale_factors[timestep]
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refiners_noise_ratio = solver.noise_std[timestep]
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assert refiners_scale_factor == diffusers_scale_factor
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assert refiners_noise_ratio == diffusers_noise_ratio
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d_out = diffusers_scheduler.step(predicted_noise, timestep, sample, generator=diffusers_generator) # type: ignore
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diffusers_output = cast(Tensor, d_out.prev_sample) # type: ignore
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refiners_output = solver(
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x=sample,
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predicted_noise=predicted_noise,
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step=step,
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generator=refiners_generator,
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)
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assert allclose(refiners_output, diffusers_output, rtol=0.01), f"outputs differ at step {step}"
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def test_solver_remove_noise():
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from diffusers import DDIMScheduler # type: ignore
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manual_seed(0)
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diffusers_scheduler = DDIMScheduler(
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beta_end=0.012,
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beta_schedule="scaled_linear",
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beta_start=0.00085,
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num_train_timesteps=1000,
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steps_offset=1,
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clip_sample=False,
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)
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diffusers_scheduler.set_timesteps(30)
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solver = DDIM(num_inference_steps=30)
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sample = randn(1, 4, 32, 32)
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noise = randn(1, 4, 32, 32)
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for step, timestep in enumerate(diffusers_scheduler.timesteps):
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diffusers_output = cast(Tensor, diffusers_scheduler.step(noise, timestep, sample).pred_original_sample) # type: ignore
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refiners_output = solver.remove_noise(x=sample, noise=noise, step=step)
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assert allclose(diffusers_output, refiners_output, rtol=0.01), f"outputs differ at step {step}"
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def test_solver_device(test_device: Device):
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if test_device.type == "cpu":
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warn("not running on CPU, skipping")
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pytest.skip()
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scheduler = DDIM(num_inference_steps=30, device=test_device)
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x = randn(1, 4, 32, 32, device=test_device)
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noise = randn(1, 4, 32, 32, device=test_device)
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noised = scheduler.add_noise(x, noise, scheduler.first_inference_step)
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assert noised.device == test_device
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def test_solver_add_noise(test_device: Device):
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scheduler = DDIM(num_inference_steps=30, device=test_device)
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latent = randn(1, 4, 32, 32, device=test_device)
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noise = randn(1, 4, 32, 32, device=test_device)
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noised = scheduler.add_noise(
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x=latent,
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noise=noise,
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step=0,
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)
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noised_double = scheduler.add_noise(
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x=latent.repeat(2, 1, 1, 1),
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noise=noise.repeat(2, 1, 1, 1),
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step=[0, 0],
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)
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assert allclose(noised, noised_double[0])
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assert allclose(noised, noised_double[1])
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@pytest.mark.parametrize("noise_schedule", [NoiseSchedule.UNIFORM, NoiseSchedule.QUADRATIC, NoiseSchedule.KARRAS])
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def test_solver_noise_schedules(noise_schedule: NoiseSchedule, test_device: Device):
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scheduler = DDIM(
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num_inference_steps=30,
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params=SolverParams(noise_schedule=noise_schedule),
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device=test_device,
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)
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assert len(scheduler.scale_factors) == 1000
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assert scheduler.scale_factors[0] == 1 - scheduler.params.initial_diffusion_rate
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assert scheduler.scale_factors[-1] == 1 - scheduler.params.final_diffusion_rate
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def test_solver_timestep_spacing():
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# Tests we get the results from [[arXiv:2305.08891] Common Diffusion Noise Schedules and Sample Steps are Flawed](https://arxiv.org/abs/2305.08891) table 2.
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linspace_int = Solver.generate_timesteps(
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spacing=TimestepSpacing.LINSPACE_ROUNDED,
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num_inference_steps=10,
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num_train_timesteps=1000,
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offset=1,
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)
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assert equal(linspace_int, tensor([1000, 889, 778, 667, 556, 445, 334, 223, 112, 1]))
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leading = Solver.generate_timesteps(
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spacing=TimestepSpacing.LEADING,
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num_inference_steps=10,
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num_train_timesteps=1000,
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offset=1,
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)
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assert equal(leading, tensor([901, 801, 701, 601, 501, 401, 301, 201, 101, 1]))
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trailing = Solver.generate_timesteps(
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spacing=TimestepSpacing.TRAILING,
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num_inference_steps=10,
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num_train_timesteps=1000,
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offset=1,
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)
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assert equal(trailing, tensor([1000, 900, 800, 700, 600, 500, 400, 300, 200, 100]))
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