refiners/tests/foundationals/latent_diffusion/test_models.py

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import torch
from PIL import Image
from refiners.fluxion.utils import manual_seed, no_grad
from refiners.foundationals.latent_diffusion import StableDiffusion_1, StableDiffusion_1_Inpainting, StableDiffusion_XL
from refiners.foundationals.latent_diffusion.model import LatentDiffusionModel
@no_grad()
def test_sample_noise_zero_offset(test_device: torch.device, test_dtype_fp32_bf16_fp16: torch.dtype) -> None:
manual_seed(2)
latents_0 = LatentDiffusionModel.sample_noise(
size=(1, 4, 64, 64),
device=test_device,
dtype=test_dtype_fp32_bf16_fp16,
)
manual_seed(2)
latents_1 = LatentDiffusionModel.sample_noise(
size=(1, 4, 64, 64),
offset_noise=0.0, # should be no-op
device=test_device,
dtype=test_dtype_fp32_bf16_fp16,
)
assert torch.allclose(latents_0, latents_1, atol=1e-6, rtol=0)
@no_grad()
def test_sd15_one_step(test_device: torch.device, test_dtype_fp32_bf16_fp16: torch.dtype) -> None:
sd = StableDiffusion_1(device=test_device, dtype=test_dtype_fp32_bf16_fp16)
# prepare inputs
latent_noise = torch.randn(1, 4, 64, 64, device=test_device, dtype=test_dtype_fp32_bf16_fp16)
text_embedding = sd.compute_clip_text_embedding("")
# run the pipeline of models, for a single step
output = sd(latent_noise, step=0, clip_text_embedding=text_embedding)
assert output.shape == (1, 4, 64, 64)
@no_grad()
def test_sd15_inpainting_one_step(test_device: torch.device, test_dtype_fp32_bf16_fp16: torch.dtype) -> None:
sd = StableDiffusion_1_Inpainting(device=test_device, dtype=test_dtype_fp32_bf16_fp16)
# prepare inputs
latent_noise = torch.randn(1, 4, 64, 64, device=test_device, dtype=test_dtype_fp32_bf16_fp16)
target_image = Image.new("RGB", (512, 512))
mask = Image.new("L", (512, 512))
sd.set_inpainting_conditions(target_image=target_image, mask=mask)
text_embedding = sd.compute_clip_text_embedding("")
# run the pipeline of models, for a single step
output = sd(latent_noise, step=0, clip_text_embedding=text_embedding)
assert output.shape == (1, 4, 64, 64)
@no_grad()
def test_sdxl_one_step(test_device: torch.device, test_dtype_fp32_bf16_fp16: torch.dtype) -> None:
sd = StableDiffusion_XL(device=test_device, dtype=test_dtype_fp32_bf16_fp16)
# prepare inputs
latent_noise = torch.randn(1, 4, 128, 128, device=test_device, dtype=test_dtype_fp32_bf16_fp16)
text_embedding, pooled_text_embedding = sd.compute_clip_text_embedding("")
time_ids = sd.default_time_ids
# run the pipeline of models, for a single step
output = sd(
latent_noise,
step=0,
clip_text_embedding=text_embedding,
pooled_text_embedding=pooled_text_embedding,
time_ids=time_ids,
)
assert output.shape == (1, 4, 128, 128)