testlcm / backend /lcm_text_to_image.py
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from typing import Any
from diffusers import LCMScheduler
import torch
from backend.models.lcmdiffusion_setting import LCMDiffusionSetting
import numpy as np
from constants import DEVICE
from backend.models.lcmdiffusion_setting import LCMLora
# from backend.utils_sd import register_normal_pipeline, register_faster_forward, register_parallel_pipeline, seed_everything # 1.import package
# print("我加载了")
from backend.device import is_openvino_device
from backend.openvino.pipelines import (
get_ov_text_to_image_pipeline,
ov_load_taesd,
get_ov_image_to_image_pipeline,
)
from backend.pipelines.lcm import (
get_lcm_model_pipeline,
load_taesd,
get_image_to_image_pipeline,
)
from backend.pipelines.lcm_lora import get_lcm_lora_pipeline
from backend.models.lcmdiffusion_setting import DiffusionTask
from image_ops import resize_pil_image
from math import ceil
class LCMTextToImage:
def __init__(
self,
device: str = "cpu",
) -> None:
self.pipeline = None
self.use_openvino = False
self.device = ""
self.previous_model_id = None
self.previous_use_tae_sd = False
self.previous_use_lcm_lora = False
self.previous_ov_model_id = ""
self.previous_safety_checker = False
self.previous_use_openvino = False
self.img_to_img_pipeline = None
self.is_openvino_init = False
self.task_type = DiffusionTask.text_to_image
self.torch_data_type = (
torch.float32 if is_openvino_device() or DEVICE == "mps" else torch.float16
)
print(f"Torch datatype : {self.torch_data_type}")
def _pipeline_to_device(self):
print(f"Pipeline device : {DEVICE}")
print(f"Pipeline dtype : {self.torch_data_type}")
self.pipeline.to(
torch_device=DEVICE,
torch_dtype=self.torch_data_type,
)
def _add_freeu(self):
pipeline_class = self.pipeline.__class__.__name__
if isinstance(self.pipeline.scheduler, LCMScheduler):
if pipeline_class == "StableDiffusionPipeline":
print("Add FreeU - SD")
self.pipeline.enable_freeu(
s1=0.9,
s2=0.2,
b1=1.2,
b2=1.4,
)
elif pipeline_class == "StableDiffusionXLPipeline":
print("Add FreeU - SDXL")
self.pipeline.enable_freeu(
s1=0.6,
s2=0.4,
b1=1.1,
b2=1.2,
)
def _update_lcm_scheduler_params(self):
if isinstance(self.pipeline.scheduler, LCMScheduler):
self.pipeline.scheduler = LCMScheduler.from_config(
self.pipeline.scheduler.config,
beta_start=0.001,
beta_end=0.01,
)
def make_even(self,num):
if num % 2 == 0:
return num
else:
print("取整了")
return num+1
def init(
self,
device: str = "cpu",
lcm_diffusion_setting: LCMDiffusionSetting = LCMDiffusionSetting(),
) -> None:
self.device = device
self.use_openvino = lcm_diffusion_setting.use_openvino
model_id = lcm_diffusion_setting.lcm_model_id
use_local_model = lcm_diffusion_setting.use_offline_model
use_tiny_auto_encoder = lcm_diffusion_setting.use_tiny_auto_encoder
use_lora = lcm_diffusion_setting.use_lcm_lora
lcm_lora: LCMLora = lcm_diffusion_setting.lcm_lora
ov_model_id = lcm_diffusion_setting.openvino_lcm_model_id
if lcm_diffusion_setting.diffusion_task == DiffusionTask.image_to_image.value:
w, h = lcm_diffusion_setting.init_image.size
newW = lcm_diffusion_setting.image_width
newH = self.make_even(int(h * newW / w))
# lcm_diffusion_setting.image_height=newH
img = lcm_diffusion_setting.init_image.resize((newW, newH))
print("新图",newH,newW, lcm_diffusion_setting.image_height)
lcm_diffusion_setting.init_image = resize_pil_image(
img,
lcm_diffusion_setting.image_width,
lcm_diffusion_setting.image_height,
)
print("图片大小",lcm_diffusion_setting.init_image)
if (
self.pipeline is None
or self.previous_model_id != model_id
or self.previous_use_tae_sd != use_tiny_auto_encoder
or self.previous_lcm_lora_base_id != lcm_lora.base_model_id
or self.previous_lcm_lora_id != lcm_lora.lcm_lora_id
or self.previous_use_lcm_lora != use_lora
or self.previous_ov_model_id != ov_model_id
or self.previous_safety_checker != lcm_diffusion_setting.use_safety_checker
or self.previous_use_openvino != lcm_diffusion_setting.use_openvino
or self.previous_task_type != lcm_diffusion_setting.diffusion_task
):
if self.use_openvino and is_openvino_device():
if self.pipeline:
del self.pipeline
self.pipeline = None
self.is_openvino_init = True
if (
lcm_diffusion_setting.diffusion_task
== DiffusionTask.text_to_image.value
):
print(f"***** Init Text to image (OpenVINO) - {ov_model_id} *****")
self.pipeline = get_ov_text_to_image_pipeline(
ov_model_id,
use_local_model,
)
elif (
lcm_diffusion_setting.diffusion_task
== DiffusionTask.image_to_image.value
):
print(f"***** Image to image (OpenVINO) - {ov_model_id} *****")
self.pipeline = get_ov_image_to_image_pipeline(
ov_model_id,
use_local_model,
)
else:
if self.pipeline:
del self.pipeline
self.pipeline = None
if self.img_to_img_pipeline:
del self.img_to_img_pipeline
self.img_to_img_pipeline = None
if use_lora:
print(
f"***** Init LCM-LoRA pipeline - {lcm_lora.base_model_id} *****"
)
self.pipeline = get_lcm_lora_pipeline(
lcm_lora.base_model_id,
lcm_lora.lcm_lora_id,
use_local_model,
torch_data_type=self.torch_data_type,
)
else:
print(f"***** Init LCM Model pipeline - {model_id} *****")
self.pipeline = get_lcm_model_pipeline(
model_id,
use_local_model,
)
if (
lcm_diffusion_setting.diffusion_task
== DiffusionTask.image_to_image.value
):
self.img_to_img_pipeline = get_image_to_image_pipeline(
self.pipeline
)
self._pipeline_to_device()
if use_tiny_auto_encoder:
if self.use_openvino and is_openvino_device():
print("Using Tiny Auto Encoder (OpenVINO)")
ov_load_taesd(
self.pipeline,
use_local_model,
)
else:
print("Using Tiny Auto Encoder")
if (
lcm_diffusion_setting.diffusion_task
== DiffusionTask.text_to_image.value
):
load_taesd(
self.pipeline,
use_local_model,
self.torch_data_type,
)
elif (
lcm_diffusion_setting.diffusion_task
== DiffusionTask.image_to_image.value
):
load_taesd(
self.img_to_img_pipeline,
use_local_model,
self.torch_data_type,
)
if (
lcm_diffusion_setting.diffusion_task
== DiffusionTask.image_to_image.value
and lcm_diffusion_setting.use_openvino
):
self.pipeline.scheduler = LCMScheduler.from_config(
self.pipeline.scheduler.config,
)
else:
self._update_lcm_scheduler_params()
if use_lora:
self._add_freeu()
self.previous_model_id = model_id
self.previous_ov_model_id = ov_model_id
self.previous_use_tae_sd = use_tiny_auto_encoder
self.previous_lcm_lora_base_id = lcm_lora.base_model_id
self.previous_lcm_lora_id = lcm_lora.lcm_lora_id
self.previous_use_lcm_lora = use_lora
self.previous_safety_checker = lcm_diffusion_setting.use_safety_checker
self.previous_use_openvino = lcm_diffusion_setting.use_openvino
self.previous_task_type = lcm_diffusion_setting.diffusion_task
if (
lcm_diffusion_setting.diffusion_task
== DiffusionTask.text_to_image.value
):
print(f"Pipeline : {self.pipeline}")
elif (
lcm_diffusion_setting.diffusion_task
== DiffusionTask.image_to_image.value
):
if self.use_openvino and is_openvino_device():
print(f"Pipeline : {self.pipeline}")
else:
print(f"Pipeline : {self.img_to_img_pipeline}")
def generate(
self,
lcm_diffusion_setting: LCMDiffusionSetting,
reshape: bool = False,
) -> Any:
guidance_scale = lcm_diffusion_setting.guidance_scale
img_to_img_inference_steps = lcm_diffusion_setting.inference_steps
check_step_value = int(
lcm_diffusion_setting.inference_steps * lcm_diffusion_setting.strength
)
if (
lcm_diffusion_setting.diffusion_task == DiffusionTask.image_to_image.value
and check_step_value < 1
):
img_to_img_inference_steps = ceil(1 / lcm_diffusion_setting.strength)
print(
f"Strength: {lcm_diffusion_setting.strength},{img_to_img_inference_steps}"
)
if lcm_diffusion_setting.use_seed:
cur_seed = lcm_diffusion_setting.seed
if self.use_openvino:
np.random.seed(cur_seed)
else:
torch.manual_seed(cur_seed)
is_openvino_pipe = lcm_diffusion_setting.use_openvino and is_openvino_device()
if is_openvino_pipe:
print("Using OpenVINO")
if reshape and not self.is_openvino_init:
print("Reshape and compile")
self.pipeline.reshape(
batch_size=-1,
height=lcm_diffusion_setting.image_height,
width=lcm_diffusion_setting.image_width,
num_images_per_prompt=lcm_diffusion_setting.number_of_images,
)
self.pipeline.compile()
if self.is_openvino_init:
self.is_openvino_init = False
if not lcm_diffusion_setting.use_safety_checker:
self.pipeline.safety_checker = None
if (
lcm_diffusion_setting.diffusion_task
== DiffusionTask.image_to_image.value
and not is_openvino_pipe
):
self.img_to_img_pipeline.safety_checker = None
if (
not lcm_diffusion_setting.use_lcm_lora
and not lcm_diffusion_setting.use_openvino
and lcm_diffusion_setting.guidance_scale != 1.0
):
print("Not using LCM-LoRA so setting guidance_scale 1.0")
guidance_scale = 1.0
if lcm_diffusion_setting.use_openvino:
if (
lcm_diffusion_setting.diffusion_task
== DiffusionTask.text_to_image.value
):
result_images = self.pipeline(
prompt=lcm_diffusion_setting.prompt,
negative_prompt=lcm_diffusion_setting.negative_prompt,
num_inference_steps=lcm_diffusion_setting.inference_steps,
guidance_scale=guidance_scale,
width=lcm_diffusion_setting.image_width,
height=lcm_diffusion_setting.image_height,
num_images_per_prompt=lcm_diffusion_setting.number_of_images,
).images
elif (
lcm_diffusion_setting.diffusion_task
== DiffusionTask.image_to_image.value
):
# register_parallel_pipeline(self.pipeline) # 2. enable parallel. If memory is limited, replace it with `register_normal_pipeline(pipe)`
# register_faster_forward(self.pipeline.unet) # 3. encoder propagation
result_images = self.pipeline(
image=lcm_diffusion_setting.init_image,
strength=lcm_diffusion_setting.strength,
prompt=lcm_diffusion_setting.prompt,
negative_prompt=lcm_diffusion_setting.negative_prompt,
num_inference_steps=img_to_img_inference_steps * 3,
guidance_scale=guidance_scale,
num_images_per_prompt=lcm_diffusion_setting.number_of_images,
).images
else:
if (
lcm_diffusion_setting.diffusion_task
== DiffusionTask.text_to_image.value
):
result_images = self.pipeline(
prompt=lcm_diffusion_setting.prompt,
negative_prompt=lcm_diffusion_setting.negative_prompt,
num_inference_steps=lcm_diffusion_setting.inference_steps,
guidance_scale=guidance_scale,
width=lcm_diffusion_setting.image_width,
height=lcm_diffusion_setting.image_height,
num_images_per_prompt=lcm_diffusion_setting.number_of_images,
).images
elif (
lcm_diffusion_setting.diffusion_task
== DiffusionTask.image_to_image.value
):
result_images = self.img_to_img_pipeline(
image=lcm_diffusion_setting.init_image,
strength=lcm_diffusion_setting.strength,
prompt=lcm_diffusion_setting.prompt,
negative_prompt=lcm_diffusion_setting.negative_prompt,
num_inference_steps=img_to_img_inference_steps,
guidance_scale=guidance_scale,
width=lcm_diffusion_setting.image_width,
height=lcm_diffusion_setting.image_height,
num_images_per_prompt=lcm_diffusion_setting.number_of_images,
).images
return result_images