IOPaint/iopaint/model/controlnet.py

import PIL.Image
import cv2
import numpy as np
import torch
from diffusers import ControlNetModel, DiffusionPipeline
from loguru import logger

from iopaint.model.base import DiffusionInpaintModel
from iopaint.model.helper.controlnet_preprocess import (
    make_canny_control_image,
    make_openpose_control_image,
    make_depth_control_image,
    make_inpaint_control_image,
)
from iopaint.model.helper.cpu_text_encoder import CPUTextEncoderWrapper
from iopaint.model.utils import get_scheduler, handle_from_pretrained_exceptions
from iopaint.schema import InpaintRequest, ModelType


class ControlNet(DiffusionInpaintModel):
    name = "controlnet"
    pad_mod = 8
    min_size = 512

    @property
    def lcm_lora_id(self):
        if self.model_info.model_type in [
            ModelType.DIFFUSERS_SD,
            ModelType.DIFFUSERS_SD_INPAINT,
        ]:
            return "latent-consistency/lcm-lora-sdv1-5"
        if self.model_info.model_type in [
            ModelType.DIFFUSERS_SDXL,
            ModelType.DIFFUSERS_SDXL_INPAINT,
        ]:
            return "latent-consistency/lcm-lora-sdxl"
        raise NotImplementedError(f"Unsupported controlnet lcm model {self.model_info}")

    def init_model(self, device: torch.device, **kwargs):
        fp16 = not kwargs.get("no_half", False)
        model_info = kwargs["model_info"]
        controlnet_method = kwargs["controlnet_method"]

        self.model_info = model_info
        self.controlnet_method = controlnet_method

        model_kwargs = {}
        if kwargs["disable_nsfw"] or kwargs.get("cpu_offload", False):
            logger.info("Disable Stable Diffusion Model NSFW checker")
            model_kwargs.update(
                dict(
                    safety_checker=None,
                    feature_extractor=None,
                    requires_safety_checker=False,
                )
            )

        use_gpu = device == torch.device("cuda") and torch.cuda.is_available()
        torch_dtype = torch.float16 if use_gpu and fp16 else torch.float32
        self.torch_dtype = torch_dtype

        if model_info.model_type in [
            ModelType.DIFFUSERS_SD,
            ModelType.DIFFUSERS_SD_INPAINT,
        ]:
            from diffusers import (
                StableDiffusionControlNetInpaintPipeline as PipeClass,
            )
        elif model_info.model_type in [
            ModelType.DIFFUSERS_SDXL,
            ModelType.DIFFUSERS_SDXL_INPAINT,
        ]:
            from diffusers import (
                StableDiffusionXLControlNetInpaintPipeline as PipeClass,
            )

        controlnet = ControlNetModel.from_pretrained(
            pretrained_model_name_or_path=controlnet_method,
            resume_download=True,
        )
        if model_info.is_single_file_diffusers:
            if self.model_info.model_type == ModelType.DIFFUSERS_SD:
                model_kwargs["num_in_channels"] = 4
            else:
                model_kwargs["num_in_channels"] = 9

            self.model = PipeClass.from_single_file(
                model_info.path, controlnet=controlnet, **model_kwargs
            ).to(torch_dtype)
        else:
            self.model = handle_from_pretrained_exceptions(
                PipeClass.from_pretrained,
                pretrained_model_name_or_path=model_info.path,
                controlnet=controlnet,
                variant="fp16",
                dtype=torch_dtype,
                **model_kwargs,
            )

        if kwargs.get("cpu_offload", False) and use_gpu:
            logger.info("Enable sequential cpu offload")
            self.model.enable_sequential_cpu_offload(gpu_id=0)
        else:
            self.model = self.model.to(device)
            if kwargs["sd_cpu_textencoder"]:
                logger.info("Run Stable Diffusion TextEncoder on CPU")
                self.model.text_encoder = CPUTextEncoderWrapper(
                    self.model.text_encoder, torch_dtype
                )

        self.callback = kwargs.pop("callback", None)

    def switch_controlnet_method(self, new_method: str):
        self.controlnet_method = new_method
        controlnet = ControlNetModel.from_pretrained(
            new_method, torch_dtype=self.torch_dtype, resume_download=True
        ).to(self.model.device)
        self.model.controlnet = controlnet

    def _get_control_image(self, image, mask):
        if "canny" in self.controlnet_method:
            control_image = make_canny_control_image(image)
        elif "openpose" in self.controlnet_method:
            control_image = make_openpose_control_image(image)
        elif "depth" in self.controlnet_method:
            control_image = make_depth_control_image(image)
        elif "inpaint" in self.controlnet_method:
            control_image = make_inpaint_control_image(image, mask)
        else:
            raise NotImplementedError(f"{self.controlnet_method} not implemented")
        return control_image

    def forward(self, image, mask, config: InpaintRequest):
        """Input image and output image have same size
        image: [H, W, C] RGB
        mask: [H, W, 1] 255 means area to repaint
        return: BGR IMAGE
        """
        scheduler_config = self.model.scheduler.config
        scheduler = get_scheduler(config.sd_sampler, scheduler_config)
        self.model.scheduler = scheduler

        img_h, img_w = image.shape[:2]
        control_image = self._get_control_image(image, mask)
        mask_image = PIL.Image.fromarray(mask[:, :, -1], mode="L")
        image = PIL.Image.fromarray(image)

        output = self.model(
            image=image,
            mask_image=mask_image,
            control_image=control_image,
            prompt=config.prompt,
            negative_prompt=config.negative_prompt,
            num_inference_steps=config.sd_steps,
            guidance_scale=config.sd_guidance_scale,
            output_type="np",
            callback_on_step_end=self.callback,
            height=img_h,
            width=img_w,
            generator=torch.manual_seed(config.sd_seed),
            controlnet_conditioning_scale=config.controlnet_conditioning_scale,
        ).images[0]

        output = (output * 255).round().astype("uint8")
        output = cv2.cvtColor(output, cv2.COLOR_RGB2BGR)
        return output
add controlnet inpainting 2023-03-19 15:40:23 +01:00			`import PIL.Image`
			`import cv2`
			`import numpy as np`
			`import torch`
update 2023-12-22 07:00:30 +01:00			`from diffusers import ControlNetModel, DiffusionPipeline`
add controlnet inpainting 2023-03-19 15:40:23 +01:00			`from loguru import logger`

rename to iopaint 2024-01-05 08:19:23 +01:00			`from iopaint.model.base import DiffusionInpaintModel`
			`from iopaint.model.helper.controlnet_preprocess import (`
wip 2023-12-01 03:15:35 +01:00			`make_canny_control_image,`
			`make_openpose_control_image,`
			`make_depth_control_image,`
			`make_inpaint_control_image,`
			`)`
rename to iopaint 2024-01-05 08:19:23 +01:00			`from iopaint.model.helper.cpu_text_encoder import CPUTextEncoderWrapper`
			`from iopaint.model.utils import get_scheduler, handle_from_pretrained_exceptions`
			`from iopaint.schema import InpaintRequest, ModelType`
wip 2023-12-01 03:15:35 +01:00
controlnet support load local ckpt 2023-04-01 03:23:37 +02:00
add controlnet inpainting 2023-03-19 15:40:23 +01:00			`class ControlNet(DiffusionInpaintModel):`
			`name = "controlnet"`
			`pad_mod = 8`
			`min_size = 512`

update 2023-12-19 06:16:30 +01:00			`@property`
			`def lcm_lora_id(self):`
			`if self.model_info.model_type in [`
			`ModelType.DIFFUSERS_SD,`
			`ModelType.DIFFUSERS_SD_INPAINT,`
			`]:`
			`return "latent-consistency/lcm-lora-sdv1-5"`
			`if self.model_info.model_type in [`
			`ModelType.DIFFUSERS_SDXL,`
			`ModelType.DIFFUSERS_SDXL_INPAINT,`
			`]:`
			`return "latent-consistency/lcm-lora-sdxl"`
			`raise NotImplementedError(f"Unsupported controlnet lcm model {self.model_info}")`

add controlnet inpainting 2023-03-19 15:40:23 +01:00			`def init_model(self, device: torch.device, **kwargs):`
			`fp16 = not kwargs.get("no_half", False)`
add diffusion progress 2024-01-02 10:13:11 +01:00			`model_info = kwargs["model_info"]`
lots update 2023-12-27 15:00:07 +01:00			`controlnet_method = kwargs["controlnet_method"]`
wip 2023-12-01 03:15:35 +01:00
			`self.model_info = model_info`
lots update 2023-12-27 15:00:07 +01:00			`self.controlnet_method = controlnet_method`
add controlnet inpainting 2023-03-19 15:40:23 +01:00
wip 2023-12-01 03:15:35 +01:00			`model_kwargs = {}`
add controlnet inpainting 2023-03-19 15:40:23 +01:00			`if kwargs["disable_nsfw"] or kwargs.get("cpu_offload", False):`
			`logger.info("Disable Stable Diffusion Model NSFW checker")`
			`model_kwargs.update(`
			`dict(`
			`safety_checker=None,`
			`feature_extractor=None,`
			`requires_safety_checker=False,`
			`)`
			`)`

			`use_gpu = device == torch.device("cuda") and torch.cuda.is_available()`
			`torch_dtype = torch.float16 if use_gpu and fp16 else torch.float32`
update 2023-12-22 07:00:30 +01:00			`self.torch_dtype = torch_dtype`
add controlnet inpainting 2023-03-19 15:40:23 +01:00
wip 2023-12-01 03:15:35 +01:00			`if model_info.model_type in [`
			`ModelType.DIFFUSERS_SD,`
			`ModelType.DIFFUSERS_SD_INPAINT,`
			`]:`
			`from diffusers import (`
			`StableDiffusionControlNetInpaintPipeline as PipeClass,`
			`)`
			`elif model_info.model_type in [`
			`ModelType.DIFFUSERS_SDXL,`
			`ModelType.DIFFUSERS_SDXL_INPAINT,`
			`]:`
			`from diffusers import (`
			`StableDiffusionXLControlNetInpaintPipeline as PipeClass,`
			`)`
add controlnet 1.1 2023-05-02 08:09:40 +02:00
add controlnet inpainting 2023-03-19 15:40:23 +01:00			`controlnet = ControlNetModel.from_pretrained(`
lots update 2023-12-27 15:00:07 +01:00			`pretrained_model_name_or_path=controlnet_method,`
			`resume_download=True,`
add controlnet inpainting 2023-03-19 15:40:23 +01:00			`)`
wip 2023-12-01 03:15:35 +01:00			`if model_info.is_single_file_diffusers:`
update 2023-12-15 05:40:29 +01:00			`if self.model_info.model_type == ModelType.DIFFUSERS_SD:`
			`model_kwargs["num_in_channels"] = 4`
			`else:`
			`model_kwargs["num_in_channels"] = 9`

wip 2023-12-01 03:15:35 +01:00			`self.model = PipeClass.from_single_file(`
update 2023-12-19 06:16:30 +01:00			`model_info.path, controlnet=controlnet, **model_kwargs`
wip 2023-12-01 03:15:35 +01:00			`).to(torch_dtype)`
controlnet support load local ckpt 2023-04-01 03:23:37 +02:00			`else:`
lots update 2023-12-27 15:00:07 +01:00			`self.model = handle_from_pretrained_exceptions(`
			`PipeClass.from_pretrained,`
			`pretrained_model_name_or_path=model_info.path,`
controlnet support load local ckpt 2023-04-01 03:23:37 +02:00			`controlnet=controlnet,`
lots update 2023-12-27 15:00:07 +01:00			`variant="fp16",`
			`dtype=torch_dtype,`
controlnet support load local ckpt 2023-04-01 03:23:37 +02:00			`**model_kwargs,`
			`)`
add controlnet inpainting 2023-03-19 15:40:23 +01:00
			`if kwargs.get("cpu_offload", False) and use_gpu:`
			`logger.info("Enable sequential cpu offload")`
			`self.model.enable_sequential_cpu_offload(gpu_id=0)`
			`else:`
			`self.model = self.model.to(device)`
			`if kwargs["sd_cpu_textencoder"]:`
			`logger.info("Run Stable Diffusion TextEncoder on CPU")`
			`self.model.text_encoder = CPUTextEncoderWrapper(`
			`self.model.text_encoder, torch_dtype`
			`)`

			`self.callback = kwargs.pop("callback", None)`

update 2023-12-22 07:00:30 +01:00			`def switch_controlnet_method(self, new_method: str):`
lots update 2023-12-27 15:00:07 +01:00			`self.controlnet_method = new_method`
update 2023-12-22 07:00:30 +01:00			`controlnet = ControlNetModel.from_pretrained(`
			`new_method, torch_dtype=self.torch_dtype, resume_download=True`
			`).to(self.model.device)`
			`self.model.controlnet = controlnet`

wip 2023-12-01 03:15:35 +01:00			`def _get_control_image(self, image, mask):`
lots update 2023-12-27 15:00:07 +01:00			`if "canny" in self.controlnet_method:`
wip 2023-12-01 03:15:35 +01:00			`control_image = make_canny_control_image(image)`
lots update 2023-12-27 15:00:07 +01:00			`elif "openpose" in self.controlnet_method:`
wip 2023-12-01 03:15:35 +01:00			`control_image = make_openpose_control_image(image)`
lots update 2023-12-27 15:00:07 +01:00			`elif "depth" in self.controlnet_method:`
wip 2023-12-01 03:15:35 +01:00			`control_image = make_depth_control_image(image)`
lots update 2023-12-27 15:00:07 +01:00			`elif "inpaint" in self.controlnet_method:`
wip 2023-12-01 03:15:35 +01:00			`control_image = make_inpaint_control_image(image, mask)`
			`else:`
lots update 2023-12-27 15:00:07 +01:00			`raise NotImplementedError(f"{self.controlnet_method} not implemented")`
wip 2023-12-01 03:15:35 +01:00			`return control_image`

wip 2023-12-30 16:36:44 +01:00			`def forward(self, image, mask, config: InpaintRequest):`
add controlnet inpainting 2023-03-19 15:40:23 +01:00			`"""Input image and output image have same size`
			`image: [H, W, C] RGB`
			`mask: [H, W, 1] 255 means area to repaint`
			`return: BGR IMAGE`
			`"""`
			`scheduler_config = self.model.scheduler.config`
			`scheduler = get_scheduler(config.sd_sampler, scheduler_config)`
			`self.model.scheduler = scheduler`

			`img_h, img_w = image.shape[:2]`
wip 2023-12-01 03:15:35 +01:00			`control_image = self._get_control_image(image, mask)`
			`mask_image = PIL.Image.fromarray(mask[:, :, -1], mode="L")`
			`image = PIL.Image.fromarray(image)`

			`output = self.model(`
			`image=image,`
			`mask_image=mask_image,`
			`control_image=control_image,`
			`prompt=config.prompt,`
			`negative_prompt=config.negative_prompt,`
			`num_inference_steps=config.sd_steps,`
			`guidance_scale=config.sd_guidance_scale,`
			`output_type="np",`
add diffusion progress 2024-01-02 10:13:11 +01:00			`callback_on_step_end=self.callback,`
wip 2023-12-01 03:15:35 +01:00			`height=img_h,`
			`width=img_w,`
			`generator=torch.manual_seed(config.sd_seed),`
			`controlnet_conditioning_scale=config.controlnet_conditioning_scale,`
			`).images[0]`
add controlnet inpainting 2023-03-19 15:40:23 +01:00
			`output = (output * 255).round().astype("uint8")`
			`output = cv2.cvtColor(output, cv2.COLOR_RGB2BGR)`
			`return output`