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import pathlib
from dataclasses import asdict, dataclass
from enum import Enum
from typing import Optional

from omegaconf import OmegaConf

from sgm.inference.helpers import (Img2ImgDiscretizationWrapper, do_img2img,
                                   do_sample)
from sgm.modules.diffusionmodules.sampling import (DPMPP2MSampler,
                                                   DPMPP2SAncestralSampler,
                                                   EulerAncestralSampler,
                                                   EulerEDMSampler,
                                                   HeunEDMSampler,
                                                   LinearMultistepSampler)
from sgm.util import load_model_from_config


class ModelArchitecture(str, Enum):
    SD_2_1 = "stable-diffusion-v2-1"
    SD_2_1_768 = "stable-diffusion-v2-1-768"
    SDXL_V0_9_BASE = "stable-diffusion-xl-v0-9-base"
    SDXL_V0_9_REFINER = "stable-diffusion-xl-v0-9-refiner"
    SDXL_V1_BASE = "stable-diffusion-xl-v1-base"
    SDXL_V1_REFINER = "stable-diffusion-xl-v1-refiner"


class Sampler(str, Enum):
    EULER_EDM = "EulerEDMSampler"
    HEUN_EDM = "HeunEDMSampler"
    EULER_ANCESTRAL = "EulerAncestralSampler"
    DPMPP2S_ANCESTRAL = "DPMPP2SAncestralSampler"
    DPMPP2M = "DPMPP2MSampler"
    LINEAR_MULTISTEP = "LinearMultistepSampler"


class Discretization(str, Enum):
    LEGACY_DDPM = "LegacyDDPMDiscretization"
    EDM = "EDMDiscretization"


class Guider(str, Enum):
    VANILLA = "VanillaCFG"
    IDENTITY = "IdentityGuider"


class Thresholder(str, Enum):
    NONE = "None"


@dataclass
class SamplingParams:
    width: int = 1024
    height: int = 1024
    steps: int = 50
    sampler: Sampler = Sampler.DPMPP2M
    discretization: Discretization = Discretization.LEGACY_DDPM
    guider: Guider = Guider.VANILLA
    thresholder: Thresholder = Thresholder.NONE
    scale: float = 6.0
    aesthetic_score: float = 5.0
    negative_aesthetic_score: float = 5.0
    img2img_strength: float = 1.0
    orig_width: int = 1024
    orig_height: int = 1024
    crop_coords_top: int = 0
    crop_coords_left: int = 0
    sigma_min: float = 0.0292
    sigma_max: float = 14.6146
    rho: float = 3.0
    s_churn: float = 0.0
    s_tmin: float = 0.0
    s_tmax: float = 999.0
    s_noise: float = 1.0
    eta: float = 1.0
    order: int = 4


@dataclass
class SamplingSpec:
    width: int
    height: int
    channels: int
    factor: int
    is_legacy: bool
    config: str
    ckpt: str
    is_guided: bool


model_specs = {
    ModelArchitecture.SD_2_1: SamplingSpec(
        height=512,
        width=512,
        channels=4,
        factor=8,
        is_legacy=True,
        config="sd_2_1.yaml",
        ckpt="v2-1_512-ema-pruned.safetensors",
        is_guided=True,
    ),
    ModelArchitecture.SD_2_1_768: SamplingSpec(
        height=768,
        width=768,
        channels=4,
        factor=8,
        is_legacy=True,
        config="sd_2_1_768.yaml",
        ckpt="v2-1_768-ema-pruned.safetensors",
        is_guided=True,
    ),
    ModelArchitecture.SDXL_V0_9_BASE: SamplingSpec(
        height=1024,
        width=1024,
        channels=4,
        factor=8,
        is_legacy=False,
        config="sd_xl_base.yaml",
        ckpt="sd_xl_base_0.9.safetensors",
        is_guided=True,
    ),
    ModelArchitecture.SDXL_V0_9_REFINER: SamplingSpec(
        height=1024,
        width=1024,
        channels=4,
        factor=8,
        is_legacy=True,
        config="sd_xl_refiner.yaml",
        ckpt="sd_xl_refiner_0.9.safetensors",
        is_guided=True,
    ),
    ModelArchitecture.SDXL_V1_BASE: SamplingSpec(
        height=1024,
        width=1024,
        channels=4,
        factor=8,
        is_legacy=False,
        config="sd_xl_base.yaml",
        ckpt="sd_xl_base_1.0.safetensors",
        is_guided=True,
    ),
    ModelArchitecture.SDXL_V1_REFINER: SamplingSpec(
        height=1024,
        width=1024,
        channels=4,
        factor=8,
        is_legacy=True,
        config="sd_xl_refiner.yaml",
        ckpt="sd_xl_refiner_1.0.safetensors",
        is_guided=True,
    ),
}


class SamplingPipeline:
    def __init__(

        self,

        model_id: ModelArchitecture,

        model_path="checkpoints",

        config_path="configs/inference",

        device="cuda",

        use_fp16=True,

    ) -> None:
        if model_id not in model_specs:
            raise ValueError(f"Model {model_id} not supported")
        self.model_id = model_id
        self.specs = model_specs[self.model_id]
        self.config = str(pathlib.Path(config_path, self.specs.config))
        self.ckpt = str(pathlib.Path(model_path, self.specs.ckpt))
        self.device = device
        self.model = self._load_model(device=device, use_fp16=use_fp16)

    def _load_model(self, device="cuda", use_fp16=True):
        config = OmegaConf.load(self.config)
        model = load_model_from_config(config, self.ckpt)
        if model is None:
            raise ValueError(f"Model {self.model_id} could not be loaded")
        model.to(device)
        if use_fp16:
            model.conditioner.half()
            model.model.half()
        return model

    def text_to_image(

        self,

        params: SamplingParams,

        prompt: str,

        negative_prompt: str = "",

        samples: int = 1,

        return_latents: bool = False,

    ):
        sampler = get_sampler_config(params)
        value_dict = asdict(params)
        value_dict["prompt"] = prompt
        value_dict["negative_prompt"] = negative_prompt
        value_dict["target_width"] = params.width
        value_dict["target_height"] = params.height
        return do_sample(
            self.model,
            sampler,
            value_dict,
            samples,
            params.height,
            params.width,
            self.specs.channels,
            self.specs.factor,
            force_uc_zero_embeddings=["txt"] if not self.specs.is_legacy else [],
            return_latents=return_latents,
            filter=None,
        )

    def image_to_image(

        self,

        params: SamplingParams,

        image,

        prompt: str,

        negative_prompt: str = "",

        samples: int = 1,

        return_latents: bool = False,

    ):
        sampler = get_sampler_config(params)

        if params.img2img_strength < 1.0:
            sampler.discretization = Img2ImgDiscretizationWrapper(
                sampler.discretization,
                strength=params.img2img_strength,
            )
        height, width = image.shape[2], image.shape[3]
        value_dict = asdict(params)
        value_dict["prompt"] = prompt
        value_dict["negative_prompt"] = negative_prompt
        value_dict["target_width"] = width
        value_dict["target_height"] = height
        return do_img2img(
            image,
            self.model,
            sampler,
            value_dict,
            samples,
            force_uc_zero_embeddings=["txt"] if not self.specs.is_legacy else [],
            return_latents=return_latents,
            filter=None,
        )

    def refiner(

        self,

        params: SamplingParams,

        image,

        prompt: str,

        negative_prompt: Optional[str] = None,

        samples: int = 1,

        return_latents: bool = False,

    ):
        sampler = get_sampler_config(params)
        value_dict = {
            "orig_width": image.shape[3] * 8,
            "orig_height": image.shape[2] * 8,
            "target_width": image.shape[3] * 8,
            "target_height": image.shape[2] * 8,
            "prompt": prompt,
            "negative_prompt": negative_prompt,
            "crop_coords_top": 0,
            "crop_coords_left": 0,
            "aesthetic_score": 6.0,
            "negative_aesthetic_score": 2.5,
        }

        return do_img2img(
            image,
            self.model,
            sampler,
            value_dict,
            samples,
            skip_encode=True,
            return_latents=return_latents,
            filter=None,
        )


def get_guider_config(params: SamplingParams):
    if params.guider == Guider.IDENTITY:
        guider_config = {
            "target": "sgm.modules.diffusionmodules.guiders.IdentityGuider"
        }
    elif params.guider == Guider.VANILLA:
        scale = params.scale

        thresholder = params.thresholder

        if thresholder == Thresholder.NONE:
            dyn_thresh_config = {
                "target": "sgm.modules.diffusionmodules.sampling_utils.NoDynamicThresholding"
            }
        else:
            raise NotImplementedError

        guider_config = {
            "target": "sgm.modules.diffusionmodules.guiders.VanillaCFG",
            "params": {"scale": scale, "dyn_thresh_config": dyn_thresh_config},
        }
    else:
        raise NotImplementedError
    return guider_config


def get_discretization_config(params: SamplingParams):
    if params.discretization == Discretization.LEGACY_DDPM:
        discretization_config = {
            "target": "sgm.modules.diffusionmodules.discretizer.LegacyDDPMDiscretization",
        }
    elif params.discretization == Discretization.EDM:
        discretization_config = {
            "target": "sgm.modules.diffusionmodules.discretizer.EDMDiscretization",
            "params": {
                "sigma_min": params.sigma_min,
                "sigma_max": params.sigma_max,
                "rho": params.rho,
            },
        }
    else:
        raise ValueError(f"unknown discretization {params.discretization}")
    return discretization_config


def get_sampler_config(params: SamplingParams):
    discretization_config = get_discretization_config(params)
    guider_config = get_guider_config(params)
    sampler = None
    if params.sampler == Sampler.EULER_EDM:
        return EulerEDMSampler(
            num_steps=params.steps,
            discretization_config=discretization_config,
            guider_config=guider_config,
            s_churn=params.s_churn,
            s_tmin=params.s_tmin,
            s_tmax=params.s_tmax,
            s_noise=params.s_noise,
            verbose=True,
        )
    if params.sampler == Sampler.HEUN_EDM:
        return HeunEDMSampler(
            num_steps=params.steps,
            discretization_config=discretization_config,
            guider_config=guider_config,
            s_churn=params.s_churn,
            s_tmin=params.s_tmin,
            s_tmax=params.s_tmax,
            s_noise=params.s_noise,
            verbose=True,
        )
    if params.sampler == Sampler.EULER_ANCESTRAL:
        return EulerAncestralSampler(
            num_steps=params.steps,
            discretization_config=discretization_config,
            guider_config=guider_config,
            eta=params.eta,
            s_noise=params.s_noise,
            verbose=True,
        )
    if params.sampler == Sampler.DPMPP2S_ANCESTRAL:
        return DPMPP2SAncestralSampler(
            num_steps=params.steps,
            discretization_config=discretization_config,
            guider_config=guider_config,
            eta=params.eta,
            s_noise=params.s_noise,
            verbose=True,
        )
    if params.sampler == Sampler.DPMPP2M:
        return DPMPP2MSampler(
            num_steps=params.steps,
            discretization_config=discretization_config,
            guider_config=guider_config,
            verbose=True,
        )
    if params.sampler == Sampler.LINEAR_MULTISTEP:
        return LinearMultistepSampler(
            num_steps=params.steps,
            discretization_config=discretization_config,
            guider_config=guider_config,
            order=params.order,
            verbose=True,
        )

    raise ValueError(f"unknown sampler {params.sampler}!")