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https://github.com/invoke-ai/InvokeAI
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566 lines
24 KiB
Python
566 lines
24 KiB
Python
# Copyright (c) 2023 Kyle Schouviller (https://github.com/kyle0654)
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import random
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import einops
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from pydantic import BaseModel, Field, validator
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import torch
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from typing import Literal, Optional, Union, List
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from diffusers.pipelines.stable_diffusion.pipeline_stable_diffusion_controlnet import MultiControlNetModel
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from invokeai.app.invocations.util.choose_model import choose_model
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from invokeai.app.models.image import ImageCategory
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from invokeai.app.util.misc import SEED_MAX, get_random_seed
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from invokeai.app.util.step_callback import stable_diffusion_step_callback
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from .controlnet_image_processors import ControlField
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from ...backend.model_management.model_manager import ModelManager
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from ...backend.util.devices import choose_torch_device, torch_dtype
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from ...backend.stable_diffusion.diffusion.shared_invokeai_diffusion import PostprocessingSettings
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from ...backend.image_util.seamless import configure_model_padding
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from ...backend.prompting.conditioning import get_uc_and_c_and_ec
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from ...backend.stable_diffusion.diffusers_pipeline import ConditioningData, StableDiffusionGeneratorPipeline, image_resized_to_grid_as_tensor
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from ...backend.stable_diffusion.schedulers import SCHEDULER_MAP
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from ...backend.stable_diffusion.diffusers_pipeline import ControlNetData
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from .baseinvocation import BaseInvocation, BaseInvocationOutput, InvocationContext, InvocationConfig
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import numpy as np
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from ..services.image_file_storage import ImageType
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from .baseinvocation import BaseInvocation, InvocationContext
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from .image import ImageField, ImageOutput
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from .compel import ConditioningField
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from ...backend.stable_diffusion import PipelineIntermediateState
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from diffusers.schedulers import SchedulerMixin as Scheduler
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import diffusers
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from diffusers import DiffusionPipeline, ControlNetModel
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class LatentsField(BaseModel):
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"""A latents field used for passing latents between invocations"""
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latents_name: Optional[str] = Field(default=None, description="The name of the latents")
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class Config:
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schema_extra = {"required": ["latents_name"]}
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class LatentsOutput(BaseInvocationOutput):
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"""Base class for invocations that output latents"""
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#fmt: off
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type: Literal["latents_output"] = "latents_output"
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# Inputs
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latents: LatentsField = Field(default=None, description="The output latents")
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width: int = Field(description="The width of the latents in pixels")
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height: int = Field(description="The height of the latents in pixels")
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#fmt: on
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def build_latents_output(latents_name: str, latents: torch.Tensor):
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return LatentsOutput(
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latents=LatentsField(latents_name=latents_name),
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width=latents.size()[3] * 8,
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height=latents.size()[2] * 8,
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)
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class NoiseOutput(BaseInvocationOutput):
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"""Invocation noise output"""
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#fmt: off
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type: Literal["noise_output"] = "noise_output"
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# Inputs
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noise: LatentsField = Field(default=None, description="The output noise")
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width: int = Field(description="The width of the noise in pixels")
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height: int = Field(description="The height of the noise in pixels")
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#fmt: on
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def build_noise_output(latents_name: str, latents: torch.Tensor):
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return NoiseOutput(
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noise=LatentsField(latents_name=latents_name),
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width=latents.size()[3] * 8,
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height=latents.size()[2] * 8,
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)
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SAMPLER_NAME_VALUES = Literal[
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tuple(list(SCHEDULER_MAP.keys()))
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]
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def get_scheduler(scheduler_name:str, model: StableDiffusionGeneratorPipeline)->Scheduler:
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scheduler_class, scheduler_extra_config = SCHEDULER_MAP.get(scheduler_name, SCHEDULER_MAP['ddim'])
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scheduler_config = model.scheduler.config
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if "_backup" in scheduler_config:
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scheduler_config = scheduler_config["_backup"]
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scheduler_config = {**scheduler_config, **scheduler_extra_config, "_backup": scheduler_config}
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scheduler = scheduler_class.from_config(scheduler_config)
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# hack copied over from generate.py
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if not hasattr(scheduler, 'uses_inpainting_model'):
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scheduler.uses_inpainting_model = lambda: False
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return scheduler
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def get_noise(width:int, height:int, device:torch.device, seed:int = 0, latent_channels:int=4, use_mps_noise:bool=False, downsampling_factor:int = 8):
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# limit noise to only the diffusion image channels, not the mask channels
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input_channels = min(latent_channels, 4)
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use_device = "cpu" if (use_mps_noise or device.type == "mps") else device
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generator = torch.Generator(device=use_device).manual_seed(seed)
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x = torch.randn(
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[
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1,
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input_channels,
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height // downsampling_factor,
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width // downsampling_factor,
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],
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dtype=torch_dtype(device),
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device=use_device,
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generator=generator,
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).to(device)
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# if self.perlin > 0.0:
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# perlin_noise = self.get_perlin_noise(
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# width // self.downsampling_factor, height // self.downsampling_factor
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# )
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# x = (1 - self.perlin) * x + self.perlin * perlin_noise
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return x
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class NoiseInvocation(BaseInvocation):
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"""Generates latent noise."""
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type: Literal["noise"] = "noise"
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# Inputs
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seed: int = Field(ge=0, le=SEED_MAX, description="The seed to use", default_factory=get_random_seed)
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width: int = Field(default=512, multiple_of=8, gt=0, description="The width of the resulting noise", )
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height: int = Field(default=512, multiple_of=8, gt=0, description="The height of the resulting noise", )
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# Schema customisation
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class Config(InvocationConfig):
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schema_extra = {
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"ui": {
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"tags": ["latents", "noise"],
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},
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}
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@validator("seed", pre=True)
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def modulo_seed(cls, v):
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"""Returns the seed modulo SEED_MAX to ensure it is within the valid range."""
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return v % SEED_MAX
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def invoke(self, context: InvocationContext) -> NoiseOutput:
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device = torch.device(choose_torch_device())
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noise = get_noise(self.width, self.height, device, self.seed)
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name = f'{context.graph_execution_state_id}__{self.id}'
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context.services.latents.save(name, noise)
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return build_noise_output(latents_name=name, latents=noise)
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# Text to image
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class TextToLatentsInvocation(BaseInvocation):
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"""Generates latents from conditionings."""
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type: Literal["t2l"] = "t2l"
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# Inputs
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# fmt: off
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positive_conditioning: Optional[ConditioningField] = Field(description="Positive conditioning for generation")
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negative_conditioning: Optional[ConditioningField] = Field(description="Negative conditioning for generation")
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noise: Optional[LatentsField] = Field(description="The noise to use")
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steps: int = Field(default=10, gt=0, description="The number of steps to use to generate the image")
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cfg_scale: float = Field(default=7.5, gt=0, description="The Classifier-Free Guidance, higher values may result in a result closer to the prompt", )
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scheduler: SAMPLER_NAME_VALUES = Field(default="euler", description="The scheduler to use" )
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model: str = Field(default="", description="The model to use (currently ignored)")
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# seamless: bool = Field(default=False, description="Whether or not to generate an image that can tile without seams", )
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# seamless_axes: str = Field(default="", description="The axes to tile the image on, 'x' and/or 'y'")
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progress_images: bool = Field(default=False, description="Whether or not to produce progress images during generation", )
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control: Union[ControlField, List[ControlField]] = Field(default=None, description="The controlnet(s) to use")
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# fmt: on
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# Schema customisation
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class Config(InvocationConfig):
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schema_extra = {
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"ui": {
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"tags": ["latents"],
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"type_hints": {
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"model": "model",
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"control": "control",
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}
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},
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}
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# TODO: pass this an emitter method or something? or a session for dispatching?
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def dispatch_progress(
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self, context: InvocationContext, source_node_id: str, intermediate_state: PipelineIntermediateState
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) -> None:
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stable_diffusion_step_callback(
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context=context,
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intermediate_state=intermediate_state,
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node=self.dict(),
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source_node_id=source_node_id,
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)
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def get_model(self, model_manager: ModelManager) -> StableDiffusionGeneratorPipeline:
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model_info = choose_model(model_manager, self.model)
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model_name = model_info['model_name']
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model_hash = model_info['hash']
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model: StableDiffusionGeneratorPipeline = model_info['model']
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model.scheduler = get_scheduler(
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model=model,
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scheduler_name=self.scheduler
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)
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# if isinstance(model, DiffusionPipeline):
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# for component in [model.unet, model.vae]:
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# configure_model_padding(component,
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# self.seamless,
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# self.seamless_axes
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# )
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# else:
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# configure_model_padding(model,
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# self.seamless,
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# self.seamless_axes
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# )
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return model
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def get_conditioning_data(self, context: InvocationContext, model: StableDiffusionGeneratorPipeline) -> ConditioningData:
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c, extra_conditioning_info = context.services.latents.get(self.positive_conditioning.conditioning_name)
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uc, _ = context.services.latents.get(self.negative_conditioning.conditioning_name)
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conditioning_data = ConditioningData(
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uc,
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c,
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self.cfg_scale,
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extra_conditioning_info,
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postprocessing_settings=PostprocessingSettings(
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threshold=0.0,#threshold,
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warmup=0.2,#warmup,
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h_symmetry_time_pct=None,#h_symmetry_time_pct,
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v_symmetry_time_pct=None#v_symmetry_time_pct,
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),
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).add_scheduler_args_if_applicable(model.scheduler, eta=0.0)#ddim_eta)
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return conditioning_data
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def prep_control_data(self,
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context: InvocationContext,
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model: StableDiffusionGeneratorPipeline, # really only need model for dtype and device
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control_input: List[ControlField],
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latents_shape: List[int],
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do_classifier_free_guidance: bool = True,
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) -> List[ControlNetData]:
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# assuming fixed dimensional scaling of 8:1 for image:latents
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control_height_resize = latents_shape[2] * 8
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control_width_resize = latents_shape[3] * 8
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if control_input is None:
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# print("control input is None")
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control_list = None
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elif isinstance(control_input, list) and len(control_input) == 0:
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# print("control input is empty list")
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control_list = None
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elif isinstance(control_input, ControlField):
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# print("control input is ControlField")
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control_list = [control_input]
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elif isinstance(control_input, list) and len(control_input) > 0 and isinstance(control_input[0], ControlField):
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# print("control input is list[ControlField]")
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control_list = control_input
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else:
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# print("input control is unrecognized:", type(self.control))
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control_list = None
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if (control_list is None):
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control_data = None
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# from above handling, any control that is not None should now be of type list[ControlField]
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else:
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# FIXME: add checks to skip entry if model or image is None
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# and if weight is None, populate with default 1.0?
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control_data = []
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control_models = []
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for control_info in control_list:
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# handle control models
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control_model = ControlNetModel.from_pretrained(control_info.control_model,
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torch_dtype=model.unet.dtype).to(model.device)
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control_models.append(control_model)
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control_image_field = control_info.image
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input_image = context.services.images.get(control_image_field.image_type, control_image_field.image_name)
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# FIXME: still need to test with different widths, heights, devices, dtypes
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# and add in batch_size, num_images_per_prompt?
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# and do real check for classifier_free_guidance?
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# prepare_control_image should return torch.Tensor of shape(batch_size, 3, height, width)
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control_image = model.prepare_control_image(
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image=input_image,
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do_classifier_free_guidance=do_classifier_free_guidance,
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width=control_width_resize,
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height=control_height_resize,
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# batch_size=batch_size * num_images_per_prompt,
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# num_images_per_prompt=num_images_per_prompt,
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device=control_model.device,
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dtype=control_model.dtype,
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)
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control_item = ControlNetData(model=control_model,
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image_tensor=control_image,
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weight=control_info.control_weight,
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begin_step_percent=control_info.begin_step_percent,
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end_step_percent=control_info.end_step_percent)
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control_data.append(control_item)
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# MultiControlNetModel has been refactored out, just need list[ControlNetData]
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return control_data
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def invoke(self, context: InvocationContext) -> LatentsOutput:
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noise = context.services.latents.get(self.noise.latents_name)
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# Get the source node id (we are invoking the prepared node)
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graph_execution_state = context.services.graph_execution_manager.get(context.graph_execution_state_id)
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source_node_id = graph_execution_state.prepared_source_mapping[self.id]
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def step_callback(state: PipelineIntermediateState):
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self.dispatch_progress(context, source_node_id, state)
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model = self.get_model(context.services.model_manager)
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conditioning_data = self.get_conditioning_data(context, model)
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print("type of control input: ", type(self.control))
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control_data = self.prep_control_data(model=model, context=context, control_input=self.control,
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latents_shape=noise.shape,
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do_classifier_free_guidance=(self.cfg_scale >= 1.0))
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# TODO: Verify the noise is the right size
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result_latents, result_attention_map_saver = model.latents_from_embeddings(
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latents=torch.zeros_like(noise, dtype=torch_dtype(model.device)),
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noise=noise,
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num_inference_steps=self.steps,
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conditioning_data=conditioning_data,
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control_data=control_data, # list[ControlNetData]
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callback=step_callback,
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)
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# https://discuss.huggingface.co/t/memory-usage-by-later-pipeline-stages/23699
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torch.cuda.empty_cache()
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name = f'{context.graph_execution_state_id}__{self.id}'
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context.services.latents.save(name, result_latents)
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return build_latents_output(latents_name=name, latents=result_latents)
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class LatentsToLatentsInvocation(TextToLatentsInvocation):
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"""Generates latents using latents as base image."""
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type: Literal["l2l"] = "l2l"
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# Inputs
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latents: Optional[LatentsField] = Field(description="The latents to use as a base image")
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strength: float = Field(default=0.5, description="The strength of the latents to use")
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def invoke(self, context: InvocationContext) -> LatentsOutput:
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noise = context.services.latents.get(self.noise.latents_name)
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latent = context.services.latents.get(self.latents.latents_name)
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# Get the source node id (we are invoking the prepared node)
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graph_execution_state = context.services.graph_execution_manager.get(context.graph_execution_state_id)
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source_node_id = graph_execution_state.prepared_source_mapping[self.id]
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def step_callback(state: PipelineIntermediateState):
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self.dispatch_progress(context, source_node_id, state)
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model = self.get_model(context.services.model_manager)
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conditioning_data = self.get_conditioning_data(context, model)
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print("type of control input: ", type(self.control))
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control_data = self.prep_control_data(model=model, context=context, control_input=self.control,
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latents_shape=noise.shape,
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do_classifier_free_guidance=(self.cfg_scale >= 1.0))
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# TODO: Verify the noise is the right size
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initial_latents = latent if self.strength < 1.0 else torch.zeros_like(
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latent, device=model.device, dtype=latent.dtype
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)
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timesteps, _ = model.get_img2img_timesteps(self.steps, self.strength)
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result_latents, result_attention_map_saver = model.latents_from_embeddings(
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latents=initial_latents,
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timesteps=timesteps,
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noise=noise,
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num_inference_steps=self.steps,
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conditioning_data=conditioning_data,
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control_data=control_data, # list[ControlNetData]
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callback=step_callback
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)
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# https://discuss.huggingface.co/t/memory-usage-by-later-pipeline-stages/23699
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torch.cuda.empty_cache()
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name = f'{context.graph_execution_state_id}__{self.id}'
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context.services.latents.save(name, result_latents)
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return build_latents_output(latents_name=name, latents=result_latents)
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# Latent to image
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class LatentsToImageInvocation(BaseInvocation):
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"""Generates an image from latents."""
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type: Literal["l2i"] = "l2i"
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# Inputs
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latents: Optional[LatentsField] = Field(description="The latents to generate an image from")
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model: str = Field(default="", description="The model to use")
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# Schema customisation
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class Config(InvocationConfig):
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schema_extra = {
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"ui": {
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"tags": ["latents", "image"],
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"type_hints": {
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"model": "model"
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}
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},
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}
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@torch.no_grad()
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def invoke(self, context: InvocationContext) -> ImageOutput:
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latents = context.services.latents.get(self.latents.latents_name)
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# TODO: this only really needs the vae
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model_info = choose_model(context.services.model_manager, self.model)
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model: StableDiffusionGeneratorPipeline = model_info['model']
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with torch.inference_mode():
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np_image = model.decode_latents(latents)
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image = model.numpy_to_pil(np_image)[0]
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torch.cuda.empty_cache()
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image_dto = context.services.images.create(
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image=image,
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image_type=ImageType.RESULT,
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image_category=ImageCategory.GENERAL,
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session_id=context.graph_execution_state_id,
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node_id=self.id,
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is_intermediate=self.is_intermediate
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)
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return ImageOutput(
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image=ImageField(
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image_name=image_dto.image_name,
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image_type=image_dto.image_type,
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),
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width=image_dto.width,
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height=image_dto.height,
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)
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LATENTS_INTERPOLATION_MODE = Literal[
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"nearest", "linear", "bilinear", "bicubic", "trilinear", "area", "nearest-exact"
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]
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class ResizeLatentsInvocation(BaseInvocation):
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"""Resizes latents to explicit width/height (in pixels). Provided dimensions are floor-divided by 8."""
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type: Literal["lresize"] = "lresize"
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# Inputs
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latents: Optional[LatentsField] = Field(description="The latents to resize")
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width: int = Field(ge=64, multiple_of=8, description="The width to resize to (px)")
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height: int = Field(ge=64, multiple_of=8, description="The height to resize to (px)")
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mode: LATENTS_INTERPOLATION_MODE = Field(default="bilinear", description="The interpolation mode")
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antialias: bool = Field(default=False, description="Whether or not to antialias (applied in bilinear and bicubic modes only)")
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|
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def invoke(self, context: InvocationContext) -> LatentsOutput:
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latents = context.services.latents.get(self.latents.latents_name)
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|
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resized_latents = torch.nn.functional.interpolate(
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latents,
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size=(self.height // 8, self.width // 8),
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mode=self.mode,
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antialias=self.antialias if self.mode in ["bilinear", "bicubic"] else False,
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|
)
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# https://discuss.huggingface.co/t/memory-usage-by-later-pipeline-stages/23699
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torch.cuda.empty_cache()
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|
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name = f"{context.graph_execution_state_id}__{self.id}"
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context.services.latents.save(name, resized_latents)
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return build_latents_output(latents_name=name, latents=resized_latents)
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|
|
|
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|
class ScaleLatentsInvocation(BaseInvocation):
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|
"""Scales latents by a given factor."""
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|
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|
type: Literal["lscale"] = "lscale"
|
|
|
|
# Inputs
|
|
latents: Optional[LatentsField] = Field(description="The latents to scale")
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|
scale_factor: float = Field(gt=0, description="The factor by which to scale the latents")
|
|
mode: LATENTS_INTERPOLATION_MODE = Field(default="bilinear", description="The interpolation mode")
|
|
antialias: bool = Field(default=False, description="Whether or not to antialias (applied in bilinear and bicubic modes only)")
|
|
|
|
def invoke(self, context: InvocationContext) -> LatentsOutput:
|
|
latents = context.services.latents.get(self.latents.latents_name)
|
|
|
|
# resizing
|
|
resized_latents = torch.nn.functional.interpolate(
|
|
latents,
|
|
scale_factor=self.scale_factor,
|
|
mode=self.mode,
|
|
antialias=self.antialias if self.mode in ["bilinear", "bicubic"] else False,
|
|
)
|
|
|
|
# https://discuss.huggingface.co/t/memory-usage-by-later-pipeline-stages/23699
|
|
torch.cuda.empty_cache()
|
|
|
|
name = f"{context.graph_execution_state_id}__{self.id}"
|
|
context.services.latents.save(name, resized_latents)
|
|
return build_latents_output(latents_name=name, latents=resized_latents)
|
|
|
|
|
|
class ImageToLatentsInvocation(BaseInvocation):
|
|
"""Encodes an image into latents."""
|
|
|
|
type: Literal["i2l"] = "i2l"
|
|
|
|
# Inputs
|
|
image: Union[ImageField, None] = Field(description="The image to encode")
|
|
model: str = Field(default="", description="The model to use")
|
|
|
|
# Schema customisation
|
|
class Config(InvocationConfig):
|
|
schema_extra = {
|
|
"ui": {
|
|
"tags": ["latents", "image"],
|
|
"type_hints": {"model": "model"},
|
|
},
|
|
}
|
|
|
|
@torch.no_grad()
|
|
def invoke(self, context: InvocationContext) -> LatentsOutput:
|
|
image = context.services.images.get_pil_image(
|
|
self.image.image_type, self.image.image_name
|
|
)
|
|
|
|
# TODO: this only really needs the vae
|
|
model_info = choose_model(context.services.model_manager, self.model)
|
|
model: StableDiffusionGeneratorPipeline = model_info["model"]
|
|
|
|
image_tensor = image_resized_to_grid_as_tensor(image.convert("RGB"))
|
|
|
|
if image_tensor.dim() == 3:
|
|
image_tensor = einops.rearrange(image_tensor, "c h w -> 1 c h w")
|
|
|
|
latents = model.non_noised_latents_from_image(
|
|
image_tensor,
|
|
device=model._model_group.device_for(model.unet),
|
|
dtype=model.unet.dtype,
|
|
)
|
|
|
|
name = f"{context.graph_execution_state_id}__{self.id}"
|
|
context.services.latents.save(name, latents)
|
|
return build_latents_output(latents_name=name, latents=latents)
|
|
|