InvokeAI/invokeai/backend/stable_diffusion/diffusers_pipeline.py

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from __future__ import annotations
import dataclasses
import inspect
import math
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import secrets
from collections.abc import Sequence
from dataclasses import dataclass, field
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from typing import Any, Callable, Generic, List, Optional, Type, TypeVar, Union
from pydantic import BaseModel, Field
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import einops
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import PIL.Image
import numpy as np
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from accelerate.utils import set_seed
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import psutil
import torch
import torchvision.transforms as T
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from compel import EmbeddingsProvider
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from diffusers.models import AutoencoderKL, UNet2DConditionModel
from diffusers.models.controlnet import ControlNetModel, ControlNetOutput
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from diffusers.pipelines.stable_diffusion import StableDiffusionPipelineOutput
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from diffusers.pipelines.stable_diffusion.pipeline_stable_diffusion import (
StableDiffusionPipeline,
)
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from diffusers.pipelines.controlnet import MultiControlNetModel
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from diffusers.pipelines.stable_diffusion.pipeline_stable_diffusion_img2img import (
StableDiffusionImg2ImgPipeline,
)
from diffusers.pipelines.stable_diffusion.safety_checker import (
StableDiffusionSafetyChecker,
)
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from diffusers.schedulers import KarrasDiffusionSchedulers
from diffusers.schedulers.scheduling_utils import SchedulerMixin, SchedulerOutput
from diffusers.utils import PIL_INTERPOLATION
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from diffusers.utils.import_utils import is_xformers_available
from diffusers.utils.outputs import BaseOutput
from torchvision.transforms.functional import resize as tv_resize
from transformers import CLIPFeatureExtractor, CLIPTextModel, CLIPTokenizer
from typing_extensions import ParamSpec
from invokeai.app.services.config import InvokeAIAppConfig
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from ..util import CPU_DEVICE, normalize_device
from .diffusion import (
AttentionMapSaver,
InvokeAIDiffuserComponent,
PostprocessingSettings,
)
from .offloading import FullyLoadedModelGroup, LazilyLoadedModelGroup, ModelGroup
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from .textual_inversion_manager import TextualInversionManager
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@dataclass
class PipelineIntermediateState:
run_id: str
step: int
timestep: int
latents: torch.Tensor
predicted_original: Optional[torch.Tensor] = None
attention_map_saver: Optional[AttentionMapSaver] = None
@dataclass
class AddsMaskLatents:
"""Add the channels required for inpainting model input.
The inpainting model takes the normal latent channels as input, _plus_ a one-channel mask
and the latent encoding of the base image.
This class assumes the same mask and base image should apply to all items in the batch.
"""
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forward: Callable[[torch.Tensor, torch.Tensor, torch.Tensor], torch.Tensor]
mask: torch.Tensor
initial_image_latents: torch.Tensor
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def __call__(
self, latents: torch.Tensor, t: torch.Tensor, text_embeddings: torch.Tensor, **kwargs,
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) -> torch.Tensor:
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model_input = self.add_mask_channels(latents)
return self.forward(model_input, t, text_embeddings, **kwargs)
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def add_mask_channels(self, latents):
batch_size = latents.size(0)
# duplicate mask and latents for each batch
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mask = einops.repeat(
self.mask, "b c h w -> (repeat b) c h w", repeat=batch_size
)
image_latents = einops.repeat(
self.initial_image_latents, "b c h w -> (repeat b) c h w", repeat=batch_size
)
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# add mask and image as additional channels
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model_input, _ = einops.pack([latents, mask, image_latents], "b * h w")
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return model_input
def are_like_tensors(a: torch.Tensor, b: object) -> bool:
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return isinstance(b, torch.Tensor) and (a.size() == b.size())
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@dataclass
class AddsMaskGuidance:
mask: torch.FloatTensor
mask_latents: torch.FloatTensor
scheduler: SchedulerMixin
noise: torch.Tensor
_debug: Optional[Callable] = None
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def __call__(
self, step_output: BaseOutput | SchedulerOutput, t: torch.Tensor, conditioning
) -> BaseOutput:
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output_class = step_output.__class__ # We'll create a new one with masked data.
# The problem with taking SchedulerOutput instead of the model output is that we're less certain what's in it.
# It's reasonable to assume the first thing is prev_sample, but then does it have other things
# like pred_original_sample? Should we apply the mask to them too?
# But what if there's just some other random field?
prev_sample = step_output[0]
# Mask anything that has the same shape as prev_sample, return others as-is.
return output_class(
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{
k: (
self.apply_mask(v, self._t_for_field(k, t))
if are_like_tensors(prev_sample, v)
else v
)
for k, v in step_output.items()
}
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)
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def _t_for_field(self, field_name: str, t):
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if field_name == "pred_original_sample":
return torch.zeros_like(t, dtype=t.dtype) # it represents t=0
return t
def apply_mask(self, latents: torch.Tensor, t) -> torch.Tensor:
batch_size = latents.size(0)
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mask = einops.repeat(
self.mask, "b c h w -> (repeat b) c h w", repeat=batch_size
)
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if t.dim() == 0:
# some schedulers expect t to be one-dimensional.
# TODO: file diffusers bug about inconsistency?
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t = einops.repeat(t, "-> batch", batch=batch_size)
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# Noise shouldn't be re-randomized between steps here. The multistep schedulers
# get very confused about what is happening from step to step when we do that.
mask_latents = self.scheduler.add_noise(self.mask_latents, self.noise, t)
# TODO: Do we need to also apply scheduler.scale_model_input? Or is add_noise appropriately scaled already?
# mask_latents = self.scheduler.scale_model_input(mask_latents, t)
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mask_latents = einops.repeat(
mask_latents, "b c h w -> (repeat b) c h w", repeat=batch_size
)
masked_input = torch.lerp(
mask_latents.to(dtype=latents.dtype), latents, mask.to(dtype=latents.dtype)
)
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if self._debug:
self._debug(masked_input, f"t={t} lerped")
return masked_input
def trim_to_multiple_of(*args, multiple_of=8):
return tuple((x - x % multiple_of) for x in args)
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def image_resized_to_grid_as_tensor(
image: PIL.Image.Image, normalize: bool = True, multiple_of=8
) -> torch.FloatTensor:
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"""
:param image: input image
:param normalize: scale the range to [-1, 1] instead of [0, 1]
:param multiple_of: resize the input so both dimensions are a multiple of this
"""
w, h = trim_to_multiple_of(*image.size, multiple_of=multiple_of)
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transformation = T.Compose(
[
T.Resize((h, w), T.InterpolationMode.LANCZOS),
T.ToTensor(),
]
)
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tensor = transformation(image)
if normalize:
tensor = tensor * 2.0 - 1.0
return tensor
def is_inpainting_model(unet: UNet2DConditionModel):
return unet.conv_in.in_channels == 9
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CallbackType = TypeVar("CallbackType")
ReturnType = TypeVar("ReturnType")
ParamType = ParamSpec("ParamType")
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@dataclass(frozen=True)
class GeneratorToCallbackinator(Generic[ParamType, ReturnType, CallbackType]):
"""Convert a generator to a function with a callback and a return value."""
generator_method: Callable[ParamType, ReturnType]
callback_arg_type: Type[CallbackType]
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def __call__(
self,
*args: ParamType.args,
callback: Callable[[CallbackType], Any] = None,
**kwargs: ParamType.kwargs,
) -> ReturnType:
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result = None
for result in self.generator_method(*args, **kwargs):
if callback is not None and isinstance(result, self.callback_arg_type):
callback(result)
if result is None:
raise AssertionError("why was that an empty generator?")
return result
@dataclass
class ControlNetData:
model: ControlNetModel = Field(default=None)
image_tensor: torch.Tensor= Field(default=None)
Feat/easy param (#3504) * Testing change to LatentsToText to allow setting different cfg_scale values per diffusion step. * Adding first attempt at float param easing node, using Penner easing functions. * Core implementation of ControlNet and MultiControlNet. * Added support for ControlNet and MultiControlNet to legacy non-nodal Txt2Img in backend/generator. Although backend/generator will likely disappear by v3.x, right now they are very useful for testing core ControlNet and MultiControlNet functionality while node codebase is rapidly evolving. * Added example of using ControlNet with legacy Txt2Img generator * Resolving rebase conflict * Added first controlnet preprocessor node for canny edge detection. * Initial port of controlnet node support from generator-based TextToImageInvocation node to latent-based TextToLatentsInvocation node * Switching to ControlField for output from controlnet nodes. * Resolving conflicts in rebase to origin/main * Refactored ControlNet nodes so they subclass from PreprocessedControlInvocation, and only need to override run_processor(image) (instead of reimplementing invoke()) * changes to base class for controlnet nodes * Added HED, LineArt, and OpenPose ControlNet nodes * Added an additional "raw_processed_image" output port to controlnets, mainly so could route ImageField to a ShowImage node * Added more preprocessor nodes for: MidasDepth ZoeDepth MLSD NormalBae Pidi LineartAnime ContentShuffle Removed pil_output options, ControlNet preprocessors should always output as PIL. Removed diagnostics and other general cleanup. * Prep for splitting pre-processor and controlnet nodes * Refactored controlnet nodes: split out controlnet stuff into separate node, stripped controlnet stuff form image processing/analysis nodes. * Added resizing of controlnet image based on noise latent. Fixes a tensor mismatch issue. * More rebase repair. * Added support for using multiple control nets. Unfortunately this breaks direct usage of Control node output port ==> TextToLatent control input port -- passing through a Collect node is now required. Working on fixing this... * Fixed use of ControlNet control_weight parameter * Fixed lint-ish formatting error * Core implementation of ControlNet and MultiControlNet. * Added first controlnet preprocessor node for canny edge detection. * Initial port of controlnet node support from generator-based TextToImageInvocation node to latent-based TextToLatentsInvocation node * Switching to ControlField for output from controlnet nodes. * Refactored controlnet node to output ControlField that bundles control info. * changes to base class for controlnet nodes * Added more preprocessor nodes for: MidasDepth ZoeDepth MLSD NormalBae Pidi LineartAnime ContentShuffle Removed pil_output options, ControlNet preprocessors should always output as PIL. Removed diagnostics and other general cleanup. * Prep for splitting pre-processor and controlnet nodes * Refactored controlnet nodes: split out controlnet stuff into separate node, stripped controlnet stuff form image processing/analysis nodes. * Added resizing of controlnet image based on noise latent. Fixes a tensor mismatch issue. * Cleaning up TextToLatent arg testing * Cleaning up mistakes after rebase. * Removed last bits of dtype and and device hardwiring from controlnet section * Refactored ControNet support to consolidate multiple parameters into data struct. Also redid how multiple controlnets are handled. * Added support for specifying which step iteration to start using each ControlNet, and which step to end using each controlnet (specified as fraction of total steps) * Cleaning up prior to submitting ControlNet PR. Mostly turning off diagnostic printing. Also fixed error when there is no controlnet input. * Added dependency on controlnet-aux v0.0.3 * Commented out ZoeDetector. Will re-instate once there's a controlnet-aux release that supports it. * Switched CotrolNet node modelname input from free text to default list of popular ControlNet model names. * Fix to work with current stable release of controlnet_aux (v0.0.3). Turned of pre-processor params that were added post v0.0.3. Also change defaults for shuffle. * Refactored most of controlnet code into its own method to declutter TextToLatents.invoke(), and make upcoming integration with LatentsToLatents easier. * Cleaning up after ControlNet refactor in TextToLatentsInvocation * Extended node-based ControlNet support to LatentsToLatentsInvocation. * chore(ui): regen api client * fix(ui): add value to conditioning field * fix(ui): add control field type * fix(ui): fix node ui type hints * fix(nodes): controlnet input accepts list or single controlnet * Moved to controlnet_aux v0.0.4, reinstated Zoe controlnet preprocessor. Also in pyproject.toml had to specify downgrade of timm to 0.6.13 _after_ controlnet-aux installs timm >= 0.9.2, because timm >0.6.13 breaks Zoe preprocessor. * Core implementation of ControlNet and MultiControlNet. * Added first controlnet preprocessor node for canny edge detection. * Switching to ControlField for output from controlnet nodes. * Resolving conflicts in rebase to origin/main * Refactored ControlNet nodes so they subclass from PreprocessedControlInvocation, and only need to override run_processor(image) (instead of reimplementing invoke()) * changes to base class for controlnet nodes * Added HED, LineArt, and OpenPose ControlNet nodes * Added more preprocessor nodes for: MidasDepth ZoeDepth MLSD NormalBae Pidi LineartAnime ContentShuffle Removed pil_output options, ControlNet preprocessors should always output as PIL. Removed diagnostics and other general cleanup. * Prep for splitting pre-processor and controlnet nodes * Refactored controlnet nodes: split out controlnet stuff into separate node, stripped controlnet stuff form image processing/analysis nodes. * Added resizing of controlnet image based on noise latent. Fixes a tensor mismatch issue. * Added support for using multiple control nets. Unfortunately this breaks direct usage of Control node output port ==> TextToLatent control input port -- passing through a Collect node is now required. Working on fixing this... * Fixed use of ControlNet control_weight parameter * Core implementation of ControlNet and MultiControlNet. * Added first controlnet preprocessor node for canny edge detection. * Initial port of controlnet node support from generator-based TextToImageInvocation node to latent-based TextToLatentsInvocation node * Switching to ControlField for output from controlnet nodes. * Refactored controlnet node to output ControlField that bundles control info. * changes to base class for controlnet nodes * Added more preprocessor nodes for: MidasDepth ZoeDepth MLSD NormalBae Pidi LineartAnime ContentShuffle Removed pil_output options, ControlNet preprocessors should always output as PIL. Removed diagnostics and other general cleanup. * Prep for splitting pre-processor and controlnet nodes * Refactored controlnet nodes: split out controlnet stuff into separate node, stripped controlnet stuff form image processing/analysis nodes. * Added resizing of controlnet image based on noise latent. Fixes a tensor mismatch issue. * Cleaning up TextToLatent arg testing * Cleaning up mistakes after rebase. * Removed last bits of dtype and and device hardwiring from controlnet section * Refactored ControNet support to consolidate multiple parameters into data struct. Also redid how multiple controlnets are handled. * Added support for specifying which step iteration to start using each ControlNet, and which step to end using each controlnet (specified as fraction of total steps) * Cleaning up prior to submitting ControlNet PR. Mostly turning off diagnostic printing. Also fixed error when there is no controlnet input. * Commented out ZoeDetector. Will re-instate once there's a controlnet-aux release that supports it. * Switched CotrolNet node modelname input from free text to default list of popular ControlNet model names. * Fix to work with current stable release of controlnet_aux (v0.0.3). Turned of pre-processor params that were added post v0.0.3. Also change defaults for shuffle. * Refactored most of controlnet code into its own method to declutter TextToLatents.invoke(), and make upcoming integration with LatentsToLatents easier. * Cleaning up after ControlNet refactor in TextToLatentsInvocation * Extended node-based ControlNet support to LatentsToLatentsInvocation. * chore(ui): regen api client * fix(ui): fix node ui type hints * fix(nodes): controlnet input accepts list or single controlnet * Added Mediapipe image processor for use as ControlNet preprocessor. Also hacked in ability to specify HF subfolder when loading ControlNet models from string. * Fixed bug where MediapipFaceProcessorInvocation was ignoring max_faces and min_confidence params. * Added nodes for float params: ParamFloatInvocation and FloatCollectionOutput. Also added FloatOutput. * Added mediapipe install requirement. Should be able to remove once controlnet_aux package adds mediapipe to its requirements. * Added float to FIELD_TYPE_MAP ins constants.ts * Progress toward improvement in fieldTemplateBuilder.ts getFieldType() * Fixed controlnet preprocessors and controlnet handling in TextToLatents to work with revised Image services. * Cleaning up from merge, re-adding cfg_scale to FIELD_TYPE_MAP * Making sure cfg_scale of type list[float] can be used in image metadata, to support param easing for cfg_scale * Fixed math for per-step param easing. * Added option to show plot of param value at each step * Just cleaning up after adding param easing plot option, removing vestigial code. * Modified control_weight ControlNet param to be polistmorphic -- can now be either a single float weight applied for all steps, or a list of floats of size total_steps, that specifies weight for each step. * Added more informative error message when _validat_edge() throws an error. * Just improving parm easing bar chart title to include easing type. * Added requirement for easing-functions package * Taking out some diagnostic prints. * Added option to use both easing function and mirror of easing function together. * Fixed recently introduced problem (when pulled in main), triggered by num_steps in StepParamEasingInvocation not having a default value -- just added default. --------- Co-authored-by: psychedelicious <4822129+psychedelicious@users.noreply.github.com>
2023-06-11 06:27:44 +00:00
weight: Union[float, List[float]]= Field(default=1.0)
begin_step_percent: float = Field(default=0.0)
end_step_percent: float = Field(default=1.0)
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@dataclass(frozen=True)
class ConditioningData:
unconditioned_embeddings: torch.Tensor
text_embeddings: torch.Tensor
Feat/easy param (#3504) * Testing change to LatentsToText to allow setting different cfg_scale values per diffusion step. * Adding first attempt at float param easing node, using Penner easing functions. * Core implementation of ControlNet and MultiControlNet. * Added support for ControlNet and MultiControlNet to legacy non-nodal Txt2Img in backend/generator. Although backend/generator will likely disappear by v3.x, right now they are very useful for testing core ControlNet and MultiControlNet functionality while node codebase is rapidly evolving. * Added example of using ControlNet with legacy Txt2Img generator * Resolving rebase conflict * Added first controlnet preprocessor node for canny edge detection. * Initial port of controlnet node support from generator-based TextToImageInvocation node to latent-based TextToLatentsInvocation node * Switching to ControlField for output from controlnet nodes. * Resolving conflicts in rebase to origin/main * Refactored ControlNet nodes so they subclass from PreprocessedControlInvocation, and only need to override run_processor(image) (instead of reimplementing invoke()) * changes to base class for controlnet nodes * Added HED, LineArt, and OpenPose ControlNet nodes * Added an additional "raw_processed_image" output port to controlnets, mainly so could route ImageField to a ShowImage node * Added more preprocessor nodes for: MidasDepth ZoeDepth MLSD NormalBae Pidi LineartAnime ContentShuffle Removed pil_output options, ControlNet preprocessors should always output as PIL. Removed diagnostics and other general cleanup. * Prep for splitting pre-processor and controlnet nodes * Refactored controlnet nodes: split out controlnet stuff into separate node, stripped controlnet stuff form image processing/analysis nodes. * Added resizing of controlnet image based on noise latent. Fixes a tensor mismatch issue. * More rebase repair. * Added support for using multiple control nets. Unfortunately this breaks direct usage of Control node output port ==> TextToLatent control input port -- passing through a Collect node is now required. Working on fixing this... * Fixed use of ControlNet control_weight parameter * Fixed lint-ish formatting error * Core implementation of ControlNet and MultiControlNet. * Added first controlnet preprocessor node for canny edge detection. * Initial port of controlnet node support from generator-based TextToImageInvocation node to latent-based TextToLatentsInvocation node * Switching to ControlField for output from controlnet nodes. * Refactored controlnet node to output ControlField that bundles control info. * changes to base class for controlnet nodes * Added more preprocessor nodes for: MidasDepth ZoeDepth MLSD NormalBae Pidi LineartAnime ContentShuffle Removed pil_output options, ControlNet preprocessors should always output as PIL. Removed diagnostics and other general cleanup. * Prep for splitting pre-processor and controlnet nodes * Refactored controlnet nodes: split out controlnet stuff into separate node, stripped controlnet stuff form image processing/analysis nodes. * Added resizing of controlnet image based on noise latent. Fixes a tensor mismatch issue. * Cleaning up TextToLatent arg testing * Cleaning up mistakes after rebase. * Removed last bits of dtype and and device hardwiring from controlnet section * Refactored ControNet support to consolidate multiple parameters into data struct. Also redid how multiple controlnets are handled. * Added support for specifying which step iteration to start using each ControlNet, and which step to end using each controlnet (specified as fraction of total steps) * Cleaning up prior to submitting ControlNet PR. Mostly turning off diagnostic printing. Also fixed error when there is no controlnet input. * Added dependency on controlnet-aux v0.0.3 * Commented out ZoeDetector. Will re-instate once there's a controlnet-aux release that supports it. * Switched CotrolNet node modelname input from free text to default list of popular ControlNet model names. * Fix to work with current stable release of controlnet_aux (v0.0.3). Turned of pre-processor params that were added post v0.0.3. Also change defaults for shuffle. * Refactored most of controlnet code into its own method to declutter TextToLatents.invoke(), and make upcoming integration with LatentsToLatents easier. * Cleaning up after ControlNet refactor in TextToLatentsInvocation * Extended node-based ControlNet support to LatentsToLatentsInvocation. * chore(ui): regen api client * fix(ui): add value to conditioning field * fix(ui): add control field type * fix(ui): fix node ui type hints * fix(nodes): controlnet input accepts list or single controlnet * Moved to controlnet_aux v0.0.4, reinstated Zoe controlnet preprocessor. Also in pyproject.toml had to specify downgrade of timm to 0.6.13 _after_ controlnet-aux installs timm >= 0.9.2, because timm >0.6.13 breaks Zoe preprocessor. * Core implementation of ControlNet and MultiControlNet. * Added first controlnet preprocessor node for canny edge detection. * Switching to ControlField for output from controlnet nodes. * Resolving conflicts in rebase to origin/main * Refactored ControlNet nodes so they subclass from PreprocessedControlInvocation, and only need to override run_processor(image) (instead of reimplementing invoke()) * changes to base class for controlnet nodes * Added HED, LineArt, and OpenPose ControlNet nodes * Added more preprocessor nodes for: MidasDepth ZoeDepth MLSD NormalBae Pidi LineartAnime ContentShuffle Removed pil_output options, ControlNet preprocessors should always output as PIL. Removed diagnostics and other general cleanup. * Prep for splitting pre-processor and controlnet nodes * Refactored controlnet nodes: split out controlnet stuff into separate node, stripped controlnet stuff form image processing/analysis nodes. * Added resizing of controlnet image based on noise latent. Fixes a tensor mismatch issue. * Added support for using multiple control nets. Unfortunately this breaks direct usage of Control node output port ==> TextToLatent control input port -- passing through a Collect node is now required. Working on fixing this... * Fixed use of ControlNet control_weight parameter * Core implementation of ControlNet and MultiControlNet. * Added first controlnet preprocessor node for canny edge detection. * Initial port of controlnet node support from generator-based TextToImageInvocation node to latent-based TextToLatentsInvocation node * Switching to ControlField for output from controlnet nodes. * Refactored controlnet node to output ControlField that bundles control info. * changes to base class for controlnet nodes * Added more preprocessor nodes for: MidasDepth ZoeDepth MLSD NormalBae Pidi LineartAnime ContentShuffle Removed pil_output options, ControlNet preprocessors should always output as PIL. Removed diagnostics and other general cleanup. * Prep for splitting pre-processor and controlnet nodes * Refactored controlnet nodes: split out controlnet stuff into separate node, stripped controlnet stuff form image processing/analysis nodes. * Added resizing of controlnet image based on noise latent. Fixes a tensor mismatch issue. * Cleaning up TextToLatent arg testing * Cleaning up mistakes after rebase. * Removed last bits of dtype and and device hardwiring from controlnet section * Refactored ControNet support to consolidate multiple parameters into data struct. Also redid how multiple controlnets are handled. * Added support for specifying which step iteration to start using each ControlNet, and which step to end using each controlnet (specified as fraction of total steps) * Cleaning up prior to submitting ControlNet PR. Mostly turning off diagnostic printing. Also fixed error when there is no controlnet input. * Commented out ZoeDetector. Will re-instate once there's a controlnet-aux release that supports it. * Switched CotrolNet node modelname input from free text to default list of popular ControlNet model names. * Fix to work with current stable release of controlnet_aux (v0.0.3). Turned of pre-processor params that were added post v0.0.3. Also change defaults for shuffle. * Refactored most of controlnet code into its own method to declutter TextToLatents.invoke(), and make upcoming integration with LatentsToLatents easier. * Cleaning up after ControlNet refactor in TextToLatentsInvocation * Extended node-based ControlNet support to LatentsToLatentsInvocation. * chore(ui): regen api client * fix(ui): fix node ui type hints * fix(nodes): controlnet input accepts list or single controlnet * Added Mediapipe image processor for use as ControlNet preprocessor. Also hacked in ability to specify HF subfolder when loading ControlNet models from string. * Fixed bug where MediapipFaceProcessorInvocation was ignoring max_faces and min_confidence params. * Added nodes for float params: ParamFloatInvocation and FloatCollectionOutput. Also added FloatOutput. * Added mediapipe install requirement. Should be able to remove once controlnet_aux package adds mediapipe to its requirements. * Added float to FIELD_TYPE_MAP ins constants.ts * Progress toward improvement in fieldTemplateBuilder.ts getFieldType() * Fixed controlnet preprocessors and controlnet handling in TextToLatents to work with revised Image services. * Cleaning up from merge, re-adding cfg_scale to FIELD_TYPE_MAP * Making sure cfg_scale of type list[float] can be used in image metadata, to support param easing for cfg_scale * Fixed math for per-step param easing. * Added option to show plot of param value at each step * Just cleaning up after adding param easing plot option, removing vestigial code. * Modified control_weight ControlNet param to be polistmorphic -- can now be either a single float weight applied for all steps, or a list of floats of size total_steps, that specifies weight for each step. * Added more informative error message when _validat_edge() throws an error. * Just improving parm easing bar chart title to include easing type. * Added requirement for easing-functions package * Taking out some diagnostic prints. * Added option to use both easing function and mirror of easing function together. * Fixed recently introduced problem (when pulled in main), triggered by num_steps in StepParamEasingInvocation not having a default value -- just added default. --------- Co-authored-by: psychedelicious <4822129+psychedelicious@users.noreply.github.com>
2023-06-11 06:27:44 +00:00
guidance_scale: Union[float, List[float]]
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"""
Guidance scale as defined in [Classifier-Free Diffusion Guidance](https://arxiv.org/abs/2207.12598).
`guidance_scale` is defined as `w` of equation 2. of [Imagen Paper](https://arxiv.org/pdf/2205.11487.pdf).
Guidance scale is enabled by setting `guidance_scale > 1`. Higher guidance scale encourages to generate
images that are closely linked to the text `prompt`, usually at the expense of lower image quality.
"""
extra: Optional[InvokeAIDiffuserComponent.ExtraConditioningInfo] = None
scheduler_args: dict[str, Any] = field(default_factory=dict)
"""
Additional arguments to pass to invokeai_diffuser.do_latent_postprocessing().
"""
postprocessing_settings: Optional[PostprocessingSettings] = None
@property
def dtype(self):
return self.text_embeddings.dtype
def add_scheduler_args_if_applicable(self, scheduler, **kwargs):
scheduler_args = dict(self.scheduler_args)
step_method = inspect.signature(scheduler.step)
for name, value in kwargs.items():
try:
step_method.bind_partial(**{name: value})
except TypeError:
# FIXME: don't silently discard arguments
pass # debug("%s does not accept argument named %r", scheduler, name)
else:
scheduler_args[name] = value
return dataclasses.replace(self, scheduler_args=scheduler_args)
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@dataclass
class InvokeAIStableDiffusionPipelineOutput(StableDiffusionPipelineOutput):
r"""
Output class for InvokeAI's Stable Diffusion pipeline.
Args:
attention_map_saver (`AttentionMapSaver`): Object containing attention maps that can be displayed to the user
after generation completes. Optional.
"""
attention_map_saver: Optional[AttentionMapSaver]
class StableDiffusionGeneratorPipeline(StableDiffusionPipeline):
r"""
Pipeline for text-to-image generation using Stable Diffusion.
This model inherits from [`DiffusionPipeline`]. Check the superclass documentation for the generic methods the
library implements for all the pipelines (such as downloading or saving, running on a particular device, etc.)
Implementation note: This class started as a refactored copy of diffusers.StableDiffusionPipeline.
Hopefully future versions of diffusers provide access to more of these functions so that we don't
need to duplicate them here: https://github.com/huggingface/diffusers/issues/551#issuecomment-1281508384
Args:
vae ([`AutoencoderKL`]):
Variational Auto-Encoder (VAE) Model to encode and decode images to and from latent representations.
text_encoder ([`CLIPTextModel`]):
Frozen text-encoder. Stable Diffusion uses the text portion of
[CLIP](https://huggingface.co/docs/transformers/model_doc/clip#transformers.CLIPTextModel), specifically
the [clip-vit-large-patch14](https://huggingface.co/openai/clip-vit-large-patch14) variant.
tokenizer (`CLIPTokenizer`):
Tokenizer of class
[CLIPTokenizer](https://huggingface.co/docs/transformers/v4.21.0/en/model_doc/clip#transformers.CLIPTokenizer).
unet ([`UNet2DConditionModel`]): Conditional U-Net architecture to denoise the encoded image latents.
scheduler ([`SchedulerMixin`]):
A scheduler to be used in combination with `unet` to denoise the encoded image latents. Can be one of
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[`DDIMScheduler`], [`LMSDiscreteScheduler`], or [`PNDMScheduler`].
safety_checker ([`StableDiffusionSafetyChecker`]):
Classification module that estimates whether generated images could be considered offensive or harmful.
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Please, refer to the [model card](https://huggingface.co/CompVis/stable-diffusion-v1-4) for details.
feature_extractor ([`CLIPFeatureExtractor`]):
Model that extracts features from generated images to be used as inputs for the `safety_checker`.
"""
_model_group: ModelGroup
ID_LENGTH = 8
def __init__(
self,
vae: AutoencoderKL,
text_encoder: CLIPTextModel,
tokenizer: CLIPTokenizer,
unet: UNet2DConditionModel,
scheduler: KarrasDiffusionSchedulers,
safety_checker: Optional[StableDiffusionSafetyChecker],
feature_extractor: Optional[CLIPFeatureExtractor],
requires_safety_checker: bool = False,
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precision: str = "float32",
control_model: ControlNetModel = None,
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):
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super().__init__(
vae,
text_encoder,
tokenizer,
unet,
scheduler,
safety_checker,
feature_extractor,
requires_safety_checker,
)
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self.register_modules(
vae=vae,
text_encoder=text_encoder,
tokenizer=tokenizer,
unet=unet,
scheduler=scheduler,
safety_checker=safety_checker,
feature_extractor=feature_extractor,
# FIXME: can't currently register control module
# control_model=control_model,
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)
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self.invokeai_diffuser = InvokeAIDiffuserComponent(
self.unet, self._unet_forward, is_running_diffusers=True
)
use_full_precision = precision == "float32" or precision == "autocast"
self.textual_inversion_manager = TextualInversionManager(
tokenizer=self.tokenizer,
text_encoder=self.text_encoder,
full_precision=use_full_precision,
)
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# InvokeAI's interface for text embeddings and whatnot
self.embeddings_provider = EmbeddingsProvider(
tokenizer=self.tokenizer,
text_encoder=self.text_encoder,
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textual_inversion_manager=self.textual_inversion_manager,
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)
self._model_group = FullyLoadedModelGroup(self.unet.device)
self._model_group.install(*self._submodels)
self.control_model = control_model
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def _adjust_memory_efficient_attention(self, latents: torch.Tensor):
"""
if xformers is available, use it, otherwise use sliced attention.
"""
config = InvokeAIAppConfig.get_config()
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if (
torch.cuda.is_available()
and is_xformers_available()
and not config.disable_xformers
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):
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self.enable_xformers_memory_efficient_attention()
else:
if torch.backends.mps.is_available():
# until pytorch #91617 is fixed, slicing is borked on MPS
# https://github.com/pytorch/pytorch/issues/91617
# fix is in https://github.com/kulinseth/pytorch/pull/222 but no idea when it will get merged to pytorch mainline.
pass
else:
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if self.device.type == "cpu" or self.device.type == "mps":
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mem_free = psutil.virtual_memory().free
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elif self.device.type == "cuda":
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mem_free, _ = torch.cuda.mem_get_info(normalize_device(self.device))
else:
raise ValueError(f"unrecognized device {self.device}")
# input tensor of [1, 4, h/8, w/8]
# output tensor of [16, (h/8 * w/8), (h/8 * w/8)]
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bytes_per_element_needed_for_baddbmm_duplication = (
latents.element_size() + 4
)
max_size_required_for_baddbmm = (
16
* latents.size(dim=2)
* latents.size(dim=3)
* latents.size(dim=2)
* latents.size(dim=3)
* bytes_per_element_needed_for_baddbmm_duplication
)
if max_size_required_for_baddbmm > (
mem_free * 3.0 / 4.0
): # 3.3 / 4.0 is from old Invoke code
self.enable_attention_slicing(slice_size="max")
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else:
self.disable_attention_slicing()
def enable_offload_submodels(self, device: torch.device):
"""
Offload each submodel when it's not in use.
Useful for low-vRAM situations where the size of the model in memory is a big chunk of
the total available resource, and you want to free up as much for inference as possible.
This requires more moving parts and may add some delay as the U-Net is swapped out for the
VAE and vice-versa.
"""
models = self._submodels
if self._model_group is not None:
self._model_group.uninstall(*models)
group = LazilyLoadedModelGroup(device)
group.install(*models)
self._model_group = group
def disable_offload_submodels(self):
"""
Leave all submodels loaded.
Appropriate for cases where the size of the model in memory is small compared to the memory
required for inference. Avoids the delay and complexity of shuffling the submodels to and
from the GPU.
"""
models = self._submodels
if self._model_group is not None:
self._model_group.uninstall(*models)
group = FullyLoadedModelGroup(self._model_group.execution_device)
group.install(*models)
self._model_group = group
def offload_all(self):
"""Offload all this pipeline's models to CPU."""
self._model_group.offload_current()
def ready(self):
"""
Ready this pipeline's models.
i.e. preload them to the GPU if appropriate.
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"""
self._model_group.ready()
def to(self, torch_device: Optional[Union[str, torch.device]] = None, silence_dtype_warnings=False):
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# overridden method; types match the superclass.
if torch_device is None:
return self
self._model_group.set_device(torch.device(torch_device))
self._model_group.ready()
@property
def device(self) -> torch.device:
return self._model_group.execution_device
@property
def _submodels(self) -> Sequence[torch.nn.Module]:
module_names, _, _ = self.extract_init_dict(dict(self.config))
submodels = []
for name in module_names.keys():
if hasattr(self, name):
value = getattr(self, name)
else:
value = getattr(self.config, name)
if isinstance(value, torch.nn.Module):
submodels.append(value)
return submodels
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def image_from_embeddings(
self,
latents: torch.Tensor,
num_inference_steps: int,
conditioning_data: ConditioningData,
*,
noise: torch.Tensor,
callback: Callable[[PipelineIntermediateState], None] = None,
run_id=None,
**kwargs,
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) -> InvokeAIStableDiffusionPipelineOutput:
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r"""
Function invoked when calling the pipeline for generation.
:param conditioning_data:
:param latents: Pre-generated un-noised latents, to be used as inputs for
image generation. Can be used to tweak the same generation with different prompts.
:param num_inference_steps: The number of denoising steps. More denoising steps usually lead to a higher quality
image at the expense of slower inference.
:param noise: Noise to add to the latents, sampled from a Gaussian distribution.
:param callback:
:param run_id:
"""
result_latents, result_attention_map_saver = self.latents_from_embeddings(
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latents,
num_inference_steps,
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conditioning_data,
noise=noise,
run_id=run_id,
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callback=callback,
**kwargs,
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)
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# https://discuss.huggingface.co/t/memory-usage-by-later-pipeline-stages/23699
torch.cuda.empty_cache()
with torch.inference_mode():
image = self.decode_latents(result_latents)
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output = InvokeAIStableDiffusionPipelineOutput(
images=image,
nsfw_content_detected=[],
attention_map_saver=result_attention_map_saver,
)
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return self.check_for_safety(output, dtype=conditioning_data.dtype)
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def latents_from_embeddings(
self,
latents: torch.Tensor,
num_inference_steps: int,
conditioning_data: ConditioningData,
*,
noise: torch.Tensor,
timesteps=None,
additional_guidance: List[Callable] = None,
run_id=None,
callback: Callable[[PipelineIntermediateState], None] = None,
control_data: List[ControlNetData] = None,
**kwargs,
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) -> tuple[torch.Tensor, Optional[AttentionMapSaver]]:
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if self.scheduler.config.get("cpu_only", False):
scheduler_device = torch.device('cpu')
else:
scheduler_device = self._model_group.device_for(self.unet)
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if timesteps is None:
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self.scheduler.set_timesteps(num_inference_steps, device=scheduler_device)
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timesteps = self.scheduler.timesteps
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infer_latents_from_embeddings = GeneratorToCallbackinator(
self.generate_latents_from_embeddings, PipelineIntermediateState
)
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result: PipelineIntermediateState = infer_latents_from_embeddings(
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latents,
timesteps,
conditioning_data,
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noise=noise,
additional_guidance=additional_guidance,
run_id=run_id,
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callback=callback,
control_data=control_data,
**kwargs,
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)
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return result.latents, result.attention_map_saver
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def generate_latents_from_embeddings(
self,
latents: torch.Tensor,
timesteps,
conditioning_data: ConditioningData,
*,
noise: torch.Tensor,
run_id: str = None,
additional_guidance: List[Callable] = None,
control_data: List[ControlNetData] = None,
**kwargs,
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):
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self._adjust_memory_efficient_attention(latents)
if run_id is None:
run_id = secrets.token_urlsafe(self.ID_LENGTH)
if additional_guidance is None:
additional_guidance = []
extra_conditioning_info = conditioning_data.extra
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with self.invokeai_diffuser.custom_attention_context(
self.invokeai_diffuser.model,
extra_conditioning_info=extra_conditioning_info,
step_count=len(self.scheduler.timesteps),
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):
yield PipelineIntermediateState(
run_id=run_id,
step=-1,
timestep=self.scheduler.config.num_train_timesteps,
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latents=latents,
)
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batch_size = latents.shape[0]
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batched_t = torch.full(
(batch_size,),
timesteps[0],
dtype=timesteps.dtype,
device=self._model_group.device_for(self.unet),
)
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latents = self.scheduler.add_noise(latents, noise, batched_t)
attention_map_saver: Optional[AttentionMapSaver] = None
# print("timesteps:", timesteps)
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for i, t in enumerate(self.progress_bar(timesteps)):
batched_t.fill_(t)
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step_output = self.step(
batched_t,
latents,
conditioning_data,
step_index=i,
total_step_count=len(timesteps),
additional_guidance=additional_guidance,
control_data=control_data,
**kwargs,
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)
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latents = step_output.prev_sample
latents = self.invokeai_diffuser.do_latent_postprocessing(
postprocessing_settings=conditioning_data.postprocessing_settings,
latents=latents,
sigma=batched_t,
step_index=i,
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total_step_count=len(timesteps),
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)
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predicted_original = getattr(step_output, "pred_original_sample", None)
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# TODO resuscitate attention map saving
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# if i == len(timesteps)-1 and extra_conditioning_info is not None:
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# eos_token_index = extra_conditioning_info.tokens_count_including_eos_bos - 1
# attention_map_token_ids = range(1, eos_token_index)
# attention_map_saver = AttentionMapSaver(token_ids=attention_map_token_ids, latents_shape=latents.shape[-2:])
# self.invokeai_diffuser.setup_attention_map_saving(attention_map_saver)
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yield PipelineIntermediateState(
run_id=run_id,
step=i,
timestep=int(t),
latents=latents,
predicted_original=predicted_original,
attention_map_saver=attention_map_saver,
)
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return latents, attention_map_saver
@torch.inference_mode()
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def step(
self,
t: torch.Tensor,
latents: torch.Tensor,
conditioning_data: ConditioningData,
step_index: int,
total_step_count: int,
additional_guidance: List[Callable] = None,
control_data: List[ControlNetData] = None,
**kwargs,
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):
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# invokeai_diffuser has batched timesteps, but diffusers schedulers expect a single value
timestep = t[0]
if additional_guidance is None:
additional_guidance = []
# TODO: should this scaling happen here or inside self._unet_forward?
# i.e. before or after passing it to InvokeAIDiffuserComponent
latent_model_input = self.scheduler.scale_model_input(latents, timestep)
# default is no controlnet, so set controlnet processing output to None
down_block_res_samples, mid_block_res_sample = None, None
if control_data is not None:
Feat/easy param (#3504) * Testing change to LatentsToText to allow setting different cfg_scale values per diffusion step. * Adding first attempt at float param easing node, using Penner easing functions. * Core implementation of ControlNet and MultiControlNet. * Added support for ControlNet and MultiControlNet to legacy non-nodal Txt2Img in backend/generator. Although backend/generator will likely disappear by v3.x, right now they are very useful for testing core ControlNet and MultiControlNet functionality while node codebase is rapidly evolving. * Added example of using ControlNet with legacy Txt2Img generator * Resolving rebase conflict * Added first controlnet preprocessor node for canny edge detection. * Initial port of controlnet node support from generator-based TextToImageInvocation node to latent-based TextToLatentsInvocation node * Switching to ControlField for output from controlnet nodes. * Resolving conflicts in rebase to origin/main * Refactored ControlNet nodes so they subclass from PreprocessedControlInvocation, and only need to override run_processor(image) (instead of reimplementing invoke()) * changes to base class for controlnet nodes * Added HED, LineArt, and OpenPose ControlNet nodes * Added an additional "raw_processed_image" output port to controlnets, mainly so could route ImageField to a ShowImage node * Added more preprocessor nodes for: MidasDepth ZoeDepth MLSD NormalBae Pidi LineartAnime ContentShuffle Removed pil_output options, ControlNet preprocessors should always output as PIL. Removed diagnostics and other general cleanup. * Prep for splitting pre-processor and controlnet nodes * Refactored controlnet nodes: split out controlnet stuff into separate node, stripped controlnet stuff form image processing/analysis nodes. * Added resizing of controlnet image based on noise latent. Fixes a tensor mismatch issue. * More rebase repair. * Added support for using multiple control nets. Unfortunately this breaks direct usage of Control node output port ==> TextToLatent control input port -- passing through a Collect node is now required. Working on fixing this... * Fixed use of ControlNet control_weight parameter * Fixed lint-ish formatting error * Core implementation of ControlNet and MultiControlNet. * Added first controlnet preprocessor node for canny edge detection. * Initial port of controlnet node support from generator-based TextToImageInvocation node to latent-based TextToLatentsInvocation node * Switching to ControlField for output from controlnet nodes. * Refactored controlnet node to output ControlField that bundles control info. * changes to base class for controlnet nodes * Added more preprocessor nodes for: MidasDepth ZoeDepth MLSD NormalBae Pidi LineartAnime ContentShuffle Removed pil_output options, ControlNet preprocessors should always output as PIL. Removed diagnostics and other general cleanup. * Prep for splitting pre-processor and controlnet nodes * Refactored controlnet nodes: split out controlnet stuff into separate node, stripped controlnet stuff form image processing/analysis nodes. * Added resizing of controlnet image based on noise latent. Fixes a tensor mismatch issue. * Cleaning up TextToLatent arg testing * Cleaning up mistakes after rebase. * Removed last bits of dtype and and device hardwiring from controlnet section * Refactored ControNet support to consolidate multiple parameters into data struct. Also redid how multiple controlnets are handled. * Added support for specifying which step iteration to start using each ControlNet, and which step to end using each controlnet (specified as fraction of total steps) * Cleaning up prior to submitting ControlNet PR. Mostly turning off diagnostic printing. Also fixed error when there is no controlnet input. * Added dependency on controlnet-aux v0.0.3 * Commented out ZoeDetector. Will re-instate once there's a controlnet-aux release that supports it. * Switched CotrolNet node modelname input from free text to default list of popular ControlNet model names. * Fix to work with current stable release of controlnet_aux (v0.0.3). Turned of pre-processor params that were added post v0.0.3. Also change defaults for shuffle. * Refactored most of controlnet code into its own method to declutter TextToLatents.invoke(), and make upcoming integration with LatentsToLatents easier. * Cleaning up after ControlNet refactor in TextToLatentsInvocation * Extended node-based ControlNet support to LatentsToLatentsInvocation. * chore(ui): regen api client * fix(ui): add value to conditioning field * fix(ui): add control field type * fix(ui): fix node ui type hints * fix(nodes): controlnet input accepts list or single controlnet * Moved to controlnet_aux v0.0.4, reinstated Zoe controlnet preprocessor. Also in pyproject.toml had to specify downgrade of timm to 0.6.13 _after_ controlnet-aux installs timm >= 0.9.2, because timm >0.6.13 breaks Zoe preprocessor. * Core implementation of ControlNet and MultiControlNet. * Added first controlnet preprocessor node for canny edge detection. * Switching to ControlField for output from controlnet nodes. * Resolving conflicts in rebase to origin/main * Refactored ControlNet nodes so they subclass from PreprocessedControlInvocation, and only need to override run_processor(image) (instead of reimplementing invoke()) * changes to base class for controlnet nodes * Added HED, LineArt, and OpenPose ControlNet nodes * Added more preprocessor nodes for: MidasDepth ZoeDepth MLSD NormalBae Pidi LineartAnime ContentShuffle Removed pil_output options, ControlNet preprocessors should always output as PIL. Removed diagnostics and other general cleanup. * Prep for splitting pre-processor and controlnet nodes * Refactored controlnet nodes: split out controlnet stuff into separate node, stripped controlnet stuff form image processing/analysis nodes. * Added resizing of controlnet image based on noise latent. Fixes a tensor mismatch issue. * Added support for using multiple control nets. Unfortunately this breaks direct usage of Control node output port ==> TextToLatent control input port -- passing through a Collect node is now required. Working on fixing this... * Fixed use of ControlNet control_weight parameter * Core implementation of ControlNet and MultiControlNet. * Added first controlnet preprocessor node for canny edge detection. * Initial port of controlnet node support from generator-based TextToImageInvocation node to latent-based TextToLatentsInvocation node * Switching to ControlField for output from controlnet nodes. * Refactored controlnet node to output ControlField that bundles control info. * changes to base class for controlnet nodes * Added more preprocessor nodes for: MidasDepth ZoeDepth MLSD NormalBae Pidi LineartAnime ContentShuffle Removed pil_output options, ControlNet preprocessors should always output as PIL. Removed diagnostics and other general cleanup. * Prep for splitting pre-processor and controlnet nodes * Refactored controlnet nodes: split out controlnet stuff into separate node, stripped controlnet stuff form image processing/analysis nodes. * Added resizing of controlnet image based on noise latent. Fixes a tensor mismatch issue. * Cleaning up TextToLatent arg testing * Cleaning up mistakes after rebase. * Removed last bits of dtype and and device hardwiring from controlnet section * Refactored ControNet support to consolidate multiple parameters into data struct. Also redid how multiple controlnets are handled. * Added support for specifying which step iteration to start using each ControlNet, and which step to end using each controlnet (specified as fraction of total steps) * Cleaning up prior to submitting ControlNet PR. Mostly turning off diagnostic printing. Also fixed error when there is no controlnet input. * Commented out ZoeDetector. Will re-instate once there's a controlnet-aux release that supports it. * Switched CotrolNet node modelname input from free text to default list of popular ControlNet model names. * Fix to work with current stable release of controlnet_aux (v0.0.3). Turned of pre-processor params that were added post v0.0.3. Also change defaults for shuffle. * Refactored most of controlnet code into its own method to declutter TextToLatents.invoke(), and make upcoming integration with LatentsToLatents easier. * Cleaning up after ControlNet refactor in TextToLatentsInvocation * Extended node-based ControlNet support to LatentsToLatentsInvocation. * chore(ui): regen api client * fix(ui): fix node ui type hints * fix(nodes): controlnet input accepts list or single controlnet * Added Mediapipe image processor for use as ControlNet preprocessor. Also hacked in ability to specify HF subfolder when loading ControlNet models from string. * Fixed bug where MediapipFaceProcessorInvocation was ignoring max_faces and min_confidence params. * Added nodes for float params: ParamFloatInvocation and FloatCollectionOutput. Also added FloatOutput. * Added mediapipe install requirement. Should be able to remove once controlnet_aux package adds mediapipe to its requirements. * Added float to FIELD_TYPE_MAP ins constants.ts * Progress toward improvement in fieldTemplateBuilder.ts getFieldType() * Fixed controlnet preprocessors and controlnet handling in TextToLatents to work with revised Image services. * Cleaning up from merge, re-adding cfg_scale to FIELD_TYPE_MAP * Making sure cfg_scale of type list[float] can be used in image metadata, to support param easing for cfg_scale * Fixed math for per-step param easing. * Added option to show plot of param value at each step * Just cleaning up after adding param easing plot option, removing vestigial code. * Modified control_weight ControlNet param to be polistmorphic -- can now be either a single float weight applied for all steps, or a list of floats of size total_steps, that specifies weight for each step. * Added more informative error message when _validat_edge() throws an error. * Just improving parm easing bar chart title to include easing type. * Added requirement for easing-functions package * Taking out some diagnostic prints. * Added option to use both easing function and mirror of easing function together. * Fixed recently introduced problem (when pulled in main), triggered by num_steps in StepParamEasingInvocation not having a default value -- just added default. --------- Co-authored-by: psychedelicious <4822129+psychedelicious@users.noreply.github.com>
2023-06-11 06:27:44 +00:00
# FIXME: make sure guidance_scale < 1.0 is handled correctly if doing per-step guidance setting
# if conditioning_data.guidance_scale > 1.0:
if conditioning_data.guidance_scale is not None:
# expand the latents input to control model if doing classifier free guidance
# (which I think for now is always true, there is conditional elsewhere that stops execution if
# classifier_free_guidance is <= 1.0 ?)
latent_control_input = torch.cat([latent_model_input] * 2)
else:
latent_control_input = latent_model_input
# control_data should be type List[ControlNetData]
# this loop covers both ControlNet (one ControlNetData in list)
# and MultiControlNet (multiple ControlNetData in list)
for i, control_datum in enumerate(control_data):
# print("controlnet", i, "==>", type(control_datum))
first_control_step = math.floor(control_datum.begin_step_percent * total_step_count)
last_control_step = math.ceil(control_datum.end_step_percent * total_step_count)
# only apply controlnet if current step is within the controlnet's begin/end step range
if step_index >= first_control_step and step_index <= last_control_step:
# print("running controlnet", i, "for step", step_index)
Feat/easy param (#3504) * Testing change to LatentsToText to allow setting different cfg_scale values per diffusion step. * Adding first attempt at float param easing node, using Penner easing functions. * Core implementation of ControlNet and MultiControlNet. * Added support for ControlNet and MultiControlNet to legacy non-nodal Txt2Img in backend/generator. Although backend/generator will likely disappear by v3.x, right now they are very useful for testing core ControlNet and MultiControlNet functionality while node codebase is rapidly evolving. * Added example of using ControlNet with legacy Txt2Img generator * Resolving rebase conflict * Added first controlnet preprocessor node for canny edge detection. * Initial port of controlnet node support from generator-based TextToImageInvocation node to latent-based TextToLatentsInvocation node * Switching to ControlField for output from controlnet nodes. * Resolving conflicts in rebase to origin/main * Refactored ControlNet nodes so they subclass from PreprocessedControlInvocation, and only need to override run_processor(image) (instead of reimplementing invoke()) * changes to base class for controlnet nodes * Added HED, LineArt, and OpenPose ControlNet nodes * Added an additional "raw_processed_image" output port to controlnets, mainly so could route ImageField to a ShowImage node * Added more preprocessor nodes for: MidasDepth ZoeDepth MLSD NormalBae Pidi LineartAnime ContentShuffle Removed pil_output options, ControlNet preprocessors should always output as PIL. Removed diagnostics and other general cleanup. * Prep for splitting pre-processor and controlnet nodes * Refactored controlnet nodes: split out controlnet stuff into separate node, stripped controlnet stuff form image processing/analysis nodes. * Added resizing of controlnet image based on noise latent. Fixes a tensor mismatch issue. * More rebase repair. * Added support for using multiple control nets. Unfortunately this breaks direct usage of Control node output port ==> TextToLatent control input port -- passing through a Collect node is now required. Working on fixing this... * Fixed use of ControlNet control_weight parameter * Fixed lint-ish formatting error * Core implementation of ControlNet and MultiControlNet. * Added first controlnet preprocessor node for canny edge detection. * Initial port of controlnet node support from generator-based TextToImageInvocation node to latent-based TextToLatentsInvocation node * Switching to ControlField for output from controlnet nodes. * Refactored controlnet node to output ControlField that bundles control info. * changes to base class for controlnet nodes * Added more preprocessor nodes for: MidasDepth ZoeDepth MLSD NormalBae Pidi LineartAnime ContentShuffle Removed pil_output options, ControlNet preprocessors should always output as PIL. Removed diagnostics and other general cleanup. * Prep for splitting pre-processor and controlnet nodes * Refactored controlnet nodes: split out controlnet stuff into separate node, stripped controlnet stuff form image processing/analysis nodes. * Added resizing of controlnet image based on noise latent. Fixes a tensor mismatch issue. * Cleaning up TextToLatent arg testing * Cleaning up mistakes after rebase. * Removed last bits of dtype and and device hardwiring from controlnet section * Refactored ControNet support to consolidate multiple parameters into data struct. Also redid how multiple controlnets are handled. * Added support for specifying which step iteration to start using each ControlNet, and which step to end using each controlnet (specified as fraction of total steps) * Cleaning up prior to submitting ControlNet PR. Mostly turning off diagnostic printing. Also fixed error when there is no controlnet input. * Added dependency on controlnet-aux v0.0.3 * Commented out ZoeDetector. Will re-instate once there's a controlnet-aux release that supports it. * Switched CotrolNet node modelname input from free text to default list of popular ControlNet model names. * Fix to work with current stable release of controlnet_aux (v0.0.3). Turned of pre-processor params that were added post v0.0.3. Also change defaults for shuffle. * Refactored most of controlnet code into its own method to declutter TextToLatents.invoke(), and make upcoming integration with LatentsToLatents easier. * Cleaning up after ControlNet refactor in TextToLatentsInvocation * Extended node-based ControlNet support to LatentsToLatentsInvocation. * chore(ui): regen api client * fix(ui): add value to conditioning field * fix(ui): add control field type * fix(ui): fix node ui type hints * fix(nodes): controlnet input accepts list or single controlnet * Moved to controlnet_aux v0.0.4, reinstated Zoe controlnet preprocessor. Also in pyproject.toml had to specify downgrade of timm to 0.6.13 _after_ controlnet-aux installs timm >= 0.9.2, because timm >0.6.13 breaks Zoe preprocessor. * Core implementation of ControlNet and MultiControlNet. * Added first controlnet preprocessor node for canny edge detection. * Switching to ControlField for output from controlnet nodes. * Resolving conflicts in rebase to origin/main * Refactored ControlNet nodes so they subclass from PreprocessedControlInvocation, and only need to override run_processor(image) (instead of reimplementing invoke()) * changes to base class for controlnet nodes * Added HED, LineArt, and OpenPose ControlNet nodes * Added more preprocessor nodes for: MidasDepth ZoeDepth MLSD NormalBae Pidi LineartAnime ContentShuffle Removed pil_output options, ControlNet preprocessors should always output as PIL. Removed diagnostics and other general cleanup. * Prep for splitting pre-processor and controlnet nodes * Refactored controlnet nodes: split out controlnet stuff into separate node, stripped controlnet stuff form image processing/analysis nodes. * Added resizing of controlnet image based on noise latent. Fixes a tensor mismatch issue. * Added support for using multiple control nets. Unfortunately this breaks direct usage of Control node output port ==> TextToLatent control input port -- passing through a Collect node is now required. Working on fixing this... * Fixed use of ControlNet control_weight parameter * Core implementation of ControlNet and MultiControlNet. * Added first controlnet preprocessor node for canny edge detection. * Initial port of controlnet node support from generator-based TextToImageInvocation node to latent-based TextToLatentsInvocation node * Switching to ControlField for output from controlnet nodes. * Refactored controlnet node to output ControlField that bundles control info. * changes to base class for controlnet nodes * Added more preprocessor nodes for: MidasDepth ZoeDepth MLSD NormalBae Pidi LineartAnime ContentShuffle Removed pil_output options, ControlNet preprocessors should always output as PIL. Removed diagnostics and other general cleanup. * Prep for splitting pre-processor and controlnet nodes * Refactored controlnet nodes: split out controlnet stuff into separate node, stripped controlnet stuff form image processing/analysis nodes. * Added resizing of controlnet image based on noise latent. Fixes a tensor mismatch issue. * Cleaning up TextToLatent arg testing * Cleaning up mistakes after rebase. * Removed last bits of dtype and and device hardwiring from controlnet section * Refactored ControNet support to consolidate multiple parameters into data struct. Also redid how multiple controlnets are handled. * Added support for specifying which step iteration to start using each ControlNet, and which step to end using each controlnet (specified as fraction of total steps) * Cleaning up prior to submitting ControlNet PR. Mostly turning off diagnostic printing. Also fixed error when there is no controlnet input. * Commented out ZoeDetector. Will re-instate once there's a controlnet-aux release that supports it. * Switched CotrolNet node modelname input from free text to default list of popular ControlNet model names. * Fix to work with current stable release of controlnet_aux (v0.0.3). Turned of pre-processor params that were added post v0.0.3. Also change defaults for shuffle. * Refactored most of controlnet code into its own method to declutter TextToLatents.invoke(), and make upcoming integration with LatentsToLatents easier. * Cleaning up after ControlNet refactor in TextToLatentsInvocation * Extended node-based ControlNet support to LatentsToLatentsInvocation. * chore(ui): regen api client * fix(ui): fix node ui type hints * fix(nodes): controlnet input accepts list or single controlnet * Added Mediapipe image processor for use as ControlNet preprocessor. Also hacked in ability to specify HF subfolder when loading ControlNet models from string. * Fixed bug where MediapipFaceProcessorInvocation was ignoring max_faces and min_confidence params. * Added nodes for float params: ParamFloatInvocation and FloatCollectionOutput. Also added FloatOutput. * Added mediapipe install requirement. Should be able to remove once controlnet_aux package adds mediapipe to its requirements. * Added float to FIELD_TYPE_MAP ins constants.ts * Progress toward improvement in fieldTemplateBuilder.ts getFieldType() * Fixed controlnet preprocessors and controlnet handling in TextToLatents to work with revised Image services. * Cleaning up from merge, re-adding cfg_scale to FIELD_TYPE_MAP * Making sure cfg_scale of type list[float] can be used in image metadata, to support param easing for cfg_scale * Fixed math for per-step param easing. * Added option to show plot of param value at each step * Just cleaning up after adding param easing plot option, removing vestigial code. * Modified control_weight ControlNet param to be polistmorphic -- can now be either a single float weight applied for all steps, or a list of floats of size total_steps, that specifies weight for each step. * Added more informative error message when _validat_edge() throws an error. * Just improving parm easing bar chart title to include easing type. * Added requirement for easing-functions package * Taking out some diagnostic prints. * Added option to use both easing function and mirror of easing function together. * Fixed recently introduced problem (when pulled in main), triggered by num_steps in StepParamEasingInvocation not having a default value -- just added default. --------- Co-authored-by: psychedelicious <4822129+psychedelicious@users.noreply.github.com>
2023-06-11 06:27:44 +00:00
if isinstance(control_datum.weight, list):
# if controlnet has multiple weights, use the weight for the current step
controlnet_weight = control_datum.weight[step_index]
else:
# if controlnet has a single weight, use it for all steps
controlnet_weight = control_datum.weight
down_samples, mid_sample = control_datum.model(
sample=latent_control_input,
timestep=timestep,
encoder_hidden_states=torch.cat([conditioning_data.unconditioned_embeddings,
conditioning_data.text_embeddings]),
controlnet_cond=control_datum.image_tensor,
Feat/easy param (#3504) * Testing change to LatentsToText to allow setting different cfg_scale values per diffusion step. * Adding first attempt at float param easing node, using Penner easing functions. * Core implementation of ControlNet and MultiControlNet. * Added support for ControlNet and MultiControlNet to legacy non-nodal Txt2Img in backend/generator. Although backend/generator will likely disappear by v3.x, right now they are very useful for testing core ControlNet and MultiControlNet functionality while node codebase is rapidly evolving. * Added example of using ControlNet with legacy Txt2Img generator * Resolving rebase conflict * Added first controlnet preprocessor node for canny edge detection. * Initial port of controlnet node support from generator-based TextToImageInvocation node to latent-based TextToLatentsInvocation node * Switching to ControlField for output from controlnet nodes. * Resolving conflicts in rebase to origin/main * Refactored ControlNet nodes so they subclass from PreprocessedControlInvocation, and only need to override run_processor(image) (instead of reimplementing invoke()) * changes to base class for controlnet nodes * Added HED, LineArt, and OpenPose ControlNet nodes * Added an additional "raw_processed_image" output port to controlnets, mainly so could route ImageField to a ShowImage node * Added more preprocessor nodes for: MidasDepth ZoeDepth MLSD NormalBae Pidi LineartAnime ContentShuffle Removed pil_output options, ControlNet preprocessors should always output as PIL. Removed diagnostics and other general cleanup. * Prep for splitting pre-processor and controlnet nodes * Refactored controlnet nodes: split out controlnet stuff into separate node, stripped controlnet stuff form image processing/analysis nodes. * Added resizing of controlnet image based on noise latent. Fixes a tensor mismatch issue. * More rebase repair. * Added support for using multiple control nets. Unfortunately this breaks direct usage of Control node output port ==> TextToLatent control input port -- passing through a Collect node is now required. Working on fixing this... * Fixed use of ControlNet control_weight parameter * Fixed lint-ish formatting error * Core implementation of ControlNet and MultiControlNet. * Added first controlnet preprocessor node for canny edge detection. * Initial port of controlnet node support from generator-based TextToImageInvocation node to latent-based TextToLatentsInvocation node * Switching to ControlField for output from controlnet nodes. * Refactored controlnet node to output ControlField that bundles control info. * changes to base class for controlnet nodes * Added more preprocessor nodes for: MidasDepth ZoeDepth MLSD NormalBae Pidi LineartAnime ContentShuffle Removed pil_output options, ControlNet preprocessors should always output as PIL. Removed diagnostics and other general cleanup. * Prep for splitting pre-processor and controlnet nodes * Refactored controlnet nodes: split out controlnet stuff into separate node, stripped controlnet stuff form image processing/analysis nodes. * Added resizing of controlnet image based on noise latent. Fixes a tensor mismatch issue. * Cleaning up TextToLatent arg testing * Cleaning up mistakes after rebase. * Removed last bits of dtype and and device hardwiring from controlnet section * Refactored ControNet support to consolidate multiple parameters into data struct. Also redid how multiple controlnets are handled. * Added support for specifying which step iteration to start using each ControlNet, and which step to end using each controlnet (specified as fraction of total steps) * Cleaning up prior to submitting ControlNet PR. Mostly turning off diagnostic printing. Also fixed error when there is no controlnet input. * Added dependency on controlnet-aux v0.0.3 * Commented out ZoeDetector. Will re-instate once there's a controlnet-aux release that supports it. * Switched CotrolNet node modelname input from free text to default list of popular ControlNet model names. * Fix to work with current stable release of controlnet_aux (v0.0.3). Turned of pre-processor params that were added post v0.0.3. Also change defaults for shuffle. * Refactored most of controlnet code into its own method to declutter TextToLatents.invoke(), and make upcoming integration with LatentsToLatents easier. * Cleaning up after ControlNet refactor in TextToLatentsInvocation * Extended node-based ControlNet support to LatentsToLatentsInvocation. * chore(ui): regen api client * fix(ui): add value to conditioning field * fix(ui): add control field type * fix(ui): fix node ui type hints * fix(nodes): controlnet input accepts list or single controlnet * Moved to controlnet_aux v0.0.4, reinstated Zoe controlnet preprocessor. Also in pyproject.toml had to specify downgrade of timm to 0.6.13 _after_ controlnet-aux installs timm >= 0.9.2, because timm >0.6.13 breaks Zoe preprocessor. * Core implementation of ControlNet and MultiControlNet. * Added first controlnet preprocessor node for canny edge detection. * Switching to ControlField for output from controlnet nodes. * Resolving conflicts in rebase to origin/main * Refactored ControlNet nodes so they subclass from PreprocessedControlInvocation, and only need to override run_processor(image) (instead of reimplementing invoke()) * changes to base class for controlnet nodes * Added HED, LineArt, and OpenPose ControlNet nodes * Added more preprocessor nodes for: MidasDepth ZoeDepth MLSD NormalBae Pidi LineartAnime ContentShuffle Removed pil_output options, ControlNet preprocessors should always output as PIL. Removed diagnostics and other general cleanup. * Prep for splitting pre-processor and controlnet nodes * Refactored controlnet nodes: split out controlnet stuff into separate node, stripped controlnet stuff form image processing/analysis nodes. * Added resizing of controlnet image based on noise latent. Fixes a tensor mismatch issue. * Added support for using multiple control nets. Unfortunately this breaks direct usage of Control node output port ==> TextToLatent control input port -- passing through a Collect node is now required. Working on fixing this... * Fixed use of ControlNet control_weight parameter * Core implementation of ControlNet and MultiControlNet. * Added first controlnet preprocessor node for canny edge detection. * Initial port of controlnet node support from generator-based TextToImageInvocation node to latent-based TextToLatentsInvocation node * Switching to ControlField for output from controlnet nodes. * Refactored controlnet node to output ControlField that bundles control info. * changes to base class for controlnet nodes * Added more preprocessor nodes for: MidasDepth ZoeDepth MLSD NormalBae Pidi LineartAnime ContentShuffle Removed pil_output options, ControlNet preprocessors should always output as PIL. Removed diagnostics and other general cleanup. * Prep for splitting pre-processor and controlnet nodes * Refactored controlnet nodes: split out controlnet stuff into separate node, stripped controlnet stuff form image processing/analysis nodes. * Added resizing of controlnet image based on noise latent. Fixes a tensor mismatch issue. * Cleaning up TextToLatent arg testing * Cleaning up mistakes after rebase. * Removed last bits of dtype and and device hardwiring from controlnet section * Refactored ControNet support to consolidate multiple parameters into data struct. Also redid how multiple controlnets are handled. * Added support for specifying which step iteration to start using each ControlNet, and which step to end using each controlnet (specified as fraction of total steps) * Cleaning up prior to submitting ControlNet PR. Mostly turning off diagnostic printing. Also fixed error when there is no controlnet input. * Commented out ZoeDetector. Will re-instate once there's a controlnet-aux release that supports it. * Switched CotrolNet node modelname input from free text to default list of popular ControlNet model names. * Fix to work with current stable release of controlnet_aux (v0.0.3). Turned of pre-processor params that were added post v0.0.3. Also change defaults for shuffle. * Refactored most of controlnet code into its own method to declutter TextToLatents.invoke(), and make upcoming integration with LatentsToLatents easier. * Cleaning up after ControlNet refactor in TextToLatentsInvocation * Extended node-based ControlNet support to LatentsToLatentsInvocation. * chore(ui): regen api client * fix(ui): fix node ui type hints * fix(nodes): controlnet input accepts list or single controlnet * Added Mediapipe image processor for use as ControlNet preprocessor. Also hacked in ability to specify HF subfolder when loading ControlNet models from string. * Fixed bug where MediapipFaceProcessorInvocation was ignoring max_faces and min_confidence params. * Added nodes for float params: ParamFloatInvocation and FloatCollectionOutput. Also added FloatOutput. * Added mediapipe install requirement. Should be able to remove once controlnet_aux package adds mediapipe to its requirements. * Added float to FIELD_TYPE_MAP ins constants.ts * Progress toward improvement in fieldTemplateBuilder.ts getFieldType() * Fixed controlnet preprocessors and controlnet handling in TextToLatents to work with revised Image services. * Cleaning up from merge, re-adding cfg_scale to FIELD_TYPE_MAP * Making sure cfg_scale of type list[float] can be used in image metadata, to support param easing for cfg_scale * Fixed math for per-step param easing. * Added option to show plot of param value at each step * Just cleaning up after adding param easing plot option, removing vestigial code. * Modified control_weight ControlNet param to be polistmorphic -- can now be either a single float weight applied for all steps, or a list of floats of size total_steps, that specifies weight for each step. * Added more informative error message when _validat_edge() throws an error. * Just improving parm easing bar chart title to include easing type. * Added requirement for easing-functions package * Taking out some diagnostic prints. * Added option to use both easing function and mirror of easing function together. * Fixed recently introduced problem (when pulled in main), triggered by num_steps in StepParamEasingInvocation not having a default value -- just added default. --------- Co-authored-by: psychedelicious <4822129+psychedelicious@users.noreply.github.com>
2023-06-11 06:27:44 +00:00
conditioning_scale=controlnet_weight,
# cross_attention_kwargs,
guess_mode=False,
return_dict=False,
)
if down_block_res_samples is None and mid_block_res_sample is None:
down_block_res_samples, mid_block_res_sample = down_samples, mid_sample
else:
# add controlnet outputs together if have multiple controlnets
down_block_res_samples = [
samples_prev + samples_curr
for samples_prev, samples_curr in zip(down_block_res_samples, down_samples)
]
mid_block_res_sample += mid_sample
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# predict the noise residual
noise_pred = self.invokeai_diffuser.do_diffusion_step(
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latent_model_input,
t,
conditioning_data.unconditioned_embeddings,
conditioning_data.text_embeddings,
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conditioning_data.guidance_scale,
step_index=step_index,
total_step_count=total_step_count,
down_block_additional_residuals=down_block_res_samples, # from controlnet(s)
mid_block_additional_residual=mid_block_res_sample, # from controlnet(s)
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)
# compute the previous noisy sample x_t -> x_t-1
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step_output = self.scheduler.step(
noise_pred, timestep, latents, **conditioning_data.scheduler_args
)
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# TODO: this additional_guidance extension point feels redundant with InvokeAIDiffusionComponent.
# But the way things are now, scheduler runs _after_ that, so there was
# no way to use it to apply an operation that happens after the last scheduler.step.
for guidance in additional_guidance:
step_output = guidance(step_output, timestep, conditioning_data)
return step_output
2023-03-03 06:02:00 +00:00
def _unet_forward(
self,
latents,
t,
text_embeddings,
cross_attention_kwargs: Optional[dict[str, Any]] = None,
**kwargs,
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):
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"""predict the noise residual"""
if is_inpainting_model(self.unet) and latents.size(1) == 4:
# Pad out normal non-inpainting inputs for an inpainting model.
# FIXME: There are too many layers of functions and we have too many different ways of
# overriding things! This should get handled in a way more consistent with the other
# use of AddsMaskLatents.
latents = AddsMaskLatents(
self._unet_forward,
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mask=torch.ones_like(
latents[:1, :1], device=latents.device, dtype=latents.dtype
),
initial_image_latents=torch.zeros_like(
latents[:1], device=latents.device, dtype=latents.dtype
),
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).add_mask_channels(latents)
# First three args should be positional, not keywords, so torch hooks can see them.
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return self.unet(
latents, t, text_embeddings, cross_attention_kwargs=cross_attention_kwargs,
**kwargs,
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).sample
def img2img_from_embeddings(
self,
init_image: Union[torch.FloatTensor, PIL.Image.Image],
strength: float,
num_inference_steps: int,
conditioning_data: ConditioningData,
*,
callback: Callable[[PipelineIntermediateState], None] = None,
run_id=None,
noise_func=None,
seed=None,
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) -> InvokeAIStableDiffusionPipelineOutput:
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if isinstance(init_image, PIL.Image.Image):
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init_image = image_resized_to_grid_as_tensor(init_image.convert("RGB"))
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if init_image.dim() == 3:
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init_image = einops.rearrange(init_image, "c h w -> 1 c h w")
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# 6. Prepare latent variables
initial_latents = self.non_noised_latents_from_image(
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init_image,
device=self._model_group.device_for(self.unet),
dtype=self.unet.dtype,
)
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if seed is not None:
set_seed(seed)
noise = noise_func(initial_latents)
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return self.img2img_from_latents_and_embeddings(
initial_latents,
num_inference_steps,
conditioning_data,
strength,
noise,
run_id,
callback,
)
def img2img_from_latents_and_embeddings(
self,
initial_latents,
num_inference_steps,
conditioning_data: ConditioningData,
strength,
noise: torch.Tensor,
run_id=None,
callback=None,
) -> InvokeAIStableDiffusionPipelineOutput:
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timesteps, _ = self.get_img2img_timesteps(num_inference_steps, strength)
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result_latents, result_attention_maps = self.latents_from_embeddings(
latents=initial_latents if strength < 1.0 else torch.zeros_like(
initial_latents, device=initial_latents.device, dtype=initial_latents.dtype
),
num_inference_steps=num_inference_steps,
conditioning_data=conditioning_data,
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timesteps=timesteps,
noise=noise,
run_id=run_id,
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callback=callback,
)
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# https://discuss.huggingface.co/t/memory-usage-by-later-pipeline-stages/23699
torch.cuda.empty_cache()
with torch.inference_mode():
image = self.decode_latents(result_latents)
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output = InvokeAIStableDiffusionPipelineOutput(
images=image,
nsfw_content_detected=[],
attention_map_saver=result_attention_maps,
)
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return self.check_for_safety(output, dtype=conditioning_data.dtype)
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def get_img2img_timesteps(
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self, num_inference_steps: int, strength: float, device=None
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) -> (torch.Tensor, int):
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img2img_pipeline = StableDiffusionImg2ImgPipeline(**self.components)
assert img2img_pipeline.scheduler is self.scheduler
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if self.scheduler.config.get("cpu_only", False):
scheduler_device = torch.device('cpu')
else:
scheduler_device = self._model_group.device_for(self.unet)
img2img_pipeline.scheduler.set_timesteps(num_inference_steps, device=scheduler_device)
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timesteps, adjusted_steps = img2img_pipeline.get_timesteps(
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num_inference_steps, strength, device=scheduler_device
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)
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# Workaround for low strength resulting in zero timesteps.
# TODO: submit upstream fix for zero-step img2img
if timesteps.numel() == 0:
timesteps = self.scheduler.timesteps[-1:]
adjusted_steps = timesteps.numel()
return timesteps, adjusted_steps
def inpaint_from_embeddings(
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self,
init_image: torch.FloatTensor,
mask: torch.FloatTensor,
strength: float,
num_inference_steps: int,
conditioning_data: ConditioningData,
*,
callback: Callable[[PipelineIntermediateState], None] = None,
run_id=None,
noise_func=None,
seed=None,
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) -> InvokeAIStableDiffusionPipelineOutput:
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device = self._model_group.device_for(self.unet)
latents_dtype = self.unet.dtype
if isinstance(init_image, PIL.Image.Image):
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init_image = image_resized_to_grid_as_tensor(init_image.convert("RGB"))
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init_image = init_image.to(device=device, dtype=latents_dtype)
mask = mask.to(device=device, dtype=latents_dtype)
if init_image.dim() == 3:
init_image = init_image.unsqueeze(0)
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timesteps, _ = self.get_img2img_timesteps(num_inference_steps, strength)
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# 6. Prepare latent variables
# can't quite use upstream StableDiffusionImg2ImgPipeline.prepare_latents
# because we have our own noise function
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init_image_latents = self.non_noised_latents_from_image(
init_image, device=device, dtype=latents_dtype
)
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if seed is not None:
set_seed(seed)
noise = noise_func(init_image_latents)
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if mask.dim() == 3:
mask = mask.unsqueeze(0)
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latent_mask = tv_resize(
mask, init_image_latents.shape[-2:], T.InterpolationMode.BILINEAR
).to(device=device, dtype=latents_dtype)
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guidance: List[Callable] = []
if is_inpainting_model(self.unet):
# You'd think the inpainting model wouldn't be paying attention to the area it is going to repaint
# (that's why there's a mask!) but it seems to really want that blanked out.
masked_init_image = init_image * torch.where(mask < 0.5, 1, 0)
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masked_latents = self.non_noised_latents_from_image(
masked_init_image, device=device, dtype=latents_dtype
)
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# TODO: we should probably pass this in so we don't have to try/finally around setting it.
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self.invokeai_diffuser.model_forward_callback = AddsMaskLatents(
self._unet_forward, latent_mask, masked_latents
)
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else:
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guidance.append(
AddsMaskGuidance(latent_mask, init_image_latents, self.scheduler, noise)
)
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try:
result_latents, result_attention_maps = self.latents_from_embeddings(
latents=init_image_latents if strength < 1.0 else torch.zeros_like(
init_image_latents, device=init_image_latents.device, dtype=init_image_latents.dtype
),
num_inference_steps=num_inference_steps,
conditioning_data=conditioning_data,
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noise=noise,
timesteps=timesteps,
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additional_guidance=guidance,
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run_id=run_id,
callback=callback,
)
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finally:
self.invokeai_diffuser.model_forward_callback = self._unet_forward
# https://discuss.huggingface.co/t/memory-usage-by-later-pipeline-stages/23699
torch.cuda.empty_cache()
with torch.inference_mode():
image = self.decode_latents(result_latents)
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output = InvokeAIStableDiffusionPipelineOutput(
images=image,
nsfw_content_detected=[],
attention_map_saver=result_attention_maps,
)
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return self.check_for_safety(output, dtype=conditioning_data.dtype)
def non_noised_latents_from_image(self, init_image, *, device: torch.device, dtype):
init_image = init_image.to(device=device, dtype=dtype)
with torch.inference_mode():
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if device.type == "mps":
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# workaround for torch MPS bug that has been fixed in https://github.com/kulinseth/pytorch/pull/222
# TODO remove this workaround once kulinseth#222 is merged to pytorch mainline
self.vae.to(CPU_DEVICE)
init_image = init_image.to(CPU_DEVICE)
else:
self._model_group.load(self.vae)
init_latent_dist = self.vae.encode(init_image).latent_dist
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init_latents = init_latent_dist.sample().to(
dtype=dtype
) # FIXME: uses torch.randn. make reproducible!
if device.type == "mps":
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self.vae.to(device)
init_latents = init_latents.to(device)
init_latents = 0.18215 * init_latents
return init_latents
def check_for_safety(self, output, dtype):
with torch.inference_mode():
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screened_images, has_nsfw_concept = self.run_safety_checker(
output.images, dtype=dtype
)
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screened_attention_map_saver = None
if has_nsfw_concept is None or not has_nsfw_concept:
screened_attention_map_saver = output.attention_map_saver
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return InvokeAIStableDiffusionPipelineOutput(
screened_images,
has_nsfw_concept,
# block the attention maps if NSFW content is detected
attention_map_saver=screened_attention_map_saver,
)
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def run_safety_checker(self, image, device=None, dtype=None):
# overriding to use the model group for device info instead of requiring the caller to know.
if self.safety_checker is not None:
device = self._model_group.device_for(self.safety_checker)
return super().run_safety_checker(image, device, dtype)
@torch.inference_mode()
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def get_learned_conditioning(
self, c: List[List[str]], *, return_tokens=True, fragment_weights=None
):
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"""
Compatibility function for invokeai.models.diffusion.ddpm.LatentDiffusion.
"""
return self.embeddings_provider.get_embeddings_for_weighted_prompt_fragments(
text_batch=c,
fragment_weights_batch=fragment_weights,
should_return_tokens=return_tokens,
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device=self._model_group.device_for(self.unet),
)
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@property
def channels(self) -> int:
"""Compatible with DiffusionWrapper"""
return self.unet.config.in_channels
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def decode_latents(self, latents):
# Explicit call to get the vae loaded, since `decode` isn't the forward method.
self._model_group.load(self.vae)
return super().decode_latents(latents)
def debug_latents(self, latents, msg):
from invokeai.backend.image_util import debug_image
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with torch.inference_mode():
decoded = self.numpy_to_pil(self.decode_latents(latents))
for i, img in enumerate(decoded):
debug_image(
img, f"latents {msg} {i+1}/{len(decoded)}", debug_status=True
)
# Copied from diffusers pipeline_stable_diffusion_controlnet.py
# Returns torch.Tensor of shape (batch_size, 3, height, width)
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@staticmethod
def prepare_control_image(
image,
# FIXME: need to fix hardwiring of width and height, change to basing on latents dimensions?
# latents,
width=512, # should be 8 * latent.shape[3]
height=512, # should be 8 * latent height[2]
batch_size=1,
num_images_per_prompt=1,
device="cuda",
dtype=torch.float16,
do_classifier_free_guidance=True,
):
if not isinstance(image, torch.Tensor):
if isinstance(image, PIL.Image.Image):
image = [image]
if isinstance(image[0], PIL.Image.Image):
images = []
for image_ in image:
image_ = image_.convert("RGB")
image_ = image_.resize((width, height), resample=PIL_INTERPOLATION["lanczos"])
image_ = np.array(image_)
image_ = image_[None, :]
images.append(image_)
image = images
image = np.concatenate(image, axis=0)
image = np.array(image).astype(np.float32) / 255.0
image = image.transpose(0, 3, 1, 2)
image = torch.from_numpy(image)
elif isinstance(image[0], torch.Tensor):
image = torch.cat(image, dim=0)
image_batch_size = image.shape[0]
if image_batch_size == 1:
repeat_by = batch_size
else:
# image batch size is the same as prompt batch size
repeat_by = num_images_per_prompt
image = image.repeat_interleave(repeat_by, dim=0)
image = image.to(device=device, dtype=dtype)
if do_classifier_free_guidance:
image = torch.cat([image] * 2)
return image