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control-lora-v3 / unet.py

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	from typing import Any, Dict, List, Optional, Tuple, Union

	import copy
	import torch
	from torch import nn, svd_lowrank

	from peft.tuners.lora import LoraLayer, Conv2d as PeftConv2d
	from diffusers.configuration_utils import register_to_config
	from diffusers.models.unets.unet_2d_condition import UNet2DConditionOutput, UNet2DConditionModel as UNet2DConditionModel


	class UNet2DConditionModelEx(UNet2DConditionModel):
	@register_to_config
	def __init__(
	self,
	sample_size: Optional[int] = None,
	in_channels: int = 4,
	out_channels: int = 4,
	center_input_sample: bool = False,
	flip_sin_to_cos: bool = True,
	freq_shift: int = 0,
	down_block_types: Tuple[str] = (
	"CrossAttnDownBlock2D",
	"CrossAttnDownBlock2D",
	"CrossAttnDownBlock2D",
	"DownBlock2D",
	),
	mid_block_type: Optional[str] = "UNetMidBlock2DCrossAttn",
	up_block_types: Tuple[str] = ("UpBlock2D", "CrossAttnUpBlock2D", "CrossAttnUpBlock2D", "CrossAttnUpBlock2D"),
	only_cross_attention: Union[bool, Tuple[bool]] = False,
	block_out_channels: Tuple[int] = (320, 640, 1280, 1280),
	layers_per_block: Union[int, Tuple[int]] = 2,
	downsample_padding: int = 1,
	mid_block_scale_factor: float = 1,
	dropout: float = 0.0,
	act_fn: str = "silu",
	norm_num_groups: Optional[int] = 32,
	norm_eps: float = 1e-5,
	cross_attention_dim: Union[int, Tuple[int]] = 1280,
	transformer_layers_per_block: Union[int, Tuple[int], Tuple[Tuple]] = 1,
	reverse_transformer_layers_per_block: Optional[Tuple[Tuple[int]]] = None,
	encoder_hid_dim: Optional[int] = None,
	encoder_hid_dim_type: Optional[str] = None,
	attention_head_dim: Union[int, Tuple[int]] = 8,
	num_attention_heads: Optional[Union[int, Tuple[int]]] = None,
	dual_cross_attention: bool = False,
	use_linear_projection: bool = False,
	class_embed_type: Optional[str] = None,
	addition_embed_type: Optional[str] = None,
	addition_time_embed_dim: Optional[int] = None,
	num_class_embeds: Optional[int] = None,
	upcast_attention: bool = False,
	resnet_time_scale_shift: str = "default",
	resnet_skip_time_act: bool = False,
	resnet_out_scale_factor: float = 1.0,
	time_embedding_type: str = "positional",
	time_embedding_dim: Optional[int] = None,
	time_embedding_act_fn: Optional[str] = None,
	timestep_post_act: Optional[str] = None,
	time_cond_proj_dim: Optional[int] = None,
	conv_in_kernel: int = 3,
	conv_out_kernel: int = 3,
	projection_class_embeddings_input_dim: Optional[int] = None,
	attention_type: str = "default",
	class_embeddings_concat: bool = False,
	mid_block_only_cross_attention: Optional[bool] = None,
	cross_attention_norm: Optional[str] = None,
	addition_embed_type_num_heads: int = 64,
	extra_condition_names: List[str] = [],
	):
	num_extra_conditions = len(extra_condition_names)
	super().__init__(
	sample_size=sample_size,
	in_channels=in_channels * (1 + num_extra_conditions),
	out_channels=out_channels,
	center_input_sample=center_input_sample,
	flip_sin_to_cos=flip_sin_to_cos,
	freq_shift=freq_shift,
	down_block_types=down_block_types,
	mid_block_type=mid_block_type,
	up_block_types=up_block_types,
	only_cross_attention=only_cross_attention,
	block_out_channels=block_out_channels,
	layers_per_block=layers_per_block,
	downsample_padding=downsample_padding,
	mid_block_scale_factor=mid_block_scale_factor,
	dropout=dropout,
	act_fn=act_fn,
	norm_num_groups=norm_num_groups,
	norm_eps=norm_eps,
	cross_attention_dim=cross_attention_dim,
	transformer_layers_per_block=transformer_layers_per_block,
	reverse_transformer_layers_per_block=reverse_transformer_layers_per_block,
	encoder_hid_dim=encoder_hid_dim,
	encoder_hid_dim_type=encoder_hid_dim_type,
	attention_head_dim=attention_head_dim,
	num_attention_heads=num_attention_heads,
	dual_cross_attention=dual_cross_attention,
	use_linear_projection=use_linear_projection,
	class_embed_type=class_embed_type,
	addition_embed_type=addition_embed_type,
	addition_time_embed_dim=addition_time_embed_dim,
	num_class_embeds=num_class_embeds,
	upcast_attention=upcast_attention,
	resnet_time_scale_shift=resnet_time_scale_shift,
	resnet_skip_time_act=resnet_skip_time_act,
	resnet_out_scale_factor=resnet_out_scale_factor,
	time_embedding_type=time_embedding_type,
	time_embedding_dim=time_embedding_dim,
	time_embedding_act_fn=time_embedding_act_fn,
	timestep_post_act=timestep_post_act,
	time_cond_proj_dim=time_cond_proj_dim,
	conv_in_kernel=conv_in_kernel,
	conv_out_kernel=conv_out_kernel,
	projection_class_embeddings_input_dim=projection_class_embeddings_input_dim,
	attention_type=attention_type,
	class_embeddings_concat=class_embeddings_concat,
	mid_block_only_cross_attention=mid_block_only_cross_attention,
	cross_attention_norm=cross_attention_norm,
	addition_embed_type_num_heads=addition_embed_type_num_heads,)
	self._internal_dict = copy.deepcopy(self._internal_dict)
	self.config.in_channels = in_channels
	self.config.extra_condition_names = extra_condition_names

	@property
	def extra_condition_names(self) -> List[str]:
	return self.config.extra_condition_names

	def add_extra_conditions(self, extra_condition_names: Union[str, List[str]]):
	if isinstance(extra_condition_names, str):
	extra_condition_names = [extra_condition_names]
	conv_in_kernel = self.config.conv_in_kernel
	conv_in_weight = self.conv_in.weight
	self.config.extra_condition_names += extra_condition_names
	full_in_channels = self.config.in_channels * (1 + len(self.config.extra_condition_names))
	new_conv_in_weight = torch.zeros(
	conv_in_weight.shape[0], full_in_channels, conv_in_kernel, conv_in_kernel,
	dtype=conv_in_weight.dtype,
	device=conv_in_weight.device,)
	new_conv_in_weight[:,:conv_in_weight.shape[1]] = conv_in_weight
	self.conv_in.weight = nn.Parameter(
	new_conv_in_weight.data,
	requires_grad=conv_in_weight.requires_grad,)
	self.conv_in.in_channels = full_in_channels

	return self

	def activate_extra_condition_adapters(self):
	lora_layers = [layer for layer in self.modules() if isinstance(layer, LoraLayer)]
	if len(lora_layers) > 0:
	self._hf_peft_config_loaded = True
	for lora_layer in lora_layers:
	adapter_names = [k for k in lora_layer.scaling.keys() if k in self.config.extra_condition_names]
	adapter_names += lora_layer.active_adapters
	adapter_names = list(set(adapter_names))
	lora_layer.set_adapter(adapter_names)

	def set_extra_condition_scale(self, scale: Union[float, List[float]] = 1.0):
	if isinstance(scale, float):
	scale = [scale] * len(self.config.extra_condition_names)

	lora_layers = [layer for layer in self.modules() if isinstance(layer, LoraLayer)]
	for s, n in zip(scale, self.config.extra_condition_names):
	for lora_layer in lora_layers:
	lora_layer.set_scale(n, s)

	@property
	def default_half_lora_target_modules(self) -> List[str]:
	module_names = []
	for name, module in self.named_modules():
	if "conv_out" in name or "up_blocks" in name:
	continue
	if isinstance(module, (nn.Linear, nn.Conv2d)):
	module_names.append(name)
	return list(set(module_names))

	@property
	def default_full_lora_target_modules(self) -> List[str]:
	module_names = []
	for name, module in self.named_modules():
	if isinstance(module, (nn.Linear, nn.Conv2d)):
	module_names.append(name)
	return list(set(module_names))

	@property
	def default_half_skip_attn_lora_target_modules(self) -> List[str]:
	return [
	module_name
	for module_name in self.default_half_lora_target_modules
	if all(
	not module_name.endswith(attn_name)
	for attn_name in
	["to_k", "to_q", "to_v", "to_out.0"]
	)
	]

	@property
	def default_full_skip_attn_lora_target_modules(self) -> List[str]:
	return [
	module_name
	for module_name in self.default_full_lora_target_modules
	if all(
	not module_name.endswith(attn_name)
	for attn_name in
	["to_k", "to_q", "to_v", "to_out.0"]
	)
	]

	def forward(
	self,
	sample: torch.Tensor,
	timestep: Union[torch.Tensor, float, int],
	encoder_hidden_states: torch.Tensor,
	class_labels: Optional[torch.Tensor] = None,
	timestep_cond: Optional[torch.Tensor] = None,
	attention_mask: Optional[torch.Tensor] = None,
	cross_attention_kwargs: Optional[Dict[str, Any]] = None,
	added_cond_kwargs: Optional[Dict[str, torch.Tensor]] = None,
	down_block_additional_residuals: Optional[Tuple[torch.Tensor]] = None,
	mid_block_additional_residual: Optional[torch.Tensor] = None,
	down_intrablock_additional_residuals: Optional[Tuple[torch.Tensor]] = None,
	encoder_attention_mask: Optional[torch.Tensor] = None,
	extra_conditions: Optional[Union[torch.Tensor, List[torch.Tensor]]] = None,
	return_dict: bool = True,
	) -> Union[UNet2DConditionOutput, Tuple]:
	if extra_conditions is not None:
	if isinstance(extra_conditions, list):
	extra_conditions = torch.cat(extra_conditions, dim=1)
	sample = torch.cat([sample, extra_conditions], dim=1)
	return super().forward(
	sample=sample,
	timestep=timestep,
	encoder_hidden_states=encoder_hidden_states,
	class_labels=class_labels,
	timestep_cond=timestep_cond,
	attention_mask=attention_mask,
	cross_attention_kwargs=cross_attention_kwargs,
	added_cond_kwargs=added_cond_kwargs,
	down_block_additional_residuals=down_block_additional_residuals,
	mid_block_additional_residual=mid_block_additional_residual,
	down_intrablock_additional_residuals=down_intrablock_additional_residuals,
	encoder_attention_mask=encoder_attention_mask,
	return_dict=return_dict,)


	class PeftConv2dEx(PeftConv2d):
	def reset_lora_parameters(self, adapter_name, init_lora_weights):
	if init_lora_weights is False:
	return

	if isinstance(init_lora_weights, str) and "pissa" in init_lora_weights.lower():
	if self.conv2d_pissa_init(adapter_name, init_lora_weights):
	return
	# Failed
	init_lora_weights = "gaussian"

	super(PeftConv2d, self).reset_lora_parameters(adapter_name, init_lora_weights)

	def conv2d_pissa_init(self, adapter_name, init_lora_weights):
	weight = weight_ori = self.get_base_layer().weight
	weight = weight.flatten(start_dim=1)
	if self.r[adapter_name] > weight.shape[0]:
	return False
	dtype = weight.dtype
	if dtype not in [torch.float32, torch.float16, torch.bfloat16]:
	raise TypeError(
	"Please initialize PiSSA under float32, float16, or bfloat16. "
	"Subsequently, re-quantize the residual model to help minimize quantization errors."
	)
	weight = weight.to(torch.float32)

	if init_lora_weights == "pissa":
	# USV^T = W <-> VSU^T = W^T, where W^T = weight.data in R^{out_channel, in_channel},
	V, S, Uh = torch.linalg.svd(weight.data, full_matrices=False)
	Vr = V[:, : self.r[adapter_name]]
	Sr = S[: self.r[adapter_name]]
	Sr /= self.scaling[adapter_name]
	Uhr = Uh[: self.r[adapter_name]]
	elif len(init_lora_weights.split("_niter_")) == 2:
	Vr, Sr, Ur = svd_lowrank(
	weight.data, self.r[adapter_name], niter=int(init_lora_weights.split("_niter_")[-1])
	)
	Sr /= self.scaling[adapter_name]
	Uhr = Ur.t()
	else:
	raise ValueError(
	f"init_lora_weights should be 'pissa' or 'pissa_niter_[number of iters]', got {init_lora_weights} instead."
	)

	lora_A = torch.diag(torch.sqrt(Sr)) @ Uhr
	lora_B = Vr @ torch.diag(torch.sqrt(Sr))
	self.lora_A[adapter_name].weight.data = lora_A.view([-1] + list(weight_ori.shape[1:]))
	self.lora_B[adapter_name].weight.data = lora_B.view([-1, self.r[adapter_name]] + [1] * (weight_ori.ndim - 2))
	weight = weight.data - self.scaling[adapter_name] * lora_B @ lora_A
	weight = weight.to(dtype)
	self.get_base_layer().weight.data = weight.view_as(weight_ori)

	return True


	# Patch peft conv2d
	PeftConv2d.reset_lora_parameters = PeftConv2dEx.reset_lora_parameters
	PeftConv2d.conv2d_pissa_init = PeftConv2dEx.conv2d_pissa_init