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from typing import Optional, Tuple, Union |
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import torch |
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import torch.nn.functional as F |
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from torch import nn |
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from ..utils import deprecate, logging |
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from ..utils.import_utils import is_transformers_available |
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if is_transformers_available(): |
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from transformers import CLIPTextModel, CLIPTextModelWithProjection |
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logger = logging.get_logger(__name__) |
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def text_encoder_attn_modules(text_encoder): |
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attn_modules = [] |
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if isinstance(text_encoder, (CLIPTextModel, CLIPTextModelWithProjection)): |
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for i, layer in enumerate(text_encoder.text_model.encoder.layers): |
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name = f"text_model.encoder.layers.{i}.self_attn" |
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mod = layer.self_attn |
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attn_modules.append((name, mod)) |
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else: |
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raise ValueError(f"do not know how to get attention modules for: {text_encoder.__class__.__name__}") |
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return attn_modules |
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def text_encoder_mlp_modules(text_encoder): |
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mlp_modules = [] |
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if isinstance(text_encoder, (CLIPTextModel, CLIPTextModelWithProjection)): |
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for i, layer in enumerate(text_encoder.text_model.encoder.layers): |
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mlp_mod = layer.mlp |
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name = f"text_model.encoder.layers.{i}.mlp" |
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mlp_modules.append((name, mlp_mod)) |
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else: |
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raise ValueError(f"do not know how to get mlp modules for: {text_encoder.__class__.__name__}") |
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return mlp_modules |
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def adjust_lora_scale_text_encoder(text_encoder, lora_scale: float = 1.0): |
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for _, attn_module in text_encoder_attn_modules(text_encoder): |
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if isinstance(attn_module.q_proj, PatchedLoraProjection): |
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attn_module.q_proj.lora_scale = lora_scale |
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attn_module.k_proj.lora_scale = lora_scale |
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attn_module.v_proj.lora_scale = lora_scale |
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attn_module.out_proj.lora_scale = lora_scale |
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for _, mlp_module in text_encoder_mlp_modules(text_encoder): |
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if isinstance(mlp_module.fc1, PatchedLoraProjection): |
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mlp_module.fc1.lora_scale = lora_scale |
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mlp_module.fc2.lora_scale = lora_scale |
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class PatchedLoraProjection(torch.nn.Module): |
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def __init__(self, regular_linear_layer, lora_scale=1, network_alpha=None, rank=4, dtype=None): |
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deprecation_message = "Use of `PatchedLoraProjection` is deprecated. Please switch to PEFT backend by installing PEFT: `pip install peft`." |
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deprecate("PatchedLoraProjection", "1.0.0", deprecation_message) |
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super().__init__() |
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from ..models.lora import LoRALinearLayer |
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self.regular_linear_layer = regular_linear_layer |
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device = self.regular_linear_layer.weight.device |
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if dtype is None: |
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dtype = self.regular_linear_layer.weight.dtype |
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self.lora_linear_layer = LoRALinearLayer( |
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self.regular_linear_layer.in_features, |
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self.regular_linear_layer.out_features, |
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network_alpha=network_alpha, |
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device=device, |
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dtype=dtype, |
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rank=rank, |
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) |
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self.lora_scale = lora_scale |
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def state_dict(self, *args, destination=None, prefix="", keep_vars=False): |
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if self.lora_linear_layer is None: |
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return self.regular_linear_layer.state_dict( |
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*args, destination=destination, prefix=prefix, keep_vars=keep_vars |
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) |
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return super().state_dict(*args, destination=destination, prefix=prefix, keep_vars=keep_vars) |
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def _fuse_lora(self, lora_scale=1.0, safe_fusing=False): |
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if self.lora_linear_layer is None: |
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return |
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dtype, device = self.regular_linear_layer.weight.data.dtype, self.regular_linear_layer.weight.data.device |
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w_orig = self.regular_linear_layer.weight.data.float() |
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w_up = self.lora_linear_layer.up.weight.data.float() |
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w_down = self.lora_linear_layer.down.weight.data.float() |
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if self.lora_linear_layer.network_alpha is not None: |
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w_up = w_up * self.lora_linear_layer.network_alpha / self.lora_linear_layer.rank |
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fused_weight = w_orig + (lora_scale * torch.bmm(w_up[None, :], w_down[None, :])[0]) |
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if safe_fusing and torch.isnan(fused_weight).any().item(): |
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raise ValueError( |
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"This LoRA weight seems to be broken. " |
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f"Encountered NaN values when trying to fuse LoRA weights for {self}." |
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"LoRA weights will not be fused." |
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) |
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self.regular_linear_layer.weight.data = fused_weight.to(device=device, dtype=dtype) |
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self.lora_linear_layer = None |
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self.w_up = w_up.cpu() |
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self.w_down = w_down.cpu() |
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self.lora_scale = lora_scale |
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def _unfuse_lora(self): |
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if not (getattr(self, "w_up", None) is not None and getattr(self, "w_down", None) is not None): |
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return |
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fused_weight = self.regular_linear_layer.weight.data |
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dtype, device = fused_weight.dtype, fused_weight.device |
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w_up = self.w_up.to(device=device).float() |
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w_down = self.w_down.to(device).float() |
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unfused_weight = fused_weight.float() - (self.lora_scale * torch.bmm(w_up[None, :], w_down[None, :])[0]) |
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self.regular_linear_layer.weight.data = unfused_weight.to(device=device, dtype=dtype) |
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self.w_up = None |
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self.w_down = None |
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def forward(self, input): |
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if self.lora_scale is None: |
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self.lora_scale = 1.0 |
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if self.lora_linear_layer is None: |
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return self.regular_linear_layer(input) |
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return self.regular_linear_layer(input) + (self.lora_scale * self.lora_linear_layer(input)) |
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class LoRALinearLayer(nn.Module): |
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r""" |
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A linear layer that is used with LoRA. |
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Parameters: |
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in_features (`int`): |
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Number of input features. |
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out_features (`int`): |
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Number of output features. |
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rank (`int`, `optional`, defaults to 4): |
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The rank of the LoRA layer. |
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network_alpha (`float`, `optional`, defaults to `None`): |
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The value of the network alpha used for stable learning and preventing underflow. This value has the same |
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meaning as the `--network_alpha` option in the kohya-ss trainer script. See |
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https://github.com/darkstorm2150/sd-scripts/blob/main/docs/train_network_README-en.md#execute-learning |
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device (`torch.device`, `optional`, defaults to `None`): |
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The device to use for the layer's weights. |
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dtype (`torch.dtype`, `optional`, defaults to `None`): |
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The dtype to use for the layer's weights. |
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""" |
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def __init__( |
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self, |
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in_features: int, |
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out_features: int, |
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rank: int = 4, |
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network_alpha: Optional[float] = None, |
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device: Optional[Union[torch.device, str]] = None, |
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dtype: Optional[torch.dtype] = None, |
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): |
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super().__init__() |
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deprecation_message = "Use of `LoRALinearLayer` is deprecated. Please switch to PEFT backend by installing PEFT: `pip install peft`." |
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deprecate("LoRALinearLayer", "1.0.0", deprecation_message) |
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self.down = nn.Linear(in_features, rank, bias=False, device=device, dtype=dtype) |
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self.up = nn.Linear(rank, out_features, bias=False, device=device, dtype=dtype) |
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self.network_alpha = network_alpha |
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self.rank = rank |
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self.out_features = out_features |
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self.in_features = in_features |
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nn.init.normal_(self.down.weight, std=1 / rank) |
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nn.init.zeros_(self.up.weight) |
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def forward(self, hidden_states: torch.Tensor) -> torch.Tensor: |
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orig_dtype = hidden_states.dtype |
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dtype = self.down.weight.dtype |
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down_hidden_states = self.down(hidden_states.to(dtype)) |
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up_hidden_states = self.up(down_hidden_states) |
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if self.network_alpha is not None: |
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up_hidden_states *= self.network_alpha / self.rank |
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return up_hidden_states.to(orig_dtype) |
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class LoRAConv2dLayer(nn.Module): |
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r""" |
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A convolutional layer that is used with LoRA. |
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Parameters: |
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in_features (`int`): |
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Number of input features. |
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out_features (`int`): |
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Number of output features. |
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rank (`int`, `optional`, defaults to 4): |
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The rank of the LoRA layer. |
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kernel_size (`int` or `tuple` of two `int`, `optional`, defaults to 1): |
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The kernel size of the convolution. |
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stride (`int` or `tuple` of two `int`, `optional`, defaults to 1): |
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The stride of the convolution. |
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padding (`int` or `tuple` of two `int` or `str`, `optional`, defaults to 0): |
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The padding of the convolution. |
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network_alpha (`float`, `optional`, defaults to `None`): |
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The value of the network alpha used for stable learning and preventing underflow. This value has the same |
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meaning as the `--network_alpha` option in the kohya-ss trainer script. See |
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https://github.com/darkstorm2150/sd-scripts/blob/main/docs/train_network_README-en.md#execute-learning |
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""" |
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def __init__( |
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self, |
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in_features: int, |
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out_features: int, |
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rank: int = 4, |
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kernel_size: Union[int, Tuple[int, int]] = (1, 1), |
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stride: Union[int, Tuple[int, int]] = (1, 1), |
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padding: Union[int, Tuple[int, int], str] = 0, |
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network_alpha: Optional[float] = None, |
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): |
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super().__init__() |
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deprecation_message = "Use of `LoRAConv2dLayer` is deprecated. Please switch to PEFT backend by installing PEFT: `pip install peft`." |
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deprecate("LoRAConv2dLayer", "1.0.0", deprecation_message) |
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self.down = nn.Conv2d(in_features, rank, kernel_size=kernel_size, stride=stride, padding=padding, bias=False) |
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self.up = nn.Conv2d(rank, out_features, kernel_size=(1, 1), stride=(1, 1), bias=False) |
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self.network_alpha = network_alpha |
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self.rank = rank |
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nn.init.normal_(self.down.weight, std=1 / rank) |
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nn.init.zeros_(self.up.weight) |
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def forward(self, hidden_states: torch.Tensor) -> torch.Tensor: |
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orig_dtype = hidden_states.dtype |
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dtype = self.down.weight.dtype |
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down_hidden_states = self.down(hidden_states.to(dtype)) |
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up_hidden_states = self.up(down_hidden_states) |
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if self.network_alpha is not None: |
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up_hidden_states *= self.network_alpha / self.rank |
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return up_hidden_states.to(orig_dtype) |
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class LoRACompatibleConv(nn.Conv2d): |
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""" |
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A convolutional layer that can be used with LoRA. |
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""" |
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def __init__(self, *args, lora_layer: Optional[LoRAConv2dLayer] = None, **kwargs): |
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deprecation_message = "Use of `LoRACompatibleConv` is deprecated. Please switch to PEFT backend by installing PEFT: `pip install peft`." |
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deprecate("LoRACompatibleConv", "1.0.0", deprecation_message) |
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super().__init__(*args, **kwargs) |
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self.lora_layer = lora_layer |
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def set_lora_layer(self, lora_layer: Optional[LoRAConv2dLayer]): |
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deprecation_message = "Use of `set_lora_layer()` is deprecated. Please switch to PEFT backend by installing PEFT: `pip install peft`." |
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deprecate("set_lora_layer", "1.0.0", deprecation_message) |
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self.lora_layer = lora_layer |
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def _fuse_lora(self, lora_scale: float = 1.0, safe_fusing: bool = False): |
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if self.lora_layer is None: |
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return |
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dtype, device = self.weight.data.dtype, self.weight.data.device |
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w_orig = self.weight.data.float() |
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w_up = self.lora_layer.up.weight.data.float() |
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w_down = self.lora_layer.down.weight.data.float() |
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if self.lora_layer.network_alpha is not None: |
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w_up = w_up * self.lora_layer.network_alpha / self.lora_layer.rank |
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fusion = torch.mm(w_up.flatten(start_dim=1), w_down.flatten(start_dim=1)) |
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fusion = fusion.reshape((w_orig.shape)) |
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fused_weight = w_orig + (lora_scale * fusion) |
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if safe_fusing and torch.isnan(fused_weight).any().item(): |
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raise ValueError( |
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"This LoRA weight seems to be broken. " |
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f"Encountered NaN values when trying to fuse LoRA weights for {self}." |
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"LoRA weights will not be fused." |
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) |
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self.weight.data = fused_weight.to(device=device, dtype=dtype) |
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self.lora_layer = None |
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self.w_up = w_up.cpu() |
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self.w_down = w_down.cpu() |
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self._lora_scale = lora_scale |
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def _unfuse_lora(self): |
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if not (getattr(self, "w_up", None) is not None and getattr(self, "w_down", None) is not None): |
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return |
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fused_weight = self.weight.data |
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dtype, device = fused_weight.data.dtype, fused_weight.data.device |
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self.w_up = self.w_up.to(device=device).float() |
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self.w_down = self.w_down.to(device).float() |
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fusion = torch.mm(self.w_up.flatten(start_dim=1), self.w_down.flatten(start_dim=1)) |
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fusion = fusion.reshape((fused_weight.shape)) |
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unfused_weight = fused_weight.float() - (self._lora_scale * fusion) |
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self.weight.data = unfused_weight.to(device=device, dtype=dtype) |
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self.w_up = None |
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self.w_down = None |
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def forward(self, hidden_states: torch.Tensor, scale: float = 1.0) -> torch.Tensor: |
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if self.padding_mode != "zeros": |
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hidden_states = F.pad(hidden_states, self._reversed_padding_repeated_twice, mode=self.padding_mode) |
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padding = (0, 0) |
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else: |
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padding = self.padding |
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original_outputs = F.conv2d( |
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hidden_states, self.weight, self.bias, self.stride, padding, self.dilation, self.groups |
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) |
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if self.lora_layer is None: |
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return original_outputs |
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else: |
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return original_outputs + (scale * self.lora_layer(hidden_states)) |
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|
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class LoRACompatibleLinear(nn.Linear): |
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""" |
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A Linear layer that can be used with LoRA. |
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""" |
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def __init__(self, *args, lora_layer: Optional[LoRALinearLayer] = None, **kwargs): |
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deprecation_message = "Use of `LoRACompatibleLinear` is deprecated. Please switch to PEFT backend by installing PEFT: `pip install peft`." |
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deprecate("LoRACompatibleLinear", "1.0.0", deprecation_message) |
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super().__init__(*args, **kwargs) |
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self.lora_layer = lora_layer |
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def set_lora_layer(self, lora_layer: Optional[LoRALinearLayer]): |
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deprecation_message = "Use of `set_lora_layer()` is deprecated. Please switch to PEFT backend by installing PEFT: `pip install peft`." |
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deprecate("set_lora_layer", "1.0.0", deprecation_message) |
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self.lora_layer = lora_layer |
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def _fuse_lora(self, lora_scale: float = 1.0, safe_fusing: bool = False): |
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if self.lora_layer is None: |
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return |
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dtype, device = self.weight.data.dtype, self.weight.data.device |
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w_orig = self.weight.data.float() |
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w_up = self.lora_layer.up.weight.data.float() |
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w_down = self.lora_layer.down.weight.data.float() |
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if self.lora_layer.network_alpha is not None: |
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w_up = w_up * self.lora_layer.network_alpha / self.lora_layer.rank |
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fused_weight = w_orig + (lora_scale * torch.bmm(w_up[None, :], w_down[None, :])[0]) |
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|
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if safe_fusing and torch.isnan(fused_weight).any().item(): |
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raise ValueError( |
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"This LoRA weight seems to be broken. " |
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f"Encountered NaN values when trying to fuse LoRA weights for {self}." |
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"LoRA weights will not be fused." |
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) |
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self.weight.data = fused_weight.to(device=device, dtype=dtype) |
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self.lora_layer = None |
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self.w_up = w_up.cpu() |
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self.w_down = w_down.cpu() |
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self._lora_scale = lora_scale |
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def _unfuse_lora(self): |
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if not (getattr(self, "w_up", None) is not None and getattr(self, "w_down", None) is not None): |
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return |
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|
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fused_weight = self.weight.data |
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dtype, device = fused_weight.dtype, fused_weight.device |
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w_up = self.w_up.to(device=device).float() |
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w_down = self.w_down.to(device).float() |
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unfused_weight = fused_weight.float() - (self._lora_scale * torch.bmm(w_up[None, :], w_down[None, :])[0]) |
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self.weight.data = unfused_weight.to(device=device, dtype=dtype) |
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self.w_up = None |
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self.w_down = None |
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|
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def forward(self, hidden_states: torch.Tensor, scale: float = 1.0) -> torch.Tensor: |
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if self.lora_layer is None: |
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out = super().forward(hidden_states) |
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return out |
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else: |
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out = super().forward(hidden_states) + (scale * self.lora_layer(hidden_states)) |
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return out |
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