# Copyright 2024-present the HuggingFace Inc. team. # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. from __future__ import annotations from typing import Any, Callable, Optional import torch import torch.nn as nn from torch import Tensor from peft.tuners import lora from .config import XLoraConfig class XLoraLayer: """ A XLoraLayer wraps any LoraLayer and performs the XLora operation on the LoRA adaptors specified. Its primary API is the forward method, which uses the scalings to execute the XLora algorithm. """ def __init__( self, model: nn.Module, # XLoraModel target: lora.LoraLayer, target_forward: Callable[..., Any], layer_number: int, config: XLoraConfig, ) -> None: self.model = model self.target_forward = target_forward self.target = target self.layer_number = layer_number self.config = config """ Apply the scalings for the adapter. """ @staticmethod def apply_scalings_to_x(x: torch.Tensor, scalings_layer: torch.Tensor, adapter: int) -> torch.Tensor: # scalings_layer = [batch_size, seq_len, n_classes] scalings = scalings_layer[:, :, adapter].unsqueeze(-1) # scalings_layer = [batch_size, seq_len, 1] return x * scalings """ Get the scalings for this layer, potentially applying topk and topk+softmax. This is called before `apply_scalings_to_x` """ def get_maybe_topk_scalings(self, scalings) -> torch.Tensor: # xlora_scalings = [batch_size, seq_len, n_classes] xlora_scalings: Tensor = scalings[:, :, self.layer_number, :] # type: ignore if self.config.top_k_lora is not None: _, topk_indices = torch.topk(xlora_scalings, k=self.config.top_k_lora, dim=-1) # Mask the topk to True, the rest to False mask = torch.zeros_like(xlora_scalings, dtype=torch.bool) mask.scatter_(-1, topk_indices, True) xlora_scalings = xlora_scalings * mask.to(xlora_scalings.dtype) if self.config.enable_softmax_topk: nonzero_mask = xlora_scalings != 0 softmax_res_nonzero = torch.softmax(xlora_scalings[nonzero_mask], dim=-1) xlora_scalings[nonzero_mask] = softmax_res_nonzero return xlora_scalings class XLoraLinearLayer(XLoraLayer): def __init__( self, model: nn.Module, target: lora.Linear, target_forward: Callable[..., Any], layer_number: int, config: XLoraConfig, ) -> None: super().__init__(model, target, target_forward, layer_number, config) def forward(self, x: Tensor, *args: Any, scalings: Optional[Tensor] = None, **kwargs: Any) -> Tensor: """ This method is designed to be a drop-in-replacement for the LoRA layers' .forward method. To use it, a bound method must be created (bound to an instance of the XLoraLayer class). """ previous_dtype = x.dtype if scalings is not None: xlora_scalings = self.get_maybe_topk_scalings(scalings) result = self.target.base_layer(x, *args, **kwargs) # Ignore if disabled. We want to make sure this is always run. if not self.target.merged: for adapter_n, active_adapter in enumerate(self.target.active_adapters): if active_adapter not in self.target.lora_A.keys(): continue # TODO: implement X-LoRA with Lora+Dora layers if self.target.use_dora[active_adapter]: raise ValueError("X-LoRA currently does not support LoRA layers with DoRA") lora_A = self.target.lora_A[active_adapter] lora_B = self.target.lora_B[active_adapter] dropout = self.target.lora_dropout[active_adapter] scaling = self.target.scaling[active_adapter] x = x.to(lora_A.weight.dtype) # type: ignore if scalings is not None: x_mod = self.apply_scalings_to_x(x, xlora_scalings, adapter_n) scaling_weight = self.config.global_scaling_weight else: x_mod = x scaling_weight = 1 result += lora_B(lora_A(dropout(x_mod))) * scaling * scaling_weight result = result.to(previous_dtype) return result class XLoraEmbeddingLayer(XLoraLayer): def __init__( self, model: nn.Module, target: lora.Embedding, target_forward: Callable[..., Any], layer_number: int, config: XLoraConfig, ) -> None: super().__init__(model, target, target_forward, layer_number, config) def forward(self, x: Tensor, *args: Any, scalings: Optional[Tensor] = None, **kwargs: Any) -> Tensor: """ This method is designed to be a drop-in-replacement for the LoRA layers' .forward method. To use it, a bound method must be created (bound to an instance of the XLoraLayer class). """ if scalings is not None: xlora_scalings = self.get_maybe_topk_scalings(scalings) result = self.target.base_layer(x, *args, **kwargs) # Ignore if disabled. We want to make sure this is always run. if not self.target.merged: for adapter_n, active_adapter in enumerate(self.target.active_adapters): if active_adapter not in self.target.lora_embedding_A: continue # TODO: implement X-LoRA with Lora+Dora layers if self.target.use_dora.get(active_adapter, False): raise ValueError("X-LoRA currently does not support LoRA layers with DoRA") embedding_A = self.target.lora_embedding_A[active_adapter].T embedding_B = self.target.lora_embedding_B[active_adapter].T scaling = self.target.scaling[active_adapter] after_A = self.target._embed(x, embedding_A) # type: ignore if scalings is not None: after_A_mod = self.apply_scalings_to_x(after_A, xlora_scalings, adapter_n) scaling_weight = self.config.global_scaling_weight else: after_A_mod = after_A scaling_weight = 1 result += (after_A_mod @ embedding_B) * scaling * scaling_weight return result class XLoraConv2dLayer(XLoraLayer): def __init__( self, model: nn.Module, target: lora.Conv2d, target_forward: Callable[..., Any], layer_number: int, config: XLoraConfig, ) -> None: super().__init__(model, target, target_forward, layer_number, config) def forward(self, x: Tensor, *args: Any, scalings: Optional[Tensor] = None, **kwargs: Any) -> Tensor: """ This method is designed to be a drop-in-replacement for the LoRA layers' .forward method. To use it, a bound method must be created (bound to an instance of the XLoraLayer class). """ previous_dtype = x.dtype if scalings is not None: xlora_scalings = self.get_maybe_topk_scalings(scalings) result = self.target.base_layer(x, *args, **kwargs) # Ignore if disabled. We want to make sure this is always run. if not self.target.merged: for adapter_n, active_adapter in enumerate(self.target.active_adapters): if active_adapter not in self.target.lora_A.keys(): continue # TODO: implement X-LoRA with Lora+Dora layers if self.target.use_dora[active_adapter]: raise ValueError("X-LoRA currently does not support LoRA layers with DoRA") lora_A = self.target.lora_A[active_adapter] lora_B = self.target.lora_B[active_adapter] dropout = self.target.lora_dropout[active_adapter] scaling = self.target.scaling[active_adapter] x = x.to(lora_A.weight.dtype) # type: ignore if scalings is not None: x_mod = self.apply_scalings_to_x(x, xlora_scalings, adapter_n) scaling_weight = self.config.global_scaling_weight else: x_mod = x scaling_weight = 1 result += lora_B(lora_A(dropout(x_mod))) * scaling * scaling_weight result = result.to(previous_dtype) return result