# Copyright 2024 The HuggingFace Team. All rights reserved. # # 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. """ PEFT utilities: Utilities related to peft library """ import collections import importlib from typing import Optional from packaging import version from .import_utils import is_peft_available, is_torch_available if is_torch_available(): import torch def recurse_remove_peft_layers(model): r""" Recursively replace all instances of `LoraLayer` with corresponding new layers in `model`. """ from peft.tuners.tuners_utils import BaseTunerLayer has_base_layer_pattern = False for module in model.modules(): if isinstance(module, BaseTunerLayer): has_base_layer_pattern = hasattr(module, "base_layer") break if has_base_layer_pattern: from peft.utils import _get_submodules key_list = [key for key, _ in model.named_modules() if "lora" not in key] for key in key_list: try: parent, target, target_name = _get_submodules(model, key) except AttributeError: continue if hasattr(target, "base_layer"): setattr(parent, target_name, target.get_base_layer()) else: # This is for backwards compatibility with PEFT <= 0.6.2. # TODO can be removed once that PEFT version is no longer supported. from peft.tuners.lora import LoraLayer for name, module in model.named_children(): if len(list(module.children())) > 0: ## compound module, go inside it recurse_remove_peft_layers(module) module_replaced = False if isinstance(module, LoraLayer) and isinstance(module, torch.nn.Linear): new_module = torch.nn.Linear( module.in_features, module.out_features, bias=module.bias is not None, ).to(module.weight.device) new_module.weight = module.weight if module.bias is not None: new_module.bias = module.bias module_replaced = True elif isinstance(module, LoraLayer) and isinstance(module, torch.nn.Conv2d): new_module = torch.nn.Conv2d( module.in_channels, module.out_channels, module.kernel_size, module.stride, module.padding, module.dilation, module.groups, ).to(module.weight.device) new_module.weight = module.weight if module.bias is not None: new_module.bias = module.bias module_replaced = True if module_replaced: setattr(model, name, new_module) del module if torch.cuda.is_available(): torch.cuda.empty_cache() return model def scale_lora_layers(model, weight): """ Adjust the weightage given to the LoRA layers of the model. Args: model (`torch.nn.Module`): The model to scale. weight (`float`): The weight to be given to the LoRA layers. """ from peft.tuners.tuners_utils import BaseTunerLayer if weight == 1.0: return for module in model.modules(): if isinstance(module, BaseTunerLayer): module.scale_layer(weight) def unscale_lora_layers(model, weight: Optional[float] = None): """ Removes the previously passed weight given to the LoRA layers of the model. Args: model (`torch.nn.Module`): The model to scale. weight (`float`, *optional*): The weight to be given to the LoRA layers. If no scale is passed the scale of the lora layer will be re-initialized to the correct value. If 0.0 is passed, we will re-initialize the scale with the correct value. """ from peft.tuners.tuners_utils import BaseTunerLayer if weight == 1.0: return for module in model.modules(): if isinstance(module, BaseTunerLayer): if weight is not None and weight != 0: module.unscale_layer(weight) elif weight is not None and weight == 0: for adapter_name in module.active_adapters: # if weight == 0 unscale should re-set the scale to the original value. module.set_scale(adapter_name, 1.0) def get_peft_kwargs(rank_dict, network_alpha_dict, peft_state_dict, is_unet=True): rank_pattern = {} alpha_pattern = {} r = lora_alpha = list(rank_dict.values())[0] if len(set(rank_dict.values())) > 1: # get the rank occuring the most number of times r = collections.Counter(rank_dict.values()).most_common()[0][0] # for modules with rank different from the most occuring rank, add it to the `rank_pattern` rank_pattern = dict(filter(lambda x: x[1] != r, rank_dict.items())) rank_pattern = {k.split(".lora_B.")[0]: v for k, v in rank_pattern.items()} if network_alpha_dict is not None and len(network_alpha_dict) > 0: if len(set(network_alpha_dict.values())) > 1: # get the alpha occuring the most number of times lora_alpha = collections.Counter(network_alpha_dict.values()).most_common()[0][0] # for modules with alpha different from the most occuring alpha, add it to the `alpha_pattern` alpha_pattern = dict(filter(lambda x: x[1] != lora_alpha, network_alpha_dict.items())) if is_unet: alpha_pattern = { ".".join(k.split(".lora_A.")[0].split(".")).replace(".alpha", ""): v for k, v in alpha_pattern.items() } else: alpha_pattern = {".".join(k.split(".down.")[0].split(".")[:-1]): v for k, v in alpha_pattern.items()} else: lora_alpha = set(network_alpha_dict.values()).pop() # layer names without the Diffusers specific target_modules = list({name.split(".lora")[0] for name in peft_state_dict.keys()}) use_dora = any("lora_magnitude_vector" in k for k in peft_state_dict) lora_config_kwargs = { "r": r, "lora_alpha": lora_alpha, "rank_pattern": rank_pattern, "alpha_pattern": alpha_pattern, "target_modules": target_modules, "use_dora": use_dora, } return lora_config_kwargs def get_adapter_name(model): from peft.tuners.tuners_utils import BaseTunerLayer for module in model.modules(): if isinstance(module, BaseTunerLayer): return f"default_{len(module.r)}" return "default_0" def set_adapter_layers(model, enabled=True): from peft.tuners.tuners_utils import BaseTunerLayer for module in model.modules(): if isinstance(module, BaseTunerLayer): # The recent version of PEFT needs to call `enable_adapters` instead if hasattr(module, "enable_adapters"): module.enable_adapters(enabled=enabled) else: module.disable_adapters = not enabled def delete_adapter_layers(model, adapter_name): from peft.tuners.tuners_utils import BaseTunerLayer for module in model.modules(): if isinstance(module, BaseTunerLayer): if hasattr(module, "delete_adapter"): module.delete_adapter(adapter_name) else: raise ValueError( "The version of PEFT you are using is not compatible, please use a version that is greater than 0.6.1" ) # For transformers integration - we need to pop the adapter from the config if getattr(model, "_hf_peft_config_loaded", False) and hasattr(model, "peft_config"): model.peft_config.pop(adapter_name, None) # In case all adapters are deleted, we need to delete the config # and make sure to set the flag to False if len(model.peft_config) == 0: del model.peft_config model._hf_peft_config_loaded = None def set_weights_and_activate_adapters(model, adapter_names, weights): from peft.tuners.tuners_utils import BaseTunerLayer def get_module_weight(weight_for_adapter, module_name): if not isinstance(weight_for_adapter, dict): # If weight_for_adapter is a single number, always return it. return weight_for_adapter for layer_name, weight_ in weight_for_adapter.items(): if layer_name in module_name: return weight_ raise RuntimeError(f"No LoRA weight found for module {module_name}.") # iterate over each adapter, make it active and set the corresponding scaling weight for adapter_name, weight in zip(adapter_names, weights): for module_name, module in model.named_modules(): if isinstance(module, BaseTunerLayer): # For backward compatbility with previous PEFT versions if hasattr(module, "set_adapter"): module.set_adapter(adapter_name) else: module.active_adapter = adapter_name module.set_scale(adapter_name, get_module_weight(weight, module_name)) # set multiple active adapters for module in model.modules(): if isinstance(module, BaseTunerLayer): # For backward compatbility with previous PEFT versions if hasattr(module, "set_adapter"): module.set_adapter(adapter_names) else: module.active_adapter = adapter_names def check_peft_version(min_version: str) -> None: r""" Checks if the version of PEFT is compatible. Args: version (`str`): The version of PEFT to check against. """ if not is_peft_available(): raise ValueError("PEFT is not installed. Please install it with `pip install peft`") is_peft_version_compatible = version.parse(importlib.metadata.version("peft")) > version.parse(min_version) if not is_peft_version_compatible: raise ValueError( f"The version of PEFT you are using is not compatible, please use a version that is greater" f" than {min_version}" )