# Copyright (c) 2020 PaddlePaddle Authors. 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. from __future__ import absolute_import from __future__ import division from __future__ import print_function from __future__ import unicode_literals import errno import os import time import numpy as np import paddle import paddle.nn as nn from .download import get_weights_path from .logger import setup_logger logger = setup_logger(__name__) def is_url(path): """ Whether path is URL. Args: path (string): URL string or not. """ return path.startswith('http://') \ or path.startswith('https://') \ or path.startswith('ppdet://') def _get_unique_endpoints(trainer_endpoints): # Sorting is to avoid different environmental variables for each card trainer_endpoints.sort() ips = set() unique_endpoints = set() for endpoint in trainer_endpoints: ip = endpoint.split(":")[0] if ip in ips: continue ips.add(ip) unique_endpoints.add(endpoint) logger.info("unique_endpoints {}".format(unique_endpoints)) return unique_endpoints def _strip_postfix(path): path, ext = os.path.splitext(path) assert ext in ['', '.pdparams', '.pdopt', '.pdmodel'], \ "Unknown postfix {} from weights".format(ext) return path def load_weight(model, weight, optimizer=None): if is_url(weight): weight = get_weights_path(weight) path = _strip_postfix(weight) pdparam_path = path + '.pdparams' if not os.path.exists(pdparam_path): raise ValueError("Model pretrain path {} does not " "exists.".format(pdparam_path)) param_state_dict = paddle.load(pdparam_path) model_dict = model.state_dict() model_weight = {} incorrect_keys = 0 for key in model_dict.keys(): if key in param_state_dict.keys(): model_weight[key] = param_state_dict[key] else: logger.info('Unmatched key: {}'.format(key)) incorrect_keys += 1 assert incorrect_keys == 0, "Load weight {} incorrectly, \ {} keys unmatched, please check again.".format(weight, incorrect_keys) logger.info('Finish resuming model weights: {}'.format(pdparam_path)) model.set_dict(model_weight) last_epoch = 0 if optimizer is not None and os.path.exists(path + '.pdopt'): optim_state_dict = paddle.load(path + '.pdopt') # to solve resume bug, will it be fixed in paddle 2.0 for key in optimizer.state_dict().keys(): if not key in optim_state_dict.keys(): optim_state_dict[key] = optimizer.state_dict()[key] if 'last_epoch' in optim_state_dict: last_epoch = optim_state_dict.pop('last_epoch') optimizer.set_state_dict(optim_state_dict) return last_epoch def match_state_dict(model_state_dict, weight_state_dict): """ Match between the model state dict and pretrained weight state dict. Return the matched state dict. The method supposes that all the names in pretrained weight state dict are subclass of the names in models`, if the prefix 'backbone.' in pretrained weight keys is stripped. And we could get the candidates for each model key. Then we select the name with the longest matched size as the final match result. For example, the model state dict has the name of 'backbone.res2.res2a.branch2a.conv.weight' and the pretrained weight as name of 'res2.res2a.branch2a.conv.weight' and 'branch2a.conv.weight'. We match the 'res2.res2a.branch2a.conv.weight' to the model key. """ model_keys = sorted(model_state_dict.keys()) weight_keys = sorted(weight_state_dict.keys()) def match(a, b): if b.startswith('backbone.res5'): # In Faster RCNN, res5 pretrained weights have prefix of backbone, # however, the corresponding model weights have difficult prefix, # bbox_head. b = b[9:] return a == b or a.endswith("." + b) match_matrix = np.zeros([len(model_keys), len(weight_keys)]) for i, m_k in enumerate(model_keys): for j, w_k in enumerate(weight_keys): if match(m_k, w_k): match_matrix[i, j] = len(w_k) max_id = match_matrix.argmax(1) max_len = match_matrix.max(1) max_id[max_len == 0] = -1 load_id = set(max_id) load_id.discard(-1) not_load_weight_name = [] for idx in range(len(weight_keys)): if idx not in load_id: not_load_weight_name.append(weight_keys[idx]) if len(not_load_weight_name) > 0: logger.info('{} in pretrained weight is not used in the model, ' 'and its will not be loaded'.format(not_load_weight_name)) matched_keys = {} result_state_dict = {} for model_id, weight_id in enumerate(max_id): if weight_id == -1: continue model_key = model_keys[model_id] weight_key = weight_keys[weight_id] weight_value = weight_state_dict[weight_key] model_value_shape = list(model_state_dict[model_key].shape) if list(weight_value.shape) != model_value_shape: logger.info( 'The shape {} in pretrained weight {} is unmatched with ' 'the shape {} in model {}. And the weight {} will not be ' 'loaded'.format(weight_value.shape, weight_key, model_value_shape, model_key, weight_key)) continue assert model_key not in result_state_dict result_state_dict[model_key] = weight_value if weight_key in matched_keys: raise ValueError('Ambiguity weight {} loaded, it matches at least ' '{} and {} in the model'.format( weight_key, model_key, matched_keys[ weight_key])) matched_keys[weight_key] = model_key return result_state_dict def load_pretrain_weight(model, pretrain_weight): if is_url(pretrain_weight): pretrain_weight = get_weights_path(pretrain_weight) path = _strip_postfix(pretrain_weight) if not (os.path.isdir(path) or os.path.isfile(path) or os.path.exists(path + '.pdparams')): raise ValueError("Model pretrain path `{}` does not exists. " "If you don't want to load pretrain model, " "please delete `pretrain_weights` field in " "config file.".format(path)) model_dict = model.state_dict() weights_path = path + '.pdparams' param_state_dict = paddle.load(weights_path) param_state_dict = match_state_dict(model_dict, param_state_dict) model.set_dict(param_state_dict) logger.info('Finish loading model weights: {}'.format(weights_path)) def save_model(model, optimizer, save_dir, save_name, last_epoch): """ save model into disk. Args: model (paddle.nn.Layer): the Layer instalce to save parameters. optimizer (paddle.optimizer.Optimizer): the Optimizer instance to save optimizer states. save_dir (str): the directory to be saved. save_name (str): the path to be saved. last_epoch (int): the epoch index. """ if paddle.distributed.get_rank() != 0: return if not os.path.exists(save_dir): os.makedirs(save_dir) save_path = os.path.join(save_dir, save_name) if isinstance(model, nn.Layer): paddle.save(model.state_dict(), save_path + ".pdparams") else: assert isinstance(model, dict), 'model is not a instance of nn.layer or dict' paddle.save(model, save_path + ".pdparams") state_dict = optimizer.state_dict() state_dict['last_epoch'] = last_epoch paddle.save(state_dict, save_path + ".pdopt") logger.info("Save checkpoint: {}".format(save_dir))