# Copyright (c) 2022 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. import os.path as osp import numpy as np import yaml import paddle import paddleslim import paddlers import paddlers.utils.logging as logging from paddlers.transforms import build_transforms def load_rcnn_inference_model(model_dir): paddle.enable_static() exe = paddle.static.Executor(paddle.CPUPlace()) path_prefix = osp.join(model_dir, "model") prog, _, _ = paddle.static.load_inference_model(path_prefix, exe) paddle.disable_static() extra_var_info = paddle.load(osp.join(model_dir, "model.pdiparams.info")) net_state_dict = dict() static_state_dict = dict() for name, var in prog.state_dict().items(): static_state_dict[name] = np.array(var) for var_name in static_state_dict: if var_name not in extra_var_info: continue structured_name = extra_var_info[var_name].get('structured_name', None) if structured_name is None: continue net_state_dict[structured_name] = static_state_dict[var_name] return net_state_dict def load_model(model_dir, **params): """ Load saved model from a given directory. Args: model_dir(str): The directory where the model is saved. Returns: The model loaded from the directory. """ if not osp.exists(model_dir): logging.error("model_dir '{}' does not exists!".format(model_dir)) if not osp.exists(osp.join(model_dir, "model.yml")): raise Exception("There's no model.yml in {}".format(model_dir)) with open(osp.join(model_dir, "model.yml")) as f: model_info = yaml.load(f.read(), Loader=yaml.Loader) f.close() status = model_info['status'] with_net = params.get('with_net', True) if not with_net: assert status == 'Infer', \ "Only exported inference models can be deployed, current model status is {}".format(status) if not hasattr(paddlers.tasks, model_info['Model']): raise Exception("There's no attribute {} in paddlers.tasks".format( model_info['Model'])) if 'model_name' in model_info['_init_params']: del model_info['_init_params']['model_name'] model_info['_init_params'].update({'with_net': with_net}) with paddle.utils.unique_name.guard(): model = getattr(paddlers.tasks, model_info['Model'])( **model_info['_init_params']) if with_net: if status == 'Pruned' or osp.exists( osp.join(model_dir, "prune.yml")): with open(osp.join(model_dir, "prune.yml")) as f: pruning_info = yaml.load(f.read(), Loader=yaml.Loader) inputs = pruning_info['pruner_inputs'] if model.model_type == 'detector': inputs = [{ k: paddle.to_tensor(v) for k, v in inputs.items() }] model.net.eval() model.pruner = getattr(paddleslim, pruning_info['pruner'])( model.net, inputs=inputs) model.pruning_ratios = pruning_info['pruning_ratios'] model.pruner.prune_vars( ratios=model.pruning_ratios, axis=paddleslim.dygraph.prune.filter_pruner.FILTER_DIM) if status == 'Quantized' or osp.exists( osp.join(model_dir, "quant.yml")): with open(osp.join(model_dir, "quant.yml")) as f: quant_info = yaml.load(f.read(), Loader=yaml.Loader) model.quant_config = quant_info['quant_config'] model.quantizer = paddleslim.QAT(model.quant_config) model.quantizer.quantize(model.net) if status == 'Infer': if osp.exists(osp.join(model_dir, "quant.yml")): logging.error( "Exported quantized model can not be loaded, only deployment is supported.", exit=True) model.net = model._build_inference_net() if model_info['Model'] in ['FasterRCNN', 'MaskRCNN']: net_state_dict = load_rcnn_inference_model(model_dir) else: net_state_dict = paddle.load(osp.join(model_dir, 'model')) if model.model_type in ['classifier', 'segmenter' ] and 'rc' in version: # When exporting a classifier and segmenter, # InferNet is defined to append softmax and argmax operators to the model, # so parameter name starts with 'net.' new_net_state_dict = {} for k, v in net_state_dict.items(): new_net_state_dict['net.' + k] = v net_state_dict = new_net_state_dict else: net_state_dict = paddle.load( osp.join(model_dir, 'model.pdparams')) model.net.set_state_dict(net_state_dict) if 'Transforms' in model_info: model.test_transforms = build_transforms(model_info['Transforms']) if '_Attributes' in model_info: for k, v in model_info['_Attributes'].items(): if k in model.__dict__: model.__dict__[k] = v logging.info("Model[{}] loaded.".format(model_info['Model'])) model.status = status return model