#copyright (c) 2021 PaddlePaddle Authors. All Rights Reserve. # #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 paddle import paddle.nn as nn import numpy as np import cv2 from .rec_ctc_loss import CTCLoss from .rec_sar_loss import SARLoss from .basic_loss import DMLLoss from .basic_loss import DistanceLoss from .det_db_loss import DBLoss from .det_basic_loss import BalanceLoss, MaskL1Loss, DiceLoss def _sum_loss(loss_dict): if "loss" in loss_dict.keys(): return loss_dict else: loss_dict["loss"] = 0. for k, value in loss_dict.items(): if k == "loss": continue else: loss_dict["loss"] += value return loss_dict class DistillationDMLLoss(DMLLoss): """ """ def __init__(self, model_name_pairs=[], act=None, use_log=False, key=None, multi_head=False, dis_head='ctc', maps_name=None, name="dml"): super().__init__(act=act, use_log=use_log) assert isinstance(model_name_pairs, list) self.key = key self.multi_head = multi_head self.dis_head = dis_head self.model_name_pairs = self._check_model_name_pairs(model_name_pairs) self.name = name self.maps_name = self._check_maps_name(maps_name) def _check_model_name_pairs(self, model_name_pairs): if not isinstance(model_name_pairs, list): return [] elif isinstance(model_name_pairs[0], list) and isinstance( model_name_pairs[0][0], str): return model_name_pairs else: return [model_name_pairs] def _check_maps_name(self, maps_name): if maps_name is None: return None elif type(maps_name) == str: return [maps_name] elif type(maps_name) == list: return [maps_name] else: return None def _slice_out(self, outs): new_outs = {} for k in self.maps_name: if k == "thrink_maps": new_outs[k] = outs[:, 0, :, :] elif k == "threshold_maps": new_outs[k] = outs[:, 1, :, :] elif k == "binary_maps": new_outs[k] = outs[:, 2, :, :] else: continue return new_outs def forward(self, predicts, batch): loss_dict = dict() for idx, pair in enumerate(self.model_name_pairs): out1 = predicts[pair[0]] out2 = predicts[pair[1]] if self.key is not None: out1 = out1[self.key] out2 = out2[self.key] if self.maps_name is None: if self.multi_head: loss = super().forward(out1[self.dis_head], out2[self.dis_head]) else: loss = super().forward(out1, out2) if isinstance(loss, dict): for key in loss: loss_dict["{}_{}_{}_{}".format(key, pair[0], pair[1], idx)] = loss[key] else: loss_dict["{}_{}".format(self.name, idx)] = loss else: outs1 = self._slice_out(out1) outs2 = self._slice_out(out2) for _c, k in enumerate(outs1.keys()): loss = super().forward(outs1[k], outs2[k]) if isinstance(loss, dict): for key in loss: loss_dict["{}_{}_{}_{}_{}".format(key, pair[ 0], pair[1], self.maps_name, idx)] = loss[key] else: loss_dict["{}_{}_{}".format(self.name, self.maps_name[ _c], idx)] = loss loss_dict = _sum_loss(loss_dict) return loss_dict class DistillationCTCLoss(CTCLoss): def __init__(self, model_name_list=[], key=None, multi_head=False, name="loss_ctc"): super().__init__() self.model_name_list = model_name_list self.key = key self.name = name self.multi_head = multi_head def forward(self, predicts, batch): loss_dict = dict() for idx, model_name in enumerate(self.model_name_list): out = predicts[model_name] if self.key is not None: out = out[self.key] if self.multi_head: assert 'ctc' in out, 'multi head has multi out' loss = super().forward(out['ctc'], batch[:2] + batch[3:]) else: loss = super().forward(out, batch) if isinstance(loss, dict): for key in loss: loss_dict["{}_{}_{}".format(self.name, model_name, idx)] = loss[key] else: loss_dict["{}_{}".format(self.name, model_name)] = loss return loss_dict class DistillationSARLoss(SARLoss): def __init__(self, model_name_list=[], key=None, multi_head=False, name="loss_sar", **kwargs): ignore_index = kwargs.get('ignore_index', 92) super().__init__(ignore_index=ignore_index) self.model_name_list = model_name_list self.key = key self.name = name self.multi_head = multi_head def forward(self, predicts, batch): loss_dict = dict() for idx, model_name in enumerate(self.model_name_list): out = predicts[model_name] if self.key is not None: out = out[self.key] if self.multi_head: assert 'sar' in out, 'multi head has multi out' loss = super().forward(out['sar'], batch[:1] + batch[2:]) else: loss = super().forward(out, batch) if isinstance(loss, dict): for key in loss: loss_dict["{}_{}_{}".format(self.name, model_name, idx)] = loss[key] else: loss_dict["{}_{}".format(self.name, model_name)] = loss return loss_dict class DistillationDBLoss(DBLoss): def __init__(self, model_name_list=[], balance_loss=True, main_loss_type='DiceLoss', alpha=5, beta=10, ohem_ratio=3, eps=1e-6, name="db", **kwargs): super().__init__() self.model_name_list = model_name_list self.name = name self.key = None def forward(self, predicts, batch): loss_dict = {} for idx, model_name in enumerate(self.model_name_list): out = predicts[model_name] if self.key is not None: out = out[self.key] loss = super().forward(out, batch) if isinstance(loss, dict): for key in loss.keys(): if key == "loss": continue name = "{}_{}_{}".format(self.name, model_name, key) loss_dict[name] = loss[key] else: loss_dict["{}_{}".format(self.name, model_name)] = loss loss_dict = _sum_loss(loss_dict) return loss_dict class DistillationDilaDBLoss(DBLoss): def __init__(self, model_name_pairs=[], key=None, balance_loss=True, main_loss_type='DiceLoss', alpha=5, beta=10, ohem_ratio=3, eps=1e-6, name="dila_dbloss"): super().__init__() self.model_name_pairs = model_name_pairs self.name = name self.key = key def forward(self, predicts, batch): loss_dict = dict() for idx, pair in enumerate(self.model_name_pairs): stu_outs = predicts[pair[0]] tch_outs = predicts[pair[1]] if self.key is not None: stu_preds = stu_outs[self.key] tch_preds = tch_outs[self.key] stu_shrink_maps = stu_preds[:, 0, :, :] stu_binary_maps = stu_preds[:, 2, :, :] # dilation to teacher prediction dilation_w = np.array([[1, 1], [1, 1]]) th_shrink_maps = tch_preds[:, 0, :, :] th_shrink_maps = th_shrink_maps.numpy() > 0.3 # thresh = 0.3 dilate_maps = np.zeros_like(th_shrink_maps).astype(np.float32) for i in range(th_shrink_maps.shape[0]): dilate_maps[i] = cv2.dilate( th_shrink_maps[i, :, :].astype(np.uint8), dilation_w) th_shrink_maps = paddle.to_tensor(dilate_maps) label_threshold_map, label_threshold_mask, label_shrink_map, label_shrink_mask = batch[ 1:] # calculate the shrink map loss bce_loss = self.alpha * self.bce_loss( stu_shrink_maps, th_shrink_maps, label_shrink_mask) loss_binary_maps = self.dice_loss(stu_binary_maps, th_shrink_maps, label_shrink_mask) # k = f"{self.name}_{pair[0]}_{pair[1]}" k = "{}_{}_{}".format(self.name, pair[0], pair[1]) loss_dict[k] = bce_loss + loss_binary_maps loss_dict = _sum_loss(loss_dict) return loss_dict class DistillationDistanceLoss(DistanceLoss): """ """ def __init__(self, mode="l2", model_name_pairs=[], key=None, name="loss_distance", **kargs): super().__init__(mode=mode, **kargs) assert isinstance(model_name_pairs, list) self.key = key self.model_name_pairs = model_name_pairs self.name = name + "_l2" def forward(self, predicts, batch): loss_dict = dict() for idx, pair in enumerate(self.model_name_pairs): out1 = predicts[pair[0]] out2 = predicts[pair[1]] if self.key is not None: out1 = out1[self.key] out2 = out2[self.key] loss = super().forward(out1, out2) if isinstance(loss, dict): for key in loss: loss_dict["{}_{}_{}".format(self.name, key, idx)] = loss[ key] else: loss_dict["{}_{}_{}_{}".format(self.name, pair[0], pair[1], idx)] = loss return loss_dict