# Copyright (c) 2021 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 import platform import paddle from ppcls.utils import logger def retrieval_eval(engine, epoch_id=0): engine.model.eval() # step1. build gallery if engine.gallery_query_dataloader is not None: gallery_feas, gallery_img_id, gallery_unique_id = cal_feature( engine, name='gallery_query') query_feas, query_img_id, query_query_id = gallery_feas, gallery_img_id, gallery_unique_id else: gallery_feas, gallery_img_id, gallery_unique_id = cal_feature( engine, name='gallery') query_feas, query_img_id, query_query_id = cal_feature( engine, name='query') # step2. do evaluation sim_block_size = engine.config["Global"].get("sim_block_size", 64) sections = [sim_block_size] * (len(query_feas) // sim_block_size) if len(query_feas) % sim_block_size: sections.append(len(query_feas) % sim_block_size) fea_blocks = paddle.split(query_feas, num_or_sections=sections) if query_query_id is not None: query_id_blocks = paddle.split(query_query_id, num_or_sections=sections) image_id_blocks = paddle.split(query_img_id, num_or_sections=sections) metric_key = None if engine.eval_loss_func is None: metric_dict = {metric_key: 0.} else: metric_dict = dict() for block_idx, block_fea in enumerate(fea_blocks): similarity_matrix = paddle.matmul( block_fea, gallery_feas, transpose_y=True) if query_query_id is not None: query_id_block = query_id_blocks[block_idx] query_id_mask = (query_id_block != gallery_unique_id.t()) image_id_block = image_id_blocks[block_idx] image_id_mask = (image_id_block != gallery_img_id.t()) keep_mask = paddle.logical_or(query_id_mask, image_id_mask) similarity_matrix = similarity_matrix * keep_mask.astype( "float32") else: keep_mask = None metric_tmp = engine.eval_metric_func(similarity_matrix, image_id_blocks[block_idx], gallery_img_id, keep_mask) for key in metric_tmp: if key not in metric_dict: metric_dict[key] = metric_tmp[key] * block_fea.shape[ 0] / len(query_feas) else: metric_dict[key] += metric_tmp[key] * block_fea.shape[ 0] / len(query_feas) metric_info_list = [] for key in metric_dict: if metric_key is None: metric_key = key metric_info_list.append("{}: {:.5f}".format(key, metric_dict[key])) metric_msg = ", ".join(metric_info_list) logger.info("[Eval][Epoch {}][Avg]{}".format(epoch_id, metric_msg)) return metric_dict[metric_key] def cal_feature(engine, name='gallery'): all_feas = None all_image_id = None all_unique_id = None has_unique_id = False if name == 'gallery': dataloader = engine.gallery_dataloader elif name == 'query': dataloader = engine.query_dataloader elif name == 'gallery_query': dataloader = engine.gallery_query_dataloader else: raise RuntimeError("Only support gallery or query dataset") max_iter = len(dataloader) - 1 if platform.system() == "Windows" else len( dataloader) for idx, batch in enumerate(dataloader): # load is very time-consuming if idx >= max_iter: break if idx % engine.config["Global"]["print_batch_step"] == 0: logger.info( f"{name} feature calculation process: [{idx}/{len(dataloader)}]") if engine.use_dali: batch = [ paddle.to_tensor(batch[0]['data']), paddle.to_tensor(batch[0]['label']) ] batch = [paddle.to_tensor(x) for x in batch] batch[1] = batch[1].reshape([-1, 1]).astype("int64") if len(batch) == 3: has_unique_id = True batch[2] = batch[2].reshape([-1, 1]).astype("int64") out = engine.model(batch[0], batch[1]) if "Student" in out: out = out["Student"] batch_feas = out["features"] # do norm if engine.config["Global"].get("feature_normalize", True): feas_norm = paddle.sqrt( paddle.sum(paddle.square(batch_feas), axis=1, keepdim=True)) batch_feas = paddle.divide(batch_feas, feas_norm) # do binarize if engine.config["Global"].get("feature_binarize") == "round": batch_feas = paddle.round(batch_feas).astype("float32") * 2.0 - 1.0 if engine.config["Global"].get("feature_binarize") == "sign": batch_feas = paddle.sign(batch_feas).astype("float32") if all_feas is None: all_feas = batch_feas if has_unique_id: all_unique_id = batch[2] all_image_id = batch[1] else: all_feas = paddle.concat([all_feas, batch_feas]) all_image_id = paddle.concat([all_image_id, batch[1]]) if has_unique_id: all_unique_id = paddle.concat([all_unique_id, batch[2]]) if engine.use_dali: dataloader.reset() if paddle.distributed.get_world_size() > 1: feat_list = [] img_id_list = [] unique_id_list = [] paddle.distributed.all_gather(feat_list, all_feas) paddle.distributed.all_gather(img_id_list, all_image_id) all_feas = paddle.concat(feat_list, axis=0) all_image_id = paddle.concat(img_id_list, axis=0) if has_unique_id: paddle.distributed.all_gather(unique_id_list, all_unique_id) all_unique_id = paddle.concat(unique_id_list, axis=0) logger.info("Build {} done, all feat shape: {}, begin to eval..".format( name, all_feas.shape)) return all_feas, all_image_id, all_unique_id