# Copyright (c) 2019 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 logging import numpy as np import os import time import paddle.fluid as fluid from .voc_eval import bbox_eval as voc_bbox_eval from .post_process import mstest_box_post_process, mstest_mask_post_process, box_flip __all__ = ['parse_fetches', 'eval_run', 'eval_results', 'json_eval_results'] logger = logging.getLogger(__name__) def parse_fetches(fetches, prog=None, extra_keys=None): """ Parse fetch variable infos from model fetches, values for fetch_list and keys for stat """ keys, values = [], [] cls = [] for k, v in fetches.items(): if hasattr(v, 'name'): keys.append(k) #v.persistable = True values.append(v.name) else: cls.append(v) if prog is not None and extra_keys is not None: for k in extra_keys: try: v = fluid.framework._get_var(k, prog) keys.append(k) values.append(v.name) except Exception: pass return keys, values, cls def length2lod(length_lod): offset_lod = [0] for i in length_lod: offset_lod.append(offset_lod[-1] + i) return [offset_lod] def get_sub_feed(input, place): new_dict = {} res_feed = {} key_name = ['bbox', 'im_info', 'im_id', 'im_shape', 'bbox_flip'] for k in key_name: if k in input.keys(): new_dict[k] = input[k] for k in input.keys(): if 'image' in k: new_dict[k] = input[k] for k, v in new_dict.items(): data_t = fluid.LoDTensor() data_t.set(v[0], place) if 'bbox' in k: lod = length2lod(v[1][0]) data_t.set_lod(lod) res_feed[k] = data_t return res_feed def clean_res(result, keep_name_list): clean_result = {} for k in result.keys(): if k in keep_name_list: clean_result[k] = result[k] result.clear() return clean_result def eval_run(exe, compile_program, loader, keys, values, cls, cfg=None, sub_prog=None, sub_keys=None, sub_values=None): """ Run evaluation program, return program outputs. """ iter_id = 0 results = [] if len(cls) != 0: values = [] for i in range(len(cls)): _, accum_map = cls[i].get_map_var() cls[i].reset(exe) values.append(accum_map) images_num = 0 start_time = time.time() has_bbox = 'bbox' in keys try: loader.start() while True: outs = exe.run(compile_program, fetch_list=values, return_numpy=False) res = { k: (np.array(v), v.recursive_sequence_lengths()) for k, v in zip(keys, outs) } multi_scale_test = getattr(cfg, 'MultiScaleTEST', None) mask_multi_scale_test = multi_scale_test and 'Mask' in cfg.architecture if multi_scale_test: post_res = mstest_box_post_process(res, cfg) res.update(post_res) if mask_multi_scale_test: place = fluid.CUDAPlace(0) if cfg.use_gpu else fluid.CPUPlace() sub_feed = get_sub_feed(res, place) sub_prog_outs = exe.run(sub_prog, feed=sub_feed, fetch_list=sub_values, return_numpy=False) sub_prog_res = { k: (np.array(v), v.recursive_sequence_lengths()) for k, v in zip(sub_keys, sub_prog_outs) } post_res = mstest_mask_post_process(sub_prog_res, cfg) res.update(post_res) if multi_scale_test: res = clean_res( res, ['im_info', 'bbox', 'im_id', 'im_shape', 'mask']) results.append(res) if iter_id % 100 == 0: logger.info('Test iter {}'.format(iter_id)) iter_id += 1 images_num += len(res['bbox'][1][0]) if has_bbox else 1 except (StopIteration, fluid.core.EOFException): loader.reset() logger.info('Test finish iter {}'.format(iter_id)) end_time = time.time() fps = images_num / (end_time - start_time) if has_bbox: logger.info('Total number of images: {}, inference time: {} fps.'. format(images_num, fps)) else: logger.info('Total iteration: {}, inference time: {} batch/s.'.format( images_num, fps)) return results def eval_results(results, metric, num_classes, resolution=None, is_bbox_normalized=False, output_directory=None, map_type='11point', dataset=None): """Evaluation for evaluation program results""" box_ap_stats = [] if metric == 'COCO': from ppdet.utils.coco_eval import proposal_eval, bbox_eval, mask_eval anno_file = dataset.get_anno() with_background = dataset.with_background if 'proposal' in results[0]: output = 'proposal.json' if output_directory: output = os.path.join(output_directory, 'proposal.json') proposal_eval(results, anno_file, output) if 'bbox' in results[0]: output = 'bbox.json' if output_directory: output = os.path.join(output_directory, 'bbox.json') box_ap_stats = bbox_eval( results, anno_file, output, with_background, is_bbox_normalized=is_bbox_normalized) if 'mask' in results[0]: output = 'mask.json' if output_directory: output = os.path.join(output_directory, 'mask.json') mask_eval(results, anno_file, output, resolution) else: if 'accum_map' in results[-1]: res = np.mean(results[-1]['accum_map'][0]) logger.info('mAP: {:.2f}'.format(res * 100.)) box_ap_stats.append(res * 100.) elif 'bbox' in results[0]: box_ap = voc_bbox_eval( results, num_classes, is_bbox_normalized=is_bbox_normalized, map_type=map_type) box_ap_stats.append(box_ap) return box_ap_stats def json_eval_results(metric, json_directory=None, dataset=None): """ cocoapi eval with already exists proposal.json, bbox.json or mask.json """ assert metric == 'COCO' from ppdet.utils.coco_eval import cocoapi_eval anno_file = dataset.get_anno() json_file_list = ['proposal.json', 'bbox.json', 'mask.json'] if json_directory: assert os.path.exists( json_directory), "The json directory:{} does not exist".format( json_directory) for k, v in enumerate(json_file_list): json_file_list[k] = os.path.join(str(json_directory), v) coco_eval_style = ['proposal', 'bbox', 'segm'] for i, v_json in enumerate(json_file_list): if os.path.exists(v_json): cocoapi_eval(v_json, coco_eval_style[i], anno_file=anno_file) else: logger.info("{} not exists!".format(v_json))