import argparse import os.path as osp import numpy as np import onnx import onnxruntime as rt import torch from mmdet.core import (build_model_from_cfg, generate_inputs_and_wrap_model, preprocess_example_input) def pytorch2onnx(config_path, checkpoint_path, input_img, input_shape, opset_version=11, show=False, output_file='tmp.onnx', verify=False, normalize_cfg=None, dataset='coco', test_img=None): input_config = { 'input_shape': input_shape, 'input_path': input_img, 'normalize_cfg': normalize_cfg } # prepare original model and meta for verifying the onnx model orig_model = build_model_from_cfg(config_path, checkpoint_path) one_img, one_meta = preprocess_example_input(input_config) model, tensor_data = generate_inputs_and_wrap_model( config_path, checkpoint_path, input_config) output_names = ['boxes'] if model.with_bbox: output_names.append('labels') if model.with_mask: output_names.append('masks') torch.onnx.export( model, tensor_data, output_file, input_names=['input'], output_names=output_names, export_params=True, keep_initializers_as_inputs=True, do_constant_folding=True, verbose=show, opset_version=opset_version) model.forward = orig_model.forward print(f'Successfully exported ONNX model: {output_file}') if verify: from mmdet.core import get_classes from mmdet.apis import show_result_pyplot model.CLASSES = get_classes(dataset) num_classes = len(model.CLASSES) # check by onnx onnx_model = onnx.load(output_file) onnx.checker.check_model(onnx_model) if test_img is not None: input_config['input_path'] = test_img one_img, one_meta = preprocess_example_input(input_config) tensor_data = [one_img] # check the numerical value # get pytorch output pytorch_results = model(tensor_data, [[one_meta]], return_loss=False) pytorch_results = pytorch_results[0] # get onnx output input_all = [node.name for node in onnx_model.graph.input] input_initializer = [ node.name for node in onnx_model.graph.initializer ] net_feed_input = list(set(input_all) - set(input_initializer)) assert (len(net_feed_input) == 1) sess = rt.InferenceSession(output_file) from mmdet.core import bbox2result onnx_outputs = sess.run(None, {net_feed_input[0]: one_img.detach().numpy()}) output_names = [_.name for _ in sess.get_outputs()] output_shapes = [_.shape for _ in onnx_outputs] print(f'onnxruntime output names: {output_names}, \ output shapes: {output_shapes}') nrof_out = len(onnx_outputs) assert nrof_out > 0, 'Must have output' with_mask = nrof_out == 3 if nrof_out == 1: onnx_results = onnx_outputs[0] else: det_bboxes, det_labels = onnx_outputs[:2] onnx_results = bbox2result(det_bboxes, det_labels, num_classes) if with_mask: segm_results = onnx_outputs[2].squeeze(1) cls_segms = [[] for _ in range(num_classes)] for i in range(det_bboxes.shape[0]): cls_segms[det_labels[i]].append(segm_results[i]) onnx_results = (onnx_results, cls_segms) # visualize predictions if show: show_result_pyplot( model, one_meta['show_img'], pytorch_results, title='Pytorch', block=False) show_result_pyplot( model, one_meta['show_img'], onnx_results, title='ONNX') # compare a part of result if with_mask: compare_pairs = list(zip(onnx_results, pytorch_results)) else: compare_pairs = [(onnx_results, pytorch_results)] for onnx_res, pytorch_res in compare_pairs: for o_res, p_res in zip(onnx_res, pytorch_res): np.testing.assert_allclose( o_res, p_res, rtol=1e-03, atol=1e-05, ) print('The numerical values are the same between Pytorch and ONNX') def parse_args(): parser = argparse.ArgumentParser( description='Convert MMDetection models to ONNX') parser.add_argument('config', help='test config file path') parser.add_argument('checkpoint', help='checkpoint file') parser.add_argument('--input-img', type=str, help='Images for input') parser.add_argument('--show', action='store_true', help='show onnx graph') parser.add_argument('--output-file', type=str, default='tmp.onnx') parser.add_argument('--opset-version', type=int, default=11) parser.add_argument( '--test-img', type=str, default=None, help='Images for test') parser.add_argument( '--dataset', type=str, default='coco', help='Dataset name') parser.add_argument( '--verify', action='store_true', help='verify the onnx model output against pytorch output') parser.add_argument( '--shape', type=int, nargs='+', default=[800, 1216], help='input image size') parser.add_argument( '--mean', type=float, nargs='+', default=[123.675, 116.28, 103.53], help='mean value used for preprocess input data') parser.add_argument( '--std', type=float, nargs='+', default=[58.395, 57.12, 57.375], help='variance value used for preprocess input data') args = parser.parse_args() return args if __name__ == '__main__': args = parse_args() assert args.opset_version == 11, 'MMDet only support opset 11 now' if not args.input_img: args.input_img = osp.join( osp.dirname(__file__), '../tests/data/color.jpg') if len(args.shape) == 1: input_shape = (1, 3, args.shape[0], args.shape[0]) elif len(args.shape) == 2: input_shape = (1, 3) + tuple(args.shape) else: raise ValueError('invalid input shape') assert len(args.mean) == 3 assert len(args.std) == 3 normalize_cfg = {'mean': args.mean, 'std': args.std} # convert model to onnx file pytorch2onnx( args.config, args.checkpoint, args.input_img, input_shape, opset_version=args.opset_version, show=args.show, output_file=args.output_file, verify=args.verify, normalize_cfg=normalize_cfg, dataset=args.dataset, test_img=args.test_img)