mmclassification/tools/pytorch2onnx.py

import argparse
from functools import partial

import mmcv
import numpy as np
import onnxruntime as rt
import torch
from mmcv.onnx import register_extra_symbolics
from mmcv.runner import load_checkpoint

from mmcls.models import build_classifier

torch.manual_seed(3)


def _demo_mm_inputs(input_shape, num_classes):
    """Create a superset of inputs needed to run test or train batches.

    Args:
        input_shape (tuple):
            input batch dimensions
        num_classes (int):
            number of semantic classes
    """
    (N, C, H, W) = input_shape
    rng = np.random.RandomState(0)
    imgs = rng.rand(*input_shape)
    gt_labels = rng.randint(
        low=0, high=num_classes - 1, size=(N, 1)).astype(np.uint8)
    mm_inputs = {
        'imgs': torch.FloatTensor(imgs).requires_grad_(True),
        'gt_labels': torch.LongTensor(gt_labels),
    }
    return mm_inputs


def pytorch2onnx(model,
                 input_shape,
                 opset_version=11,
                 show=False,
                 output_file='tmp.onnx',
                 verify=False):
    """Export Pytorch model to ONNX model and verify the outputs are same
    between Pytorch and ONNX.

    Args:
        model (nn.Module): Pytorch model we want to export.
        input_shape (tuple): Use this input shape to construct
            the corresponding dummy input and execute the model.
        opset_version (int): The onnx op version. Default: 11.
        show (bool): Whether print the computation graph. Default: False.
        output_file (string): The path to where we store the output ONNX model.
            Default: `tmp.onnx`.
        verify (bool): Whether compare the outputs between Pytorch and ONNX.
            Default: False.
    """
    model.cpu().eval()

    num_classes = model.head.num_classes
    mm_inputs = _demo_mm_inputs(input_shape, num_classes)

    imgs = mm_inputs.pop('imgs')
    img_list = [img[None, :] for img in imgs]

    # replace original forward function
    origin_forward = model.forward
    model.forward = partial(model.forward, return_loss=False)

    register_extra_symbolics(opset_version)
    with torch.no_grad():
        torch.onnx.export(
            model, (img_list, ),
            output_file,
            export_params=True,
            keep_initializers_as_inputs=True,
            verbose=show,
            opset_version=opset_version)
        print(f'Successfully exported ONNX model: {output_file}')
    model.forward = origin_forward

    if verify:
        # check by onnx
        import onnx
        onnx_model = onnx.load(output_file)
        onnx.checker.check_model(onnx_model)

        # check the numerical value
        # get pytorch output
        pytorch_result = model(img_list, return_loss=False)[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)
        onnx_result = sess.run(
            None, {net_feed_input[0]: img_list[0].detach().numpy()})[0]
        if not np.allclose(pytorch_result, onnx_result):
            raise ValueError(
                'The outputs are different between Pytorch and ONNX')
        print('The outputs are same between Pytorch and ONNX')


def parse_args():
    parser = argparse.ArgumentParser(description='Convert MMCls to ONNX')
    parser.add_argument('config', help='test config file path')
    parser.add_argument('--checkpoint', help='checkpoint file', default=None)
    parser.add_argument('--show', action='store_true', help='show onnx graph')
    parser.add_argument(
        '--verify', action='store_true', help='verify the onnx model')
    parser.add_argument('--output-file', type=str, default='tmp.onnx')
    parser.add_argument('--opset-version', type=int, default=11)
    parser.add_argument(
        '--shape',
        type=int,
        nargs='+',
        default=[224, 224],
        help='input image size')
    args = parser.parse_args()
    return args


if __name__ == '__main__':
    args = parse_args()

    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')

    cfg = mmcv.Config.fromfile(args.config)
    cfg.model.pretrained = None

    # build the model and load checkpoint
    classifier = build_classifier(cfg.model)

    if args.checkpoint:
        load_checkpoint(classifier, args.checkpoint, map_location='cpu')

    # conver model to onnx file
    pytorch2onnx(
        classifier,
        input_shape,
        opset_version=args.opset_version,
        show=args.show,
        output_file=args.output_file,
        verify=args.verify)