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from collections.abc import Sequence |
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import annotator.mmpkg.mmcv as mmcv |
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import numpy as np |
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import torch |
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from annotator.mmpkg.mmcv.parallel import DataContainer as DC |
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from ..builder import PIPELINES |
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def to_tensor(data): |
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"""Convert objects of various python types to :obj:`torch.Tensor`. |
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Supported types are: :class:`numpy.ndarray`, :class:`torch.Tensor`, |
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:class:`Sequence`, :class:`int` and :class:`float`. |
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Args: |
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data (torch.Tensor | numpy.ndarray | Sequence | int | float): Data to |
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be converted. |
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""" |
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if isinstance(data, torch.Tensor): |
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return data |
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elif isinstance(data, np.ndarray): |
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return torch.from_numpy(data) |
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elif isinstance(data, Sequence) and not mmcv.is_str(data): |
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return torch.tensor(data) |
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elif isinstance(data, int): |
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return torch.LongTensor([data]) |
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elif isinstance(data, float): |
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return torch.FloatTensor([data]) |
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else: |
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raise TypeError(f'type {type(data)} cannot be converted to tensor.') |
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@PIPELINES.register_module() |
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class ToTensor(object): |
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"""Convert some results to :obj:`torch.Tensor` by given keys. |
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Args: |
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keys (Sequence[str]): Keys that need to be converted to Tensor. |
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""" |
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def __init__(self, keys): |
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self.keys = keys |
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def __call__(self, results): |
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"""Call function to convert data in results to :obj:`torch.Tensor`. |
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Args: |
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results (dict): Result dict contains the data to convert. |
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Returns: |
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dict: The result dict contains the data converted |
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to :obj:`torch.Tensor`. |
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""" |
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for key in self.keys: |
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results[key] = to_tensor(results[key]) |
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return results |
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def __repr__(self): |
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return self.__class__.__name__ + f'(keys={self.keys})' |
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@PIPELINES.register_module() |
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class ImageToTensor(object): |
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"""Convert image to :obj:`torch.Tensor` by given keys. |
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The dimension order of input image is (H, W, C). The pipeline will convert |
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it to (C, H, W). If only 2 dimension (H, W) is given, the output would be |
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(1, H, W). |
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Args: |
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keys (Sequence[str]): Key of images to be converted to Tensor. |
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""" |
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def __init__(self, keys): |
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self.keys = keys |
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def __call__(self, results): |
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"""Call function to convert image in results to :obj:`torch.Tensor` and |
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transpose the channel order. |
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Args: |
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results (dict): Result dict contains the image data to convert. |
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Returns: |
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dict: The result dict contains the image converted |
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to :obj:`torch.Tensor` and transposed to (C, H, W) order. |
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""" |
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for key in self.keys: |
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img = results[key] |
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if len(img.shape) < 3: |
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img = np.expand_dims(img, -1) |
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results[key] = to_tensor(img.transpose(2, 0, 1)) |
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return results |
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def __repr__(self): |
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return self.__class__.__name__ + f'(keys={self.keys})' |
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@PIPELINES.register_module() |
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class Transpose(object): |
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"""Transpose some results by given keys. |
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Args: |
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keys (Sequence[str]): Keys of results to be transposed. |
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order (Sequence[int]): Order of transpose. |
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""" |
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def __init__(self, keys, order): |
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self.keys = keys |
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self.order = order |
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def __call__(self, results): |
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"""Call function to convert image in results to :obj:`torch.Tensor` and |
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transpose the channel order. |
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Args: |
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results (dict): Result dict contains the image data to convert. |
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Returns: |
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dict: The result dict contains the image converted |
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to :obj:`torch.Tensor` and transposed to (C, H, W) order. |
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""" |
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for key in self.keys: |
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results[key] = results[key].transpose(self.order) |
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return results |
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def __repr__(self): |
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return self.__class__.__name__ + \ |
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f'(keys={self.keys}, order={self.order})' |
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@PIPELINES.register_module() |
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class ToDataContainer(object): |
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"""Convert results to :obj:`mmcv.DataContainer` by given fields. |
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Args: |
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fields (Sequence[dict]): Each field is a dict like |
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``dict(key='xxx', **kwargs)``. The ``key`` in result will |
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be converted to :obj:`mmcv.DataContainer` with ``**kwargs``. |
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Default: ``(dict(key='img', stack=True), |
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dict(key='gt_semantic_seg'))``. |
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""" |
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def __init__(self, |
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fields=(dict(key='img', |
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stack=True), dict(key='gt_semantic_seg'))): |
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self.fields = fields |
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def __call__(self, results): |
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"""Call function to convert data in results to |
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:obj:`mmcv.DataContainer`. |
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Args: |
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results (dict): Result dict contains the data to convert. |
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Returns: |
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dict: The result dict contains the data converted to |
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:obj:`mmcv.DataContainer`. |
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""" |
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for field in self.fields: |
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field = field.copy() |
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key = field.pop('key') |
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results[key] = DC(results[key], **field) |
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return results |
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def __repr__(self): |
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return self.__class__.__name__ + f'(fields={self.fields})' |
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@PIPELINES.register_module() |
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class DefaultFormatBundle(object): |
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"""Default formatting bundle. |
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It simplifies the pipeline of formatting common fields, including "img" |
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and "gt_semantic_seg". These fields are formatted as follows. |
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- img: (1)transpose, (2)to tensor, (3)to DataContainer (stack=True) |
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- gt_semantic_seg: (1)unsqueeze dim-0 (2)to tensor, |
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(3)to DataContainer (stack=True) |
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""" |
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def __call__(self, results): |
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"""Call function to transform and format common fields in results. |
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Args: |
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results (dict): Result dict contains the data to convert. |
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Returns: |
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dict: The result dict contains the data that is formatted with |
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default bundle. |
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""" |
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if 'img' in results: |
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img = results['img'] |
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if len(img.shape) < 3: |
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img = np.expand_dims(img, -1) |
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img = np.ascontiguousarray(img.transpose(2, 0, 1)) |
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results['img'] = DC(to_tensor(img), stack=True) |
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if 'gt_semantic_seg' in results: |
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results['gt_semantic_seg'] = DC( |
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to_tensor(results['gt_semantic_seg'][None, |
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...].astype(np.int64)), |
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stack=True) |
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return results |
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def __repr__(self): |
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return self.__class__.__name__ |
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@PIPELINES.register_module() |
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class Collect(object): |
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"""Collect data from the loader relevant to the specific task. |
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This is usually the last stage of the data loader pipeline. Typically keys |
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is set to some subset of "img", "gt_semantic_seg". |
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The "img_meta" item is always populated. The contents of the "img_meta" |
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dictionary depends on "meta_keys". By default this includes: |
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- "img_shape": shape of the image input to the network as a tuple |
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(h, w, c). Note that images may be zero padded on the bottom/right |
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if the batch tensor is larger than this shape. |
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- "scale_factor": a float indicating the preprocessing scale |
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- "flip": a boolean indicating if image flip transform was used |
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- "filename": path to the image file |
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- "ori_shape": original shape of the image as a tuple (h, w, c) |
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- "pad_shape": image shape after padding |
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- "img_norm_cfg": a dict of normalization information: |
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- mean - per channel mean subtraction |
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- std - per channel std divisor |
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- to_rgb - bool indicating if bgr was converted to rgb |
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Args: |
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keys (Sequence[str]): Keys of results to be collected in ``data``. |
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meta_keys (Sequence[str], optional): Meta keys to be converted to |
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``mmcv.DataContainer`` and collected in ``data[img_metas]``. |
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Default: ``('filename', 'ori_filename', 'ori_shape', 'img_shape', |
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'pad_shape', 'scale_factor', 'flip', 'flip_direction', |
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'img_norm_cfg')`` |
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""" |
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def __init__(self, |
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keys, |
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meta_keys=('filename', 'ori_filename', 'ori_shape', |
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'img_shape', 'pad_shape', 'scale_factor', 'flip', |
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'flip_direction', 'img_norm_cfg')): |
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self.keys = keys |
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self.meta_keys = meta_keys |
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def __call__(self, results): |
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"""Call function to collect keys in results. The keys in ``meta_keys`` |
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will be converted to :obj:mmcv.DataContainer. |
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Args: |
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results (dict): Result dict contains the data to collect. |
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Returns: |
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dict: The result dict contains the following keys |
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- keys in``self.keys`` |
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- ``img_metas`` |
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""" |
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data = {} |
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img_meta = {} |
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for key in self.meta_keys: |
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img_meta[key] = results[key] |
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data['img_metas'] = DC(img_meta, cpu_only=True) |
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for key in self.keys: |
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data[key] = results[key] |
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return data |
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def __repr__(self): |
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return self.__class__.__name__ + \ |
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f'(keys={self.keys}, meta_keys={self.meta_keys})' |
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