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mmdet.models.necks.ct_resnet_neck 源代码

# Copyright (c) OpenMMLab. All rights reserved.
import math

import torch.nn as nn
from mmcv.cnn import ConvModule
from mmcv.runner import BaseModule, auto_fp16

from mmdet.models.builder import NECKS


[文档]@NECKS.register_module() class CTResNetNeck(BaseModule): """The neck used in `CenterNet <https://arxiv.org/abs/1904.07850>`_ for object classification and box regression. Args: in_channel (int): Number of input channels. num_deconv_filters (tuple[int]): Number of filters per stage. num_deconv_kernels (tuple[int]): Number of kernels per stage. use_dcn (bool): If True, use DCNv2. Default: True. init_cfg (dict or list[dict], optional): Initialization config dict. """ def __init__(self, in_channel, num_deconv_filters, num_deconv_kernels, use_dcn=True, init_cfg=None): super(CTResNetNeck, self).__init__(init_cfg) assert len(num_deconv_filters) == len(num_deconv_kernels) self.fp16_enabled = False self.use_dcn = use_dcn self.in_channel = in_channel self.deconv_layers = self._make_deconv_layer(num_deconv_filters, num_deconv_kernels) def _make_deconv_layer(self, num_deconv_filters, num_deconv_kernels): """use deconv layers to upsample backbone's output.""" layers = [] for i in range(len(num_deconv_filters)): feat_channel = num_deconv_filters[i] conv_module = ConvModule( self.in_channel, feat_channel, 3, padding=1, conv_cfg=dict(type='DCNv2') if self.use_dcn else None, norm_cfg=dict(type='BN')) layers.append(conv_module) upsample_module = ConvModule( feat_channel, feat_channel, num_deconv_kernels[i], stride=2, padding=1, conv_cfg=dict(type='deconv'), norm_cfg=dict(type='BN')) layers.append(upsample_module) self.in_channel = feat_channel return nn.Sequential(*layers)
[文档] def init_weights(self): for m in self.modules(): if isinstance(m, nn.ConvTranspose2d): # In order to be consistent with the source code, # reset the ConvTranspose2d initialization parameters m.reset_parameters() # Simulated bilinear upsampling kernel w = m.weight.data f = math.ceil(w.size(2) / 2) c = (2 * f - 1 - f % 2) / (2. * f) for i in range(w.size(2)): for j in range(w.size(3)): w[0, 0, i, j] = \ (1 - math.fabs(i / f - c)) * ( 1 - math.fabs(j / f - c)) for c in range(1, w.size(0)): w[c, 0, :, :] = w[0, 0, :, :] elif isinstance(m, nn.BatchNorm2d): nn.init.constant_(m.weight, 1) nn.init.constant_(m.bias, 0) # self.use_dcn is False elif not self.use_dcn and isinstance(m, nn.Conv2d): # In order to be consistent with the source code, # reset the Conv2d initialization parameters m.reset_parameters()
[文档] @auto_fp16() def forward(self, inputs): assert isinstance(inputs, (list, tuple)) outs = self.deconv_layers(inputs[-1]) return outs,
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