对pytorch网络层结构的数组化详解_Python

对pytorch网络层结构的数组化详解

2021-04-26 00:51库页 Python

今天小编就为大家分享一篇对pytorch网络层结构的数组化详解，具有很好的参考价值，希望对大家有所帮助。一起跟随小编过来看看吧

最近再写openpose，它的网络结构是多阶段的网络，所以写网络的时候很想用列表的方式，但是直接使用列表不能将网络中相应的部分放入到cuda中去。

其实这个问题很简单的，使用moduleList就好了。

1 我先是定义了一个函数，用来根据超参数，建立一个基础网络结构

				?

									stage = [[3, 3, 3, 1, 1], [7, 7, 7, 7, 7, 1, 1]]

									branches_cfg = [[[128, 128, 128, 512, 38], [128, 128, 128, 512, 19]],

									    [[128, 128, 128, 128, 128, 128, 38], [128, 128, 128, 128, 128, 128, 19]]]

									# used for add two branches as well as adapt to certain stage

									def add_extra(i, branches_cfg, stage):

									 """

									 only add CNN of brancdes S & L in stage Ti at the end of net

									 :param in_channels:the input channels & out

									 :param stage: size of filter

									 :param branches_cfg: channels of image

									 :return:list of layers

									 """

									 in_channels = i

									 layers = []

									 for k in range(len(stage)):

									  padding = stage[k] // 2

									  conv2d = nn.Conv2d(in_channels, branches_cfg[k], kernel_size=stage[k], padding=padding)

									  layers += [conv2d, nn.ReLU(inplace=True)]

									  in_channels = branches_cfg[k]

									 return layers

2 然后用普通列表装载他们

				?

									conf_bra_list = []

									paf_bra_list = []

									# param for branch network

									in_channels = 128

									for i in range(all_stage):

									 if i > 0:

									  branches = branches_cfg[1]

									  conv_sz = stage[1]

									 else:

									  branches = branches_cfg[0]

									  conv_sz = stage[0]

									 conf_bra_list.append(nn.Sequential(*add_extra(in_channels, branches[0], conv_sz)))

									 paf_bra_list.append(nn.Sequential(*add_extra(in_channels, branches[1], conv_sz)))

									 in_channels = 185

3 再然后，使用moduleList方法，把普通列表专成pytorch下的模块

				?

									# to list

									self.conf_bra = nn.ModuleList(conf_bra_list)

									self.paf_bra = nn.ModuleList(paf_bra_list)

4 最后，调用就好了

				?

									out_0 = x

									# the base transform

									for k in range(len(self.vgg)):

									 out_0 = self.vgg[k](out_0)

									# local name space

									name = locals()

									confs = []

									pafs = []

									outs = []

									length = len(self.conf_bra)

									for i in range(length):

									 name['conf_%s' % (i + 1)] = self.conf_bra[i](name['out_%s' % i])

									 name['paf_%s' % (i + 1)] = self.paf_bra[i](name['out_%s' % i])

									 name['out_%s' % (i + 1)] = torch.cat([name['conf_%s' % (i + 1)], name['paf_%s' % (i + 1)], out_0], 1)

									 confs.append('conf_%s' % (i + 1))

									 pafs.append('paf_%s' % (i + 1))

									 outs.append('out_%s' % (i + 1))