1 squeeze(): 去除size为1的维度,包括行和列。
至于维度大于等于2时,squeeze()不起作用。
行、例:
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>>> torch.rand( 4 , 1 , 3 ) ( 0 ,.,.) = 0.5391 0.8523 0.9260 ( 1 ,.,.) = 0.2507 0.9512 0.6578 ( 2 ,.,.) = 0.7302 0.3531 0.9442 ( 3 ,.,.) = 0.2689 0.4367 0.6610 [torch.FloatTensor of size 4x1x3 ] |
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>>> torch.rand( 4 , 1 , 3 ).squeeze() 0.0801 0.4600 0.1799 0.0236 0.7137 0.6128 0.0242 0.3847 0.4546 0.9004 0.5018 0.4021 [torch.FloatTensor of size 4x3 ] |
列、例:
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>>> torch.rand( 4 , 3 , 1 ) ( 0 ,.,.) = 0.7013 0.9818 0.9723 ( 1 ,.,.) = 0.9902 0.8354 0.3864 ( 2 ,.,.) = 0.4620 0.0844 0.5707 ( 3 ,.,.) = 0.5722 0.2494 0.5815 [torch.FloatTensor of size 4x3x1 ] |
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>>> torch.rand( 4 , 3 , 1 ).squeeze() 0.8784 0.6203 0.8213 0.7238 0.5447 0.8253 0.1719 0.7830 0.1046 0.0233 0.9771 0.2278 [torch.FloatTensor of size 4x3 ] |
不变、例:
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>>> torch.rand( 4 , 3 , 2 ) ( 0 ,.,.) = 0.6618 0.1678 0.3476 0.0329 0.1865 0.4349 ( 1 ,.,.) = 0.7588 0.8972 0.3339 0.8376 0.6289 0.9456 ( 2 ,.,.) = 0.1392 0.0320 0.0033 0.0187 0.8229 0.0005 ( 3 ,.,.) = 0.2327 0.6264 0.4810 0.6642 0.8625 0.6334 [torch.FloatTensor of size 4x3x2 ] |
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>>> torch.rand( 4 , 3 , 2 ).squeeze() ( 0 ,.,.) = 0.0593 0.8910 0.9779 0.1530 0.9210 0.2248 ( 1 ,.,.) = 0.7938 0.9362 0.1064 0.6630 0.9321 0.0453 ( 2 ,.,.) = 0.0189 0.9187 0.4458 0.9925 0.9928 0.7895 ( 3 ,.,.) = 0.5116 0.7253 0.0132 0.6673 0.9410 0.8159 [torch.FloatTensor of size 4x3x2 ] |
2 cat函数
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>>> t1 = torch.FloatTensor(torch.randn( 2 , 3 )) >>> t1 - 1.9405 1.2009 0.0018 0.9463 0.4409 - 1.9017 [torch.FloatTensor of size 2x3 ] |
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>>> t2 = torch.FloatTensor(torch.randn( 2 , 2 )) >>> t2 0.0942 0.1581 1.1621 1.2617 [torch.FloatTensor of size 2x2 ] |
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>>> torch.cat((t1, t2), 1 ) - 1.9405 1.2009 0.0018 0.0942 0.1581 0.9463 0.4409 - 1.9017 1.1621 1.2617 [torch.FloatTensor of size 2x5 ] |
补充:pytorch中 max()、view()、 squeeze()、 unsqueeze()
查了好多博客都似懂非懂,后来写了几个小例子,瞬间一目了然。
一、torch.max()
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import torch a = torch.randn( 3 ) print ( "a:\n" ,a) print ( 'max(a):' ,torch. max (a)) b = torch.randn( 3 , 4 ) print ( "b:\n" ,b) print ( 'max(b,0):' ,torch. max (b, 0 )) print ( 'max(b,1):' ,torch. max (b, 1 )) |
输出:
a:
tensor([ 0.9558, 1.1242, 1.9503])
max(a): tensor(1.9503)
b:
tensor([[ 0.2765, 0.0726, -0.7753, 1.5334],
[ 0.0201, -0.0005, 0.2616, -1.1912],
[-0.6225, 0.6477, 0.8259, 0.3526]])
max(b,0): (tensor([ 0.2765, 0.6477, 0.8259, 1.5334]), tensor([ 0, 2, 2, 0]))
max(b,1): (tensor([ 1.5334, 0.2616, 0.8259]), tensor([ 3, 2, 2]))
max(a),用于一维数据,求出最大值。
max(a,0),计算出数据中一列的最大值,并输出最大值所在的行号。
max(a,1),计算出数据中一行的最大值,并输出最大值所在的列号。
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print ( 'max(b,1):' ,torch. max (b, 1 )[ 1 ]) |
输出:只输出行最大值所在的列号
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max (b, 1 ): tensor([ 3 , 2 , 2 ]) |
torch.max(b,1)[0], 只返回最大值的每个数
二、view()
a.view(i,j)表示将原矩阵转化为i行j列的形式
i为-1表示不限制行数,输出1列
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a = torch.randn( 3 , 4 ) print (a) |
输出:
tensor([[-0.8146, -0.6592, 1.5100, 0.7615],
[ 1.3021, 1.8362, -0.3590, 0.3028],
[ 0.0848, 0.7700, 1.0572, 0.6383]])
b=a.view(-1,1)
print(b)
输出:
tensor([[-0.8146],
[-0.6592],
[ 1.5100],
[ 0.7615],
[ 1.3021],
[ 1.8362],
[-0.3590],
[ 0.3028],
[ 0.0848],
[ 0.7700],
[ 1.0572],
[ 0.6383]])
i为1,j为-1表示不限制列数,输出1行
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b = a.view( 1 , - 1 ) print (b) |
输出:
tensor([[-0.8146, -0.6592, 1.5100, 0.7615, 1.3021, 1.8362, -0.3590,
0.3028, 0.0848, 0.7700, 1.0572, 0.6383]])
i为-1,j为2表示不限制行数,输出2列
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b = a.view( - 1 , 2 ) print (b) |
输出:
tensor([[-0.8146, -0.6592],
[ 1.5100, 0.7615],
[ 1.3021, 1.8362],
[-0.3590, 0.3028],
[ 0.0848, 0.7700],
[ 1.0572, 0.6383]])
i为-1,j为3表示不限制行数,输出3列
i为4,j为3表示输出4行3列
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b = a.view( - 1 , 3 ) print (b) b = a.view( 4 , 3 ) print (b) |
输出:
tensor([[-0.8146, -0.6592, 1.5100],
[ 0.7615, 1.3021, 1.8362],
[-0.3590, 0.3028, 0.0848],
[ 0.7700, 1.0572, 0.6383]])
tensor([[-0.8146, -0.6592, 1.5100],
[ 0.7615, 1.3021, 1.8362],
[-0.3590, 0.3028, 0.0848],
[ 0.7700, 1.0572, 0.6383]])
三、
1.torch.squeeze()
压缩矩阵,我理解为降维
a.squeeze(i) 压缩第i维,如果这一维维数是1,则这一维可有可无,便可以压缩
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import torch a = torch.randn( 1 , 3 , 4 ) print (a) b = a.squeeze( 0 ) print (b) c = a.squeeze( 1 ) print (c |
输出:
tensor([[[ 0.4627, 1.6447, 0.1320, 2.0946],
[-0.0080, 0.1794, 1.1898, -1.2525],
[ 0.8281, -0.8166, 1.8846, 0.9008]]])
一页三行4列的矩阵
第0维为1,则可以通过squeeze(0)删掉,转化为三行4列的矩阵
tensor([[ 0.4627, 1.6447, 0.1320, 2.0946],
[-0.0080, 0.1794, 1.1898, -1.2525],
[ 0.8281, -0.8166, 1.8846, 0.9008]])
第1维不为1,则不可以压缩
tensor([[[ 0.4627, 1.6447, 0.1320, 2.0946],
[-0.0080, 0.1794, 1.1898, -1.2525],
[ 0.8281, -0.8166, 1.8846, 0.9008]]])
2.torch.unsqueeze()
unsqueeze(i) 表示将第i维设置为1
对压缩为3行4列后的矩阵b进行操作,将第0维设置为1
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c = b.unsqueeze( 0 ) print (c) |
输出一个一页三行四列的矩阵
tensor([[[ 0.0661, -0.2386, -0.6610, 1.5774],
[ 1.2210, -0.1084, -0.1166, -0.2379],
[-1.0012, -0.4363, 1.0057, -1.5180]]])
将第一维设置为1
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c = b.unsqueeze( 1 ) print (c) |
输出一个3页,一行,4列的矩阵
tensor([[[-1.0067, -1.1477, -0.3213, -1.0633]],
[[-2.3976, 0.9857, -0.3462, -0.3648]],
[[ 1.1012, -0.4659, -0.0858, 1.6631]]])
另外,squeeze、unsqueeze操作不改变原矩阵
以上为个人经验,希望能给大家一个参考,也希望大家多多支持服务器之家。
原文链接:https://blog.csdn.net/abc781cba/article/details/79663190