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一 tf.concat( ) 函数–合并
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In [2]: a = tf.ones([4,35,8]) In [3]: b = tf.ones([2,35,8]) In [4]: c = tf.concat([a,b],axis=0) In [5]: c.shape Out[5]: TensorShape([6, 35, 8]) In [6]: a = tf.ones([4,32,8]) In [7]: b = tf.ones([4,3,8]) In [8]: c = tf.concat([a,b],axis=1) In [9]: c.shape Out[9]: TensorShape([4, 35, 8])
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二 tf.stack( ) 函数–数据的堆叠,创建新的维度
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In [2]: a = tf.ones([4,35,8]) In [3]: a.shape Out[3]: TensorShape([4, 35, 8]) In [4]: b = tf.ones([4,35,8]) In [5]: b.shape Out[5]: TensorShape([4, 35, 8]) In [6]: tf.concat([a,b],axis=-1).shape Out[6]: TensorShape([4, 35, 16]) In [7]: tf.stack([a,b],axis=0).shape Out[7]: TensorShape([2, 4, 35, 8]) In [8]: tf.stack([a,b],axis=3).shape Out[8]: TensorShape([4, 35, 8, 2])
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三 tf.unstack( )函数–解堆叠
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In [16]: a = tf.ones([4,35,8]) In [17]: b = tf.ones([4,35,8]) In [18]: c = tf.stack([a,b],axis=0) In [19]: a.shape,b.shape,c.shape Out[19]: (TensorShape([4, 35, 8]), TensorShape([4, 35, 8]), TensorShape([2, 4, 35, 8])) In [20]: aa,bb = tf.unstack(c,axis=0) In [21]: aa.shape,bb.shape Out[21]: (TensorShape([4, 35, 8]), TensorShape([4, 35, 8])) In [22]: res = tf.unstack(c,axis=1) In [23]: len(res) Out[23]: 4
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四 tf.split( ) 函数
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In [16]: a = tf.ones([4,35,8]) In [17]: b = tf.ones([4,35,8]) In [18]: c = tf.stack([a,b],axis=0) In [19]: a.shape,b.shape,c.shape Out[19]: (TensorShape([4, 35, 8]), TensorShape([4, 35, 8]), TensorShape([2, 4, 35, 8])) In [20]: aa,bb = tf.unstack(c,axis=0) In [21]: aa.shape,bb.shape Out[21]: (TensorShape([4, 35, 8]), TensorShape([4, 35, 8])) In [22]: res = tf.unstack(c,axis=1) In [23]: len(res) Out[23]: 4
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