- 沿指定轴求和
>>> np.sum([[3.,4], [5.,6], [6.,7]], axis=0)
array([ 14., 17.])
>>> np.sum([[3.,4], [5.,6], [6.,7]], axis=1)
array([ 7., 11., 13.])
>>> x = np.array([[3.,4], [5.,6], [6.,7]])
>>> np.sum(x, axis=0)
array([ 14., 17.])
>>> np.sum(x, axis=1)
array([ 7., 11., 13.])
numpy索引,`:`的位置处如同普通列表一样索引
- 索引维数超过 3 的多维数组
arr = np.arange(24).reshape((2, 3, 4))
print arr[1, ...] # 等价于 arr[1, :, :]
print arr[..., 1] # 等价于 arr[:, :, 1]
- 随机生成正态分布数据x,y是x的一次线性函数+噪音,然后画出
import numpy as np
num_points = 1000
vectors_set = []
for i in range(num_points):
x1= np.random.normal(0.0, 0.55)
y1= x1 * 0.1 + 0.3 + np.random.normal(0.0, 0.03)
vectors_set.append([x1, y1])
x_data = [v[0] for v in vectors_set]
y_data = [v[1] for v in vectors_set]
import matplotlib.pyplot as plt
plt.plot(x_data, y_data, 'ro', label='Original data')
plt.legend('hello')
plt.show()
plt.show
- 计算数组某一维度上的平均值 numpy.mean
numpy.mean和tensorflow.reduce_mean效果是一样的。
c = np.array([[3.,4], [5.,6], [6.,7]])
print(np.mean(c,1))
# [ 3.5 5.5 6.5]
Mean = tf.reduce_mean(c,1)
with tf.Session() as sess:
result = sess.run(Mean)
print(result)
# [ 3.5 5.5 6.5]
np.reshape()重新排列数组形状。
np.concatenate((a, b), axis=1)按指定轴方向组合数组a和b。在第三维上组合矩阵
>>> a = np.arange(9).reshape(3,3)
array([[0, 1, 2],
[3, 4, 5],
[6, 7, 8]])
>>> b = 2 * a
array([[ 0, 2, 4],
[ 6, 8, 10],
[12, 14, 16]])
>>> np.dstack((a, b))
array([[[ 0, 0],
[ 1, 2],
[ 2, 4]],
[[ 3, 6],
[ 4, 8],
[ 5, 10]],
[[ 6, 12],
[ 7, 14],
[ 8, 16]]])
