python-numpy-1
mean()
- mean() 函数定义:
numpy.``mean
(a, axis=None, dtype=None, out=None, keepdims=<class numpy._globals._NoValue at 0x40b6a26c>)[source]
Compute the arithmetic mean along the specified axis.
Returns the average of the array elements. The average is taken over the flattened array by default, otherwise over the specified axis. float64
intermediate and return values are used for integer inputs.
Parameters:
a : array_like
Array containing numbers whose mean is desired. If a is not an array, a conversion is attempted.
axis : None or int or tuple of ints, optional
Axis or axes along which the means are computed. The default is to compute the mean of the flattened array.New in version 1.7.0.If this is a tuple of ints, a mean is performed over multiple axes, instead of a single axis or all the axes as before.
dtype : data-type, optional
Type to use in computing the mean. For integer inputs, the default is
float64
; for floating point inputs, it is the same as the input dtype.out : ndarray, optional
Alternate output array in which to place the result. The default is
None
; if provided, it must have the same shape as the expected output, but the type will be cast if necessary. Seedoc.ufuncs
for details.keepdims : bool, optional
If this is set to True, the axes which are reduced are left in the result as dimensions with size one. With this option, the result will broadcast correctly against the input array.If the default value is passed, then keepdims will not be passed through to the mean method of sub-classes of ndarray, however any non-default value will be. If the sub-classes sum method does not implement keepdims any exceptions will be raised.-
Returns:
m : ndarray, see dtype parameter above
If out=None, returns a new array containing the mean values, otherwise a reference to the output array is returned.
mean()函数功能:求取均值
经常操作的参数为axis,以m * n矩阵举例:
axis 不设置值,对 m*n 个数求均值,返回一个实数
axis = 0:压缩行,对各列求均值,返回 1* n 矩阵
axis =1 :压缩列,对各行求均值,返回 m *1 矩阵
举例:
>>> import numpy as np
>>> np.mean(now2) # 对所有元素求均值
3.5
>>> np.mean(now2,0) # 压缩行,对各列求均值
matrix([[ 2.5, 3.5, 4.5]])
array类矩阵
import numpy
建立矩阵
直接建立
python">a = numpy.array([[1,2,3],[4,5,6],[7,8,9]])b = numpy.array([[1,2], [3,4]], dtype=complex )
从tuple建立
a = [[1,2,3],[4,5,6],[7,8,9]]b = numpy.array(a)
建立特殊矩阵
a = numpy.zeros([4,5]) # all zeroa = numpy.ones([7,6]) # all one
a = numpy.eye(4,7) # 4x7 diagonal
a = numpy.diag(range(5)) # 5x5 diagonal
a = numpy.empty((2,3))
a = numpy.arange(10, 30, 5) # array([10, 15, 20, 25]), 1-D
a = numpy.linspace(0, 2, 9) # 9 numbers from 0 to 2
a = numpy.random.random((2,3)) # 随机数矩阵
a = numpy.fromfunction(f,(5,4),dtype=int) # 从函数f(x,y)建立
矩阵变换、变形
a.reshape(-1)a.reshape(3, 4, -1)
a.T # 转置
a.transpose() # 转置
numpy.linalg.inv(a) # 求逆
a.diagonal([offset, axis1, axis2]) # 对角元
numpy.einsum('iijj->ij',a)
numpy.r_[a,b] # 在a中增加新行b
numpy.c_[a,b] # 新列
一般运算
y = x # 建立引用,修改x会影响yy = x.copy() # 建立副本,修改x不会影响y
a.dot(b) # 矩阵乘法
numpy.dot(a,b) # 矩阵乘法
numpy.trace(a) #求迹
特殊运算
numpy.einsum('iijj->ij',a)
arange()
类似于range(),
range(1,5,2) #[1, 3]arange(1,5,2) #[1 3]
reshape()
np.array(range(1,11)).reshape((-1,1))[[ 1]
[ 2]
[ 3]
[ 4]
[ 5]
[ 6]
[ 7]
[ 8]
[ 9]
[10]]
np.array(range(1,11)).reshape((2,5))
[[ 1 2 3 4 5]
[ 6 7 8 9 10]]
meshgrid()
meshgrid函数用两个坐标轴上的点在平面上画格。
用法:
[X,Y]=meshgrid(x,y)
[X,Y]=meshgrid(x)与[X,Y]=meshgrid(x,x)是等同的
[X,Y,Z]=meshgrid(x,y,z)生成三维数组,可用来计算三变量的函数和绘制三维立体图
例:x=-3:1:3;y=-2:1:2;
[X,Y]= meshgrid(x,y);
这里meshigrid(x,y)的作用是产生一个以向量x为行,向量y为列的矩阵,而x是从-3开始到3,每间隔1记下一个数据,并把这些数据集成矩阵X;同理y则是从-2到2,每间隔1记下一个数据,并集成矩阵Y。即
X=
-3 -2 -1 0 1 2 3
-3 -2 -1 0 1 2 3
-3 -2 -1 0 1 2 3
-3 -2 -1 0 1 2 3
-3 -2 -1 0 1 2 3
Y =
-2 -2 -2 -2 -2 -2 -2
-1 -1 -1 -1 -1 -1 -1
0 0 0 0 0 0 0
1 1 1 1 1 1 1
2 2 2 2 2 2 2
附注:例题中meshgrid(-3:1:3,-2:1:2);因为-3:1:3产生的是含有7个数字的行向量;-2:1:2产生的是含有5个数字的行向量。所以该命令的结果是产生57的矩阵(X,Y都是57的矩阵;其中X是由第一个含7个元素的行向量产生,Y是由第二个行向量产生)
ravel()
与flatten()一样,都是给array数组降维,flatten()返回的是拷贝,与原array数组的存储位置不同,ravel()与原array数组指向一致
>>> x = np.array([[1, 2], [3, 4]])>>> x
array([[1, 2],
[3, 4]])
>>> x.flatten()
array([1, 2, 3, 4])
>>> x.ravel()
array([1, 2, 3, 4])
两者默认均是行序优先
>>> x.flatten('F')
array([1, 3, 2, 4])
>>> x.ravel('F')
array([1, 3, 2, 4])
>>> x.reshape(-1)
array([1, 2, 3, 4])
>>> x.T.reshape(-1)
array([1, 3, 2, 4])
c_()
将切片对象沿第二个轴(按列)转换为连接。
np.c_[np.array([1,2,3]), np.array([4,5,6])] array([[1, 4],
[2, 5],
[3, 6]])
np.c_[np.array([[1,2,3]]), 0, 0, np.array([[4,5,6]])]
array([[1, 2, 3, 0, 0, 4, 5, 6]])
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