首页
学习
活动
专区
工具
TVP
发布
社区首页 >专栏 >(数据科学学习手札03)Python与R在随机数生成上的异同

(数据科学学习手札03)Python与R在随机数生成上的异同

作者头像
Feffery
发布2018-04-17 11:09:22
9010
发布2018-04-17 11:09:22
举报

随机数的使用是很多算法的关键步骤,例如蒙特卡洛法、遗传算法中的轮盘赌法的过程,因此对于任意一种语言,掌握其各类型随机数生成的方法至关重要,Python与R在随机数底层生成上都依靠梅森旋转(twister)来生成高质量的随机数,但在语法上存在着很多异同点。

Python

numpy中的random模块

from numpy import random
?random
Type:        module
String form: <module 'numpy.random' from 'D:\\anaconda\\lib\\site-packages\\numpy\\random\\__init__.py'>
File:        d:\anaconda\lib\site-packages\numpy\random\__init__.py
Docstring:  
========================
Random Number Generation
========================
==================== =========================================================
Utility functions
==============================================================================
random_sample        Uniformly distributed floats over ``[0, 1)``.
random               Alias for `random_sample`.
bytes                Uniformly distributed random bytes.
random_integers      Uniformly distributed integers in a given range.
permutation          Randomly permute a sequence / generate a random sequence.
shuffle              Randomly permute a sequence in place.
seed                 Seed the random number generator.
choice               Random sample from 1-D array.
==================== =========================================================
==================== =========================================================
Compatibility functions
==============================================================================
rand                 Uniformly distributed values.
randn                Normally distributed values.
ranf                 Uniformly distributed floating point numbers.
randint              Uniformly distributed integers in a given range.
==================== =========================================================
==================== =========================================================
Univariate distributions
==============================================================================
beta                 Beta distribution over ``[0, 1]``.
binomial             Binomial distribution.
chisquare            :math:`\chi^2` distribution.
exponential          Exponential distribution.
f                    F (Fisher-Snedecor) distribution.
gamma                Gamma distribution.
geometric            Geometric distribution.
gumbel               Gumbel distribution.
hypergeometric       Hypergeometric distribution.
laplace              Laplace distribution.
logistic             Logistic distribution.
lognormal            Log-normal distribution.
logseries            Logarithmic series distribution.
negative_binomial    Negative binomial distribution.
noncentral_chisquare Non-central chi-square distribution.
noncentral_f         Non-central F distribution.
normal               Normal / Gaussian distribution.
pareto               Pareto distribution.
poisson              Poisson distribution.
power                Power distribution.
rayleigh             Rayleigh distribution.
triangular           Triangular distribution.
uniform              Uniform distribution.
vonmises             Von Mises circular distribution.
wald                 Wald (inverse Gaussian) distribution.
weibull              Weibull distribution.
zipf                 Zipf's distribution over ranked data.
==================== =========================================================
==================== =========================================================
Multivariate distributions
==============================================================================
dirichlet            Multivariate generalization of Beta distribution.
multinomial          Multivariate generalization of the binomial distribution.
multivariate_normal  Multivariate generalization of the normal distribution.
==================== =========================================================
==================== =========================================================
Standard distributions
==============================================================================
standard_cauchy      Standard Cauchy-Lorentz distribution.
standard_exponential Standard exponential distribution.
standard_gamma       Standard Gamma distribution.
standard_normal      Standard normal distribution.
standard_t           Standard Student's t-distribution.
==================== =========================================================
==================== =========================================================
Internal functions
==============================================================================
get_state            Get tuple representing internal state of generator.
set_state            Set state of generator.
==================== =========================================================

上述random的模块说明文档详细说明了random中内置的各种随机数生成方法,下面针对其中一些常见的举例说明:

1.random.random_sample()与random.random()

生成[0,1]之间的服从均匀分布的浮点随机数

from numpy import random
for i in range(10):
    print(random.random_sample())
0.5131167122678871
0.3182844248720986
0.5391999374256481
0.2212549424277599
0.80648135792427
0.34225462561468434
0.5388888490671446
0.00587378555105833
0.6731524781805254
0.21002426217873815

2.random.random_integers()

生成指定范围内的可重复整数

random.random_integers(1,10,10)
Out[44]: array([ 9, 10,  6,  4, 10, 10,  5,  3,  1,  6])

3.random.permutation()

生成指定范围内所有整数的一次随机排列

for i in range(5):
    token = random.permutation(5)
    print(token)
    print(set(token))
[0 2 1 3 4]
{0, 1, 2, 3, 4}
[0 3 4 2 1]
{0, 1, 2, 3, 4}
[2 3 1 4 0]
{0, 1, 2, 3, 4}
[4 3 0 1 2]
{0, 1, 2, 3, 4}
[1 2 4 0 3]
{0, 1, 2, 3, 4}

4.random.shuffle()

将指定的列表随机打乱顺序

list = [i for i in range(10)]
random.shuffle(list)
print(list)
[6, 8, 2, 4, 5, 3, 0, 7, 1, 9]

5.random.seed()

以括号中的整数为起点设置伪随机数种子,同样的随机数种子设置后生成的随机数相同

random.seed(42)
print(random.permutation(5))
random.seed(42)
print(random.permutation(5))
[1 4 2 0 3]
[1 4 2 0 3]

 6.random.choice()

从制定的序列中随机抽取多个元素(有放回或无放回,通过replace参数控制)

list = [i for i in range(10)]
random.choice(list,6,replace=False)#有放回
Out[8]: array([9, 6, 4, 2, 7, 8])
random.choice(list,6,replace=False)#无放回
Out[9]: array([1, 3, 9, 4, 0, 8])

7.random.rand()

生成0-1中服从均匀分布的多个随机数

random.rand(5)
Out[19]: array([0.86317047, 0.43070734, 0.85228662, 0.74797087, 0.76224563])

8.random.randn()

生成多个服从标准正态分布的随机数

random.randn(10)
Out[21]: 
array([-0.25617082, -0.85531159, -0.18286371,  1.25656827, -0.72270841,
        0.13949334,  0.92318096, -1.12549131, -0.46908035, -0.28388281])

9.random.randint()

等可能的生成指定范围内的多个随机整数

random.randint(1,10,5)
Out[29]: array([2, 9, 8, 8, 9])

R

作为专为统计而生的一种语言,R在随机数生成上自然是异常的丰富,这里仅举常用的一些随机数生成函数

1.rnorm()

生成服从正态分布的随机数,其中参数mean控制均值,sd控制标准差

> rnorm(5,mean=0,sd=1)
[1] -0.36167951 -0.50435239 -0.20245800  0.07877604  0.23662553

2.runif()

生成指定范围内的均匀分布随机数

> runif(5, min=0,max=10)
[1] 3.2774081 1.7341489 8.4128022 3.1511841 0.3385417

3.sample()

以不放回的方式生成指定范围内的随机整数序列

> sample(1:10,5,replace=T)#有放回
[1] 4 9 3 4 4
> sample(1:10,5,replace=F)#无放回
[1] 3 2 6 8 1

4.set.seed()

以括号内的整数值作为随机数发生算法的起点,因此通过控制伪随机数种子的参数,可以实现随机抽样的重现

而真正的随机算法里是默认以系统时间等我们认为充分随机的数字作为起点

> set.seed(42)
> sample(1:10,5,replace=F)
[1] 10  9  3  6  4
> set.seed(42)
> sample(1:10,5,replace=F)
[1] 10  9  3  6  4
本文参与 腾讯云自媒体分享计划,分享自作者个人站点/博客。
原始发表:2018-03-11 ,如有侵权请联系 cloudcommunity@tencent.com 删除

本文分享自 作者个人站点/博客 前往查看

如有侵权,请联系 cloudcommunity@tencent.com 删除。

本文参与 腾讯云自媒体分享计划  ,欢迎热爱写作的你一起参与!

评论
登录后参与评论
0 条评论
热度
最新
推荐阅读
领券
问题归档专栏文章快讯文章归档关键词归档开发者手册归档开发者手册 Section 归档