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[R语言] R语言入门 Chapter05 | 因子

编程语言 编程语言 发布于:2021-12-29 16:25 | 阅读数:629 | 评论:0

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Chapter05 | 因子

在R中名义型变量和有序性变量称为因子,factor。这些分类变量的可能值称为一个水平,level,例如good,better,best,都称为一个leve。
由这些水平值构成的向量就称为因子。
所有元素构成因子
因子类型的数据:

  • state.division
  • state.region
因子的应用:

  • 1、计算频数
  • 2、独立性检验
  • 3、相关性检验
  • 4、方差分析
  • 5、主成分分析
  • 6、因子分析
  • 1、频数统计
# cyl这一列可以当作因子类型
> mtcars$cyl
 [1] 6 6 4 6 8 6 8 4 4 6 6 8 8 8 8 8 8 4 4 4 4 8 8 8 8 4 4 4 8 6 8 4
> table(mtcars$cyl)
 4  6  8 
11  7 14

  • 2、如何将向量转换为因子
使用factor()函数
> f <- factor(c("red","red","green","red","blue","green","blue","blue"))
> f
[1] red   red   green red   blue  green blue  blue 
Levels: blue green red
# 有序性变量也可以作为因子
# 不定义levels时levels自动去重
> week <- factor(c("Mon","Fri","Thu","Wed","Mon","Fri","Sun"))
> week
[1] Mon Fri Thu Wed Mon Fri Sun
Levels: Fri Mon Sun Thu Wed
# 自定义levels不允许重复
> week <- factor(c("Mon","Fri","Thu","Wed","Mon","Fri","Sun"),order = TRUE,
+        levels = c("Mon","Tue","Wed","Thu","Fri","Sat","Sun"))
> week
[1] Mon Fri Thu Wed Mon Fri Sun
Levels: Mon < Tue < Wed < Thu < Fri < Sat < Sun
# 一个向量转换成因子,直接输入到factor()内即可
> fcyl <- factor(mtcars$cyl)
> fcyl
 [1] 6 6 4 6 8 6 8 4 4 6 6 8 8 8 8 8 8 4 4 4 4 8 8 8 8 4 4 4 8 6 8 4
Levels: 4 6 8

  • 3、向量和因子图形的对比
  • 向量
plot(mtcars$cyl)
DSC0000.png


  • 因子
plot(fcyl)
DSC0001.png


  • 4、cut()函数
cut函数可以将连续性变量x分割为n个水平的因子
> num <- c(1:100)
> num
  [1]   1   2   3   4   5   6   7   8   9  10  11  12  13  14  15  16  17  18  19  20  21  22
 [23]  23  24  25  26  27  28  29  30  31  32  33  34  35  36  37  38  39  40  41  42  43  44
 [45]  45  46  47  48  49  50  51  52  53  54  55  56  57  58  59  60  61  62  63  64  65  66
 [67]  67  68  69  70  71  72  73  74  75  76  77  78  79  80  81  82  83  84  85  86  87  88
 [89]  89  90  91  92  93  94  95  96  97  98  99 100
# 每隔10个进行分组
> cut (num,c(seq(0,100,10)))
  [1] (0,10]   (0,10]   (0,10]   (0,10]   (0,10]   (0,10]   (0,10]   (0,10]   (0,10]  
 [10] (0,10]   (10,20]  (10,20]  (10,20]  (10,20]  (10,20]  (10,20]  (10,20]  (10,20] 
 [19] (10,20]  (10,20]  (20,30]  (20,30]  (20,30]  (20,30]  (20,30]  (20,30]  (20,30] 
 [28] (20,30]  (20,30]  (20,30]  (30,40]  (30,40]  (30,40]  (30,40]  (30,40]  (30,40] 
 [37] (30,40]  (30,40]  (30,40]  (30,40]  (40,50]  (40,50]  (40,50]  (40,50]  (40,50] 
 [46] (40,50]  (40,50]  (40,50]  (40,50]  (40,50]  (50,60]  (50,60]  (50,60]  (50,60] 
 [55] (50,60]  (50,60]  (50,60]  (50,60]  (50,60]  (50,60]  (60,70]  (60,70]  (60,70] 
 [64] (60,70]  (60,70]  (60,70]  (60,70]  (60,70]  (60,70]  (60,70]  (70,80]  (70,80] 
 [73] (70,80]  (70,80]  (70,80]  (70,80]  (70,80]  (70,80]  (70,80]  (70,80]  (80,90] 
 [82] (80,90]  (80,90]  (80,90]  (80,90]  (80,90]  (80,90]  (80,90]  (80,90]  (80,90] 
 [91] (90,100] (90,100] (90,100] (90,100] (90,100] (90,100] (90,100] (90,100] (90,100]
[100] (90,100]
10 Levels: (0,10] (10,20] (20,30] (30,40] (40,50] (50,60] (60,70] (70,80] ... (90,100]
如果数字较大,我们可以通过cut()函数进行频数统计,很方便




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