To install santoku, run:
install.packages("santoku")Use chop() like cut() to cut your data up:
library(santoku)
x <- runif(10, 0, 10)
(chopped <- chop(x, breaks = 0:10))
#> [1] [4, 5) [8, 9) [3, 4) [4, 5) [7, 8) [9, 10) [6, 7) [8, 9) [1, 2)
#> [10] [4, 5)
#> Levels: [1, 2) [3, 4) [4, 5) [6, 7) [7, 8) [8, 9) [9, 10)
data.frame(x, chopped)
#> x chopped
#> 1 4.978305 [4, 5)
#> 2 8.969989 [8, 9)
#> 3 3.391823 [3, 4)
#> 4 4.676785 [4, 5)
#> 5 7.057042 [7, 8)
#> 6 9.707687 [9, 10)
#> 7 6.713807 [6, 7)
#> 8 8.376589 [8, 9)
#> 9 1.086165 [1, 2)
#> 10 4.495479 [4, 5)chop() returns a factor.
If data is beyond the limits of breaks, they will be extended automatically:
chopped <- chop(x, breaks = 3:7)
data.frame(x, chopped)
#> x chopped
#> 1 4.978305 [4, 5)
#> 2 8.969989 [7, 9.708]
#> 3 3.391823 [3, 4)
#> 4 4.676785 [4, 5)
#> 5 7.057042 [7, 9.708]
#> 6 9.707687 [7, 9.708]
#> 7 6.713807 [6, 7)
#> 8 8.376589 [7, 9.708]
#> 9 1.086165 [1.086, 3)
#> 10 4.495479 [4, 5)To chop a single number into a separate category, put the number twice in breaks:
x_fives <- x
x_fives[1:5] <- 5
chopped <- chop(x_fives, c(2, 5, 5, 8))
data.frame(x_fives, chopped)
#> x_fives chopped
#> 1 5.000000 {5}
#> 2 5.000000 {5}
#> 3 5.000000 {5}
#> 4 5.000000 {5}
#> 5 5.000000 {5}
#> 6 9.707687 [8, 9.708]
#> 7 6.713807 (5, 8)
#> 8 8.376589 [8, 9.708]
#> 9 1.086165 [1.086, 2)
#> 10 4.495479 [2, 5)To quickly produce a table of chopped data, use tab():
tab(1:10, c(2, 5, 8))
#> [1, 2) [2, 5) [5, 8) [8, 10]
#> 1 3 3 3To chop into fixed-width intervals, starting at the minimum value, use chop_width():
chopped <- chop_width(x, 2)
data.frame(x, chopped)
#> x chopped
#> 1 4.978305 [3.086, 5.086)
#> 2 8.969989 [7.086, 9.086)
#> 3 3.391823 [3.086, 5.086)
#> 4 4.676785 [3.086, 5.086)
#> 5 7.057042 [5.086, 7.086)
#> 6 9.707687 [9.086, 11.09)
#> 7 6.713807 [5.086, 7.086)
#> 8 8.376589 [7.086, 9.086)
#> 9 1.086165 [1.086, 3.086)
#> 10 4.495479 [3.086, 5.086)To chop into exactly intervals fixed-with intervals, use chop_evenly():
chopped <- chop_evenly(x, intervals = 3)
data.frame(x, chopped)
#> x chopped
#> 1 4.978305 [3.96, 6.834)
#> 2 8.969989 [6.834, 9.708]
#> 3 3.391823 [1.086, 3.96)
#> 4 4.676785 [3.96, 6.834)
#> 5 7.057042 [6.834, 9.708]
#> 6 9.707687 [6.834, 9.708]
#> 7 6.713807 [3.96, 6.834)
#> 8 8.376589 [6.834, 9.708]
#> 9 1.086165 [1.086, 3.96)
#> 10 4.495479 [3.96, 6.834)To chop into groups with a fixed number of members, use chop_n():
chopped <- chop_n(x, 4)
table(chopped)
#> chopped
#> [1.086, 4.978) [4.978, 8.97) [8.97, 9.708]
#> 4 4 2To chop into a fixed number of equal-sized groups, use chop_equally():
chopped <- chop_equally(x, groups = 5)
table(chopped)
#> chopped
#> [0%, 20%) [20%, 40%) [40%, 60%) [60%, 80%) [80%, 100%]
#> 2 2 2 2 2To chop data up by quantiles, use chop_quantiles():
chopped <- chop_quantiles(x, c(0.25, 0.5, 0.75))
data.frame(x, chopped)
#> x chopped
#> 1 4.978305 [25%, 50%)
#> 2 8.969989 (75%, 100%]
#> 3 3.391823 [0%, 25%)
#> 4 4.676785 [25%, 50%)
#> 5 7.057042 [50%, 75%]
#> 6 9.707687 (75%, 100%]
#> 7 6.713807 [50%, 75%]
#> 8 8.376589 (75%, 100%]
#> 9 1.086165 [0%, 25%)
#> 10 4.495479 [0%, 25%)To chop data by standard deviations around the mean, use chop_mean_sd():
chopped <- chop_mean_sd(x)
data.frame(x, chopped)
#> x chopped
#> 1 4.978305 [-1 sd, 0 sd)
#> 2 8.969989 [1 sd, 2 sd)
#> 3 3.391823 [-1 sd, 0 sd)
#> 4 4.676785 [-1 sd, 0 sd)
#> 5 7.057042 [0 sd, 1 sd)
#> 6 9.707687 [1 sd, 2 sd)
#> 7 6.713807 [0 sd, 1 sd)
#> 8 8.376589 [0 sd, 1 sd)
#> 9 1.086165 [-2 sd, -1 sd)
#> 10 4.495479 [-1 sd, 0 sd)tab_n(), tab_width(), tab_evenly() and tab_mean_sd() act similarly to tab(), calling the related chop_ function and then table().
tab_n(x, 4)
#> [1.086, 4.978) [4.978, 8.97) [8.97, 9.708]
#> 4 4 2
tab_width(x, 2)
#> [1.086, 3.086) [3.086, 5.086) [5.086, 7.086) [7.086, 9.086) [9.086, 11.09)
#> 1 4 2 2 1
tab_evenly(x, 5)
#> [1.086, 2.81) [2.81, 4.535) [4.535, 6.259) [6.259, 7.983) [7.983, 9.708]
#> 1 2 2 2 3
tab_mean_sd(x)
#> [-2 sd, -1 sd) [-1 sd, 0 sd) [0 sd, 1 sd) [1 sd, 2 sd)
#> 1 4 3 2You can chop dates too:
library(lubridate)
#>
#> Attaching package: 'lubridate'
#> The following objects are masked from 'package:base':
#>
#> date, intersect, setdiff, union
y2k <- as.Date("2000-01-01") + 0:365
months <- chop_width(y2k, months(1))
table(months)
#> months
#> [2000-01-01, 2000-02-01) [2000-02-01, 2000-03-01) [2000-03-01, 2000-04-01)
#> 31 29 31
#> [2000-04-01, 2000-05-01) [2000-05-01, 2000-06-01) [2000-06-01, 2000-07-01)
#> 30 31 30
#> [2000-07-01, 2000-08-01) [2000-08-01, 2000-09-01) [2000-09-01, 2000-10-01)
#> 31 31 30
#> [2000-10-01, 2000-11-01) [2000-11-01, 2000-12-01) [2000-12-01, 2001-01-01)
#> 31 30 31You can change factor labels with the labels argument:
chopped <- chop(x, c(2, 5, 8), labels = c("Lowest", "Low", "Higher", "Highest"))
data.frame(x, chopped)
#> x chopped
#> 1 4.978305 Low
#> 2 8.969989 Highest
#> 3 3.391823 Low
#> 4 4.676785 Low
#> 5 7.057042 Higher
#> 6 9.707687 Highest
#> 7 6.713807 Higher
#> 8 8.376589 Highest
#> 9 1.086165 Lowest
#> 10 4.495479 LowYou need as many labels as there are intervals - one fewer than length(breaks) if your data doesn’t extend beyond breaks, one more than length(breaks) if it does.
To label intervals with a dash, use lbl_dash():
chopped <- chop(x, c(2, 5, 8), lbl_dash())
data.frame(x, chopped)
#> x chopped
#> 1 4.978305 2—5
#> 2 8.969989 8—9.708
#> 3 3.391823 2—5
#> 4 4.676785 2—5
#> 5 7.057042 5—8
#> 6 9.707687 8—9.708
#> 7 6.713807 5—8
#> 8 8.376589 8—9.708
#> 9 1.086165 1.086—2
#> 10 4.495479 2—5You can customize the first or last labels:
chopped <- chop(x, c(2, 5, 8), lbl_dash(first = "< 2", last = "8+"))
data.frame(x, chopped)
#> x chopped
#> 1 4.978305 2—5
#> 2 8.969989 8+
#> 3 3.391823 2—5
#> 4 4.676785 2—5
#> 5 7.057042 5—8
#> 6 9.707687 8+
#> 7 6.713807 5—8
#> 8 8.376589 8+
#> 9 1.086165 < 2
#> 10 4.495479 2—5To label intervals in order use lbl_seq():
chopped <- chop(x, c(2, 5, 8), lbl_seq())
data.frame(x, chopped)
#> x chopped
#> 1 4.978305 b
#> 2 8.969989 d
#> 3 3.391823 b
#> 4 4.676785 b
#> 5 7.057042 c
#> 6 9.707687 d
#> 7 6.713807 c
#> 8 8.376589 d
#> 9 1.086165 a
#> 10 4.495479 bYou can use numerals or even roman numerals:
chop(x, c(2, 5, 8), lbl_seq("(1)"))
#> [1] (2) (4) (2) (2) (3) (4) (3) (4) (1) (2)
#> Levels: (1) (2) (3) (4)
chop(x, c(2, 5, 8), lbl_seq("i."))
#> [1] ii. iv. ii. ii. iii. iv. iii. iv. i. ii.
#> Levels: i. ii. iii. iv.Other labelling functions include:
lbl_discrete(), for integer datalbl_endpoint(), use left endpoints as labelslbl_manual(), specify labels manuallyBy default, chop() extends breaks if necessary. If you don’t want that, set extend = FALSE:
chopped <- chop(x, c(3, 5, 7), extend = FALSE)
data.frame(x, chopped)
#> x chopped
#> 1 4.978305 [3, 5)
#> 2 8.969989 <NA>
#> 3 3.391823 [3, 5)
#> 4 4.676785 [3, 5)
#> 5 7.057042 <NA>
#> 6 9.707687 <NA>
#> 7 6.713807 [5, 7)
#> 8 8.376589 <NA>
#> 9 1.086165 <NA>
#> 10 4.495479 [3, 5)Data outside the range of breaks will become NA.
By default, intervals are closed on the left, i.e. they include their left endpoints. If you want right-closed intervals, set left = FALSE:
y <- 1:5
data.frame(
y = y,
left_closed = chop(y, 1:5),
right_closed = chop(y, 1:5, left = FALSE)
)
#> y left_closed right_closed
#> 1 1 [1, 2) {1}
#> 2 2 [2, 3) (1, 2]
#> 3 3 [3, 4) (2, 3]
#> 4 4 [4, 5) (3, 4]
#> 5 5 {5} (4, 5]If you want to close off the last interval, set close_end = TRUE:
data.frame(
y = y,
rightmost_open = chop(y, 1:5),
rightmost_closed = chop(y, 1:5, close_end = TRUE)
)
#> y rightmost_open rightmost_closed
#> 1 1 [1, 2) [1, 2)
#> 2 2 [2, 3) [2, 3)
#> 3 3 [3, 4) [3, 4)
#> 4 4 [4, 5) [4, 5]
#> 5 5 {5} [4, 5]