packrat/lib-R/MASS/scripts/ch02.R
In UBC-MDS/Karl:
#-*- R -*-
## Script from Fourth Edition of `Modern Applied Statistics with S'
# Chapter 2 Data Manipulation
library(MASS)
options(width=65, digits=5, height=9999)
-2:2
powers.of.pi <- pi^(-2:2)
powers.of.pi
class(powers.of.pi)
print(powers.of.pi)
summary(powers.of.pi)
# rm(powers.of.pi)
powers.of.pi[5]
names(powers.of.pi) <- -2:2
powers.of.pi
powers.of.pi["2"]
class(powers.of.pi)
as.vector(powers.of.pi)
names(powers.of.pi) <- NULL
powers.of.pi
citizen <- factor(c("uk", "us", "no", "au", "uk", "us", "us"))
citizen
unclass(citizen)
citizen[5:7]
citizen <- factor(c("uk", "us", "no", "au", "uk", "us", "us"),
levels = c("us", "fr", "no", "au", "uk"))
citizen
income <- ordered(c("Mid", "Hi", "Lo", "Mid", "Lo", "Hi", "Lo"))
income
as.numeric(income)
inc <- ordered(c("Mid", "Hi", "Lo", "Mid", "Lo", "Hi", "Lo"),
levels = c("Lo", "Mid", "Hi"))
inc
erupt <- cut(geyser$duration, breaks = 0:6)
erupt <- ordered(erupt, labels=levels(erupt))
erupt
painters
row.names(painters)
summary(painters) # try it!
attach(painters)
School
detach("painters")
mymat <- matrix(1:30, 3, 10)
mymat
myarr <- mymat
dim(myarr) <- c(3, 5, 2)
class(myarr)
myarr
dim(myarr)
dimnames(myarr) <- list(letters[1:3], NULL, c("(i)", "(ii)"))
myarr
newvar <- NA
class(NA)
newvar > 3
x <- c(pi, 4, 5)
x[2] <- NA
x
class(x)
is.na(x)
1/0
x <- c(-1, 0, 1)/0
x
is.na(x)
x > Inf
x <- c(2.9, 3.1, 3.4, 3.4, 3.7, 3.7, 2.8, 2.5)
letters[1:3]
letters[c(1:3,3:1)]
longitude <- state.center$x
names(longitude) <- state.name
longitude[c("Hawaii", "Alaska")]
myarr[1, 2:4, ]
myarr[1, 2:4, , drop = FALSE]
attach(painters)
painters[Colour >= 17, ]
painters[Colour >= 15 & Composition > 10, ]
painters[Colour >= 15 & School != "D", ]
painters[is.element(School, c("A", "B", "D")), ]
painters[School %in% c("A", "B", "D"), ] ## R only
painters[cbind(1:nrow(painters), ifelse(Colour > Expression, 3, 4))]
painters[grep("io$", row.names(painters)), ]
detach("painters")
m <- 30
fglsub1 <- fgl[sort(sample(1:nrow(fgl), m)), ]
fglsub2 <- fgl[rbinom(nrow(fgl), 1, 0.1) == 1, ]
fglsub3 <- fgl[seq(1, nrow(fgl), by = 10), ]
painters[sort.list(row.names(painters)), ]
lcrabs <- crabs # make a copy
lcrabs[, 4:8] <- log(crabs[, 4:8])
scrabs <- crabs # make a copy
scrabs[, 4:8] <- lapply(scrabs[, 4:8], scale)
## or to just centre the variables
scrabs[, 4:8] <- lapply(scrabs[, 4:8], scale, scale = FALSE)
scrabs <- crabs # make a copy
scrabs[ ] <- lapply(scrabs,
function(x) {if(is.numeric(x)) scale(x) else x})
sapply(crabs, is.numeric)
by(crabs[, 4:8], list(crabs$sp, crabs$sex), summary)
aggregate(crabs[, 4:8], by = list(sp=crabs$sp, sex=crabs$sex),
median)
authors <- data.frame(
surname = c("Tukey", "Venables", "Tierney", "Ripley", "McNeil"),
nationality = c("US", "Australia", "US", "UK", "Australia"),
deceased = c("yes", rep("no", 4)))
books <- data.frame(
name = c("Tukey", "Venables", "Tierney",
"Ripley", "Ripley", "McNeil", "R Core"),
title = c("Exploratory Data Analysis",
"Modern Applied Statistics ...",
"LISP-STAT",
"Spatial Statistics", "Stochastic Simulation",
"Interactive Data Analysis",
"An Introduction to R"))
authors
books
merge(authors, books, by.x = "surname", by.y = "name")
attach(quine)
table(Age)
table(Sex, Age)
tab <- xtabs(~ Sex + Age, quine)
unclass(tab)
tapply(Days, Age, mean)
tapply(Days, Age, mean, trim = 0.1)
tapply(Days, list(Sex, Age), mean)
tapply(Days, list(Sex, Age),
function(x) sqrt(var(x)/length(x)))
quineFO <- quine[sapply(quine, is.factor)]
#tab <- do.call("table", quineFO)
tab <- table(quineFO)
QuineF <- expand.grid(lapply(quineFO, levels))
QuineF$Freq <- as.vector(tab)
QuineF
# End of ch02
UBC-MDS/Karl documentation built on May 22, 2019, 1:53 p.m.
R Package Documentation
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#-*- R -*-
## Script from Fourth Edition of `Modern Applied Statistics with S'
# Chapter 2 Data Manipulation
library(MASS)
options(width=65, digits=5, height=9999)
-2:2
powers.of.pi <- pi^(-2:2)
powers.of.pi
class(powers.of.pi)
print(powers.of.pi)
summary(powers.of.pi)
# rm(powers.of.pi)
powers.of.pi[5]
names(powers.of.pi) <- -2:2
powers.of.pi
powers.of.pi["2"]
class(powers.of.pi)
as.vector(powers.of.pi)
names(powers.of.pi) <- NULL
powers.of.pi
citizen <- factor(c("uk", "us", "no", "au", "uk", "us", "us"))
citizen
unclass(citizen)
citizen[5:7]
citizen <- factor(c("uk", "us", "no", "au", "uk", "us", "us"),
levels = c("us", "fr", "no", "au", "uk"))
citizen
income <- ordered(c("Mid", "Hi", "Lo", "Mid", "Lo", "Hi", "Lo"))
income
as.numeric(income)
inc <- ordered(c("Mid", "Hi", "Lo", "Mid", "Lo", "Hi", "Lo"),
levels = c("Lo", "Mid", "Hi"))
inc
erupt <- cut(geyser$duration, breaks = 0:6)
erupt <- ordered(erupt, labels=levels(erupt))
erupt
painters
row.names(painters)
summary(painters) # try it!
attach(painters)
School
detach("painters")
mymat <- matrix(1:30, 3, 10)
mymat
myarr <- mymat
dim(myarr) <- c(3, 5, 2)
class(myarr)
myarr
dim(myarr)
dimnames(myarr) <- list(letters[1:3], NULL, c("(i)", "(ii)"))
myarr
newvar <- NA
class(NA)
newvar > 3
x <- c(pi, 4, 5)
x[2] <- NA
x
class(x)
is.na(x)
1/0
x <- c(-1, 0, 1)/0
x
is.na(x)
x > Inf
x <- c(2.9, 3.1, 3.4, 3.4, 3.7, 3.7, 2.8, 2.5)
letters[1:3]
letters[c(1:3,3:1)]
longitude <- state.center$x
names(longitude) <- state.name
longitude[c("Hawaii", "Alaska")]
myarr[1, 2:4, ]
myarr[1, 2:4, , drop = FALSE]
attach(painters)
painters[Colour >= 17, ]
painters[Colour >= 15 & Composition > 10, ]
painters[Colour >= 15 & School != "D", ]
painters[is.element(School, c("A", "B", "D")), ]
painters[School %in% c("A", "B", "D"), ] ## R only
painters[cbind(1:nrow(painters), ifelse(Colour > Expression, 3, 4))]
painters[grep("io$", row.names(painters)), ]
detach("painters")
m <- 30
fglsub1 <- fgl[sort(sample(1:nrow(fgl), m)), ]
fglsub2 <- fgl[rbinom(nrow(fgl), 1, 0.1) == 1, ]
fglsub3 <- fgl[seq(1, nrow(fgl), by = 10), ]
painters[sort.list(row.names(painters)), ]
lcrabs <- crabs # make a copy
lcrabs[, 4:8] <- log(crabs[, 4:8])
scrabs <- crabs # make a copy
scrabs[, 4:8] <- lapply(scrabs[, 4:8], scale)
## or to just centre the variables
scrabs[, 4:8] <- lapply(scrabs[, 4:8], scale, scale = FALSE)
scrabs <- crabs # make a copy
scrabs[ ] <- lapply(scrabs,
function(x) {if(is.numeric(x)) scale(x) else x})
sapply(crabs, is.numeric)
by(crabs[, 4:8], list(crabs$sp, crabs$sex), summary)
aggregate(crabs[, 4:8], by = list(sp=crabs$sp, sex=crabs$sex),
median)
authors <- data.frame(
surname = c("Tukey", "Venables", "Tierney", "Ripley", "McNeil"),
nationality = c("US", "Australia", "US", "UK", "Australia"),
deceased = c("yes", rep("no", 4)))
books <- data.frame(
name = c("Tukey", "Venables", "Tierney",
"Ripley", "Ripley", "McNeil", "R Core"),
title = c("Exploratory Data Analysis",
"Modern Applied Statistics ...",
"LISP-STAT",
"Spatial Statistics", "Stochastic Simulation",
"Interactive Data Analysis",
"An Introduction to R"))
authors
books
merge(authors, books, by.x = "surname", by.y = "name")
attach(quine)
table(Age)
table(Sex, Age)
tab <- xtabs(~ Sex + Age, quine)
unclass(tab)
tapply(Days, Age, mean)
tapply(Days, Age, mean, trim = 0.1)
tapply(Days, list(Sex, Age), mean)
tapply(Days, list(Sex, Age),
function(x) sqrt(var(x)/length(x)))
quineFO <- quine[sapply(quine, is.factor)]
#tab <- do.call("table", quineFO)
tab <- table(quineFO)
QuineF <- expand.grid(lapply(quineFO, levels))
QuineF$Freq <- as.vector(tab)
QuineF
# End of ch02
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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