## -----------------------------------------------------------------------------
data('sleep')
library(TOSTER)
test1 = wilcox_TOST(formula = extra ~ group,
data = sleep,
paired = FALSE,
eqb = .5)
print(test1)
## -----------------------------------------------------------------------------
# Rank biserial
wilcox_TOST(formula = extra ~ group,
data = sleep,
paired = FALSE,
ses = "r",
eqb = .5)
# Odds
wilcox_TOST(formula = extra ~ group,
data = sleep,
paired = FALSE,
ses = "o",
eqb = .5)
# Concordance
wilcox_TOST(formula = extra ~ group,
data = sleep,
paired = FALSE,
ses = "c",
eqb = .5)
## -----------------------------------------------------------------------------
# studentized test
brunner_munzel(formula = extra ~ group,
data = sleep,
paired = FALSE)
# permutation
brunner_munzel(formula = extra ~ group,
data = sleep,
paired = FALSE,
perm = TRUE)
## -----------------------------------------------------------------------------
# permutation based Brunner-Munzel test of equivalence
simple_htest(formula = extra ~ group,
test = "brunner",
data = sleep,
paired = FALSE,
alternative = "equ",
mu = .7,
perm = TRUE)
## -----------------------------------------------------------------------------
data('sleep')
test1 = boot_t_TOST(formula = extra ~ group,
data = sleep,
paired = TRUE,
eqb = .5,
R = 999)
print(test1)
plot(test1)
## -----------------------------------------------------------------------------
log_TOST(
mpg ~ am,
data = mtcars
)
## -----------------------------------------------------------------------------
boot_log_TOST(
mpg ~ am,
data = mtcars,
R = 499
)
## -----------------------------------------------------------------------------
ses_calc(formula = extra ~ group,
data = sleep,
paired = TRUE,
ses = "r")
# Setting bootstrap replications low to
## reduce compiling time of vignette
boot_ses_calc(formula = extra ~ group,
data = sleep,
paired = TRUE,
R = 199,
boot_ci = "perc", # recommend percentile bootstrap for paired SES
ses = "r")