checkInt(x, na.ok = FALSE, lower = -Inf, upper = Inf,
tol = sqrt(.Machine$double.eps))assertInt(x, na.ok = FALSE, lower = -Inf, upper = Inf,
tol = sqrt(.Machine$double.eps), add = NULL, .var.name = NULL)
assert_int(x, na.ok = FALSE, lower = -Inf, upper = Inf,
tol = sqrt(.Machine$double.eps), add = NULL, .var.name = NULL)
testInt(x, na.ok = FALSE, lower = -Inf, upper = Inf,
tol = sqrt(.Machine$double.eps))
test_int(x, na.ok = FALSE, lower = -Inf, upper = Inf,
tol = sqrt(.Machine$double.eps))
expect_int(x, na.ok = FALSE, lower = -Inf, upper = Inf,
tol = sqrt(.Machine$double.eps), info = NULL, label = NULL)
logical(1)]
Are missing values allowed? Default is FALSE.numeric(1)]
Lower value all elements of x must be greater than.numeric(1)]
Upper value all elements of x must be lower than.double(1)]
Numerical tolerance used to check whether a double or complex can be converted.
Default is sqrt(.Machine$double.eps).AssertCollection]
Collection to store assertions. See AssertCollection.NULL || character(1)]
Name of the checked object to print in error message. If NULL,
the name will be heuristically determined via substitute.expect_that..var.name, but passed down to expect_that.TRUE. If the check
is not successful, assertInt/assert_int
throws an error message, testInt/test_int
returns FALSE,
and checkInt returns a string with the error message.
The function expect_int always returns an
expectation.NA, NA_integer_, NA_real_, NA_complex_
NA_character_ and NaN.checkCount,
checkFlag, checkNumber,
checkScalarNA, checkScalar,
checkStringtestInt(1)
testInt(-1, lower = 0)Run the code above in your browser using DataLab