Check if an argument is a tibble
checkTibble(
x,
types = character(0L),
any.missing = TRUE,
all.missing = TRUE,
min.rows = NULL,
max.rows = NULL,
min.cols = NULL,
max.cols = NULL,
nrows = NULL,
ncols = NULL,
row.names = NULL,
col.names = NULL,
null.ok = FALSE
)check_tibble(
x,
types = character(0L),
any.missing = TRUE,
all.missing = TRUE,
min.rows = NULL,
max.rows = NULL,
min.cols = NULL,
max.cols = NULL,
nrows = NULL,
ncols = NULL,
row.names = NULL,
col.names = NULL,
null.ok = FALSE
)
assertTibble(
x,
types = character(0L),
any.missing = TRUE,
all.missing = TRUE,
min.rows = NULL,
max.rows = NULL,
min.cols = NULL,
max.cols = NULL,
nrows = NULL,
ncols = NULL,
row.names = NULL,
col.names = NULL,
null.ok = FALSE,
.var.name = vname(x),
add = NULL
)
assert_tibble(
x,
types = character(0L),
any.missing = TRUE,
all.missing = TRUE,
min.rows = NULL,
max.rows = NULL,
min.cols = NULL,
max.cols = NULL,
nrows = NULL,
ncols = NULL,
row.names = NULL,
col.names = NULL,
null.ok = FALSE,
.var.name = vname(x),
add = NULL
)
testTibble(
x,
types = character(0L),
any.missing = TRUE,
all.missing = TRUE,
min.rows = NULL,
max.rows = NULL,
min.cols = NULL,
max.cols = NULL,
nrows = NULL,
ncols = NULL,
row.names = NULL,
col.names = NULL,
null.ok = FALSE
)
test_tibble(
x,
types = character(0L),
any.missing = TRUE,
all.missing = TRUE,
min.rows = NULL,
max.rows = NULL,
min.cols = NULL,
max.cols = NULL,
nrows = NULL,
ncols = NULL,
row.names = NULL,
col.names = NULL,
null.ok = FALSE
)
expect_tibble(
x,
types = character(0L),
any.missing = TRUE,
all.missing = TRUE,
min.rows = NULL,
max.rows = NULL,
min.cols = NULL,
max.cols = NULL,
nrows = NULL,
ncols = NULL,
row.names = NULL,
col.names = NULL,
null.ok = FALSE,
info = NULL,
label = vname(x)
)
Depending on the function prefix: If the check is successful, the functions
assertTibble
/assert_tibble
return
x
invisibly, whereas
checkTibble
/check_tibble
and
testTibble
/test_tibble
return
TRUE
.
If the check is not successful,
assertTibble
/assert_tibble
throws an error message,
testTibble
/test_tibble
returns FALSE
,
and checkTibble
/check_tibble
return a string with the error message.
The function expect_tibble
always returns an
[any]
Object to check.
[character
]
Character vector of class names. Each list element must inherit
from at least one of the provided types.
The types “logical”, “integer”, “integerish”, “double”,
“numeric”, “complex”, “character”, “factor”, “atomic”, “vector”
“atomicvector”, “array”, “matrix”, “list”, “function”,
“environment” and “null” are supported.
For other types inherits
is used as a fallback to check x
's inheritance.
Defaults to character(0)
(no check).
[logical(1)
]
Are missing values allowed? Default is TRUE
.
[logical(1)
]
Are matrices with only missing values allowed? Default is TRUE
.
[integer(1)
]
Minimum number of rows.
[integer(1)
]
Maximum number of rows.
[integer(1)
]
Minimum number of columns.
[integer(1)
]
Maximum number of columns.
[integer(1)
]
Exact number of rows.
[integer(1)
]
Exact number of columns.
[character(1)
]
Check for row names. Default is “NULL” (no check).
See checkNamed
for possible values.
Note that you can use checkSubset
to check for a specific set of names.
[character(1)
]
Check for column names. Default is “NULL” (no check).
See checkNamed
for possible values.
Note that you can use checkSubset
to test for a specific set of names.
[logical(1)
]
If set to TRUE
, x
may also be NULL
.
In this case only a type check of x
is performed, all additional checks are disabled.
[character(1)
]
Name of the checked object to print in assertions. Defaults to
the heuristic implemented in vname
.
[AssertCollection
]
Collection to store assertion messages. See AssertCollection
.
[character(1)
]
Extra information to be included in the message for the testthat reporter.
See expect_that
.
[character(1)
]
Name of the checked object to print in messages. Defaults to
the heuristic implemented in vname
.
Other compound:
checkArray()
,
checkDataFrame()
,
checkDataTable()
,
checkMatrix()
library(tibble)
x = as_tibble(iris)
testTibble(x)
testTibble(x, nrow = 150, any.missing = FALSE)
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