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pivot_wider
now uses .by
and |>
syntax for the dplyr helper message to identify duplicates (@boshek, #1516)New family of consistent string separating functions: separate_wider_delim()
, separate_wider_position()
, separate_wider_regex()
, separate_longer_delim()
, and separate_longer_position()
. These functions are thorough refreshes of separate()
and extract()
, featuring improved performance, greater consistency, a polished API, and a new approach for handling problems. They use stringr and supersede extract()
, separate()
, and separate_rows()
(#1304).
The named character vector interface used in separate_wider_regex()
is very similar to the nc package by Toby Dylan Hocking.
nest()
gains a .by
argument which allows you to specify the columns to nest by (rather than the columns to nest, i.e. through ...
). Additionally, the .key
argument is no longer deprecated, and is used whenever ...
isn’t specified (#1458).
unnest_longer()
gains a keep_empty
argument like unnest()
(#1339).
pivot_longer()
gains a cols_vary
argument for controlling the ordering of the output rows relative to their original row number (#1312).
New datasets who2
, household
, cms_patient_experience
, and cms_patient_care
to demonstrate various tidying challenges (#1333).
The ...
argument of both pivot_longer()
and pivot_wider()
has been moved to the front of the function signature, after the required arguments but before the optional ones. Additionally, pivot_longer_spec()
, pivot_wider_spec()
, build_longer_spec()
, and build_wider_spec()
have all gained ...
arguments in a similar location. This change allows us to more easily add new features to the pivoting functions without breaking existing CRAN packages and user scripts.
pivot_wider()
provides temporary backwards compatible support for the case of a single unnamed argument that previously was being positionally matched to id_cols
. This one special case still works, but will throw a warning encouraging you to explicitly name the id_cols
argument.
To read more about this pattern, see https://design.tidyverse.org/dots-after-required.html (#1350).
_
and various arguments to unnest()
) now warn on every use. They will be made defunct in 2024 (#1406).unnest_longer()
now consistently drops rows with either NULL
or empty vectors (like integer()
) by default. Set the new keep_empty
argument to TRUE
to retain them. Previously, keep_empty = TRUE
was implicitly being used for NULL
, while keep_empty = FALSE
was being used for empty vectors, which was inconsistent with all other tidyr verbs with this argument (#1363).
unnest_longer()
now uses ""
in the index column for fully unnamed vectors. It also now consistently uses NA
in the index column for empty vectors that are “kept” by keep_empty = TRUE
(#1442).
unnest_wider()
now errors if any values being unnested are unnamed and names_sep
is not provided (#1367).
unnest_wider()
now generates automatic names for partially unnamed vectors. Previously it only generated them for fully unnamed vectors, resulting in a strange mix of automatic names and name-repaired names (#1367).
Most tidyr functions now consistently disallow renaming during tidy-selection. Renaming was never meaningful in these functions, and previously either had no effect or caused problems (#1449, #1104).
tidyr errors (including input validation) have been thoroughly reviewed and should generally be more likely to point you in the right direction (#1313, #1400).
uncount()
is now generic so implementations can be provided for objects other than data frames (@mgirlich, #1358).
uncount()
gains a ...
argument. It comes between the required and the optional arguments (@mgirlich, #1358).
nest()
, complete()
, expand()
, and fill()
now document their support for grouped data frames created by dplyr::group_by()
(#952).
All built in datasets are now standard tibbles (#1459).
R >=3.4.0 is now required, in line with the tidyverse standard of supporting the previous 5 minor releases of R.
rlang >=1.0.4 and vctrs >=0.5.2 are now required (#1344, #1470).
Removed dependency on ellipsis in favor of equivalent functions in rlang (#1314).
unnest()
, unchop()
, unnest_longer()
, and unnest_wider()
better handle lists with additional classes (#1327).
pack()
, unpack()
, chop()
, and unchop()
all gain an error_call
argument, which in turn improves some of the error calls shown in nest()
and various unnest()
adjacent functions (#1446).
chop()
, unpack()
, and unchop()
all gain ...
, which must be empty (#1447).
unpack()
does a better job of reporting column name duplication issues and gives better advice about how to resolve them using names_sep
. This also improves errors from functions that use unpack()
, like unnest()
and unnest_wider()
(#1425, #1367).
pivot_longer()
no longer supports interpreting values_ptypes = list()
and names_ptypes = list()
as NULL
. An empty list()
is now interpreted as a <list>
prototype to apply to all columns, which is consistent with how any other 0-length value is interpreted (#1296).
pivot_longer(values_drop_na = TRUE)
is faster when there aren’t any missing values to drop (#1392, @mgirlich).
pivot_longer()
is now more memory efficient due to the usage of vctrs::vec_interleave()
(#1310, @mgirlich).
pivot_longer()
now throws a slightly better error message when values_ptypes
or names_ptypes
is provided and the coercion can’t be made (#1364).
pivot_wider()
now throws a better error message when a column selected by names_from
or values_from
is also selected by id_cols
(#1318).
pivot_wider()
is now faster when names_sep
is provided (@mgirlich, #1426).
pivot_longer_spec()
, pivot_wider_spec()
, build_longer_spec()
, and build_wider_spec()
all gain an error_call
argument, resulting in better error reporting in pivot_longer()
and pivot_wider()
(#1408).
fill()
now works correctly when there is a column named .direction
in data
(#1319, @tjmahr).
replace_na()
is faster when there aren’t any missing values to replace (#1392, @mgirlich).
The documentation of the replace
argument of replace_na()
now mentions that replace
is always cast to the type of data
(#1317).
complete()
and expand()
no longer allow you to complete or expand on a grouping column. This was never well-defined since completion/expansion on a grouped data frame happens “within” each group and otherwise has the potential to produce erroneous results (#1299).
replace_na()
no longer allows the type of data
to change when the replacement is applied. replace
will now always be cast to the type of data
before the replacement is made. For example, this means that using a replacement value of 1.5
on an integer column is no longer allowed. Similarly, replacing missing values in a list-column must now be done with list("foo")
rather than just "foo"
.
pivot_wider()
gains new names_expand
and id_expand
arguments for turning implicit missing factor levels and variable combinations into explicit ones. This is similar to the drop
argument from spread()
(#770).
pivot_wider()
gains a new names_vary
argument for controlling the ordering when combining names_from
values with values_from
column names (#839).
pivot_wider()
gains a new unused_fn
argument for controlling how to summarize unused columns that aren’t involved in the pivoting process (#990, thanks to @mgirlich for an initial implementation).
pivot_longer()
’s names_transform
and values_transform
arguments now accept a single function which will be applied to all of the columns (#1284, thanks to @smingerson for an initial implementation).
pivot_longer()
’s names_ptypes
and values_ptypes
arguments now accept a single empty ptype which will be applied to all of the columns (#1284).
unnest()
and unchop()
’s ptype
argument now accepts a single empty ptype which will be applied to all cols
(#1284).
unpack()
now silently skips over any non-data frame columns specified by cols
. This matches the existing behavior of unchop()
and unnest()
(#1153).
unnest_wider()
and unnest_longer()
can now unnest multiple columns at once (#740).
unnest_longer()
’s indices_to
and values_to
arguments now accept a glue specification, which is useful when unnesting multiple columns.
For hoist()
, unnest_longer()
, and unnest_wider()
, if a ptype
is supplied, but that column can’t be simplified, the result will be a list-of column where each element has type ptype
(#998).
unnest_wider()
gains a new strict
argument which controls whether or not strict vctrs typing rules should be applied. It defaults to FALSE
for backwards compatibility, and because it is often more useful to be lax when unnesting JSON, which doesn’t always map one-to-one with R’s types (#1125).
hoist()
, unnest_longer()
, and unnest_wider()
’s simplify
argument now accepts a named list of TRUE
or FALSE
to control simplification on a per column basis (#995).
hoist()
, unnest_longer()
, and unnest_wider()
’s transform
argument now accepts a single function which will be applied to all components (#1284).
hoist()
, unnest_longer()
, and unnest_wider()
’s ptype
argument now accepts a single empty ptype which will be applied to all components (#1284).
complete()
gains a new explicit
argument for limiting fill
to only implicit missing values. This is useful if you don’t want to fill in pre-existing missing values (#1270).
complete()
gains a grouped data frame method. This generates a more correct completed data frame when groups are involved (#396, #966).
drop_na()
, replace_na()
, and fill()
have been updated to utilize vctrs. This means that you can use these functions on a wider variety of column types, including lubridate’s Period types (#1094), data frame columns, and the rcrd type from vctrs.
replace_na()
no longer replaces empty atomic elements in list-columns (like integer(0)
). The only value that is replaced in a list-column is NULL
(#1168).
drop_na()
no longer drops empty atomic elements from list-columns (like integer(0)
). The only value that is dropped in a list-column is NULL
(#1228).
@mgirlich is now a tidyr author in recognition of his significant and sustained contributions.
All lazyeval variants of tidyr verbs have been soft-deprecated. Expect them to move to the defunct stage in the next minor release of tidyr (#1294).
any_of()
and all_of()
from tidyselect are now re-exported (#1217).
dplyr >= 1.0.0 is now required.
pivot_wider()
now gives better advice about how to identify duplicates when values are not uniquely identified (#1113).
pivot_wider()
now throws a more informative error when values_fn
doesn’t result in a single summary value (#1238).
pivot_wider()
and pivot_longer()
now generate more informative errors related to name repair (#987).
pivot_wider()
now works correctly when values_fill
is a data frame.
pivot_wider()
no longer accidentally retains values_from
when pivoting a zero row data frame (#1249).
pivot_wider()
now correctly handles the case where an id column name collides with a value from names_from
(#1107).
pivot_wider()
and pivot_longer()
now both check that the spec columns .name
and .value
are character vectors. Additionally, the .name
column must be unique (#1107).
pivot_wider()
’s names_from
and values_from
arguments are now required if their default values of name
and value
don’t correspond to columns in data
. Additionally, they must identify at least 1 column in data
(#1240).
pivot_wider()
’s values_fn
argument now correctly allows anonymous functions (#1114).
pivot_wider_spec()
now works correctly with a 0-row data frame and a spec
that doesn’t identify any rows (#1250, #1252).
pivot_longer()
’s names_ptypes
argument is now applied after names_transform
for consistency with the rectangling functions (i.e. hoist()
) (#1233).
check_pivot_spec()
is a new developer facing function for validating a pivot spec
argument. This is only useful if you are extending pivot_longer()
or pivot_wider()
with new S3 methods (#1087).
The nest()
generic now avoids computing on .data
, making it more compatible with lazy tibbles (#1134).
The .names_sep
argument of the data.frame method for nest()
is now actually used (#1174).
unnest()
’s ptype
argument now works as expected (#1158).
unpack()
no longer drops empty columns specified through cols
(#1191).
unpack()
now works correctly with data frame columns containing 1 row but 0 columns (#1189).
chop()
now works correctly with data frames with 0 rows (#1206).
chop()
’s cols
argument is no longer optional. This matches the behavior of cols
seen elsewhere in tidyr (#1205).
unchop()
now respects ptype
when unnesting a non-list column (#1211).
hoist()
no longer accidentally removes elements that have duplicated names (#1259).The grouped data frame methods for complete()
and expand()
now move the group columns to the front of the result (in addition to the columns you completed on or expanded, which were already moved to the front). This should make more intuitive sense, as you are completing or expanding “within” each group, so the group columns should be the first thing you see (#1289).
complete()
now applies fill
even when no columns to complete are specified (#1272).
expand()
, crossing()
, and nesting()
now correctly retain NA
values of factors (#1275).
expand_grid()
, expand()
, nesting()
, and crossing()
now silently apply name repair to automatically named inputs. This avoids a number of issues resulting from duplicate truncated names (#1116, #1221, #1092, #1037, #992).
expand_grid()
, expand()
, nesting()
, and crossing()
now allow columns from unnamed data frames to be used in expressions after that data frame was specified, like expand_grid(tibble(x = 1), y = x)
. This is more consistent with how tibble()
behaves.
expand_grid()
, expand()
, nesting()
, and crossing()
now work correctly with data frames containing 0 columns but >0 rows (#1189).
expand_grid()
, expand()
, nesting()
, and crossing()
now return a 1 row data frame when no inputs are supplied, which is more consistent with prod() == 1L
and the idea that computations involving the number of combinations computed from an empty set should return 1 (#1258).
drop_na()
no longer drops missing values from all columns when a tidyselect expression that results in 0 columns being selected is used (#1227).
fill()
now treats NaN
like any other missing value (#982).
expand_grid()
is now about twice as fast and pivot_wider()
is a bit faster (@mgirlich, #1130).
unchop()
is now much faster, which propagates through to various functions, such as unnest()
, unnest_longer()
, unnest_wider()
, and separate_rows()
(@mgirlich, @DavisVaughan, #1127).
unnest()
is now much faster (@mgirlich, @DavisVaughan, #1127).
unnest()
no longer allows unnesting a list-col containing a mix of vector and data frame elements. Previously, this only worked by accident, and is considered an off-label usage of unnest()
that has now become an error.
tidyr verbs no longer have “default” methods for lazyeval fallbacks. This means that you’ll get clearer error messages (#1036).
uncount()
error for non-integer weights and gives a clearer error message for negative weights (@mgirlich, #1069).
You can once again unnest dates (#1021, #1089).
pivot_wider()
works with data.table and empty key variables (@mgirlich, #1066).
separate_rows()
works for factor columns (@mgirlich, #1058).
separate_rows()
returns to 1.1.0 behaviour for empty strings (@rjpatm, #1014).New tidyr logo!
stringi dependency has been removed; this was a substantial dependency that make tidyr hard to compile in resource constrained environments (@rjpat, #936).
Replace Rcpp with cpp11. See https://cpp11.r-lib.org/articles/motivations.html for reasons why.
pivot_longer()
, hoist()
, unnest_wider()
, and unnest_longer()
gain new transform
arguments; these allow you to transform values “in flight”. They are partly needed because vctrs coercion rules have become stricter, but they give you greater flexibility than was available previously (#921).
Arguments that use tidy selection syntax are now clearly documented and have been updated to use tidyselect 1.1.0 (#872).
Both pivot_wider()
and pivot_longer()
are considerably more performant, thanks largely to improvements in the underlying vctrs code (#790, @DavisVaughan).
pivot_longer()
now supports names_to = character()
which prevents the name column from being created (#961).
df <- tibble(id = 1:3, x_1 = 1:3, x_2 = 4:6)
df %>% pivot_longer(-id, names_to = character())
pivot_longer()
no longer creates a .copy
variable in the presence of duplicate column names. This makes it more consistent with the handling of non-unique specs.
pivot_longer()
automatically disambiguates non-unique ouputs, which can occur when the input variables include some additional component that you don’t care about and want to discard (#792, #793).
df <- tibble(id = 1:3, x_1 = 1:3, x_2 = 4:6)
df %>% pivot_longer(-id, names_pattern = "(.)_.")
df %>% pivot_longer(-id, names_sep = "_", names_to = c("name", NA))
df %>% pivot_longer(-id, names_sep = "_", names_to = c(".value", NA))
pivot_wider()
gains a names_sort
argument which allows you to sort column names in order. The default, FALSE
, orders columns by their first appearance (#839). In a future version, I’ll consider changing the default to TRUE
.
pivot_wider()
gains a names_glue
argument that allows you to construct output column names with a glue specification.
pivot_wider()
arguments values_fn
and values_fill
can now be single values; you now only need to use a named list if you want to use different values for different value columns (#739, #746). They also get improved errors if they’re not of the expected type.
hoist()
now automatically names pluckers that are a single string (#837). It error if you use duplicated column names (@mgirlich, #834), and now uses rlang::list2()
behind the scenes (which means that you can now use !!!
and :=
) (#801).
unnest_longer()
, unnest_wider()
, and hoist()
do a better job simplifying list-cols. They no longer add unneeded unspecified()
when the result is still a list (#806), and work when the list contains non-vectors (#810, #848).
unnest_wider(names_sep = "")
now provides default names for unnamed inputs, suppressing the many previous name repair messages (#742).
pack()
and nest()
gains a .names_sep
argument allows you to strip outer names from inner names, in symmetrical way to how the same argument to unpack()
and unnest()
combines inner and outer names (#795, #797).
unnest_wider()
and unnest_longer()
can now unnest list_of
columns. This is important for unnesting columns created from nest()
and with pivot_wider()
, which will create list_of
columns if the id columns are non-unique (#741).
chop()
now creates list-columns of class vctrs::list_of()
. This helps keep track of the type in case the chopped data frame is empty, allowing unchop()
to reconstitute a data frame with the correct number and types of column even when there are no observations.
drop_na()
now preserves attributes of unclassed vectors (#905).
expand()
, expand_grid()
, crossing()
, and nesting()
once again evaluate their inputs iteratively, so you can refer to freshly created columns, e.g. crossing(x = seq(-2, 2), y = x)
(#820).
expand()
, expand_grid()
, crossing()
, and nesting()
gain a .name_repair
giving you control over their name repair strategy (@jeffreypullin, #798).
extract()
lets you use NA
in into
, as documented (#793).
extract()
, separate()
, hoist()
, unnest_longer()
, and unnest_wider()
give a better error message if col
is missing (#805).
pack()
’s first argument is now .data
instead of data
(#759).
pivot_longer()
now errors if values_to
is not a length-1 character vector (#949).
pivot_longer()
and pivot_wider()
are now generic so implementations can be provided for objects other than data frames (#800).
pivot_wider()
can now pivot data frame columns (#926)
unite(na.rm = TRUE)
now works for all types of variable, not just character vectors (#765).
unnest_wider()
gives a better error message if you attempt to unnest multiple columns (#740).
unnest_auto()
works when the input data contains a column called col
(#959).
See vignette("in-packages")
for a detailed transition guide.
nest()
and unnest()
have new syntax. The majority of existing usage should be automatically translated to the new syntax with a warning. If that doesn’t work, put this in your script to use the old versions until you can take a closer look and update your code:
nest()
now preserves grouping, which has implications for downstream calls to group-aware functions, such as dplyr::mutate()
and filter()
.
The first argument of nest()
has changed from data
to .data
.
unnest()
uses the emerging tidyverse standard to disambiguate unique names. Use names_repair = tidyr_legacy
to request the previous approach.
unnest_()
/nest_()
and the lazyeval methods for unnest()
/nest()
are now defunct. They have been deprecated for some time, and, since the interface has changed, package authors will need to update to avoid deprecation warnings. I think one clean break should be less work for everyone.
All other lazyeval functions have been formally deprecated, and will be made defunct in the next major release. (See lifecycle vignette for details on deprecation stages).
crossing()
and nesting()
now return 0-row outputs if any input is a length-0 vector. If you want to preserve the previous behaviour which silently dropped these inputs, you should convert empty vectors to NULL
. (More discussion on this general pattern at https://github.com/tidyverse/principles/issues/24)
New pivot_longer()
and pivot_wider()
provide modern alternatives to spread()
and gather()
. They have been carefully redesigned to be easier to learn and remember, and include many new features. Learn more in vignette("pivot")
.
These functions resolve multiple existing issues with spread()
/gather()
. Both functions now handle mulitple value columns (#149/#150), support more vector types (#333), use tidyverse conventions for duplicated column names (#496, #478), and are symmetric (#453). pivot_longer()
gracefully handles duplicated column names (#472), and can directly split column names into multiple variables. pivot_wider()
can now aggregate (#474), select keys (#572), and has control over generated column names (#208).
To demonstrate how these functions work in practice, tidyr has gained several new datasets: relig_income
, construction
, billboard
, us_rent_income
, fish_encounters
and world_bank_pop
.
Finally, tidyr demos have been removed. They are dated, and have been superseded by vignette("pivot")
.
tidyr contains four new functions to support rectangling, turning a deeply nested list into a tidy tibble: unnest_longer()
, unnest_wider()
, unnest_auto()
, and hoist()
. They are documented in a new vignette: vignette("rectangle")
.
unnest_longer()
and unnest_wider()
make it easier to unnest list-columns of vectors into either rows or columns (#418). unnest_auto()
automatically picks between _longer()
and _wider()
using heuristics based on the presence of common names.
New hoist()
provides a convenient way of plucking components of a list-column out into their own top-level columns (#341). This is particularly useful when you are working with deeply nested JSON, because it provides a convenient shortcut for the mutate()
+ map()
pattern:
df %>% hoist(metadata, name = "name")
# shortcut for
df %>% mutate(name = map_chr(metadata, "name"))
nest()
and unnest()
have been updated with new interfaces that are more closely aligned to evolving tidyverse conventions. They use the theory developed in vctrs to more consistently handle mixtures of input types, and their arguments have been overhauled based on the last few years of experience. They are supported by a new vignette("nest")
, which outlines some of the main ideas of nested data (it’s still very rough, but will get better over time).
The biggest change is to their operation with multiple columns: df %>% unnest(x, y, z)
becomes df %>% unnest(c(x, y, z))
and df %>% nest(x, y, z)
becomes df %>% nest(data = c(x, y, z))
.
I have done my best to ensure that common uses of nest()
and unnest()
will continue to work, generating an informative warning telling you precisely how you need to update your code. Please file an issue if I’ve missed an important use case.
unnest()
has been overhauled:
New keep_empty
parameter ensures that every row in the input gets at least one row in the output, inserting missing values as needed (#358).
Provides names_sep
argument to control how inner and outer column names are combined.
Uses standard tidyverse name-repair rules, so by default you will get an error if the output would contain multiple columns with the same name. You can override by using name_repair
(#514).
Now supports NULL
entries (#436).
Under the hood, nest()
and unnest()
are implemented with chop()
, pack()
, unchop()
, and unpack()
:
pack()
and unpack()
allow you to pack and unpack columns into data frame columns (#523).
chop()
and unchop()
chop up rows into sets of list-columns.
Packing and chopping are interesting primarily because they are the atomic operations underlying nesting (and similarly, unchop and unpacking underlie unnesting), and I don’t expect them to be used directly very often.
New expand_grid()
, a tidy version of expand.grid()
, is lower-level than the existing expand()
and crossing()
functions, as it takes individual vectors, and does not sort or uniquify them.
crossing()
, nesting()
, and expand()
have been rewritten to use the vctrs package. This should not affect much existing code, but considerably simplies the implementation and ensures that these functions work consistently across all generalised vectors (#557). As part of this alignment, these functions now only drop NULL
inputs, not any 0-length vector.
full_seq()
now also works when gaps between observations are shorter than the given period
, but are within the tolerance given by tol
. Previously, gaps between consecutive observations had to be in the range [period
, period + tol
]; gaps can now be in the range [period - tol
, period + tol
] (@ha0ye, #657).
tidyr now re-exports tibble()
, as_tibble()
, and tribble()
, as well as the tidyselect helpers (starts_with()
, ends_width()
, …). This makes generating documentation, reprexes, and tests easier, and makes tidyr easier to use without also attaching dplyr.
All functions that take ...
have been instrumented with functions from the ellipsis package to warn if you’ve supplied arguments that are ignored (typically because you’ve misspelled an argument name) (#573).
complete()
now uses full_join()
so that all levels are preserved even when not all levels are specified (@Ryo-N7, #493).
crossing()
now takes the unique values of data frame inputs, not just vector inputs (#490).
gather()
throws an error if a column is a data frame (#553).
extract()
(and hence pivot_longer()
) can extract multiple input values into a single output column (#619).
fill()
is now implemented using dplyr::mutate_at()
. This radically simplifies the implementation and considerably improves performance when working with grouped data (#520).
fill()
now accepts downup
and updown
as fill directions (@coolbutuseless, #505).
unite()
gains na.rm
argument, making it easier to remove missing values prior to uniting values together (#203)
crossing()
preserves factor levels (#410), now works with list-columns (#446, @SamanthaToet). (These also help expand()
which is built on top of crossing()
)
nest()
is compatible with dplyr 0.8.0.
spread()
works when the id variable has names (#525).
unnest()
preserves column being unnested when input is zero-length (#483), using list_of()
attribute to correctly restore columns, where possible.
unnest()
will run with named and unnamed list-columns of same length (@hlendway, #460).
separate()
now accepts NA
as a column name in the into
argument to denote columns which are omitted from the result. (@markdly, #397).
Minor updates to ensure compatibility with dependencies.
unnest()
weakens test of “atomicity” to restore previous behaviour when unnesting factors and dates (#407).There are no deliberate breaking changes in this release. However, a number of packages are failing with errors related to numbers of elements in columns, and row names. It is possible that these are accidental API changes or new bugs. If you see such an error in your package, I would sincerely appreciate a minimal reprex.
separate()
now correctly uses -1 to refer to the far right position, instead of -2. If you depended on this behaviour, you’ll need to switch on packageVersion("tidyr") > "0.7.2"
Increased test coverage from 84% to 99%.
uncount()
performs the inverse operation of dplyr::count()
(#279)
complete(data)
now returns data
rather than throwing an error (#390). complete()
with zero-length completions returns original input (#331).
crossing()
preserves NA
s (#364).
expand()
with empty input gives empty data frame instead of NULL
(#331).
expand()
, crossing()
, and complete()
now complete empty factors instead of dropping them (#270, #285)
extract()
has a better error message if regex
does not contain the expected number of groups (#313).
drop_na()
no longer drops columns (@jennybryan, #245), and works with list-cols (#280). Equivalent of NA
in a list column is any empty (length 0) data structure.
nest()
is now faster, especially when a long data frame is collapsed into a nested data frame with few rows.
nest()
on a zero-row data frame works as expected (#320).
replace_na()
no longer complains if you try and replace missing values in variables not present in the data (#356).
replace_na()
now also works with vectors (#342, @flying-sheep), and can replace NULL
in list-columns. It throws a better error message if you attempt to replace with something other than length 1.
separate()
no longer checks that ...
is empty, allowing methods to make use of it. This check was added in tidyr 0.4.0 (2016-02-02) to deprecate previous behaviour where ...
was passed to strsplit()
.
separate()
and extract()
now insert columns in correct position when drop = TRUE
(#394).
separate()
now works correctly counts from RHS when using negative integer sep
values (@markdly, #315).
separate()
gets improved warning message when pieces aren’t as expected (#375).
separate_rows()
supports list columns (#321), and works with empty tibbles.
spread()
now consistently returns 0 row outputs for 0 row inputs (#269).
spread()
now works when key
column includes NA
and drop
is FALSE
(#254).
spread()
no longer returns tibbles with row names (#322).
spread()
, separate()
, extract()
(#255), and gather()
(#347) now replace existing variables rather than creating an invalid data frame with duplicated variable names (matching the semantics of mutate).
unite()
now works (as documented) if you don’t supply any variables (#355).
unnest()
gains preserve
argument which allows you to preserve list columns without unnesting them (#328).
unnest()
can unnested list-columns contains lists of lists (#278).
unnest(df)
now works if df
contains no list-cols (#344)
The SE variants gather_()
, spread_()
and nest_()
now treat non-syntactic names in the same way as pre tidy eval versions of tidyr (#361).
Fix tidyr bug revealed by R-devel.
This is a hotfix release to account for some tidyselect changes in the unit tests.
Note that the upcoming version of tidyselect backtracks on some of the changes announced for 0.7.0. The special evaluation semantics for selection have been changed back to the old behaviour because the new rules were causing too much trouble and confusion. From now on data expressions (symbols and calls to :
and c()
) can refer to both registered variables and to objects from the context.
However the semantics for context expressions (any calls other than to :
and c()
) remain the same. Those expressions are evaluated in the context only and cannot refer to registered variables. If you’re writing functions and refer to contextual objects, it is still a good idea to avoid data expressions by following the advice of the 0.7.0 release notes.
This release includes important changes to tidyr internals. Tidyr now supports the new tidy evaluation framework for quoting (NSE) functions. It also uses the new tidyselect package as selecting backend.
If you see error messages about objects or functions not found, it is likely because the selecting functions are now stricter in their arguments An example of selecting function is gather()
and its ...
argument. This change makes the code more robust by disallowing ambiguous scoping. Consider the following code:
x <- 3
df <- tibble(w = 1, x = 2, y = 3)
gather(df, "variable", "value", 1:x)
Does it select the first three columns (using the x
defined in the global environment), or does it select the first two columns (using the column named x
)?
To solve this ambiguity, we now make a strict distinction between data and context expressions. A data expression is either a bare name or an expression like x:y
or c(x, y)
. In a data expression, you can only refer to columns from the data frame. Everything else is a context expression in which you can only refer to objects that you have defined with <-
.
In practice this means that you can no longer refer to contextual objects like this:
mtcars %>% gather(var, value, 1:ncol(mtcars))
x <- 3
mtcars %>% gather(var, value, 1:x)
mtcars %>% gather(var, value, -(1:x))
You now have to be explicit about where to find objects. To do so, you can use the quasiquotation operator !!
which will evaluate its argument early and inline the result:
mtcars %>% gather(var, value, !! 1:ncol(mtcars))
mtcars %>% gather(var, value, !! 1:x)
mtcars %>% gather(var, value, !! -(1:x))
An alternative is to turn your data expression into a context expression by using seq()
or seq_len()
instead of :
. See the section on tidyselect for more information about these semantics.
Following the switch to tidy evaluation, you might see warnings about the “variable context not set”. This is most likely caused by supplying helpers like everything()
to underscored versions of tidyr verbs. Helpers should be always be evaluated lazily. To fix this, just quote the helper with a formula: drop_na(df, ~everything())
.
The selecting functions are now stricter when you supply integer positions. If you see an error along the lines of
`-0.949999999999999`, `-0.940000000000001`, ... must resolve to
integer column positions, not a double vector
please round the positions before supplying them to tidyr. Double vectors are fine as long as they are rounded.
tidyr is now a tidy evaluation grammar. See the programming vignette in dplyr for practical information about tidy evaluation.
The tidyr port is a bit special. While the philosophy of tidy evaluation is that R code should refer to real objects (from the data frame or from the context), we had to make some exceptions to this rule for tidyr. The reason is that several functions accept bare symbols to specify the names of new columns to create (gather()
being a prime example). This is not tidy because the symbol do not represent any actual object. Our workaround is to capture these arguments using rlang::quo_name()
(so they still support quasiquotation and you can unquote symbols or strings). This type of NSE is now discouraged in the tidyverse: symbols in R code should represent real objects.
Following the switch to tidy eval the underscored variants are softly deprecated. However they will remain around for some time and without warning for backward compatibility.
The selecting backend of dplyr has been extracted in a standalone package tidyselect which tidyr now uses for selecting variables. It is used for selecting multiple variables (in drop_na()
) as well as single variables (the col
argument of extract()
and separate()
, and the key
and value
arguments of spread()
). This implies the following changes:
The arguments for selecting a single variable now support all features from dplyr::pull()
. You can supply a name or a position, including negative positions.
Multiple variables are now selected a bit differently. We now make a strict distinction between data and context expressions. A data expression is either a bare name of an expression like x:y
or c(x, y)
. In a data expression, you can only refer to columns from the data frame. Everything else is a context expression in which you can only refer to objects that you have defined with <-
.
You can still refer to contextual objects in a data expression by being explicit. One way of being explicit is to unquote a variable from the environment with the tidy eval operator !!
:
x <- 2
drop_na(df, 2) # Works fine
drop_na(df, x) # Object 'x' not found
drop_na(df, !! x) # Works as if you had supplied 2
On the other hand, select helpers like start_with()
are context expressions. It is therefore easy to refer to objects and they will never be ambiguous with data columns:
x <- "d"
drop_na(df, starts_with(x))
While these special rules is in contrast to most dplyr and tidyr verbs (where both the data and the context are in scope) they make sense for selecting functions and should provide more robust and helpful semantics.
Register C functions
Added package docs
Patch tests to be compatible with dev dplyr.
Patch test to be compatible with dev tibble
Changed deprecation message of extract_numeric()
to point to readr::parse_number()
rather than readr::parse_numeric()
drop_na()
removes observations which have NA
in the given variables. If no variables are given, all variables are considered (#194, @janschulz).
extract_numeric()
has been deprecated (#213).
Renamed table4
and table5
to table4a
and table4b
to make their connection more clear. The key
and value
variables in table2
have been renamed to type
and count
.
expand()
, crossing()
, and nesting()
now silently drop zero-length inputs.
crossing_()
and nesting_()
are versions of crossing()
and nesting()
that take a list as input.
full_seq()
works correctly for dates and date/times.
getS3method(envir = )
(#205, @krlmlr).separate_rows()
separates observations with multiple delimited values into separate rows (#69, @aaronwolen).complete()
preserves grouping created by dplyr (#168).
expand()
(and hence complete()
) preserves the ordered attribute of factors (#165).
full_seq()
preserve attributes for dates and date/times (#156), and sequences no longer need to start at 0.
gather()
can now gather together list columns (#175), and gather_.data.frame(na.rm = TRUE)
now only removes missing values if they’re actually present (#173).
nest()
returns correct output if every variable is nested (#186).
separate()
fills from right-to-left (not left-to-right!) when fill = “left” (#170, @dgrtwo).
separate()
and unite()
now automatically drop removed variables from grouping (#159, #177).
spread()
gains a sep
argument. If not-null, this will name columns as “keyNULL
missing values will be converted to <NA>
(#68).
spread()
works in the presence of list-columns (#199)
unnest()
works with non-syntactic names (#190).
unnest()
gains a sep
argument. If non-null, this will rename the columns of nested data frames to include both the original column name, and the nested column name, separated by .sep
(#184).
unnest()
gains .id
argument that works the same way as bind_rows()
. This is useful if you have a named list of data frames or vectors (#125).
Moved in useful sample datasets from the DSR package.
Made compatible with both dplyr 0.4 and 0.5.
tidyr functions that create new columns are more aggressive about re-encoding the column names as UTF-8.
nest()
where nested data was ending up in the wrong row (#158).nest()
and unnest()
have been overhauled to support a useful way of structuring data frames: the nested data frame. In a grouped data frame, you have one row per observation, and additional metadata define the groups. In a nested data frame, you have one row per group, and the individual observations are stored in a column that is a list of data frames. This is a useful structure when you have lists of other objects (like models) with one element per group.
nest()
now produces a single list of data frames called “data” rather than a list column for each variable. Nesting variables are not included in nested data frames. It also works with grouped data frames made by dplyr::group_by()
. You can override the default column name with .key
.
unnest()
gains a .drop
argument which controls what happens to other list columns. By default, they’re kept if the output doesn’t require row duplication; otherwise they’re dropped.
unnest()
now has mutate()
semantics for ...
- this allows you to unnest transformed columns more easily. (Previously it used select semantics).
expand()
once again allows you to evaluate arbitrary expressions like full_seq(year)
. If you were previously using c()
to created nested combinations, you’ll now need to use nesting()
(#85, #121).
nesting()
and crossing()
allow you to create nested and crossed data frames from individual vectors. crossing()
is similar to base::expand.grid()
full_seq(x, period)
creates the full sequence of values from min(x)
to max(x)
every period
values.
fill()
fills in NULL
s in list-columns.
fill()
gains a direction argument so that it can fill either upwards or downwards (#114).
gather()
now stores the key column as character, by default. To revert to the previous behaviour of using a factor (which allows you to preserve the ordering of the columns), use key_factor = TRUE
(#96).
All tidyr verbs do the right thing for grouped data frames created by group_by()
(#122, #129, #81).
seq_range()
has been removed. It was never used or announced.
spread()
once again creates columns of mixed type when convert = TRUE
(#118, @jennybc). spread()
with drop = FALSE
handles zero-length factors (#56). spread()
ing a data frame with only key and value columns creates a one row output (#41).
unite()
now removes old columns before adding new (#89, @krlmlr).
separate()
now warns if defunct … argument is used (#151, @krlmlr).
New complete()
provides a wrapper around expand()
, left_join()
and replace_na()
for a common task: completing a data frame with missing combinations of variables.
fill()
fills in missing values in a column with the last non-missing value (#4).
New replace_na()
makes it easy to replace missing values with something meaningful for your data.
nest()
is the complement of unnest()
(#3).
unnest()
can now work with multiple list-columns at the same time. If you don’t supply any columns names, it will unlist all list-columns (#44). unnest()
can also handle columns that are lists of data frames (#58).
tidyr no longer depends on reshape2. This should fix issues if you also try to load reshape (#88).
%>%
is re-exported from magrittr.
expand()
now supports nesting and crossing (see examples for details). This comes at the expense of creating new variables inline (#46).
expand_
does SE evaluation correctly so you can pass it a character vector of columns names (or list of formulas etc) (#70).
extract()
is 10x faster because it now uses stringi instead of base R regular expressions. It also returns NA instead of throwing an error if the regular expression doesn’t match (#72).
extract()
and separate()
preserve character vectors when convert
is TRUE (#99).
The internals of spread()
have been rewritten, and now preserve all attributes of the input value
column. This means that you can now spread date (#62) and factor (#35) inputs.
spread()
gives a more informative error message if key
or value
don’t exist in the input data (#36).
separate()
only displays the first 20 failures (#50). It has finer control over what happens if there are two few matches: you can fill with missing values on either the “left” or the “right” (#49). separate()
no longer throws an error if the number of pieces aren’t as expected - instead it uses drops extra values and fills on the right and gives a warning.
If the input is NA separate()
and extract()
both return silently return NA outputs, rather than throwing an error. (#77)
Experimental unnest()
method for lists has been removed.
Experimental expand()
function (#21).
Experiment unnest()
function for converting named lists into data frames. (#3, #22)
extract_numeric()
preserves negative signs (#20).
gather()
has better defaults if key
and value
are not supplied. If ...
is omitted, gather()
selects all columns (#28). Performance is now comparable to reshape2::melt()
(#18).
separate()
gains extra
argument which lets you control what happens to extra pieces. The default is to throw an “error”, but you can also “merge” or “drop”.
spread()
gains drop
argument, which allows you to preserve missing factor levels (#25). It converts factor value variables to character vectors, instead of embedding a matrix inside the data frame (#35).
These binaries (installable software) and packages are in development.
They may not be fully stable and should be used with caution. We make no claims about them.