Given a data frame with (some) categorical columns, this function creates a set of indicator variables for the various possible sets of levels.
binarizeCategoricalColumns(
data,
convertColumns = NULL,
considerColumns = NULL,
maxOrdinalLevels = 3,
levelOrder = NULL,
minCount = 3,
val1 = 0, val2 = 1,
includePairwise = FALSE,
includeLevelVsAll = TRUE,
dropFirstLevelVsAll = TRUE,
dropUninformative = TRUE,
includePrefix = TRUE,
prefixSep = ".",
nameForAll = "all",
levelSep = NULL,
levelSep.pairwise = if (length(levelSep)==0) ".vs." else levelSep,
levelSep.vsAll = if (length(levelSep)==0)
(if (nameForAll=="") "" else ".vs.") else levelSep,
checkNames = FALSE,
includeLevelInformation = FALSE)binarizeCategoricalColumns.pairwise(
data,
maxOrdinalLevels = 3,
convertColumns = NULL,
considerColumns = NULL,
levelOrder = NULL,
val1 = 0, val2 = 1,
includePrefix = TRUE,
prefixSep = ".",
levelSep = ".vs.",
checkNames = FALSE)
binarizeCategoricalColumns.forRegression(
data,
maxOrdinalLevels = 3,
convertColumns = NULL,
considerColumns = NULL,
levelOrder = NULL,
val1 = 0, val2 = 1,
includePrefix = TRUE,
prefixSep = ".",
checkNames = TRUE)
binarizeCategoricalColumns.forPlots(
data,
maxOrdinalLevels = 3,
convertColumns = NULL,
considerColumns = NULL,
levelOrder = NULL,
val1 = 0, val2 = 1,
includePrefix = TRUE,
prefixSep = ".",
checkNames = TRUE)
A data frame.
Optional character vector giving the column names of the columns to be converted. See maxOrdinalLevels
below.
Optional character vector giving the column names of columns that should be looked at and possibly converted.
If not given, all columns will be considered. See maxOrdinalLevels
below.
When convertColumns
above is NULL
, the function looks at all columns in considerColumns
and converts all non-numeric columns and those numeric columns that have at most maxOrdinalLevels
unique values. A column is considered numeric if its storage mode is numeric or if it is character and all
entries with the expception of "NA", "NULL" and "NO DATA" represent valid numbers.
Optional list giving the ordering of levels (unique values) in each of the converted columns. Best used in
conjunction with convertColumns
.
Levels of x
for which there are fewer than minCount
elements will be ignored.
Value for the lower level in binary comparisons.
Value for the higher level in binary comparisons.
Logical: should pairwise binary indicators be included? For each pair of levels, the indicator is val1
for the lower level (earlier in levelOrder
), val2
for the higher level and NA
otherwise.
Logical: should binary indicators for each level be included? The indicator is val2
where x
equals the level and val1
otherwise.
Logical: should the column representing first level vs. all be dropped? This makes the resulting matrix of indicators usable for regression models.
Logical: should uninformative (constant) columns be dropped?
Logical: should the column name of the binarized column be included in column names of the output? See details.
Separator of column names and level names in column names of the output. See details.
Character string that represents "all others" in the column names of indicators of level vs. all others.
Separator for levels to be used in column names of the output. If NULL
, pairwise and level vs. all indicators will
use different level separators set by levelSep.pairwise
and levelSep.vsAll
.
Separator for levels to be used in column names for pairwise indicators in the output.
Separator for levels to be used in column names for level vs. all indicators in the output.
Logical: should the names of the output be made into syntactically correct R language names?
Logical: should information about which levels are represented by which columns be included in the attributes of the output?
A data frame in which the converted columns have been replaced by sets of binarized indicators. When
includeLevelInformation
is
TRUE
, the attribute includedLevels
is a table with one column per output column and two rows,
giving the two levels (unique values of x) represented by the column.
binarizeCategoricalColumns
is the most general function, the rest are convenience wrappers that set some of the
options to achieve the following:
binarizeCategoricalColumns.pairwise
returns only pairwise (level vs. level) binary indicators.
binarizeCategoricalColumns.forRegression
returns only level vs. all others binary indicators, with the first
(according to levelOrder
) level
vs. all removed. This is essentially the same as would be returned by model.matrix
except for the column
representing intercept.
binarizeCategoricalColumns.forPlots
returns only level vs. all others binary indicators and keeps them all.
The columns to be converted are identified as follows. If considerColumns
is given, columns not
contained in it will not be converted, even if they are included in convertColumns
.
If convertColumns
is given, those columns will
be converted (except any not contained in non-empty considerColumns
). If convertColumns
is NULL
, the function converts columns that are not numeric (as reported by is.numeric
) and those
numeric columns that have at most maxOrdinalValues
unique non-missing values.
The function creates two types of indicators. The first is one level (unique value) of x
vs. all
others, i.e., for a given level, the indicator is val2
(usually 1) for all elements of x
that
equal the level, and val1
(usually 0)
otherwise. Column names for these indicators are the concatenation of namePrefix
, the level,
nameSep
and nameForAll
. The level vs. all indicators are created for all levels that have at
least minCounts
samples, are present in levelOrder
(if it is non-NULL) and are not included in
ignore
.
The second type of indicator encodes binary comparisons. For each pair of levels (both with at least
minCount
samples), the indicator is val2
(usually 1) for the higher level and val1
(usually 0) for the lower level. The level order is given by levelOrder
(which defaults to the sorted
levels of x
), assumed to be sorted in increasing order. All levels with at least minCount
samples that are included in levelOrder
and not included in ignore
are included.
Internally, the function calls binarizeCategoricalVariable
for each column that is converted.
# NOT RUN {
set.seed(2);
x = data.frame(a = sample(c("A", "B", "C"), 15, replace = TRUE),
b = sample(c(1:3), 15, replace = TRUE));
out = binarizeCategoricalColumns(x, includePairwise = TRUE, includeLevelVsAll = TRUE,
includeLevelInformation = TRUE);
data.frame(x, out);
attr(out, "includedLevels")
# }
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