Utilities for Data Manipulation

David Gerbing

library("lessR")

Recode Data Values

Data transformations for continuous variables are straightforward, just enter the arithmetic expression for the transformation. For each variable identify the corresponding data frame that contains the variable if there is one. For example, the following creates a new variable xsq that is the square of the values of a variable x in the d data frame.

d$xsq <- d$x^2

Or, use the base R transform() function to accomplish the same, plus other functions from other packages that accomplish the same result.

For variables that define discrete categories, however, the transformation may not be so straightforward with base R functions such as a nested string of ifelse() functions. An alternative is the lessR function recode().

To use recode(), specify the variable to be recoded with the old_vars parameter, the first parameter in the function call. Specify values to be recoded with the required old parameter. Specify the corresponding recoded values with the required new parameter. There must be a 1-to-1 correspondence between the two sets of values, such as 0:5 recoded to 5:0, six items in the old set and six items in the new set.

Examples

To illustrate, construct the following small data frame.

d <- read.table(text="Severity Description
1 Mild
4 Moderate
3 Moderate
2 Mild
1 Severe", header=TRUE, stringsAsFactors=FALSE)

d
##   Severity Description
## 1        1        Mild
## 2        4    Moderate
## 3        3    Moderate
## 4        2        Mild
## 5        1      Severe

Now change the integer values of the variable Severity from 1 through 4 to 10 through 40. Because the parameter old_vars is the first parameter in the definition of recode(), and because it is listed first, the parameter name need not be specified. The default data frame is d, otherwise specify with the data parameter.

d <- recode(Severity, old=1:4, new=c(10,20,30,40))
d
##   Severity Description
## 1       10        Mild
## 2       40    Moderate
## 3       30    Moderate
## 4       20        Mild
## 5       10      Severe

In the previous example, the values of the variable were overwritten with the new values. In the following example, instead write the recoded values to a new variable with the new_vars parameter, here SevereNew.

d <- recode(Severity, new_vars="SevereNew", old=1:4, new=c(10,20,30,40))

A convenient application of recode() is to Likert data, with responses scored to items on a survey such as from 0 for Strongly Disagree to 5 for Strongly Agree. To encourage responders to carefully read the items, some items are written in the opposite direction so that disagreement indicates agreement with the overall attitude being assessed.

As an example, reverse score Items m01, m02, m03, and m10 from survey responses to the 20-item Mach IV scale. That is, score a 0 as a 5 and so forth. The responses are included as part of lessR and so can be directly read.

d <- Read("Mach4")
d <- recode(c(m01:m03,m10), old=0:5, new=5:0)

Missing Data

The function also addresses missing data. Existing data values can be converted to an R missing value. In this example, all values of 1 for the variable Plan are considered missing.

d <- Read("Employee")
newdata <- recode(Plan, old=1, new="missing")

Now values of 1 for Plan are missing, having the value of NA for not available, as shown by listing the first six rows of data with the base R function head().

head(d)
##                  Years Gender Dept    Salary JobSat Plan Pre Post
## Ritchie, Darnell     7      M ADMN  53788.26    med    1  82   92
## Wu, James           NA      M SALE  94494.58    low    1  62   74
## Downs, Deborah       7      W FINC  57139.90   high    2  90   86
## Hoang, Binh         15      M SALE 111074.86    low    3  96   97
## Jones, Alissa        5      W <NA>  53772.58   <NA>    1  65   62
## Afshari, Anbar       6      W ADMN  69441.93   high    2 100  100

The procedure can be reversed in which values that are missing according to the R code NA are converted to non-missing values. To illustrate with the Employee data set, examine the first six rows of data. The value of Years is missing in the second row of data.

d <- Read("Employee")
head(d)
##                  Years Gender Dept    Salary JobSat Plan Pre Post
## Ritchie, Darnell     7      M ADMN  53788.26    med    1  82   92
## Wu, James           NA      M SALE  94494.58    low    1  62   74
## Downs, Deborah       7      W FINC  57139.90   high    2  90   86
## Hoang, Binh         15      M SALE 111074.86    low    3  96   97
## Jones, Alissa        5      W <NA>  53772.58   <NA>    1  65   62
## Afshari, Anbar       6      W ADMN  69441.93   high    2 100  100

Here convert all missing data values for the variables Years and Salary to the value of 99.

d <- recode(c(Years, Salary), old="missing", new=99)
head(d)
##                  Years Gender Dept    Salary JobSat Plan Pre Post
## Ritchie, Darnell     7      M ADMN  53788.26    med    1  82   92
## Wu, James           99      M SALE  94494.58    low    1  62   74
## Downs, Deborah       7      W FINC  57139.90   high    2  90   86
## Hoang, Binh         15      M SALE 111074.86    low    3  96   97
## Jones, Alissa        5      W <NA>  53772.58   <NA>    1  65   62
## Afshari, Anbar       6      W ADMN  69441.93   high    2 100  100

Now the value of Years in the second row of data is 99.

Sort Rows of Data

Sorts the values of a data frame according to the values of one or more variables contained in the data frame, or the row names. Variable types include numeric and factor variables. Factors are sorted by the ordering of their values, which, by default is alphabetical. Sorting by row names is also possible.

To illustrate, use the lessR Employee data set, here just the first 12 rows of data to save space.

d <- Read("Employee")
d <- d[1:12,]
d <- Sort(d, Gender)
d
##                  Years Gender Dept    Salary JobSat Plan Pre Post
## Ritchie, Darnell     7      M ADMN  53788.26    med    1  82   92
## Wu, James           NA      M SALE  94494.58    low    1  62   74
## Hoang, Binh         15      M SALE 111074.86    low    3  96   97
## Knox, Michael       18      M MKTG  99062.66    med    3  81   84
## Campagna, Justin     8      M SALE  72321.36    low    1  76   84
## Pham, Scott         13      M SALE  81871.05   high    2  90   94
## Downs, Deborah       7      W FINC  57139.90   high    2  90   86
## Jones, Alissa        5      W <NA>  53772.58   <NA>    1  65   62
## Afshari, Anbar       6      W ADMN  69441.93   high    2 100  100
## Kimball, Claire      8      W MKTG  61356.69   high    2  93   92
## Cooper, Lindsay      4      W MKTG  56772.95   high    1  78   91
## Saechao, Suzanne     8      W SALE  55545.25    med    1  98  100
d <- Sort(d, c(Gender, Salary), direction=c("+", "-"))
d
##                  Years Gender Dept    Salary JobSat Plan Pre Post
## Hoang, Binh         15      M SALE 111074.86    low    3  96   97
## Knox, Michael       18      M MKTG  99062.66    med    3  81   84
## Wu, James           NA      M SALE  94494.58    low    1  62   74
## Pham, Scott         13      M SALE  81871.05   high    2  90   94
## Campagna, Justin     8      M SALE  72321.36    low    1  76   84
## Ritchie, Darnell     7      M ADMN  53788.26    med    1  82   92
## Afshari, Anbar       6      W ADMN  69441.93   high    2 100  100
## Kimball, Claire      8      W MKTG  61356.69   high    2  93   92
## Downs, Deborah       7      W FINC  57139.90   high    2  90   86
## Cooper, Lindsay      4      W MKTG  56772.95   high    1  78   91
## Saechao, Suzanne     8      W SALE  55545.25    med    1  98  100
## Jones, Alissa        5      W <NA>  53772.58   <NA>    1  65   62

Sort by row names in ascending order.

d <- Sort(d, row.names)
##   row.names -->  ascending
d
##                  Years Gender Dept    Salary JobSat Plan Pre Post
## Afshari, Anbar       6      W ADMN  69441.93   high    2 100  100
## Campagna, Justin     8      M SALE  72321.36    low    1  76   84
## Cooper, Lindsay      4      W MKTG  56772.95   high    1  78   91
## Downs, Deborah       7      W FINC  57139.90   high    2  90   86
## Hoang, Binh         15      M SALE 111074.86    low    3  96   97
## Jones, Alissa        5      W <NA>  53772.58   <NA>    1  65   62
## Kimball, Claire      8      W MKTG  61356.69   high    2  93   92
## Knox, Michael       18      M MKTG  99062.66    med    3  81   84
## Pham, Scott         13      M SALE  81871.05   high    2  90   94
## Ritchie, Darnell     7      M ADMN  53788.26    med    1  82   92
## Saechao, Suzanne     8      W SALE  55545.25    med    1  98  100
## Wu, James           NA      M SALE  94494.58    low    1  62   74

Randomize the order of the data values.

d <- Sort(d, random)
##   random
d
##                  Years Gender Dept    Salary JobSat Plan Pre Post
## Wu, James           NA      M SALE  94494.58    low    1  62   74
## Saechao, Suzanne     8      W SALE  55545.25    med    1  98  100
## Ritchie, Darnell     7      M ADMN  53788.26    med    1  82   92
## Cooper, Lindsay      4      W MKTG  56772.95   high    1  78   91
## Kimball, Claire      8      W MKTG  61356.69   high    2  93   92
## Jones, Alissa        5      W <NA>  53772.58   <NA>    1  65   62
## Downs, Deborah       7      W FINC  57139.90   high    2  90   86
## Knox, Michael       18      M MKTG  99062.66    med    3  81   84
## Pham, Scott         13      M SALE  81871.05   high    2  90   94
## Hoang, Binh         15      M SALE 111074.86    low    3  96   97
## Afshari, Anbar       6      W ADMN  69441.93   high    2 100  100
## Campagna, Justin     8      M SALE  72321.36    low    1  76   84

Rescale Data

rescale(Salary)
##  [1]  1.118 -0.837 -0.925 -0.775 -0.545 -0.926 -0.757  1.347  0.484  1.950 -0.139  0.005

Rename a Variable in a Data Frame

List the name of the data frame, the existing variable name, and the new name, in that order.

names(d)
## [1] "Years"  "Gender" "Dept"   "Salary" "JobSat" "Plan"   "Pre"    "Post"
d <- rename(d, Salary, AnnualSalary)
## Change name of variable Salary to AnnualSalary in data frame d
names(d)
## [1] "Years"        "Gender"       "Dept"         "AnnualSalary" "JobSat"       "Plan"         "Pre"         
## [8] "Post"

Create Factor Variables

d <- rd("Mach4", quiet=TRUE)
l <- rd("Mach4_lbl")
LikertCats <- c("Strongly Disagree", "Disagree", "Slightly Disagree",
                "Slightly Agree", "Agree", "Strongly Agree")
d <- factors(m01:m20, levels=0:5, labels=LikertCats)

Convert the specified variables to factors according to the given vector of three variables only. Leave the original variables unmodified, create new variables.

d <- factors(c(m06, m07, m20), levels=0:5, labels=LikertCats, new=TRUE)

Now copy the variable labels from the original integer variables to the newly created factor variables.

l <- factors(c(m06, m07, m20), var_labels=TRUE)

Reshape Data

Reshape Data Wide to Long

A wide-form data table has multiple measurements from the same unit of analysis (e.g., person) across the row of data, usually repeated over time. The conversion to long-form forms three new columns from the input wide-form: the name of the grouping variable, the name of the response values, and the name of the ID field.

Read the data.

d <- Read("Anova_rb")
d
##   Person sup1 sup2 sup3 sup4
## 1     p1    2    4    4    3
## 2     p2    2    5    4    6
## 3     p3    8    6    7    9
## 4     p4    4    3    5    7
## 5     p5    2    1    2    3
## 6     p6    5    5    6    8
## 7     p7    2    3    2    4

Go with the default variable names in the long-form.

reshape_long(d, c("sup1", "sup2", "sup3", "sup4"))
##     ID Person Group Response
## 1  ID1     p1  sup1        2
## 2  ID2     p2  sup1        2
## 3  ID3     p3  sup1        8
## 4  ID4     p4  sup1        4
## 5  ID5     p5  sup1        2
## 6  ID6     p6  sup1        5
## 7  ID7     p7  sup1        2
## 8  ID1     p1  sup2        4
## 9  ID2     p2  sup2        5
## 10 ID3     p3  sup2        6
## 11 ID4     p4  sup2        3
## 12 ID5     p5  sup2        1
## 13 ID6     p6  sup2        5
## 14 ID7     p7  sup2        3
## 15 ID1     p1  sup3        4
## 16 ID2     p2  sup3        4
## 17 ID3     p3  sup3        7
## 18 ID4     p4  sup3        5
## 19 ID5     p5  sup3        2
## 20 ID6     p6  sup3        6
## 21 ID7     p7  sup3        2
## 22 ID1     p1  sup4        3
## 23 ID2     p2  sup4        6
## 24 ID3     p3  sup4        9
## 25 ID4     p4  sup4        7
## 26 ID5     p5  sup4        3
## 27 ID6     p6  sup4        8
## 28 ID7     p7  sup4        4

Specify custom variable names in the long-form, take advantage of the usual organization that the columns to be transformed are all sequential in the data frame. Use the ordering sup1:sup4 to identify the variables. Only the first two parameter values are required, the data frame that contains the variables and the variables to be transformed.

reshape_long(d, sup1:sup4, 
             group="Supplement", response="Reps", ID="Person", prefix="P")
##    Person Supplement Reps
## 1     Pp1       sup1    2
## 2     Pp2       sup1    2
## 3     Pp3       sup1    8
## 4     Pp4       sup1    4
## 5     Pp5       sup1    2
## 6     Pp6       sup1    5
## 7     Pp7       sup1    2
## 8     Pp1       sup2    4
## 9     Pp2       sup2    5
## 10    Pp3       sup2    6
## 11    Pp4       sup2    3
## 12    Pp5       sup2    1
## 13    Pp6       sup2    5
## 14    Pp7       sup2    3
## 15    Pp1       sup3    4
## 16    Pp2       sup3    4
## 17    Pp3       sup3    7
## 18    Pp4       sup3    5
## 19    Pp5       sup3    2
## 20    Pp6       sup3    6
## 21    Pp7       sup3    2
## 22    Pp1       sup4    3
## 23    Pp2       sup4    6
## 24    Pp3       sup4    9
## 25    Pp4       sup4    7
## 26    Pp5       sup4    3
## 27    Pp6       sup4    8
## 28    Pp7       sup4    4

Reshape Data Long to Wide

Can also reshape a long-form data frame to wide-form.

Here, begin with a wide-form data frame and convert to long-form.

d <- Read("Anova_rb")
d
##   Person sup1 sup2 sup3 sup4
## 1     p1    2    4    4    3
## 2     p2    2    5    4    6
## 3     p3    8    6    7    9
## 4     p4    4    3    5    7
## 5     p5    2    1    2    3
## 6     p6    5    5    6    8
## 7     p7    2    3    2    4
dl <- reshape_long(d, sup1:sup4)  # convert to long-form

Convert back to wide form.

reshape_wide(dl, group="Group", response="Value", ID="Person")
##    ID Person Response
## 1 ID1     p1        2
## 2 ID2     p2        2
## 3 ID3     p3        8
## 4 ID4     p4        4
## 5 ID5     p5        2
## 6 ID6     p6        5
## 7 ID7     p7        2

Here covert with the name of the response prefixed to the column names.

reshape_wide(dl, group="Group", response="Value", ID="Person",
             prefix=TRUE, sep=".")
##    ID Person Response
## 1 ID1     p1        2
## 2 ID2     p2        2
## 3 ID3     p3        8
## 4 ID4     p4        4
## 5 ID5     p5        2
## 6 ID6     p6        5
## 7 ID7     p7        2

Create Training and Testing Data

Get the data, the Employee data set.

d <- Read("Employee", quiet=TRUE)

Create four component data frames: out\(train_x, out\)train_y, out\(test_x, and out\)test_y. Specify the response variable as Salary.

out <- train_test(d, Salary)
names(out)
## [1] "train_x" "train_y" "test_x"  "test_y"

Create two component data frames: out\(train and out\)test. All the variables in the original data frame are included in the component data frames.

out <- train_test(d)
names(out)
## [1] "train" "test"