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The codebookr package is intended to make it easy for users to create codebooks (also called data dictionaries) directly from an R data frame.

Under the hood, codebookr uses the flextable and officer packages extensively to create the codebook as a Word document.

Installation

You can install the released version of codebookr from CRAN with:

install.packages("codebookr")

And the development version from GitHub with:

# install.packages("devtools")
devtools::install_github("brad-cannell/codebookr")

codebookr functions

Example 1: The most basic use case

We will start by demonstrating a complete, bare minimum example without any modification to our example data or any of the default values in the codebook() function. After walking through this example, we will demonstrate several ways to improve the codebook document by adding attributes to our data frame. We will also demonstrate the effects of adjusting some of codebook()s default values. Finally, we will demonstrate some techniques to make the codebook creation process more efficient in a couple of common use cases.

Let’s start by loading codebookr and dplyr.

library(codebookr)
library(dplyr, warn.conflicts = FALSE)
library(haven)

Load data

For the purposes of making a self-contained example, the codebookr package comes with a small example data frame that is intended to have some of the features of real study data. We will use it to demonstrate how to use codebookr below.

# Load example data
data(study)
glimpse(study)
#> Rows: 20
#> Columns: 10
#> $ id        <chr> "1001", "1002", NA, "1004", "1005", "1006", "1007", "1008", …
#> $ address   <chr> "101 A st.", "101 B st.", "101 C st.", "101 D st.", "101 E s…
#> $ sex       <fct> Female, Female, Female, NA, Female, Male, Male, Male, Female…
#> $ date      <date> 2021-10-12, 2021-09-23, 2021-10-13, 2021-10-19, NA, 2021-10…
#> $ time      <time> 08:56:40, 13:26:09, 09:24:22, 08:37:26, 09:20:59, 11:14:52,…
#> $ date_time <dttm> 2021-10-12 08:56:40, 2021-09-23 13:26:09, 2021-10-13 09:24:…
#> $ days      <int> 3, 15, 21, 5, 8, NA, 10, 18, 10, 12, 2, 10, 12, 20, 14, 17, …
#> $ height    <dbl> 81.25571, 68.15227, 58.79282, 72.81303, 69.61109, 71.05764, …
#> $ likert    <int> 5, 3, 4, 4, 1, 4, 1, 3, 4, 3, 5, 4, 4, 4, 1, 2, 3, 4, 3, 1
#> $ outcome   <lgl> TRUE, FALSE, FALSE, TRUE, TRUE, FALSE, TRUE, TRUE, FALSE, FA…

Pass the data frame to the codebook function

In this first example, we will simply pass the study data frame to the codebook() function without making any alterations. We will save the resulting rdocx object (described in greater detail below) in our global environment as the study_codebook object.

study_codebook <- codebook(study)

Create the Word codebook document

Finally, we will pass the study_codebook object we just created to the print() function along with the path to Word document we want to create.

print(study_codebook, "basic_study_codebook.docx")

Alternatively, you can generate the rdocx file and print it as a Word document in one step like this.

print(codebook(study), "basic_study_codebook.docx")

The code above produces the following document, which you can click to view/download on Dropbox. You may also download it from the files pane above.

As you may see in the example document above, the default codebook document includes two major sections. They are:

  1. A metadata table. This table includes some metadata about the data frame. Currently, the data frame’s name, size, number of columns, and number of rows are included in the metadata table. The final row of the metadata table gives the date when the codebook (but not necessarily the data frame) was last updated.

  2. The column attributes tables. The codebook will include a tables of column attributes for each column in the data frame passed to the codebook() function. By default, the top half of the column attributes table includes the column’s name, data type, the number of unique non-missing values, and the total number of missing values. Below, we will discuss other optional attributes that may be added to this table. The bottom half of each column attributes table will include some basic descriptive statistics. Which statistics are displayed depends on the what type of data the column contains. This is discussed in greater detail below.

Example 2: A more informative codebook

The previous example gave us a complete codebook, but there’s a lot of room for improvement. This example is still pretty simple, but it demonstrates how to use the codebookr package to make a codebook from a labeled data frame.

Once again, we will begin by loading the example study data.

# Load example data
data(study)
glimpse(study)
#> Rows: 20
#> Columns: 10
#> $ id        <chr> "1001", "1002", NA, "1004", "1005", "1006", "1007", "1008", …
#> $ address   <chr> "101 A st.", "101 B st.", "101 C st.", "101 D st.", "101 E s…
#> $ sex       <fct> Female, Female, Female, NA, Female, Male, Male, Male, Female…
#> $ date      <date> 2021-10-12, 2021-09-23, 2021-10-13, 2021-10-19, NA, 2021-10…
#> $ time      <time> 08:56:40, 13:26:09, 09:24:22, 08:37:26, 09:20:59, 11:14:52,…
#> $ date_time <dttm> 2021-10-12 08:56:40, 2021-09-23 13:26:09, 2021-10-13 09:24:…
#> $ days      <int> 3, 15, 21, 5, 8, NA, 10, 18, 10, 12, 2, 10, 12, 20, 14, 17, …
#> $ height    <dbl> 81.25571, 68.15227, 58.79282, 72.81303, 69.61109, 71.05764, …
#> $ likert    <int> 5, 3, 4, 4, 1, 4, 1, 3, 4, 3, 5, 4, 4, 4, 1, 2, 3, 4, 3, 1
#> $ outcome   <lgl> TRUE, FALSE, FALSE, TRUE, TRUE, FALSE, TRUE, TRUE, FALSE, FA…

Column types

Although R recognizes many different column types, most of which the study data contains, codebook() classifies all columns as one of four types and uses these categories to determine which descriptive statistics to use in the codebook document:

  1. Categorical with many different categories, for example the id column of the study data frame.
  2. Categorical with few different categories, for example the sex column of the study data frame.
  3. Time, for example the date column of the study data frame.
  4. Numeric, for example the height column of the study data frame.

Here are the default summary statistics returned by the codebook() function for each of the column types list above:

Categorical variables with many different categories

lowest_cats lowest_freq highest_cats highest_freq
1001 1 1017 1
1002 1 1018 1
1004 1 1019 1
1005 1 1020 1
1006 1 Missing 1

Categorical variables with few different categories

cat n cum_freq percent
Female 11 11 55.00
Male 8 19 40.00
Missing 1 20 5.00

Date/Time variables

Statistic Value Frequency Percentage
Minimum 2021-09-21 2 10.00
Mode 2021-09-23 3 15.00
Maximum 2021-10-26 2 10.00

Numeric variables

Min Mean Median Max SD
58.79 73.54 73.39 84.61 6.90

Add column attributes to the data frame you want to document with a codebook

Typically, though not necessarily (see What if the variables already have labels?), the first step in creating your codebook will be to add column attributes to your data. The cb_add_col_attributes() function is a convenience function that allows you to add arbitrary attributes to the columns of the data frame. These attributes can later be accessed to fill in the column attributes table of the codebook document. Column attributes can serve a similar function to variable labels in SAS or Stata; however, you can assign many different attributes to a column and they can contain any kind of information you want.

The arguments to cb_add_col_attributes() are:

Although the cb_add_col_attributes() function will allow you to add any attributes you want, there are currently only five special attributes that the codebook() function will recognize and add to the column attributes table of the codebook document. They are:

study <- study %>%
  cb_add_col_attributes(
    id,
    description = "Participant's study identification number",
    source = "Administrative data",
    other_attribute = "What happens?"
  ) %>%
  
  cb_add_col_attributes(
    address,
    description = "Participant's home address",
    source = "Administrative data"
  ) %>%

  cb_add_col_attributes(
    sex,
    description = "Biological sex of the participant assigned at birth",
    source = "Sociodemographic questionnaire"
  ) %>%

  cb_add_col_attributes(
    date,
    description = "Participant's date of enrollment",
    source = "Administrative data"
  ) %>%
  
  cb_add_col_attributes(
    time,
    description = "Participant's time of enrollemnt",
    source = "Administrative data"
  ) %>% 
  
  cb_add_col_attributes(
    days,
    description = "Total number of days the participant was enrolled in the study",
    source = "Calculated variable"
  ) %>% 

  cb_add_col_attributes(
    height,
    description = "Participant's height in inches at date of enrollment",
    source = "Anthropometric measurements"
  ) %>% 

  cb_add_col_attributes(
    likert,
    description = "An example Likert scale item",
    source = "Exposure questionnaire",
    value_labels = c(
      "Very dissatisfied" = 1, 
      "Somewhat dissatisfied" = 2,
      "Neither satisfied nor dissatisfied" = 3,
      "Somewhat satisfied" = 4,
      "Very satisfied" = 5
    ),
    skip_pattern = "Not asked if days < 10"
  ) %>% 
    
  cb_add_col_attributes(
    outcome,
    description = "Participant experienced the outcome of interest",
    source = "Adjudicated outcomes data"
  )
#> The following attribute(s) are being added to a variable in the data frame for the first time: description, source, other_attribute. If you believe this/these attribute(s) were previously added, then check for a typo in the attribute name. If you are adding this/these attribute(s) for the first time, you can probably safely ignore this message.
#> The following attribute(s) are being added to a variable in the data frame for the first time: value_labels, skip_pattern. If you believe this/these attribute(s) were previously added, then check for a typo in the attribute name. If you are adding this/these attribute(s) for the first time, you can probably safely ignore this message.

Notice that codebook() will print a message to the screen the first time you add an attribute to any column in the data frame. This is intended to help you catch typos. For example, if you add a description attribute to the column id you will get the following attribute(s) are being added to a variable in the data frame for the first time message. Later, if you add a description attribute to any other column, you should *NOT** get the following attribute(s) are being added to a variable in the data frame for the first time message again. However, if you accidentally added a descriptionn (typo – two n’s) attribute to another column in the data frame then you would get a message telling you that you added the descriptionn attribute for the first time. Because codebook() allows you to add any attribute to the data frame that you desire, it can’t check to make sure the attributes you are adding are “valid”. The best it can do is tell you when you are adding an attribute for the first time, and let you investigate further if you believe that you previously added that particular attribute.

Create a Word codebook document

Now that we’ve added a couple of attributes the data frame we want to document, we will once again pass the data frame to the codebook() function.

The arguments to the codebook() function are:

First, we will once again create our codebook without passing any values to the title, subtitle, or description arguments. This will allow us to more easily see only the changes that were made to our codebook as a result of adding attributes to the columns. After viewing those changes, we will add a title, subtitle, and description.

study_codebook <- codebook(df = study)

Technically, the codebook() function returns an rdocx object that can be printed to a Word document. This functionality comes from David Gohel’s incredible officer package. The final step in creating the Word document is to print it.

print(x = study_codebook, target = "study_codebook_1.docx")

Where x is the rdocx object and target is a path for the Word document you want to create (which may or may not already exist). The code above produces the following document, which you can click to view/download on Dropbox. You may also download it from the files pane above.

In the example above, the title and metadata table are unchanged compared to Example 1. However, the column attributes tables now look a little different.

study <- study %>%
  cb_add_col_attributes(
    likert,
    col_type = "Categorical"
  )
#> The following attribute(s) are being added to a variable in the data frame for the first time: col_type. If you believe this/these attribute(s) were previously added, then check for a typo in the attribute name. If you are adding this/these attribute(s) for the first time, you can probably safely ignore this message.
print(x = codebook(study), target = "study_codebook_2.docx")

The code above produces the following document, which you can click to view/download on Dropbox. You may also download it from the files pane above.

As shown in the codebook above, the bottom half of the column attributes table now shows the frequency, cumulative frequency, and percentage for each value in the likert column. You may also notice that the value_labels and skip_pattern we applied above are also displayed in the column attributes table.

Add title, subtitle, and description

As previously mentioned, we can optionally add a custom title and subtitle to our codebook. We can also optionally add some descriptive text about our data overall. Doing so is straight forward. Just pass a string of text to each of the title, subtitle, and/or description arguments of the codebook() function. In the example below, we use a description from the DETECT project for example purposes only.

study_codebook <- codebook(
  df = study,
  title = "My Example Study",
  subtitle = "A Subtitle for My Example Study Codebook",
  description = "In collaboration with Texas Adult Protective Services (APS) and one of the largest mobile healthcare providers in North Texas — MedStar Mobile Healthcare (MedStar) — our team developed and piloted an EA screening tool: Detection of Elder Abuse Through Emergency Care Technicians (DETECT). The DETECT tool was designed specifically to help medics identify potential EA among community-dwelling older adults during an emergency response. DETECT relies entirely on the medics’ systematic observations of the older adults’ physical and social environment — no direct questioning of the older adult or their caregivers is involved. The intent was to create an EA screening tool that was easy for medics to use in the field and that helped medics capture information about older adults, their environments, and their caregivers that is thought to be associated with the occurrence of EA. 

We pilot tested using the DETECT screening tool with medics in the field between September 17th and October 26th, 2015. During the pilot test, MedStar’s Electronic Patient Care Reporting system (ePCR) was programmed to automatically prompt all medics to complete an EA screening using the DETECT tool while on an eligible 911 response. An eligible 911 response was defined as a call for a community-dwelling patient who was 65 years of age or older, the setting was the patient’s residence, and the patient resided in the community (e.g., private home, unlicensed adult foster homes, unlicensed board and care homes, etc.). Other types of residences (e.g., licensed skilled nursing facilities) were excluded because reports of EA in these settings are generally not investigated by APS in Texas. By definition, older adults who participated in the pilot study had to live in MedStar’s service area of an estimated (978,000 residents), which included Fort Worth, Texas, and 14 surrounding communities."
)
print(study_codebook, "study_codebook_3.docx")

The code above produces the following document, which you can click to view/download on Dropbox. You may also download it from the files pane above.

As shown in the codebook above, the codebook now contains a title, subtitle, and description.

What if you have a lot of variables?

If you have a lot of variables that you want to set attributes for, it can be tedious to manually type cb_add_col_attributes() for each of the variables like we did above.

Below, we demonstrate two techniques that can reduce some of the pain. Perhaps we will develop even better methods in the future.

# Load study again to remove the attributes we added above
data(study)

In the first example, we demonstrate setting an attribute for many variables at once. Let’s say that we want to set the source attribute to “Administrative Data” for the id, date, and time columns. We could do so with three separate calls to cb_add_col_attributes() for each variable as we did above, but that becomes a less tractable solution with many more than a handful of columns.

As a more efficient solution, we can create a vector of column names that we want to add an attribute to and then set the attribute value for each column in a for loop. We could just manually type the vector of column names, but we prefer using dplyr’s select() function as shown below because it is safer (e.g., it will throw an error if we type a variable name that doesn’t exist) and it offers the convenience of allowing us to use tidy-select selection features.

admin_vars <- study %>% 
  select(id, date, time) %>% 
  names()

for(i in admin_vars) {
  attr(study[[i]], "source") <- "Administrative data"
}
attributes(study$id)
#> $source
#> [1] "Administrative data"
attributes(study$date)
#> $class
#> [1] "Date"
#> 
#> $source
#> [1] "Administrative data"
attributes(study$time)
#> $units
#> [1] "secs"
#> 
#> $class
#> [1] "hms"      "difftime"
#> 
#> $source
#> [1] "Administrative data"

In this second example, we will use a for loop to actually help us write a section of cb_add_col_attributes() code for each column in the data set. When we run the code chunk below, it will print R code to the screen that we can copy and paste into a second code chunk. This will cut down on the amount of typing we have to do and help ensure that we don’t accidentally forget to add attributes to any of the columns.

for (i in seq_along(names(study))) {
  cat(paste0('
    codebook_add_col_attributes( \n    ',
      "  ", names(study)[i], ', \n    ',
      "  ", 'description = ""
    ) %>%
  '))
}
#> 
#>     codebook_add_col_attributes( 
#>       id, 
#>       description = ""
#>     ) %>%
#>   
#>     codebook_add_col_attributes( 
#>       address, 
#>       description = ""
#>     ) %>%
#>   
#>     codebook_add_col_attributes( 
#>       sex, 
#>       description = ""
#>     ) %>%
#>   
#>     codebook_add_col_attributes( 
#>       date, 
#>       description = ""
#>     ) %>%
#>   
#>     codebook_add_col_attributes( 
#>       time, 
#>       description = ""
#>     ) %>%
#>   
#>     codebook_add_col_attributes( 
#>       date_time, 
#>       description = ""
#>     ) %>%
#>   
#>     codebook_add_col_attributes( 
#>       days, 
#>       description = ""
#>     ) %>%
#>   
#>     codebook_add_col_attributes( 
#>       height, 
#>       description = ""
#>     ) %>%
#>   
#>     codebook_add_col_attributes( 
#>       likert, 
#>       description = ""
#>     ) %>%
#>   
#>     codebook_add_col_attributes( 
#>       outcome, 
#>       description = ""
#>     ) %>%
#> 

What if the variables already have labels?

It’s possible that you’re data already has column attributes that you want codebook() to use. For example, you may have a data frame that is imported from a binary file created by statistical analysis software other than R. In many cases, useful attributes such as variable labels and value labels are imported with the data.

In the example below, we import the same study data that we worked with above. However, this time we are importing it from a Stata data file using the read_dta() function from the haven package.

study <- read_dta("inst/extdata/study.dta")

As shown below, if value labels, variable labels, and/or formats were added to the data in SAS, Stata, or SPSS then haven will attach them to the imported columns as label, format, and labels attributes respectively.

attributes(study$sex)
#> $label
#> [1] "Biological sex of the participant assigned at birth"
#> 
#> $format.stata
#> [1] "%8.0g"
#> 
#> $class
#> [1] "haven_labelled" "vctrs_vctr"     "double"        
#> 
#> $labels
#> Female   Male 
#>      1      2

Additionally, haven will add the haven_labelled and vctrs_vctr class to any column that has value labels.

class(study$sex)
#> [1] "haven_labelled" "vctrs_vctr"     "double"

Fortunately, because we so often work with SAS, Stata, and SPSS data imported into R using haven, codebookr is built to take advantage of these imported attributes. Specifically, the codebook() function will add the value labels and variable labels to the column attributes table in the codebook document.

All we need to do is pass the data frame to the codebook() function and print the rdocx object as before.

print(codebook(study), "stata_codebook_1.docx")

The code above produces the following document, which you can click to view/download on Dropbox. You may also download it from the files pane above.

As shown in the codebook above, the Column description portion of the column attributes table is automatically populated with the value of the each column’s label attribute. Additionally, the Value labels portion of the column attributes table is automatically populated with the value of each column’s labels attribute; although, only the sex column has a labels attribute in this data frame.

What happens if there is a label and a description attribute?

For example, the id column below was imported with a label attribute. In the code chunk below, we also add a description attribute. Which one will end up in the codebook document?

study <- study %>% 
  cb_add_col_attributes(id, description = "My new description")
#> The following attribute(s) are being added to a variable in the data frame for the first time: description. If you believe this/these attribute(s) were previously added, then check for a typo in the attribute name. If you are adding this/these attribute(s) for the first time, you can probably safely ignore this message.
attributes(study$id)
#> $label
#> [1] "Participant's study identification number"
#> 
#> $format.stata
#> [1] "%9s"
#> 
#> $description
#> [1] "My new description"
print(codebook(study), "stata_codebook_2.docx")

The code above produces the following document, which you can click to view/download on Dropbox. You may also download it from the files pane above.

As shown in the codebook above, the Column description portion of the column attributes table is still automatically populated with the value of the each column’s label attribute – except where we manually added a description attribute. So, when a column has both a label and a description attribute, the description attribute wins out. The idea is that if we have taken the time to manually type out a description, it should win out over whatever happened to be in label.

What happens if there is a labels and a value_labels attribute?

The labels and value_labels attributes behave similarly to the label and descripion attributes shown above. The Value labels: portion of the column attributes table will automatically be populated with the value of the each column’s labels attribute – except where we manually add a value_labels attribute. So, when a column has both a labels and a value_labels attribute, the value_labels attribute wins out. The idea is that if we have taken the time to manually type out value_labels, it should win out over whatever happened to be in label.

Manually filling in the column attributes table

By default, codebook() will drop Column description:, Source information:, Column type:, Value labels:, and/or Skip pattern: from the column attributes table if values for those attributes don’t exist in the data frame. However, some users have requested the option to keep them in the Word codebook document with blank values so that that they can be filled in manually. We believe that this is typically a bad practice because any change to the data may require you to create a new codebook and fill-in the Word document manually from scratch again. However, changing the value of keep_blank_attributes from FALSE to TRUE will cause codebook() to keep Column description:, Source information:, Column type:, Value labels:, and Skip pattern: in the column attributes table even if those attributes don’t exist in the data frame.

# Refresh data
data(study)
study_codebook <- codebook(study, keep_blank_attributes = TRUE)
print(study_codebook, "study_codebook_4.docx")

The code above produces the following document, which you can click to view/download on Dropbox. You may also download it from the files pane above.

As shown in the screenshot above, all rows of the column attributes table now exist in the codebook document for each column of the data frame. However, the values are blank where relevant attributes were not set.

Preventing summary statistics from appearing in the column attributes table

There may be times when a column contains values that are sensitive or may be used to identify individual people (e.g., names, addresses, etc.) and the individual values for that column should not appear in the codebook. For example, the study data includes an address column. If we wanted to make the codebook for the study data available to the public, but not the data itself, we may not want the individual addresses to show in the summary statistics portion of the column attributes table as they do by default.

Of course, we could just drop the address column from the data frame entirely, but it’s better to have the codebook acknowledge all of the columns that exist in the data frame. In cases like this, we can pass a character vector of column names to the no_summary_stats argument of the codebook() function. Doing so will prevent the summary statistics from being added to column attributes table for any column passed to this argument.

study_codebook <- codebook(study, no_summary_stats = "address")
print(study_codebook, "study_codebook_5.docx")

As shown in the screenshot above, the column attributes table for the address column no longer shows any of the individual addresses.

Further, we can omit the summary statistics for all of the columns in our data frame using the following code.

codebook(study, no_summary_stats = names(study))

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.