skimr

Project Status: Active – The project has reached a stable, usable state and is being actively developed. R build status codecov This is an ROpenSci Peer reviewed package CRAN_Status_Badge cran checks

skimr provides a frictionless approach to summary statistics which conforms to the principle of least surprise, displaying summary statistics the user can skim quickly to understand their data. It handles different data types and returns a skim_df object which can be included in a pipeline or displayed nicely for the human reader.

Note: skimr version 2 has major changes when skimr is used programmatically. Upgraders should review this document, the release notes and vignettes carefully.

Installation

The current released version of skimr can be installed from CRAN. If you wish to install the current build of the next release you can do so using the following:

# install.packages("devtools")
devtools::install_github("ropensci/skimr")

The APIs for this branch should be considered reasonably stable but still subject to change if an issue is discovered.

To install the version with the most recent changes that have not yet been incorporated in the main branch (and may not be):

devtools::install_github("ropensci/skimr", ref = "develop")

Do not rely on APIs from the develop branch, as they are likely to change.

Skim statistics in the console

skimr:

Separates variables by class:

skim(chickwts)

## ── Data Summary ────────────────────────
##                            Values  
## Name                       chickwts
## Number of rows             71      
## Number of columns          2       
## _______________________            
## Column type frequency:             
##   factor                   1       
##   numeric                  1       
## ________________________           
## Group variables            None    
## 
## ── Variable type: factor ───────────────────────────────────────────────────────────────────────────
##   skim_variable n_missing complete_rate ordered n_unique top_counts                        
## 1 feed                  0             1 FALSE          6 soy: 14, cas: 12, lin: 12, sun: 12
## 
## ── Variable type: numeric ──────────────────────────────────────────────────────────────────────────
##   skim_variable n_missing complete_rate mean   sd  p0  p25 p50  p75 p100 hist 
## 1 weight                0             1 261. 78.1 108 204. 258 324.  423 ▆▆▇▇▃

Presentation is in a compact horizontal format:

skim(iris)

## ── Data Summary ────────────────────────
##                            Values
## Name                       iris  
## Number of rows             150   
## Number of columns          5     
## _______________________          
## Column type frequency:           
##   factor                   1     
##   numeric                  4     
## ________________________         
## Group variables            None  
## 
## ── Variable type: factor ───────────────────────────────────────────────────────────────────────────
##   skim_variable n_missing complete_rate ordered n_unique top_counts               
## 1 Species               0             1 FALSE          3 set: 50, ver: 50, vir: 50
## 
## ── Variable type: numeric ──────────────────────────────────────────────────────────────────────────
##   skim_variable n_missing complete_rate mean    sd  p0 p25  p50 p75 p100 hist 
## 1 Sepal.Length          0             1 5.84 0.828 4.3 5.1 5.8  6.4  7.9 ▆▇▇▅▂
## 2 Sepal.Width           0             1 3.06 0.436 2   2.8 3    3.3  4.4 ▁▆▇▂▁
## 3 Petal.Length          0             1 3.76 1.77  1   1.6 4.35 5.1  6.9 ▇▁▆▇▂
## 4 Petal.Width           0             1 1.20 0.762 0.1 0.3 1.3  1.8  2.5 ▇▁▇▅▃

Built in support for strings, lists and other column classes

skim(dplyr::starwars)

## ── Data Summary ────────────────────────
##                            Values         
## Name                       dplyr::starwars
## Number of rows             87             
## Number of columns          14             
## _______________________                   
## Column type frequency:                    
##   character                8              
##   list                     3              
##   numeric                  3              
## ________________________                  
## Group variables            None           
## 
## ── Variable type: character ────────────────────────────────────────────────────────────────────────
##   skim_variable n_missing complete_rate min max empty n_unique whitespace
## 1 name                  0         1       3  21     0       87          0
## 2 hair_color            5         0.943   4  13     0       12          0
## 3 skin_color            0         1       3  19     0       31          0
## 4 eye_color             0         1       3  13     0       15          0
## 5 sex                   4         0.954   4  14     0        4          0
## 6 gender                4         0.954   8   9     0        2          0
## 7 homeworld            10         0.885   4  14     0       48          0
## 8 species               4         0.954   3  14     0       37          0
## 
## ── Variable type: list ─────────────────────────────────────────────────────────────────────────────
##   skim_variable n_missing complete_rate n_unique min_length max_length
## 1 films                 0             1       24          1          7
## 2 vehicles              0             1       11          0          2
## 3 starships             0             1       17          0          5
## 
## ── Variable type: numeric ──────────────────────────────────────────────────────────────────────────
##   skim_variable n_missing complete_rate  mean    sd p0   p25 p50   p75 p100 hist 
## 1 height                6         0.931 174.   34.8 66 167   180 191    264 ▁▁▇▅▁
## 2 mass                 28         0.678  97.3 169.  15  55.6  79  84.5 1358 ▇▁▁▁▁
## 3 birth_year           44         0.494  87.6 155.   8  35    52  72    896 ▇▁▁▁▁

Has a useful summary function

skim(iris) %>%
  summary()

## ── Data Summary ────────────────────────
##                            Values
## Name                       iris  
## Number of rows             150   
## Number of columns          5     
## _______________________          
## Column type frequency:           
##   factor                   1     
##   numeric                  4     
## ________________________         
## Group variables            None

Individual columns can be selected using tidyverse-style selectors

skim(iris, Sepal.Length, Petal.Length)

## ── Data Summary ────────────────────────
##                            Values
## Name                       iris  
## Number of rows             150   
## Number of columns          5     
## _______________________          
## Column type frequency:           
##   numeric                  2     
## ________________________         
## Group variables            None  
## 
## ── Variable type: numeric ──────────────────────────────────────────────────────────────────────────
##   skim_variable n_missing complete_rate mean    sd  p0 p25  p50 p75 p100 hist 
## 1 Sepal.Length          0             1 5.84 0.828 4.3 5.1 5.8  6.4  7.9 ▆▇▇▅▂
## 2 Petal.Length          0             1 3.76 1.77  1   1.6 4.35 5.1  6.9 ▇▁▆▇▂

Handles grouped data

skim() can handle data that has been grouped using dplyr::group_by().

iris %>%
  dplyr::group_by(Species) %>%
  skim()

## ── Data Summary ────────────────────────
##                            Values    
## Name                       Piped data
## Number of rows             150       
## Number of columns          5         
## _______________________              
## Column type frequency:               
##   numeric                  4         
## ________________________             
## Group variables            Species   
## 
## ── Variable type: numeric ──────────────────────────────────────────────────────────────────────────
##    skim_variable Species    n_missing complete_rate  mean    sd  p0  p25  p50  p75 p100 hist 
##  1 Sepal.Length  setosa             0             1 5.01  0.352 4.3 4.8  5    5.2   5.8 ▃▃▇▅▁
##  2 Sepal.Length  versicolor         0             1 5.94  0.516 4.9 5.6  5.9  6.3   7   ▂▇▆▃▃
##  3 Sepal.Length  virginica          0             1 6.59  0.636 4.9 6.22 6.5  6.9   7.9 ▁▃▇▃▂
##  4 Sepal.Width   setosa             0             1 3.43  0.379 2.3 3.2  3.4  3.68  4.4 ▁▃▇▅▂
##  5 Sepal.Width   versicolor         0             1 2.77  0.314 2   2.52 2.8  3     3.4 ▁▅▆▇▂
##  6 Sepal.Width   virginica          0             1 2.97  0.322 2.2 2.8  3    3.18  3.8 ▂▆▇▅▁
##  7 Petal.Length  setosa             0             1 1.46  0.174 1   1.4  1.5  1.58  1.9 ▁▃▇▃▁
##  8 Petal.Length  versicolor         0             1 4.26  0.470 3   4    4.35 4.6   5.1 ▂▂▇▇▆
##  9 Petal.Length  virginica          0             1 5.55  0.552 4.5 5.1  5.55 5.88  6.9 ▃▇▇▃▂
## 10 Petal.Width   setosa             0             1 0.246 0.105 0.1 0.2  0.2  0.3   0.6 ▇▂▂▁▁
## 11 Petal.Width   versicolor         0             1 1.33  0.198 1   1.2  1.3  1.5   1.8 ▅▇▃▆▁
## 12 Petal.Width   virginica          0             1 2.03  0.275 1.4 1.8  2    2.3   2.5 ▂▇▆▅▇

Behaves nicely in pipelines

iris %>%
  skim() %>%
  dplyr::filter(numeric.sd > 1)

## ── Data Summary ────────────────────────
##                            Values    
## Name                       Piped data
## Number of rows             150       
## Number of columns          5         
## _______________________              
## Column type frequency:               
##   numeric                  1         
## ________________________             
## Group variables            None      
## 
## ── Variable type: numeric ──────────────────────────────────────────────────────────────────────────
##   skim_variable n_missing complete_rate mean   sd p0 p25  p50 p75 p100 hist 
## 1 Petal.Length          0             1 3.76 1.77  1 1.6 4.35 5.1  6.9 ▇▁▆▇▂

Knitted results

Simply skimming a data frame will produce the horizontal print layout shown above. We provide a knit_print method for the types of objects in this package so that similar results are produced in documents. To use this, make sure the skimmed object is the last item in your code chunk.

faithful %>%
  skim()
Data summary
Name Piped data
Number of rows 272
Number of columns 2
_______________________
Column type frequency:
numeric 2
________________________
Group variables None

Data summary

Variable type: numeric

skim_variable n_missing complete_rate mean sd p0 p25 p50 p75 p100 hist
eruptions 0 1 3.49 1.14 1.6 2.16 4 4.45 5.1 ▇▂▂▇▇
waiting 0 1 70.90 13.59 43.0 58.00 76 82.00 96.0 ▃▃▂▇▂

Customizing skimr

Although skimr provides opinionated defaults, it is highly customizable. Users can specify their own statistics, change the formatting of results, create statistics for new classes and develop skimmers for data structures that are not data frames.

Specify your own statistics and classes

Users can specify their own statistics using a list combined with the skim_with() function factory. skim_with() returns a new skim function that can be called on your data. You can use this factory to produce summaries for any type of column within your data.

Assignment within a call to skim_with() relies on a helper function, sfl or skimr function list. By default, functions in the sfl call are appended to the default skimmers, and names are automatically generated as well.

my_skim <- skim_with(numeric = sfl(mad))
my_skim(iris, Sepal.Length)

But you can also helpers from the tidyverse to create new anonymous functions that set particular function arguments. The behavior is the same as in purrr or dplyr, with both . and .x as acceptable pronouns. Setting the append = FALSE argument uses only those functions that you’ve provided.

my_skim <- skim_with(
  numeric = sfl(
    iqr = IQR,
    p01 = ~ quantile(.x, probs = .01)
    p99 = ~ quantile(., probs = .99)
  ),
  append = FALSE
)
my_skim(iris, Sepal.Length)

And you can remove default skimmers by setting them to NULL.

my_skim <- skim_with(numeric = sfl(hist = NULL))
my_skim(iris, Sepal.Length)

Skimming other objects

skimr has summary functions for the following types of data by default:

skimr also provides a small API for writing packages that provide their own default summary functions for data types not covered above. It relies on R S3 methods for the get_skimmers function. This function should return a sfl, similar to customization within skim_with(), but you should also provide a value for the class argument. Here’s an example.

get_skimmers.my_data_type <- function(column) {
  sfl(
    .class = "my_data_type",
    p99 = quantile(., probs = .99)
  )
}

Limitations of current version

We are aware that there are issues with rendering the inline histograms and line charts in various contexts, some of which are described below.

Support for spark histograms

There are known issues with printing the spark-histogram characters when printing a data frame. For example, "▂▅▇" is printed as "<U+2582><U+2585><U+2587>". This longstanding problem originates in the low-level code for printing dataframes. While some cases have been addressed, there are, for example, reports of this issue in Emacs ESS. While this is a deep issue, there is ongoing work to address it in base R.

This means that while skimr can render the histograms to the console and in RMarkdown documents, it cannot in other circumstances. This includes:

One workaround for showing these characters in Windows is to set the CTYPE part of your locale to Chinese/Japanese/Korean with Sys.setlocale("LC_CTYPE", "Chinese"). The helper function fix_windows_histograms() does this for you.

And last but not least, we provide skim_without_charts() as a fallback. This makes it easy to still get summaries of your data, even if unicode issues continue.

Printing spark histograms and line graphs in knitted documents

Spark-bar and spark-line work in the console, but may not work when you knit them to a specific document format. The same session that produces a correctly rendered HTML document may produce an incorrectly rendered PDF, for example. This issue can generally be addressed by changing fonts to one with good building block (for histograms) and Braille support (for line graphs). For example, the open font “DejaVu Sans” from the extrafont package supports these. You may also want to try wrapping your results in knitr::kable(). Please see the vignette on using fonts for details.

Displays in documents of different types will vary. For example, one user found that the font “Yu Gothic UI Semilight” produced consistent results for Microsoft Word and Libre Office Write.

Inspirations

The earliest use of unicode characters to generate sparklines appears to be from 2009.

Exercising these ideas to their fullest requires a font with good support for block drawing characters. PragamataPro is one such font.

Contributing

We welcome issue reports and pull requests, including potentially adding support for commonly used variable classes. However, in general, we encourage users to take advantage of skimr’s flexibility to add their own customized classes. Please see the contributing and conduct documents.

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