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salty

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When teaching students how to clean data, it helps to have data that isn’t too clean already. salty offers functions for “salting” clean data with problems often found in datasets in the wild, such as:

Installation

Install salty from CRAN with:

install.packages("salty")

You may install the development version of salty from github with:

# install.packages("devtools")
devtools::install_github("mdlincoln/salty")

Basic usage

library(salty)
set.seed(10)

# We'll use charlatan to create some sample data

sample_names <- charlatan::ch_name(10)
sample_names
#>  [1] "Bradyn Witting"           "Glenn Trantow PhD"       
#>  [3] "Mariano Tromp-Willms"     "Donte Beatty"            
#>  [5] "Jax Lueilwitz"            "Esperanza Hane-Reichert" 
#>  [7] "Mr. Muhammad Zboncak DDS" "Mr. Cordero Effertz PhD" 
#>  [9] "Jacquline Hand"           "Dr. Newman Dietrich Sr."

sample_numbers <- charlatan::ch_double(10)
sample_numbers
#>  [1] -1.26519802 -0.37366156 -0.68755543 -0.87215883 -0.10176101 -0.25378053
#>  [7] -1.85374045 -0.07794607  0.96856634  0.18492596

salty offers several easy-to-use functions for adding common problems to your data.

# Add in erroneous letters or punctuation
salt_letters(sample_names)
#>  [1] "Bradyn Witting"           "Glenn Trantow PhD"       
#>  [3] "Mariano Tromp-Willms"     "Donte Beatty"            
#>  [5] "oJax Lueilwitz"           "Esperanza Hane-Reichert" 
#>  [7] "Mr. Muhammad Zboncak DDS" "Mr. Cordero Effertz PhD" 
#>  [9] "JacqulTine Hand"          "Dr. Newman Dietrich Sr."
salt_punctuation(sample_names)
#>  [1] "Bradyn Witting"           "Gl,enn Trantow PhD"      
#>  [3] "Mariano Tromp-Willms"     "Donte Beatty"            
#>  [5] "Jax Lueilwitz"            "Esperanza Hane-Reichert" 
#>  [7] "Mr. Muhammad Zboncak DDS" "Mr.' Cordero Effertz PhD"
#>  [9] "Jacquline Hand"           "Dr. Newman Dietrich Sr."

# Flip capitals
salt_capitalization(sample_names)
#>  [1] "Bradyn Witting"           "Glenn Trantow PhD"       
#>  [3] "MArIano Tromp-WillmS"     "Donte Beatty"            
#>  [5] "Jax Lueilwitz"            "Esperanza Hane-Reichert" 
#>  [7] "Mr. Muhammad Zboncak DDS" "Mr. Cordero Effertz PhD" 
#>  [9] "Jacquline Hand"           "Dr. Newman Dietrich Sr."

# Introduce OCR errors. You can specify the proportion of values in the vector
# that should be salted, and the proportion of possible matches within a single
# value that should be changed.
salt_ocr(sample_names, p = 1, rep_p = 1)
#>  [1] "Bradyn Witti'ng"            "Glenn Tratltovvv PhD"      
#>  [3] "Mariallo Tromp-Willms"      "DoInte Beatty"             
#>  [5] "Jax Lueilwvitz"             "Esperanza Hane-Reiclhert"  
#>  [7] "MIr. Muhammad ZboIncak DDS" "MIr. Cordero Effertz PhD"  
#>  [9] "Jacqll1i'ne Ha nd"          "Dr. Newvman Dietriclh Sr."

salt_delete will simply drop characters from randomly selected values in a vector, while salt_empty and salt_na will replace entire values.

salt_delete(sample_names, p = 0.5, n = 6)
#>  [1] "rdy Witg"                "Glenn Trantow PhD"      
#>  [3] "Maiano romp-Wl"          "Donte Beatty"           
#>  [5] "Jax Lueilwitz"           "Esprna Hne-Rechrt"      
#>  [7] "Mr. Muhad Zocak DS"      "Mr. Cordero Effertz PhD"
#>  [9] "Jaulin n"                "Dr. Newman Dietrich Sr."

salt_empty(sample_names, p = 0.5)
#>  [1] ""                        "Glenn Trantow PhD"      
#>  [3] ""                        "Donte Beatty"           
#>  [5] "Jax Lueilwitz"           "Esperanza Hane-Reichert"
#>  [7] ""                        "Mr. Cordero Effertz PhD"
#>  [9] ""                        ""

salt_na(sample_names, p = 0.5)
#>  [1] "Bradyn Witting"           "Glenn Trantow PhD"       
#>  [3] "Mariano Tromp-Willms"     NA                        
#>  [5] NA                         NA                        
#>  [7] "Mr. Muhammad Zboncak DDS" NA                        
#>  [9] NA                         "Dr. Newman Dietrich Sr."

Advanced usage

For more fine-grained control over the salting process, and for access to a wider range of salting types, you can use the underlying functions provided for: inserting, substituting, replacing.

The set of insertions and replacements are specified via shakers, pre-filled character sets and pattern/replacement pairs that the salt verbs then call.

available_shakers()
#> $shaker
#> [1] "punctuation"       "lowercase_letters" "uppercase_letters"
#> [4] "mixed_letters"     "whitespace"        "digits"           
#> 
#> $replacement_shaker
#> [1] "ocr_errors"     "capitalization" "decimal_commas"

salt_insert keeps all the characters in the original while adding new ones, while salt_substitute overwrites those characters.

# Use p to specify the percent of values that you would like to salt
salt_insert(sample_names, shaker$punctuation, p = 0.5)
#>  [1] "Bradyn Witting"            "Glenn #Trantow PhD"       
#>  [3] "Mariano Tromp-Willms"      "(Donte Beatty"            
#>  [5] "Jax Lue*ilwitz"            "Esperanza H'ane-Reichert" 
#>  [7] "Mr. Muhammad Zbo'ncak DDS" "Mr. Cordero Effertz PhD"  
#>  [9] "Jacquline Hand"            "Dr. Newman Dietrich Sr."

# Use n to specify how many new insertions/substitutions you want to make to selected values
salt_substitute(sample_names, shaker$punctuation, p = 0.5, n = 3)
#>  [1] "Bradyn Witting"           "Glenn Trantow PhD"       
#>  [3] "Maria#o /r(mp-Willms"     "%onte B\"atty%"          
#>  [5] "Jax Lueil)i\"@"           "Espe#a)za Hane(Reichert" 
#>  [7] "Mr. Muhammad Zboncak DDS" "Mr. Cordero Effertz PhD" 
#>  [9] "J'cqu/ine(Hand"           "Dr. Newman Dietrich Sr."

Different flavors of salt are available using shaker, however you can also supply your own character vector of possible replacements if you like.

salt_insert(sample_names, shaker$mixed_letters, p = 0.5)
#>  [1] "ABradyn Witting"          "Glenn Tqrantow PhD"      
#>  [3] "Mariano Tromp-Willms"     "Donte Beatty"            
#>  [5] "Jaxx Lueilwitz"           "Esperanza Hane-Reichert" 
#>  [7] "Mr. Muhammad Zboncak DDS" "Mr. Cordero TEffertz PhD"
#>  [9] "Jacquline Handg"          "Dr. Newman Dietrich Sr."

salt_insert(sample_numbers, shaker$digits, p = 0.5)
#>  [1] "-1.26519850215309"   "-0.373661555154702"  "-0.687555430387918" 
#>  [4] "-30.87215882671769"  "-0.101761006224816"  "-0.2537680530102462"
#>  [7] "-1.853740454457914"  "-0.0779460660753655" "0.96856634052454"   
#> [10] "0.1849259599590315"

salt_insert(sample_names, c("foo", "bar", "baz"), p = 0.5)
#>  [1] "Bradyn Witting"             "Glenn Trantow PhD"         
#>  [3] "barMariano Tromp-Willms"    "Donte bazBeatty"           
#>  [5] "Jax Lueilwitz"              "Efoosperanza Hane-Reichert"
#>  [7] "Mr. Muhammad Zboncak DDS"   "Mr. Corfoodero Effertz PhD"
#>  [9] "Jacquline Handbaz"          "Dr. Newman Dietrich Sr."

salt_replace is a bit more targeted: it works with pairs of patterns and replacements, either contained in replacement_shaker or user-specified. Use rep_p to set a probability of how many possible replacements should actually get swapped out for any given value.

salt_replace(sample_names, replacement_shaker$ocr_errors, p = 1, rep_p = 1)
#>  [1] "Bradyn Witti'ng"            "Glenn Tratltovvv PhD"      
#>  [3] "Mariallo Tromp-Willms"      "DoInte Beatty"             
#>  [5] "Jax Lueilwvitz"             "Esperanza Hane-Reiclhert"  
#>  [7] "MIr. Muhammad ZboIncak DDS" "MIr. Cordero Effertz PhD"  
#>  [9] "Jacqll1i'ne Ha nd"          "Dr. Newvman Dietriclh Sr."

salt_replace(sample_names, replacement_shaker$capitalization, p = 0.5, rep_p = 0.2)
#>  [1] "BRadyn WiTting"           "Glenn Trantow PhD"       
#>  [3] "Mariano Tromp-Willms"     "DoNte Beatty"            
#>  [5] "JAx LuEiLwitZ"            "Esperanza Hane-Reichert" 
#>  [7] "Mr. Muhammad Zboncak DDS" "Mr. Cordero Effertz PhD" 
#>  [9] "JAcquline HAnd"           "Dr. Newman DiETrICh Sr."

salt_replace(sample_numbers, replacement_shaker$decimal_commas, p = 0.5, rep_p = 1)
#>  [1] "-1.2651980215309"    "-0.373661555154702"  "-0.687555430387918" 
#>  [4] "-0,87215882671769"   "-0.101761006224816"  "-0,253780530102462" 
#>  [7] "-1,85374045447914"   "-0.0779460660753655" "0,96856634052454"   
#> [10] "0,184925959990315"

You may also specify your own arbitrary character vector of possible insertions.

salt_insert(sample_names, insertions = c("X", "Z"))
#>  [1] "XBradyn Witting"          "Glenn Trantow PhD"       
#>  [3] "Mariano Tromp-Willms"     "DoXnte Beatty"           
#>  [5] "Jax Lueilwitz"            "Esperanza Hane-Reichert" 
#>  [7] "Mr. Muhammad Zboncak DDS" "Mr. Cordero Effertz PhD" 
#>  [9] "Jacquline Hand"           "Dr. Newman Dietrich Sr."

Possible future work

salty should not be used for anonymizing data; that’s not its purpose. However, it does draw some inspiration from anonymizer.

To create sample data for salting, take a look at charlatan.

Acknowledgements

The common OCR replacement errors are partially derived from the sed replacements specified in the Royal Society Corpus project: Knappen, Jörg, Fischer, Stefan, Kermes, Hannah, Teich, Elke, and Fankhauser, Peter. 2017. “The Making of the Royal Society Corpus.” In Proceedings of the NoDaLiDa 2017 Workshop on Processing Historical Language. Göteborg, Sweden. Linköping University Electronic Press. https://aclanthology.org/W17-0503.pdf.

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.