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Project Status: Active - The project has reached a stable, usable state and is being actively developed. Build Status Coverage Status

textclean is a collection of tools to clean and normalize text. Many of these tools have been taken from the qdap package and revamped to be more intuitive, better named, and faster. Tools are geared at checking for substrings that are not optimal for analysis and replacing or removing them (normalizing) with more analysis friendly substrings (see Sproat, Black, Chen, Kumar, Ostendorf, & Richards, 2001, doi:10.1006/csla.2001.0169) or extracting them into new variables. For example, emoticons are often used in text but not always easily handled by analysis algorithms. The replace_emoticon() function replaces emoticons with word equivalents.

Other R packages provide some of the same functionality (e.g., english, gsubfn, mgsub, stringi, stringr, qdapRegex). textclean differs from these packages in that it is designed to handle all of the common cleaning and normalization tasks with a single, consistent, pre-configured toolset (note that textclean uses many of these terrific packages as a backend). This means that the researcher spends less time on munging, leading to quicker analysis. This package is meant to be used jointly with the textshape package, which provides text extraction and reshaping functionality. textclean works well with the qdapRegex package which provides tooling for substring substitution and extraction of pre-canned regular expressions. In addition, the functions of textclean are designed to work within the piping of the tidyverse framework by consistently using the first argument of functions as the data source. The textclean subbing and replacement tools are particularly effective within a dplyr::mutate statement.

Table of Contents

Functions

The main functions, task category, & descriptions are summarized in the table below:

Function Task Description
mgsub subbing Multiple gsub
fgsub subbing Functional matching replacement gsub
sub_holder subbing Hold a value prior to a strip
swap subbing Simultaneously swap patterns 1 & 2
strip deletion Remove all non word characters
drop_empty_row filter rows Remove empty rows
drop_row/keep_row filter rows Filter rows matching a regex
drop_NA filter rows Remove NA text rows
drop_element/keep_element filter elements Filter matching elements from a vector
match_tokens filter elements Filter out tokens from strings that match a regex criteria
replace_contractions replacement Replace contractions with both words
replace_date replacement Replace dates
replace_email replacement Replace emails
replace_emoji replacement Replace emojis with word equivalent or unique identifier
replace_emoticon replacement Replace emoticons with word equivalent
replace_grade replacement Replace grades (e.g., “A+”) with word equivalent
replace_hash replacement Replace Twitter style hash tags (e.g., #rstats)
replace_html replacement Replace HTML tags and symbols
replace_incomplete replacement Replace incomplete sentence end-marks
replace_internet_slang replacement Replace Internet slang with word equivalents
replace_kern replacement Replace spaces for >2 letter, all cap, words containing spaces in between letters
replace_misspelling replacement Replace misspelled words with their most likely replacement
replace_money replacement Replace money in the form of $\d+.?\d{0,2}
replace_names replacement Replace common first/last names
replace_non_ascii replacement Replace non-ASCII with equivalent or remove
replace_number replacement Replace common numbers
replace_ordinal replacement Replace common ordinal number form
replace_rating replacement Replace ratings (e.g., “10 out of 10”, “3 stars”) with word equivalent
replace_symbol replacement Replace common symbols
replace_tag replacement Replace Twitter style handle tag (e.g., @trinker)
replace_time replacement Replace time stamps
replace_to/replace_from replacement Remove from/to begin/end of string to/from a character(s)
replace_tokens replacement Remove or replace a vector of tokens with a single value
replace_url replacement Replace URLs
replace_white replacement Replace regex white space characters
replace_word_elongation replacement Replace word elongations with shortened form
add_comma_space replacement Replace non-space after comma
add_missing_endmark replacement Replace missing endmarks with desired symbol
make_plural replacement Add plural endings to singular noun forms
check_text check Text report of potential issues
has_endmark check Check if an element has an end-mark

Installation

To download the development version of textclean:

Download the zip ball or tar ball, decompress and run R CMD INSTALL on it, or use the pacman package to install the development version:

if (!require("pacman")) install.packages("pacman")
pacman::p_load_gh(
    "trinker/lexicon",    
    "trinker/textclean"
)

Contact

You are welcome to:

Contributing

Contributions are welcome from anyone subject to the following rules:

  • Abide by the code of conduct.
  • Follow the style conventions of the package (indentation, function & argument naming, commenting, etc.)
  • All contributions must be consistent with the package license (GPL-2)
  • Submit contributions as a pull request. Clearly state what the changes are and try to keep the number of changes per pull request as low as possible.
  • If you make big changes, add your name to the ‘Author’ field.

Demonstration

Load the Packages/Data

library(dplyr)
library(textshape)
library(lexicon)
library(textclean)

Check Text

One of the most useful tools in textclean is check_text which scans text variables and reports potential problems. Not all potential problems are definite problems for analysis but the report provides an overview of what may need further preparation. The report also provides suggested functions for the reported problems. The report provides information on the following:

  1. contraction - Text elements that contain contractions
  2. date - Text elements that contain dates
  3. digit - Text elements that contain digits/numbers
  4. email - Text elements that contain email addresses
  5. emoticon - Text elements that contain emoticons
  6. empty - Text elements that contain empty text cells (all white space)
  7. escaped - Text elements that contain escaped back spaced characters
  8. hash - Text elements that contain Twitter style hash tags (e.g., #rstats)
  9. html - Text elements that contain HTML markup
  10. incomplete - Text elements that contain incomplete sentences (e.g., uses ending punctuation like ‘…’)
  11. kern - Text elements that contain kerning (e.g., ‘The B O M B!’)
  12. list_column - Text variable that is a list column
  13. missing_value - Text elements that contain missing values
  14. misspelled - Text elements that contain potentially misspelled words
  15. no_alpha - Text elements that contain elements with no alphabetic (a-z) letters
  16. no_endmark - Text elements that contain elements with missing ending punctuation
  17. no_space_after_comma - Text elements that contain commas with no space afterwards
  18. non_ascii - Text elements that contain non-ASCII text
  19. non_character - Text variable that is not a character column (likely factor)
  20. non_split_sentence - Text elements that contain unsplit sentences (more than one sentence per element)
  21. tag - Text elements that contain Twitter style handle tags (e.g., @trinker)
  22. time - Text elements that contain timestamps
  23. url - Text elements that contain URLs

Note that check_text is running multiple checks and may be slower on larger texts. The user may provide a sample of text for review or use the checks argument to specify the exact checks to conduct and thus limit the compute time.

Here is an example:

x <- c("i like", "<p>i want. </p>. thet them ther .", "I am ! that|", "", NA, 
    "&quot;they&quot; they,were there", ".", "   ", "?", "3;", "I like goud eggs!", 
    "bi\xdfchen Z\xfcrcher", "i 4like...", "\\tgreat",  "She said \"yes\"")
Encoding(x) <- "latin1"
x <- as.factor(x)
check_text(x)

## 
## =============
## NON CHARACTER
## =============
## 
## The text variable is not a character column (likely `factor`):
## 
## 
## *Suggestion: Consider using `as.character` or `stringsAsFactors = FALSE` when reading in
##              Also, consider rerunning `check_text` after fixing
## 
## 
## =====
## DIGIT
## =====
## 
## The following observations contain digits/numbers:
## 
## 10, 13
## 
## This issue affected the following text:
## 
## 10: 3;
## 13: i 4like...
## 
## *Suggestion: Consider using `replace_number`
## 
## 
## ========
## EMOTICON
## ========
## 
## The following observations contain emoticons:
## 
## 6
## 
## This issue affected the following text:
## 
## 6: &quot;they&quot; they,were there
## 
## *Suggestion: Consider using `replace_emoticons`
## 
## 
## =====
## EMPTY
## =====
## 
## The following observations contain empty text cells (all white space):
## 
## 4, 8
## 
## This issue affected the following text:
## 
## 4: 
## 8:    
## 
## *Suggestion: Consider running `drop_empty_row`
## 
## 
## =======
## ESCAPED
## =======
## 
## The following observations contain escaped back spaced characters:
## 
## 14
## 
## This issue affected the following text:
## 
## 14: \tgreat
## 
## *Suggestion: Consider using `replace_white`
## 
## 
## ====
## HTML
## ====
## 
## The following observations contain HTML markup:
## 
## 2, 6
## 
## This issue affected the following text:
## 
## 2: <p>i want. </p>. thet them ther .
## 6: &quot;they&quot; they,were there
## 
## *Suggestion: Consider running `replace_html`
## 
## 
## ==========
## INCOMPLETE
## ==========
## 
## The following observations contain incomplete sentences (e.g., uses ending punctuation like '...'):
## 
## 13
## 
## This issue affected the following text:
## 
## 13: i 4like...
## 
## *Suggestion: Consider using `replace_incomplete`
## 
## 
## =============
## MISSING VALUE
## =============
## 
## The following observations contain missing values:
## 
## 5
## 
## *Suggestion: Consider running `drop_NA`
## 
## 
## ========
## NO ALPHA
## ========
## 
## The following observations contain elements with no alphabetic (a-z) letters:
## 
## 4, 7, 8, 9, 10
## 
## This issue affected the following text:
## 
## 4: 
## 7: .
## 8:    
## 9: ?
## 10: 3;
## 
## *Suggestion: Consider cleaning the raw text or running `filter_row`
## 
## 
## ==========
## NO ENDMARK
## ==========
## 
## The following observations contain elements with missing ending punctuation:
## 
## 1, 3, 4, 6, 8, 10, 12, 14, 15
## 
## This issue affected the following text:
## 
## 1: i like
## 3: I am ! that|
## 4: 
## 6: &quot;they&quot; they,were there
## 8:    
## 10: 3;
## 12: bißchen Zürcher
## 14: \tgreat
## 15: She said "yes"
## 
## *Suggestion: Consider cleaning the raw text or running `add_missing_endmark`
## 
## 
## ====================
## NO SPACE AFTER COMMA
## ====================
## 
## The following observations contain commas with no space afterwards:
## 
## 6
## 
## This issue affected the following text:
## 
## 6: &quot;they&quot; they,were there
## 
## *Suggestion: Consider running `add_comma_space`
## 
## 
## =========
## NON ASCII
## =========
## 
## The following observations contain non-ASCII text:
## 
## 12
## 
## This issue affected the following text:
## 
## 12: bißchen Zürcher
## 
## *Suggestion: Consider running `replace_non_ascii`
## 
## 
## ==================
## NON SPLIT SENTENCE
## ==================
## 
## The following observations contain unsplit sentences (more than one sentence per element):
## 
## 2, 3
## 
## This issue affected the following text:
## 
## 2: <p>i want. </p>. thet them ther .
## 3: I am ! that|
## 
## *Suggestion: Consider running `textshape::split_sentence`

And if all is well the user should be greeted by a cow:

y <- c("A valid sentence.", "yet another!")
check_text(y)

## 
##  ------------- 
## No problems found!
## This text is stunning! 
##  ---------------- 
##   \   ^__^ 
##    \  (oo)\ ________ 
##       (__)\         )\ /\ 
##            ||------w|
##            ||      ||

Row Filtering

It is useful to drop/remove empty rows or unwanted rows (for example the researcher dialogue from a transcript). The drop_empty_row & drop_row do empty row do just this. First I’ll demo the removal of empty rows.

## create a data set wit empty rows
(dat <- rbind.data.frame(DATA[, c(1, 4)], matrix(rep(" ", 4), 
    ncol =2, dimnames=list(12:13, colnames(DATA)[c(1, 4)]))))

##        person                                 state
## 1         sam         Computer is fun. Not too fun.
## 2        greg               No it's not, it's dumb.
## 3     teacher                    What should we do?
## 4         sam                  You liar, it stinks!
## 5        greg               I am telling the truth!
## 6       sally                How can we be certain?
## 7        greg                      There is no way.
## 8         sam                       I distrust you.
## 9       sally           What are you talking about?
## 10 researcher         Shall we move on?  Good then.
## 11       greg I'm hungry.  Let's eat.  You already?
## 12                                                 
## 13

drop_empty_row(dat)

##        person                                 state
## 1         sam         Computer is fun. Not too fun.
## 2        greg               No it's not, it's dumb.
## 3     teacher                    What should we do?
## 4         sam                  You liar, it stinks!
## 5        greg               I am telling the truth!
## 6       sally                How can we be certain?
## 7        greg                      There is no way.
## 8         sam                       I distrust you.
## 9       sally           What are you talking about?
## 10 researcher         Shall we move on?  Good then.
## 11       greg I'm hungry.  Let's eat.  You already?

Next we drop out rows. The drop_row function takes a data set, a column (named or numeric position) and regex terms to search for. The terms argument takes regex(es) allowing for partial matching. terms is case sensitive but can be changed via the ignore.case argument.

drop_row(dataframe = DATA, column = "person", terms = c("sam", "greg"))

##       person sex adult                         state code
## 1    teacher   m     1            What should we do?   K3
## 2      sally   f     0        How can we be certain?   K6
## 3      sally   f     0   What are you talking about?   K9
## 4 researcher   f     1 Shall we move on?  Good then.  K10

drop_row(DATA, 1, c("sam", "greg"))

##       person sex adult                         state code
## 1    teacher   m     1            What should we do?   K3
## 2      sally   f     0        How can we be certain?   K6
## 3      sally   f     0   What are you talking about?   K9
## 4 researcher   f     1 Shall we move on?  Good then.  K10

keep_row(DATA, 1, c("sam", "greg"))

##   person sex adult                                 state code
## 1    sam   m     0         Computer is fun. Not too fun.   K1
## 2   greg   m     0               No it's not, it's dumb.   K2
## 3    sam   m     0                  You liar, it stinks!   K4
## 4   greg   m     0               I am telling the truth!   K5
## 5   greg   m     0                      There is no way.   K7
## 6    sam   m     0                       I distrust you.   K8
## 7   greg   m     0 I'm hungry.  Let's eat.  You already?  K11

drop_row(DATA, "state", c("Comp"))

##        person sex adult                                 state code
## 1        greg   m     0               No it's not, it's dumb.   K2
## 2     teacher   m     1                    What should we do?   K3
## 3         sam   m     0                  You liar, it stinks!   K4
## 4        greg   m     0               I am telling the truth!   K5
## 5       sally   f     0                How can we be certain?   K6
## 6        greg   m     0                      There is no way.   K7
## 7         sam   m     0                       I distrust you.   K8
## 8       sally   f     0           What are you talking about?   K9
## 9  researcher   f     1         Shall we move on?  Good then.  K10
## 10       greg   m     0 I'm hungry.  Let's eat.  You already?  K11

drop_row(DATA, "state", c("I "))

##       person sex adult                                 state code
## 1        sam   m     0         Computer is fun. Not too fun.   K1
## 2       greg   m     0               No it's not, it's dumb.   K2
## 3    teacher   m     1                    What should we do?   K3
## 4        sam   m     0                  You liar, it stinks!   K4
## 5      sally   f     0                How can we be certain?   K6
## 6       greg   m     0                      There is no way.   K7
## 7      sally   f     0           What are you talking about?   K9
## 8 researcher   f     1         Shall we move on?  Good then.  K10
## 9       greg   m     0 I'm hungry.  Let's eat.  You already?  K11

drop_row(DATA, "state", c("you"), ignore.case = TRUE)

##       person sex adult                         state code
## 1        sam   m     0 Computer is fun. Not too fun.   K1
## 2       greg   m     0       No it's not, it's dumb.   K2
## 3    teacher   m     1            What should we do?   K3
## 4       greg   m     0       I am telling the truth!   K5
## 5      sally   f     0        How can we be certain?   K6
## 6       greg   m     0              There is no way.   K7
## 7 researcher   f     1 Shall we move on?  Good then.  K10

Stripping

Often it is useful to remove all non relevant symbols and case from a text (letters, spaces, and apostrophes are retained). The strip function accomplishes this. The char.keep argument allows the user to retain characters.

strip(DATA$state)

##  [1] "computer is fun not too fun"      "no it's not it's dumb"            "what should we do"                "you liar it stinks"              
##  [5] "i am telling the truth"           "how can we be certain"            "there is no way"                  "i distrust you"                  
##  [9] "what are you talking about"       "shall we move on good then"       "i'm hungry let's eat you already"

strip(DATA$state, apostrophe.remove = TRUE)

##  [1] "computer is fun not too fun"    "no its not its dumb"            "what should we do"              "you liar it stinks"             "i am telling the truth"        
##  [6] "how can we be certain"          "there is no way"                "i distrust you"                 "what are you talking about"     "shall we move on good then"    
## [11] "im hungry lets eat you already"

strip(DATA$state, char.keep = c("?", "."))

##  [1] "computer is fun. not too fun."       "no it's not it's dumb."              "what should we do?"                  "you liar it stinks"                 
##  [5] "i am telling the truth"              "how can we be certain?"              "there is no way."                    "i distrust you."                    
##  [9] "what are you talking about?"         "shall we move on? good then."        "i'm hungry. let's eat. you already?"

Subbing

Multiple Subs

gsub is a great tool but often the user wants to replace a vector of elements with another vector. mgsub allows for a vector of patterns and replacements. Note that the first argument of mgsub is the data, not the pattern as is standard with base R’s gsub. This allows mgsub to be used in a magrittr pipeline more easily. Also note that by default fixed = TRUE. This means the search pattern is not a regex per-se. This makes the replacement much faster when a regex search is not needed. mgsub also reorders the patterns to ensure patterns contained within patterns don’t over write the longer pattern. For example if the pattern c('i', 'it') is given the longer 'it' is replaced first (though order.pattern = FALSE can be used to negate this feature).

mgsub(DATA$state, c("it's", "I'm"), c("<<it is>>", "<<I am>>"))

##  [1] "Computer is fun. Not too fun."              "No <<it is>> not, <<it is>> dumb."          "What should we do?"                        
##  [4] "You liar, it stinks!"                       "I am telling the truth!"                    "How can we be certain?"                    
##  [7] "There is no way."                           "I distrust you."                            "What are you talking about?"               
## [10] "Shall we move on?  Good then."              "<<I am>> hungry.  Let's eat.  You already?"

mgsub(DATA$state, "[[:punct:]]", "<<PUNCT>>", fixed = FALSE)

##  [1] "Computer is fun<<PUNCT>> Not too fun<<PUNCT>>"                                 "No it<<PUNCT>>s not<<PUNCT>> it<<PUNCT>>s dumb<<PUNCT>>"                      
##  [3] "What should we do<<PUNCT>>"                                                    "You liar<<PUNCT>> it stinks<<PUNCT>>"                                         
##  [5] "I am telling the truth<<PUNCT>>"                                               "How can we be certain<<PUNCT>>"                                               
##  [7] "There is no way<<PUNCT>>"                                                      "I distrust you<<PUNCT>>"                                                      
##  [9] "What are you talking about<<PUNCT>>"                                           "Shall we move on<<PUNCT>>  Good then<<PUNCT>>"                                
## [11] "I<<PUNCT>>m hungry<<PUNCT>>  Let<<PUNCT>>s eat<<PUNCT>>  You already<<PUNCT>>"

mgsub(DATA$state, c("i", "it"), c("<<I>>", "[[IT]]"))

##  [1] "Computer <<I>>s fun. Not too fun."     "No [[IT]]'s not, [[IT]]'s dumb."       "What should we do?"                    "You l<<I>>ar, [[IT]] st<<I>>nks!"     
##  [5] "I am tell<<I>>ng the truth!"           "How can we be certa<<I>>n?"            "There <<I>>s no way."                  "I d<<I>>strust you."                  
##  [9] "What are you talk<<I>>ng about?"       "Shall we move on?  Good then."         "I'm hungry.  Let's eat.  You already?"

mgsub(DATA$state, c("i", "it"), c("<<I>>", "[[IT]]"), order.pattern = FALSE)

##  [1] "Computer <<I>>s fun. Not too fun."     "No <<I>>t's not, <<I>>t's dumb."       "What should we do?"                    "You l<<I>>ar, <<I>>t st<<I>>nks!"     
##  [5] "I am tell<<I>>ng the truth!"           "How can we be certa<<I>>n?"            "There <<I>>s no way."                  "I d<<I>>strust you."                  
##  [9] "What are you talk<<I>>ng about?"       "Shall we move on?  Good then."         "I'm hungry.  Let's eat.  You already?"

Safe Substitutions

The default behavior of mgsub is optimized for speed. This means that it is very fast at multiple substitutions and in most cases works efficiently. However, it is not what Mark Ewing describes as “safe” substitution. In his vignette for the mgsub package, Mark defines “safe” as:

  1. Longer matches are preferred over shorter matches for substitution first
  2. No placeholders are used so accidental string collisions don’t occur

Because safety is sometimes required, textclean::mgsub provides a safe argument using the mgsub package as the backend. In addition to the safe argument the mgsub_regex_safe function is available to make the usage more explicit. The safe mode comes at the cost of speed.

x <- "Dopazamine is a fake chemical"
pattern <- c("dopazamin", "do.*ne")
replacement <- c("freakout", "metazamine")

## Unsafe
mgsub(x, pattern, replacement, ignore.case=TRUE, fixed = FALSE)

## [1] "freakoute is a fake chemical"

## Safe
mgsub(x, pattern, replacement, ignore.case=TRUE, fixed = FALSE, safe = TRUE)

## [1] "metazamine is a fake chemical"

## Or alternatively
mgsub_regex_safe(x, pattern, replacement, ignore.case=TRUE)

## [1] "metazamine is a fake chemical"

x <- "hey, how are you?"
pattern <- c("hey", "how", "are", "you")
replacement <- c("how", "are", "you", "hey")

## Unsafe
mgsub(x, pattern,replacement)

## [1] "how, are you how?"

## Safe
mgsub_regex_safe(x, pattern,replacement)

## [1] "how, are you hey?"

Match, Extract, Operate, Replacement Subs

Again, gsub is a great tool but sometimes the user wants to match a pattern, extract that pattern, operate a function over that pattern, and then replace the original match. The fgsub function allows the user to perform this operation. It is a stripped down version of gsubfn from the gsubfn package. For more versatile needs please see the gsubfn package.

In this example the regex looks for words that contain a lower case letter followed by the same letter at least 2 more times. It then extracts these words, splits them appart into letters, reverses the string, pastes them back together, wraps them with double angle braces, and then puts them back at the original locations.

fgsub(
    x = c(NA, 'df dft sdf', 'sd fdggg sd dfhhh d', 'ddd'),
    pattern = "\\b\\w*([a-z])(\\1{2,})\\w*\\b",
    fun = function(x) {paste0('<<', paste(rev(strsplit(x, '')[[1]]), collapse =''), '>>')}
)

## [1] NA                            "df dft sdf"                  "sd <<gggdf>> sd <<hhhfd>> d" "<<ddd>>"

In this example we extract numbers, strip out non-digits, coerce them to numeric, cut them in half, round up to the closest integer, add the commas back, and replace back into the original locations.

fgsub(
    x = c(NA, 'I want 32 grapes', 'he wants 4 ice creams', 'they want 1,234,567 dollars'),
    pattern = "[\\d,]+",
    fun = function(x) {prettyNum(ceiling(as.numeric(gsub('[^0-9]', '', x))/2), big.mark = ',')}
)

## [1] NA                          "I want 16 grapes"          "he wants 2 ice creams"     "they want 617,284 dollars"

Stashing Character Pre-Sub

There are times the user may want to stash a set of characters before subbing out and then return the stashed characters. An example of this is when a researcher wants to remove punctuation but not emoticons. The subholder function provides tooling to stash the emoticons, allow a punctuation stripping, and then return the emoticons. First I’ll create some fake text data with emoticons, then stash the emoticons (using a unique text key to hold their place), then I’ll strip out the punctuation, and last put the stashed emoticons back.

(fake_dat <- paste(hash_emoticons[1:11, 1, with=FALSE][[1]], DATA$state))

##  [1] "#-) Computer is fun. Not too fun."          "%) No it's not, it's dumb."                 "%-) What should we do?"                    
##  [4] "',:-l You liar, it stinks!"                 "',:-| I am telling the truth!"              "*) How can we be certain?"                 
##  [7] "*-) There is no way."                       "*<|:-) I distrust you."                     "*\\0/* What are you talking about?"        
## [10] "0:) Shall we move on?  Good then."          "0:-) I'm hungry.  Let's eat.  You already?"

(m <- sub_holder(fake_dat, hash_emoticons[[1]]))

##  [1] "zzzplaceholderaazzz Computer is fun. Not too fun."         "zzzplaceholderbazzz No it's not, it's dumb."              
##  [3] "zzzplaceholdercazzz What should we do?"                    "zzzplaceholderdazzz You liar, it stinks!"                 
##  [5] "zzzplaceholdereazzz I am telling the truth!"               "zzzplaceholderfazzz How can we be certain?"               
##  [7] "zzzplaceholdergazzz There is no way."                      "zzzplaceholderhazzz I distrust you."                      
##  [9] "zzzplaceholderiazzz What are you talking about?"           "zzzplaceholderjazzz Shall we move on?  Good then."        
## [11] "zzzplaceholderkazzz I'm hungry.  Let's eat.  You already?"

(m_stripped <-strip(m$output))

##  [1] "zzzplaceholderaazzz computer is fun not too fun"      "zzzplaceholderbazzz no it's not it's dumb"            "zzzplaceholdercazzz what should we do"               
##  [4] "zzzplaceholderdazzz you liar it stinks"               "zzzplaceholdereazzz i am telling the truth"           "zzzplaceholderfazzz how can we be certain"           
##  [7] "zzzplaceholdergazzz there is no way"                  "zzzplaceholderhazzz i distrust you"                   "zzzplaceholderiazzz what are you talking about"      
## [10] "zzzplaceholderjazzz shall we move on good then"       "zzzplaceholderkazzz i'm hungry let's eat you already"

m$unhold(m_stripped)

##  [1] "#-) computer is fun not too fun"       "%) no it's not it's dumb"              "%-) what should we do"                 "',:-l you liar it stinks"             
##  [5] "',:-| i am telling the truth"          "*) how can we be certain"              "*-) there is no way"                   "*<|:-) i distrust you"                
##  [9] "*\\0/* what are you talking about"     "0:) shall we move on good then"        "0:-) i'm hungry let's eat you already"

Of course with clever regexes you can achieve the same thing:

ord_emos <- hash_emoticons[[1]][order(nchar(hash_emoticons[[1]]))]

## This step ensures that longer strings are matched first but can 
## fail in cases that use quantifiers.  These can appear short but in
## reality can match long strings and would be ordered last in the 
## replacement, meaning that the shorter regex took precedent.
emos <- paste(
    gsub('([().\\|[{}^$*+?])', '\\\\\\1', ord_emos),
    collapse = '|'
)

gsub(
    sprintf('(%s)(*SKIP)(*FAIL)|[^\'[:^punct:]]', emos), 
    '', 
    fake_dat, 
    perl = TRUE
)

##  [1] "#-) Computer is fun Not too fun"         "%) No it's not it's dumb"                "%-) What should we do"                   "',:-l You liar it stinks"               
##  [5] "',:-| I am telling the truth"            "*) How can we be certain"                "*-) There is no way"                     "*<|:-) I distrust you"                  
##  [9] "*\\0/* What are you talking about"       "0:) Shall we move on  Good then"         "0:-) I'm hungry  Let's eat  You already"

The pure regex approach can be a bit trickier (less safe) and more difficult to reason about. It also relies on the less general (*SKIP)(*FAIL) backtracking control verbs that are only implemented in a few applications like Perl & PCRE. Still, it’s nice to see an alternative regex approach for comparison.

Replacement

textclean contains tools to replace substrings within text with other substrings that may be easier to analyze. This section outlines the uses of these tools.

Contractions

Some analysis techniques require contractions to be replaced with their multi-word forms (e.g., “I’ll” -> “I will”). replace_contrction provides this functionality.

x <- c("Mr. Jones isn't going.",  
    "Check it out what's going on.",
    "He's here but didn't go.",
    "the robot at t.s. wasn't nice", 
    "he'd like it if i'd go away")

replace_contraction(x)

## [1] "Mr. Jones is not going."             "Check it out what is going on."      "he is here but did not go."          "the robot at t.s. was not nice"     
## [5] "he would like it if I would go away"

Dates

x <- c(NA, '11-16-1980 and 11/16/1980', "and 2017-02-08 but then there's 2/8/2017 too")

replace_date(x)

## [1] NA                                                                                                             
## [2] "November sixteenth, one thousand nine hundred eighty and November sixteenth, one thousand nine hundred eighty"
## [3] "and February eighth, two thousand seventeen but then there's February eighth, two thousand seventeen too"

replace_date(x, replacement = '<<DATE>>')

## [1] NA                                           "<<DATE>> and <<DATE>>"                      "and <<DATE>> but then there's <<DATE>> too"

Emojis

Similar to emoticons, emoji tokens may be ignored if they are not in a computer readable form. replace_emoji replaces emojis with their word forms equivalents.

x <- read.delim(system.file("docs/r_tweets.txt", package = "textclean"), 
    stringsAsFactors = FALSE)[[3]][1:3]

x

## [1] "Hello, helpful! 📦â\235ŒðŸ‘¾ debugme: Easy & efficient debugging for R packages 👨ðŸ\217»â\200\215💻 @GaborCsardi https://buff.ly/2nNKcps  #rstats"
## [2] "Did you ever get bored and accidentally create a 📦 to make #Rstats speak on a Mac? I have -> "                                            
## [3] "A gift to my fellow nfl loving #rstats folks this package is 💥💥"

replace_emoji(x)

## [1] "Hello, helpful! package cross mark alien monster debugme: Easy & efficient debugging for R packages man <f0><9f><8f><bb><e2><80><8d> laptop computer @GaborCsardi https://buff.ly/2nNKcps #rstats"
## [2] "Did you ever get bored and accidentally create a package to make #Rstats speak on a Mac? I have -> "                                                                                              
## [3] "A gift to my fellow nfl loving #rstats folks this package is collision collision "

Emoticons

Some analysis techniques examine words, meaning emoticons may be ignored. replace_emoticon replaces emoticons with their word forms equivalents.

x <- c(
    "text from: http://www.webopedia.com/quick_ref/textmessageabbreviations_02.asp",
    "... understanding what different characters used in smiley faces mean:",
    "The close bracket represents a sideways smile  )",
    "Add in the colon and you have sideways eyes   :",
    "Put them together to make a smiley face  :)",
    "Use the dash -  to add a nose   :-)",
    "Change the colon to a semi-colon ; and you have a winking face ;)  with a nose  ;-)",
    "Put a zero 0 (halo) on top and now you have a winking, smiling angel 0;) with a nose 0;-)",
    "Use the letter 8 in place of the colon for sunglasses 8-)",
    "Use the open bracket ( to turn the smile into a frown  :-("
)

replace_emoticon(x)

##  [1] "text from: http://www.webopedia.com/quick_ref/textmessageabbreviations_02.asp"              
##  [2] "... understanding what different characters used in smiley faces mean:"                     
##  [3] "The close bracket represents a sideways smile )"                                            
##  [4] "Add in the colon and you have sideways eyes :"                                              
##  [5] "Put them together to make a smiley face :)"                                                 
##  [6] "Use the dash - to add a nose :-)"                                                           
##  [7] "Change the colon to a semi-colon ; and you have a winking face ;) with a nose ;-)"          
##  [8] "Put a zero 0 (halo) on top and now you have a winking, smiling angel 0;) with a nose 0 wink"
##  [9] "Use the letter 8 in place of the colon for sunglasses smiley"                               
## [10] "Use the open bracket ( to turn the smile into a frown :-("

Grades

In analysis where grades may be discussed it may be useful to convert the letter forms into word meanings. The replace_grade can be used for this task.

text <- c(
    "I give an A+",
    "He deserves an F",
    "It's C+ work",
    "A poor example deserves a C!"
)
replace_grade(text)

## [1] "I give an very excellent excellent" "He deserves an very very bad"       "It's slightly above average work"   "A poor example deserves a average!"

HTML

Sometimes HTML tags and symbols stick around like pesky gnats. The replace_html function makes light work of them.

x <- c(
    "<bold>Random</bold> text with symbols: &nbsp; &lt; &gt; &amp; &quot; &apos;",
    "<p>More text</p> &cent; &pound; &yen; &euro; &copy; &reg;"
)

replace_html(x)

## [1] " Random  text with symbols:   < > & \" '"  " More text  cents pounds yen euro (c) (r)"

Incomplete Sentences

Sometimes an incomplete sentence is denoted with multiple end marks or no punctuation at all. replace_incomplete standardizes these sentences with a pipe (|) endmark (or one of the user’s choice).

x <- c("the...",  "I.?", "you.", "threw..", "we?")
replace_incomplete(x)

## [1] "the|"   "I|"     "you."   "threw|" "we?"

replace_incomplete(x, '...')

## [1] "the..."   "I..."     "you."     "threw..." "we?"

Internet Slang

Often in informal written and spoken communication (e.g., Twitter, texting, Facebook, etc.) people use Internet slang, shorter abbreviations and acronyms, to replace longer word sequences. These replacements may obfuscate the meaning when the machine attempts to analyze the text. The replace_internet_slang function replaces the slang with longer word equivalents that are more easily analyzed by machines.

x <- c(
    "TGIF and a big w00t!  The weekend is GR8!",
    "NP it was my pleasure: EOM",
    'w8...this n00b needs me to say LMGTFY...lol.',
    NA
)

replace_internet_slang(x)

## [1] "thank god, it's friday and a big hooray!  The weekend is great!"                    "no problem it was my pleasure: end of message"                                     
## [3] "wait...this newbie needs me to say let me google that for you...laughing out loud." NA

Kerning

In typography kerning is the adjustment of spacing. Often, in informal writing, adding manual spaces (a form of kerning) coupled with all capital letters is used for emphasis (e.g., "She's the B O M B!"). These word forms would look like noise in most analysis and would likely be removed as a stopword when in fact they likely carry a great deal of meaning. The replace_kern function looks for 3 or more consecutive capital letters with spaces in between and removes the spaces.

x <- c(
    "Welcome to A I: the best W O R L D!",
    "Hi I R is the B O M B for sure: we A G R E E indeed.",
    "A sort C A T indeed!",
    NA
)

replace_kern(x)

## [1] "Welcome to A I: the best WORLD!"               "Hi I R is the BOMB for sure: we AGREE indeed." "A sort CAT indeed!"                           
## [4] NA

Money

There are times one may want to replace money mentions with text or normalized versions. The replace_money function is designed to complete this task.

x <- c(NA, '$3.16 into "three dollars, sixteen cents"', "-$20,333.18 too", 'fff')
 
replace_money(x)

## [1] NA                                                                                   "three dollars and sixteen cents into \"three dollars, sixteen cents\""             
## [3] "negative twenty thousand three hundred thirty-three dollars and eighteen cents too" "fff"

replace_money(x, replacement = '<<MONEY>>')

## [1] NA                                                "<<MONEY>> into \"three dollars, sixteen cents\"" "<<MONEY>> too"                                  
## [4] "fff"

Names

Often one will want to standardize text by removing first and last names. The replace_names function quickly removes/replaces common first and last names. This can be made more targeted by feeding a vector of names extracted via a named entity extractor.

x <- c(
    "Mary Smith is not here",
     "Karen is not a nice person",
     "Will will do it",
    NA
)
 
replace_names(x)

## [1] "  is not here"         " is not a nice person" " will do it"           NA

replace_names(x, replacement = '<<NAME>>')

## [1] "<<NAME>> <<NAME>> is not here" "<<NAME>> is not a nice person" "<<NAME>> will do it"           NA

Non-ASCII Characters

R can choke on non-ASCII characters. They can be re-encoded but the new encoding may lack interpretability (e.g., ¢ may be converted to \xA2 which is not easily understood or likely to be matched in a hash look up). replace_non_ascii attempts to replace common non-ASCII characters with a text representation (e.g., ¢ becomes “cent”) Non recognized non-ASCII characters are simply removed (unless remove.nonconverted = FALSE).

x <- c(
    "Hello World", "6 Ekstr\xf8m", "J\xf6reskog", "bi\xdfchen Z\xfcrcher",
    'This is a \xA9 but not a \xAE', '6 \xF7 2 = 3', 'fractions \xBC, \xBD, \xBE',
    'cows go \xB5', '30\xA2'
)
Encoding(x) <- "latin1"
x

## [1] "Hello World"             "6 Ekstrøm"               "Jöreskog"                "bißchen Zürcher"         "This is a © but not a ®" "6 ÷ 2 = 3"              
## [7] "fractions ¼, ½, ¾"       "cows go µ"               "30¢"

replace_non_ascii(x)

## [1] "Hello World"                 "6 Ekstrom"                   "Joreskog"                    "bisschen Zurcher"            "This is a (C) but not a (R)"
## [6] "6 / 2 = 3"                   "fractions 1/4, 1/2, 3/4"     "cows go mu"                  "30 cent"

replace_non_ascii(x, remove.nonconverted = FALSE)

## [1] "Hello World"                 "6 Ekstrom"                   "Joreskog"                    "bisschen Zurcher"            "This is a (C) but not a (R)"
## [6] "6 / 2 = 3"                   "fractions  1/4,  1/2,  3/4"  "cows go <c2> mu "            "30<c2> cent "

Numbers

Some analysis requires numbers to be converted to text form. replace_number attempts to perform this task. replace_number handles comma separated numbers as well.

x <- c("I like 346,457 ice cream cones.", "They are 99 percent good")
y <- c("I like 346457 ice cream cones.", "They are 99 percent good")
replace_number(x)

## [1] "I like three hundred forty-six thousand four hundred fifty-seven ice cream cones." "They are ninety-nine percent good"

replace_number(y)

## [1] "I like three hundred forty-six thousand four hundred fifty-seven ice cream cones." "They are ninety-nine percent good"

replace_number(x, num.paste = TRUE)

## [1] "I like threehundredforty-sixthousandfourhundredfifty-seven ice cream cones." "They are ninety-nine percent good"

replace_number(x, remove=TRUE)

## [1] "I like  ice cream cones." "They are  percent good"

Ratings

Some texts use ratings to convey satisfaction with a particular object. The replace_rating function replaces the more abstract rating with word equivalents.

x <- c("This place receives 5 stars for their APPETIZERS!!!",
     "Four stars for the food & the guy in the blue shirt for his great vibe!",
     "10 out of 10 for both the movie and trilogy.",
     "* Both the Hot & Sour & the Egg Flower Soups were absolutely 5 Stars!",
     "For service, I give them no stars.", "This place deserves no stars.",
     "10 out of 10 stars.",
     "My rating: just 3 out of 10.",
     "If there were zero stars I would give it zero stars.",
     "Rating: 1 out of 10.",
     "I gave it 5 stars because of the sound quality.",
     "If it were possible to give them 0/10, they'd have it."
)

replace_rating(x)

##  [1] "This place receives best for their APPETIZERS!!!"                     " better for the food & the guy in the blue shirt for his great vibe!"
##  [3] " best for both the movie and trilogy."                                "* Both the Hot & Sour & the Egg Flower Soups were absolutely best !" 
##  [5] "For service, I give them terrible ."                                  "This place deserves terrible ."                                      
##  [7] " best stars."                                                         "My rating: just below average ."                                     
##  [9] "If there were terrible I would give it terrible ."                    "Rating: extremely below average ."                                   
## [11] "I gave it best because of the sound quality."                         "If it were possible to give them terrible , they'd have it."

Ordinal Numbers

Again, some analysis requires numbers, including ordinal numbers, to be converted to text form. replace_ordinal attempts to perform this task for ordinal number 1-100 (i.e., 1st - 100th).

x <- c(
    "I like the 1st one not the 22nd one.", 
    "For the 100th time stop those 3 things!",
    "I like the 3rd 1 not the 12th 1."
)
replace_ordinal(x)

## [1] "I like the  first  one not the  twenty second  one." "For the  hundredth  time stop those 3 things!"       "I like the  third  1 not the  twelfth  1."

replace_ordinal(x, TRUE)

## [1] "I like the  first  one not the  twentysecond  one." "For the  hundredth  time stop those 3 things!"      "I like the  third  1 not the  twelfth  1."

replace_ordinal(x, remove = TRUE)

## [1] "I like the    one not the    one."    "For the    time stop those 3 things!" "I like the    1 not the    1."

replace_number(replace_ordinal(x))

## [1] "I like the  first  one not the  twenty second  one." "For the  hundredth  time stop those three things!"   "I like the  third  one not the  twelfth  one."

Symbols

Text often contains short-hand representations of words/phrases. These symbols may contain analyzable information but in the symbolic form they cannot be parsed. The replace_symbol function attempts to replace the symbols c("$", "%", "#", "@", "& "w/") with their word equivalents.

x <- c("I am @ Jon's & Jim's w/ Marry", 
    "I owe $41 for food", 
    "two is 10% of a #"
)
replace_symbol(x)

## [1] "I am  at  Jon's  and  Jim's  with  Marry" "I owe  dollar 41 for food"                "two is 10 percent  of a  number "

Time Stamps

Often times the researcher will want to replace times with a text or normalized version. The replace_time function works well for this task. Notice that replacement takes a function that can operate on the extracted pattern.

x <- c(
    NA, '12:47 to "twelve forty-seven" and also 8:35:02',
    'what about 14:24.5', 'And then 99:99:99?'
)

## Textual: Word version
replace_time(x)

## [1] NA                                                                                       
## [2] "twelve forty-seven to \"twelve forty-seven\" and also eight thirty-five and two seconds"
## [3] "what about fourteen twenty-four and five seconds"                                       
## [4] "And then 99:99:99?"

## Normalization: <<TIME>>
replace_time(x, replacement = '<<TIME>>')

## [1] NA                                                     "<<TIME>> to \"twelve forty-seven\" and also <<TIME>>" "what about <<TIME>>"                                 
## [4] "And then 99:99:99?"

## Normalization: hh:mm:ss or hh:mm
replace_time(x, replacement = function(y){
        z <- unlist(strsplit(y, '[:.]'))
        z[1] <- 'hh'
        z[2] <- 'mm'
        if(!is.na(z[3])) z[3] <- 'ss'
        textclean::glue_collapse(z, ':')
    }
)

## [1] NA                                                  "hh:mm to \"twelve forty-seven\" and also hh:mm:ss" "what about hh:mm:ss"                              
## [4] "And then 99:99:99?"

## Textual: Word version (forced seconds)
replace_time(x, replacement = function(y){
        z <- replace_number(unlist(strsplit(y, '[:.]')))
        z[3] <- paste0('and ', ifelse(is.na(z[3]), '0', z[3]), ' seconds')
        paste(z, collapse = ' ')
    }
)

## [1] NA                                                                                                     
## [2] "twelve forty-seven and 0 seconds to \"twelve forty-seven\" and also eight thirty-five and two seconds"
## [3] "what about fourteen twenty-four and five seconds"                                                     
## [4] "And then 99:99:99?"

Tokens

Often an analysis requires converting tokens of a certain type into a common form or removing them entirely. The mgsub function can do this task, however it is regex based and time consuming when the number of tokens to replace is large. For example, one may want to replace all proper nouns that are first names with the word name. The replace_token provides a fast way to replace a group of tokens with a single replacement.

This example shows a use case for replace_token:

## Set Up the Tokens to Replace
nms <- gsub("(^.)(.*)", "\\U\\1\\L\\2", lexicon::common_names, perl = TRUE)
head(nms)

## [1] "Mary"      "Patricia"  "Linda"     "Barbara"   "Elizabeth" "Jennifer"

## Set Up the Data
x <- textshape::split_portion(sample(c(sample(lexicon::grady_augmented, 20000), 
    sample(nms, 10000, TRUE))), n.words = 12)
x$text.var <- paste0(x$text.var, sample(c('.', '!', '?'), length(x$text.var), TRUE))
head(x$text.var)

## [1] "penitent turbary Reita fruitages Larissa Wendi Francis Jimmy unmelted Stacey Dolly marinaras!"                   
## [2] "Darlena Bernie slathered Madalene Everette subletting amalgam vang Alysa detractor Waldo Alberto."               
## [3] "souring extensor pugilist specificity Marchelle spirit Monet immovably sidelined Idella bots Lee."               
## [4] "wager estimated Xiao malorie dynamic optimist Rosena Jocelyn interviewing bromism overexhausting ladyloves."     
## [5] "wedded spiraeas partake coxswained Chia warnings istvan Mona jemidars Gena idolatries brailed?"                  
## [6] "outhowls ballet epitaxy mentality compunction escheating unkennelled Candyce espresso baleen Katelyn disconnect."

head(replace_tokens(x$text.var, nms, 'NAME'))

## [1] "penitent turbary NAME fruitages NAME NAME NAME NAME unmelted NAME NAME marinaras!"                         
## [2] "NAME NAME slathered NAME NAME subletting amalgam vang NAME detractor NAME NAME."                           
## [3] "souring extensor pugilist specificity NAME spirit NAME immovably sidelined NAME bots NAME."                
## [4] "wager estimated NAME malorie dynamic optimist NAME NAME interviewing bromism overexhausting ladyloves."    
## [5] "wedded spiraeas partake coxswained NAME warnings istvan NAME jemidars NAME idolatries brailed?"            
## [6] "outhowls ballet epitaxy mentality compunction escheating unkennelled NAME espresso baleen NAME disconnect."

This demonstration shows how fast token replacement can be with replace_token:

## mgsub
tic <- Sys.time()
head(mgsub(x$text.var, nms, "NAME"))

## [1] "penitent turbary NAME fruitages NAME NAME NAME NAME unmelted NAME NAME marinaras!"                         
## [2] "NAME NAME slathered NAME NAME subletting amalgam vang NAME detractor NAME NAME."                           
## [3] "souring extensor pugilist specificity NAME spirit NAME immovably sidelined NAME bots NAME."                
## [4] "wager estimated NAME malorie dynamic optimist NAME NAME interviewing bromism overexhausting ladyloves."    
## [5] "wedded spiraeas partake coxswained NAME warnings istvan NAME jemidars NAME idolatries brailed?"            
## [6] "outhowls ballet epitaxy mentality compunction escheating unkennelled NAME espresso baleen NAME disconnect."

(toc <- Sys.time() - tic)

## Time difference of 4.642003 secs

## replace_tokens
tic <- Sys.time()
head(replace_tokens(x$text.var, nms, "NAME"))

## [1] "penitent turbary NAME fruitages NAME NAME NAME NAME unmelted NAME NAME marinaras!"                         
## [2] "NAME NAME slathered NAME NAME subletting amalgam vang NAME detractor NAME NAME."                           
## [3] "souring extensor pugilist specificity NAME spirit NAME immovably sidelined NAME bots NAME."                
## [4] "wager estimated NAME malorie dynamic optimist NAME NAME interviewing bromism overexhausting ladyloves."    
## [5] "wedded spiraeas partake coxswained NAME warnings istvan NAME jemidars NAME idolatries brailed?"            
## [6] "outhowls ballet epitaxy mentality compunction escheating unkennelled NAME espresso baleen NAME disconnect."

(toc <- Sys.time() - tic)

## Time difference of 0.04703093 secs

Now let’s amp it up with 20x more text data. That’s 50,000 rows of text (600,140 words) and 5,493 replacement tokens in 1.2 seconds.

tic <- Sys.time()
out <- replace_tokens(rep(x$text.var, 20), nms, "NAME")
(toc <- Sys.time() - tic)

## Time difference of 1.237006 secs

White Space

Regex white space characters (e.g., \n, \t, \r) matched by \s may impede analysis. These can be replaced with a single space " " via the replace_white function.

x <- "I go \r
    to   the \tnext line"
x

## [1] "I go \r\n    to   the \tnext line"

cat(x)

## I go 
##     to   the     next line

replace_white(x)

## [1] "I go to the next line"

Word Elongation

In informal writing people may use a form of text embellishment to emphasize or alter word meanings called elongation (a.k.a. “word lengthening”). For example, the use of “Whyyyyy” conveys frustration. Other times the usage may be to be more sexy (e.g., “Heyyyy there”). Other times it may be used for emphasis (e.g., “This is so gooood”).

The replace_word_elongation function replaces these un-normalized forms with the most likely normalized form. The impart.meaning argument can replace a short list of known elongations with semantic replacements.

x <- c('look', 'noooooo!', 'real coooool!', "it's sooo goooood", 'fsdfds',
    'fdddf', 'as', "aaaahahahahaha", "aabbccxccbbaa", 'I said heyyy!',
    "I'm liiiike whyyyyy me?", "Wwwhhatttt!", NA)

replace_word_elongation(x)

##  [1] "look"             "no!"              "real cool!"       "it's so good"     "fsdfds"           "fdf"              "as"               "ahahahahaha"      "aabbccxccbbaa"   
## [10] "I said hey!"      "I'm like why me?" "what!"            NA

replace_word_elongation(x, impart.meaning = TRUE)

##  [1] "look"                     "sarcastic!"               "real cool!"               "it's so good"             "fsdfds"                   "fdf"                     
##  [7] "as"                       "ahahahahaha"              "aabbccxccbbaa"            "I said hey sexy!"         "I'm like frustration me?" "what!"                   
## [13] NA