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kgrams

Project Status: Active – The project has reached a stable, usable state and is being actively developed. R-CMD-check Codecov test coverage CRAN status R-universe status Website Tweet

kgrams provides tools for training and evaluating k-gram language models, including several probability smoothing methods, perplexity computations, random text generation and more. It is based on an C++ back-end which makes kgrams fast, coupled with an accessible R API which aims at streamlining the process of model building, and can be suitable for small- and medium-sized NLP experiments, baseline model building, and for pedagogical purposes.

For beginners

If you have no idea about what k-gram models are and didn’t get here by accident, you can check out my hands-on tutorial post on k-gram language models using R at DataScience+.

Installation

Released version

You can install the latest release of kgrams from CRAN with:

install.packages("kgrams")

Development version

You can install the development version from my R-universe with:

install.packages("kgrams", repos = "https://vgherard.r-universe.dev/")

Example

This example shows how to train a modified Kneser-Ney 4-gram model on Shakespeare’s play “Much Ado About Nothing” using kgrams.

library(kgrams)
# Get k-gram frequency counts from text, for k = 1:4
freqs <- kgram_freqs(kgrams::much_ado, N = 4)
# Build modified Kneser-Ney 4-gram model, with discount parameters D1, D2, D3.
mkn <- language_model(freqs, smoother = "mkn", D1 = 0.25, D2 = 0.5, D3 = 0.75)

We can now use this language_model to compute sentence and word continuation probabilities:

# Compute sentence probabilities
probability(c("did he break out into tears ?",
              "we are predicting sentence probabilities ."
              ), 
            model = mkn
            )
#> [1] 2.466856e-04 1.184963e-20
# Compute word continuation probabilities
probability(c("tears", "pieces") %|% "did he break out into", model = mkn)
#> [1] 9.389238e-01 3.834498e-07

Here are some sentences sampled from the language model’s distribution at temperatures t = c(1, 0.1, 10):

# Sample sentences from the language model at different temperatures
set.seed(840)
sample_sentences(model = mkn, n = 3, max_length = 10, t = 1)
#> [1] "i have studied eight or nine truly by your office [...] (truncated output)"
#> [2] "ere you go : <EOS>"                                                        
#> [3] "don pedro welcome signior : <EOS>"
sample_sentences(model = mkn, n = 3, max_length = 10, t = 0.1)
#> [1] "i will not be sworn but love may transform me [...] (truncated output)" 
#> [2] "i will not fail . <EOS>"                                                
#> [3] "i will go to benedick and counsel him to fight [...] (truncated output)"
sample_sentences(model = mkn, n = 3, max_length = 10, t = 10)
#> [1] "july cham's incite start ancientry effect torture tore pains endings [...] (truncated output)"   
#> [2] "lastly gallants happiness publish margaret what by spots commodity wake [...] (truncated output)"
#> [3] "born all's 'fool' nest praise hurt messina build afar dancing [...] (truncated output)"

Getting Help

For further help, you can consult the reference page of the kgrams website or open an issue on the GitHub repository of kgrams. A vignette is available on the website, illustrating the process of building language models in-depth.