--- title: "How to use CountVectorizer in R ?" author: "Manish Saraswat" date: "`r Sys.Date()`" output: rmarkdown::html_vignette vignette: > %\VignetteIndexEntry{Guide to CountVectorizer} %\VignetteEngine{knitr::rmarkdown} %\VignetteEncoding{UTF-8} --- ```{r setup, include = FALSE} knitr::opts_chunk$set( collapse = TRUE, comment = "#>" ) ``` In this tutorial, we'll look at how to create bag of words model (token occurence count matrix) in R in two simple steps with superml. Superml borrows speed gains using parallel computation and optimised functions from data.table R package. Bag of words model is often use to analyse text pattern using word occurences in a given text. ## Install You can install latest cran version using (recommended): ```{r, eval=FALSE} install.packages("superml") ``` You can install the developmemt version directly from github using: ```{r, eval=FALSE} devtools::install_github("saraswatmks/superml") ``` ## Caveats on superml installation For machine learning, superml is based on the existing R packages. Hence, while installing the package, we don't install all the dependencies. However, while training any model, superml will automatically install the package if its not found. Still, if you want to install all dependencies at once, you can simply do: ```{r, eval=FALSE} install.packages("superml", dependencies=TRUE) ``` ## Sample Data First, we'll create a sample data. Feel free to run it alongside in your laptop and check the computation. ```{r} library(superml) # should be a vector of texts sents <- c('i am going home and home', 'where are you going.? //// ', 'how does it work', 'transform your work and go work again', 'home is where you go from to work') # generate more sentences n <- 10 sents <- rep(sents, n) length(sents) ``` For sample, we've generated 50 documents. Let's create the features now. For ease, superml uses the similar API layout as python scikit-learn. ```{r} # initialise the class cfv <- CountVectorizer$new(max_features = 10, remove_stopwords = FALSE) # generate the matrix cf_mat <- cfv$fit_transform(sents) head(cf_mat, 3) ``` **Few observations:** * `remove_stopwords = FALSE` defaults to `TRUE`. We set it to `FALSE` since most of the words in our dummy `sents` are stopwords. * `max_features = 10` select the top 10 features (tokens) based on frequency. Now, let's generate the matrix using its `ngram_range` features. ```{r} # initialise the class cfv <- CountVectorizer$new(max_features = 10, remove_stopwords = FALSE, ngram_range = c(1, 3)) # generate the matrix cf_mat <- cfv$fit_transform(sents) head(cf_mat, 3) ``` **Few observations:** * `ngram_range = c(1,3)` set the lower and higher range respectively of the resulting ngram tokens. ## Usage for a Machine Learning Model In order to use Count Vectorizer as an input for a machine learning model, sometimes it gets confusing as to which method `fit_transform`, `fit`, `transform` should be used to generate features for the given data. Here's a way to do: ```{r, warning=FALSE} library(data.table) library(superml) # use sents from above sents <- c('i am going home and home', 'where are you going.? //// ', 'how does it work', 'transform your work and go work again', 'home is where you go from to work', 'how does it work') # create dummy data train <- data.table(text = sents, target = rep(c(0,1), 3)) test <- data.table(text = sample(sents), target = rep(c(0,1), 3)) ``` Let's see how the data looks like: ```{r} head(train, 3) ``` ```{r} head(test, 3) ``` Now, we generate features for train-test data: ```{r} # initialise the class cfv <- CountVectorizer$new(max_features = 12, remove_stopwords = FALSE, ngram_range = c(1,3)) # we fit on train data cfv$fit(train$text) train_cf_features <- cfv$transform(train$text) test_cf_features <- cfv$transform(test$text) dim(train_cf_features) dim(test_cf_features) ``` We generate 12 features for each of the given data. Let's see how they look: ```{r} head(train_cf_features, 3) ``` ```{r} head(test_cf_features, 3) ``` Finally, to train a machine learning model on this, you can simply do: ```{r} # ensure the input to classifier is a data.table or data.frame object x_train <- data.table(cbind(train_cf_features, target = train$target)) x_test <- data.table(test_cf_features) xgb <- RFTrainer$new(n_estimators = 10) xgb$fit(x_train, "target") predictions <- xgb$predict(x_test) predictions ``` ## Summary In this tutorial, we discussed how to use superml's countvectorizer (also known as bag of words model) to create word counts matrix and train a machine learning model on it.