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LDAvis Show Case on R-Bloggers

LDAvis Show Case on R-Bloggers Text mining is a new challenge for machine wandering practitioners. The increased interest in the text mining is caused by an augmentation of internet users and by rapid growth of the internet data which is said that in 80% is a text data . Extracting information from articles, news, posts and comments have became a desirable skill but what is even more needful are tools for text mining models diagnostics and visualizations. Such visualizations enable to better understand the insight from a model and provides an easy interface for presenting your research results to greater audience. In this post I present the Latent Dirichlet Allocation text mining model for text classification into topics and a great LDAvis package for interactive visualizations of topic models. All this on R-Bloggers posts!

LDAvis is not my package. It is created by cpsievert and this post’s code for LDAvis-preparations is mostly based on his LDAvis tutorial: A topic model for movie reviews

LDA overview and text preparation

From Wikipedia

In natural language processing, latent Dirichlet allocation (LDA) is a generative statistical model that allows sets of observations to be explained by unobserved groups that explain why some parts of the data are similar. For example, if observations are words collected into documents, it posits that each document is a mixture of a small number of topics and that each word’s creation is attributable to one of the document’s topics.

For this post I have used articles from R-Bloggers . They can be downloaded from this repository . The data harvesting process is explained at the end of this post.

library(RSQLite) db.conn <-    dbConnect(     dbDriver("SQLite"),     "r-bloggers.db" ) posts <- dbGetQuery(db.conn,             "SELECT text from posts") dbDisconnect(db.conn)

Normally I would use LDA() function from topicmodels package to fit LDA model because the input can be of class DocumentTermMatrix which is an object from tm package. DocumentTermMatrix object is very convinient for working with text data ( check this Norbert Ryciak’s post ) because there exists tm_map function which can be applied to all documents for stop words removal, lowering capital letters and removal of words that did not occur in x % of documents. I haven’t seen LDAvis examples for models generated with topicsmodel package so we will use traditional approach to text processing. The stemming and stopwords removal was perfored during the data collection, which is described at the end of the post.

## the following fragment of code in this section ## is motivated by ## http://cpsievert.github.io/LDAvis/reviews/reviews.html # tokenize on space and output as a list: doc.list <- strsplit(posts[, 1], "[[:space:]]+") # compute the table of terms: term.table <- table(unlist(doc.list)) term.table <- sort(term.table, decreasing = TRUE) # remove terms that occur fewer than 5 times: term.table <- term.table[term.table > 5] vocab <- names(term.table)

The lda.collapsed.gibbs.sampler() function from tm package has uncomfortable input format (regarding to LDA() from topicmodels package) so I basically used cpsievert snippets

# now put the documents into the format required by the lda package: get.terms <- function(x) {   index <- match(x, vocab)   index <- index[!is.na(index)]   rbind(as.integer(index - 1), as.integer(rep(1, length(index)))) } documents <- lapply(doc.list, get.terms)  # Compute some statistics related to the data set: D <- length(documents)  # number of documents (3740) W <- length(vocab)  # number of terms in the vocab (18,536) doc.length <- sapply(documents,                       function(x) sum(x[2, ]))   # number of tokens per document [312, 288, 170, 436, 291, ...] N <- sum(doc.length)  # total number of tokens in the data (546,827) term.frequency <- as.integer(term.table)   # frequencies of terms in the corpus [8939, 5544, 2411, 2410, 2143, ...]

Fitting the model: from tm package documentation

… [this function] takes sparsely represented input documents, perform inference, and return point estimates of the latent parameters using the state at the last iteration of Gibbs sampling.

# MCMC and model tuning parameters: K <- 20 G <- 5000 alpha <- 0.02 eta <- 0.02  # Fit the model: library(lda) set.seed(456) t1 <- Sys.time() fit <- lda.collapsed.gibbs.sampler(   documents = documents, K = K,    vocab = vocab, num.iterations = G,    alpha = alpha, eta = eta,    initial = NULL, burnin = 0,   compute.log.likelihood = TRUE ) t2 <- Sys.time() t2 - t1  # about 7 seconds on my laptop  library(archivist) saveToRepo(fit,            repoDir = "../Museum")

The computations took very long, so in case you would like to get model faster, I have archived my model on GitHub with the help of archivist package. You can easily load this model to R with

archivist::aread('MarcinKosinski/Museum/fa93abf0ff93a7f6f3f0c42b7935ad4d') -> fit

LDAVis use case

If you google out properly you’ll wind out that LDAvis description is

Tools to create an interactive web-based visualization of a topic model that has been fit to a corpus of text data using Latent Dirichlet Allocation (LDA). Given the estimated parameters of the topic model, it computes various summary statistics as input to an interactive visualization built with D3.js that is accessed via a browser. The goal is to help users interpret the topics in their LDA topic model.

Detailed vignette about LDAvis input and output can be found here .

To visualize the result using LDAvis, we’ll need estimates of the document-topic distributions, which we denote by the DxK matrix theta, and the set of topic-term distributions, which we denote by the K×W matrix phi.

theta <- t(apply(fit$document_sums + alpha,                  2,                  function(x) x/sum(x))) phi <- t(apply(t(fit$topics) + eta,                2,                function(x) x/sum(x)))

library(LDAvis) # create the JSON object to feed the visualization: json <- createJSON(   phi = phi,    theta = theta,    doc.length = doc.length,    vocab = vocab,    term.frequency = term.frequency ) serVis(json, out.dir = 'vis',         open.browser = FALSE)

The result is published under this link http://r-addict.com/r-bloggers-harvesting/ where you can check Intertopic Distance Map (via multidimensional scaling) and top N relevant terms for a topic.

Data Harvesting

Below is the code I have used for R-Bloggers web-scraping. At start I have extracted all links to posts from first 100 main pages of R-Bloggers. Then I have created an SQLite database with empty table called posts . This table has been used to store information like: post title, post link, post author, date of publication and the whole post text. For the text I have extracted only words (with stringi package) that have length greater than 1 and applied tolower function to get rid of capital letters. Stop words removal was done thanks to tm::removeWords() . For stemming I have used RWeka::LovinsStemmer . I did not perform full lemmatization as I have found it troubling in R (couldn’t install this and this took too long).

library(rvest) library(pbapply) pbsapply(1:100, function(i){   read_html(paste0('http://www.r-bloggers.com/page/', i)) %>%   html_nodes('h2 a') %>%   html_attr('href') %>%   grep('r-bloggers', x = ., value = TRUE) }) %>%    as.vector() %>%   unique -> links   # create connection library(RSQLite) db.conn <-    dbConnect(     dbDriver("SQLite"),     "r-bloggers.db" ) # create empty table for posts posts <-    data.frame(link = "",              title = "",              # shares = "",              text = "",              date = "",              author = "") dbWriteTable(   db.conn,   name = "posts",   posts,   overwrite = TRUE,   row.names = FALSE )   # function for info extraction library(stringi) library(tm) library(RWeka) postInfo <- function(link, conn) {   post <- read_html(link)   title <- html_nodes(post, 'h1') %>%     html_text() %>%     .[1] %>%     gsub("/"", "", x = .)    # shares <- html_nodes(post,   #   '.wpusb-counts , .wpusb-counts span') %>%   #   html_text()   text <- html_nodes(post, 'p') %>%      html_text() %>% head(-1) %>%     paste(collapse=" ") %>%     gsub("/"", "", x = .) %>%     stri_extract_all_words()  %>%      .[[1]]    text <- text[stri_length(text) > 1] %>%     tolower() %>%     gsub("//.", " ", x = .) %>%     removeWords(c(stopwords('english'),                   stopwords('SMART'),                   "", "’s", "amp",                    "div", "’ve", 1:100,                    "’ll", "let’s", "’re",                    "’m"))    text <- text[stri_length(text) > 1] %>%     stri_extract_all_words() %>%      unlist %>%     LovinsStemmer(control = NULL) %>%     paste(collapse = " ")      date <- html_nodes(post, '.date') %>%     html_text() %>%     as.Date(format="%b %d, %Y")   if (is.na(date)) {     date <- ""   }   author <- html_nodes(post, '.meta') %>%      html_text() %>% strsplit("By ") %>%      # second element of length-1 list     .[[1]] %>% .[2] %>%     gsub("/"", "", x = .)     dbGetQuery( conn, paste0("INSERT INTO posts (link,title, text, date, author) VALUES", "(/"", link, "/",/"", title, "/",/"", #shares, "/",/"", text, "/",/"", date, "/",/"", author, "/")")   )    }  # for proper date extraction lct <- Sys.getlocale("LC_TIME") Sys.setlocale("LC_TIME", "C") # get info for all links pbsapply(   links,   postInfo,    db.conn ) Sys.setlocale("LC_TIME", lct) # disconnect with database dbDisconnect(db.conn)

If you have any questions or comments, please feel free to share your ideas on the Disqus panel below. Also, if you know how to web-scrap the number of shares per R-Bloggers article then I would love to hear your feedback as I am wondering what’s the correlation between Hadley Wickham appearance in the post and its number of shares.

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