```{css, echo = FALSE} .striped tr:nth-child(even) { background: #eaf1ff; } .striped { padding: 5px; } ``` Random Phobias - .Rmd sample code for BCH441 at the University of Toronto. (c) Boris Steipe 2020 --> ```{r setup, include=FALSE} knitr::opts_chunk$set(echo = TRUE) ``` ## Phobias! ## We all have some, but we could always use more. How to know them all? With this code we access the [Wikipedia list of phobias](https://en.wikipedia.org/wiki/List_of_phobias), scrape the contents and assemble a dataframe. Then we write a function to retrieve a random phobia, which we can subsequently ponder on - either to delight in the fact that we don't have that fear, or to add to our daily quota of anxieties (like our well-founded [fear of bad programming practice](http://xkcd.com/292/)). To load the list, we will "screenscrape" the contents of Wikipedia's [List of Phobias](https://en.wikipedia.org/wiki/List_of_phobias). First, we install the `rvest` library and the `xml2` library from CRAN, if we don't have it. ```{r packages} if (! requireNamespace("rvest", quietly=TRUE)) { install.packages("rvest") } if (! requireNamespace("xml2", quietly=TRUE)) { install.packages("xml2") } ``` As we customarily do, we avoid using the `library()` function to make the package contents accessible, but use the `package::` syntax instead. This makes our code more explicit and maintainable. `xml2` handles reading and parsing of documents. The `rvest` package was designed for screenscraping and has functions to make our life very easy: it accesses the response of an `xml2` query, looks for all HTML formatted tables, parses them with an XPATH expression and returns them as lists from which we can get data frames. ```{r getPageData, cache=TRUE} webPage <- xml2::read_html("https://en.wikipedia.org/wiki/List_of_phobias") allTables <- rvest::html_table(webPage, fill = TRUE) ``` There are ```r length(allTables)``` tables in the list, but the ones we are interested in are data frames with two columns named `Phobia` and `Condition`. ```{r collateTables, cache=TRUE} phobiaTable <- data.frame(Phobia = character(), Condition = character()) for (i in seq_along(allTables)) { df <- allTables[[i]] if (all(colnames(df) == c("Phobia", "Condition"))) { phobiaTable <- rbind(phobiaTable, df) } } ``` Done, we collected ```r nrow(phobiaTable)``` phobias. Let's randomly select a few and print them.
```{r , ref.label="randRow", echo=FALSE}
```
**Table**: seven random phobias
```{r renderPhobiaTable, echo=FALSE, results='asis'}
sel <- sample(1:nrow(phobiaTable), 7)
knitr::kable(phobiaTable[sel, ], table.attr = "class=\"striped\"", format = "html")
```
To pick a single random phobia from the list, we take a (pseudo) random sample of size 1 from the number of rows in the `phobiaFrame` object. Our function thus returns a random row from a matrix or dataframe, and it uses an optional argument: `seed`. This can either be Boolean `FALSE` (the default), or an integer that is used in R's `set.seed()` function. ```{r randRow} randRow <- function(M, seed = FALSE) { # Return a random row from a dataframe M. if (seed) { oldseed <- .Random.seed # play nice and save the RNG state ... set.seed(as.integer(seed)) } r <- M[sample(1:nrow(M), 1), ] # fetch one random row if (seed) { .Random.seed <- oldseed } # ... restore the RNG state return(r) } ```
With this useful tool we can ponder on our favourite phobia of the day. For today, let it be **`r randRow(phobiaTable, seed=1123581321)[2]`**, the `r randRow(phobiaTable, seed=1123581321)[1]`. _`r randRow(phobiaTable, seed=1123581321)[1]`_! Really!!? Awful.
Finally: let's plot a histogram of phobia name lengths just to illustrate plots. A little preprocessing is required, since some names collate synonyms, like _"Hypnophobia, somniphobia"_. We'll break these up. ```{r preProcess} # select only single-word phobias that end with "phobia" sel <- ! grepl(" ", phobiaTable$Phobia) & grepl(".phobia$", phobiaTable$Phobia) names <- phobiaTable$Phobia[sel] # extract the ones we did _not_ select x <- phobiaTable$Phobia[! sel] # use strsplit() to split them apart and flatten the resulting list x <- unlist(strsplit(x, ", ")) x <- unlist(strsplit(x, " ")) x <- unlist(strsplit(x, "/")) # use the same selection as above, and append the result to our "names"" sel <- ! grepl(" ", x) & grepl(".phobia$", x) names <- c(names, x[sel]) ``` Done, we collected ```r length(names)``` names for phobias. Here is a histogram of their lengths. ```{r showHist} x <- nchar(names) pShort <- names[which(x == min(x))[1]] # pull out the shortest name ... pLong <- names[which(x == max(x))[1]] # ... and the longest name too. hist(x, main = "Length of phobia-names", sub = sprintf("Shortest: %s (%d), Longest: %s (%d)", pShort, nchar(pShort), pLong, nchar(pLong)), cex.sub = 0.8, xlab = "name", ylab = "counts", col ="#aef5ee") ``` That's all.