An unabashedly narcissistic data analysis of my own tweets.
The unequivocally lovely Jeff Gentry (@geoffjentry) has contributed an R package with easy-to-read documentation that works, which I’ll walk through here so that you, too, can gaze at your own face mirrored in the beauty of a woodland pond—er, sea of electrons.
Here’s the basic flow for grabbing stuff. You can do more with ROAuth but that’s a bit of a pain.
RT.of.me <- searchTwitter("RT @isomorphisms", n=100)
news <- getTrends(n=50)
firehose <- publicTimeline(n=999)
my.tweets <- userTimeline('isomorphisms', n=3500)
Consider: Donkey Kong is neither a donkey, nor a kong.
William Thurston, geometrizer of manifolds http://t.co/UPwuAnbP
When I invent a single-letter language, it's going to be called Ж.
If $GOOG were only an ad network, with no search facility, how much would it be worth?
Do your arms hang down by your side in zero gravity? Because then I bet astronauts have less smelly armpits.
Can't log into Hacker News with #w3m! Unexpected.
Salt and sugar are opposites. Therefore if i eat too much salty food I must balance it with candy. #logic
@leighblue Do you know any behavioural econ studies on utility vs bite-size / package-size?
Those are some of the ways you can grab data — twitteR hooks into RCurl and then, like, the info is just there. Run twListToDF( tweets ) to split the raw info into 10 subfields—text-of-tweet, to-whom-was-the-reply-threaded, timestamp, and more.
To pull out just one of those fields—like “source of tweet”, for example, use sapply:
You can see from plots 1, 2, 3, and 4 that I use @floodgap’s TTYtter client (tweeting from the command line; no installation). In fact this is why I’ve started tweeting so much the last few months: I run TTYtter in a virtual terminal, mutt (command-line gmail) in another virtual terminal, and therefore it becomes quite easy to flick my virtual newsfeed/conversation stream on for a minute or two here and there whenever I’m at the computer. It feels like The Matrix or Neuromancer or something.
Here’s how I created the ggplot radial chart #4 — this was the longest command I had to use to generate any of them. For some reason qplot didn’t like scale_y_log10() so I did:
In the words of@jeffreybreen, twitteR almost makes this too easy. A few months ago — before I knew about this package — I was analysing tweets for a client who wanted to gauge the effectiveness of “customer service tweets”. I wrote an ugly, hacky perl script that told me whether the tweet had an @ in it, whether the @ was a RT @, an wem the tweet was @, and so on. Dealing with people using @ in another sense besides “Hey @cmastication, what’s up?” or different numbers of spaces between RT/MT; multiple RT’s in the same message; and so on — was an icky mess. I probably spent half a week changing my regexes around to deal with more cases I hadn’t thought of. Like most statisticians, I hate data munging—swimming around in the data is the fun part, not patching up the kiddie pool. Besides that, my client wanted the results in an Excel file — and Excel can’t handle multidimensional arrays (whereas a tweet mentioning @a @b @c should have just one “mentions” slot with three things in it).
That twitteR package is so hot right now.
But as much fun as it was to display my love of TTYtter in four different plots, that’s not the only R-based egotainment you can compute on a Friday night.
How wordy am I?
I know I am wordy. I often adopt a telegraphic SMS-like typing style (“Sntrm wd b gr8 prez, like Ahmedinejad”) rather than hold back my trenchant remarks about astronauts’ armpits. Tumblr’s auto-tweets don’t help my average, either—the default is long, and I’m usually too lazy to change it.
With the magic of kernel density estimates—which are definitely not overkill for the analysis of my appropriately-florid and highly-important charstreams—and my usual base::plot params, the length of my tweets is made art in the form of chart #5.
I got a vector of tweet-lengths using @hadleywickham’s stringr package:
my.tweets <- userTimeline('isomorphisms', n=3500) my.tweets <- twListToDF( my.tweets )
iso <- my.tweets$text
iso.len <- str_length(iso) #vectorised! No for loops necessary
hist( iso.len, fill="cyan" )
Proving once again that all real-world distributions fit a bell curv—…um.
You can of course use subset( my.tweets ) to plot tweets that were made under certain conditions—I might look only at my tumblr auto-posts using subset( my.tweets, statusSource=="tumblr"). Or only at short tweets using subset( my.tweets, str_length(my.tweets$text)<100 ). And so on.
Lastly, I wanted to plot my tweeple—the people I talk to on twitter (most of whom I don’t actually know in real life … I like to keep friends and mathematical geekery separate). As you can see from the final chart, it was largely a sh_tshow. Or so I thought, until I considered attacking the problem with ggplot.
One of ggplot’s strengths—in my opinion its greatest strength—is the facet_grid( atttribute.1 ~ attribute.2) function. In combination with base::cut — which assigns discrete “levels” to the data — facetting is especially powerful. I cut my data into four subsets, based on how many times I’ve tweeted @ someone:
my.tweets <- userTimeline( 'isomorphisms', n=3000 )
# only tweets that are @ someone
talkback <- subset( my.tweets, is.na(replyToSN) == FALSE ) #the value would be NA iff I tweeted into the vast nothingness, apropos of no-one
# just the names, not the rest of the tweet's text or meta-information
tweeps <- talkback$replyToSN
#make a new data frame for ggplot to facet_wrap.
tweep.count <- table(tweeps)
tweep.levels <- cbind( tweep.count, cut( tweep.count, c(0,1,2,5,100) ), rownames(tweep.count) )
tweeps <- data.frame(tweep.levels)
names(tweeps) <- c("number", "category", "name")
class(tweeps$number) <- "numeric"
#all the above stuff only came clear after a few attempts
#and likewise the plot didn't work out perfect at first, either!
#but here's a decent plot that works:
ggplot( data = tweeps, aes(x=number) ) +
facet_wrap(~ category, scale="free_x") +
geom_text( aes(label=name, y=30-order(name), size=sqrt(log(number)),
col=number+(as.numeric(category))^2 ), position="jitter" ) +
opts( legend.title = theme_blank(), legend.text = theme_blank() )
This made for a much more readable image. Not perfect, but definitely displaying info now.
OK, I do love talking about my twistory a little too much — but I’d like to see your histograms as well! If you run some stats on your own account, please post some pics below. I believe images can be directly embedded in the Disqus comments with <img src="http://i.minus.com/staggering_analysis_of_my_fantastic_words.jpg">.
(To save your R plots to a file rather than to the screen, do png("a plot named Sue.png"); plot( laa dee daa ); dev.off() where ; could be replaced by a newline.)