Earthscient Rtweet Download Data R
Lesson 2. Twitter Data in R Using Rtweet: Analyze and Download Twitter Data
Learning Objectives
After completing this tutorial, you will be able to:
- Query the twitter RESTful API to access and import into
R
tweets that contain various text strings. - Generate a list of users who are tweeting about a particular topic.
What You Need
You will need a computer with internet access to complete this lesson.
In this lesson you will explore analyzing social media data accessed from twitter, in R. You will use the Twitter RESTful API to access data about both twitter users and what they are tweeting about
Getting Started
To get started you'll need to do the following things:
- Set up a twitter account if you don't have one already.
- Using your account, setup an application that you will use to access twitter from R
- Download and install the
rtweet
andtidytext
packages for R.
Once you've done these things, you are ready to begin querying Twitter's API to see what you can learn about tweets!
Set up Twitter App
Let's start by setting up an application in twitter that you can use to access tweets. To setup your app, follow the documentation from rtweet
here:
TUTORIAL: How to setup a twitter application using your twitter account
NOTE: you will need to provide your cell phone number to twitter to verify your use of the API.
Twitter in R
Once you have your twitter app setup, you are ready to dive into accessing tweets in R
.
You will use the rtweet
package to do this.
# load twitter library - the rtweet library is recommended now over twitteR library ( rtweet ) # plotting and pipes - tidyverse! library ( ggplot2 ) library ( dplyr ) # text mining library library ( tidytext )
The first thing that you need to setup in your code is your authentication. When you set up your app, it provides you with 3 unique identification elements:
- appnam
- key
- secret
These keys are located in your twitter app settings in the Keys and Access Tokens
tab. You will need to copy those into your code as i did below replacing the filler text that I used in this lesson for the text that twitter gives you in your app.
Next, you need to pass a suite of keys to the API.
# whatever name you assigned to your created app appname <- "your-app-name" ## api key (example below is not a real key) key <- "yourLongApiKeyHere" ## api secret (example below is not a real key) secret <- "yourSecretKeyHere"
Finally, you can create a token that authenticates access to tweets! Note that the authentication process below will open a window in your browser.
# create token named "twitter_token" twitter_token <- create_token ( app = appname , consumer_key = key , consumer_secret = secret , access_token = access_token , access_secret = access_secret )
If authentication is successful works, it should render the following message in a browser window:
Authentication complete. Please close this page and return to R.
Send a Tweet
Note that your tweet needs to be 140 characters or less.
# post a tweet from R post_tweet ( "Look, i'm tweeting from R in my #rstats #earthanalytics class! @EarthLabCU" ) ## your tweet has been posted!
Search Twitter for Tweets
Now you are ready to search twitter for recent tweets! Let's start by finding all tweets that use the #rstats
hashtag. Notice below you use the rtweet::search_tweets()
function to search. search_tweets()
requires the following arguments:
- q: the query word that you want to look for
- n: the number of tweets that you want returned. You can request up to a maximum of 18,000 tweets.
To see what other arguments you can use with this function, use the R
help:
?search_tweets
## search for 500 tweets using the #rstats hashtag rstats_tweets <- search_tweets ( q = "#rstats" , n = 500 ) # view the first 3 rows of the dataframe head ( rstats_tweets , n = 3 ) ## # A tibble: 3 x 90 ## user_id status_id created_at screen_name text source ## <chr> <chr> <dttm> <chr> <chr> <chr> ## 1 955709… 12386007… 2020-03-13 23:00:00 WebSecurit… "A B… Post … ## 2 856798… 12386006… 2020-03-13 22:59:45 calexandru… "A B… Twitt… ## 3 433559… 12386000… 2020-03-13 22:57:15 tangming20… "com… Twitt… ## # … with 84 more variables: display_text_width <dbl>, reply_to_status_id <chr>, ## # reply_to_user_id <chr>, reply_to_screen_name <chr>, is_quote <lgl>, ## # is_retweet <lgl>, favorite_count <int>, retweet_count <int>, ## # quote_count <int>, reply_count <int>, hashtags <list>, symbols <list>, ## # urls_url <list>, urls_t.co <list>, urls_expanded_url <list>, ## # media_url <list>, media_t.co <list>, media_expanded_url <list>, ## # media_type <list>, ext_media_url <list>, ext_media_t.co <list>, ## # ext_media_expanded_url <list>, ext_media_type <chr>, ## # mentions_user_id <list>, mentions_screen_name <list>, lang <chr>, ## # quoted_status_id <chr>, quoted_text <chr>, quoted_created_at <dttm>, ## # quoted_source <chr>, quoted_favorite_count <int>, ## # quoted_retweet_count <int>, quoted_user_id <chr>, quoted_screen_name <chr>, ## # quoted_name <chr>, quoted_followers_count <int>, ## # quoted_friends_count <int>, quoted_statuses_count <int>, ## # quoted_location <chr>, quoted_description <chr>, quoted_verified <lgl>, ## # retweet_status_id <chr>, retweet_text <chr>, retweet_created_at <dttm>, ## # retweet_source <chr>, retweet_favorite_count <int>, ## # retweet_retweet_count <int>, retweet_user_id <chr>, ## # retweet_screen_name <chr>, retweet_name <chr>, ## # retweet_followers_count <int>, retweet_friends_count <int>, ## # retweet_statuses_count <int>, retweet_location <chr>, ## # retweet_description <chr>, retweet_verified <lgl>, place_url <chr>, ## # place_name <chr>, place_full_name <chr>, place_type <chr>, country <chr>, ## # country_code <chr>, geo_coords <list>, coords_coords <list>, ## # bbox_coords <list>, status_url <chr>, name <chr>, location <chr>, ## # description <chr>, url <chr>, protected <lgl>, followers_count <int>, ## # friends_count <int>, listed_count <int>, statuses_count <int>, ## # favourites_count <int>, account_created_at <dttm>, verified <lgl>, ## # profile_url <chr>, profile_expanded_url <chr>, account_lang <lgl>, ## # profile_banner_url <chr>, profile_background_url <chr>, ## # profile_image_url <chr>
Retweets
A retweet is when you or someone else shares someone elses tweet so your / their followers can see it. It is similar to sharing in Facebook where you can add a quote or text above the retweet if you want or just share the post. Let's use the same query that you used above but this time ignore all retweets by setting the include_rts
argument to FALSE
. You can get tweet / retweet stats from your dataframe, separately.
# find recent tweets with #rstats but ignore retweets rstats_tweets <- search_tweets ( "#rstats" , n = 500 , include_rts = FALSE ) # view top 2 rows of data head ( rstats_tweets , n = 2 ) ## # A tibble: 2 x 90 ## user_id status_id created_at screen_name text source ## <chr> <chr> <dttm> <chr> <chr> <chr> ## 1 433559… 12386000… 2020-03-13 22:57:15 tangming20… comm… Twitt… ## 2 433559… 12384858… 2020-03-13 15:23:31 tangming20… use … Twitt… ## # … with 84 more variables: display_text_width <dbl>, reply_to_status_id <chr>, ## # reply_to_user_id <chr>, reply_to_screen_name <chr>, is_quote <lgl>, ## # is_retweet <lgl>, favorite_count <int>, retweet_count <int>, ## # quote_count <int>, reply_count <int>, hashtags <list>, symbols <list>, ## # urls_url <list>, urls_t.co <list>, urls_expanded_url <list>, ## # media_url <list>, media_t.co <list>, media_expanded_url <list>, ## # media_type <list>, ext_media_url <list>, ext_media_t.co <list>, ## # ext_media_expanded_url <list>, ext_media_type <chr>, ## # mentions_user_id <list>, mentions_screen_name <list>, lang <chr>, ## # quoted_status_id <chr>, quoted_text <chr>, quoted_created_at <dttm>, ## # quoted_source <chr>, quoted_favorite_count <int>, ## # quoted_retweet_count <int>, quoted_user_id <chr>, quoted_screen_name <chr>, ## # quoted_name <chr>, quoted_followers_count <int>, ## # quoted_friends_count <int>, quoted_statuses_count <int>, ## # quoted_location <chr>, quoted_description <chr>, quoted_verified <lgl>, ## # retweet_status_id <chr>, retweet_text <chr>, retweet_created_at <dttm>, ## # retweet_source <chr>, retweet_favorite_count <int>, ## # retweet_retweet_count <int>, retweet_user_id <chr>, ## # retweet_screen_name <chr>, retweet_name <chr>, ## # retweet_followers_count <int>, retweet_friends_count <int>, ## # retweet_statuses_count <int>, retweet_location <chr>, ## # retweet_description <chr>, retweet_verified <lgl>, place_url <chr>, ## # place_name <chr>, place_full_name <chr>, place_type <chr>, country <chr>, ## # country_code <chr>, geo_coords <list>, coords_coords <list>, ## # bbox_coords <list>, status_url <chr>, name <chr>, location <chr>, ## # description <chr>, url <chr>, protected <lgl>, followers_count <int>, ## # friends_count <int>, listed_count <int>, statuses_count <int>, ## # favourites_count <int>, account_created_at <dttm>, verified <lgl>, ## # profile_url <chr>, profile_expanded_url <chr>, account_lang <lgl>, ## # profile_banner_url <chr>, profile_background_url <chr>, ## # profile_image_url <chr>
Next, let's figure out who is tweeting about R
using the #rstats
hashtag.
# view column with screen names - top 6 head ( rstats_tweets $ screen_name ) ## [1] "tangming2005" "tangming2005" "noah_greifer" "yoniceedee" ## [5] "yoniceedee" "peterlovesdata" # get a list of unique usernames unique ( rstats_tweets $ screen_name ) ## [1] "tangming2005" "noah_greifer" "yoniceedee" "peterlovesdata" ## [5] "tidyversetweets" "lauriejhopkins" "denis_mongin" "chig4_" ## [9] "Rbloggers" "marcdotson" "BenjaminWolfe" "CRANberriesFeed" ## [13] "albury_alex" "AnnoDomaini" "SaraDWms" "asmae_toumi" ## [17] "icymi_r" "gp_pulipaka" "TuQmano" "tdawry" ## [21] "curso_r" "JosetAEtzel" "markvdloo" "thomasp85" ## [25] "mdsumner" "jdblischak" "rOpenSci" "thmscwlls" ## [29] "xvaca" "c_mues" "nmorstanlee" "PHExaminer" ## [33] "ophiryotam" "Aaron_Horowitz" "Jake_Lawlor1" "PyData" ## [37] "Elliot_Meador" "jp_gannon" "AnthonyBouc974" "drob" ## [41] "ericpgreen" "library_pirate" "sharon000" "DerFredo" ## [45] "precariobecario" "michelnivard" "rstatsdata" "ChelseaParlett" ## [49] "clinarmo" "CedScherer" "erum2020_conf" "dp_moriarity" ## [53] "geokaramanis" "grrrck" "worldbankdata" "JulienGorintin" ## [57] "kdpsinghlab" "MRHelmus" "iamalexchisholm" "LizRoten" ## [61] "R4DScommunity" "seandavis12" "dgkeyes" "VictimOfMaths" ## [65] "jmcastagnetto" "stuwillmurray" "UrsWilke" "aschinchon" ## [69] "jp_hydro" "jakekaupp" "arianneyka" "RobinWilhelmus" ## [73] "RBarMUN" "southmapr" "patri_vaquero_" "RobertFrey40" ## [77] "TKRspatial" "dlmillimet" "Adam_C_Garber" "CorradoLanera" ## [81] "ChrisKla47" "ucfagls" "BuzzTechy" "cameratraps1" ## [85] "RLangTip" "OesUnr" "marcelotournier" "eliasdabbas" ## [89] "EduardoGCCM" "nubededatos" "_joecha_" "sckottie" ## [93] "jacklich10" "appsilon" "divadnojnarg" "haro_ca_" ## [97] "davsjob" "stephlabou" "fasiolo1985" "rzembo" ## [101] "dokatox" "Millymakandi" "brodriguesco" "kjhealy" ## [105] "NewCoupon2" "eddelbuettel" "kdgorospe" "heymatthenry" ## [109] "EdKwedar" "livingwithdata" "milanwiedemann" "allhoff_joachim" ## [113] "IBKRQuant" "stevenvmiller" "andrewheiss" "gorkang" ## [117] "climbertobby" "markhw_" "DLNarango" "Trifenol" ## [121] "Julian_H0ffmann" "ckauebraga" "tylermorganwall" "MadhanAlisha" ## [125] "gztstatistics" "mercuriusio" "mrbadmus10" "CancuCS" ## [129] "Primary_Immune" "Scar_Data" "GarmireGroup" "gradientmetrics" ## [133] "AbyssalDive" "NumFOCUS" "dr_keithmcnulty" "SaridResearch" ## [137] "headhunterchron" "noatamir" "pgshky" "rachelmalkani" ## [141] "oranwutan" "ChRauh" "olyerickson" "NalimR" ## [145] "Physacourses" "KkKestutis" "jessenleon" "heyitsmehugo" ## [149] "JasonWilliamsNY" "mauro_lepore" "abilash_cherian" "DrTokami" ## [153] "LocalisJoe" "noramvillanueva" "emvolpi" "RLangPackage" ## [157] "jimmyczech" "milos_agathon" "1littlecoder" "kamromero" ## [161] "R_Hisp" "CraigHarper19" "BiochemSoc" "mixOmics_team" ## [165] "lefkiospaik" "richard_glennie" "MVaugoyeau" "rweekly_live" ## [169] "WitJakuczun" "amc_corporation" "zx8754" "lapply" ## [173] "chrisderv" "JeanneauAmelie" "zoowalk" "Marie_Etienne" ## [177] "k_lauper" "gregrs_uk" "dmi3k" "michael_chirico" ## [181] "erbiostat" "strengejacke" "roberto_boberto" "Guru_GyanKhoji" ## [185] "pjs_228" "SOHotQuestions" "Hung_TT_Nguyen" "EmRstats" ## [189] "_davecooley" "edmundneil" "Human_x" "PatriceGodard" ## [193] "datawookie" "ClausWilke" "kestert" "SuperCroup" ## [197] "cfcoverdale" "MattCowgill" "_jameslamb" "lmhallett" ## [201] "NickYarmey" "stringfestdata" "abmathewks" "KirkDBorne" ## [205] "AeRO_eResearch" "daily_r_sheets" "GrayAnalyst" "CourseGift" ## [209] "seanmhoban" "weverkaj" "kylefbutts" "numeroteca" ## [213] "darokun" "infj_ingrid" "RLadiesBrisbane" "gringene_bio" ## [217] "KWittfogel" "malco_barrett" "la_Rusers" "znmeb" ## [221] "EvaMaeRey" "jcrichardson617" "microbeEcology" "myMLjournal" ## [225] "kiernxn" "udansk" "richelletanner" "heyhilaryizatt" ## [229] "_ColinFay" "EarlGlynn" "omarwagih" "martinasladek" ## [233] "MatthewSmith786" "Sumidu" "YaNiPaper" "LearnRinaDay" ## [237] "felipeduque1986" "CodyArlie" "ODR_Psy" "adr" ## [241] "arielbeccia" "Tall_Viking" "jamesconigrave" "IgnaceLab" ## [245] "kmpanthagani" "PPetersonSC" "PsiChiHonor" "felipe_mattioni" ## [249] "SorenWilke" "PipingHotData" "patilindrajeets" "sussenglish" ## [253] "nyhackr" "LanderAnalytics" "rstatsnyc" "MyKo101AB" ## [257] "TazPoltorak" "mueller89_r" "committedtotape" "DataSciRookie" ## [261] "marcus_volz"
You can similarly use the search_users()
function to just see what users are tweeting using a particular hashtag. This function returns just a data.frame of the users and information about their accounts.
# what users are tweeting with #rstats users <- search_users ( "#rstats" , n = 500 ) # just view the first 2 users - the data frame is large! head ( users , n = 2 ) ## # A tibble: 2 x 90 ## user_id status_id created_at screen_name text source ## <chr> <chr> <dttm> <chr> <chr> <chr> ## 1 961691… 12385084… 2020-03-13 16:53:30 FC_rstats Stat… Twitt… ## 2 101181… 12385987… 2020-03-13 22:52:12 rstatstweet Toda… rstat… ## # … with 84 more variables: display_text_width <dbl>, reply_to_status_id <chr>, ## # reply_to_user_id <chr>, reply_to_screen_name <chr>, is_quote <lgl>, ## # is_retweet <lgl>, favorite_count <int>, retweet_count <int>, ## # quote_count <int>, reply_count <int>, hashtags <list>, symbols <list>, ## # urls_url <list>, urls_t.co <list>, urls_expanded_url <list>, ## # media_url <list>, media_t.co <list>, media_expanded_url <list>, ## # media_type <list>, ext_media_url <list>, ext_media_t.co <list>, ## # ext_media_expanded_url <list>, ext_media_type <chr>, ## # mentions_user_id <list>, mentions_screen_name <list>, lang <chr>, ## # quoted_status_id <chr>, quoted_text <chr>, quoted_created_at <dttm>, ## # quoted_source <chr>, quoted_favorite_count <int>, ## # quoted_retweet_count <int>, quoted_user_id <chr>, quoted_screen_name <chr>, ## # quoted_name <chr>, quoted_followers_count <int>, ## # quoted_friends_count <int>, quoted_statuses_count <int>, ## # quoted_location <chr>, quoted_description <chr>, quoted_verified <lgl>, ## # retweet_status_id <chr>, retweet_text <chr>, retweet_created_at <dttm>, ## # retweet_source <chr>, retweet_favorite_count <int>, ## # retweet_retweet_count <int>, retweet_user_id <chr>, ## # retweet_screen_name <chr>, retweet_name <chr>, ## # retweet_followers_count <int>, retweet_friends_count <int>, ## # retweet_statuses_count <int>, retweet_location <chr>, ## # retweet_description <chr>, retweet_verified <lgl>, place_url <chr>, ## # place_name <chr>, place_full_name <chr>, place_type <chr>, country <chr>, ## # country_code <chr>, geo_coords <list>, coords_coords <list>, ## # bbox_coords <list>, status_url <chr>, name <chr>, location <chr>, ## # description <chr>, url <chr>, protected <lgl>, followers_count <int>, ## # friends_count <int>, listed_count <int>, statuses_count <int>, ## # favourites_count <int>, account_created_at <dttm>, verified <lgl>, ## # profile_url <chr>, profile_expanded_url <chr>, account_lang <lgl>, ## # profile_banner_url <chr>, profile_background_url <chr>, ## # profile_image_url <chr>
Let's learn a bit more about these people tweeting about R
. First, where are they from?
# how many locations are represented length ( unique ( users $ location )) ## [1] 299 users %>% ggplot ( aes ( location )) + geom_bar () + coord_flip () + labs ( x = "Count" , y = "Location" , title = "Twitter users - unique locations " )
Let's sort by count and just plot the top locations. To do this, you use top_n(). Note that in this case you are grouping your data by user. Thus top_n() will return locations with atleast 15 users associated with it.
users %>% count ( location , sort = TRUE ) %>% mutate ( location = reorder ( location , n )) %>% top_n ( 20 ) %>% ggplot ( aes ( x = location , y = n )) + geom_col () + coord_flip () + labs ( x = "Count" , y = "Location" , title = "Where Twitter users are from - unique locations " )
It looks like you have some NA
or no data values in your list. Let's remove those with na.omit()
.
users %>% count ( location , sort = TRUE ) %>% mutate ( location = reorder ( location , n )) %>% na.omit () %>% top_n ( 20 ) %>% ggplot ( aes ( x = location , y = n )) + geom_col () + coord_flip () + labs ( x = "Location" , y = "Count" , title = "Twitter users - unique locations " )
Looking at your data, what do you notice that might improve this plot? There are 314 unique locations in your list. However, everyone didn't specify their locations using the approach. For example some just identified their country: United States for example and others specified a city and state. You may want to do some cleaning of these data to be able to better plot this distribution - especially if you want to create a map of these data!
Users by Time Zone
Let's have a look at the time zone field next.
users %>% na.omit () %>% ggplot ( aes ( time_zone )) + geom_bar () + coord_flip () + labs ( x = "Count" , y = "Time Zone" , title = "Twitter users - unique time zones " )
Optional Challenge
Use the example above, plot users by time zone. List time zones that have at least 20 users associated with them. What do you notice about the data?
The plots above aren't perfect. What do you start to notice about working with these data? Can you simply download them and plot the data?
Data munging 101
When you work with data from sources like NASA, USGS, etc. there are particular cleaning steps that you often need to do. For instance:
- you may need to remove nodata values
- you may need to scale the data
- and others
In the next lesson, you will dive deeper into the art of "text-mining" to extract information about a particular topic from twitter.
Posted by: rvalues.blogspot.com
Source: https://www.earthdatascience.org/courses/earth-analytics/get-data-using-apis/use-twitter-api-r/