uni-ba-socialagenda/issuecomp-3-calc.R

require(stringr)
require(reshape2)
require(ggplot2)
require(vars)

# Create dataframes with only non-sensational (i) and sensational (s) issue columns
drop_s <- which(str_detect(names(issues), "^s"))
drop_i <- which(str_detect(names(issues), "^i"))
issues_i <- issues[,-drop_s]
issues_s <- issues[,-drop_i]

# #
# ENTROPY
# #
# Entropy non-sensational issues
issues_i$total <- rowSums(issues_i[2:ncol(issues_i)])
issues_i$entropy <- 0

for(r in 1:nrow(issues_i)) {
  curtotal <- as.numeric(issues_i$total[r])
  curp <- 0
  for(c in 2:ncol(issues_i)) {
    curcount <- as.numeric(issues_i[r,c])
    curp[c] <- curcount / curtotal
  }
  curp <- curp [2:length(curp)-2]
  curdrop <- which(curp==0)
  curp <- curp[-curdrop]
  issues_i$entropy[r] <- sum(-1 * curp * log(curp))
}

# Entropy sensational issues
issues_s$total <- rowSums(issues_s[2:ncol(issues_s)])
issues_s$entropy <- 0

for(r in 1:nrow(issues_s)) {
  curtotal <- as.numeric(issues_s$total[r])
  curp <- 0
  for(c in 2:ncol(issues_s)) {
    curcount <- as.numeric(issues_s[r,c])
    curp[c] <- curcount / curtotal
  }
  curp <- curp [2:length(curp)-2]
  curdrop <- which(curp==0)
  curp <- curp[-curdrop]
  issues_s$entropy[r] <- sum(-1 * curp * log(curp))
}


# Compare total tweets vs. total issue findings
stats_total <- data.frame(date=drange)
stats_total$tpd <- 0
stats_total$ipd <- issues_i$total
stats_total$spd <- issues_s$total
# Total number of tweets per day over time
for(r in 1:length(drange)) {
  stats_total$tpd[r] <- length(tweets[tweets[, "created_at"] == drange[r], "id_str"])
}

stats_melt <- melt(stats_total, id="date")
g1 <- ggplot(data = stats_melt, aes(x=date,y=value,colour=variable, group=variable)) + 
  geom_line()+ 
  geom_smooth(size=1,formula = y ~ x, method="loess", se=FALSE, color=1)
g1

# Visuals for entropy in time series
stats_entropy <- data.frame(date=drange)
stats_entropy$entropy <- issues_i$entropy

stats_entropy <- melt(stats_entropy, id="date")

g1 <- ggplot(data = stats_entropy, aes(x=date,y=value,colour=variable, group=variable)) + 
  geom_line() + 
  geom_smooth(size=1,formula = y ~ x, method="loess", se=FALSE, color=1)
g1

# SOME TESTS --------------------------------------------------------------

stats <- data.frame(date=drange)
stats$tpd <- 0

# Total number of tweets per day over time
for(r in 1:length(drange)) {
  stats$tpd[r] <- length(tweets[tweets[, "created_at"] == drange[r], "id_str"])
}

stats_melt <- melt(stats, id="date")
g1 <- ggplot(data = stats_melt, aes(x=date,y=value,colour=variable, group=variable)) + 
  geom_line() + 
  geom_smooth(size=1,formula = y ~ x, method="loess", se=FALSE, color=1)
g1

rm(g1, r)


# Show party percentage of twitter users
acc_parties <- data.frame(party = c("cducsu", "spd", "linke", "gruene"))
acc_parties$btw13 <- c(49.3, 30.6, 10.1, 10.0) # seats of party / 631 seats
acc_parties$twitter <- 0
for(p in 1:nrow(acc_parties)) {
  acc_parties$twitter[p] <- round(nrow(acc_df[acc_df$party == as.character(acc_parties$party[p]), ]) / 280 * 100)
}
pie(acc_parties$btw13, col=c("black", "red", "purple", "green"), labels = c("CDU/CSU", "SPD", "Die LINKE", "Bündnis 90/Grüne"), clockwise = T,
    main = "Seats of parties in the parliament")
pie(acc_parties$twitter, col=c("black", "red", "purple", "green"), labels = c("CDU/CSU", "SPD", "Die LINKE", "Bündnis 90/Grüne"), clockwise = T,
    main = "Percentage of parties' MdBs of all Twitter accounts")

rm(acc_parties, p)


# VISUALS -----------------------------------------------------------------


# Level: days
issues_melt <- melt(issues,id="date")
ggplot(issues_melt,aes(x=date,y=value,colour=variable,group=variable)) + geom_line(size=1)
ggplot(issues_melt,aes(x=date,y=value,colour=variable,group=variable)) + geom_smooth(size=1,method="loess",formula = y ~ x, se=FALSE)



# POSSIBLY USEFUL CODE ----------------------------------------------------

# Limits of list
length(issuelist)
length(issuelist[[2]])

# Select all tweets from current day in drange
tweets_curday <- tweets[tweets[, "created_at"] == drange[5], ]
# Is column a issue counting column?
str_detect(names(issues[2]), "^issue")