513 lines
19 KiB
R
513 lines
19 KiB
R
c_errcode <- as.character(c_errors$code[r])
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c_errissue <- as.character(c_errors$issue[r])
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c_errtags <- as.character(c_errors$tags[r])
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c_errtext <- as.character(c_errors$text[r])
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c_errid <- as.character(c_errors$str_id[r])
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cat("===============\n\n[TWEET]: ",c_errtext,"\n[ISSUES]: ", c_errissue, " (", c_errtags, ")\n", sep="")
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source("issuecomp-codingsample-function2.R")
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}
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c_tmp <- read.csv("issuecomp-codingsample-error1.csv", header = F, colClasses="character")
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View(c_tmp)
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View(c_errors)
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View(c_tmp)
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names(c_tmp) <- c("str_id", "all", "wrong", "tags", "text")
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View(c_tmp)
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c_tmp[, c("wrong", "tagged", "all", "text")]
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View(c_tmp)
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names(c_tmp) <- c("str_id", "all", "wrong", "tagged", "text")
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c_tmp[, c("wrong", "tagged", "all", "text")]
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c_error1 <- c_tmp[, c("wrong", "tagged", "all", "text")]
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View(c_error1)
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c_tmp <- read.csv("issuecomp-codingsample-error2.csv", header = F, colClasses="character")
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View(c_tmp)
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c_tmp <- read.csv("issuecomp-codingsample-error2.csv", header = F, colClasses="character")
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names(c_tmp) <- c("str_id", "all", "missing", "tagged", "text")
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c_error1 <- c_tmp[, c("missing", "tagged", "all", "text")]
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c_error2 <- c_tmp[, c("missing", "tagged", "all", "text")]
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View(c_error2)
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c_error2 <- c_tmp[, c("missing", "text", "tagged", "all")]
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View(c_error2)
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View(c_error1)
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View(c_error2)
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c_tmp <- read.csv("issuecomp-codingsample-correct.csv", header = F, colClasses="character")
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View(c_tmp)
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names(c_tmp) <- c("str_id", "status", "issue", "tags", "text")
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View(c_tmp)
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c_currect <- c_tmp
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c_correct <- c_tmp
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rm(c_currect)
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View(c_correct)
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source("issuecomp-codingsample-function.R")
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rm(c_err, c_result, c_samid, c_samno,c_samtags,c_samissue,c_samtext,c_yn)
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c_errors <- read.csv("issuecomp-codingsample-error.csv", header = F, sep=",", colClasses="character")
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c_errors <- read.csv("issuecomp-codingsample-error.csv", header = F, sep=",", colClasses="character")
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c_errors <- read.csv("issuecomp-codingsample-error.csv", header = F, sep=",", colClasses="character")
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c_errors <- read.csv("issuecomp-codingsample-error.csv", header = F, sep=",", colClasses="character")
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c_errors <- read.csv("issuecomp-codingsample-error.csv", header = F, sep=",", colClasses="character", quote = "")
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View(c_errors)
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c_errors <- read.csv("issuecomp-codingsample-error.csv", header = F, sep=",", colClasses="character")
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test <- "Zitat "total dämlich!""
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tweets$id_str == "523512815425175552"
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tweets[tweets$id_str == "523512815425175552"]
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tweets[tweets$id_str == "523512815425175552", ]
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tweets[tweets$id_str == "523512815425175552", "text"]
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test <- tweets[tweets$id_str == "523512815425175552", "text"]
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test
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test <- c_tweets[ctweets$id_str == "523512815425175552", "text"]
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test <- c_tweets[c_tweets$id_str == "523512815425175552", "text"]
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test
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str_replace(test, "\\"", ")
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str_replace(test, "\\"", "")
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str_replace(test, "\"", "")
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str_detect(test, "\"")
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test <- as.character(c_tweets[c_tweets$id_str == "523512815425175552", "text"])
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test
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c_tweets <- read.csv("tweets.csv", colClasses="character")
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for(r in 1:nrow(c_tweets)) {
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curtext <- as.character(c_tweets$text[r])
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if(str_detect(curtext, "\"") {
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c_tweets$text[r] <- str_replace(curtext, "\"", "")
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}
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}
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for(r in 1:nrow(c_tweets)) {
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curtext <- as.character(c_tweets$text[r])
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if(str_detect(curtext, "\"") {
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c_tweets$text[r] <- str_replace(curtext, "\"", "")
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} else {}
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}
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for(r in 1:nrow(c_tweets)) {
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curtext <- as.character(c_tweets$text[r])
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if(str_detect(curtext, "\"") {
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c_tweets$text[r] <- str_replace(curtext, "\"", "")
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} else {
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}
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}
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for(r in 1:nrow(c_tweets)) {
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curtext <- as.character(c_tweets$text[r])
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if(str_detect(curtext, "\"")) {
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c_tweets$text[r] <- str_replace(curtext, "\"", "")
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}
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}
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test <- as.character(c_tweets[c_tweets$id_str == "523512815425175552", "text"])
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test
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View(c_tweets)
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c_errors <- read.csv("issuecomp-codingsample-error.csv", header = F, sep=",", colClasses="character")
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View(c_errors)
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names(c_errors) <- c("str_id", "code", "issue", "tags", "text")
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View(c_errors)
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for(r in 1:nrow(c_errors)) {
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c_errcode <- as.character(c_errors$code[r])
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c_errissue <- as.character(c_errors$issue[r])
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c_errtags <- as.character(c_errors$tags[r])
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c_errtext <- as.character(c_errors$text[r])
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c_errid <- as.character(c_errors$str_id[r])
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cat("===============\n\n[TWEET]: ",c_errtext,"\n[ISSUES]: ", c_errissue, " (", c_errtags, ")\n", sep="")
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source("issuecomp-codingsample-function2.R")
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}
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issueheads
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for(r in 1:nrow(c_errors)) {
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c_errcode <- as.character(c_errors$code[r])
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c_errissue <- as.character(c_errors$issue[r])
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c_errtags <- as.character(c_errors$tags[r])
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c_errtext <- as.character(c_errors$text[r])
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c_errid <- as.character(c_errors$str_id[r])
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cat("===============\n\n[TWEET]: ",c_errtext,"\n[ISSUES]: ", c_errissue, " (", c_errtags, ")\n", sep="")
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source("issuecomp-codingsample-function2.R")
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}
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# All tweets with WRONG ISSUES
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c_tmp <- read.csv("issuecomp-codingsample-error1.csv", header = F, colClasses="character")
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names(c_tmp) <- c("str_id", "all", "wrong", "tagged", "text")
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c_error1 <- c_tmp[, c("wrong", "tagged", "all", "text")]
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# All tweets with MISSING ISSUES
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c_tmp <- read.csv("issuecomp-codingsample-error2.csv", header = F, colClasses="character")
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names(c_tmp) <- c("str_id", "all", "missing", "tagged", "text")
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c_error2 <- c_tmp[, c("missing", "text", "tagged", "all")]
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# All CORRECT tweets
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c_tmp <- read.csv("issuecomp-codingsample-correct.csv", header = F, colClasses="character")
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names(c_tmp) <- c("str_id", "status", "issue", "tags", "text")
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c_correct <- c_tmp
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View(c_error1)
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View(c_error2)
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View(c_error1)
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View(c_correct)
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test <- VAR(issues_i[,2:22], p=1, type="none", exogen = issues_s[,2:3])
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plot(irf(test, impulse = names(issues_s[2:11]), response = names(issues_i[2:22])))
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test <- VAR(issues[,2:32], p=1, type="none")
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plot(irf(test, impulse = names(issues_s[2:11]), response = names(issues_i[2:22])))
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VARselect(issues[,2:32], lag.max=8, type="none")
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VARselect(issues[,2:32], lag.max=8, type="both")
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VARselect(issues[,2:32], lag.max=30, type="both")
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VARselect(issues[,2:32], lag.max=15, type="both")
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for(i in 1:20) { cat(i,"\n") Sys.sleep(10)}
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for(i in 1:20) { cat(i,"\n")Sys.sleep(10)}
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for(i in 1:20) { cat(i,"\n")Sys.sleep(10)}
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for(i in 1:20) { cat(i,"\n")
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Sys.sleep(10)}
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list.dirs()
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list.files()
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rm(results)
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setwd("matched-ids/")
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results_files <- list.files()
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results_files
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results_files <- "all.csv"
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for(r in 1:length(results_files)) {
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if(r == 1) {
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results <- read.csv(results_files[r], sep=";", colClasses=c("character", "character", "character", "character"), header=F)
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} else {
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results_temp <- read.csv(results_files[r], sep=";", colClasses=c("character", "character", "character", "character"), header=F)
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results <- insertRow(results, results_temp)
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}
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}
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rm(r, results_temp, results_files)
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results <- results[!duplicated(results), ]
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names(results) <- c("date", "id_str", "issue", "tags")
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results <- results[order(results$id_str), ]
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row.names(results) <- NULL
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results[23381,]
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results[53381,]
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results[43253,]
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for(r in 53371:nrow(results)) {
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curdate <- as.character(results$date[r])
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curid <- as.character(results$id_str[r])
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curissue <- as.character(results$issue[r])
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curtag <- as.character(results$tags[r])
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cat("Sorting match", r, "of 53383 \n")
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# Update issue counter (date and issue)
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issues[issues[, "date"] == curdate, curissue] <- issues[issues[, "date"] == curdate, curissue] + 1
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# Update tweet dataframe (id, issue and tags)
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oldissue <- tweets[tweets[, "id_str"] == curid, "issue"]
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tweets[tweets[, "id_str"] == curid, "issue"] <- str_c(oldissue, curissue, ",")
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oldtag <- tweets[tweets[, "id_str"] == curid, "tags"]
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tweets[tweets[, "id_str"] == curid, "tags"] <- str_c(oldtag, curtag, ",")
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}
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issues[issueheads] <- 0
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View(issues)
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for(r in 1:nrow(results)) {
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curdate <- as.character(results$date[r])
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curid <- as.character(results$id_str[r])
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curissue <- as.character(results$issue[r])
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curtag <- as.character(results$tags[r])
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cat("Sorting match", r, "of 53383 \n")
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# Update issue counter (date and issue)
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issues[issues[, "date"] == curdate, curissue] <- issues[issues[, "date"] == curdate, curissue] + 1
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# Update tweet dataframe (id, issue and tags)
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oldissue <- tweets[tweets[, "id_str"] == curid, "issue"]
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tweets[tweets[, "id_str"] == curid, "issue"] <- str_c(oldissue, curissue, ",")
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oldtag <- tweets[tweets[, "id_str"] == curid, "tags"]
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tweets[tweets[, "id_str"] == curid, "tags"] <- str_c(oldtag, curtag, ",")
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}
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require(lubridate)
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require(XML)
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require(ggplot2)
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require(reshape2)
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require(stringr)
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require(foreach)
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require(doParallel)
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for(r in 1:nrow(results)) {
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curdate <- as.character(results$date[r])
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curid <- as.character(results$id_str[r])
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curissue <- as.character(results$issue[r])
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curtag <- as.character(results$tags[r])
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cat("Sorting match", r, "of 53383 \n")
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# Update issue counter (date and issue)
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issues[issues[, "date"] == curdate, curissue] <- issues[issues[, "date"] == curdate, curissue] + 1
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# Update tweet dataframe (id, issue and tags)
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oldissue <- tweets[tweets[, "id_str"] == curid, "issue"]
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tweets[tweets[, "id_str"] == curid, "issue"] <- str_c(oldissue, curissue, ",")
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oldtag <- tweets[tweets[, "id_str"] == curid, "tags"]
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tweets[tweets[, "id_str"] == curid, "tags"] <- str_c(oldtag, curtag, ",")
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}
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results[119,]
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results[120,]
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load(file = "tweets_untagged.RData")
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setwd("~/Dokumente/Uni/Aktuell/BA-Arbeit/uni-ba-issuecomp")
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results_files <- "matched-ids/all.csv"
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load(file = "tweets_untagged.RData")
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View(issues)
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issues <- data.frame(date = drange)
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issuelist <- readLines("issues.xml")
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issuelist <- str_replace_all(string = issuelist, pattern = ".*<!-- .+ -->", "")
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issuelist <- xmlToList(issuelist)
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issueheads <- names(issuelist)
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issues[issueheads] <- 0
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tweets$issue <- ""
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tweets$tags <- ""
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View(results)
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rm(r, results_temp, results_files)
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results <- results[!duplicated(results), ]
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names(results) <- c("date", "id_str", "issue", "tags")
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results <- results[order(results$id_str), ]
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row.names(results) <- NULL
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for(r in 1:nrow(results)) {
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curdate <- as.character(results$date[r])
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curid <- as.character(results$id_str[r])
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curissue <- as.character(results$issue[r])
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curtag <- as.character(results$tags[r])
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cat("Sorting match", r, "of 53383 \n")
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# Update issue counter (date and issue)
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issues[issues[, "date"] == curdate, curissue] <- issues[issues[, "date"] == curdate, curissue] + 1
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# Update tweet dataframe (id, issue and tags)
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oldissue <- tweets[tweets[, "id_str"] == curid, "issue"]
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tweets[tweets[, "id_str"] == curid, "issue"] <- str_c(oldissue, curissue, ",")
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oldtag <- tweets[tweets[, "id_str"] == curid, "tags"]
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tweets[tweets[, "id_str"] == curid, "tags"] <- str_c(oldtag, curtag, ",")
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}
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curdate
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curissue
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issues[issues[, "date"] == curdate, curissue]
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issueheads
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issuelist <- readLines("issues-v2.xml")
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issues <- data.frame(date = drange)
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issuelist <- readLines("issues-v2.xml")
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issuelist <- str_replace_all(string = issuelist, pattern = ".*<!-- .+ -->", "")
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issuelist <- xmlToList(issuelist)
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issueheads <- names(issuelist)
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issues[issueheads] <- 0
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tweets$issue <- ""
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tweets$tags <- ""
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for(r in 1:nrow(results)) {
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curdate <- as.character(results$date[r])
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curid <- as.character(results$id_str[r])
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curissue <- as.character(results$issue[r])
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curtag <- as.character(results$tags[r])
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cat("Sorting match", r, "of 53383 \n")
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# Update issue counter (date and issue)
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issues[issues[, "date"] == curdate, curissue] <- issues[issues[, "date"] == curdate, curissue] + 1
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# Update tweet dataframe (id, issue and tags)
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oldissue <- tweets[tweets[, "id_str"] == curid, "issue"]
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tweets[tweets[, "id_str"] == curid, "issue"] <- str_c(oldissue, curissue, ",")
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oldtag <- tweets[tweets[, "id_str"] == curid, "tags"]
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tweets[tweets[, "id_str"] == curid, "tags"] <- str_c(oldtag, curtag, ",")
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}
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results[33170,]
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results[33171,]
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results$date[33170]
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results$date[33170] <- "2014-08-21"
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for(r in 33170:nrow(results)) {
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curdate <- as.character(results$date[r])
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curid <- as.character(results$id_str[r])
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curissue <- as.character(results$issue[r])
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curtag <- as.character(results$tags[r])
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cat("Sorting match", r, "of 53383 \n")
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# Update issue counter (date and issue)
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issues[issues[, "date"] == curdate, curissue] <- issues[issues[, "date"] == curdate, curissue] + 1
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# Update tweet dataframe (id, issue and tags)
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oldissue <- tweets[tweets[, "id_str"] == curid, "issue"]
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tweets[tweets[, "id_str"] == curid, "issue"] <- str_c(oldissue, curissue, ",")
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oldtag <- tweets[tweets[, "id_str"] == curid, "tags"]
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tweets[tweets[, "id_str"] == curid, "tags"] <- str_c(oldtag, curtag, ",")
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}
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save(tweets, file="tweets_tagged.RData")
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write.csv(tweets, file="tweets.csv")
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save(issues, file="issues.RData")
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require(stringr)
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require(reshape2)
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require(ggplot2)
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require(vars)
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drop_s <- which(str_detect(names(issues), "^s"))
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drop_i <- which(str_detect(names(issues), "^i"))
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issues_i <- issues[,-drop_s]
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issues_s <- issues[,-drop_i]
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issues_i$total <- rowSums(issues_i[2:ncol(issues_i)])
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issues_i$entropy <- 0
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for(r in 1:nrow(issues_i)) {
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curtotal <- as.numeric(issues_i$total[r])
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curp <- 0
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for(c in 2:ncol(issues_i)) {
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curcount <- as.numeric(issues_i[r,c])
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curp[c] <- curcount / curtotal
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}
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curp <- curp [2:length(curp)-2]
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curdrop <- which(curp==0)
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curp <- curp[-curdrop]
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issues_i$entropy[r] <- sum(-1 * curp * log(curp))
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}
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issues_s$total <- rowSums(issues_s[2:ncol(issues_s)])
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issues_s$entropy <- 0
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for(r in 1:nrow(issues_s)) {
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curtotal <- as.numeric(issues_s$total[r])
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curp <- 0
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for(c in 2:ncol(issues_s)) {
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curcount <- as.numeric(issues_s[r,c])
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curp[c] <- curcount / curtotal
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}
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curp <- curp [2:length(curp)-2]
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curdrop <- which(curp==0)
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curp <- curp[-curdrop]
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issues_s$entropy[r] <- sum(-1 * curp * log(curp))
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}
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stats_total <- data.frame(date=drange)
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stats_total$tpd <- 0
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stats_total$ipd <- issues_i$total
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stats_total$spd <- issues_s$total
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# Total number of tweets per day over time
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for(r in 1:length(drange)) {
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stats_total$tpd[r] <- length(tweets[tweets[, "created_at"] == drange[r], "id_str"])
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}
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g1 <- ggplot(data = stats_melt, aes(x=date,y=value,colour=variable, group=variable)) +
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geom_line()+
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geom_smooth(size=1,formula = y ~ x, method="loess", se=FALSE, color=1)
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g1
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stats_entropy <- data.frame(date=drange)
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stats_entropy$entropy <- issues_i$entropy
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stats_entropy <- melt(stats_entropy, id="date")
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g1 <- ggplot(data = stats_entropy, aes(x=date,y=value,colour=variable, group=variable)) +
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geom_line() +
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geom_smooth(size=1,formula = y ~ x, method="loess", se=FALSE, color=1)
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g1
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test <- VAR(issues[,2:32], p=1, type="none")
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View(issues_i)
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View(issues_s)
|
|
View(issues)
|
|
test <- VAR(issues[,2:44], p=1, type="none")
|
|
VAR(issues_s[,2:23], p=1, type=c("const", "trend", "both", "none"), season=NULL, exogen = issues_i[2:22])
|
|
plot(irf(test, impulse = names(issues_s[2:23]), response = names(issues_i[2:22])))
|
|
rm(c_correct, c_curissue, c_errcode, c_errid, c_errissue, c_error1, c_error2, c_errors)
|
|
rm(c_issues, c_issuelist, c_issueheads)
|
|
rm(c_errtags, c_errtext, c_result, c_tag, c_tmp, c_tweets)
|
|
require(stringr)
|
|
require(XML)
|
|
readYN <- function(question) {
|
|
n <- readline(prompt=question)
|
|
n <- as.character(n)
|
|
return(n)
|
|
}
|
|
checkIssue <- function(string, issuelist) {
|
|
status <- any(str_detect(string, issuelist))
|
|
return(status)
|
|
}
|
|
checkAllIssues <- function(string, issuelist) {
|
|
status <- NULL
|
|
for(i in 1:length(string)) {
|
|
if(checkIssue(string[i], issuelist)) {
|
|
status[i] <- TRUE
|
|
}
|
|
else {
|
|
cat("Issue",string[i],"does not exist. Please try again.\n")
|
|
status[i] <- FALSE
|
|
}
|
|
}
|
|
return(status)
|
|
}
|
|
View(tweets)
|
|
c_tweets <- read.csv("tweets.csv", colClasses="character")
|
|
for(r in 1:nrow(c_tweets)) {
|
|
curtext <- as.character(c_tweets$text[r])
|
|
if(str_detect(curtext, "\"")) {
|
|
c_tweets$text[r] <- str_replace(curtext, "\"", "")
|
|
}
|
|
}
|
|
c_tweets$X <- NULL
|
|
c_issues <- data.frame(date = drange)
|
|
c_issuelist <- xmlToList("issues-v2.xml")
|
|
c_issueheads <- names(issuelist)
|
|
c_issues[issueheads] <- 0
|
|
source("issuecomp-codingsample-function.R")
|
|
require(stringr)
|
|
curtext
|
|
curtext <- str_replace_all(curtext, "#", "")
|
|
curtext <- str_replace_all(curtext, "-", " ")
|
|
curtext
|
|
curtext
|
|
str_replace_all(curtext, "[^[:alnum:]]", "")
|
|
str_replace_all(curtext, "[^[:alnum:]\s]", "")
|
|
str_replace_all(curtext, "[^[:alnum:]\\s]", "")
|
|
str_replace_all(curtext, "[^[:alnum:]^\\s]", "")
|
|
str_replace_all(curtext, "[^[:alnum:]^\\S]", "")
|
|
str_replace_all(curtext, "[^[:alnum:]][^\\s]", "")
|
|
str_replace_all(curtext, "[^[:alnum:]][^\\S]", "")
|
|
str_replace_all(curtext, "[^[:alnum:]][^[:blank]]", "")
|
|
str_replace_all(curtext, "[^[:alnum:]][^[:blank:]]", "")
|
|
str_replace_all(curtext, "[^[:alnum:]]", "")
|
|
str_replace_all(curtext, "\\W", "")
|
|
str_replace_all(curtext, "[\\W|\\S]", "")
|
|
str_replace_all(curtext, "(\\W|\\S)", "")
|
|
str_replace_all(curtext, "\\W|\\S", "")
|
|
str_replace_all(curtext, "\\W", "")
|
|
str_replace_all(curtext, "[\\W\\S]", "")
|
|
str_replace_all(curtext, "[\\S\\W]", "")
|
|
str_replace_all(curtext, "[\\s\\W]", "")
|
|
str_replace_all(curtext, "[\\W\\s]", "")
|
|
str_replace_all(curtext, "[\\W\s]", "")
|
|
str_replace_all(curtext, "[\\Ws]", "")
|
|
str_replace_all(curtext, "[\\W]", "")
|
|
str_replace_all(curtext, "\\W", "")
|
|
str_replace_all(curtext, "\\W|\\S", "")
|
|
str_replace_all(curtext, "\\W|\\s", "")
|
|
str_replace_all(curtext, "[^[:alnum:]]", "")
|
|
str_replace_all(curtext, "[^[:alnum:] ]", "")
|
|
str_replace_all(curtext, "[^[:alnum:]\\s]", "")
|
|
str_replace_all(curtext, "[^[:alnum:] ]", "")
|
|
curtext
|
|
curtext <- "liebe @cdu, wir finden #Steuer gut, aber die KFZ-Steuer nicht!"
|
|
curtext <- str_replace_all(curtext, "-", " ")
|
|
curtext <- str_replace_all(curtext, "[^[:alnum:] ]", "")
|
|
curtext
|
|
curtext <- "liebe @cdu, wir finden #Steuer gut, aber die KFZ--Steuer nicht!"
|
|
curtext <- str_replace_all(curtext, "-", " ")
|
|
curtext <- str_replace_all(curtext, "[^[:alnum:] ]", "")
|
|
curtext
|
|
str_replace_all(curtext, " ", " ")
|
|
smartPatternMatch
|
|
require(vars)
|
|
require(stringr)
|
|
adf1 <- summary(ur.df(issues))
|
|
issues
|
|
summary(issues)
|
|
summary(issues[2:44])
|
|
summary(issues[2:44], digits = 2)
|
|
adf1 <- summary(ur.df(issues[, 2:44]), type ="trend", lags=1)
|
|
data("Canda")
|
|
data("Canada")
|
|
class(Canada)
|
|
class(issues)
|
|
view(Canada)
|
|
View(Canada)
|
|
as.ts(issues)
|
|
issues_ts <- as.ts(issues)
|
|
class(issues_ts)
|
|
View(issues_ts)
|
|
View(issues)
|
|
adf1 <- summary(ur.df(issues_ts[, 2:44]), type ="trend", lags=1)
|
|
adf1 <- summary(ur.df(issues_ts[, 2]), type ="trend", lags=1)
|
|
adf1 <- summary(ur.df(issues_ts[, 2], type ="trend", lags=1))
|
|
adf1 <- summary(ur.df(issues_ts[, 2:44], type ="trend", lags=1))
|
|
adf1 <- summary(ur.df(issues_ts[, 2], type ="trend", lags=1))
|
|
adf1
|
|
adf1 <- summary(ur.df(issues_ts[, 3], type ="trend", lags=1))
|
|
adf1
|
|
adf1 <- summary(ur.df(issues_ts[, 2], type ="none", lags=1))
|
|
adf1
|
|
adf1 <- summary(ur.df(issues_ts[, 2], type ="trend", lags=1))
|
|
adf1
|
|
summary(ur.df(issues_ts[, 2], type ="none", lags=1))
|
|
VARselect(issues_ts[2:44], lag.max = 8, type = "both")
|
|
VARselect(issues_ts[1:44], lag.max = 8, type = "both")
|
|
VARselect(issues[1:44], lag.max = 8, type = "both")
|
|
VARselect(issues[2:44], lag.max = 8, type = "both")
|
|
VARselect(issues_ts[2:44], lag.max = 8, type = "both")
|
|
VARselect(issues[2:44], lag.max = 8, type = "none")
|
|
VARselect(issues[2:44], lag.max = 8, type = "trend")
|
|
VARselect(issues[2:44], lag.max = 8, type = "const")
|
|
VARselect(issues[2:44], lag.max = 8, type = "both")
|
|
test <- VAR(issues[,2:44], p=1, type="both")
|
|
# VAR(issues_s[,2:23], p=1, type=c("const", "trend", "both", "none"), season=NULL, exogen = issues_i[2:22])
|
|
plot(irf(test, impulse = names(issues_s[2:23]), response = names(issues_i[2:22])))
|
|
summary(ur.df(issues_ts[, 2], type ="both", lags=1))
|
|
summary(ur.df(issues_ts[, 2], type ="none", lags=1))
|
|
test <- VAR(issues_ts[,2:44], p=1, type="both")
|
|
plot(irf(test, impulse = names(issues_s[2:23]), response = names(issues_i[2:22])))
|
|
acc_df <- read.csv("MdB-twitter.csv")
|
|
delrow <- NULL
|
|
for(r in 1:nrow(acc_df)) {
|
|
acc <- as.character(acc_df$twitter_acc[r])
|
|
if(!nzchar(acc)) {
|
|
delrow <- c(delrow, r)
|
|
}
|
|
}
|
|
acc_df <- acc_df[-delrow, ]
|
|
rm(delrow, r, acc)
|
|
acc_df$row.names <- NULL
|
|
row.names(acc_df) <- NULL
|
|
View(acc_df)
|