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Following Tal Galili example and using part of his code, I want to plot the balloonplot you can see here using R and the excellent ggplot2 package by Hadley Wickham.Want to share your content on R-bloggers? click here if you have a blog, or here if you don't.
### I retrieve the data from the google document you can find here using Tal Galili code: ## I slightly modified Tal code to include popularity stats: supplement.popularity <- supplements.data[ss,7] supplements.df <- na.omit(data.frame(supplement.name, supplement.benefits, supplement.popularity, supplement.score)) ## remove rows containing NAs colnames(supplements.df) <- c("name", "benefits", "popularity", "score") ## For sake of simplicity I select only the cardio metacondition cardio <- (supplements.df[supplement.benefits=="cardio",])[, -2] ## For reproducibility I add the cardio data.frame so you can use it right away cardio <- read.table(tc <-textConnection( " name popularity score 2 'arginine' 1.080 3 10 'vitamin b3' 0.201 3 15 'omega 3' 4.000 3 22 'hawthorn' 0.442 4 27 'red yeast rice' 0.264 4 29 'vitamin d' 6.700 4 31 'omega 6' 2.000 4 35 'green tea' 26.100 5 37 'olive leaf' 0.224 5 41 'fish oil' 4.000 6 43 'red yeast rice' 0.264 6")); close(tc) cardio$name <- gsub(" ", "\n", cardio$name) #substitute ' ' with '\n' in the names library(ggplot2) myTheme <- function(base_size = 10) { structure(list( panel.background = theme_rect(size = 1, colour = "lightgray"), panel.grid.major = theme_blank(), panel.grid.minor = theme_blank(), axis.line = theme_blank(), axis.text.x = theme_blank(), axis.ticks = theme_blank(), strip.background = theme_blank(), strip.text.y = theme_blank(), legend.background = theme_blank(), legend.key = theme_blank(), legend.key.size = unit(1.2, "lines"), legend.title = theme_text(size = 8, face = "bold", hjust = 0), legend.position = "right" ), class = "options") } s <- ggplot(cardio, aes(name, score)) + xlab(NULL) + ylab(NULL) + myTheme() s <- s + geom_point( aes(size=popularity, colour=score, fill=score), legend=TRUE) + scale_y_continuous( breaks=as.numeric(levels(factor(cardio$score))), labels=c("Conflicting", "Promising", "Good", "Strong") ) + scale_area( breaks=c(min(cardio$popularity),mean(cardio$popularity),max(cardio$popularity)), to=c(4,60) ) + geom_text(aes(y=cardio$score, label=cardio$name, size=cardio$popularity/90), legend=FALSE) #pdf("cardio.pdf",height=8,width=12);s;dev.off() png("cardio.png",height=700,width=1000);s;dev.off()
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