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Chapter1TablesFigures.Rmd
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Chapter1TablesFigures.Rmd
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```{r }
library(ggplot2)
library(xlsx)
library(reshape2)
library(stringr)
library(plyr)
library(scales)
make_df = function(t1){
colnames(t1)[1] = "year"
t1$World.output = NULL
t2 = t1
t2$America = t2$America + t2$Europe
t2$Africa = t2$America + t2$Africa
t2$Asia = t2$Africa + t2$Asia
t2$Lower = 0
t2 = t2[t2$year > 1500, ]
countries = c("Europe", "America", "Africa", "Asia")
df = cbind(t2[, c("year")], 0, t2[, "Europe"])
df = rbind(df, cbind(t2[, c("year")], t2[, "Europe"], t2[, "America"]))
df = rbind(df, cbind(t2[, c("year")], t2[, "America"], t2[, "Africa"]))
df = rbind(df, cbind(t2[, c("year")], t2[, "Africa"], t2[, "Asia"]))
df = data.frame(df)
colnames(df) = c("year", "ymin","ymax")
df$Country = rep(countries,
each=nrow(t2))
df$Country = factor(df$Country, levels= countries)
return(df)
}
```
# This code remakes Figure FI.1.
```{r,dependson="loadCh0",fig.height=4,fig.width=8}
t1 = read.xlsx("./Piketty2014FiguresTables/Chapter1TablesFigures.xlsx",
sheetName="TS1.1a",
rowIndex=7:18,colIndex=1:6,header=TRUE)
df = make_df(t1)
qplot(year,ymin=ymin, ymax= ymax, data=df,geom=c("ribbon"),
fill=Country,
xlab="Year", main="Distribution of world output 1700-2012") + scale_fill_manual(values = c("black", "grey80", "white", "grey60")) + theme_bw() + scale_y_continuous(labels = percent)
```
```{r,dependson="loadCh0",fig.height=4,fig.width=8}
t1 = read.xlsx("./Piketty2014FiguresTables/Chapter1TablesFigures.xlsx",
sheetName="TS1.2",
rowIndex=7:18,colIndex=1:6,header=TRUE)
df = make_df(t1)
qplot(year,ymin=ymin, ymax= ymax, data=df,geom=c("ribbon"),
fill=Country,
xlab="Year",ylab= "Percent", main="Distribution of world population 1700-2012") + scale_fill_manual(values = c("black", "grey80", "white", "grey60")) +theme_bw() + scale_y_continuous(labels = percent)
```
```{r,dependson="loadCh0",fig.height=4,fig.width=8}
t1 = read.xlsx("./Piketty2014FiguresTables/Chapter1TablesFigures.xlsx",
sheetName="TS1.3",
rowIndex=7:18,colIndex=1:8,header=TRUE)
colnames(t1)[1] = "year"
t1 = t1[, c("year", "Per.capita.output", "Europe...America", "Asia...Africa")]
colnames(t1) = c("year", "World", "Europe-America", "Asia-Africa")
t1 = melt(t1, id.vars="year")
labs = sort(unique(t1$year))
t1$year = as.numeric(factor(t1$year, levels = labs))
qplot(year, y= value, data=t1, xlab="Year",ylab= "Percent", main=c("Global inequality 0-2012: \ndivergence then convergence?")) +
geom_point(aes(shape=variable, colour= variable), size=4) +
geom_line(aes(linetype = variable)) +
scale_y_continuous(labels = percent)+
scale_fill_manual(values = c("black", "grey80", "white", "grey60")) +
scale_linetype_manual(values=c("solid", "solid", "solid")) +
scale_x_continuous(labels= labs, breaks = 1:max(t1$year)) +
scale_shape_manual(values=c(15, 2, 1)) +
scale_colour_manual(values=c("black", "black", "black"))
```