Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I would like to replicate a combined table/plot done in LaTeX/pgf within ggplot2.

This is the original table/plot:

enter image description here

Here is, how far I got using ggplot2:

enter image description here

There are still some minor (?) issues, but my main problem is: How do I add the table header?

It should align properly to the elements.

Ideally it would also mimic the look of booktabs as in the original example using the horizontal lines.

Any ideas?

This is the code, I use so far:

tmptable <-
    data.frame(Method=c("label", "svlabel", "libor", "rpirat", "Frankfurt", "high"),
               p=c(0.03, 0.38, 0.27, 0.31, 0.05, 0.36),
               p_lo=c(-0.05, 0.34, 0.21, 0.24, -0.03, 0.32),
               p_hi=c(0.11, 0.41, 0.33, 0.38, 0.13, 0.41))
plotPointsCIinMatrix(tmptable)

With this function:

plotPointsCIinMatrix <- function(data,
                                 cols=NULL,
                                 .label=1,
                                 .point_estimate=2,
                                 .ci_lo=3,
                                 .ci_hi=4,
                                 .digits=2) {
  if (!require("ggplot2"))
      stop("Need package 'ggplot2'")
  if (!require("reshape"))
      stop("Need package 'reshape'")
  if (!require("gridExtra"))
      stop("Need package 'gridExtra'")

  ## keep the order
  data[,.label] <- factor(data[,.label], levels=rev(unique(data[,.label])))

  ## reshape data for table plotting
  table_df <- data.frame(label=data[,.label],
                         point_estimate=data[,.point_estimate],
                         ci=paste0("[",
                             data[,.ci_lo],
                             "; ",
                             data[,.ci_hi],
                             "]"))
  table_df_melted <- melt(table_df, id.vars = "label")

  ## plot the table (part 1)
  plot_table <- 
      ggplot(table_df_melted, aes(y=label, x=variable)) +
          geom_text(aes(label=value)) +
              scale_x_discrete("", labels="", expand=c(0.4,0)) +
                  theme_minimal() +
                      theme(panel.grid.major=element_blank(),
                            panel.grid.minor=element_blank(),
                            axis.ticks=element_blank(),
                            axis.title.x=element_blank(),
                            axis.title.y=element_blank(),
                            axis.text.y=element_blank(),
                            plot.margin=unit(c(1,1,0.5,0), "lines"),
                            panel.margin=unit(0, "cm"))

  ## plot the ci-plot (part 2)
  plotname_point_estimate <- colnames(data[,.point_estimate, drop=FALSE])
  plotname_label <- colnames(data[,.label, drop=FALSE])
  plotname_ci_lo <- colnames(data[,.ci_lo, drop=FALSE])
  plotname_ci_hi <- colnames(data[,.ci_hi, drop=FALSE])
  plot_ci <-
      ggplot(data,
             aes_string(x=plotname_point_estimate, y=plotname_label)) +
          geom_segment(aes_string(x=plotname_ci_lo,
                                  xend=plotname_ci_hi,
                                  yend=plotname_label),
                       colour="grey70",
                       lwd=0.5,
                       leneend="round",
                       arrow=arrow(angle=90, ends="both", length = unit(0.15, "cm"))) +
          geom_point(aes_string(colour=plotname_label), size=4) +
              (if (is.null(cols)) {
                  scale_color_discrete(guide=FALSE)
                } else {
                  scale_color_manual(guide=FALSE, values=cols)
                }) +
          expand_limits(x=1) +
          geom_vline(aes(x=0), lty="dashed", lwd=0.9, colour="grey70") +
          theme_minimal() +
          theme(axis.title.y=element_blank(),
                axis.title.x=element_blank(),
                axis.ticks=element_blank(),
                axis.text.y=element_text(size=15, hjust=0),
                plot.margin=unit(c(1,0,0.5,0.5), "lines"))

  gp <- ggplot_gtable(ggplot_build(plot_ci))
  gdata.table <- ggplot_gtable(ggplot_build(plot_table))
  maxHeight = grid::unit.pmax(gp$heights[2:3], gdata.table$heights[2:3])
  gp$heights[2:3] <- as.list(maxHeight)
  gdata.table$heights[2:3] <- as.list(maxHeight)
  library("gridExtra")
  a <- arrangeGrob(gp, gdata.table,
                   ##clip = FALSE,
                   ncol = 2,
                   widths = unit(c(10,5),
                       c("null", "null")))

  a
}
share|improve this question
    
I would use gtable all the way, rather than mixing it with arrangeGrob. It will be easier to add a top row aligned with the rest. –  baptiste Sep 23 '13 at 1:39

1 Answer 1

You can add a table title by putting the option main = "Put your title here!"

I know it's not exactly what you're looking for but you may be able to work in the arrangeGrob framework. Another way would be to make the table header in LaTeX and align the graphic perfectly with it.

Here is the part of the function that I changed:

... previous code in plotPointsCIinMatrix()

library("gridExtra")
a <- arrangeGrob(gp, gdata.table,
               ##clip = FALSE,
               ncol = 2,
               widths = unit(c(10,5),
                             c("null", "null")),
               main = "Put your title here!")

a
}

share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.