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# Arrange n ggplots into lower triangle matrix shape

I have n ggplot objects that will always have the correct number to make a lower triangle of a matrix (no diagonals). How can I arrange them in this order:

``````1
2 3
4 5 6
7 8 9 10
``````

to form a grid (n = 10 here)?

Here is data to make n plots and how I'd like it to look of I had n = 6.

``````n <- sample(1:4, 1)
N <- sum(n:1)

library(ggplot2)
theplot <- ggplot(mtcars, aes(mpg, hp)) + geom_point()
plots <- lapply(1:N, function(i) theplot)
plots <- mapply(function(x, y) x + ggtitle(y), plots,
paste("PLOT", seq_along(plots)), SIMPLIFY=FALSE)
``````

I suspect `gridExtra` may be useful here but there are blank panes. I'm open to base or add on package ideas.

-

You can define the following function,

``````gtable_layout <- function(grobs, widths = NULL, heights = NULL,
m, ...){

if(is.null(widths))
widths <- unit(rep(1,ncol(m)), "null")
if(is.null(heights))
heights <- unit(rep(1,nrow(m)), "null")

cells <- sort(unique(c(m)))

## left/right/top/bottom borders for given id
range_cell <- function(ii){
ind <- which(m == ii, arr.ind=TRUE)
c(l=min(ind[,"col"]),
r=max(ind[,"col"]),
t=min(ind[,"row"]),
b=max(ind[,"row"]))
}

layout <- data.frame(t(sapply(cells, range_cell)))

gt <- gtable(widths = widths, heights = heights, ...)

with(layout, gtable_add_grobs(gt, grobs, t=t, l=l, b=b, r=r))

}
``````

and use it with a list of plots and a layout matrix,

``````library(ggplot2)
library(grid)
library(gtable)
.n <- 0
plots <- replicate(10, { .n <<- .n+1; qplot(1,1) + ggtitle(.n)}, simplify = FALSE)
lg <- lapply(plots, ggplotGrob)

m <- matrix(NA, 4, 4)
m[lower.tri(m, diag = T)] <- 1:10

g <- gtable_layout(lg, m=m)
grid.newpage()
grid.draw(g)
``````
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Thanks. Works perfect and generalizable. – Tyler Rinker Apr 10 '14 at 21:19

Here's a fairly painless approach, which shouldn't be too difficult to generalize:

``````library(gridExtra) ## for grid.arrange()
ng <- nullGrob()
grid.arrange(plots[[1]], ng,         ng,
plots[[2]], plots[[3]], ng,
plots[[4]], plots[[5]], plots[[6]])
``````

-
Thanks Josh. I was working through this to make it more generalizable when baptiste gave a solution that was ready to go. Interactively, this may be the preferred solution. – Tyler Rinker Apr 10 '14 at 21:19

I was a fan of `wq::layOut` for arranging ggplots when `grid.arrange` seems too complicated (though Josh shows that it works just fine here). If you use a new device, you don't have to worry about the holes.

`layOut` was removed from the `wq` package, so I include the code here, renamed to `lay_out`. It's at the bottom, after the usage examples.

``````lay_out(list(plots[[1]], 1, 1), # each arg is list(plot, row(s), column(s))
list(plots[[2]], 2, 1),
list(plots[[3]], 2, 2))
``````

It's main strength is when you have different sized plots.

``````lay_out(list(plots[[1]], 1, 1:3),
list(plots[[2]], 2, 1),
list(plots[[3]], 2, 2),
list(plots[[4]], 3, 1:2),
list(plots[[5]], 2:3, 3))
``````

I think anything you could do with `layOut` can be done with nested `grid.arrange` and `arrangeGrob` calls, but it's often easier to think about this way.

``````#' Arranging ggplots
#'
#' Provides a \code{layout}-like interface for arranging ggplots of different
#' sizes.
#'
#' @param ... Each argument should be of the form \code{list(plot, rows,
#' columns)}, where \code{plot} is a ggplot (or similar), and \code{rows} and
#' \code{columns} are consecutive sequences indicating the row and column
#' numbers for \code{plot} to span.
#'
#' @author Alan D. Jassby and James E. Cloern (originally from the \code{wq}
#' package).
#'
#' @examples
#' \dontrun{
#' gg <- ggplot(mtcars, aes(x = hp, y = mpg)) + geom_point()
#' layOut(list(gg, 1:2, 1:3),
#'        list(gg, 3, 1:2),
#'        list(gg, 3, 3))
#' }
#'
#' @export
lay_out <- function(...) {

x <- list(...)
n <- max(sapply(x, function(x) max(x[[2]])))
p <- max(sapply(x, function(x) max(x[[3]])))
grid::pushViewport(grid::viewport(layout = grid::grid.layout(n, p)))

for (i in seq_len(length(x))) {
print(x[[i]][[1]],
vp = grid::viewport(layout.pos.row = x[[i]][[2]],
layout.pos.col = x[[i]][[3]]))
}
}
``````
-
Nice find. What an elegant wrapper for `grid.layout()` et al.! – Josh O'Brien Apr 10 '14 at 21:58
Thanks! I found it on some answer here and it's been my go-to ever since. It definitely deserves to be more widely known. – Gregor Apr 10 '14 at 22:09
Very cool approach. Thanks for sharing! – Tyler Rinker Apr 11 '14 at 3:14

And this is the more general solution...

``````rows <- 1:3
get.row <- function(i){
if (i==1) return(arrangeGrob(plots[[1]],ncol=length(rows)))
start=sum(seq[1:(i-1)])+1
end  <- start+seq[i]-1
do.call(arrangeGrob,c(lapply(start:end,function(i)plots[[i]]),ncol=length(rows)))
}
grid.newpage()
grid.arrange(do.call(arrangeGrob,c(lapply(1:length(rows),get.row),nrow=length(rows))))
``````
-

Another generalization building off of Josh's answer

``````trianglePlotGrid <- function(plots){
#take a list of plots and returns a single plot where the elements in the list arranged in a triangular grid
#plots should be a list of 1 or 3 or 6... plots to be arranged in a trianglular structure with 1 plot in the top row
ncols <- (-1 + sqrt(1 + 8*length(plots)))/2
i = 0; j = 0

grobs <- list()

for(p in plots){
grobs[[length(grobs)+1]] <- p
j = (j+1) %% ncols

while(j > i){
grobs[[length(grobs)+1]] <- nullGrob()
j = (j+1) %% ncols
}

if(j == 0) i = i + 1
}

do.call("grid.arrange", c(grobs, ncol=ncols))
}

df <- data.frame(x=c(1,2), y=c(1,2))
p <- ggplot(df, aes(x=x, y=y))+geom_point()
plist <- list(p, p, p, p, p, p)
trianglePlotGrid(plist)
``````

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