# How can I make cell size in an heatmap mediate data resolution using R?

Given the following example:

``````X <- matrix(nrow=3, ncol=3)
X[1,] <- c(0.3, 0.4, 0.45)
X[2,] <- c(0.3, 0.7, 0.65)
X[3,] <- c(0.3, 0.4, 0.45)
colnames(X)<-c(1.5, 3, 4)
rownames(X)<-c(1.5, 3, 4)
``````

A heatmap ( `heatmap(X, Rowv=NA, Colv=NA, col=rev(heat.colors(256)))` ) will look like:

Now, say that the variables on the axes are parameters affecting some function, the distance between 3 and 4 is smaller than the distance between 1 and 3 and I would like the cell size of the heat map to reflect this. How can I make a heat map where the cell size reflects the resolution of the known data?

I am thinking of something that looks a bit like this:

Do libraries for creating something like this exist? If no, is it because I am missing something? If so, what?

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If x and y are not categories, but continuous variables (which you imply with mentioning distances), you should treat them as such. That means, you would get empty cells for 2. Otherwise, please provide a mock-up of the intended result and how you would calculate cell size. –  Roland May 17 '13 at 10:05
I have thought a bit more and added a mock-up. There might be something more I am missing perhaps? –  jonalv May 17 '13 at 11:24
This might help. –  Julius May 21 '13 at 8:22
`ggplot2` supports variable tile sizes in `geom_tile`, you could probably leverage this to get what you need. See docs.ggplot2.org/current/geom_tile.html for details. –  Paul Hiemstra May 21 '13 at 8:22
For generalization, could you give the breaks rather than the midpoints? In your example output, referencing your horizontal axis label on top, the "1.5" box seems to start at about `0.75` and go to about `2.4`, then the "3" box goes `2.4` to `3.5`, and the "4" box goes from `3.5` to `4.5`(?). What do you want the endpoints to be? Maybe `(0, 4.5)`, or maybe the label-numbers are the midpoints of each box, in which case the breaks (including edges) should be at `(0.75, 2.25, 3.75, 4.25)`. Once you decide where the breaks are, this gets easy. –  Gregor May 21 '13 at 21:25

In a set of functions I personally use, I have a function for drawing two dimensional histograms that you could use. I have included the code below:

``````#' Plot two dimensional histogram
#'
#' @param hist matrix or two dimensional array containing the number of counts
#' in each of the bins.
#' @param borders_x the x-borders of the bins in the histogram. Should be a
#' numeric vector with lenght one longer than the number of columns of
#' \code{hist}
#' @param borders_y the y-borders of the bins in the histogram. Should be a
#' numeric vector with lenght one longer than the number of rows of
#' \code{hist}
#' @param type a character specifying the type of plot. Valid values are "text",
#' @param add add the plot to an existing one or create a new plot.
#' @param add_lines logical specifying whether or not lines should be drawn
#' between the bins.
#' @param draw_empty if \code{FALSE} empty bins (numer of counts equal to zero)
#' are not drawn. They are shown using the background color.
#' @param col for types "area" and "text" the color of the boxes and text.
#' @param line_col the color of the lines between the bins.
#' @param background_col the background color of the bins.
#' @param lty the line type of the lines between the bins.
#' @param text_cex the text size used for type "text". See \code{\link{par}} for
#' @param col_range the color scale used for type "color". Should be a function
#' which accepts as first argument the number of colors that should be
#' generated. The first color generated is used for the zero counts; the
#' last color for the highest number of counts in the histogram.
#'
#' @details
#' There are three plot types: "area", "text", and "color". In case of "area"
#' rectangles are drawn inside the bins with area proportional to the number of
#' counts in the bins. In case of text the number of counts is shown as text in
#' the bins. In case of color a color scale is used (by default heat.colors) to
#' show the number of counts.
#'
#' @seealso \code{\link{image}} which can be used to create plots similar to
#' type "color". \code{\link{contour}} may also be of interest.
#'
#' @examples
#' histplot2(volcano - min(volcano), type="color")
#' histplot2(volcano - min(volcano), add_lines=FALSE, type="area")
#' histplot2(volcano - min(volcano), type="text", text_cex=0.5)
#'
#' @export
histplot2 <- function(hist, borders_x=seq(0, ncol(hist)),
draw_empty=FALSE, col="black", line_col="#00000030",
background_col="white", lty=1, text_cex=0.6, col_range=heat.colors, ...) {
# create new plot
rangex <- c(min(borders_x), max(borders_x))
rangey <- c(min(borders_y), max(borders_y))
plot(rangex, rangey, type='n', xaxs='i', yaxs='i', ...)
rect(rangex[1], rangey[1], rangex[2], rangey[2], col=background_col,
border=NA)
}
# prepare data
nx <- length(borders_x)-1
ny <- length(borders_y)-1
wx <- rep(diff(borders_x), each=ny)
wy <- rep(diff(borders_y), times=nx)
sx <- 0.95*min(wx)/sqrt(max(hist))
sy <- 0.95*min(wy)/sqrt(max(hist))
x <- rep((borders_x[-length(borders_x)] + borders_x[-1])/2, each=ny)
y <- rep((borders_y[-length(borders_y)] + borders_y[-1])/2, times=nx)
h <- as.numeric(hist)
# plot type "area"
if (type == "area") {
dx <- sqrt(h)*sx*0.5
dy <- sqrt(h)*sy*0.5
rect(x-dx, y-dy, x+dx, y+dy, col=col, border=NA)
# plot type "text"
} else if (type == "text") {
if (draw_empty) {
text(x, y, format(h), cex=text_cex, col=col)
} else {
text(x[h!=0], y[h!=0], format(h[h!=0]), cex=text_cex, col=col)
}
# plot type "color"
} else if (type == "color" | type == "colour") {
#h <- h/(wx*wy)
col <- col_range(200)
col <- col[floor(h/max(h)*200*(1-.Machine\$double.eps))+1]
sel <- rep(TRUE, length(x))
if (!draw_empty) sel <- h > 0
rect(x[sel]-wx[sel]/2, y[sel]-wy[sel]/2, x[sel]+wx[sel]/2,
y[sel]+wy[sel]/2, col=col[sel], border=NA)
} else {
stop("Unknown plot type: options are 'area', 'text' and 'color'.")
}
lines(rbind(borders_x, borders_x, NA),
rbind(rep(rangey[1], nx+1), rep(rangey[2], nx+1), NA),
col=line_col, lty=lty)
lines(rbind(rep(rangex[1], ny+1), rep(rangex[2], ny+1), NA),
rbind(borders_y, borders_y, NA), col=line_col, lty=lty)
}
}
``````

For your example this results in:

``````X <- matrix(nrow=3, ncol=3)
X[1,] <- c(0.3, 0.4, 0.45)
X[2,] <- c(0.3, 0.7, 0.65)
X[3,] <- c(0.3, 0.4, 0.45)
centers <- c(1.5, 3, 4)

centers_to_borders <- function(centers) {
nc <- length(centers)
d0 <- centers[2]-centers[1]
d1 <- centers[nc]-centers[nc-1]
c(centers[1]-d0/2,
(centers[2:nc] + centers[1:(nc-1)])/2, centers[nc]+d1/2)
}

histplot2(X, centers_to_borders(centers),
centers_to_borders(centers), type="color")
``````

Edit

Below is a rough function that creates a color legend:

``````plot_range <- function(hist, col_range = heat.colors) {
r <- range(c(0, X))
par(cex=0.7, mar=c(8, 1, 8, 2.5))
plot(0, 0, type='n', xlim=c(0,1), ylim=r, xaxs='i',
yaxs='i', bty='n', xaxt='n', yaxt='n', xlab='', ylab='')
axis(4)
y <- seq(r[1], r[2], length.out=200)
yc <- floor(y/max(y)*5*(1-.Machine\$double.eps))+1
col <- col_range(5)[yc]
b <- centers_to_borders(y)
rect(rep(0, length(y)), b[-length(b)], rep(1, length(y)),
b[-1], col=col, border=NA)
}
``````

You could add this legend to your plot using `layout`:

``````layout(matrix(c(1,2), nrow = 1), widths = c(0.9, 0.1))
par(mar = c(5, 4, 4, 2) + 0.1)
histplot2(X, centers_to_borders(centers),
centers_to_borders(centers), type="color")
plot_range(X)
``````

Edit 2

In the original code of `histplot2` there was a line `h <- h/(wx*wy)` which I now have commented out. This devided the values of the histogram by the area of the bin, which is often what you want, but probably not in this case.

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Would be awesome with a box explaining what color maps to what value just as in Noah's answer as well. –  jonalv May 28 '13 at 11:42
@jonalv I added a rough legend. You may want to tweak. –  Jan van der Laan May 28 '13 at 16:09

Something like this, maybe?

``````library(ggplot2)
library(reshape2)

X <- matrix(nrow=3, ncol=3)
X[1,] <- c(0.3, 0.4, 0.45)
X[2,] <- c(0.3, 0.7, 0.65)
X[3,] <- c(0.3, 0.4, 0.45)

colnames(X)<-c(1.5, 3, 4)
rownames(X)<-c(1.5, 3, 4)
X <- melt(X)
X <- as.data.frame(X)
names(X) <- c("Var1", "Var2", "value")
v1m <- unique(X\$Var1)
X\$Var1.min <- rep(c(0, v1m[-length(v1m)]), length.out = length(v1m))
v2m <- unique(X\$Var2)
X\$Var2.min <- rep(c(0, v2m[-length(v2m)]), each = length(v2m))

ggplot(data = X, aes(fill = value)) +
geom_rect(aes(ymin = Var1.min, ymax = Var1, xmin = Var2.min, xmax = Var2))
``````

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I tried to run it but the row:`> X\$Var1.min <- rep(c(0, v1m[-length(v1m)]), length.out = length(v1m))` gives: `Error in `\$<-.data.frame`(`*tmp*`, "Var1.min", value = numeric(0)) : replacement has 0 rows, data has 9` –  jonalv May 24 '13 at 8:56
Odd. I just copied and pasted it into a new R session and it ran fine. Run `sessionInfo()` and tell me what you get. –  Noah May 25 '13 at 2:05
pastebin.com/f7R6QMKc –  jonalv May 27 '13 at 13:30
I think the error is because we are using different versions of `reshape2`. I'm guessing the version you are using names the columns differently. I've added some lines that should correct for this. –  Noah May 27 '13 at 16:31
That worked great! –  jonalv May 28 '13 at 11:36