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I'm trying to create a heatmap using ggplot2, but I noticed that it seems to rotate the matrix 90 degrees to the left when I plot it. It's very strange, and using coord_flip() and t() don't work, because they rotate it to the left, not the right (so rather than correcting, they create a heatmap that is rotated 180 degrees). Are there any options or tricks to prevent this? Here is the relevant code:

#this is needed to run custHeat
zeroInterval <- function(mat, colors){
  #modified version of findInterval such that zero is given its own category
  #This function takes intervals as left exclusive, right inclusive.
  #This is mostly so that intervals consisting of a single value will still be represented.
  intervalMat <- matrix(0, nrow=nrow(mat), ncol=ncol(mat))
  j <- 1
  for(i in 1:(length(colors) - 1)){
    if(colors[i] != colors[i+1]){
      intervalMat[mat>colors[i] & mat<=colors[i+1]] <- j
      j <- j + 1
    } else {
      intervalMat[mat==colors[i]] <- j
      j <- j + 1

#this actually plots the heatmap
custHeat <- function(M){

  #create color bins/ranges for skewed matrix
  color_bins <- c(-5, -4, -3, -2, -1, 0, 0, 1)
  colors <- c('#67001F', '#B2182B', '#D6604D', '#F4A582', '#FDDBC7', "#FFFFFF", '#C6DBEF')

  #create complete color palette
  color_palette <- colorRampPalette(colors)(length(color_bins) - 1)

  #This function assigns a number to each matrix value, so that it is colored correctly
  mod_mat <- zeroInterval(random_matrix, color_bins)

  ## remove background and axis from plot
  theme_change <- theme(
    plot.background = element_blank(),
    panel.grid.minor = element_blank(),
    panel.grid.major = element_blank(),
    panel.background = element_blank(),
    panel.border = element_blank(),
    axis.line = element_blank(),
    axis.ticks = element_blank(),
    axis.text.x = element_blank(),
    axis.text.y = element_blank(),
    axis.title.x = element_blank(),
    axis.title.y = element_blank()

  ## output the graphics
  ggplot(melt(mod_mat), aes(x = X1, y = X2, fill = factor(value))) +
    geom_tile(color = "black") +
    scale_fill_manual(values = color_palette, name = "") +

##create random matrix, skewed toward negative values
random_matrix <- matrix(runif(100, min = -5, max = 1), nrow = 10)
random_matrix[1,] <- 0 #zeros should be at the top row of the heatmap
share|improve this question
We don't have the function zeroInterval. –  joran Jan 28 '13 at 23:38
But in any case, this isn't strange per se, it's exactly consistent with basically every other function in R creates similar plots. From the documentation on image: "Notice that image interprets the z matrix as a table of f(x[i], y[j]) values, so that the x axis corresponds to row number and the y axis to column number, with column 1 at the bottom, i.e. a 90 degree counter-clockwise rotation of the conventional printed layout of a matrix." So generally you need to fill you matrix differently to account for this. –  joran Jan 28 '13 at 23:43
Here's a code snippet that will rotate a matrix 90 degrees clockwise. m <- matrix(1:9, ncol=3); t(m)[,nrow(m):1] –  Josh O'Brien Jan 28 '13 at 23:47
Did you try switching x and y. Your example isn't reproducible but I would suggest looking at what melt(model_mat) returns. –  N8TRO Jan 28 '13 at 23:50
@joran I added the code for zeroInterval. I've noticed that this is consistently the case in R, but it seems bizarre. Do you know what the justification is? –  Liz Sander Jan 28 '13 at 23:53

1 Answer 1

up vote 3 down vote accepted

You can counteract the 90 degree counter-clockwise rotation of the plotting function by pre-rotating your matrix 90 degrees in the other direction:

## An example matrix
(m <- matrix(1:9, ncol=3))
#      [,1] [,2] [,3]
# [1,]    1    4    7
# [2,]    2    5    8
# [3,]    3    6    9

## The same matrix rotated 90 degrees clockwise
#      [,1] [,2] [,3]
# [1,]    3    2    1
# [2,]    6    5    4
# [3,]    9    8    7

Added later:

Some R plotting functions use the same convention as image(), while others do not. (Please feel free to add to this list.)

m <- matrix(1:9, ncol=3)

## ------- These plotting functions DO rotate a matrix --------

## image()
image(m, col=blues9)

## levelplot() -- a lattice equivalent of image()
levelplot(m, at=(1:10)-0.5, col.regions=blues9)

## Others
filled.contour(m, color=colorRampPalette(blues9))
lattice::wireframe(m)  ## Nicely illustrates the logic of the indexing it uses

## ------- These plotting functions DO NOT --------

## imageRaster() -- a graphical primitive used by image(), among other functions 
plot(0:1, 0:1, type="n", xlab="", ylab="")
rasterImage(matrix(blues9, ncol=3), 0,0,1,1, interpolate=FALSE)

## grid.raster() -- imageRaster()'s counterpart in the grid graphical system
grid.raster(matrix(blues9, ncol=3), interpolate=FALSE)

## plot(raster()) in raster package
plot(raster(m), col=blues9)
share|improve this answer
Thanks, exactly what I needed. I find it very confusing that image() rotates a matrix ... does that serve a purpose? –  Raffael Feb 4 '14 at 19:11
@Яaffael -- I've got some thoughts about why, but mostly it's just something you have to get used to. It makes a bit of sense if you think of the (row,column) coordinates of each datum in the matrix as corresponding to the (x,y) coordinate of the point that plots it on a Cartesian plane. Row indices increase going down, column indices to the right; the corresponding x- and y-axis values increase, respectively, to the right and up. (That makes some sense to me, but I suspect that this may be the only reason that it does ;). –  Josh O'Brien Feb 4 '14 at 19:25

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