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I'm new to this site. I was wondering if anyone had experience with turning a list of grid coordinates (shown in example code below as df). I've written a function that can handle the job for very small data sets but the run time increases exponentially as the size of the data set increases (I think 800 pixels would take about 25 hours). It's because of the nested for loops but I don't know how to get around it.

## Dummy Data
x <- c(1,1,2,2,2,3,3)
y <- c(3,4,2,3,4,1,2)
df <-,y))

## Here's what it looks like as an image
a <- c(NA,NA,1,1)
b <- c(NA,1,1,1)
c <- c(1,1,NA,NA)
image <- cbind(a,b,c)
f <- function(m) t(m)[,nrow(m):1]

## Here's my adjacency matrix function that's slowwwwww
adjacency.coordinates <- function(x,y) {
  df <-,y))
  colnames(df) = c("V1","V2")
  df <- df[with(df,order(V1,V2)),]
  adj.mat <- diag(1,dim(df)[1])
  for (i in 1:dim(df)[1]) {
    for (j in 1:dim(df)[1]) {
      if((df[i,1]-df[j,1]==0)&(abs(df[i,2]-df[j,2])==1) | (df[i,2]-df[j,2]==0)&(abs(df[i,1]-df[j,1])==1)) {
        adj.mat[i,j] = 1

## Here's the adjacency matrix

Does anyone know of a way to do this that will work well on a set of coordinates a couple thousand pixels long? I've tried conversion to SpatialGridDataFrame and went from there but it won't get the adjacency matrix correct. Thank you so much for your time.

share|improve this question
The OP apparently wants the adjacency matrix of the graph whose vertices are the "on" pixels of the image (x and y are the pixel coordinates; there are 7 pixels in the example), with an edge between two pixels if they are neighbours. It is a subgraph of the 2-dimensional grid. (The image can be replicated as: im <- matrix(FALSE,5,5); im[cbind(x,y)] <- TRUE; image(im).) – Vincent Zoonekynd Apr 18 '13 at 8:56
up vote 3 down vote accepted

While I thought igraph might be the way to go here, I think you can do it more simply like:

result <- apply(df, 1, function(pt) 
  (pt["x"] == df$x &  abs(pt["y"] - df$y) == 1) |
  (abs(pt["x"] - df$x) == 1 &  pt["y"] == df$y)    
diag(result) <- 1

And avoid the loopiness and get the same result:

> identical(adjacency.coordinates(x,y),result)
[1] TRUE
share|improve this answer
but your resulting matrix is not the same as the desired output from adjacency.coordinates(x,y)... – Ben Apr 18 '13 at 6:38
@Ben - I realise that - it does replicate the op's image call though, and does generate an adjacency matrix as per the wikipedia definition. To be honest i'm confused as to the what the result from the adjacency.coordinates(x,y) function represents. – thelatemail Apr 18 '13 at 6:43
+1 agreed, I can't quite work it out either. – Ben Apr 18 '13 at 6:51
Have updated answer to give a more appropriate result – thelatemail Apr 18 '13 at 9:47
Hi all, Thanks a bunch for the response. My adjacency.coordinates is based on the fact that when comparing two sets of coordinates, the sets are adjacent if either the difference between the x values is 0 and the y values is 1 or vice versa. That might not be the best explanation. All I really want to do is find out how to get an adjacency matrix out of a list of coordinates. Just hitting a wall... Thanks again, everyone. – Logan Apr 18 '13 at 16:41

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