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I have a set of observation in irregular grid. I want to have them in regular grid with resolution of 5. This is an example :

d <- data.frame(x=runif(1e3, 0, 30), y=runif(1e3, 0, 30), z=runif(1e3, 0, 30))

 ## interpolate xy grid to change irregular grid to regular


 d2 <- with(d,interp(x, y, z, xo=seq(0, 30, length = 500),
                  yo=seq(0, 30, length = 500), duplicate="mean"))

how can I have the d2 in SpatialPixelDataFrame calss? which has 3 colomns, coordinates and interpolated values.

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1 Answer 1

up vote 3 down vote accepted

You can use code like this (thanks to the comment by @hadley):

d3 <- data.frame(x=d2$x[row(d2$z)],

The idea here is that a matrix in R is just a vector with a bit of extra information about its dimensions. The as.vector call drops that information, turning the 500x500 matrix into a linear vector of length 500*500=250000. The subscript operator [ does the same, so although row and col originally return a matrix, that is treated as a linear vector as well. So in total, you have three matrices, turn them all to linear vectors with the same order, use two of them to index the x and y vectors, and combine the results into a single data frame.

My original solution didn't use row and col, but instead rep to formulate the x and y columns. It is a bit more difficult to understand and remember, but might be a bit more efficient, and give you some insight useful for more difficult applications.

d3 <- data.frame(x=rep(d2$x, times=500),
                 y=rep(d2$y, each=500),

For this formulation, you have to know that a matrix in R is stored in column-major order. The second element of the linearized vector therefore is d2$z[2,1], so the rows number will change between two subsequent values, while the column number will remain the same for a whole column. Consequently, you want to repeat the x vector as a whole, but repeat each element of y by itself. That's what the two rep calls do.

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I think data.frame(x = d2$x[row(d2$z)], y = d2$y[col(d2$z)], ...) is slightly clearer. –  hadley Jan 15 '13 at 13:45
@hadley, I agree, incorporated your suggestion into my answer. –  MvG Jan 15 '13 at 13:59

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