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I currently have a loop - well actually a loop in loop, in a simulation model which gets slow with larger numbers of individuals. I've vectorised most of it and made it a heck of a lot faster. But there's a part where I assign multiple elements of a list as the same thing, simplifying a big loop to just the task I want to achieve:


With each iteration of the loop the line above is called, and the same matrix object is assigned to the next new element of a list.

I'm trying to vectorize this - if possible, or make it faster than a loop or apply statement.

So far I've tried stuff along the lines of:

indices <- seq(from = length(new.matrices) + 1, to = length(new.matrices) + reps)
new.matrices[indices] <- old.matrix

However this results in the message:

Warning message:
In new.effectors[effectorlength] <- matrix :
  number of items to replace is not a multiple of replacement length

It also tries to assign one value of the old.matrix to one element of new.matrices like so:

[1] 8687

[1] 1

[1] 5486

[1] 0

When the desired result is one list element = one whole matrix, a copy of old.matrix

Is there a way I can vectorize sticking a matrix in list elements without looping? With loops how it is currently implemented we are talking many thousands of repetitions which slows things down considerably, hence my desire to vectorize this if possible.

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new.matrices[indices] <- rep(list(old.matrix), length(indices)) – hadley Feb 22 '13 at 13:39
I bet there's a better way to build a storage object for whatever you're planning to produce. Are you going to replace each new.matrices[[k]] with some calculated matrix later on? (It doesn't seem to make a lot of sense to store N copies of the same data) If so, there's no need to pre-create each list entry. Next question: do you really need a list, or would a 3-rd rank array allmatrices[i,j,k] , each layer of which is oldmatrix suffice? – Carl Witthoft Feb 22 '13 at 16:45
The matrices are 2 in row and n in col, and store the information regarding the genes an individual has. What is happening here, is asexual reproduction via spores. the number of columns is dependent on the number of genes - genes can be duplicated or deleted. Each of new.matrices will change after this due to various mutational processes. So for old.matrix[[1]] - say it makes 20 offspring, it gets put in the new.matrix 20 times, before being subject to functions doing mutational processes. This list is also copied to a results list every sim cycle for results purposes. – Ward9250 Feb 22 '13 at 17:25
You're correct that the layers have to be the same size, but you did say you were putting the same matrix into each layer. Unless your gene processing is going to change the size of a matrix, that shouldn't matter. – Carl Witthoft Feb 22 '13 at 18:03
One of the processes is a deletion or duplication of a gene, this ends up changing the number of columns in individual matrices. – Ward9250 Feb 22 '13 at 19:19

Probably you already solved your problem, anyway, the issue in your code

new.matrices[indices] <- old.matrix

was caused by trying to replace some objects (the NULL elements in your new.matrices list) with something different, a matrix. So R coerces old.matrix into a vector and tries to stick each single value to a different list element, (that's why you got this result, and when, say, reps is 4 or 8 and old.matrix is NOT a 2 x 2 matrix, you also get the warning). Doing

new.matrices[indices] <- list(old.matrix)

will work, and R will replicate the single element list list(old.matrix) "reps" times automatically.

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