# R making a matrix of logical matrices

I've been trying to make a 1 row matrix that has logical matrices in each of the columns, but haven't been having very much luck. I tried a for loop:

mat<-matrix(NULL,nrow=1,ncol=60)
for(i in 1:60){mat<-list(mat,matrix(FALSE,nrow=4,ncol=4))}

That produced a 4x4 matrix with weird sized submatrices.

mat<-matrix(NULL,n=row=1,ncol=60)
for(i in 1:60){mat[i]<-matrix(FALSE,nrow=4,ncol=4)}

That produced a NULLxNULL matrix with 60 FALSEs.

-
If all your matrices have the same size as in your example, I'd highly recommend you create a 3D array. – flodel Oct 23 '12 at 22:38

A matrix in R is a strictly - defined array of elements. You probably want a structure, or more simply, a list variable.

foo<- list()
foo[1:4]<-1:4  #creates four elements in list variable. Short example; you'd use 1:60
foo[[1]]<- matrix(rep(TRUE,16),nr=4)

and so on.
But I am guessing you'd be a lot happier with a higher-dimension matrix instead of a structure like that.

-

A matrix is inherently 2 dimensional. You could make a data.frame where each column was a 4x4 matrix:

tmp <- data.frame(V1=logical(4))
for (i in 1:60) tmp[i] <- matrix(FALSE, nrow=4, ncol=4)

(This is an awkward way to make a data.frame because of the tendency of data.frames to spread out the columns of a matrix into different columns).

> str(tmp)
'data.frame':   4 obs. of  60 variables:
\$ V1 : logi [1:4, 1:4] FALSE FALSE FALSE FALSE FALSE FALSE ...
\$ V2 : logi [1:4, 1:4] FALSE FALSE FALSE FALSE FALSE FALSE ...
\$ V3 : logi [1:4, 1:4] FALSE FALSE FALSE FALSE FALSE FALSE ...
\$ V4 : logi [1:4, 1:4] FALSE FALSE FALSE FALSE FALSE FALSE ...
\$ V5 : logi [1:4, 1:4] FALSE FALSE FALSE FALSE FALSE FALSE ...
\$ V6 : logi [1:4, 1:4] FALSE FALSE FALSE FALSE FALSE FALSE ...
\$ V7 : logi [1:4, 1:4] FALSE FALSE FALSE FALSE FALSE FALSE ...
\$ V8 : logi [1:4, 1:4] FALSE FALSE FALSE FALSE FALSE FALSE ...
\$ V9 : logi [1:4, 1:4] FALSE FALSE FALSE FALSE FALSE FALSE ...
\$ V10: logi [1:4, 1:4] FALSE FALSE FALSE FALSE FALSE FALSE ...
\$ V11: logi [1:4, 1:4] FALSE FALSE FALSE FALSE FALSE FALSE ...
\$ V12: logi [1:4, 1:4] FALSE FALSE FALSE FALSE FALSE FALSE ...
\$ V13: logi [1:4, 1:4] FALSE FALSE FALSE FALSE FALSE FALSE ...
\$ V14: logi [1:4, 1:4] FALSE FALSE FALSE FALSE FALSE FALSE ...
\$ V15: logi [1:4, 1:4] FALSE FALSE FALSE FALSE FALSE FALSE ...
\$ V16: logi [1:4, 1:4] FALSE FALSE FALSE FALSE FALSE FALSE ...
\$ V17: logi [1:4, 1:4] FALSE FALSE FALSE FALSE FALSE FALSE ...
\$ V18: logi [1:4, 1:4] FALSE FALSE FALSE FALSE FALSE FALSE ...
\$ V19: logi [1:4, 1:4] FALSE FALSE FALSE FALSE FALSE FALSE ...
\$ V20: logi [1:4, 1:4] FALSE FALSE FALSE FALSE FALSE FALSE ...
\$ V21: logi [1:4, 1:4] FALSE FALSE FALSE FALSE FALSE FALSE ...
\$ V22: logi [1:4, 1:4] FALSE FALSE FALSE FALSE FALSE FALSE ...
\$ V23: logi [1:4, 1:4] FALSE FALSE FALSE FALSE FALSE FALSE ...
\$ V24: logi [1:4, 1:4] FALSE FALSE FALSE FALSE FALSE FALSE ...
\$ V25: logi [1:4, 1:4] FALSE FALSE FALSE FALSE FALSE FALSE ...
\$ V26: logi [1:4, 1:4] FALSE FALSE FALSE FALSE FALSE FALSE ...
\$ V27: logi [1:4, 1:4] FALSE FALSE FALSE FALSE FALSE FALSE ...
\$ V28: logi [1:4, 1:4] FALSE FALSE FALSE FALSE FALSE FALSE ...
\$ V29: logi [1:4, 1:4] FALSE FALSE FALSE FALSE FALSE FALSE ...
\$ V30: logi [1:4, 1:4] FALSE FALSE FALSE FALSE FALSE FALSE ...
\$ V31: logi [1:4, 1:4] FALSE FALSE FALSE FALSE FALSE FALSE ...
\$ V32: logi [1:4, 1:4] FALSE FALSE FALSE FALSE FALSE FALSE ...
\$ V33: logi [1:4, 1:4] FALSE FALSE FALSE FALSE FALSE FALSE ...
\$ V34: logi [1:4, 1:4] FALSE FALSE FALSE FALSE FALSE FALSE ...
\$ V35: logi [1:4, 1:4] FALSE FALSE FALSE FALSE FALSE FALSE ...
\$ V36: logi [1:4, 1:4] FALSE FALSE FALSE FALSE FALSE FALSE ...
\$ V37: logi [1:4, 1:4] FALSE FALSE FALSE FALSE FALSE FALSE ...
\$ V38: logi [1:4, 1:4] FALSE FALSE FALSE FALSE FALSE FALSE ...
\$ V39: logi [1:4, 1:4] FALSE FALSE FALSE FALSE FALSE FALSE ...
\$ V40: logi [1:4, 1:4] FALSE FALSE FALSE FALSE FALSE FALSE ...
\$ V41: logi [1:4, 1:4] FALSE FALSE FALSE FALSE FALSE FALSE ...
\$ V42: logi [1:4, 1:4] FALSE FALSE FALSE FALSE FALSE FALSE ...
\$ V43: logi [1:4, 1:4] FALSE FALSE FALSE FALSE FALSE FALSE ...
\$ V44: logi [1:4, 1:4] FALSE FALSE FALSE FALSE FALSE FALSE ...
\$ V45: logi [1:4, 1:4] FALSE FALSE FALSE FALSE FALSE FALSE ...
\$ V46: logi [1:4, 1:4] FALSE FALSE FALSE FALSE FALSE FALSE ...
\$ V47: logi [1:4, 1:4] FALSE FALSE FALSE FALSE FALSE FALSE ...
\$ V48: logi [1:4, 1:4] FALSE FALSE FALSE FALSE FALSE FALSE ...
\$ V49: logi [1:4, 1:4] FALSE FALSE FALSE FALSE FALSE FALSE ...
\$ V50: logi [1:4, 1:4] FALSE FALSE FALSE FALSE FALSE FALSE ...
\$ V51: logi [1:4, 1:4] FALSE FALSE FALSE FALSE FALSE FALSE ...
\$ V52: logi [1:4, 1:4] FALSE FALSE FALSE FALSE FALSE FALSE ...
\$ V53: logi [1:4, 1:4] FALSE FALSE FALSE FALSE FALSE FALSE ...
\$ V54: logi [1:4, 1:4] FALSE FALSE FALSE FALSE FALSE FALSE ...
\$ V55: logi [1:4, 1:4] FALSE FALSE FALSE FALSE FALSE FALSE ...
\$ V56: logi [1:4, 1:4] FALSE FALSE FALSE FALSE FALSE FALSE ...
\$ V57: logi [1:4, 1:4] FALSE FALSE FALSE FALSE FALSE FALSE ...
\$ V58: logi [1:4, 1:4] FALSE FALSE FALSE FALSE FALSE FALSE ...
\$ V59: logi [1:4, 1:4] FALSE FALSE FALSE FALSE FALSE FALSE ...
\$ V60: logi [1:4, 1:4] FALSE FALSE FALSE FALSE FALSE FALSE ...

Alternatively, you can make a 3 dimensional array:

tmp <- array(FALSE, dim=c(60,4,4))

Indexing on the first dimension gives a 4x4 matrix:

> str(tmp)
logi [1:60, 1:4, 1:4] FALSE FALSE FALSE FALSE FALSE FALSE ...
> tmp[1,,]
[,1]  [,2]  [,3]  [,4]
[1,] FALSE FALSE FALSE FALSE
[2,] FALSE FALSE FALSE FALSE
[3,] FALSE FALSE FALSE FALSE
[4,] FALSE FALSE FALSE FALSE

I think the latter is probably closer to what will be useful to you, but not knowing why you want that particular data structure, It's hard to say.

Building on Carl's answer, you can make a list, each element of which is a 4x4 logical matrix:

tmp <- rep(list(matrix(FALSE, nrow=4, ncol=4)), 60)

> tmp[[1]]
[,1]  [,2]  [,3]  [,4]
[1,] FALSE FALSE FALSE FALSE
[2,] FALSE FALSE FALSE FALSE
[3,] FALSE FALSE FALSE FALSE
[4,] FALSE FALSE FALSE FALSE

And if you really want this to be a 1 by 60 structure, each element of which is a 4x4 logical matrix, then you can add dimensions to the list as well:

tmp <- rep(list(matrix(FALSE, nrow=4, ncol=4)), 60)
dim(tmp) <- c(1,60)

which can be accessed like:

> tmp[[1,3]]
[,1]  [,2]  [,3]  [,4]
[1,] FALSE FALSE FALSE FALSE
[2,] FALSE FALSE FALSE FALSE
[3,] FALSE FALSE FALSE FALSE
[4,] FALSE FALSE FALSE FALSE
> tmp
[,1]       [,2]       [,3]       [,4]       [,5]       [,6]
[1,] Logical,16 Logical,16 Logical,16 Logical,16 Logical,16 Logical,16
[,7]       [,8]       [,9]       [,10]      [,11]      [,12]
[1,] Logical,16 Logical,16 Logical,16 Logical,16 Logical,16 Logical,16
[,13]      [,14]      [,15]      [,16]      [,17]      [,18]
[1,] Logical,16 Logical,16 Logical,16 Logical,16 Logical,16 Logical,16
[,19]      [,20]      [,21]      [,22]      [,23]      [,24]
[1,] Logical,16 Logical,16 Logical,16 Logical,16 Logical,16 Logical,16
[,25]      [,26]      [,27]      [,28]      [,29]      [,30]
[1,] Logical,16 Logical,16 Logical,16 Logical,16 Logical,16 Logical,16
[,31]      [,32]      [,33]      [,34]      [,35]      [,36]
[1,] Logical,16 Logical,16 Logical,16 Logical,16 Logical,16 Logical,16
[,37]      [,38]      [,39]      [,40]      [,41]      [,42]
[1,] Logical,16 Logical,16 Logical,16 Logical,16 Logical,16 Logical,16
[,43]      [,44]      [,45]      [,46]      [,47]      [,48]
[1,] Logical,16 Logical,16 Logical,16 Logical,16 Logical,16 Logical,16
[,49]      [,50]      [,51]      [,52]      [,53]      [,54]
[1,] Logical,16 Logical,16 Logical,16 Logical,16 Logical,16 Logical,16
[,55]      [,56]      [,57]      [,58]      [,59]      [,60]
[1,] Logical,16 Logical,16 Logical,16 Logical,16 Logical,16 Logical,16

Not sure why you would want to do this, though.

-