1

I can define a sparse Matrix using a vector for i, j, and x:

i <- c(1,3:8)
j <- c(2,9,6:10)
x <- 7 * (1:7)
(A <- sparseMatrix(i, j, x = x))

I want to extract the i, j, and x elements from this sparse matrix, so I can re-create the matrix in another package. This is easy with i and x:

i <- A@i + 1
x <- A@x

(Note that the order of i and x has changed, but their relative association is the same: i=4 is still in the same place as x=21)

However, the last element of the sparse matrix is p: "a numeric (integer valued) vector of pointers, one for each column (or row), to the initial (zero-based) index of elements in the column (or row)."

How can I convert A@i and A@p into the original j element used to define the matrix?

5

It is a little tricky to figure out how columns is stored. I have a hard time explaining it, but maybe the code will help you get what is going on:

# Rows
A@i+1 
# [1] 1 4 5 6 3 7 8

# Cols (a little tricky..)
findInterval(seq(A@x)-1,A@p[-1])+1
# [1]  2  6  7  8  9  9 10

# Values
A@x
# [1]  7 21 28 35 14 42 49

So, after you remove the first element, A@p has one element for every column. The range of A@p+1 is 1:length(A@x). Basically, for each column, it says that the first element of A@x that occurs in this column is located at this index of A@x. But the tricky part is that if nothing is located in that column, then it uses the index of the last column. That is my bad explanation... hopefully it will help in conjunction with the code.

  • Thanks! If I do j <- findInterval(seq(A@x)-1,A@p[-1])+1 then (B <- sparseMatrix(i, j, x = x)) then all.equal(A, B) I get true. I've verified this on some other dgCMatrix objects, and the method works. Thank you! – Zach Jan 13 '14 at 20:16
  • Hm, I was just thinking about this and there might be some problems with the code with matrices with 0 or 1 element(s), so if you're writing code for this, you might want to examine the corner cases. – nograpes Jan 13 '14 at 20:24
  • will do. Fortunately, in my use case, the matrices have millions of elements. If a matrix shows up with 0 or 1 elements the script will return an error before even getting past the first few lines. – Zach Jan 13 '14 at 20:44
  • The decryption of the rows and columns is a lot easier with the "TsparseMatrix" class. There you get both i and j and only need to remember that sparse classes are zero-based. – 42- Mar 6 '16 at 1:08
1

Much easier with a TsparseMatrix object:

A <- as(A, "TsparseMatrix")
8 x 10 sparse Matrix of class "dgTMatrix"

[1,] . 7 . . .  .  .  .  .  .
[2,] . . . . .  .  .  .  .  .
[3,] . . . . .  .  .  . 14  .
[4,] . . . . . 21  .  .  .  .
[5,] . . . . .  . 28  .  .  .
[6,] . . . . .  .  . 35  .  .
[7,] . . . . .  .  .  . 42  .
[8,] . . . . .  .  .  .  . 49
> dput(A)
new("dgTMatrix"
    , i = c(0L, 3L, 4L, 5L, 2L, 6L, 7L)
    , j = c(1L, 5L, 6L, 7L, 8L, 8L, 9L)
    , Dim = c(8L, 10L)
    , Dimnames = list(NULL, NULL)
    , x = c(7, 21, 28, 35, 14, 42, 49)
    , factors = list()
)

Can also create but need to specify dimensions:

(A <- spMatrix(8,10, i=i, j=j, x = x))

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