nnzero The Number of Non-Zero Values of a MatrixReturns the number of non-zero values of a numeric-like R object, and in particular an object x inheriting from class Matrix.
nnzero(x, na.counted = NA)
x | an R object, typically inheriting from class |
na.counted | a
For sparse matrices, you may often want to use |
the number of non zero entries in x (typically integer).
Note that for a symmetric sparse matrix S (i.e., inheriting from class symmetricMatrix), nnzero(S) is typically twice the length(S@x).
signature(x = "ANY")the default method for non-Matrix class objects, simply counts the number 0s in x, counting NA's depending on the na.counted argument, see above.
signature(x = "denseMatrix")conceptually the same as for traditional matrix objects, care has to be taken for "symmetricMatrix" objects.
signature(x = "diagonalMatrix"), and signature(x = "indMatrix")
fast simple methods for these special "sparseMatrix" classes.
signature(x = "sparseMatrix")typically, the most interesting method, also carefully taking "symmetricMatrix" objects into account.
The Matrix class also has a length method; typically, length(M) is much larger than nnzero(M) for a sparse matrix M, and the latter is a better indication of the size of M.
m <- Matrix(0+1:28, nrow = 4) m[-3,c(2,4:5,7)] <- m[ 3, 1:4] <- m[1:3, 6] <- 0 (mT <- as(m, "dgTMatrix")) nnzero(mT) (S <- crossprod(mT)) nnzero(S) str(S) # slots are smaller than nnzero() stopifnot(nnzero(S) == sum(as.matrix(S) != 0))# failed earlier data(KNex) M <- KNex$mm class(M) dim(M) length(M); stopifnot(length(M) == prod(dim(M))) nnzero(M) # more relevant than length ## the above are also visible from str(M)
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