#### Superclass Methods for all sparse nonzero-pattern matrices ## Would be nice to do this, but it also triggers for e.g. ## ngCMatrix and hence infinite recursion if(FALSE) ## "bug" in 'methods' - R_FIXME ? setAs("CsparseMatrix", "nsparseMatrix", function(from) .Call(Csparse_to_nz_pattern, from, is(from, "triangularMatrix"))) setAs("CsparseMatrix", "nsparseMatrix", function(from) { cld <- getClassDef(class(from)) if(extends(cld, "nsparseMatrix")) from else .Call(Csparse_to_nz_pattern, from, extends(cld, "triangularMatrix")) }) ###------- Work via as(*, lgC) : ------------ ## For multiplication operations, sparseMatrix overrides other method ## selections. Coerce a ddensematrix argument to a lsparseMatrix. setMethod("%*%", signature(x = "nsparseMatrix", y = "ndenseMatrix"), function(x, y) callGeneric(x, as(y, "nsparseMatrix"))) setMethod("%*%", signature(x = "ndenseMatrix", y = "nsparseMatrix"), function(x, y) callGeneric(as(x, "nsparseMatrix"), y)) setMethod("crossprod", signature(x = "nsparseMatrix", y = "ndenseMatrix"), function(x, y = NULL) callGeneric(x, as(y, "nsparseMatrix"))) setMethod("crossprod", signature(x = "ndenseMatrix", y = "nsparseMatrix"), function(x, y = NULL) callGeneric(as(x, "nsparseMatrix"), y)) ## and coerce lsparse* to lgC* setMethod("%*%", signature(x = "nsparseMatrix", y = "nsparseMatrix"), function(x, y) callGeneric(as(x, "ngCMatrix"), as(y, "ngCMatrix"))) setMethod("crossprod", signature(x = "nsparseMatrix", y = "nsparseMatrix"), function(x, y = NULL) callGeneric(as(x, "ngCMatrix"), as(y, "ngCMatrix")))