#### Triangular Packed Matrices -- Coercion and Methods setAs("dtpMatrix", "dtrMatrix", function(from) .Call("dtpMatrix_as_dtrMatrix", from, PACKAGE = "Matrix")) setAs("dtpMatrix", "dgeMatrix", function(from) as(as(from, "dtrMatrix"), "dgeMatrix")) setAs("dtpMatrix", "matrix", function(from) as(as(from, "dtrMatrix"), "matrix")) setAs("matrix", "dtpMatrix", function(from) as(as(from, "dtrMatrix"), "dtpMatrix")) setMethod("%*%", signature(x = "dtpMatrix", y = "dgeMatrix"), function(x, y) .Call("dtpMatrix_dgeMatrix_mm", x, y, PACKAGE = "Matrix")) setMethod("%*%", signature(x = "dgeMatrix", y = "dtpMatrix"), function(x, y) .Call("dgeMatrix_dtpMatrix_mm", x, y, PACKAGE = "Matrix")) ## %*% should always work for %*% setMethod("%*%", signature(x = "dtpMatrix", y = "dtpMatrix"), function(x, y) ## FIXME: this is cheap; could we optimize chosing the better of ## callGeneric(x, as(y, "dgeMatrix")) and ## callGeneric(as(x "dgeMatrix"), y)) depending on their 'uplo' ? callGeneric(x, as(y, "dgeMatrix"))) ## dtpMatrix <-> matrix : will be used by the "numeric" one setMethod("%*%", signature(x = "dtpMatrix", y = "matrix"), function(x, y) callGeneric(x, as(y, "dgeMatrix"))) setMethod("%*%", signature(x = "matrix", y = "dtpMatrix"), function(x, y) callGeneric(as(x, "dgeMatrix"), y)) ## dtpMatrix <-> numeric : the auxiliary functions are R version specific! ##setMethod("%*%", signature(x = "dtpMatrix", y = "numeric"), .M.v) ##setMethod("%*%", signature(x = "numeric", y = "dtpMatrix"), .v.M) setMethod("determinant", signature(x = "dtpMatrix", logarithm = "missing"), function(x, logarithm, ...) determinant(x, TRUE)) setMethod("determinant", signature(x = "dtpMatrix", logarithm = "logical"), function(x, logarithm, ...) { dg <- diag(x) if (logarithm) { modulus <- sum(log(abs(dg))) sgn <- prod(sign(dg)) } else { modulus <- prod(dg) sgn <- sign(modulus) modulus <- abs(modulus) } attr(modulus, "logarithm") <- logarithm val <- list(modulus = modulus, sign = sgn) class(val) <- "det" val }) setMethod("diag", signature(x = "dtpMatrix"), function(x = 1, nrow, ncol = n) .Call("dtpMatrix_getDiag", x, PACKAGE = "Matrix"), valueClass = "numeric") setMethod("norm", signature(x = "dtpMatrix", type = "character"), function(x, type, ...) .Call("dtpMatrix_norm", x, type, PACKAGE = "Matrix"), valueClass = "numeric") setMethod("norm", signature(x = "dtpMatrix", type = "missing"), function(x, type, ...) .Call("dtpMatrix_norm", x, "O", PACKAGE = "Matrix"), valueClass = "numeric") setMethod("rcond", signature(x = "dtpMatrix", type = "character"), function(x, type, ...) .Call("dtpMatrix_rcond", x, type, PACKAGE = "Matrix"), valueClass = "numeric") setMethod("rcond", signature(x = "dtpMatrix", type = "missing"), function(x, type, ...) .Call("dtpMatrix_rcond", x, "O", PACKAGE = "Matrix"), valueClass = "numeric") setMethod("solve", signature(a = "dtpMatrix", b="missing"), function(a, b, ...) .Call("dtpMatrix_solve", a, PACKAGE = "Matrix"), valueClass = "dtpMatrix") setMethod("solve", signature(a = "dtpMatrix", b="matrix"), function(a, b, ...) .Call("dtpMatrix_matrix_solve", a, b, PACKAGE = "Matrix"), valueClass = "matrix") setMethod("t", signature(x = "dtpMatrix"), function(x) as(t(as(x, "dtrMatrix")), "dtpMatrix"), valueClass = "dtpMatrix") setMethod("unpack", signature(x = "dtpMatrix"), function(x, ...) as(x, "dtrMatrix"), valueClass = "dtrMatrix") ###