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## METHODS FOR GENERIC: qr
## pivoted QR factorization of dense and sparse matrices
## ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
## MJ: Well, I'd very much like to _not_ truncate by default ...
## not least because qr.qy and qr.qty should remain inverses ...
.qr.rank.def.truncating <- TRUE
.qr.rank.def.warn <- function(qr) {
if(m0 <- qr@V@Dim[1L] - qr@Dim[1L])
warning(gettextf("matrix is structurally rank deficient; using augmented matrix with additional %d row(s) of zeros",
m0),
domain = NA)
m0
}
setMethod("qr", c(x = "sparseMatrix"),
function(x, ...)
qr(.M2gen(.M2C(x), ","), ...))
setMethod("qr", c(x = "dgCMatrix"),
function(x, order = 3L, ...) {
r <- .Call(gCMatrix_orf, x, 2L, order)
.qr.rank.def.warn(r)
r
})
## METHODS FOR CLASS: sparseQR
## ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
setMethod("expand1", c(x = "sparseQR"),
function(x, which, ...) {
.qr.rank.def.warn(x)
R <- x@R
d <- R@Dim
m <- d[1L]
n <- d[2L]
switch(which,
"P1" =, "P1." = {
r <- new("pMatrix")
r@Dim <- c(m, m)
r@perm <- x@p + 1L
if(which == "P1.")
r@margin <- 2L
r
},
"P2" =, "P2." = {
r <- new("pMatrix")
r@Dim <- c(n, n)
r@perm <- if(length(x@q)) x@q + 1L else seq_len(n)
if(which == "P2")
r@margin <- 2L
r
},
"Q" = .Call(sparseQR_matmult, x, NULL, 6L, TRUE, NULL),
"Q1" = .Call(sparseQR_matmult, x, NULL, 6L, FALSE, NULL),
"R" = R,
"R1" = triu(if(m == n) R else R[seq_len(n), , drop = FALSE]),
stop(gettextf("'%1$s' is not \"%2$s1\", \"%2$s1.\", \"%2$s2\", \"%2$s2.\", \"%3$s\", \"%3$s1\", \"%4$s\", or \"%4$s1\"",
"which", "P", "Q", "R"),
domain = NA))
})
## returning list(P1', Q, R, P2'), where A = P1' Q R P2'
setMethod("expand2", c(x = "sparseQR"),
function(x, complete = FALSE, ...) {
m0 <- .qr.rank.def.warn(x)
R <- x@R
d <- R@Dim
m <- d[1L]
n <- d[2L]
dn <- x@Dimnames
if(m0 && !is.null(dn[[1L]]))
length(dn[[1L]]) <- m
Q <- .Call(sparseQR_matmult, x, NULL, 6L, complete, NULL)
if(!complete && n < m)
R <- R[seq_len(n), , drop = FALSE]
p1 <- x@p
p2 <- x@q
P1. <- new("pMatrix",
Dim = c(m, m),
Dimnames = c(dn[1L], list(NULL)),
margin = 1L,
perm = invertPerm(p1, 0L, 1L))
P2. <- new("pMatrix",
Dim = c(n, n),
Dimnames = c(list(NULL), dn[2L]),
margin = 2L,
perm = if(length(p2)) invertPerm(p2, 0L, 1L) else seq_len(n))
if(complete)
list(P1. = P1., Q = Q, R = R, P2. = P2.)
else
list(P1. = P1., Q1 = Q, R1 = triu(R), P2. = P2.)
})
setMethod("qr.Q", c(qr = "sparseQR"),
function(qr, complete = FALSE, Dvec) {
m0 <- .qr.rank.def.warn(qr)
if(missing(Dvec))
Dvec <- NULL
else {
storage.mode(Dvec) <- "double"
if(length(Dvec) != qr@V@Dim[if(complete) 1L else 2L])
stop(gettextf("'%s' has the wrong length", "Dvec"),
domain = NA)
}
Q <- .Call(sparseQR_matmult, qr, NULL, 4L, complete, Dvec)
dn <- c(qr@Dimnames[1L], list(NULL))
if(!is.null(rn <- dn[[1L]])) {
if(m0)
length(rn) <- length(rn) + m0
if(is.unsorted(p1 <- qr@p, strictly = TRUE))
rn <- rn[p1 + 1L]
dn[[1L]] <- rn
}
Q@Dimnames <- dn
if(m0 && .qr.rank.def.truncating) {
i <- seq_len(Q@Dim[1L] - m0)
Q <- if(complete)
Q[i, i, drop = FALSE]
else Q[i, , drop = FALSE]
}
Q
})
qrR <- function(qr, complete = FALSE, backPermute = TRUE, row.names = TRUE) {
m0 <- .qr.rank.def.warn(qr)
R <- qr@R
d <- R@Dim
m <- d[1L]
n <- d[2L]
dn <- qr@Dimnames
p2 <- qr@q + 1L
p2.uns <- is.unsorted(p2, strictly = TRUE) # FALSE if length is 0
if(!row.names)
dn <- c(list(NULL), dn[2L])
else if(m0 && !is.null(rn <- dn[[1L]]))
length(dn[[1L]]) <- length(rn) + m0
if(p2.uns && !is.null(cn <- dn[[2L]]))
dn[[2L]] <- cn[p2]
R@Dimnames <- dn
R <-
if(!complete && n < m) {
if(backPermute && p2.uns)
R[seq_len(n), invertPerm(p2), drop = FALSE]
else R[seq_len(n), , drop = FALSE]
} else {
if(backPermute && p2.uns)
R[, invertPerm(p2), drop = FALSE]
else R
}
if(m0 && .qr.rank.def.truncating && complete)
R <- R[seq_len(m - m0), , drop = FALSE]
if(complete || backPermute) R else triu(R)
}
setMethod("qr.R", c(qr = "sparseQR"),
function(qr, complete = FALSE, backPermute = FALSE, ...)
qrR(qr, complete = complete, backPermute = backPermute,
row.names = FALSE))
## https://stat.ethz.ch/pipermail/r-devel/2023-June/082649.html
setMethod("qr.X", c(qr = "sparseQR"),
function(qr, complete = FALSE, ncol) {
m0 <- .qr.rank.def.warn(qr)
R <- qr@R
d <- R@Dim
m <- d[1L]
n <- d[2L]
if(missing(ncol))
ncol <- if(complete) m else min(m, n)
else {
ncol <- as.integer(ncol)
if(ncol < 0L || ncol > m)
stop(gettextf("invalid '%s': not in %d:%d",
"ncol", 0L, m),
domain = NA)
}
p2 <- qr@q + 1L
p2.uns <- is.unsorted(p2, strictly = TRUE) # FALSE if length is 0
if(p2.uns && ncol < n)
stop(gettextf("need greater '%s' as pivoting occurred",
"ncol"),
domain = NA)
else if(ncol < n)
R <- R[, seq_len(ncol), drop = FALSE]
else if(ncol > n) {
Rp <- R@p
Ri <- R@i
Rx <- R@x
Rnnz <- Rp[length(Rp)]
R@Dim[2L] <- ncol
R@p <- c(Rp, Rnnz + seq_len(ncol - n))
R@i <- c(if(length(Ri) == Rnnz) Ri else Ri[seq_len(Rnnz)],
n:(ncol - 1L))
R@x <- c(if(length(Rx) == Rnnz) Rx else Rx[seq_len(Rnnz)],
rep.int(1, ncol - n))
}
r <- .Call(sparseQR_matmult, qr, .sparse2dense(R), 4L, NA, NULL)
if(p2.uns) {
j <- invertPerm(p2)
if(ncol > n)
j <- c(j, (n + 1L):ncol)
r <- r[, j, drop = FALSE]
}
dn <- qr@Dimnames
if(m0 && !is.null(rn <- dn[[1L]]))
length(dn[[1L]]) <- length(rn) + m0
if(!is.null(cn <- dn[[2L]]) && length(cn) != ncol)
length(dn[[2L]]) <- ncol
r@Dimnames <- dn
if(m0 && .qr.rank.def.truncating) {
i <- seq_len(r@Dim[1L] - m0)
r <- if(ncol > length(j))
r[i, i, drop = FALSE]
else r[i, , drop = FALSE]
}
r
})
.qr.y0 <- function(y, m0) {
d <- y@Dim
d[1L] <- (m <- d[1L]) + m0
dn <- y@Dimnames
if(!is.null(dn[[1L]]))
length(dn[[1L]]) <- d[1L]
y0 <- new("dgeMatrix")
y0@Dim <- d
y0@Dimnames <- dn
y0@x <- as.double(`[<-`(array(0, d), seq_len(m), , y@x))
y0
}
setMethod("qr.coef", c(qr = "sparseQR", y = "dgeMatrix"),
function(qr, y) {
if(m0 <- .qr.rank.def.warn(qr))
y <- .qr.y0(y, m0)
r <- .Call(sparseQR_matmult, qr, y, 0L, NA, NULL)
r@Dimnames <- c(qr@Dimnames[2L], y@Dimnames[2L])
r
})
setMethod("qr.coef", c(qr = "sparseQR", y = "vector"),
function(qr, y)
drop(qr.coef(qr, .m2dense(y, ",ge"))))
setMethod("qr.coef", c(qr = "sparseQR", y = "matrix"),
function(qr, y)
qr.coef(qr, .m2dense(y, ",ge")))
setMethod("qr.coef", c(qr = "sparseQR", y = "Matrix"),
function(qr, y)
qr.coef(qr, .m2dense(.M2m(y), ",ge")))
setMethod("qr.fitted", c(qr = "sparseQR", y = "dgeMatrix"),
function(qr, y, k = qr$rank) {
if(m0 <- .qr.rank.def.warn(qr))
y <- .qr.y0(y, m0)
r <- .Call(sparseQR_matmult, qr, y, 1L, NA, NULL)
r@Dimnames <- y@Dimnames
if(m0 && .qr.rank.def.truncating)
r <- r[seq_len(r@Dim[1L] - m0), , drop = FALSE]
r
})
setMethod("qr.fitted", c(qr = "sparseQR", y = "vector"),
function(qr, y, k = qr$rank)
drop(qr.fitted(qr, .m2dense(y, ",ge"))))
setMethod("qr.fitted", c(qr = "sparseQR", y = "matrix"),
function(qr, y, k = qr$rank)
qr.fitted(qr, .m2dense(y, ",ge")))
setMethod("qr.fitted", c(qr = "sparseQR", y = "Matrix"),
function(qr, y, k = qr$rank)
qr.fitted(qr, .m2dense(.M2m(y), ",ge")))
setMethod("qr.resid", c(qr = "sparseQR", y = "dgeMatrix"),
function(qr, y) {
if(m0 <- .qr.rank.def.warn(qr))
y <- .qr.y0(y, m0)
r <- .Call(sparseQR_matmult, qr, y, 2L, NA, NULL)
r@Dimnames <- y@Dimnames
if(m0 && .qr.rank.def.truncating)
r <- r[seq_len(r@Dim[1L] - m0), , drop = FALSE]
r
})
setMethod("qr.resid", c(qr = "sparseQR", y = "vector"),
function(qr, y)
drop(qr.resid(qr, .m2dense(y, ",ge"))))
setMethod("qr.resid", c(qr = "sparseQR", y = "matrix"),
function(qr, y)
qr.resid(qr, .m2dense(y, ",ge")))
setMethod("qr.resid", c(qr = "sparseQR", y = "Matrix"),
function(qr, y)
qr.resid(qr, .m2dense(.M2m(y), ",ge")))
setMethod("qr.qty", c(qr = "sparseQR", y = "dgeMatrix"),
function(qr, y) {
if(m0 <- .qr.rank.def.warn(qr))
y <- .qr.y0(y, m0)
r <- .Call(sparseQR_matmult, qr, y, 3L, NA, NULL)
r@Dimnames <- c(list(NULL), y@Dimnames[2L])
if(m0 && .qr.rank.def.truncating)
r <- r[seq_len(r@Dim[1L] - m0), , drop = FALSE]
r
})
setMethod("qr.qty", c(qr = "sparseQR", y = "vector"),
function(qr, y)
drop(qr.qty(qr, .m2dense(y, ",ge"))))
setMethod("qr.qty", c(qr = "sparseQR", y = "matrix"),
function(qr, y)
qr.qty(qr, .m2dense(y, ",ge")))
setMethod("qr.qty", c(qr = "sparseQR", y = "Matrix"),
function(qr, y)
qr.qty(qr, .m2dense(.M2m(y), ",ge")))
setMethod("qr.qy", c(qr = "sparseQR", y = "dgeMatrix"),
function(qr, y) {
if(m0 <- .qr.rank.def.warn(qr))
y <- .qr.y0(y, m0)
r <- .Call(sparseQR_matmult, qr, y, 4L, NA, NULL)
dn <- c(qr@Dimnames[1L], y@Dimnames[2L])
if(!is.null(rn <- dn[[1L]])) {
if(m0)
length(rn) <- length(rn) + m0
if(is.unsorted(p1 <- qr@p, strictly = TRUE))
rn <- rn[p1 + 1L]
dn[[1L]] <- rn
}
r@Dimnames <- dn
if(m0 && .qr.rank.def.truncating)
r <- r[seq_len(r@Dim[1L] - m0), , drop = FALSE]
r
})
setMethod("qr.qy", c(qr = "sparseQR", y = "vector"),
function(qr, y)
drop(qr.qy(qr, .m2dense(y, ",ge"))))
setMethod("qr.qy", c(qr = "sparseQR", y = "matrix"),
function(qr, y)
qr.qy(qr, .m2dense(y, ",ge")))
setMethod("qr.qy", c(qr = "sparseQR", y = "Matrix"),
function(qr, y)
qr.qy(qr, .m2dense(.M2m(y), ",ge")))
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