SparseM.hb {SparseM} | R Documentation |
Read, write and extract components of data in Harwell-Boeing sparse matrix format.
read.matrix.hb(filename) write.matrix.hb(filename = "hb.out", X, title, key, mxtype, rhs = NULL, guess = FALSE, xsol = FALSE, ptrfmt = "(16I5)", indfmt = "(16I5)", valfmt = "(1P,5D16.9)", rhsfmt = "(1P,5D16.9)") model.matrix(object, ...) model.response(data,type)
filename |
file name to read from or write to |
data, object |
an object of either matrix.csc.hb or matrix.ssc.hb
class |
type |
One of `"any"', `"numeric"', `"double"'. Using the either of latter two coerces the result to have storage mode `"double"' |
X |
coefficient matrix stored in csc (for unsymmetric and rectangular matrix) or ssc (for symmetric matrix) format |
title |
72-character title for the matrix |
key |
8-character identifier for the matrix |
mxtype |
3-character identifier for type of the coefficient matrix; First character: currently only "R" for real matrix is supported; second character: "S" for symmetric, "U" for unsymmetric" and "R" for rectangular matrix; third character: currently only "A" for assembled matrix is supported |
rhs |
vector or matrix of right-hand-side(s) including starting guesses and solution vectors if present stored in full storage mode |
guess |
logical flag for the presence of initial guess of the solutions;
if TRUE, the values of initial guess are appended to the end of
rhs |
xsol |
logical flag for the presence of exact solutions; if TRUE, the
values of the exact solutions are appended to the end of rhs |
ptrfmt |
printing format for the column pointers |
indfmt |
printing format for the row indices |
valfmt |
printing format for the values |
rhsfmt |
printing format for the right-hand-sides |
... |
additional arguments |
Sparse coefficient matrices in the Harwell-Boeing format are stored in
80-column records. Each file begins with a multiple line header block
followed by two, three or four data blocks. The header block contains
summary information on the storage formats and storage requirements.
The data blocks contain information of the sparse coefficient matrix and
data for the right-hand-side of the linear system of equations,
initial guess of the solution and the exact solutions if they exist.
The function model.matrix
extracts the X matrix component.
The function model.response
extracts the y vector (or matrix).
The function read.matrix.hb
returns a list of class matrix.csc.hb
or matrix.ssc.hb
depending
on how the coefficient matrix is stored in the file
.
ra |
ra component of the csc or ssc format of the coefficient matrix, X. |
ja |
ja component of the csc or ssc format of the coefficient matrix, X. |
ia |
ia component of the csc or ssc format of the coefficient matrix, X. |
rhs.ra |
ra component of the right-hand-side, y, if stored in csc or ssc format; right-hand-side stored in dense vector or matrix otherwise. |
rhs.ja |
ja component of the right-hand-side, y, if stored in csc or ssc format; a null vector otherwise. |
rhs.ia |
ia component of the right-hand-side, y, if stored in csc or ssc format; a null vector otherwise. |
xexact |
vector of the exact solutions, b, if they exist; a null vector otherwise. |
guess |
vector of the initial guess of the solutions if they exist; a null vector otherwise. |
dimension |
dimenson of the coefficient matrix, X. |
rhs.dim |
dimenson of the right-hand-side, y. |
rhs.mode |
storage mode of the right-hand-side; can be full storage or same format as the coefficient matrix. |
The function model.matrix
returns the X matrix of class matrix.csr
.
The function model.response
returns the y vector (or matrix).
Pin Ng
Duff, I.S., Grimes, R.G. and Lewis, J.G. (1992) User's Guide for Harwell-Boeing Sparse Matrix Collection at http://math.nist.gov/MatrixMarket/collections/hb.html
slm
for sparse version of lm
SparseM.ops
for operators on class matrix.csr
SparseM.solve
for linear equation solving for class matrix.csr
SparseM.image
for image plotting of class matrix.csr
SparseM.ontology
for coercion of class matrix.csr
## Not run: read.matrix.hb(system.file("HBdata","lsq.rra",package = "SparseM"))-> hb.o class(hb.o) # -> [1] "matrix.csc.hb" model.matrix(hb.o)->X class(X) # -> "matrix.csr" dim(X) # -> [1] 1850 712 y <- model.response(hb.o) # extract the rhs length(y) # [1] 1850 ## End(Not run)