Description Usage Arguments Details Source References See Also Examples
This generic function solves the equation a %*% x = b
for x
,
where b
can be either a vector or a matrix.
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a |
a square numeric or complex matrix containing the coefficients of the linear system. Logical matrices are coerced to numeric. |
b |
a numeric or complex vector or matrix giving the right-hand
side(s) of the linear system. If missing, |
tol |
the tolerance for detecting linear dependencies in the
columns of |
LINPACK |
logical. Defunct and ignored. |
... |
further arguments passed to or from other methods |
a
or b
can be complex, but this uses double complex
arithmetic which might not be available on all platforms.
The row and column names of the result are taken from the column names
of a
and of b
respectively. If b
is missing the
column names of the result are the row names of a
. No check is
made that the column names of a
and the row names of b
are equal.
For back-compatibility a
can be a (real) QR decomposition,
although qr.solve
should be called in that case.
qr.solve
can handle non-square systems.
Unsuccessful results from the underlying LAPACK code will result in an error giving a positive error code: these can only be interpreted by detailed study of the FORTRAN code.
The default method is an interface to the LAPACK routines DGESV
and ZGESV
.
LAPACK is from http://www.netlib.org/lapack.
Anderson. E. and ten others (1999)
LAPACK Users' Guide. Third Edition. SIAM.
Available on-line at
http://www.netlib.org/lapack/lug/lapack_lug.html.
Becker, R. A., Chambers, J. M. and Wilks, A. R. (1988) The New S Language. Wadsworth & Brooks/Cole.
solve.qr
for the qr
method,
chol2inv
for inverting from the Choleski factor
backsolve
, qr.solve
.
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