SLATEC Routines --- DSUDS ---


*DECK DSUDS
      SUBROUTINE DSUDS (A, X, B, NEQ, NUK, NRDA, IFLAG, MLSO, WORK,
     +   IWORK)
C***BEGIN PROLOGUE  DSUDS
C***SUBSIDIARY
C***PURPOSE  Subsidiary to DBVSUP
C***LIBRARY   SLATEC
C***TYPE      DOUBLE PRECISION (SUDS-S, DSUDS-D)
C***AUTHOR  Watts, H. A., (SNLA)
C***DESCRIPTION
C
C     DSUDS solves the underdetermined system of linear equations A Z =
C     B where A is NEQ by NUK and NEQ .LE. NUK. in particular, if rank
C     A equals IRA, a vector X and a matrix U are determined such that
C     X is the UNIQUE solution of smallest length, satisfying A X = B,
C     and the columns of U form an orthonormal basis for the null
C     space of A, satisfying A U = 0 .  Then all solutions Z are
C     given by
C              Z = X + C(1)*U(1) + ..... + C(NUK-IRA)*U(NUK-IRA)
C     where U(J) represents the J-th column of U and the C(J) are
C     arbitrary constants.
C     If the system of equations are not compatible, only the least
C     squares solution of minimal length is computed.
C     DSUDS is an interfacing routine which calls subroutine DLSSUD
C     for the solution.  DLSSUD in turn calls subroutine DORTHR and
C     possibly subroutine DOHTRL for the decomposition of A by
C     orthogonal transformations.  In the process, DORTHR calls upon
C     subroutine DCSCAL for scaling.
C
C ********************************************************************
C   INPUT
C ********************************************************************
C
C     A -- Contains the matrix of NEQ equations in NUK unknowns and must
C          be dimensioned NRDA by NUK.  The original A is destroyed.
C     X -- Solution array of length at least NUK.
C     B -- Given constant vector of length NEQ, B is destroyed.
C     NEQ -- Number of equations, NEQ greater or equal to 1.
C     NUK -- Number of columns in the matrix (which is also the number
C            of unknowns), NUK not smaller than NEQ.
C     NRDA -- Row dimension of A, NRDA greater or equal to NEQ.
C     IFLAG -- Status indicator
C           =0  for the first call (and for each new problem defined by
C               a new matrix A) when the matrix data is treated as exact
C           =-K for the first call (and for each new problem defined by
C               a new matrix A) when the matrix data is assumed to be
C               accurate to about K digits.
C           =1  for subsequent calls whenever the matrix A has already
C               been decomposed (problems with new vectors B but
C               same matrix A can be handled efficiently).
C     MLSO -- =0 if only the minimal length solution is wanted.
C             =1 if the complete solution is wanted, includes the
C                linear space defined by the matrix U in the abstract.
C     WORK(*),IWORK(*) -- Arrays for storage of internal information,
C                WORK must be dimensioned at least
C                       NUK + 3*NEQ + MLSO*NUK*(NUK-RANK A)
C                where it is possible for   0 .LE. RANK A .LE. NEQ
C                IWORK must be dimensioned at least   3 + NEQ
C     IWORK(2) -- Scaling indicator
C                 =-1 if the matrix is to be pre-scaled by
C                 columns when appropriate.
C                 If the scaling indicator is not equal to -1
C                 no scaling will be attempted.
C              For most problems scaling will probably not be necessary
C
C *********************************************************************
C   OUTPUT
C *********************************************************************
C
C     IFLAG -- Status indicator
C            =1 if solution was obtained.
C            =2 if improper input is detected.
C            =3 if rank of matrix is less than NEQ.
C               to continue simply reset IFLAG=1 and call DSUDS again.
C            =4 if the system of equations appears to be inconsistent.
C               However, the least squares solution of minimal length
C               was obtained.
C     X -- Minimal length least squares solution of  A X = B.
C     A -- Contains the strictly upper triangular part of the reduced
C           matrix and transformation information.
C     WORK(*),IWORK(*) -- Contains information needed on subsequent
C                         calls (IFLAG=1 case on input) which must not
C                         be altered.
C                         The matrix U described in the abstract is
C                         stored in the  NUK*(NUK-rank A) elements of
C                         the WORK array beginning at WORK(1+NUK+3*NEQ).
C                         However U is not defined when MLSO=0 or
C                         IFLAG=4.
C                         IWORK(1) contains the numerically determined
C                         rank of the matrix A
C
C *********************************************************************
C
C***SEE ALSO  DBVSUP
C***REFERENCES  H. A. Watts, Solving linear least squares problems
C                 using SODS/SUDS/CODS, Sandia Report SAND77-0683,
C                 Sandia Laboratories, 1977.
C***ROUTINES CALLED  DLSSUD
C***REVISION HISTORY  (YYMMDD)
C   750601  DATE WRITTEN
C   890831  Modified array declarations.  (WRB)
C   891214  Prologue converted to Version 4.0 format.  (BAB)
C   900328  Added TYPE section.  (WRB)
C   910408  Updated the AUTHOR and REFERENCES sections.  (WRB)
C   920501  Reformatted the REFERENCES section.  (WRB)
C***END PROLOGUE  DSUDS