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/*=========================================================================
 *
 *  Copyright Insight Software Consortium
 *
 *  Licensed under the Apache License, Version 2.0 (the "License");
 *  you may not use this file except in compliance with the License.
 *  You may obtain a copy of the License at
 *
 *         http://www.apache.org/licenses/LICENSE-2.0.txt
 *
 *  Unless required by applicable law or agreed to in writing, software
 *  distributed under the License is distributed on an "AS IS" BASIS,
 *  WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 *  See the License for the specific language governing permissions and
 *  limitations under the License.
 *
 *=========================================================================*/

#ifndef __itpack_h
#define __itpack_h

#include "v3p_netlib.h"

#include "v3p_f2c_mangle.h"

extern "C" {
/**
 * \file itpack.h
 * \brief Declarations of functions from itpack.
 *
 * The following are the common parameters that are used when calling
 * functions. Note: Variables names are consistent with itpack to prevent
 * confusion.
 *
 * nn Order of linear system
 * a Row pointers used in compressed row storage format
 * m ja Column indices used in compressed row storage format
 * \param a Nonzero entries in compressed row storage format
 * \param rhs Right hand side of linear system
 * \param u Initial guess of solution.  holds solution on output
 * \param iwksp Vector of length 3*nn.  on output: holds permutation vector, its inverse, and integer workspace
 * \param nw On input: length of wksp, on output: actual amount used
 * \param wksp Vector used for real working space.  must be at least nw in length
 * \param iparm Vector of length 12 used to initialize various parameters on input
 * \param rparm Vector of length 12 used to initialize various parameters on input
 * \param ierr Error flag, on output: zero=no error, non-zero=error condition
 * \param nz Number of non-zero entries in matrix
 * \param iwork Vector of length nz.  matrix creation workspace
 * \param i Matrix index
 * \param j Matrix index
 * \param value Matrix entry
 * \param mode Type of matrix building
 * \param level Error reporting flag
 * \param nout Error reporting location
 * \param ier Error flag for matrix building
 */

/**
 * Jacobian conjugate gradient
 *
 * \param nn Order of linear system
 * \param ia array of row offsets
 * \param ja array of column indices
 * \param a array of matrix values
 * \param rhs array of right hand side of system
 * \param u solution array
 * \param iwksp int array used by itpack for calculations
 * \param nw size of iwskp and wksp
 * \param wksp double array used by itpack for calculations
 * \param iparm array of 12 integer parameters
 * \param rparm array of 12 double parameters
 * \param ierr holds error flag on return
 */
extern int jcg_(integer *nn, integer *ia, integer *ja, doublereal *a, doublereal *rhs, doublereal *u, integer *iwksp,
                integer *nw, doublereal *wksp, integer *iparm, doublereal *rparm,
                integer *ierr);

/**
 * Jacobian semi-iteration
 *
 * \param nn Order of linear system
 * \param ia array of row offsets
 * \param ja array of column indices
 * \param a array of matrix values
 * \param rhs array of right hand side of system
 * \param u solution array
 * \param iwksp int array used by itpack for calculations
 * \param nw size of iwskp and wksp
 * \param wksp double array used by itpack for calculations
 * \param iparm array of 12 integer parameters
 * \param rparm array of 12 double parameters
 * \param ierr holds error flag on return
 */
extern int jsi_(integer *nn, integer *ia, integer *ja, doublereal *a, doublereal *rhs, doublereal *u, integer *iwksp,
                integer *nw, doublereal *wksp, integer *iparm, doublereal *rparm,
                integer *ierr);

/**
 * Successive overrelaxation
 *
 * \param nn Order of linear system
 * \param ia array of row offsets
 * \param ja array of column indices
 * \param a array of matrix values
 * \param rhs array of right hand side of system
 * \param u solution array
 * \param iwksp int array used by itpack for calculations
 * \param nw size of iwskp and wksp
 * \param wksp double array used by itpack for calculations
 * \param iparm array of 12 integer parameters
 * \param rparm array of 12 double parameters
 * \param ierr holds error flag on return
 */
extern int sor_(integer *nn, integer *ia, integer *ja, doublereal *a, doublereal *rhs, doublereal *u, integer *iwksp,
                integer *nw, doublereal *wksp, integer *iparm, doublereal *rparm,
                integer *ierr);

/**
 * Symmetric successive overrelaxation conjugate gradient
 *
 * \param nn Order of linear system
 * \param ia array of row offsets
 * \param ja array of column indices
 * \param a array of matrix values
 * \param rhs array of right hand side of system
 * \param u solution array
 * \param iwksp int array used by itpack for calculations
 * \param nw size of iwskp and wksp
 * \param wksp double array used by itpack for calculations
 * \param iparm array of 12 integer parameters
 * \param rparm array of 12 double parameters
 * \param ierr holds error flag on return
 */
extern int ssorcg_(integer *nn, integer *ia, integer *ja, doublereal *a, doublereal *rhs, doublereal *u, integer *iwksp,
                   integer *nw, doublereal *wksp, integer *iparm, doublereal *rparm,
                   integer *ierr);

/**
 * Symmetric successive overrelaxation semi-iteration
 *
 * \param nn Order of linear system
 * \param ia array of row offsets
 * \param ja array of column indices
 * \param a array of matrix values
 * \param rhs array of right hand side of system
 * \param u solution array
 * \param iwksp int array used by itpack for calculations
 * \param nw size of iwskp and wksp
 * \param wksp double array used by itpack for calculations
 * \param iparm array of 12 integer parameters
 * \param rparm array of 12 double parameters
 * \param ierr holds error flag on return
 */
extern int ssorsi_(integer *nn, integer *ia, integer *ja, doublereal *a, doublereal *rhs, doublereal *u, integer *iwksp,
                   integer *nw, doublereal *wksp, integer *iparm, doublereal *rparm,
                   integer *ierr);

/**
 * Reduced system conjugate gradient
 *
 * \param nn Order of linear system
 * \param ia array of row offsets
 * \param ja array of column indices
 * \param a array of matrix values
 * \param rhs array of right hand side of system
 * \param u solution array
 * \param iwksp int array used by itpack for calculations
 * \param nw size of iwskp and wksp
 * \param wksp double array used by itpack for calculations
 * \param iparm array of 12 integer parameters
 * \param rparm array of 12 double parameters
 * \param ierr holds error flag on return
 */
extern int rscg_(integer *nn, integer *ia, integer *ja, doublereal *a, doublereal *rhs, doublereal *u, integer *iwksp,
                 integer *nw, doublereal *wksp, integer *iparm, doublereal *rparm,
                 integer *ierr);

/**
 * Reduced system semi-iteration
 *
 * \param nn Order of linear system
 * \param ia array of row offsets
 * \param ja array of column indices
 * \param a array of matrix values
 * \param rhs array of right hand side of system
 * \param u solution array
 * \param iwksp int array used by itpack for calculations
 * \param nw size of iwskp and wksp
 * \param wksp double array used by itpack for calculations
 * \param iparm array of 12 integer parameters
 * \param rparm array of 12 double parameters
 * \param ierr holds error flag on return
 */
extern int rssi_(integer *nn, integer *ia, integer *ja, doublereal *a, doublereal *rhs, doublereal *u, integer *iwksp,
                 integer *nw, doublereal *wksp, integer *iparm, doublereal *rparm,
                 integer *ierr);

/**
 * Performs one iteration of the jacobian conjugate gradiant method
 * \param nn Order of linear system
 * \param ia array of row offsets
 * \param ja array of column indices
 * \param a array of matrix values
 * \param u input version of solution vector
 * \param u1 value of solution vector at the end of the in-1 iteration, gets filled with newest estimate
 * \param d__  solution vector, gets filled with pseudo-residual vector after in iterations
 * \param d1 pseudo-residual vector after in-1 iterations, gets filled with newest pseudo-residual vector
 * \param dtwd used in computation of acceleration parameeter gamma and the pseudo-residual
 * \param tri stores the tridiagonal matrix associated with the eigenvalues of the conjugate gradient ploynomial
 */
extern int itjcg_(integer *nn, integer *ia, integer *ja, doublereal *a, doublereal *u, doublereal *u1, doublereal *d__,
                  doublereal *d1, doublereal *dtwd,
                  doublereal *tri);

/**
 * Performs one iteration of the jacobian semi-iteration method
 * \param nn Order of linear system
 * \param ia array of row offsets
 * \param ja array of column indices
 * \param a array of matrix values
 * \param rhs array of right hand side of linear system
 * \param u solution estimate at in iterations
 * \param u1 value of solution vector at the end of the in-1 iteration, gets filled with newest estimate
 * \param d__  solution vector, gets filled with pseudo-residual vector after in iterations
 * \param icnt number of iterations since last change in solution estimate
 */
extern int itjsi_(integer *nn, integer *ia, integer *ja, doublereal *a, doublereal *rhs, doublereal *u, doublereal *u1,
                  doublereal *d__,
                  integer *icnt);

/**
 * Performs one iteration of the successive overrelaxation method
 * \param nn Order of linear system
 * \param ia array of row offsets
 * \param ja array of column indices
 * \param a array of matrix values
 * \param rhs array of right hand side of linear system
 * \param u solution estimate array
 * \param wk work array of length nn
 */
extern int itsor_(integer *nn, integer *ia, integer *ja, doublereal *a, doublereal *rhs, doublereal *u, doublereal *wk);

/**
 * Performs one iteration of the symmetric successive overrelaxation conjugate gradient method
 * \param nn Order of linear system
 * \param ia array of row offsets
 * \param ja array of column indices
 * \param a array of matrix values
 * \param rhs array of right hand side of linear system
 * \param u solution estimate at in iterations,
 * \param u1 value of solution vector at the end of the in-1 iteration, gets filled with newest estimate
 * \param c__  forward residual after in iterations
 * \param c1 forward residual after in-1 iterations, filled with in+1 values
 * \param d__ used to compute backward pseudo-residual for current iteration
 * \param dl used in computation of acceleration parameters
 * \param wk work array of length nn
 * \param tri stores the tridiagonal matrix associated with the eigenvalues of the conjugate gradient ploynomial
 */
extern int itsrcg_(integer *nn, integer *ia, integer *ja, doublereal *a, doublereal *rhs, doublereal *u, doublereal *u1,
                   doublereal *c__, doublereal *c1, doublereal *d__, doublereal *dl, doublereal *wk,
                   doublereal *tri);

/**
 * Performs one iteration of the symmetric successive overrelaxation semi-iteration method
 * \param nn Order of linear system
 * \param ia array of row offsets
 * \param ja array of column indices
 * \param a array of matrix values
 * \param rhs array of right hand side of linear system
 * \param u solution estimate at in-1 iterations
 * \param u1 value of solution vector at the end of the in-1 iteration, gets filled with newest estimate
 * \param c__ used to compute forward pseudo-residual vector
 * \param d__ used to compute backward pseudo-residual vector
 * \param ctwd used in computation of acceleration parameters
 * \param wk work array of length nn
 */
extern int itsrsi_(integer *nn, integer *ia, integer *ja, doublereal *a, doublereal *rhs, doublereal *u, doublereal *u1,
                   doublereal *c__, doublereal *d__, doublereal *ctwd,
                   doublereal *wk);

/**
 * Performs one iteration of the reduced system conjugate gradient method
 * \param n Order of linear system
 * \param nnb Number of black points
 * \param ia array of row offsets
 * \param ja array of column indices
 * \param a array of matrix values
 * \param ub estimate for the solution of black points after in iterations
 * \param ub1 estimate for the solution of black points after in-1 iterations, filled with in+1 values
 * \param db pseudo-residual of black points after in iterations
 * \param db1 pseudo-residual of black points after in-1 iterations, filled with in+1 values
 * \param wb used in computation involving black vector
 * \param tri stores the tridiagonal matrix associated with the eigenvalues of the conjugate gradient ploynomial
 */
extern int itrscg_(integer *n, integer *nnb, integer *ia, integer *ja, doublereal *a, doublereal *ub, doublereal *ub1,
                   doublereal *db, doublereal *db1, doublereal *wb,
                   doublereal *tri);

/**
 * Performs one iteration of the reduced system semi-iteration method
 * \param n Order of linear system
 * \param nnb Number of black points
 * \param ia array of row offsets
 * \param ja array of column indices
 * \param a array of matrix values
 * \param rhs array of right hand side of linear system
 * \param ub estimate for the solution of black points after in iterations
 * \param ub1 pseudo-residual of black points after in-1 iterations, filled with in+1 values
 * \param db current residual
 */
extern int itrssi_(integer *n, integer *nnb, integer *ia, integer *ja, doublereal *a, doublereal *rhs, doublereal *ub,
                   doublereal *ub1,
                   doublereal *db);

/**
 * Function which uses a bisection search to find the entry j in the
 * array k such that the value l is greater than or equal to k[j]
 * and strictly less than k[j+1]
 * \param n since of array
 * \param k integer array to search
 * \param l searching criterion
 */
extern integer bisrch_(integer *n, integer *k, integer *l);

/**
 * Computes the solution to the chebyshev equation
 * \param qa ratio of pseudo-residuals
 * \param qt virtual spectral radius
 * \param rrr adaptive parameter
 * \param ip number of iterations since last change of parameters
 * \param cme estimate for largest eigen-value of iteration matrix
 * \param sme estimate for smallest eigen-value of iteration matrix
 */
extern doublereal cheby_(doublereal *qa, doublereal *qt, doublereal *rrr, integer *ip, doublereal *cme, doublereal *sme);

/**
 * Computes estimate for largest eigenvalue for conjugate gradient acceleration
 * \param tri tridiagonal matrix associated with the eigenvalues of the conjugate gradient polynomial
 * \param gamold previous value of acceleration parameters
 * \param rhoold previous value of acceleration parameters
 * \param ibmth flag indicating method being accelerated by conjugate gradient
 *        1 - jacobian
 *        2 - reduced system
 *        3 - ssor
 */
extern int chgcon_(doublereal *tri, doublereal *gamold, doublereal *rhoold, integer *ibmth);

/**
 * Computes new chebyshev acceleration parameters adaptively
 * \param dtnrm numerator or rayleigh quotient
 * \param ibmth indicator of basic method being accelerated by si
 *        1 = jacobi
 *        2 = reduced system
 *        3 = symmetric sor
 */
extern int chgsi_(doublereal *dtnrm, integer *ibmth);

/**
 * Tests for jacobi si whether sme should be changed when caseII = false
 * if the test is positive, the new value of sme is computed
 * \param oldnrm square of the norm of the pseudo-residual at the last iteration
 * \param icnt number of iterations since last change of parameters
 */
extern logical chgsme_(doublereal *oldnrm, integer *icnt);

/**
 * Overwrite double precision dy with double precision da*dx + dy
 *  \param n length of da
 *  \param da array of da values
 *  \param dx array of dx values
 *  \param incx increment size for dx array
 *  \param dy array of dy values
 *  \param incy increment size for dy array
 */
extern int daxpy_(integer *n, doublereal *da, doublereal *dx, integer *incx, doublereal *dy, integer *incy);

/**
 * Copy dx to dy
 * \param n length of dx
 * \param dx array of values
 * \param incx increment size for dx array
 * \param dy array of values
 * \param incy increment size for dy array
 */
extern int dcopy_(integer *n, doublereal *dx, integer *incx, doublereal *dy, integer *incy);

/**
 * Returns dot product of dx and dy
 * \param n length of dx
 * \param dx array of values
 * \param incx increment size for dx array
 * \param dy array of values
 * \param incy increment size for dy array
 */
extern doublereal ddot_(integer *n, doublereal *dx, integer *incx, doublereal *dy, integer *incy);

/**
 * Subroutine that computes the determinant of a symmetric tridiagonal matrix
 * given by tri. det(tri - xlmda*i) = 0
 * \param n order of tridiagonal system
 * \param tri symmetric tridiagonal matrix of order n
 * \param xlmda argument for characteristic equation
 */
extern doublereal determ_(integer *n, doublereal *tri, doublereal *xlmda);

/**
  * Obtain default parameters
  * \param iparm array of 12 integer parameters
  * \param rparm array of 12 double parameters
  */
extern int dfault_(integer *iparm, doublereal *rparm);

/**
 * This routine initializes the itpack common blocks from the information
 * contained in IPARM and RPARM.  echall_ also prints the values of all the
 * parameters in IPARM and RPARM
 * \param nn Order of linear system
 * \param ia array of row offsets
 * \param ja array of column indices
 * \param a array of matrix values
 * \param rhs array of right hand side of system
 * \param iparm integer array of parameters
 * \param rparm doublereal array of parameters
 * \param icall indicator of which parameters are being printed
 * \note in this implementation...all printing is disabled
 */
extern int echall_(integer *nn, integer *ia, integer *ja, doublereal *a, doublereal *rhs, integer *iparm,
                   doublereal *rparm,
                   integer *icall);

/**
 * This routine initiazes the itpack common blocks from IPARM and RPARM
 * \param iparm integer array of parameters
 * \param rparm doublereal array of parameters
 * \param imthd indicator of method
 *        1 = jcg
 *        2 = jsi
 *        3 = sor
 *        4 = ssorcg
 *        5 = ssorsi
 *        6 = rscg
 *        7 = rssi
 */
extern int echout_(integer *iparm, doublereal *rparm, integer *imthd);

/**
 * Computes the largest eigenvalue of symmetric tridiagnoncal matrix
 * for conjugate gradient acceleration
 * \param n order of tridiagonal system
 * \param tri symmetric tridiagonal matrix of order n
 * \param d__ array of eqrt1s (negative diagonal elements)
 * \param e2 array of eqrt1s (super diagonal elements)
 * \param ier error flag (0 = success)
 */
extern doublereal eigvns_(integer *n, doublereal *tri, doublereal *d__, doublereal *e2, integer *ier);

/**
 * Computes the largest eigenvalue of a symmetric tridiagonal matrix for conjugate gradient acceleration
 * modified imsl routine zbrent is used
 * \param n order of tridiagonal system
 * \param tri symmetric tridiagonal matrix of order n
 * \param start initial lower bound of interval containing root
 * \param zeta stopping criteria
 * \param itmax maximum number of iterations
 * \param ier error flag (0 = success)
 */
extern doublereal eigvss_(integer *n, doublereal *tri, doublereal *start, doublereal *zeta, integer *itmax,
                          integer *ier);

/**
 * Smallest or largest m eigenvalue of a symmetric tridiagonal matrix
 * \param d__ input vector of length n, contains diagonal elements of matrix
 *            the computed eigenvalues replace the first m components
 * \param e2 input vector of length n containing the squares of the off-diagonal elements of the matrix
 * \param nn order of the matrix
 * \param m number of smallest eigenvalues desired
 * \param isw positive definite flag (0 = not pd, 1 = pd)
 * \param ierr error flag (601 = interates not monotone increasing, 602 = not really pd)
 */
extern int eqrt1s_(doublereal *d__, doublereal *e2, integer *nn, integer *m, integer *isw, integer *ierr);

/**
 * Finds the smallest integer, ipstr, greater than 5 such that
 * ipstr * (omega-1)**(ipstr-1) <= 0.5
 * \param omega relaxation factor for sor method
 */
extern integer ipstr_(doublereal *omega);

/**
 * This routine produces the iteration summary line at the end of each iteration
 * if level = 5, the latest approx to the solution is printed
 * \param nn order of system
 * \param a iteration matrix
 * \param u solution estimate
 * \param wk work array of length nn
 * \param imthdd indicator of method
 *        1 = jcg
 *        2 = jsi
 *        3 = sor
 *        4 = ssorcg
 *        5 = ssorsi
 *        6 = rscg
 *        7 = rssi
 */
extern int iterm_(integer *nn, doublereal *a, doublereal *u, doublereal *wk, integer *imthdd);

/**
 * Fill integer array with a value
 * \param n number of elements in array
 * \param iv pointer to integer array
 * \param ival value to fill array with
 */
extern int ivfill_(integer *n, integer *iv, integer *ival);

/*
 * FIXME: add doc
 */
extern int omeg_(doublereal *dnrm, integer *iflag);

/*
 * FIXME: add doc
 */
extern logical omgchg_(integer *ndummy);

/*
 * FIXME: add doc
 */
extern logical omgstr_(integer *ndummy);

/*
 * FIXME: add doc
 */
extern int parcon_(doublereal *dtnrm, doublereal *c1, doublereal *c2, doublereal *c3, doublereal *c4,
                   doublereal *gamold, doublereal *rhotmp,
                   integer *ibmth);

/*
 * FIXME: add doc
 */
extern int parsi_(doublereal *c1, doublereal *c2, doublereal *c3, integer *ibmth);

/*
 * FIXME: add doc
 */
extern doublereal pbeta_(integer *nn, integer *ia, integer *ja, doublereal *a, doublereal *v, doublereal *w1,
                         doublereal *w2);

/*
 * FIXME: add doc
 */
extern int pbsor_(integer *nn, integer *ia, integer *ja, doublereal *a, doublereal *u, doublereal *rhs);

/*
 * FIXME: add doc
 */
extern int permat_(integer *nn, integer *ia, integer *ja, doublereal *a, integer *p, integer *newia, integer *isym,
                   integer *level, integer *nout,
                   integer *ierr);

/*
 * FIXME: add doc
 */
extern int perror_(integer *nn, integer *ia, integer *ja, doublereal *a, doublereal *rhs, doublereal *u, doublereal *w,
                   doublereal *digtt1, doublereal *digtt2,
                   integer *idgtts);

/*
 * FIXME: add doc
 */
extern int pervec_(integer *n, doublereal *v, integer *p);

/*
 * FIXME: add doc
 */
extern int pfsor_(integer *nn, integer *ia, integer *ja, doublereal *a, doublereal *u, doublereal *rhs);

/*
 * FIXME: add doc
 */
extern int pfsor1_(integer *nn, integer *ia, integer *ja, doublereal *a, doublereal *u, doublereal *rhs);

/*
 * FIXME: add doc
 */
extern int pjac_(integer *nn, integer *ia, integer *ja, doublereal *a, doublereal *u, doublereal *rhs);

/*
 * FIXME: add doc
 */
extern int pmult_(integer *nn, integer *ia, integer *ja, doublereal *a, doublereal *u, doublereal *w);

/*
 * FIXME: add doc
 */
extern int prbndx_(integer *nn, integer *nblack, integer *ia, integer *ja, integer *p, integer *ip, integer *level,
                   integer *nout,
                   integer *ier);

/*
 * FIXME: add doc
 */
extern int prsblk_(integer *nnb, integer *nnr, integer *ia, integer *ja, doublereal *a, doublereal *ur, doublereal *vb);

/*
 * FIXME: add doc
 */
extern int prsred_(integer *nnb, integer *nnr, integer *ia, integer *ja, doublereal *a, doublereal *ub, doublereal *vr);

/*
 * FIXME: add doc
 */
extern int pssor1_(integer *nn, integer *ia, integer *ja, doublereal *a, doublereal *u, doublereal *rhs, doublereal *fr,
                   doublereal *br);

/*
 * FIXME: add doc
 */
extern int pstop_(integer *n, doublereal *u, doublereal *dnrm, doublereal *ccon, integer *iflag, logical *q1);

/*
 * FIXME: add doc
 */
extern doublereal pvtbv_(integer *n, integer *ia, integer *ja, doublereal *a, doublereal *v);

/*
 * FIXME: add doc
 */
extern int qsort_(integer *nn, integer *key, doublereal *data, integer *error);

/**
 * Convert compressed row matrix back to linked-list representation used for adding entires
 */
extern int sbagn_(integer *n, integer *nz, integer *ia, integer *ja, doublereal *a, integer *iwork, integer *levell,
                  integer *noutt,
                  integer *ierr);

/*
 * FIXME: add doc
 */
extern int sbelm_(integer *nn, integer *ia, integer *ja, doublereal *a, doublereal *rhs, integer *iw, doublereal *rw,
                  doublereal *tol, integer *isym, integer *level, integer *nout,
                  integer *ier);

/**
 * Finalize matrix storage format
 * \param nn order of matrix
 * \param nz maximum number of non-zero values
 * \param ia array of row offsets
 * \param ja array of column indices
 * \param a array of matrix values
 * \param iwork workspace array used by itpack
 */
extern int sbend_(integer *nn, integer *nz, integer *ia, integer *ja, doublereal *a, integer *iwork);

/**
 * Initialize sparse matrix storage
 * \param nn order of matrix
 * \param nz maximum number of non-zero values
 * \param ia array of row offsets
 * \param ja array of column indices
 * \param a array of matrix values
 * \param iwork workspace array used by itpack
 */
extern int sbini_(integer *nn, integer *nz, integer *ia, integer *ja, doublereal *a, integer *iwork);

/**
 * Insert entry into sparse matrix
 * \param nn order of matrix
 * \param nz maximum number of non-zero values
 * \param ia array of row offsets
 * \param ja array of column indices
 * \param a array of matrix values
 * \param iwork workspace array used by itpack
 * \param ii row index of value to add
 * \param jj column index of value to add
 * \param vall value to add
 * \param mode flag for type of adding to be done
 * \param levell specifier for level of output
 * \param noutt specifier for output
 * \param ierr holds error flag on return
 */
extern int sbsij_(integer *nn, integer *nz, integer *ia, integer *ja, doublereal *a, integer *iwork, integer *ii,
                  integer *jj, doublereal *vall, integer *mode, integer *levell, integer *noutt,
                  integer *ierr);

/*
 * FIXME: add doc
 */
extern int scal_(integer *nn, integer *ia, integer *ja, doublereal *a, doublereal *rhs, doublereal *u, doublereal *d__,
                 integer *level, integer *nout,
                 integer *ier);

/*
 * FIXME: add doc
 */
extern int sum3_(integer *n, doublereal *c1, doublereal *x1, doublereal *c2, doublereal *x2, doublereal *c3,
                 doublereal *x3);

/*
 * FIXME: add doc
 */
extern doublereal tau_(integer *ii);

/*
 * FIXME: add doc
 */
extern E_f timer_(v3p_netlib_real *timdmy);

/*
 * FIXME: add doc
 */
extern logical tstchg_(integer *ibmth);

/*
 * FIXME: add doc
 */
extern int unscal_(integer *n, integer *ia, integer *ja, doublereal *a, doublereal *rhs, doublereal *u, doublereal *d__);

/*
 * FIXME: add doc
 */
extern int vevmw_(integer *n, doublereal *v, doublereal *w);

/*
 * FIXME: add doc
 */
extern int vevpw_(integer *n, doublereal *v, doublereal *w);

/**
 * Fill all entires of nn-sized array u with value
 * \param n size of array
 * \param v array
 * \param val value to fill array with
 */
extern int vfill_(integer *n, doublereal *v, doublereal *val);

/*
 * FIXME: add doc
 */
extern int vout_(integer *n, doublereal *v, integer *iswt, integer *noutt);

/*
 * FIXME: add doc
 */
extern int wevmw_(integer *n, doublereal *v, doublereal *w);

/*
 * FIXME: add doc
 */
extern int zbrent_(integer *n, doublereal *tri, doublereal *eps, integer *nsig, doublereal *aa, doublereal *bb,
                   integer *maxfnn,
                   integer *ier);

}

#include "v3p_f2c_unmangle.h"

#endif // #ifndef __itpack_h