opm-simulators/opm/core/wells/wells.c

/*===========================================================================
//
// File: newwells.c
//
// Created: 2012-02-03 11:28:40+0100
//
// Authors: Knut-Andreas Lie      <Knut-Andreas.Lie@sintef.no>
//          Jostein R. Natvig     <Jostein.R.Natvig@sintef.no>
//          Halvor M. Nilsen      <HalvorMoll.Nilsen@sintef.no>
//          Atgeirr F. Rasmussen  <atgeirr@sintef.no>
//          Xavier Raynaud        <Xavier.Raynaud@sintef.no>
//          Bård Skaflestad       <Bard.Skaflestad@sintef.no>
//
//==========================================================================*/


/*
  Copyright 2012 SINTEF ICT, Applied Mathematics.
  Copyright 2012 Statoil ASA.

  This file is part of the Open Porous Media Project (OPM).

  OPM is free software: you can redistribute it and/or modify
  it under the terms of the GNU General Public License as published by
  the Free Software Foundation, either version 3 of the License, or
  (at your option) any later version.

  OPM is distributed in the hope that it will be useful,
  but WITHOUT ANY WARRANTY; without even the implied warranty of
  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
  GNU General Public License for more details.

  You should have received a copy of the GNU General Public License
  along with OPM.  If not, see <http://www.gnu.org/licenses/>.
*/

#include <opm/core/wells.h>

#include <assert.h>
#include <stddef.h>
#include <stdlib.h>
#include <string.h>

struct WellControlMgmt {
    int cpty;
};

struct WellMgmt {
    int well_cpty;
    int perf_cpty;
};


static void
destroy_ctrl_mgmt(struct WellControlMgmt *m)
{
    free(m);
}


static struct WellControlMgmt *
create_ctrl_mgmt(void)
{
    struct WellControlMgmt *m;

    m = malloc(1 * sizeof *m);

    if (m != NULL) {
        m->cpty = 0;
    }

    return m;
}


static void
destroy_well_mgmt(struct WellMgmt *m)
{
    free(m);
}


static struct WellMgmt *
create_well_mgmt(void)
{
    struct WellMgmt *m;

    m = malloc(1 * sizeof *m);

    if (m != NULL) {
        m->well_cpty = 0;
        m->perf_cpty = 0;
    }

    return m;
}


/* ---------------------------------------------------------------------- */
static void
well_controls_destroy(struct WellControls *ctrl)
/* ---------------------------------------------------------------------- */
{
    if (ctrl != NULL) {
        destroy_ctrl_mgmt(ctrl->data);
        free             (ctrl->distr);
        free             (ctrl->target);
        free             (ctrl->type);
    }

    free(ctrl);
}


/* ---------------------------------------------------------------------- */
static struct WellControls *
well_controls_create(void)
/* ---------------------------------------------------------------------- */
{
    struct WellControls *ctrl;

    ctrl = malloc(1 * sizeof *ctrl);

    if (ctrl != NULL) {
        /* Initialise empty control set */
        ctrl->num     = 0;
        ctrl->type    = NULL;
        ctrl->target  = NULL;
        ctrl->distr   = NULL;
        ctrl->current = -1;

        ctrl->data    = create_ctrl_mgmt();

        if (ctrl->data == NULL) {
            well_controls_destroy(ctrl);
            ctrl = NULL;
        }
    }

    return ctrl;
}


/* ---------------------------------------------------------------------- */
static int
well_controls_reserve(int nctrl, int nphases, struct WellControls *ctrl)
/* ---------------------------------------------------------------------- */
{
    int   c, p, ok;
    void *type, *target, *distr;

    struct WellControlMgmt *m;

    type   = realloc(ctrl->type  , nctrl * 1       * sizeof *ctrl->type  );
    target = realloc(ctrl->target, nctrl * 1       * sizeof *ctrl->target);
    distr  = realloc(ctrl->distr , nctrl * nphases * sizeof *ctrl->distr );

    ok = 0;
    if (type   != NULL) { ctrl->type   = type  ; ok++; }
    if (target != NULL) { ctrl->target = target; ok++; }
    if (distr  != NULL) { ctrl->distr  = distr ; ok++; }

    if (ok == 3) {
        m = ctrl->data;
        for (c = m->cpty; c < nctrl; c++) {
            ctrl->type  [c] =  BHP;
            ctrl->target[c] = -1.0;
        }

        for (p = m->cpty * nphases; p < nctrl * nphases; ++p) {
            ctrl->distr[ p ] = 0.0;
        }

        m->cpty = nctrl;
    }

    return ok == 3;
}


/* ---------------------------------------------------------------------- */
static int
wells_allocate(int nwells, struct Wells *W)
/* ---------------------------------------------------------------------- */
{
    int   ok, np;
    void *type, *depth_ref, *comp_frac;
    void *well_connpos;
    void *ctrls, *name;

    np = W->number_of_phases;

    type      = realloc(W->type     ,  1 * nwells * sizeof *W->type);
    depth_ref = realloc(W->depth_ref,  1 * nwells * sizeof *W->depth_ref);
    comp_frac = realloc(W->comp_frac, np * nwells * sizeof *W->comp_frac);
    ctrls     = realloc(W->ctrls    ,  1 * nwells * sizeof *W->ctrls);
    name      = realloc(W->name     ,  1 * nwells * sizeof *W->name);

    well_connpos = realloc(W->well_connpos,
                           (nwells + 1) * sizeof *W->well_connpos);

    ok = 0;
    if (type         != NULL) { W->type         = type        ; ok++; }
    if (depth_ref    != NULL) { W->depth_ref    = depth_ref   ; ok++; }
    if (comp_frac    != NULL) { W->comp_frac    = comp_frac   ; ok++; }
    if (well_connpos != NULL) { W->well_connpos = well_connpos; ok++; }
    if (ctrls        != NULL) { W->ctrls        = ctrls       ; ok++; }
    if (name         != NULL) { W->name         = name        ; ok++; }

    return ok == 6;
}


/* ---------------------------------------------------------------------- */
static int
perfs_allocate(int nperf, struct Wells *W)
/* ---------------------------------------------------------------------- */
{
    int   ok;
    void *well_cells, *WI;

    well_cells = realloc(W->well_cells, nperf * sizeof *W->well_cells);
    WI         = realloc(W->WI        , nperf * sizeof *W->WI        );

    ok = 0;
    if (well_cells != NULL) { W->well_cells = well_cells; ok++; }
    if (WI         != NULL) { W->WI         = WI        ; ok++; }

    return ok == 2;
}


/* ---------------------------------------------------------------------- */
static int
initialise_new_wells(int nwells, struct Wells *W)
/* ---------------------------------------------------------------------- */
{
    int ok, w, p;

    struct WellMgmt *m;

    m = W->data;

    for (w = m->well_cpty; w < nwells; w++) {
        W->type     [w]        = PRODUCER;
        W->depth_ref[w]        = -1.0;
        W->name     [w]        = NULL;

        for (p = 0; p < W->number_of_phases; ++p) {
            W->comp_frac[W->number_of_phases*w + p] = 0.0;
        }

        W->well_connpos[w + 1] = W->well_connpos[w];
    }

    for (w = m->well_cpty, ok = 1; ok && (w < nwells); w++) {
        W->ctrls[w] = well_controls_create();

        ok = W->ctrls[w] != NULL;
    }

    if (! ok) {
        for (; w < nwells; w++) {
            W->ctrls[w] = NULL;
        }
    }

    return ok;
}


/* ---------------------------------------------------------------------- */
static void
initialise_new_perfs(int nperf, struct Wells *W)
/* ---------------------------------------------------------------------- */
{
    int k;

    struct WellMgmt *m;

    m = W->data;

    for (k = m->perf_cpty; k < nperf; k++) {
        W->well_cells[k] = -1 ;
        W->WI        [k] = 0.0;
    }
}


/* ---------------------------------------------------------------------- */
static int
wells_reserve(int nwells, int nperf, struct Wells *W)
/* ---------------------------------------------------------------------- */
{
    int ok;

    struct WellMgmt *m;

    m = W->data;

    assert (nwells >= m->well_cpty);
    assert (nperf  >= m->perf_cpty);

    ok = 1;

    if (nwells > m->well_cpty) {
        ok = wells_allocate(nwells, W);

        if (ok) {
            ok = initialise_new_wells(nwells, W);
        }

        if (ok) {
            m->well_cpty = nwells;
        }
    }

    if (ok && (nperf > m->perf_cpty)) {
        ok = perfs_allocate(nperf, W);

        if (ok) {
            initialise_new_perfs(nperf, W);
            m->perf_cpty = nperf;
        }
    }

    return ok;
}


/* ---------------------------------------------------------------------- */
static char *
dup_string(const char *s)
/* ---------------------------------------------------------------------- */
{
    char *t;

    assert (s != NULL);

    t = malloc((strlen(s) + 1) * sizeof *t);

    if (t != NULL) {
        strcpy(t, s);
    }

    return t;
}


/* ======================================================================
 * Public entry points below separator.
 * ====================================================================== */


/* ---------------------------------------------------------------------- */
struct Wells *
create_wells(int nphases, int nwells, int nperf)
/* ---------------------------------------------------------------------- */
{
    int           ok;
    struct Wells *W;

    W = malloc(1 * sizeof *W);

    if (W != NULL) {
        W->number_of_wells = 0;
        W->number_of_phases = nphases;

        W->type            = NULL;
        W->depth_ref       = NULL;
        W->comp_frac       = NULL;

        W->well_connpos    = malloc(1 * sizeof *W->well_connpos);
        W->well_cells      = NULL;
        W->WI              = NULL;

        W->ctrls           = NULL;
        W->name            = NULL;

        W->data            = create_well_mgmt();

        ok = (W->well_connpos != NULL) && (W->data != NULL);
        if (ok) {
            W->well_connpos[0] = 0;

            if ((nwells > 0) || (nperf > 0)) {
                ok = wells_reserve(nwells, nperf, W);
            }
        }

        if (! ok) {
            destroy_wells(W);
            W = NULL;
        }
    }

    return W;
}


/* ---------------------------------------------------------------------- */
void
destroy_wells(struct Wells *W)
/* ---------------------------------------------------------------------- */
{
    int w;

    struct WellMgmt *m;

    if (W != NULL) {
        m = W->data;

        for (w = 0; w < m->well_cpty; w++) {
            well_controls_destroy(W->ctrls[w]);
        }

        for (w = 0; w < m->well_cpty; w++) {
            free(W->name[w]);
        }

        destroy_well_mgmt(m);

        free(W->name);
        free(W->ctrls);
        free(W->WI);
        free(W->well_cells);
        free(W->well_connpos);
        free(W->comp_frac);
        free(W->depth_ref);
        free(W->type);
    }

    free(W);
}


/* ---------------------------------------------------------------------- */
static int
alloc_size(int n, int a, int cpty)
/* ---------------------------------------------------------------------- */
{
    if (cpty < n + a) {
        cpty *= 2;              /* log_2(n) allocations */

        if (cpty < n + a) {     /* Typically for the first few allocs */
            cpty = n + a;
        }
    }

    return cpty;
}


/* ---------------------------------------------------------------------- */
int
add_well(enum WellType  type     ,
         double         depth_ref,
         int            nperf    ,
         const double  *comp_frac, /* Injection fraction or NULL */
         const int     *cells    ,
         const double  *WI       , /* Well index per perf (or NULL) */
         const char    *name     , /* Well name (or NULL) */
         struct Wells  *W        )
/* ---------------------------------------------------------------------- */
{
    int ok, nw, np, nperf_tot, off;
    int nwalloc, nperfalloc;

    struct WellMgmt *m;

    assert (W != NULL);

    nw        = W->number_of_wells;
    nperf_tot = W->well_connpos[nw];

    m = W->data;

    ok = (nw < m->well_cpty) && (nperf_tot + nperf <= m->perf_cpty);

    if (! ok) {
        nwalloc    = alloc_size(nw       , 1    , m->well_cpty);
        nperfalloc = alloc_size(nperf_tot, nperf, m->perf_cpty);

        ok = wells_reserve(nwalloc, nperfalloc, W);
    }

    off = W->well_connpos[nw];

    if (ok && (nperf > 0)) {
        assert (cells != NULL);

        memcpy(W->well_cells + off,
               cells, nperf * sizeof *W->well_cells);

        if (WI != NULL) {
            memcpy(W->WI + off, WI, nperf * sizeof *W->WI);
        }
    }

    if (ok) {
        W->type     [nw] = type     ;
        W->depth_ref[nw] = depth_ref;

        if (name != NULL) {
             /* May return NULL, but that's fine for the current
              * purpose. */
            W->name [nw] = dup_string(name);
        }

        np = W->number_of_phases;
        if (comp_frac != NULL) {
            memcpy(W->comp_frac + np*nw, comp_frac, np * sizeof *W->comp_frac);
        }

        W->well_connpos[nw + 1]  = off + nperf;
        W->number_of_wells      += 1;
    }

    return ok;
}


/* ---------------------------------------------------------------------- */
int
append_well_controls(enum WellControlType type,
                     double               target,
                     const double        *distr,
                     int                  well_index,
                     struct Wells        *W)
/* ---------------------------------------------------------------------- */
{
    int ok, alloc, np;
    struct WellControls    *ctrl;
    struct WellControlMgmt *m;

    assert (W != NULL);
    assert ((0 <= well_index) && (well_index < W->number_of_wells));

    ctrl = W->ctrls[well_index];
    np = W->number_of_phases;

    assert (ctrl != NULL);

    m  = ctrl->data;
    ok = ctrl->num < m->cpty;

    if (! ok) {
        alloc = alloc_size(ctrl->num, 1, m->cpty);
        ok    = well_controls_reserve(alloc, np, ctrl);
    }

    if (ok) {
        ctrl->type  [ctrl->num] = type  ;
        ctrl->target[ctrl->num] = target;

        if (distr != NULL) {
            memcpy(ctrl->distr + (ctrl->num * np), distr,
                   np * sizeof *ctrl->distr);
        }

        ctrl->num += 1;
    }

    return ok;
}


/* ---------------------------------------------------------------------- */
void
set_current_control(int well_index, int current_control, struct Wells *W)
/* ---------------------------------------------------------------------- */
{
    assert (W != NULL);
    assert ((0 <= well_index) && (well_index < W->number_of_wells));

    assert (W->ctrls[well_index] != NULL);

    assert (current_control < W->ctrls[well_index]->num);

    W->ctrls[well_index]->current = current_control;
}


/* ---------------------------------------------------------------------- */
void
clear_well_controls(int well_index, struct Wells *W)
/* ---------------------------------------------------------------------- */
{
    assert (W != NULL);
    assert ((0 <= well_index) && (well_index < W->number_of_wells));

    if (W->ctrls[well_index] != NULL) {
        W->ctrls[well_index]->num = 0;
    }
}


/* ---------------------------------------------------------------------- */
struct Wells *
clone_wells(const struct Wells *W)
/* ---------------------------------------------------------------------- */
{
    int                        c, np, nperf, ok, pos, w;
    double                     target;
    const int                 *cells;
    const double              *WI, *comp_frac, *distr;
    enum WellControlType       type;
    const struct WellControls *ctrls;

    struct Wells *ret;

    if (W == NULL) {
        ret = NULL;
    }
    else {
        np  = W->number_of_phases;
        ret = create_wells(W->number_of_phases, W->number_of_wells,
                           W->well_connpos[ W->number_of_wells ]);

        if (ret != NULL) {
            pos = W->well_connpos[ 0 ];
            ok  = 1;

            for (w = 0; ok && (w < W->number_of_wells); w++) {
                nperf = W->well_connpos[w + 1] - pos;
                cells = W->well_cells + pos;

                WI        = W->WI        != NULL ? W->WI        + pos  : NULL;
                comp_frac = W->comp_frac != NULL ? W->comp_frac + w*np : NULL;

                ok = add_well(W->type[ w ], W->depth_ref[ w ], nperf,
                              comp_frac, cells, WI, W->name[ w ], ret);

                /* Capacity should be sufficient from create_wells() */
                assert (ok);

                ctrls = W->ctrls[ w ];

                if (ok) {
                    ok = well_controls_reserve(ctrls->num, np, ret->ctrls[ w ]);

                    for (c = 0; ok && (c < ctrls->num); c++) {
                        type   =   ctrls->type  [ c ];
                        target =   ctrls->target[ c ];
                        distr  = & ctrls->distr [ c * np ];

                        ok = append_well_controls(type, target, distr, w, ret);

                        /* Capacity *should* be sufficient from
                         *  well_controls_reserve() */
                        assert (ok);
                    }
                }

                if (ok) {
                    set_current_control(w, ctrls->current, ret);
                }

                pos = W->well_connpos[w + 1];
            }

            if (! ok) {
                destroy_wells(ret);
                ret = NULL;
            }
        }
    }

    return ret;
}
Renamed newwells.h -> wells.h. Also moved implementation file to subdir. 2013-03-18 04:33:34 -05:00			`/*===========================================================================`
			`//`
			`// File: newwells.c`
			`//`
			`// Created: 2012-02-03 11:28:40+0100`
			`//`
			`// Authors: Knut-Andreas Lie <Knut-Andreas.Lie@sintef.no>`
			`// Jostein R. Natvig <Jostein.R.Natvig@sintef.no>`
			`// Halvor M. Nilsen <HalvorMoll.Nilsen@sintef.no>`
			`// Atgeirr F. Rasmussen <atgeirr@sintef.no>`
			`// Xavier Raynaud <Xavier.Raynaud@sintef.no>`
			`// Bård Skaflestad <Bard.Skaflestad@sintef.no>`
			`//`
			`//==========================================================================*/`


			`/*`
			`Copyright 2012 SINTEF ICT, Applied Mathematics.`
			`Copyright 2012 Statoil ASA.`

			`This file is part of the Open Porous Media Project (OPM).`

			`OPM is free software: you can redistribute it and/or modify`
			`it under the terms of the GNU General Public License as published by`
			`the Free Software Foundation, either version 3 of the License, or`
			`(at your option) any later version.`

			`OPM is distributed in the hope that it will be useful,`
			`but WITHOUT ANY WARRANTY; without even the implied warranty of`
			`MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the`
			`GNU General Public License for more details.`

			`You should have received a copy of the GNU General Public License`
			`along with OPM. If not, see <http://www.gnu.org/licenses/>.`
			`*/`

			`#include <opm/core/wells.h>`

			`#include <assert.h>`
			`#include <stddef.h>`
			`#include <stdlib.h>`
			`#include <string.h>`

			`struct WellControlMgmt {`
			`int cpty;`
			`};`

			`struct WellMgmt {`
			`int well_cpty;`
			`int perf_cpty;`
			`};`


			`static void`
			`destroy_ctrl_mgmt(struct WellControlMgmt *m)`
			`{`
			`free(m);`
			`}`


			`static struct WellControlMgmt *`
			`create_ctrl_mgmt(void)`
			`{`
			`struct WellControlMgmt *m;`

			`m = malloc(1 * sizeof *m);`

			`if (m != NULL) {`
			`m->cpty = 0;`
			`}`

			`return m;`
			`}`


			`static void`
			`destroy_well_mgmt(struct WellMgmt *m)`
			`{`
			`free(m);`
			`}`


			`static struct WellMgmt *`
			`create_well_mgmt(void)`
			`{`
			`struct WellMgmt *m;`

			`m = malloc(1 * sizeof *m);`

			`if (m != NULL) {`
			`m->well_cpty = 0;`
			`m->perf_cpty = 0;`
			`}`

			`return m;`
			`}`


			`/* ---------------------------------------------------------------------- */`
			`static void`
			`well_controls_destroy(struct WellControls *ctrl)`
			`/* ---------------------------------------------------------------------- */`
			`{`
			`if (ctrl != NULL) {`
			`destroy_ctrl_mgmt(ctrl->data);`
			`free (ctrl->distr);`
			`free (ctrl->target);`
			`free (ctrl->type);`
			`}`

			`free(ctrl);`
			`}`


			`/* ---------------------------------------------------------------------- */`
			`static struct WellControls *`
			`well_controls_create(void)`
			`/* ---------------------------------------------------------------------- */`
			`{`
			`struct WellControls *ctrl;`

			`ctrl = malloc(1 * sizeof *ctrl);`

			`if (ctrl != NULL) {`
			`/* Initialise empty control set */`
			`ctrl->num = 0;`
			`ctrl->type = NULL;`
			`ctrl->target = NULL;`
			`ctrl->distr = NULL;`
			`ctrl->current = -1;`

			`ctrl->data = create_ctrl_mgmt();`

			`if (ctrl->data == NULL) {`
			`well_controls_destroy(ctrl);`
			`ctrl = NULL;`
			`}`
			`}`

			`return ctrl;`
			`}`


			`/* ---------------------------------------------------------------------- */`
			`static int`
			`well_controls_reserve(int nctrl, int nphases, struct WellControls *ctrl)`
			`/* ---------------------------------------------------------------------- */`
			`{`
			`int c, p, ok;`
			`void type, target, *distr;`

			`struct WellControlMgmt *m;`

			`type = realloc(ctrl->type , nctrl * 1 * sizeof *ctrl->type );`
			`target = realloc(ctrl->target, nctrl * 1 * sizeof *ctrl->target);`
			`distr = realloc(ctrl->distr , nctrl * nphases * sizeof *ctrl->distr );`

			`ok = 0;`
			`if (type != NULL) { ctrl->type = type ; ok++; }`
			`if (target != NULL) { ctrl->target = target; ok++; }`
			`if (distr != NULL) { ctrl->distr = distr ; ok++; }`

			`if (ok == 3) {`
			`m = ctrl->data;`
			`for (c = m->cpty; c < nctrl; c++) {`
			`ctrl->type [c] = BHP;`
			`ctrl->target[c] = -1.0;`
			`}`

			`for (p = m->cpty * nphases; p < nctrl * nphases; ++p) {`
			`ctrl->distr[ p ] = 0.0;`
			`}`

			`m->cpty = nctrl;`
			`}`

			`return ok == 3;`
			`}`


			`/* ---------------------------------------------------------------------- */`
			`static int`
			`wells_allocate(int nwells, struct Wells *W)`
			`/* ---------------------------------------------------------------------- */`
			`{`
			`int ok, np;`
			`void type, depth_ref, *comp_frac;`
			`void *well_connpos;`
			`void ctrls, name;`

			`np = W->number_of_phases;`

			`type = realloc(W->type , 1 * nwells * sizeof *W->type);`
			`depth_ref = realloc(W->depth_ref, 1 * nwells * sizeof *W->depth_ref);`
			`comp_frac = realloc(W->comp_frac, np * nwells * sizeof *W->comp_frac);`
			`ctrls = realloc(W->ctrls , 1 * nwells * sizeof *W->ctrls);`
			`name = realloc(W->name , 1 * nwells * sizeof *W->name);`

			`well_connpos = realloc(W->well_connpos,`
			`(nwells + 1) * sizeof *W->well_connpos);`

			`ok = 0;`
			`if (type != NULL) { W->type = type ; ok++; }`
			`if (depth_ref != NULL) { W->depth_ref = depth_ref ; ok++; }`
			`if (comp_frac != NULL) { W->comp_frac = comp_frac ; ok++; }`
			`if (well_connpos != NULL) { W->well_connpos = well_connpos; ok++; }`
			`if (ctrls != NULL) { W->ctrls = ctrls ; ok++; }`
			`if (name != NULL) { W->name = name ; ok++; }`

			`return ok == 6;`
			`}`


			`/* ---------------------------------------------------------------------- */`
			`static int`
			`perfs_allocate(int nperf, struct Wells *W)`
			`/* ---------------------------------------------------------------------- */`
			`{`
			`int ok;`
			`void well_cells, WI;`

			`well_cells = realloc(W->well_cells, nperf * sizeof *W->well_cells);`
			`WI = realloc(W->WI , nperf * sizeof *W->WI );`

			`ok = 0;`
			`if (well_cells != NULL) { W->well_cells = well_cells; ok++; }`
			`if (WI != NULL) { W->WI = WI ; ok++; }`

			`return ok == 2;`
			`}`


			`/* ---------------------------------------------------------------------- */`
			`static int`
			`initialise_new_wells(int nwells, struct Wells *W)`
			`/* ---------------------------------------------------------------------- */`
			`{`
			`int ok, w, p;`

			`struct WellMgmt *m;`

			`m = W->data;`

			`for (w = m->well_cpty; w < nwells; w++) {`
			`W->type [w] = PRODUCER;`
			`W->depth_ref[w] = -1.0;`
			`W->name [w] = NULL;`

			`for (p = 0; p < W->number_of_phases; ++p) {`
			`W->comp_frac[W->number_of_phases*w + p] = 0.0;`
			`}`

			`W->well_connpos[w + 1] = W->well_connpos[w];`
			`}`

			`for (w = m->well_cpty, ok = 1; ok && (w < nwells); w++) {`
			`W->ctrls[w] = well_controls_create();`

			`ok = W->ctrls[w] != NULL;`
			`}`

			`if (! ok) {`
			`for (; w < nwells; w++) {`
			`W->ctrls[w] = NULL;`
			`}`
			`}`

			`return ok;`
			`}`


			`/* ---------------------------------------------------------------------- */`
			`static void`
			`initialise_new_perfs(int nperf, struct Wells *W)`
			`/* ---------------------------------------------------------------------- */`
			`{`
			`int k;`

			`struct WellMgmt *m;`

			`m = W->data;`

			`for (k = m->perf_cpty; k < nperf; k++) {`
			`W->well_cells[k] = -1 ;`
			`W->WI [k] = 0.0;`
			`}`
			`}`


			`/* ---------------------------------------------------------------------- */`
			`static int`
			`wells_reserve(int nwells, int nperf, struct Wells *W)`
			`/* ---------------------------------------------------------------------- */`
			`{`
			`int ok;`

			`struct WellMgmt *m;`

			`m = W->data;`

			`assert (nwells >= m->well_cpty);`
			`assert (nperf >= m->perf_cpty);`

			`ok = 1;`

			`if (nwells > m->well_cpty) {`
			`ok = wells_allocate(nwells, W);`

			`if (ok) {`
			`ok = initialise_new_wells(nwells, W);`
			`}`

			`if (ok) {`
			`m->well_cpty = nwells;`
			`}`
			`}`

			`if (ok && (nperf > m->perf_cpty)) {`
			`ok = perfs_allocate(nperf, W);`

			`if (ok) {`
			`initialise_new_perfs(nperf, W);`
			`m->perf_cpty = nperf;`
			`}`
			`}`

			`return ok;`
			`}`


			`/* ---------------------------------------------------------------------- */`
			`static char *`
			`dup_string(const char *s)`
			`/* ---------------------------------------------------------------------- */`
			`{`
			`char *t;`

			`assert (s != NULL);`

			`t = malloc((strlen(s) + 1) * sizeof *t);`

			`if (t != NULL) {`
			`strcpy(t, s);`
			`}`

			`return t;`
			`}`


			`/* ======================================================================`
			`* Public entry points below separator.`
			`* ====================================================================== */`


			`/* ---------------------------------------------------------------------- */`
			`struct Wells *`
			`create_wells(int nphases, int nwells, int nperf)`
			`/* ---------------------------------------------------------------------- */`
			`{`
			`int ok;`
			`struct Wells *W;`

			`W = malloc(1 * sizeof *W);`

			`if (W != NULL) {`
			`W->number_of_wells = 0;`
			`W->number_of_phases = nphases;`

			`W->type = NULL;`
			`W->depth_ref = NULL;`
			`W->comp_frac = NULL;`

			`W->well_connpos = malloc(1 * sizeof *W->well_connpos);`
			`W->well_cells = NULL;`
			`W->WI = NULL;`

			`W->ctrls = NULL;`
			`W->name = NULL;`

			`W->data = create_well_mgmt();`

			`ok = (W->well_connpos != NULL) && (W->data != NULL);`
			`if (ok) {`
			`W->well_connpos[0] = 0;`

			`if ((nwells > 0) \|\| (nperf > 0)) {`
			`ok = wells_reserve(nwells, nperf, W);`
			`}`
			`}`

			`if (! ok) {`
			`destroy_wells(W);`
			`W = NULL;`
			`}`
			`}`

			`return W;`
			`}`


			`/* ---------------------------------------------------------------------- */`
			`void`
			`destroy_wells(struct Wells *W)`
			`/* ---------------------------------------------------------------------- */`
			`{`
			`int w;`

			`struct WellMgmt *m;`

			`if (W != NULL) {`
			`m = W->data;`

			`for (w = 0; w < m->well_cpty; w++) {`
			`well_controls_destroy(W->ctrls[w]);`
			`}`

			`for (w = 0; w < m->well_cpty; w++) {`
			`free(W->name[w]);`
			`}`

			`destroy_well_mgmt(m);`

			`free(W->name);`
			`free(W->ctrls);`
			`free(W->WI);`
			`free(W->well_cells);`
			`free(W->well_connpos);`
			`free(W->comp_frac);`
			`free(W->depth_ref);`
			`free(W->type);`
			`}`

			`free(W);`
			`}`


			`/* ---------------------------------------------------------------------- */`
			`static int`
			`alloc_size(int n, int a, int cpty)`
			`/* ---------------------------------------------------------------------- */`
			`{`
			`if (cpty < n + a) {`
			`cpty = 2; / log_2(n) allocations */`

			`if (cpty < n + a) { /* Typically for the first few allocs */`
			`cpty = n + a;`
			`}`
			`}`

			`return cpty;`
			`}`


			`/* ---------------------------------------------------------------------- */`
			`int`
			`add_well(enum WellType type ,`
			`double depth_ref,`
			`int nperf ,`
			`const double comp_frac, / Injection fraction or NULL */`
			`const int *cells ,`
			`const double WI , / Well index per perf (or NULL) */`
			`const char name , / Well name (or NULL) */`
			`struct Wells *W )`
			`/* ---------------------------------------------------------------------- */`
			`{`
			`int ok, nw, np, nperf_tot, off;`
			`int nwalloc, nperfalloc;`

			`struct WellMgmt *m;`

			`assert (W != NULL);`

			`nw = W->number_of_wells;`
			`nperf_tot = W->well_connpos[nw];`

			`m = W->data;`

			`ok = (nw < m->well_cpty) && (nperf_tot + nperf <= m->perf_cpty);`

			`if (! ok) {`
			`nwalloc = alloc_size(nw , 1 , m->well_cpty);`
			`nperfalloc = alloc_size(nperf_tot, nperf, m->perf_cpty);`

			`ok = wells_reserve(nwalloc, nperfalloc, W);`
			`}`

			`off = W->well_connpos[nw];`

			`if (ok && (nperf > 0)) {`
			`assert (cells != NULL);`

			`memcpy(W->well_cells + off,`
			`cells, nperf * sizeof *W->well_cells);`

			`if (WI != NULL) {`
			`memcpy(W->WI + off, WI, nperf * sizeof *W->WI);`
			`}`
			`}`

			`if (ok) {`
			`W->type [nw] = type ;`
			`W->depth_ref[nw] = depth_ref;`

			`if (name != NULL) {`
			`/* May return NULL, but that's fine for the current`
			`* purpose. */`
			`W->name [nw] = dup_string(name);`
			`}`

			`np = W->number_of_phases;`
			`if (comp_frac != NULL) {`
			`memcpy(W->comp_frac + npnw, comp_frac, np sizeof *W->comp_frac);`
			`}`

			`W->well_connpos[nw + 1] = off + nperf;`
			`W->number_of_wells += 1;`
			`}`

			`return ok;`
			`}`


			`/* ---------------------------------------------------------------------- */`
			`int`
			`append_well_controls(enum WellControlType type,`
			`double target,`
			`const double *distr,`
			`int well_index,`
			`struct Wells *W)`
			`/* ---------------------------------------------------------------------- */`
			`{`
			`int ok, alloc, np;`
			`struct WellControls *ctrl;`
			`struct WellControlMgmt *m;`

			`assert (W != NULL);`
			`assert ((0 <= well_index) && (well_index < W->number_of_wells));`

			`ctrl = W->ctrls[well_index];`
			`np = W->number_of_phases;`

			`assert (ctrl != NULL);`

			`m = ctrl->data;`
			`ok = ctrl->num < m->cpty;`

			`if (! ok) {`
			`alloc = alloc_size(ctrl->num, 1, m->cpty);`
			`ok = well_controls_reserve(alloc, np, ctrl);`
			`}`

			`if (ok) {`
			`ctrl->type [ctrl->num] = type ;`
			`ctrl->target[ctrl->num] = target;`

			`if (distr != NULL) {`
			`memcpy(ctrl->distr + (ctrl->num * np), distr,`
			`np * sizeof *ctrl->distr);`
			`}`

			`ctrl->num += 1;`
			`}`

			`return ok;`
			`}`


			`/* ---------------------------------------------------------------------- */`
			`void`
			`set_current_control(int well_index, int current_control, struct Wells *W)`
			`/* ---------------------------------------------------------------------- */`
			`{`
			`assert (W != NULL);`
			`assert ((0 <= well_index) && (well_index < W->number_of_wells));`

			`assert (W->ctrls[well_index] != NULL);`

			`assert (current_control < W->ctrls[well_index]->num);`

			`W->ctrls[well_index]->current = current_control;`
			`}`


			`/* ---------------------------------------------------------------------- */`
			`void`
			`clear_well_controls(int well_index, struct Wells *W)`
			`/* ---------------------------------------------------------------------- */`
			`{`
			`assert (W != NULL);`
			`assert ((0 <= well_index) && (well_index < W->number_of_wells));`

			`if (W->ctrls[well_index] != NULL) {`
			`W->ctrls[well_index]->num = 0;`
			`}`
			`}`


			`/* ---------------------------------------------------------------------- */`
			`struct Wells *`
			`clone_wells(const struct Wells *W)`
			`/* ---------------------------------------------------------------------- */`
			`{`
			`int c, np, nperf, ok, pos, w;`
			`double target;`
			`const int *cells;`
			`const double WI, comp_frac, *distr;`
			`enum WellControlType type;`
			`const struct WellControls *ctrls;`

			`struct Wells *ret;`

			`if (W == NULL) {`
			`ret = NULL;`
			`}`
			`else {`
			`np = W->number_of_phases;`
			`ret = create_wells(W->number_of_phases, W->number_of_wells,`
			`W->well_connpos[ W->number_of_wells ]);`

			`if (ret != NULL) {`
			`pos = W->well_connpos[ 0 ];`
			`ok = 1;`

			`for (w = 0; ok && (w < W->number_of_wells); w++) {`
			`nperf = W->well_connpos[w + 1] - pos;`
			`cells = W->well_cells + pos;`

			`WI = W->WI != NULL ? W->WI + pos : NULL;`
			`comp_frac = W->comp_frac != NULL ? W->comp_frac + w*np : NULL;`

			`ok = add_well(W->type[ w ], W->depth_ref[ w ], nperf,`
			`comp_frac, cells, WI, W->name[ w ], ret);`

			`/* Capacity should be sufficient from create_wells() */`
			`assert (ok);`

			`ctrls = W->ctrls[ w ];`

			`if (ok) {`
			`ok = well_controls_reserve(ctrls->num, np, ret->ctrls[ w ]);`

			`for (c = 0; ok && (c < ctrls->num); c++) {`
			`type = ctrls->type [ c ];`
			`target = ctrls->target[ c ];`
			`distr = & ctrls->distr [ c * np ];`

			`ok = append_well_controls(type, target, distr, w, ret);`

			`/* Capacity should be sufficient from`
			`* well_controls_reserve() */`
			`assert (ok);`
			`}`
			`}`

			`if (ok) {`
			`set_current_control(w, ctrls->current, ret);`
			`}`

			`pos = W->well_connpos[w + 1];`
			`}`

			`if (! ok) {`
			`destroy_wells(ret);`
			`ret = NULL;`
			`}`
			`}`
			`}`

			`return ret;`
			`}`