volume.c: drop redundant arguments to volume_simplex

[barvinok.git] / reduce_domain.c

#include <barvinok/options.h>
#include "reduce_domain.h"

Polyhedron *reduce_domain(Polyhedron *D, Matrix *CT, Polyhedron *CEq,
                          Polyhedron **fVD, int nd,
                          struct barvinok_options *options)
{
    Polyhedron *Dt, *rVD;
    Polyhedron *C;
    Value c;
    int i;

    C = D->next ? DomainConvex(D, options->MaxRays) : D;
    Dt = CT ? DomainPreimage(C, CT, options->MaxRays) : C;
    rVD = CEq ? DomainIntersection(Dt, CEq, options->MaxRays) : Domain_Copy(Dt);

    /* if rVD is empty or too small in geometric dimension */
    if(!rVD || emptyQ(rVD) ||
            (CEq && rVD->Dimension-rVD->NbEq < Dt->Dimension-Dt->NbEq-CEq->NbEq)) {
        if(rVD)
            Domain_Free(rVD);
        if (D->next)
            Polyhedron_Free(C);
        if (CT)
            Domain_Free(Dt);
        return 0;               /* empty validity domain */
    }

    if (D->next)
        Polyhedron_Free(C);
    if (CT)
        Domain_Free(Dt);

    fVD[nd] = Domain_Copy(rVD);
    for (i = 0 ; i < nd; ++i) {
        Polyhedron *F;
        Polyhedron *I = DomainIntersection(fVD[nd], fVD[i], options->MaxRays);
        if (emptyQ(I)) {
            Domain_Free(I);
            continue;
        }
        F = DomainSimplify(I, fVD[nd], options->MaxRays);
        if (F->NbEq == 1) {
            Polyhedron *T = rVD;
            rVD = DomainDifference(rVD, F, options->MaxRays);
            Domain_Free(T);
        }
        Domain_Free(F);
        Domain_Free(I);
    }

    rVD = DomainConstraintSimplify(rVD, options->MaxRays);
    if (emptyQ(rVD)) {
        Domain_Free(fVD[nd]);
        Domain_Free(rVD);
        return 0;
    }

    value_init(c);
    barvinok_count_with_options(rVD, &c, options);
    if (value_zero_p(c)) {
        Domain_Free(fVD[nd]);
        Domain_Free(rVD);
        rVD = 0;
    }
    value_clear(c);

    return rVD;
}