isl_output.c: remove unused variable

[isl.git] / basis_reduction_tab.c

/*
 * Copyright 2008-2009 Katholieke Universiteit Leuven
 *
 * Use of this software is governed by the GNU LGPLv2.1 license
 *
 * Written by Sven Verdoolaege, K.U.Leuven, Departement
 * Computerwetenschappen, Celestijnenlaan 200A, B-3001 Leuven, Belgium
 */

#include <assert.h>
#include <isl_map_private.h>
#include <isl/seq.h>
#include "isl_tab.h"

struct tab_lp {
        struct isl_ctx  *ctx;
        struct isl_vec  *row;
        struct isl_tab  *tab;
        struct isl_tab_undo     **stack;
        isl_int         *obj;
        isl_int          opt;
        isl_int          opt_denom;
        isl_int          tmp;
        isl_int          tmp2;
        int              neq;
        unsigned         dim;
        /* number of constraints in initial product tableau */
        int              con_offset;
        /* objective function has fixed or no integer value */
        int              is_fixed;
};

static struct tab_lp *init_lp(struct isl_tab *tab);
static void set_lp_obj(struct tab_lp *lp, isl_int *row, int dim);
static int solve_lp(struct tab_lp *lp);
static void get_obj_val(struct tab_lp* lp, mpq_t *F);
static void delete_lp(struct tab_lp *lp);
static int add_lp_row(struct tab_lp *lp, isl_int *row, int dim);
static void get_alpha(struct tab_lp* lp, int row, mpq_t *alpha);
static int del_lp_row(struct tab_lp *lp) WARN_UNUSED;
static int cut_lp_to_hyperplane(struct tab_lp *lp, isl_int *row);

#define GBR_LP                              struct tab_lp
#define GBR_type                            mpq_t
#define GBR_init(v)                         mpq_init(v)
#define GBR_clear(v)                        mpq_clear(v)
#define GBR_set(a,b)                        mpq_set(a,b)
#define GBR_set_ui(a,b)                     mpq_set_ui(a,b,1)
#define GBR_mul(a,b,c)                      mpq_mul(a,b,c)
#define GBR_lt(a,b)                         (mpq_cmp(a,b) < 0)
#define GBR_is_zero(a)                      (mpq_sgn(a) == 0)
#define GBR_floor(a,b)                      mpz_fdiv_q(a,mpq_numref(b),mpq_denref(b))
#define GBR_ceil(a,b)                       mpz_cdiv_q(a,mpq_numref(b),mpq_denref(b))
#define GBR_lp_init(P)                      init_lp(P)
#define GBR_lp_set_obj(lp, obj, dim)        set_lp_obj(lp, obj, dim)
#define GBR_lp_solve(lp)                    solve_lp(lp)
#define GBR_lp_get_obj_val(lp, F)           get_obj_val(lp, F)
#define GBR_lp_delete(lp)                   delete_lp(lp)
#define GBR_lp_next_row(lp)                 lp->neq
#define GBR_lp_add_row(lp, row, dim)        add_lp_row(lp, row, dim)
#define GBR_lp_get_alpha(lp, row, alpha)    get_alpha(lp, row, alpha)
#define GBR_lp_del_row(lp)                  del_lp_row(lp)
#define GBR_lp_is_fixed(lp)                 (lp)->is_fixed
#define GBR_lp_cut(lp, obj)                 cut_lp_to_hyperplane(lp, obj)
#include "basis_reduction_templ.c"

/* Set up a tableau for the Cartesian product of bset with itself.
 * This could be optimized by first setting up a tableau for bset
 * and then performing the Cartesian product on the tableau.
 */
static struct isl_tab *gbr_tab(struct isl_tab *tab, struct isl_vec *row)
{
        unsigned dim;
        struct isl_tab *prod;

        if (!tab || !row)
                return NULL;

        dim = tab->n_var;
        prod = isl_tab_product(tab, tab);
        if (isl_tab_extend_cons(prod, 3 * dim + 1) < 0) {
                isl_tab_free(prod);
                return NULL;
        }
        return prod;
}

static struct tab_lp *init_lp(struct isl_tab *tab)
{
        struct tab_lp *lp = NULL;

        if (!tab)
                return NULL;

        lp = isl_calloc_type(tab->mat->ctx, struct tab_lp);
        if (!lp)
                return NULL;

        isl_int_init(lp->opt);
        isl_int_init(lp->opt_denom);
        isl_int_init(lp->tmp);
        isl_int_init(lp->tmp2);

        lp->dim = tab->n_var;

        lp->ctx = tab->mat->ctx;
        isl_ctx_ref(lp->ctx);

        lp->stack = isl_alloc_array(lp->ctx, struct isl_tab_undo *, lp->dim);

        lp->row = isl_vec_alloc(lp->ctx, 1 + 2 * lp->dim);
        if (!lp->row)
                goto error;
        lp->tab = gbr_tab(tab, lp->row);
        if (!lp->tab)
                goto error;
        lp->con_offset = lp->tab->n_con;
        lp->obj = NULL;
        lp->neq = 0;

        return lp;
error:
        delete_lp(lp);
        return NULL;
}

static void set_lp_obj(struct tab_lp *lp, isl_int *row, int dim)
{
        lp->obj = row;
}

static int solve_lp(struct tab_lp *lp)
{
        enum isl_lp_result res;
        unsigned flags = 0;

        lp->is_fixed = 0;

        isl_int_set_si(lp->row->el[0], 0);
        isl_seq_cpy(lp->row->el + 1, lp->obj, lp->dim);
        isl_seq_neg(lp->row->el + 1 + lp->dim, lp->obj, lp->dim);
        if (lp->neq)
                flags = ISL_TAB_SAVE_DUAL;
        res = isl_tab_min(lp->tab, lp->row->el, lp->ctx->one,
                          &lp->opt, &lp->opt_denom, flags);
        isl_int_mul_ui(lp->opt_denom, lp->opt_denom, 2);
        if (isl_int_abs_lt(lp->opt, lp->opt_denom)) {
                struct isl_vec *sample = isl_tab_get_sample_value(lp->tab);
                if (!sample)
                        return -1;
                isl_seq_inner_product(lp->obj, sample->el + 1, lp->dim, &lp->tmp);
                isl_seq_inner_product(lp->obj, sample->el + 1 + lp->dim, lp->dim, &lp->tmp2);
                isl_int_cdiv_q(lp->tmp, lp->tmp, sample->el[0]);
                isl_int_fdiv_q(lp->tmp2, lp->tmp2, sample->el[0]);
                if (isl_int_ge(lp->tmp, lp->tmp2))
                        lp->is_fixed = 1;
                isl_vec_free(sample);
        }
        isl_int_divexact_ui(lp->opt_denom, lp->opt_denom, 2);
        if (res != isl_lp_ok)
                return -1;
        return 0;
}

/* The current objective function has a fixed (or no) integer value.
 * Cut the tableau to the hyperplane that fixes this value in
 * both halves of the tableau.
 * Return 1 if the resulting tableau is empty.
 */
static int cut_lp_to_hyperplane(struct tab_lp *lp, isl_int *row)
{
        enum isl_lp_result res;

        isl_int_set_si(lp->row->el[0], 0);
        isl_seq_cpy(lp->row->el + 1, row, lp->dim);
        isl_seq_clr(lp->row->el + 1 + lp->dim, lp->dim);
        res = isl_tab_min(lp->tab, lp->row->el, lp->ctx->one,
                          &lp->tmp, NULL, 0);
        if (res != isl_lp_ok)
                return -1;

        isl_int_neg(lp->row->el[0], lp->tmp);
        if (isl_tab_add_eq(lp->tab, lp->row->el) < 0)
                return -1;

        isl_seq_cpy(lp->row->el + 1 + lp->dim, row, lp->dim);
        isl_seq_clr(lp->row->el + 1, lp->dim);
        if (isl_tab_add_eq(lp->tab, lp->row->el) < 0)
                return -1;

        lp->con_offset += 2;

        return lp->tab->empty;
}

static void get_obj_val(struct tab_lp* lp, mpq_t *F)
{
        isl_int_neg(mpq_numref(*F), lp->opt);
        isl_int_set(mpq_denref(*F), lp->opt_denom);
}

static void delete_lp(struct tab_lp *lp)
{
        if (!lp)
                return;

        isl_int_clear(lp->opt);
        isl_int_clear(lp->opt_denom);
        isl_int_clear(lp->tmp);
        isl_int_clear(lp->tmp2);
        isl_vec_free(lp->row);
        free(lp->stack);
        isl_tab_free(lp->tab);
        isl_ctx_deref(lp->ctx);
        free(lp);
}

static int add_lp_row(struct tab_lp *lp, isl_int *row, int dim)
{
        lp->stack[lp->neq] = isl_tab_snap(lp->tab);

        isl_int_set_si(lp->row->el[0], 0);
        isl_seq_cpy(lp->row->el + 1, row, lp->dim);
        isl_seq_neg(lp->row->el + 1 + lp->dim, row, lp->dim);

        if (isl_tab_add_valid_eq(lp->tab, lp->row->el) < 0)
                return -1;

        return lp->neq++;
}

static void get_alpha(struct tab_lp* lp, int row, mpq_t *alpha)
{
        row += lp->con_offset;
        isl_int_neg(mpq_numref(*alpha), lp->tab->dual->el[1 + row]);
        isl_int_set(mpq_denref(*alpha), lp->tab->dual->el[0]);
}

static int del_lp_row(struct tab_lp *lp)
{
        lp->neq--;
        return isl_tab_rollback(lp->tab, lp->stack[lp->neq]);
}