256 lines
6.9 KiB
C
256 lines
6.9 KiB
C
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/*============================================================================
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This file is part of FLINT.
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FLINT is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 2 of the License, or
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(at your option) any later version.
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FLINT is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with FLINT; if not, write to the Free Software
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Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
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===============================================================================*/
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/******************************************************************************
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linear_algebra.c
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Routines for dealing with building the final F_2 matrix
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(C) 2006, 2011 William Hart
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******************************************************************************/
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#define ulong ulongxx /* interferes with system includes */
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#include <stdlib.h>
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#include <stdio.h>
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#undef ulong
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#define ulong mp_limb_t
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#include <gmp.h>
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#include "flint.h"
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#include "ulong_extras.h"
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#include "qsieve.h"
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#include "fmpz.h"
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/*=========================================================================
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Compare relations:
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Function: Compare two relations; used by qsort
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==========================================================================*/
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int qsieve_ll_relations_cmp(const void * a, const void * b)
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{
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la_col_t * ra = *((la_col_t **) a);
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la_col_t * rb = *((la_col_t **) b);
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slong point;
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if (ra->weight > rb->weight) return 1;
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else if (ra->weight < rb->weight) return -1;
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for (point = ra->weight - 1; point >= 0
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&& (ra->data[point] == rb->data[point]); point--)
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{
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;
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}
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if (point == -1) return 0;
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if (ra->data[point] > rb->data[point]) return 1;
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else if (ra->data[point] < rb->data[point]) return -1;
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return 0;
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}
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int qsieve_ll_relations_cmp2(const void * a, const void * b)
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{
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la_col_t * ra = (la_col_t *) a;
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la_col_t * rb = (la_col_t *) b;
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slong point;
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if (ra->weight > rb->weight) return 1;
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else if (ra->weight < rb->weight) return -1;
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for (point = ra->weight - 1; point >= 0
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&& (ra->data[point] == rb->data[point]); point--)
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{
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;
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}
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if (point == -1) return 0;
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if (ra->data[point] > rb->data[point]) return 1;
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else if (ra->data[point] < rb->data[point]) return -1;
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return 0;
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}
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/*==========================================================================
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Merge sort:
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Function: Merge a list of sorted new relations into a list of existing
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sorted relations. Sort is done using a merge sort algorithm
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with a short stack.
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===========================================================================*/
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slong qsieve_ll_merge_sort(qs_t qs_inf)
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{
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la_col_t * matrix = qs_inf->matrix;
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slong columns = qs_inf->columns;
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la_col_t ** qsort_arr = qs_inf->qsort_arr;
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slong num_unmerged = qs_inf->num_unmerged;
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slong dups = 0;
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int comp;
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slong i;
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for (i = columns + num_unmerged - WORD(1); i >= dups; i--)
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{
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if (!columns) comp = -1;
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else if (!num_unmerged) comp = 1;
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else
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comp = qsieve_ll_relations_cmp2(matrix + columns - WORD(1), qsort_arr[num_unmerged - WORD(1)]);
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switch (comp)
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{
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case -1:
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{
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copy_col(matrix + i, qsort_arr[num_unmerged - WORD(1)]);
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clear_col(qsort_arr[num_unmerged - WORD(1)]);
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num_unmerged--;
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break;
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}
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case 1:
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{
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copy_col(matrix + i, matrix + columns - WORD(1));
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columns--;
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break;
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}
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case 0:
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{
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free_col(qsort_arr[num_unmerged - WORD(1)]);
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clear_col(qsort_arr[num_unmerged - WORD(1)]);
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num_unmerged--;
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copy_col(matrix + i, matrix + columns - WORD(1));
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columns--;
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dups++;
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break;
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}
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}
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}
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columns = qs_inf->columns + qs_inf->num_unmerged - dups;
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if (dups)
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{
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slong i;
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for (i = 0; i < columns; i++)
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copy_col(matrix + i, matrix + i + dups);
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for ( ; i < columns + dups; i++)
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clear_col(matrix + i);
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}
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qs_inf->columns = columns;
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columns = qs_inf->num_unmerged - dups;
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qs_inf->num_unmerged = 0;
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#if (QS_DEBUG & 64)
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flint_printf("%wd new, %wd dups\n", columns, dups);
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#endif
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return columns;
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}
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/*==========================================================================
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Merge relations:
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Function: Merge unmerged relations into the matrix
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===========================================================================*/
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slong qsieve_ll_merge_relations(qs_t qs_inf)
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{
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const slong num_unmerged = qs_inf->num_unmerged;
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la_col_t * unmerged = qs_inf->unmerged;
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la_col_t ** qsort_arr = qs_inf->qsort_arr;
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if (num_unmerged)
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{
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slong i;
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for (i = 0; i < num_unmerged; i++)
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qsort_arr[i] = unmerged + i;
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qsort(qsort_arr, num_unmerged, sizeof(la_col_t *), qsieve_ll_relations_cmp);
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return qsieve_ll_merge_sort(qs_inf);
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}
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return 0;
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}
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/*==========================================================================
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Insert relation:
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Function: Insert the relation into the matrix and store the Y value
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===========================================================================*/
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slong qsieve_ll_insert_relation(qs_t qs_inf, fmpz_t Y)
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{
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la_col_t * unmerged = qs_inf->unmerged;
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slong num_unmerged = qs_inf->num_unmerged;
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slong * small = qs_inf->small;
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slong num_factors = qs_inf->num_factors;
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fac_t * factor = qs_inf->factor;
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slong * curr_rel = qs_inf->curr_rel;
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slong fac_num = 0;
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slong i;
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clear_col(unmerged + num_unmerged);
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for (i = 0; i < qs_inf->small_primes; i++)
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{
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if (small[i] & 1) insert_col_entry(unmerged + num_unmerged, i);
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if (small[i])
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{
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curr_rel[2*fac_num + 1] = i;
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curr_rel[2*fac_num + 2] = small[i];
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fac_num++;
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}
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}
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for (i = 0; i < num_factors; i++)
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{
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if (factor[i].exp & 1) insert_col_entry(unmerged + num_unmerged, factor[i].ind);
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curr_rel[2*fac_num + 1] = factor[i].ind;
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curr_rel[2*fac_num + 2] = factor[i].exp;
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fac_num++;
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}
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curr_rel[0] = fac_num;
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unmerged[num_unmerged].orig = qs_inf->num_relations;
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fmpz_set(qs_inf->Y_arr + qs_inf->num_relations, Y);
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qs_inf->curr_rel += qs_inf->max_factors*2;
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qs_inf->num_unmerged++;
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qs_inf->num_relations++;
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if (qs_inf->num_unmerged == qs_inf->qsort_rels)
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return qsieve_ll_merge_relations(qs_inf);
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return 0;
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}
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