/* prob3.c (problem row/column searching routines) */ /*********************************************************************** * This code is part of GLPK (GNU Linear Programming Kit). * Copyright (C) 2000-2013 Free Software Foundation, Inc. * Written by Andrew Makhorin . * * GLPK 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. * * GLPK 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 GLPK. If not, see . ***********************************************************************/ #include "env.h" #include "prob.h" /*********************************************************************** * NAME * * glp_create_index - create the name index * * SYNOPSIS * * void glp_create_index(glp_prob *lp); * * DESCRIPTION * * The routine glp_create_index creates the name index for the * specified problem object. The name index is an auxiliary data * structure, which is intended to quickly (i.e. for logarithmic time) * find rows and columns by their names. * * This routine can be called at any time. If the name index already * exists, the routine does nothing. */ void glp_create_index(glp_prob *lp) { GLPROW *row; GLPCOL *col; int i, j; /* create row name index */ if (lp->r_tree == NULL) { lp->r_tree = avl_create_tree(avl_strcmp, NULL); for (i = 1; i <= lp->m; i++) { row = lp->row[i]; xassert(row->node == NULL); if (row->name != NULL) { row->node = avl_insert_node(lp->r_tree, row->name); avl_set_node_link(row->node, row); } } } /* create column name index */ if (lp->c_tree == NULL) { lp->c_tree = avl_create_tree(avl_strcmp, NULL); for (j = 1; j <= lp->n; j++) { col = lp->col[j]; xassert(col->node == NULL); if (col->name != NULL) { col->node = avl_insert_node(lp->c_tree, col->name); avl_set_node_link(col->node, col); } } } return; } /*********************************************************************** * NAME * * glp_find_row - find row by its name * * SYNOPSIS * * int glp_find_row(glp_prob *lp, const char *name); * * RETURNS * * The routine glp_find_row returns the ordinal number of a row, * which is assigned (by the routine glp_set_row_name) the specified * symbolic name. If no such row exists, the routine returns 0. */ int glp_find_row(glp_prob *lp, const char *name) { AVLNODE *node; int i = 0; if (lp->r_tree == NULL) xerror("glp_find_row: row name index does not exist\n"); if (!(name == NULL || name[0] == '\0' || strlen(name) > 255)) { node = avl_find_node(lp->r_tree, name); if (node != NULL) i = ((GLPROW *)avl_get_node_link(node))->i; } return i; } /*********************************************************************** * NAME * * glp_find_col - find column by its name * * SYNOPSIS * * int glp_find_col(glp_prob *lp, const char *name); * * RETURNS * * The routine glp_find_col returns the ordinal number of a column, * which is assigned (by the routine glp_set_col_name) the specified * symbolic name. If no such column exists, the routine returns 0. */ int glp_find_col(glp_prob *lp, const char *name) { AVLNODE *node; int j = 0; if (lp->c_tree == NULL) xerror("glp_find_col: column name index does not exist\n"); if (!(name == NULL || name[0] == '\0' || strlen(name) > 255)) { node = avl_find_node(lp->c_tree, name); if (node != NULL) j = ((GLPCOL *)avl_get_node_link(node))->j; } return j; } /*********************************************************************** * NAME * * glp_delete_index - delete the name index * * SYNOPSIS * * void glp_delete_index(glp_prob *lp); * * DESCRIPTION * * The routine glp_delete_index deletes the name index previously * created by the routine glp_create_index and frees the memory * allocated to this auxiliary data structure. * * This routine can be called at any time. If the name index does not * exist, the routine does nothing. */ void glp_delete_index(glp_prob *lp) { int i, j; /* delete row name index */ if (lp->r_tree != NULL) { for (i = 1; i <= lp->m; i++) lp->row[i]->node = NULL; avl_delete_tree(lp->r_tree), lp->r_tree = NULL; } /* delete column name index */ if (lp->c_tree != NULL) { for (j = 1; j <= lp->n; j++) lp->col[j]->node = NULL; avl_delete_tree(lp->c_tree), lp->c_tree = NULL; } return; } /* eof */