static glp_prob *best_prob;
static AdjWord *best_adjmatrix;
+static unsigned printcounter;
+
static AdjWord *xalloc_adjmatrix(void) {
return xmalloc(sizeof(*adjmatrix)*n);
}
static void prep(void) {
adjall = ~((~(AdjWord)0) << m);
adjmatrix = xalloc_adjmatrix();
+ glp_term_out(GLP_OFF);
}
static AdjWord one_adj_bit(int bitnum) {
return total;
}
-static void optimise(void) {
+static void optimise(int doprint) {
+ glp_prob *prob = 0;
int i, j, totalfrags;
+#define HAVE_PRINTED ({ \
+ if (!doprint) { doprint = 1; goto retry_with_print; } \
+ })
+ retry_with_print:
+#define PRINTF if (!doprint) ; else printf /* bodgy */
+
for (i=0, totalfrags=0; i<n; i++) {
int frags = count_set_adj_bits(adjmatrix[i]);
totalfrags += frags;
- printf("%"PRADJ" ", adjmatrix[i]);
+ PRINTF("%"PRADJ" ", adjmatrix[i]);
double maxminsize = (double)m / frags;
- if (maxminsize < best) {
- printf(" too fine\n");
- return;
+ if (maxminsize <= best) {
+ PRINTF(" too fine");
+ goto out;
}
}
* which we build up as we go.
*/
- glp_prob *prob = glp_create_prob();
+ prob = glp_create_prob();
int Y_totals_i = glp_add_rows(prob, n);
int Y_totals_j = glp_add_rows(prob, m);
int X_minimum = glp_add_cols(prob, 1);
+ {
int next_matrix_entry = 1; /* wtf GLPK! */
int matrix_entries_size = next_matrix_entry + n + m + totalfrags*2;
double matrix_entries[matrix_entries_size];
/* x_minimum >= 0 */
glp_set_col_bnds(prob, X_minimum, GLP_LO, 0, 0);
+ glp_set_col_name(prob, X_minimum, "minimum");
/* objective is maximising x_minimum */
glp_set_obj_dir(prob, GLP_MAX);
/* x_morefrag_i_j >= 0 */
int X_morefrag_i_j = glp_add_cols(prob, 1);
glp_set_col_bnds(prob, X_morefrag_i_j, GLP_LO, 0, 0);
+ if (doprint) {
+ char buf[255];
+ snprintf(buf,sizeof(buf),"mf %d,%d",i,j);
+ glp_set_col_name(prob, X_morefrag_i_j, buf);
+ }
/* x_total_i += x_morefrag_i_j */
/* x_total_j += x_morefrag_i_j */
matrix_entries);
int r = glp_simplex(prob, NULL);
- printf(" simplex=%d", r);
+ PRINTF(" glp=%d", r);
#define OKERR(e) \
- case e: printf(" " #e "\n"); goto out;
+ case e: PRINTF(" " #e ); goto out;
#define BADERR(e) \
- case e: printf(" " #e " CRASHING\n"); exit(-1);
+ case e: HAVE_PRINTED; printf(" " #e " CRASHING\n"); exit(-1);
#define DEFAULT \
- default: printf(" ! CRASHING\n"); exit(-1);
+ default: HAVE_PRINTED; printf(" ! CRASHING\n"); exit(-1);
switch (r) {
OKERR(GLP_ESING);
BADERR(GLP_EOBJUL);
BADERR(GLP_EITLIM);
BADERR(GLP_ETMLIM);
+ BADERR(GLP_EINSTAB);
+ BADERR(GLP_ENOCVG);
case 0: break;
DEFAULT;
}
r = glp_get_status(prob);
- printf(" status=%d", r);
+ PRINTF(" status=%d", r);
switch (r) {
OKERR(GLP_NOFEAS);
}
double got = glp_get_obj_val(prob);
- printf(" %g", got);
- if (got <= best) {
- printf("\n");
+ PRINTF(" %g", got);
+ if (got <= best)
goto out;
- }
+
+ HAVE_PRINTED;
best = got;
best_adjmatrix = xalloc_adjmatrix();
memcpy(best_adjmatrix, adjmatrix, sizeof(*adjmatrix)*n);
- printf(" <--\n");
+ printf(" BEST \n");
return;
+ }
out:
- glp_delete_prob(prob);
+ if (prob)
+ glp_delete_prob(prob);
+ if (doprint) { printf(" \r"); fflush(stdout); }
}
static void iterate_recurse(int i, AdjWord min) {
if (i >= n) {
- optimise();
+ printcounter++;
+ optimise(!(printcounter & 0xfff));
return;
}
- for (adjmatrix[i] = min;
+ for (adjmatrix[i] = adjall;
;
- adjmatrix[i]++) {
+ adjmatrix[i]--) {
iterate_recurse(i+1, adjmatrix[i]);
- if (adjmatrix[i] == adjall)
+ if (adjmatrix[i] == min)
return;
}
}
m = atoi(argv[2]);
prep();
iterate();
+ printf("\n");
+ if (best_prob)
+ glp_print_sol(best_prob,"/dev/stdout");
if (ferror(stdout) || fclose(stdout)) { perror("stdout"); exit(-1); }
return 0;
}