#include "coord.h"
#include "sokoban.h"
-/*
- * Global TODOs for now:
- * - update the helper maps so it is a single bimap
- * - make a data structure for relations
- * - encode relations as a set of four relations for each move
- */
typedef struct {
int x;
} bddvar_xy_map;
typedef struct {
- xy_bddvar_map f;
- bddvar_xy_map t;
+ xy_bddvar_map *f;
+ bddvar_xy_map *t;
} bimap;
xy_bddvar_map *getxy(int x, int y, xy_bddvar_map *map)
return r;
}
-xy_bddvar_map *create_xy_bddvar_map(sokoban_screen *screen)
+
+bimap *create_bimap_helper(sokoban_screen *screen)
{
int varcount = 0;
sokoban_screen *r;
xy_bddvar_map *xybdd = NULL;
+ bddvar_xy_map *bddxy = NULL;
for(r=screen; r != NULL; r = (sokoban_screen *)(r->hh.next)){
xy_bddvar_map *f = NULL;
- //bddvar_xy_map *t = NULL;
-
f = (xy_bddvar_map *)malloc(sizeof(xy_bddvar_map));
memset(f, 0, sizeof(xy_bddvar_map));
f->key.x = r->coord.x;
f->key.y = r->coord.y;
- printf("test!: %d %d\n", r->coord.x, r->coord.y);
f->value.var[0] = varcount;
f->value.var[1] = varcount + 1;
f->value.var[2] = varcount + 2;
HASH_ADD(hh, xybdd, key, sizeof(xy), f);
+
+ for (int i = 0; i <3; i++){
+ bddvar_xy_map *t = NULL;
+ t = (bddvar_xy_map *)malloc(sizeof(bddvar_xy_map));
+ memset(t, 0, sizeof(bddvar_xy_map));
+ t->key = varcount + i;
+ t->value.x = r->coord.x;
+ t->value.y = r->coord.y;
+ HASH_ADD(hh, bddxy, key, sizeof(int), t);
+ }
varcount = varcount + 3;
}
- return xybdd;
+ bimap *bm = NULL;
+ bm = (bimap *)malloc(sizeof(bimap));
+ bm->f = xybdd;
+ bm->t = bddxy;
+ return bm;
}
-bddvar_xy_map *create_bddvar_xy_map(sokoban_screen *screen)
+int check_xy_exists(int x, int y, bimap *bm)
{
- int varcount = 0;
- sokoban_screen *r;
- bddvar_xy_map *bddxy = NULL;
- for(r=screen; r != NULL; r = (sokoban_screen *)(r->hh.next)){
- for (int i = 0; i <3; i++){
- bddvar_xy_map *f = NULL;
- //bddvar_xy_map *t = NULL;
-
- f = (bddvar_xy_map *)malloc(sizeof(bddvar_xy_map));
- memset(f, 0, sizeof(bddvar_xy_map));
- f->key = varcount + i;
- f->value.x = r->coord.x;
- f->value.y = r->coord.y;
- HASH_ADD(hh, bddxy, key, sizeof(int), f);
- }
- varcount = varcount + 3;
+ int res = 0;
+ if (getxy(x, y, bm->f) != NULL) res = 1;
+ return res;
+}
+
+int check_space(int x, int y, direction d, int delta, bimap *bm)
+{
+ switch(d){
+ case LEFT: x = x - delta; break;
+ case UP: y = y - delta; break;
+ case RIGHT: x = x + delta; break;
+ case DOWN: y = y + delta; break;
}
- return bddxy;
+ return check_xy_exists(x, y, bm);
}
/*
* directly in transition relations.
*/
-BDD encode_screen(sokoban_screen *screen)
+state *encode_screen(sokoban_screen *screen)
{
- BDD state = sylvan_false;
+ LACE_ME;
+
+ BDDVAR vars[HASH_COUNT(screen) * 3];
+ for (uint8_t i = 0; i < HASH_COUNT(screen) * 3; i++){
+ vars[i] = i * 2;
+ }
+
+ uint8_t st_enc[HASH_COUNT(screen) * 3];
+
+ BDDSET varset = sylvan_set_fromarray(vars, HASH_COUNT(screen) * 3);
+ BDD s;
+ state *fullState = NULL;
+ fullState = (state *)malloc(sizeof(state));
+ fullState->vars.varset = varset;
+ fullState->vars.size = HASH_COUNT(screen) * 3;
int tile_index = 0;
sokoban_screen *r;
- LACE_ME;
for(r=screen; r != NULL; r = (sokoban_screen *)(r->hh.next)){
switch(r->tile){
- case FREE:
- if (state == sylvan_false){
- state = sylvan_not(sylvan_ithvar(tile_index));
- tile_index++;
- state = sylvan_and(state, sylvan_not(sylvan_ithvar(tile_index)));
- tile_index++;
- state = sylvan_and(state, sylvan_ithvar(tile_index));
- tile_index++;
- }
- else {
- state = sylvan_and(state, sylvan_not(sylvan_ithvar(tile_index)));
- tile_index++;
- state = sylvan_and(state, sylvan_not(sylvan_ithvar(tile_index)));
- tile_index++;
- state = sylvan_and(state, sylvan_ithvar(tile_index));
- tile_index++;
- }
+ case FREE: //001
+ st_enc[tile_index] = 0;
+ tile_index++;
+ st_enc[tile_index] = 0;
+ tile_index++;
+ st_enc[tile_index] = 1;
+ tile_index++;
break;
- case WALL:
- if (state == sylvan_false){
- state = sylvan_not(sylvan_ithvar(tile_index));
- tile_index++;
- state = sylvan_and(state, sylvan_not(sylvan_ithvar(tile_index)));
- tile_index++;
- state = sylvan_and(state, sylvan_not(sylvan_ithvar(tile_index)));
- tile_index++;
- }
- else {
- state = sylvan_and(state, sylvan_not(sylvan_ithvar(tile_index)));
- tile_index++;
- state = sylvan_and(state, sylvan_not(sylvan_ithvar(tile_index)));
- tile_index++;
- state = sylvan_and(state, sylvan_not(sylvan_ithvar(tile_index)));
- tile_index++;
- }
+ case WALL: //000
+ st_enc[tile_index] = 0;
+ tile_index++;
+ st_enc[tile_index] = 0;
+ tile_index++;
+ st_enc[tile_index] = 0;
+ tile_index++;
break;
- case BOX:
- if (state == sylvan_false){
- state = sylvan_not(sylvan_ithvar(tile_index));
- tile_index++;
- state = sylvan_and(state, sylvan_ithvar(tile_index));
- tile_index++;
- state = sylvan_and(state, sylvan_not(sylvan_ithvar(tile_index)));
- tile_index++;
- }
- else {
- state = sylvan_and(state, sylvan_not(sylvan_ithvar(tile_index)));
- tile_index++;
- state = sylvan_and(state, sylvan_ithvar(tile_index));
- tile_index++;
- state = sylvan_and(state, sylvan_not(sylvan_ithvar(tile_index)));
- tile_index++;
- }
+ case BOX: //010
+ st_enc[tile_index] = 0;
+ tile_index++;
+ st_enc[tile_index] = 1;
+ tile_index++;
+ st_enc[tile_index] = 0;
+ tile_index++;
break;
- case TARGET:
- if (state == sylvan_false){
- state = sylvan_not(sylvan_ithvar(tile_index));
- tile_index++;
- state = sylvan_and(state, sylvan_ithvar(tile_index));
- tile_index++;
- state = sylvan_and(state, sylvan_ithvar(tile_index));
- tile_index++;
- }
- else {
- state = sylvan_and(state, sylvan_not(sylvan_ithvar(tile_index)));
- tile_index++;
- state = sylvan_and(state, sylvan_ithvar(tile_index));
- tile_index++;
- state = sylvan_and(state, sylvan_ithvar(tile_index));
- tile_index++;
- }
+ case TARGET: //011
+ st_enc[tile_index] = 0;
+ tile_index++;
+ st_enc[tile_index] = 1;
+ tile_index++;
+ st_enc[tile_index] = 1;
+ tile_index++;
break;
- case AGENT:
- if (state == sylvan_false){
- state = sylvan_ithvar(tile_index);
- tile_index++;
- state = sylvan_and(state, sylvan_not(sylvan_ithvar(tile_index)));
- tile_index++;
- state = sylvan_and(state, sylvan_ithvar(tile_index));
- tile_index++;
- }
- else {
- state = sylvan_and(state, sylvan_ithvar(tile_index));
- tile_index++;
- state = sylvan_and(state, sylvan_not(sylvan_ithvar(tile_index)));
- tile_index++;
- state = sylvan_and(state, sylvan_ithvar(tile_index));
- tile_index++;
- }
+ case AGENT: //101
+ st_enc[tile_index] = 1;
+ tile_index++;
+ st_enc[tile_index] = 0;
+ tile_index++;
+ st_enc[tile_index] = 1;
+ tile_index++;
break;
- case TARGAGENT:
- if (state == sylvan_false){
- state = sylvan_ithvar(tile_index);
- tile_index++;
- state = sylvan_and(state, sylvan_ithvar(tile_index));
- tile_index++;
- state = sylvan_and(state, sylvan_not(sylvan_ithvar(tile_index)));
- tile_index++;
- }
- else {
- state = sylvan_and(state, sylvan_ithvar(tile_index));
- tile_index++;
- state = sylvan_and(state, sylvan_ithvar(tile_index));
- tile_index++;
- state = sylvan_and(state, sylvan_not(sylvan_ithvar(tile_index)));
- tile_index++;
- }
+ case TARGAGENT: //110
+ st_enc[tile_index] = 1;
+ tile_index++;
+ st_enc[tile_index] = 1;
+ tile_index++;
+ st_enc[tile_index] = 0;
+ tile_index++;
break;
- case TARGBOX:
- if (state == sylvan_false){
- state = sylvan_ithvar(tile_index);
- tile_index++;
- state = sylvan_and(state, sylvan_not(sylvan_ithvar(tile_index)));
- tile_index++;
- state = sylvan_and(state, sylvan_not(sylvan_ithvar(tile_index)));
- tile_index++;
- }
- else {
- state = sylvan_and(state, sylvan_ithvar(tile_index));
- tile_index++;
- state = sylvan_and(state, sylvan_not(sylvan_ithvar(tile_index)));
- tile_index++;
- state = sylvan_and(state, sylvan_not(sylvan_ithvar(tile_index)));
- tile_index++;
- }
+ case TARGBOX: //100
+ st_enc[tile_index] = 1;
+ tile_index++;
+ st_enc[tile_index] = 0;
+ tile_index++;
+ st_enc[tile_index] = 0;
+ tile_index++;
break;
}
}
- /*
- xy_bddvar_map *map = NULL;
- map = create_xy_bddvar_map(screen);
- xy_bddvar_map *m = getxy(1, 1, map);
- bddvar_xy_map *map2 = NULL;
- map2 = create_bddvar_xy_map(screen);
- bddvar_xy_map *m2 = getbdd(2, map2);
- printf("Test1: %d %d\n", m->value.var[0], m->value.var[1]);
- printf("Test2: %d %d\n", m2->value.x, m2->value.y);
- */
- printf("%d tiles were encoded\n", tile_index);
- return state;
+ s = sylvan_cube(varset, st_enc);
+ fullState->bdd = s;
+ printf("Initial state encoded\n");
+ return fullState;
}
-BDD encode_rel(sokoban_screen *screen)
+trans_t *create_single_rel(sokoban_screen *screen, direction dir)
{
- int num_tiles;
- num_tiles = HASH_COUNT(screen);
- printf("Number of tiles: %d\n", num_tiles);
- return sylvan_true;
-}
+ LACE_ME;
+ trans_t *trs, *trs_current;
+ bimap *bm = create_bimap_helper(screen);
+ int x = 0;
+ int y = 0;
+ bddvar_xy_map *bddxy = NULL;
+ int xdelta = 0;
+ int ydelta = 0;
+ int xgamma = 0;
+ int ygamma = 0;
+ trs = NULL;
+ switch(dir){
+ case LEFT:
+ xdelta = -1;
+ ydelta = 0;
+ xgamma = -2;
+ ygamma = 0;
+ break;
+ case UP:
+ xdelta = 0;
+ ydelta = -1;
+ xgamma = 0;
+ ygamma = -2;
+ break;
+ case RIGHT:
+ xdelta = 1;
+ ydelta = 0;
+ xgamma = 2;
+ ygamma = 0;
+ break;
+ case DOWN:
+ xdelta = 0;
+ ydelta = 1;
+ xgamma = 0;
+ ygamma = 2;
+ break;
+ }
-void test()
-{
+ for (unsigned int i = 0; i < HASH_COUNT(screen); i++){
+ bddxy = getbdd(i*3, bm->t);
+ x = bddxy->value.x;
+ y = bddxy->value.y;
+ if (check_space(x, y, dir, 1, bm) == 0){
+
+ //1 1 0 0 1 1 (1 0 1 -> 1 0 1)
+ BDDVAR relvars[6] = {i * 3, i * 3 + 1, i * 3 + 2, i * 3 + 3, i * 3 + 4, i * 3 + 5};
+ BDDSET relvarset = sylvan_set_fromarray(relvars, 6);
+ uint8_t rel_enc[6] = {1, 1, 0, 0, 1, 1};
+
+ trs_current = (trans_t *)malloc(sizeof(trans_t));
+ trs_current->bdd = sylvan_cube(relvarset, rel_enc);
+ trs_current->varset.varset = relvarset;
+ trs_current->varset.size = 6;
+ trs_current->next_rel = trs;
+ trs = trs_current;
+
+ //1 1 1 1 0 0 (1 1 0 -> 1 1 0)
+ relvars[0] = i * 3;
+ relvars[1] = i * 3 + 1;
+ relvars[2] = i * 3 + 2;
+ relvars[3] = i * 3 + 3;
+ relvars[4] = i * 3 + 4;
+ relvars[5] = i * 3 + 5;
+ relvarset = sylvan_set_fromarray(relvars, 6);
+ rel_enc[0] = 1;
+ rel_enc[1] = 1;
+ rel_enc[2] = 1;
+ rel_enc[3] = 1;
+ rel_enc[4] = 0;
+ rel_enc[5] = 0;
+
+ trs_current = (trans_t *)malloc(sizeof(trans_t));
+ trs_current->bdd = sylvan_cube(relvarset, rel_enc);
+ trs_current->varset.varset = relvarset;
+ trs_current->varset.size = 6;
+ trs_current->next_rel = trs;
+ trs = trs_current;
+
+ }
+ else if (check_space(x, y, dir, 1, bm) == 1 && check_space(x, y, dir, 2, bm) == 0){
+
+ xy_bddvar_map *bddvar = getxy(x + xdelta, y + ydelta, bm->f);
+ int deltai = bddvar->value.var[0];
+
+ //(0 1 0 0 1 1 1 0 0 0 1 1)
+ BDDVAR relvars[12] = {deltai*3, deltai*3+1, deltai*3+2, deltai*3+3, deltai*3+4, deltai*3+5, i*3, i*3+1, i*3+2, i*3+3, i*3+4, i*3+5};
+ BDDSET relvarset = sylvan_set_fromarray(relvars, 12);
+ uint8_t rel_enc[12] = {0, 1, 0, 0, 1, 1, 1, 0, 0, 0, 1, 1};
+ trs_current = (trans_t *)malloc(sizeof(trans_t));
+ trs_current->bdd = sylvan_cube(relvarset, rel_enc);
+ trs_current->varset.varset = relvarset;
+ trs_current->varset.size = 12;
+ trs_current->next_rel = trs;
+ trs = trs_current;
+
+ //(0 1 1 0 1 1 1 0 0 1 1 1)
+ relvars[0] = deltai*3;
+ relvars[1] = deltai*3+1;
+ relvars[2] = deltai*3+2;
+ relvars[3] = deltai*3+3;
+ relvars[4] = deltai*3+4;
+ relvars[5] = deltai*3+5;
+ relvars[6] = i*3;
+ relvars[7] = i*3+1;
+ relvars[8] = i*3+2;
+ relvars[9] = i*3+3;
+ relvars[10] = i*3+4;
+ relvars[11] = i*3+5;
+ relvarset = sylvan_set_fromarray(relvars, 12);
+ rel_enc[0] = 0;
+ rel_enc[1] = 1;
+ rel_enc[2] = 1;
+ rel_enc[3] = 0;
+ rel_enc[4] = 1;
+ rel_enc[5] = 1;
+ rel_enc[6] = 1;
+ rel_enc[7] = 0;
+ rel_enc[8] = 0;
+ rel_enc[9] = 1;
+ rel_enc[10] = 1;
+ rel_enc[11] = 1;
+ trs_current = (trans_t *)malloc(sizeof(trans_t));
+ trs_current->bdd = sylvan_cube(relvarset, rel_enc);
+ trs_current->varset.varset = relvarset;
+ trs_current->varset.size = 12;
+ trs_current->next_rel = trs;
+ trs = trs_current;
+
+ //(0 1 0 1 1 0 1 0 1 0 0 1)
+ relvars[0] = deltai*3;
+ relvars[1] = deltai*3+1;
+ relvars[2] = deltai*3+2;
+ relvars[3] = deltai*3+3;
+ relvars[4] = deltai*3+4;
+ relvars[5] = deltai*3+5;
+ relvars[6] = i*3;
+ relvars[7] = i*3+1;
+ relvars[8] = i*3+2;
+ relvars[9] = i*3+3;
+ relvars[10] = i*3+4;
+ relvars[11] = i*3+5;
+ relvarset = sylvan_set_fromarray(relvars, 12);
+ rel_enc[0] = 0;
+ rel_enc[1] = 1;
+ rel_enc[2] = 0;
+ rel_enc[3] = 1;
+ rel_enc[4] = 1;
+ rel_enc[5] = 0;
+ rel_enc[6] = 1;
+ rel_enc[7] = 0;
+ rel_enc[8] = 1;
+ rel_enc[9] = 0;
+ rel_enc[10] = 0;
+ rel_enc[11] = 1;
+ trs_current = (trans_t *)malloc(sizeof(trans_t));
+ trs_current->bdd = sylvan_cube(relvarset, rel_enc);
+ trs_current->varset.varset = relvarset;
+ trs_current->varset.size = 12;
+ trs_current->next_rel = trs;
+ trs = trs_current;
+
+ //(0 1 1 1 1 0 1 0 1 1 0 1)
+ relvars[0] = deltai*3;
+ relvars[1] = deltai*3+1;
+ relvars[2] = deltai*3+2;
+ relvars[3] = deltai*3+3;
+ relvars[4] = deltai*3+4;
+ relvars[5] = deltai*3+5;
+ relvars[6] = i*3;
+ relvars[7] = i*3+1;
+ relvars[8] = i*3+2;
+ relvars[9] = i*3+3;
+ relvars[10] = i*3+4;
+ relvars[11] = i*3+5;
+ relvarset = sylvan_set_fromarray(relvars, 12);
+ rel_enc[0] = 0;
+ rel_enc[1] = 1;
+ rel_enc[2] = 1;
+ rel_enc[3] = 1;
+ rel_enc[4] = 1;
+ rel_enc[5] = 0;
+ rel_enc[6] = 1;
+ rel_enc[7] = 0;
+ rel_enc[8] = 1;
+ rel_enc[9] = 1;
+ rel_enc[10] = 0;
+ rel_enc[11] = 1;
+ trs_current = (trans_t *)malloc(sizeof(trans_t));
+ trs_current->bdd = sylvan_cube(relvarset, rel_enc);
+ trs_current->varset.varset = relvarset;
+ trs_current->varset.size = 12;
+ trs_current->next_rel = trs;
+ trs = trs_current;
+
+ //(0 0 1 1 0 0 1 1 0 0 1 1)
+ relvars[0] = deltai*3;
+ relvars[1] = deltai*3+1;
+ relvars[2] = deltai*3+2;
+ relvars[3] = deltai*3+3;
+ relvars[4] = deltai*3+4;
+ relvars[5] = deltai*3+5;
+ relvars[6] = i*3;
+ relvars[7] = i*3+1;
+ relvars[8] = i*3+2;
+ relvars[9] = i*3+3;
+ relvars[10] = i*3+4;
+ relvars[11] = i*3+5;
+ relvarset = sylvan_set_fromarray(relvars, 12);
+ rel_enc[0] = 0;
+ rel_enc[1] = 0;
+ rel_enc[2] = 1;
+ rel_enc[3] = 1;
+ rel_enc[4] = 0;
+ rel_enc[5] = 0;
+ rel_enc[6] = 1;
+ rel_enc[7] = 1;
+ rel_enc[8] = 0;
+ rel_enc[9] = 0;
+ rel_enc[10] = 1;
+ rel_enc[11] = 1;
+ trs_current = (trans_t *)malloc(sizeof(trans_t));
+ trs_current->bdd = sylvan_cube(relvarset, rel_enc);
+ trs_current->varset.varset = relvarset;
+ trs_current->varset.size = 12;
+ trs_current->next_rel = trs;
+ trs = trs_current;
+
+ //(1 1 0 0 0 0 1 1 0 0 1 1)
+ relvars[0] = deltai*3;
+ relvars[1] = deltai*3+1;
+ relvars[2] = deltai*3+2;
+ relvars[3] = deltai*3+3;
+ relvars[4] = deltai*3+4;
+ relvars[5] = deltai*3+5;
+ relvars[6] = i*3;
+ relvars[7] = i*3+1;
+ relvars[8] = i*3+2;
+ relvars[9] = i*3+3;
+ relvars[10] = i*3+4;
+ relvars[11] = i*3+5;
+ relvarset = sylvan_set_fromarray(relvars, 12);
+ rel_enc[0] = 1;
+ rel_enc[1] = 1;
+ rel_enc[2] = 0;
+ rel_enc[3] = 0;
+ rel_enc[4] = 0;
+ rel_enc[5] = 0;
+ rel_enc[6] = 1;
+ rel_enc[7] = 1;
+ rel_enc[8] = 0;
+ rel_enc[9] = 0;
+ rel_enc[10] = 1;
+ rel_enc[11] = 1;
+ trs_current = (trans_t *)malloc(sizeof(trans_t));
+ trs_current->bdd = sylvan_cube(relvarset, rel_enc);
+ trs_current->varset.varset = relvarset;
+ trs_current->varset.size = 12;
+ trs_current->next_rel = trs;
+ trs = trs_current;
- printf("Test!\n");
- BDD a = sylvan_true;
- BDD b = sylvan_not(a);
- if (b == sylvan_false){
- printf("BDD works!\n");
- } else {
- printf("BDD does not work!\n");
+ //(0 0 1 1 0 0 1 1 1 1 0 0)
+ relvars[0] = deltai*3;
+ relvars[1] = deltai*3+1;
+ relvars[2] = deltai*3+2;
+ relvars[3] = deltai*3+3;
+ relvars[4] = deltai*3+4;
+ relvars[5] = deltai*3+5;
+ relvars[6] = i*3;
+ relvars[7] = i*3+1;
+ relvars[8] = i*3+2;
+ relvars[9] = i*3+3;
+ relvars[10] = i*3+4;
+ relvars[11] = i*3+5;
+ relvarset = sylvan_set_fromarray(relvars, 12);
+ rel_enc[0] = 0;
+ rel_enc[1] = 0;
+ rel_enc[2] = 1;
+ rel_enc[3] = 1;
+ rel_enc[4] = 0;
+ rel_enc[5] = 0;
+ rel_enc[6] = 1;
+ rel_enc[7] = 1;
+ rel_enc[8] = 1;
+ rel_enc[9] = 1;
+ rel_enc[10] = 0;
+ rel_enc[11] = 0;
+ trs_current = (trans_t *)malloc(sizeof(trans_t));
+ trs_current->bdd = sylvan_cube(relvarset, rel_enc);
+ trs_current->varset.varset = relvarset;
+ trs_current->varset.size = 12;
+ trs_current->next_rel = trs;
+ trs = trs_current;
+
+ //(1 1 0 0 0 0 1 1 1 1 0 0)
+ relvars[0] = deltai*3;
+ relvars[1] = deltai*3+1;
+ relvars[2] = deltai*3+2;
+ relvars[3] = deltai*3+3;
+ relvars[4] = deltai*3+4;
+ relvars[5] = deltai*3+5;
+ relvars[6] = i*3;
+ relvars[7] = i*3+1;
+ relvars[8] = i*3+2;
+ relvars[9] = i*3+3;
+ relvars[10] = i*3+4;
+ relvars[11] = i*3+5;
+ relvarset = sylvan_set_fromarray(relvars, 12);
+ rel_enc[0] = 1;
+ rel_enc[1] = 1;
+ rel_enc[2] = 0;
+ rel_enc[3] = 0;
+ rel_enc[4] = 0;
+ rel_enc[5] = 0;
+ rel_enc[6] = 1;
+ rel_enc[7] = 1;
+ rel_enc[8] = 1;
+ rel_enc[9] = 1;
+ rel_enc[10] = 0;
+ rel_enc[11] = 0;
+ trs_current = (trans_t *)malloc(sizeof(trans_t));
+ trs_current->bdd = sylvan_cube(relvarset, rel_enc);
+ trs_current->varset.varset = relvarset;
+ trs_current->varset.size = 12;
+ trs_current->next_rel = trs;
+ trs = trs_current;
+
+ }
+ else if (check_space(x, y, dir, 1, bm) == 1 && check_space(x, y, dir, 2, bm) == 1){
+
+ xy_bddvar_map *bddvar = getxy(x + xdelta, y + ydelta, bm->f);
+ int deltai = bddvar->value.var[0];
+ bddvar = getxy(x + xgamma, y + ygamma, bm->f);
+ int gammai = bddvar->value.var[0];
+
+ //(0 1 0 0 1 1 1 0 0 0 1 1)
+ BDDVAR relvars[12] = {deltai*3, deltai*3+1, deltai*3+2, deltai*3+3, deltai*3+4, deltai*3+5, i*3, i*3+1, i*3+2, i*3+3, i*3+4, i*3+5};
+ BDDSET relvarset = sylvan_set_fromarray(relvars, 12);
+ uint8_t rel_enc[12] = {0, 1, 0, 0, 1, 1, 1, 0, 0, 0, 1, 1};
+ trs_current = (trans_t *)malloc(sizeof(trans_t));
+ trs_current->bdd = sylvan_cube(relvarset, rel_enc);
+ trs_current->varset.varset = relvarset;
+ trs_current->varset.size = 12;
+ trs_current->next_rel = trs;
+ trs = trs_current;
+
+ //(0 1 1 0 1 1 1 0 0 1 1 1)
+ relvars[0] = deltai*3;
+ relvars[1] = deltai*3+1;
+ relvars[2] = deltai*3+2;
+ relvars[3] = deltai*3+3;
+ relvars[4] = deltai*3+4;
+ relvars[5] = deltai*3+5;
+ relvars[6] = i*3;
+ relvars[7] = i*3+1;
+ relvars[8] = i*3+2;
+ relvars[9] = i*3+3;
+ relvars[10] = i*3+4;
+ relvars[11] = i*3+5;
+ relvarset = sylvan_set_fromarray(relvars, 12);
+ rel_enc[0] = 0;
+ rel_enc[1] = 1;
+ rel_enc[2] = 1;
+ rel_enc[3] = 0;
+ rel_enc[4] = 1;
+ rel_enc[5] = 1;
+ rel_enc[6] = 1;
+ rel_enc[7] = 0;
+ rel_enc[8] = 0;
+ rel_enc[9] = 1;
+ rel_enc[10] = 1;
+ rel_enc[11] = 1;
+ trs_current = (trans_t *)malloc(sizeof(trans_t));
+ trs_current->bdd = sylvan_cube(relvarset, rel_enc);
+ trs_current->varset.varset = relvarset;
+ trs_current->varset.size = 12;
+ trs_current->next_rel = trs;
+ trs = trs_current;
+
+ //(0 1 0 1 1 0 1 0 1 0 0 1)
+ relvars[0] = deltai*3;
+ relvars[1] = deltai*3+1;
+ relvars[2] = deltai*3+2;
+ relvars[3] = deltai*3+3;
+ relvars[4] = deltai*3+4;
+ relvars[5] = deltai*3+5;
+ relvars[6] = i*3;
+ relvars[7] = i*3+1;
+ relvars[8] = i*3+2;
+ relvars[9] = i*3+3;
+ relvars[10] = i*3+4;
+ relvars[11] = i*3+5;
+ relvarset = sylvan_set_fromarray(relvars, 12);
+ rel_enc[0] = 0;
+ rel_enc[1] = 1;
+ rel_enc[2] = 0;
+ rel_enc[3] = 1;
+ rel_enc[4] = 1;
+ rel_enc[5] = 0;
+ rel_enc[6] = 1;
+ rel_enc[7] = 0;
+ rel_enc[8] = 1;
+ rel_enc[9] = 0;
+ rel_enc[10] = 0;
+ rel_enc[11] = 1;
+ trs_current = (trans_t *)malloc(sizeof(trans_t));
+ trs_current->bdd = sylvan_cube(relvarset, rel_enc);
+ trs_current->varset.varset = relvarset;
+ trs_current->varset.size = 12;
+ trs_current->next_rel = trs;
+ trs = trs_current;
+
+ //(0 1 1 1 1 0 1 0 1 1 0 1)
+ relvars[0] = deltai*3;
+ relvars[1] = deltai*3+1;
+ relvars[2] = deltai*3+2;
+ relvars[3] = deltai*3+3;
+ relvars[4] = deltai*3+4;
+ relvars[5] = deltai*3+5;
+ relvars[6] = i*3;
+ relvars[7] = i*3+1;
+ relvars[8] = i*3+2;
+ relvars[9] = i*3+3;
+ relvars[10] = i*3+4;
+ relvars[11] = i*3+5;
+ relvarset = sylvan_set_fromarray(relvars, 12);
+ rel_enc[0] = 0;
+ rel_enc[1] = 1;
+ rel_enc[2] = 1;
+ rel_enc[3] = 1;
+ rel_enc[4] = 1;
+ rel_enc[5] = 0;
+ rel_enc[6] = 1;
+ rel_enc[7] = 0;
+ rel_enc[8] = 1;
+ rel_enc[9] = 1;
+ rel_enc[10] = 0;
+ rel_enc[11] = 1;
+ trs_current = (trans_t *)malloc(sizeof(trans_t));
+ trs_current->bdd = sylvan_cube(relvarset, rel_enc);
+ trs_current->varset.varset = relvarset;
+ trs_current->varset.size = 12;
+ trs_current->next_rel = trs;
+ trs = trs_current;
+
+ //(0 0 1 1 0 0 0 0 1 1 0 0 1 1 0 0 1 1)
+ BDDVAR relvars1[18] = {gammai*3, gammai*3+1, gammai*3+2, gammai*3+3, gammai*3+4, gammai*3+5, deltai*3, deltai*3+1, deltai*3+2, deltai*3+3, deltai*3+4, deltai*3+5, i*3, i*3+1, i*3+2, i*3+3, i*3+4, i*3+5};
+ relvars1[0] = gammai*3;
+ relvars1[1] = gammai*3+1;
+ relvars1[2] = gammai*3+2;
+ relvars1[3] = gammai*3+3;
+ relvars1[4] = gammai*3+4;
+ relvars1[5] = gammai*3+5;
+ relvars1[6] = deltai*3;
+ relvars1[7] = deltai*3+1;
+ relvars1[8] = deltai*3+2;
+ relvars1[9] = deltai*3+3;
+ relvars1[10] = deltai*3+4;
+ relvars1[11] = deltai*3+5;
+ relvars1[12] = i*3;
+ relvars1[13] = i*3+1;
+ relvars1[14] = i*3+2;
+ relvars1[15] = i*3+3;
+ relvars1[16] = i*3+4;
+ relvars1[17] = i*3+5;
+ BDD relvarset1 = sylvan_set_fromarray(relvars1, 18);
+ uint8_t rel_enc1[18];
+ rel_enc1[0] = 0;
+ rel_enc1[1] = 0;
+ rel_enc1[2] = 1;
+ rel_enc1[3] = 1;
+ rel_enc1[4] = 0;
+ rel_enc1[5] = 0;
+ rel_enc1[6] = 0;
+ rel_enc1[7] = 0;
+ rel_enc1[8] = 1;
+ rel_enc1[9] = 1;
+ rel_enc1[10] = 0;
+ rel_enc1[11] = 0;
+ rel_enc1[12] = 1;
+ rel_enc1[13] = 1;
+ rel_enc1[14] = 0;
+ rel_enc1[15] = 0;
+ rel_enc1[16] = 1;
+ rel_enc1[17] = 1;
+ trs_current = (trans_t *)malloc(sizeof(trans_t));
+ trs_current->bdd = sylvan_cube(relvarset1, rel_enc1);
+ trs_current->varset.varset = relvarset1;
+ trs_current->varset.size = 18;
+ trs_current->next_rel = trs;
+ trs = trs_current;
+
+ //(1 1 0 0 0 0 0 0 1 1 0 0 1 1 0 0 1 1)
+ relvars1[0] = gammai*3;
+ relvars1[1] = gammai*3+1;
+ relvars1[2] = gammai*3+2;
+ relvars1[3] = gammai*3+3;
+ relvars1[4] = gammai*3+4;
+ relvars1[5] = gammai*3+5;
+ relvars1[6] = deltai*3;
+ relvars1[7] = deltai*3+1;
+ relvars1[8] = deltai*3+2;
+ relvars1[9] = deltai*3+3;
+ relvars1[10] = deltai*3+4;
+ relvars1[11] = deltai*3+5;
+ relvars1[12] = i*3;
+ relvars1[13] = i*3+1;
+ relvars1[14] = i*3+2;
+ relvars1[15] = i*3+3;
+ relvars1[16] = i*3+4;
+ relvars1[17] = i*3+5;
+ relvarset1 = sylvan_set_fromarray(relvars1, 18);
+ rel_enc1[0] = 1;
+ rel_enc1[1] = 1;
+ rel_enc1[2] = 0;
+ rel_enc1[3] = 0;
+ rel_enc1[4] = 0;
+ rel_enc1[5] = 0;
+ rel_enc1[6] = 0;
+ rel_enc1[7] = 0;
+ rel_enc1[8] = 1;
+ rel_enc1[9] = 1;
+ rel_enc1[10] = 0;
+ rel_enc1[11] = 0;
+ rel_enc1[12] = 1;
+ rel_enc1[13] = 1;
+ rel_enc1[14] = 0;
+ rel_enc1[15] = 0;
+ rel_enc1[16] = 1;
+ rel_enc1[17] = 1;
+ trs_current = (trans_t *)malloc(sizeof(trans_t));
+ trs_current->bdd = sylvan_cube(relvarset1, rel_enc1);
+ trs_current->varset.varset = relvarset1;
+ trs_current->varset.size = 18;
+ trs_current->next_rel = trs;
+ trs = trs_current;
+
+ //(0 0 1 1 0 0 0 0 1 1 0 0 1 1 1 1 0 0)
+ relvars1[0] = gammai*3;
+ relvars1[1] = gammai*3+1;
+ relvars1[2] = gammai*3+2;
+ relvars1[3] = gammai*3+3;
+ relvars1[4] = gammai*3+4;
+ relvars1[5] = gammai*3+5;
+ relvars1[6] = deltai*3;
+ relvars1[7] = deltai*3+1;
+ relvars1[8] = deltai*3+2;
+ relvars1[9] = deltai*3+3;
+ relvars1[10] = deltai*3+4;
+ relvars1[11] = deltai*3+5;
+ relvars1[12] = i*3;
+ relvars1[13] = i*3+1;
+ relvars1[14] = i*3+2;
+ relvars1[15] = i*3+3;
+ relvars1[16] = i*3+4;
+ relvars1[17] = i*3+5;
+ relvarset1 = sylvan_set_fromarray(relvars1, 18);
+ //(0 0 1 1 0 0 0 0 1 1 0 0 1 1 1 1 0 0)
+ rel_enc1[0] = 0;
+ rel_enc1[1] = 0;
+ rel_enc1[2] = 1;
+ rel_enc1[3] = 1;
+ rel_enc1[4] = 0;
+ rel_enc1[5] = 0;
+ rel_enc1[6] = 0;
+ rel_enc1[7] = 0;
+ rel_enc1[8] = 1;
+ rel_enc1[9] = 1;
+ rel_enc1[10] = 0;
+ rel_enc1[11] = 0;
+ rel_enc1[12] = 1;
+ rel_enc1[13] = 1;
+ rel_enc1[14] = 1;
+ rel_enc1[15] = 1;
+ rel_enc1[16] = 0;
+ rel_enc1[17] = 0;
+ trs_current = (trans_t *)malloc(sizeof(trans_t));
+ trs_current->bdd = sylvan_cube(relvarset1, rel_enc1);
+ trs_current->varset.varset = relvarset1;
+ trs_current->varset.size = 18;
+ trs_current->next_rel = trs;
+ trs = trs_current;
+
+ //(1 1 0 0 0 0 0 0 1 1 0 0 1 1 1 1 0 0)
+ relvars1[0] = gammai*3;
+ relvars1[1] = gammai*3+1;
+ relvars1[2] = gammai*3+2;
+ relvars1[3] = gammai*3+3;
+ relvars1[4] = gammai*3+4;
+ relvars1[5] = gammai*3+5;
+ relvars1[6] = deltai*3;
+ relvars1[7] = deltai*3+1;
+ relvars1[8] = deltai*3+2;
+ relvars1[9] = deltai*3+3;
+ relvars1[10] = deltai*3+4;
+ relvars1[11] = deltai*3+5;
+ relvars1[12] = i*3;
+ relvars1[13] = i*3+1;
+ relvars1[14] = i*3+2;
+ relvars1[15] = i*3+3;
+ relvars1[16] = i*3+4;
+ relvars1[17] = i*3+5;
+ relvarset1 = sylvan_set_fromarray(relvars1, 18);
+ //(1 1 0 0 0 0 0 0 1 1 0 0 1 1 1 1 0 0)
+ rel_enc1[0] = 1;
+ rel_enc1[1] = 1;
+ rel_enc1[2] = 0;
+ rel_enc1[3] = 0;
+ rel_enc1[4] = 0;
+ rel_enc1[5] = 0;
+ rel_enc1[6] = 0;
+ rel_enc1[7] = 0;
+ rel_enc1[8] = 1;
+ rel_enc1[9] = 1;
+ rel_enc1[10] = 0;
+ rel_enc1[11] = 0;
+ rel_enc1[12] = 1;
+ rel_enc1[13] = 1;
+ rel_enc1[14] = 1;
+ rel_enc1[15] = 1;
+ rel_enc1[16] = 0;
+ rel_enc1[17] = 0;
+ trs_current = (trans_t *)malloc(sizeof(trans_t));
+ trs_current->bdd = sylvan_cube(relvarset1, rel_enc1);
+ trs_current->varset.varset = relvarset1;
+ trs_current->varset.size = 18;
+ trs_current->next_rel = trs;
+ trs = trs_current;
+
+ //free box agent -> box agent free
+ //(0 0 0 1 1 0 0 1 1 0 0 1 1 0 0 0 1 1)
+ relvars1[0] = gammai*3;
+ relvars1[1] = gammai*3+1;
+ relvars1[2] = gammai*3+2;
+ relvars1[3] = gammai*3+3;
+ relvars1[4] = gammai*3+4;
+ relvars1[5] = gammai*3+5;
+ relvars1[6] = deltai*3;
+ relvars1[7] = deltai*3+1;
+ relvars1[8] = deltai*3+2;
+ relvars1[9] = deltai*3+3;
+ relvars1[10] = deltai*3+4;
+ relvars1[11] = deltai*3+5;
+ relvars1[12] = i*3;
+ relvars1[13] = i*3+1;
+ relvars1[14] = i*3+2;
+ relvars1[15] = i*3+3;
+ relvars1[16] = i*3+4;
+ relvars1[17] = i*3+5;
+ relvarset1 = sylvan_set_fromarray(relvars1, 18);
+ //(0 0 0 1 1 0 0 1 1 0 0 1 1 0 0 0 1 1)
+ rel_enc1[0] = 0;
+ rel_enc1[1] = 0;
+ rel_enc1[2] = 0;
+ rel_enc1[3] = 1;
+ rel_enc1[4] = 1;
+ rel_enc1[5] = 0;
+ rel_enc1[6] = 0;
+ rel_enc1[7] = 1;
+ rel_enc1[8] = 1;
+ rel_enc1[9] = 0;
+ rel_enc1[10] = 0;
+ rel_enc1[11] = 1;
+ rel_enc1[12] = 1;
+ rel_enc1[13] = 0;
+ rel_enc1[14] = 0;
+ rel_enc1[15] = 0;
+ rel_enc1[16] = 1;
+ rel_enc1[17] = 1;
+ trs_current = (trans_t *)malloc(sizeof(trans_t));
+ trs_current->bdd = sylvan_cube(relvarset1, rel_enc1);
+ trs_current->varset.varset = relvarset1;
+ trs_current->varset.size = 18;
+ trs_current->next_rel = trs;
+ trs = trs_current;
+
+ //(free targbox agent -> box targagent free)
+ //(0 0 0 1 1 0 1 1 0 1 0 0 1 0 0 0 1 1)
+ relvars1[0] = gammai*3;
+ relvars1[1] = gammai*3+1;
+ relvars1[2] = gammai*3+2;
+ relvars1[3] = gammai*3+3;
+ relvars1[4] = gammai*3+4;
+ relvars1[5] = gammai*3+5;
+ relvars1[6] = deltai*3;
+ relvars1[7] = deltai*3+1;
+ relvars1[8] = deltai*3+2;
+ relvars1[9] = deltai*3+3;
+ relvars1[10] = deltai*3+4;
+ relvars1[11] = deltai*3+5;
+ relvars1[12] = i*3;
+ relvars1[13] = i*3+1;
+ relvars1[14] = i*3+2;
+ relvars1[15] = i*3+3;
+ relvars1[16] = i*3+4;
+ relvars1[17] = i*3+5;
+ relvarset1 = sylvan_set_fromarray(relvars1, 18);
+ //(0 0 0 1 1 0 1 1 0 1 0 0 1 0 0 0 1 1)
+ rel_enc1[0] = 0;
+ rel_enc1[1] = 0;
+ rel_enc1[2] = 0;
+ rel_enc1[3] = 1;
+ rel_enc1[4] = 1;
+ rel_enc1[5] = 0;
+ rel_enc1[6] = 1;
+ rel_enc1[7] = 1;
+ rel_enc1[8] = 0;
+ rel_enc1[9] = 1;
+ rel_enc1[10] = 0;
+ rel_enc1[11] = 0;
+ rel_enc1[12] = 1;
+ rel_enc1[13] = 0;
+ rel_enc1[14] = 0;
+ rel_enc1[15] = 0;
+ rel_enc1[16] = 1;
+ rel_enc1[17] = 1;
+ trs_current = (trans_t *)malloc(sizeof(trans_t));
+ trs_current->bdd = sylvan_cube(relvarset1, rel_enc1);
+ trs_current->varset.varset = relvarset1;
+ trs_current->varset.size = 18;
+ trs_current->next_rel = trs;
+ trs = trs_current;
+
+ //(target box agent -> targbox agent free)
+ //(0 1 1 0 1 0 0 1 1 0 0 1 1 0 0 0 1 1)
+ relvars1[0] = gammai*3;
+ relvars1[1] = gammai*3+1;
+ relvars1[2] = gammai*3+2;
+ relvars1[3] = gammai*3+3;
+ relvars1[4] = gammai*3+4;
+ relvars1[5] = gammai*3+5;
+ relvars1[6] = deltai*3;
+ relvars1[7] = deltai*3+1;
+ relvars1[8] = deltai*3+2;
+ relvars1[9] = deltai*3+3;
+ relvars1[10] = deltai*3+4;
+ relvars1[11] = deltai*3+5;
+ relvars1[12] = i*3;
+ relvars1[13] = i*3+1;
+ relvars1[14] = i*3+2;
+ relvars1[15] = i*3+3;
+ relvars1[16] = i*3+4;
+ relvars1[17] = i*3+5;
+ relvarset1 = sylvan_set_fromarray(relvars1, 18);
+ //(0 1 1 0 1 0 0 1 1 0 0 1 1 0 0 0 1 1)
+ rel_enc1[0] = 0;
+ rel_enc1[1] = 1;
+ rel_enc1[2] = 1;
+ rel_enc1[3] = 0;
+ rel_enc1[4] = 1;
+ rel_enc1[5] = 0;
+ rel_enc1[6] = 0;
+ rel_enc1[7] = 1;
+ rel_enc1[8] = 1;
+ rel_enc1[9] = 0;
+ rel_enc1[10] = 0;
+ rel_enc1[11] = 1;
+ rel_enc1[12] = 1;
+ rel_enc1[13] = 0;
+ rel_enc1[14] = 0;
+ rel_enc1[15] = 0;
+ rel_enc1[16] = 1;
+ rel_enc1[17] = 1;
+ trs_current = (trans_t *)malloc(sizeof(trans_t));
+ trs_current->bdd = sylvan_cube(relvarset1, rel_enc1);
+ trs_current->varset.varset = relvarset1;
+ trs_current->varset.size = 18;
+ trs_current->next_rel = trs;
+ trs = trs_current;
+
+ //(target targbox agent -> targbox targagent free)
+ //(0 1 1 0 1 0 1 1 0 1 0 0 1 0 0 0 1 1)
+ relvars1[0] = gammai*3;
+ relvars1[1] = gammai*3+1;
+ relvars1[2] = gammai*3+2;
+ relvars1[3] = gammai*3+3;
+ relvars1[4] = gammai*3+4;
+ relvars1[5] = gammai*3+5;
+ relvars1[6] = deltai*3;
+ relvars1[7] = deltai*3+1;
+ relvars1[8] = deltai*3+2;
+ relvars1[9] = deltai*3+3;
+ relvars1[10] = deltai*3+4;
+ relvars1[11] = deltai*3+5;
+ relvars1[12] = i*3;
+ relvars1[13] = i*3+1;
+ relvars1[14] = i*3+2;
+ relvars1[15] = i*3+3;
+ relvars1[16] = i*3+4;
+ relvars1[17] = i*3+5;
+ relvarset1 = sylvan_set_fromarray(relvars1, 18);
+ //(0 1 1 0 1 0 1 1 0 1 0 0 1 0 0 0 1 1)
+ rel_enc1[0] = 0;
+ rel_enc1[1] = 1;
+ rel_enc1[2] = 1;
+ rel_enc1[3] = 0;
+ rel_enc1[4] = 1;
+ rel_enc1[5] = 0;
+ rel_enc1[6] = 1;
+ rel_enc1[7] = 1;
+ rel_enc1[8] = 0;
+ rel_enc1[9] = 1;
+ rel_enc1[10] = 0;
+ rel_enc1[11] = 0;
+ rel_enc1[12] = 1;
+ rel_enc1[13] = 0;
+ rel_enc1[14] = 0;
+ rel_enc1[15] = 0;
+ rel_enc1[16] = 1;
+ rel_enc1[17] = 1;
+ trs_current = (trans_t *)malloc(sizeof(trans_t));
+ trs_current->bdd = sylvan_cube(relvarset1, rel_enc1);
+ trs_current->varset.varset = relvarset1;
+ trs_current->varset.size = 18;
+ trs_current->next_rel = trs;
+ trs = trs_current;
+
+ //(free box targagent -> box agent target)
+ //(0 0 0 1 1 0 0 1 1 0 0 1 1 0 1 1 0 1)
+ relvars1[0] = gammai*3;
+ relvars1[1] = gammai*3+1;
+ relvars1[2] = gammai*3+2;
+ relvars1[3] = gammai*3+3;
+ relvars1[4] = gammai*3+4;
+ relvars1[5] = gammai*3+5;
+ relvars1[6] = deltai*3;
+ relvars1[7] = deltai*3+1;
+ relvars1[8] = deltai*3+2;
+ relvars1[9] = deltai*3+3;
+ relvars1[10] = deltai*3+4;
+ relvars1[11] = deltai*3+5;
+ relvars1[12] = i*3;
+ relvars1[13] = i*3+1;
+ relvars1[14] = i*3+2;
+ relvars1[15] = i*3+3;
+ relvars1[16] = i*3+4;
+ relvars1[17] = i*3+5;
+ relvarset1 = sylvan_set_fromarray(relvars1, 18);
+ //(0 0 0 1 1 0 0 1 1 0 0 1 1 0 1 1 0 1)
+ rel_enc1[0] = 0;
+ rel_enc1[1] = 0;
+ rel_enc1[2] = 0;
+ rel_enc1[3] = 1;
+ rel_enc1[4] = 1;
+ rel_enc1[5] = 0;
+ rel_enc1[6] = 0;
+ rel_enc1[7] = 1;
+ rel_enc1[8] = 1;
+ rel_enc1[9] = 0;
+ rel_enc1[10] = 0;
+ rel_enc1[11] = 1;
+ rel_enc1[12] = 1;
+ rel_enc1[13] = 0;
+ rel_enc1[14] = 1;
+ rel_enc1[15] = 1;
+ rel_enc1[16] = 0;
+ rel_enc1[17] = 1;
+ trs_current = (trans_t *)malloc(sizeof(trans_t));
+ trs_current->bdd = sylvan_cube(relvarset1, rel_enc1);
+ trs_current->varset.varset = relvarset1;
+ trs_current->varset.size = 18;
+ trs_current->next_rel = trs;
+ trs = trs_current;
+
+ //(free targbox targagent -> box targagent target)
+ //(0 0 0 1 1 0 1 1 0 1 0 0 1 0 1 1 0 1)
+ relvars1[0] = gammai*3;
+ relvars1[1] = gammai*3+1;
+ relvars1[2] = gammai*3+2;
+ relvars1[3] = gammai*3+3;
+ relvars1[4] = gammai*3+4;
+ relvars1[5] = gammai*3+5;
+ relvars1[6] = deltai*3;
+ relvars1[7] = deltai*3+1;
+ relvars1[8] = deltai*3+2;
+ relvars1[9] = deltai*3+3;
+ relvars1[10] = deltai*3+4;
+ relvars1[11] = deltai*3+5;
+ relvars1[12] = i*3;
+ relvars1[13] = i*3+1;
+ relvars1[14] = i*3+2;
+ relvars1[15] = i*3+3;
+ relvars1[16] = i*3+4;
+ relvars1[17] = i*3+5;
+ relvarset1 = sylvan_set_fromarray(relvars1, 18);
+ //(0 0 0 1 1 0 1 1 0 1 0 0 1 0 1 1 0 1)
+ rel_enc1[0] = 0;
+ rel_enc1[1] = 0;
+ rel_enc1[2] = 0;
+ rel_enc1[3] = 1;
+ rel_enc1[4] = 1;
+ rel_enc1[5] = 0;
+ rel_enc1[6] = 1;
+ rel_enc1[7] = 1;
+ rel_enc1[8] = 0;
+ rel_enc1[9] = 1;
+ rel_enc1[10] = 0;
+ rel_enc1[11] = 0;
+ rel_enc1[12] = 1;
+ rel_enc1[13] = 0;
+ rel_enc1[14] = 1;
+ rel_enc1[15] = 1;
+ rel_enc1[16] = 0;
+ rel_enc1[17] = 1;
+ trs_current = (trans_t *)malloc(sizeof(trans_t));
+ trs_current->bdd = sylvan_cube(relvarset1, rel_enc1);
+ trs_current->varset.varset = relvarset1;
+ trs_current->varset.size = 18;
+ trs_current->next_rel = trs;
+ trs = trs_current;
+
+ //(target box targagent -> targbox agent target)
+ //(0 1 1 0 1 0 0 1 1 0 0 1 1 0 1 1 0 1)
+ relvars1[0] = gammai*3;
+ relvars1[1] = gammai*3+1;
+ relvars1[2] = gammai*3+2;
+ relvars1[3] = gammai*3+3;
+ relvars1[4] = gammai*3+4;
+ relvars1[5] = gammai*3+5;
+ relvars1[6] = deltai*3;
+ relvars1[7] = deltai*3+1;
+ relvars1[8] = deltai*3+2;
+ relvars1[9] = deltai*3+3;
+ relvars1[10] = deltai*3+4;
+ relvars1[11] = deltai*3+5;
+ relvars1[12] = i*3;
+ relvars1[13] = i*3+1;
+ relvars1[14] = i*3+2;
+ relvars1[15] = i*3+3;
+ relvars1[16] = i*3+4;
+ relvars1[17] = i*3+5;
+ relvarset1 = sylvan_set_fromarray(relvars1, 18);
+ //(0 1 1 0 1 0 0 1 1 0 0 1 1 0 1 1 0 1)
+ rel_enc1[0] = 0;
+ rel_enc1[1] = 1;
+ rel_enc1[2] = 1;
+ rel_enc1[3] = 0;
+ rel_enc1[4] = 1;
+ rel_enc1[5] = 0;
+ rel_enc1[6] = 0;
+ rel_enc1[7] = 1;
+ rel_enc1[8] = 1;
+ rel_enc1[9] = 0;
+ rel_enc1[10] = 0;
+ rel_enc1[11] = 1;
+ rel_enc1[12] = 1;
+ rel_enc1[13] = 0;
+ rel_enc1[14] = 1;
+ rel_enc1[15] = 1;
+ rel_enc1[16] = 0;
+ rel_enc1[17] = 1;
+ trs_current = (trans_t *)malloc(sizeof(trans_t));
+ trs_current->bdd = sylvan_cube(relvarset1, rel_enc1);
+ trs_current->varset.varset = relvarset1;
+ trs_current->varset.size = 18;
+ trs_current->next_rel = trs;
+ trs = trs_current;
+
+ //(target targbox targagent -> targbox targagent target)
+ //(0 1 1 0 1 0 1 1 0 1 0 0 1 0 1 1 0 1)
+ relvars1[0] = gammai*3;
+ relvars1[1] = gammai*3+1;
+ relvars1[2] = gammai*3+2;
+ relvars1[3] = gammai*3+3;
+ relvars1[4] = gammai*3+4;
+ relvars1[5] = gammai*3+5;
+ relvars1[6] = deltai*3;
+ relvars1[7] = deltai*3+1;
+ relvars1[8] = deltai*3+2;
+ relvars1[9] = deltai*3+3;
+ relvars1[10] = deltai*3+4;
+ relvars1[11] = deltai*3+5;
+ relvars1[12] = i*3;
+ relvars1[13] = i*3+1;
+ relvars1[14] = i*3+2;
+ relvars1[15] = i*3+3;
+ relvars1[16] = i*3+4;
+ relvars1[17] = i*3+5;
+ relvarset1 = sylvan_set_fromarray(relvars1, 18);
+ //(0 1 1 0 1 0 1 1 0 1 0 0 1 0 1 1 0 1)
+ rel_enc1[0] = 0;
+ rel_enc1[1] = 1;
+ rel_enc1[2] = 1;
+ rel_enc1[3] = 0;
+ rel_enc1[4] = 1;
+ rel_enc1[5] = 0;
+ rel_enc1[6] = 1;
+ rel_enc1[7] = 1;
+ rel_enc1[8] = 0;
+ rel_enc1[9] = 1;
+ rel_enc1[10] = 0;
+ rel_enc1[11] = 0;
+ rel_enc1[12] = 1;
+ rel_enc1[13] = 0;
+ rel_enc1[14] = 1;
+ rel_enc1[15] = 1;
+ rel_enc1[16] = 0;
+ rel_enc1[17] = 1;
+ trs_current = (trans_t *)malloc(sizeof(trans_t));
+ trs_current->bdd = sylvan_cube(relvarset1, rel_enc1);
+ trs_current->varset.varset = relvarset1;
+ trs_current->varset.size = 18;
+ trs_current->next_rel = trs;
+ trs = trs_current;
+ }
}
+ trs_current = trs;
+ return trs;
+}
+
+rels *encode_rel(sokoban_screen *screen)
+{
LACE_ME;
- BDD c = sylvan_ithvar(1);
- if (sylvan_high(c) == sylvan_true && sylvan_low(c) == sylvan_false) printf("VAR works 1\n");
- if (sylvan_var(c) == 1) printf("Var works 2\n");
+
+ trans_t *tl = sylvan_false;
+
+ //left relation
+ tl = create_single_rel(screen, LEFT);
+
+ //up relation
+ trans_t *tu = create_single_rel(screen, UP);
+
+ //right relation
+ trans_t *tr = create_single_rel(screen, RIGHT);
+
+ //down relation
+ trans_t *td = create_single_rel(screen, DOWN);
+
+ rels *rls = NULL;
+ rls = (rels *)malloc(sizeof(rels));
+ rls->rell = tl;
+ rls->relu = tu;
+ rls->relr = tr;
+ rls->reld = td;
+
+ return rls;
+}
+
+int
+test_relprod()
+{
+ LACE_ME;
+
+ BDDVAR vars[] = {0,2,4};
+ BDDVAR all_vars[] = {0,1,2,3,4,5};
+ BDDVAR all_vars2[] = {0,1};
+ //BDDVAR short_vars[] = {0,1};
+ /*BDDVAR short_vars2[] = {2,3};
+ BDDVAR short_vars3[] = {0,1,2,3};*/
+
+ BDDSET vars_set = sylvan_set_fromarray(vars, 3);
+ BDDSET all_vars_set = sylvan_set_fromarray(all_vars, 6);
+ BDDSET all_vars_set2 = sylvan_set_fromarray(all_vars2, 2);
+ //BDDSET short_vars_set = sylvan_set_fromarray(short_vars, 2);
+ /*BDDSET short_vars_set2 = sylvan_set_fromarray(short_vars2, 2);
+ BDDSET short_vars_set3 = sylvan_set_fromarray(short_vars3, 4);*/
+
+ BDD s, t, next, prev;
+ BDD zeroes, ones;
+
+ // transition relation: 000 --> 111 and !000 --> 000
+ t = sylvan_false;
+ t = sylvan_union_cube(t, all_vars_set2, ((uint8_t[]){0,1}));
+ //t = sylvan_union_cube(t, all_vars_set, ((uint8_t[]){1,0,2,0,2,0}));
+ t = sylvan_union_cube(t, all_vars_set2, ((uint8_t[]){1,0}));
+ // t = sylvan_union_cube(t, all_vars_set, ((uint8_t[]){0,1}));
+
+ s = sylvan_cube(vars_set, (uint8_t[]){0,0,0});
+ zeroes = sylvan_cube(vars_set, (uint8_t[]){1,0,0});
+ ones = sylvan_cube(vars_set, (uint8_t[]){0,0,0});
+
+ next = sylvan_relnext(s, t, all_vars_set);
+ prev = sylvan_relprev(t, next, all_vars_set);
+ if (next == zeroes) printf("Pass 1\n");
+ if (prev == ones) printf("Pass 2\n");
+ //trans *ts;
+ //ts = NULL;
+
+ return 0;
}