Bool make_strips_domain( void )
{
PlOperator *i;
FactList *ff;
if ( !make_conjunction_of_atoms( &gorig_initial_facts ) ) {
printf("\nillegal initial state");
return FALSE;
}
if ( !make_conjunction_of_atoms( &gorig_goal_facts ) ) {
printf("\nillegal goal state");
return FALSE;
}
for ( i = gloaded_ops; i; i = i->next ) {
if ( !make_conjunction_of_atoms( &(i->preconds) ) ) {
printf("\nop %s has illegal precondition", i->name);
return FALSE;
}
if ( !make_conjunction_of_literals( &(i->effects) ) ) {
printf("\nop %s has illegal effects", i->name);
return FALSE;
}
}
if ( gcmd_line.display_info == 101 ) {
printf("\nfinal STRIPS representation is:\n");
printf("\nobjects:");
for ( ff = gorig_constant_list; ff; ff = ff->next ) {
printf("\n%s : %s", ff->item->item, ff->item->next->item);
}
printf("\n\ninitial state:\n");
print_PlNode( gorig_initial_facts, 0 );
printf("\n\ngoal state:\n");
print_PlNode( gorig_goal_facts, 0 );
printf("\n\nops:");
print_plops( gloaded_ops );
}
return TRUE;
}
Bool make_adl_domain( void )
{
PlOperator *i;
FactList *ff;
int j;
if ( gcmd_line.display_info == 101 ) {
printf("\noriginal problem parsing is:\n");
printf("\nobjects:");
for ( ff = gorig_constant_list; ff; ff = ff->next ) {
printf("\n%s : %s", ff->item->item, ff->item->next->item);
}
printf("\n\ninitial state:\n");
print_PlNode( gorig_initial_facts, 0 );
printf("\n\ngoal state:\n");
print_PlNode( gorig_goal_facts, 0 );
printf("\n\nops:");
print_plops( gloaded_ops );
}
if ( !make_initial_conjunction( &gorig_initial_facts ) ) {
printf("\nillegal initial state");
return FALSE;
} else {
if ( gcmd_line.display_info == 101 ) {
printf("\n\norig parse split up initial state, facts:\n");
print_PlNode( gorig_initial_facts, 0 );
printf("\n\norig parse split up initial state, ors:\n");
for ( j = 0; j < gnum_orig_initial_ors; j++ ) {
print_PlNode( gorig_initial_ors[j], 0 );
}
printf("\n\norig parse split up initial state, oneofs:\n");
for ( j = 0; j < gnum_orig_initial_oneofs; j++ ) {
print_PlNode( gorig_initial_oneofs[j], 0 );
}
printf("\n\norig parse split up initial state, multis:\n");
for ( j = 0; j < gnum_orig_initial_multis; j++ ) {
print_PlNode( gorig_initial_multis[j], 0 );
}
}
}
if ( !gorig_goal_facts ) {
gorig_goal_facts = new_PlNode( TRU );
}
if ( !is_wff( gorig_goal_facts ) ) {
printf("\nillegal goal formula");
print_PlNode( gorig_goal_facts, 0 );
return FALSE;
}
for ( i = gloaded_ops; i; i = i->next ) {
if ( !i->preconds ) {
i->preconds = new_PlNode( TRU );
}
if ( !is_wff( i->preconds ) ) {
printf("\nop %s has illegal precondition", i->name);
return FALSE;
}
if ( !make_effects( &(i->effects) ) ) {
printf("\nop %s has illegal effects", i->name);
return FALSE;
}
}
if ( gcmd_line.display_info == 102 ) {
printf("\nfinal ADL representation is:\n");
printf("\nobjects:");
for ( ff = gorig_constant_list; ff; ff = ff->next ) {
printf("\n%s : %s", ff->item->item, ff->item->next->item);
}
printf("\n\ninitial state:\n");
print_PlNode( gorig_initial_facts, 0 );
printf("\ninitial state, ors:\n");
for ( j = 0; j < gnum_orig_initial_ors; j++ ) {
print_PlNode( gorig_initial_ors[j], 0 );
}
printf("\ninitial state, oneofs:\n");
for ( j = 0; j < gnum_orig_initial_oneofs; j++ ) {
print_PlNode( gorig_initial_oneofs[j], 0 );
}
printf("\ninitial state, multis:\n");
for ( j = 0; j < gnum_orig_initial_multis; j++ ) {
print_PlNode( gorig_initial_multis[j], 0 );
}
printf("\n\ngoal formula:\n");
print_PlNode( gorig_goal_facts, 0 );
printf("\n\nops:");
print_plops( gloaded_ops );
}
return TRUE;
}
