% Constant '_parallel' to enable parallel actions % - value '1': "forall" parallel actions that can be arranged in any sequence % - value '2': "exists" parallel actions that can be arranged in some sequence % - value '3': "exists" parallel actions omitting achievement of preconditions % - value '4': "exists" parallel actions like '3' implemented by acyclicity % - otherwise: sequential actions #const _parallel = 0. % Constant 'planner_on' to enable encoding support for ASP-based planner % - value '0': no compatibility to ASP-based planner (no idle steps permitted) % - otherwise: compatibility to ASP-based planner (idle steps permitted) #const planner_on = 0. % BASE PROGRAM % Define auxiliary predicates for actions w.r.t. parallel mode selfdefeat(A,X) :- active(A), precondition(A,X,V), _parallel = 1, has_condition(A,X,1), not postcondition(A,X,V). diverge(A1,A2,X) :- active(A1), active(A2), postcondition(A1,X,V), has_condition(A2,X,1), not postcondition(A2,X,V), 0 < _parallel, _parallel < 5. diverge(A1,A2) :- diverge(A1,A2,X). exclude(A1,A2) :- active(A1), active(A2), precondition(A1,X,V), has_condition(A2,X,0), not precondition(A2,X,V), 0 < _parallel, _parallel < 5, _parallel != 2. disable(A1,A2) :- active(A1), active(A2), A1 != A2, postcondition(A1,X,V), has_condition(A2,X,0), not precondition(A2,X,V), not diverge(A1,A2), not exclude(A1,A2), 1 < _parallel, _parallel < 5. disable :- #sum{ 1,A1 : disable(A1,A2), _parallel = 4; -1,A2 : disable(A1,A2), _parallel = 4} > 0. scope(X,V) :- active(A), precondition(A,X,V), _parallel = 2. % Define relevant fluents w.r.t. parallel mode fluent(X,V) :- produce(X,V). fluent(X,V) :- persist(X,V). fluent(X,V) :- initialState(X,V), fluent(X). fluent(X,V) :- active(A), postcondition(A,X,V), fluent(X). fluent(X) :- fluent(X,V). fluent(X) :- diverge(A1,A2,X), not exclude(A1,A2). % Define unsubsumed mutexes mutex(G,X) :- mutexGroup(G), contains(G,X,V), fluent(X,V). mutex(G) :- mutexGroup(G), #count{X : mutex(G,X)} > 1. % Define initial state holds(X,V,0) :- initialState(X,V), fluent(X). :- fluent(X), #count{V : holds(X,V,0)} > 1. :- mutex(G), #count{X,V : holds(X,V,0), contains(G,X,V)} > 1. % STEP PROGRAM #program step(t). % Generate successor state 1 {holds(X,V,t) : fluent(X,V)} 1 :- fluent(X). :- mutex(G), #count{X,V : holds(X,V,t), contains(G,X,V)} > 1. change(X,t) :- holds(X,V,t-1), not holds(X,V,t). % Generate actions {occurs(A,t) : active(A)}. :- planner_on = 0, not occurs(A,t) : active(A). :- occurs(A,t), postcondition(A,X,V), fluent(X), not holds(X,V,t). effect(X,t) :- occurs(A,t), postcondition(A,X,V), fluent(X), not precondition(A,X,V). :- change(X,t), not effect(X,t). % Checks w.r.t. parallel mode :- _parallel != 1, _parallel != 2, _parallel != 3, _parallel != 4, #count{A : occurs(A,t)} > 1. :- _parallel != 2, occurs(A,t), precondition(A,X,V), not holds(X,V,t-1). :- _parallel = 1, occurs(A,t), precondition(A,X,V), not has_condition(A,X,1), not holds(X,V,t). single(X,t) :- occurs(A,t), selfdefeat(A,X). :- single(X,t), #count{A : occurs(A,t), postcondition(A,X,V), not precondition(A,X,V)} > 1. proceed(X,V,t) :- holds(X,V,t-1), scope(X,V). proceed(X,V,t) :- occurs(A,t), postcondition(A,X,V), scope(X,V), not precondition(A,X,V), perform(A,t). perform(A1,t) :- active(A1), 1 < _parallel, _parallel < 4, not occurs(A1,t). perform(A1,t) :- active(A1), 1 < _parallel, _parallel < 4, proceed(X,V,t) : precondition(A1,X,V), _parallel = 2; perform(A2,t) : disable(A1,A2). :- 1 < _parallel, _parallel < 4, active(A), not perform(A,t). #edge((A1,t),(A2,t)) : disable(A1,A2), occurs(A1,t), _parallel = 4, not disable. #edge((A1,t),(A2,t)) : disable(A1,A2), occurs(A2,t), disable. % CHECK PROGRAM #program check(t). % Check goal conditions :- query(t), goal(X,V), not holds(X,V,t). % DISPLAY PART #show occurs/2.