def test_parallel_quests():
logic = GameLogic.parse("""
type foo {
rules {
do_a :: not_a(foo) & $not_c(foo) -> a(foo);
do_b :: not_b(foo) & $not_c(foo) -> b(foo);
do_c :: $a(foo) & $b(foo) & not_c(foo) -> c(foo);
}
constraints {
a_or_not_a :: a(foo) & not_a(foo) -> fail();
b_or_not_b :: b(foo) & not_b(foo) -> fail();
c_or_not_c :: c(foo) & not_c(foo) -> fail();
}
}
""")
state = State([
Proposition.parse("a(foo)"),
Proposition.parse("b(foo)"),
Proposition.parse("c(foo)"),
])
options = ChainingOptions()
options.backward = True
options.logic = logic
options.max_depth = 3
options.max_breadth = 1
chains = list(get_chains(state, options))
assert len(chains) == 2
options.max_breadth = 2
chains = list(get_chains(state, options))
assert len(chains) == 3
options.min_breadth = 2
chains = list(get_chains(state, options))
assert len(chains) == 1
assert len(chains[0].actions) == 3
assert chains[0].nodes[0].depth == 2
assert chains[0].nodes[0].breadth == 2
assert chains[0].nodes[0].parent == chains[0].nodes[2]
assert chains[0].nodes[1].depth == 2
assert chains[0].nodes[1].breadth == 1
assert chains[0].nodes[1].parent == chains[0].nodes[2]
assert chains[0].nodes[2].depth == 1
assert chains[0].nodes[2].breadth == 1
assert chains[0].nodes[2].parent == None
options.min_breadth = 1
options.create_variables = True
chains = list(get_chains(State(), options))
assert len(chains) == 6
def test_parallel_quests_navigation():
logic = GameLogic.parse("""
type P {
}
type I {
}
type r {
rules {
move :: at(P, r) & $free(r, r') -> at(P, r');
}
constraints {
atat :: at(P, r) & at(P, r') -> fail();
}
}
type o {
rules {
take :: $at(P, r) & at(o, r) -> in(o, I);
}
constraints {
inat :: in(o, I) & at(o, r) -> fail();
}
}
type flour : o {
}
type eggs : o {
}
type cake {
rules {
bake :: in(flour, I) & in(eggs, I) -> in(cake, I) & in(flour, cake) & in(eggs, cake);
}
constraints {
inincake :: in(o, I) & in(o, cake) -> fail();
atincake :: at(o, r) & in(o, cake) -> fail();
}
}
""")
state = State([
Proposition.parse("at(P, r3: r)"),
Proposition.parse("free(r2: r, r3: r)"),
Proposition.parse("free(r1: r, r2: r)"),
])
bake = [logic.rules["bake"]]
non_bake = [r for r in logic.rules.values() if r.name != "bake"]
options = ChainingOptions()
options.backward = True
options.create_variables = True
options.min_depth = 3
options.max_depth = 3
options.min_breadth = 2
options.max_breadth = 2
options.logic = logic
options.rules_per_depth = [bake, non_bake, non_bake]
options.restricted_types = {"P", "r"}
chains = list(get_chains(state, options))
assert len(chains) == 2