def test_reverse_box_on_storage():
state = State(*list(level_reverse_box_on_storage.values()))
previous_states = state.prev_states()
previous_states = {state.__str__() for state in previous_states}
assert previous_states == {'#####\n# #\n# $#\n# p #\n#####\n',
'#####\n# #\n#p $#\n# #\n#####\n',
'#####\n# p #\n# $#\n# #\n#####\n',
'#####\n# #\n#pBS#\n# #\n#####\n'}
def test_reverse_box():
state = State(*list(level_reverse_box.values()))
previous_states = state.prev_states()
previous_states = {state.__str__() for state in previous_states}
assert previous_states == {'#####\n# p #\n# B#\n# S#\n#####\n',
'#####\n# #\n#p B#\n# S#\n#####\n',
'#####\n# #\n#pB #\n# S#\n#####\n',
'#####\n# #\n# B#\n# pS#\n#####\n'}
def test_level_ok_prints_right():
state = State(*list(level_ok.values()))
out = state.__str__()
lev = '######\n#p #\n# $ #\n# BS#\n# BS #\n######\n'
assert lev == out
level_easiest = {
'width':
8,
'height':
8,
'player': (1, 1),
'boxes': [(2, 3)],
'storages': [(2, 6)],
'walls':
set([(0, i) for i in range(8)] + [(7, i) for i in range(8)] +
[(i, 0) for i in range(8)] + [(i, 7) for i in range(8)])
}
start_state = State(*list(level_easiest.values()))
print(start_state.__str__())
ForwardSolvers.deep_q_learning(start_state, 1000, 15, (.25, .05), .95)
level_easy = {
'width':
8,
'height':
8,
'player': (1, 1),
'boxes': [(2, 2)],
'storages': [(2, 3)],
'walls':
set([(0, i) for i in range(8)] + [(7, i) for i in range(8)] +
[(i, 0) for i in range(8)] + [(i, 7) for i in range(8)])
}
