import pytest from csp import * # noqa def test_csp_assign(): var = 10 val = 5 assignment = {} australia.assign(var, val, assignment) assert australia.nassigns == 1 assert assignment[var] == val def test_csp_unassign(): var = 10 assignment = {var: 5} australia.unassign(var, assignment) assert var not in assignment def test_csp_nconflits(): map_coloring_test = MapColoringCSP(list('RGB'), 'A: B C; B: C; C: ') assignment = {'A': 'R', 'B': 'G'} var = 'C' val = 'R' assert map_coloring_test.nconflicts(var, val, assignment) == 1 val = 'B' assert map_coloring_test.nconflicts(var, val, assignment) == 0 def test_csp_actions(): map_coloring_test = MapColoringCSP(list('123'), 'A: B C; B: C; C: ') state = {'A': '1', 'B': '2', 'C': '3'} assert map_coloring_test.actions(state) == [] state = {'A': '1', 'B': '3'} assert map_coloring_test.actions(state) == [('C', '2')] state = {'A': '1', 'C': '2'} assert map_coloring_test.actions(state) == [('B', '3')] state = (('A', '1'), ('B', '3')) assert map_coloring_test.actions(state) == [('C', '2')] state = {'A': '1'} assert (map_coloring_test.actions(state) == [('C', '2'), ('C', '3')] or map_coloring_test.actions(state) == [('B', '2'), ('B', '3')]) def test_csp_result(): map_coloring_test = MapColoringCSP(list('123'), 'A: B C; B: C; C: ') state = (('A', '1'), ('B', '3')) action = ('C', '2') assert map_coloring_test.result(state, action) == (('A', '1'), ('B', '3'), ('C', '2')) def test_csp_goal_test(): map_coloring_test = MapColoringCSP(list('123'), 'A: B C; B: C; C: ') state = (('A', '1'), ('B', '3'), ('C', '2')) assert map_coloring_test.goal_test(state) is True state = (('A', '1'), ('C', '2')) assert map_coloring_test.goal_test(state) is False def test_csp_support_pruning(): map_coloring_test = MapColoringCSP(list('123'), 'A: B C; B: C; C: ') map_coloring_test.support_pruning() assert map_coloring_test.curr_domains == {'A': ['1', '2', '3'], 'B': ['1', '2', '3'], 'C': ['1', '2', '3']} def test_csp_suppose(): map_coloring_test = MapColoringCSP(list('123'), 'A: B C; B: C; C: ') var = 'A' value = '1' removals = map_coloring_test.suppose(var, value) assert removals == [('A', '2'), ('A', '3')] assert map_coloring_test.curr_domains == {'A': ['1'], 'B': ['1', '2', '3'], 'C': ['1', '2', '3']} def test_csp_prune(): map_coloring_test = MapColoringCSP(list('123'), 'A: B C; B: C; C: ') removals = None var = 'A' value = '3' map_coloring_test.support_pruning() map_coloring_test.prune(var, value, removals) assert map_coloring_test.curr_domains == {'A': ['1', '2'], 'B': ['1', '2', '3'], 'C': ['1', '2', '3']} assert removals is None map_coloring_test = MapColoringCSP(list('123'), 'A: B C; B: C; C: ') removals = [('A', '2')] map_coloring_test.support_pruning() map_coloring_test.prune(var, value, removals) assert map_coloring_test.curr_domains == {'A': ['1', '2'], 'B': ['1', '2', '3'], 'C': ['1', '2', '3']} assert removals == [('A', '2'), ('A', '3')] def test_csp_choices(): map_coloring_test = MapColoringCSP(list('123'), 'A: B C; B: C; C: ') var = 'A' assert map_coloring_test.choices(var) == ['1', '2', '3'] map_coloring_test.support_pruning() removals = None value = '3' map_coloring_test.prune(var, value, removals) assert map_coloring_test.choices(var) == ['1', '2'] def test_csp_infer_assignement(): map_coloring_test = MapColoringCSP(list('123'), 'A: B C; B: C; C: ') map_coloring_test.infer_assignment() == {} var = 'A' value = '3' map_coloring_test.prune(var, value, None) value = '1' map_coloring_test.prune(var, value, None) map_coloring_test.infer_assignment() == {'A': '2'} def test_csp_restore(): map_coloring_test = MapColoringCSP(list('123'), 'A: B C; B: C; C: ') map_coloring_test.curr_domains = {'A': ['2', '3'], 'B': ['1'], 'C': ['2', '3']} removals = [('A', '1'), ('B', '2'), ('B', '3')] map_coloring_test.restore(removals) assert map_coloring_test.curr_domains == {'A': ['2', '3', '1'], 'B': ['1', '2', '3'], 'C': ['2', '3']} def test_csp_conflicted_vars(): map_coloring_test = MapColoringCSP(list('123'), 'A: B C; B: C; C: ') current = {} var = 'A' val = '1' map_coloring_test.assign(var, val, current) var = 'B' val = '3' map_coloring_test.assign(var, val, current) var = 'C' val = '3' map_coloring_test.assign(var, val, current) conflicted_vars = map_coloring_test.conflicted_vars(current) assert (conflicted_vars == ['B', 'C'] or conflicted_vars == ['C', 'B']) def test_backtracking_search(): assert backtracking_search(australia) assert backtracking_search(australia, select_unassigned_variable=mrv) assert backtracking_search(australia, order_domain_values=lcv) assert backtracking_search(australia, select_unassigned_variable=mrv, order_domain_values=lcv) assert backtracking_search(australia, inference=forward_checking) assert backtracking_search(australia, inference=mac) assert backtracking_search(usa, select_unassigned_variable=mrv, order_domain_values=lcv, inference=mac) def test_universal_dict(): d = UniversalDict(42) assert d['life'] == 42 def test_parse_neighbours(): assert parse_neighbors('X: Y Z; Y: Z') == {'Y': ['X', 'Z'], 'X': ['Y', 'Z'], 'Z': ['X', 'Y']} if __name__ == "__main__": pytest.main()