Esempio n. 1
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 def test_modules(self):
     t = '''
         (:domain test_domain (:module mod_a) (:module mod_b *))
         '''
     actual_domain = domain.build(s_expression.parse(t))
     self.assertEqual(set([('mod_a', None), ('mod_b', '*')]),
                      set(actual_domain.modules))
    def test_and_chain_is_flattened(self):
        t = '''
            ((not (and (a) (and (b) (or (c) (d)) (and (e) (f))))))
            '''

        actual = logical_expression.build(s_expression.parse(t))
        actual = logical_expression.flatten(actual)

        # (a && (b && (c && d))) -> a && b && c && d

        expected = node_type.LogicalOp(
            op = node_type.OP_NOT,
            children = [
                node_type.LogicalOp(
                    op = node_type.OP_AND,
                    children = [
                        node_type.Atom(name='a'),
                        node_type.Atom(name='b'),
                        node_type.LogicalOp(
                            op = node_type.OP_OR,
                            children = [
                                node_type.Atom(name='c'),
                                node_type.Atom(name='d'),
                                ]),
                        node_type.Atom(name='e'),
                        node_type.Atom(name='f'),
                    ]),
                ])

        self.assertEqual(expected, actual)
    def test_vars_are_bound_or_free_or_constants(self):
        t = '''
            ((or (a ?method_var str_const1) (b ?method_var str_const2)) (c ?method_var ?out_var) (d ?out_var 123.0))
            '''

        actual = logical_expression.build(s_expression.parse(t))
        actual = logical_expression.convert_to_dnf(actual)

        bound_variables = ['?method_var']
        logical_expression.classify_variables(bound_variables=bound_variables, root_node=actual)

        # bound_variables argument isn't mutable
        self.assertEqual(['?method_var'], bound_variables)

        a_node = list(self.world_state_facts(actual, 'a'))[0]
        b_node = list(self.world_state_facts(actual, 'b'))[0]
        c_node = list(self.world_state_facts(actual, 'c'))[0]
        d_node = list(self.world_state_facts(actual, 'd'))[0]

        self.assertEqual(set(['?method_var']), set(a_node.bound_variables))
        self.assertEqual(set(['str_const1']),  set(a_node.constants))

        self.assertEqual(set(['?method_var']), set(b_node.bound_variables))
        self.assertEqual(set(['str_const2']),  set(b_node.constants))

        self.assertEqual(set(['?method_var']), set(c_node.bound_variables))
        self.assertEqual(set(),                set(c_node.constants))

        self.assertEqual(set(['?out_var']),    set(d_node.bound_variables))
        self.assertEqual(set([123.0]),         set(d_node.constants))
    def test_de_morgans_law(self):
        t = '''
            ((not (and (a) (or (b) (not (c))))))
            '''

        actual = logical_expression.build(s_expression.parse(t))
        actual = logical_expression.convert_to_nnf(actual)

        # !(a && (b || !c)) -> !a || !(b || c) -> !a || (!b && c)

        expected = node_type.LogicalOp(
            op = node_type.OP_OR,
            children = [
                node_type.LogicalOp(
                    op = node_type.OP_NOT,
                    children = [
                        node_type.Atom(name='a')
                        ]),

                node_type.LogicalOp(
                    op = node_type.OP_AND,
                    children = [
                            node_type.LogicalOp(
                                op = node_type.OP_NOT,
                                children = [node_type.Atom(name='b')]),

                            node_type.Atom(name='c'),
                        ])
                ])

        self.assertEqual(expected, actual)
Esempio n. 5
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def main():
    if len(sys.argv) == 3:
        src = sys.argv[1]
        dst = sys.argv[2]

        self_dir = os.path.dirname(os.path.realpath(__file__))
        domain_std_path = os.path.join(self_dir, 'domain_std.py')

        if not os.path.isfile(domain_std_path):
            print 'Error: Cant find domain_std module.'
            sys.exit(1)

        try:
            s = s_expression.parse(open(src, 'rt').read())
            d = domain.build(s)
            c = domain_code.generate(
                d, inline_modules=[open(domain_std_path, 'rt')])
        except (s_expression.MalformedExpressionError,
                s_expression.SyntaxException) as e:
            print 'Error: line=%s column=%s' % (e.pos[0], e.pos[1])
            sys.exit(1)

        with open(dst, 'wt') as f:
            f.write('# Auto-generated with translate_domain.py\n\n')
            f.write(c)

        print 'Done!'
    else:
        print 'translate_domain.py <source> <destination>'
Esempio n. 6
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def main():
    if len(sys.argv) == 3:
        src = sys.argv[1]
        dst = sys.argv[2]

        self_dir = os.path.dirname(os.path.realpath(__file__))
        domain_std_path = os.path.join(self_dir, "domain_std.py")

        if not os.path.isfile(domain_std_path):
            print "Error: Cant find domain_std module."
            sys.exit(1)

        try:
            s = s_expression.parse(open(src, "rt").read())
            d = domain.build(s)
            c = domain_code.generate(d, inline_modules=[open(domain_std_path, "rt")])
        except (s_expression.MalformedExpressionError, s_expression.SyntaxException) as e:
            print "Error: line=%s column=%s" % (e.pos[0], e.pos[1])
            sys.exit(1)

        with open(dst, "wt") as f:
            f.write("# Auto-generated with translate_domain.py\n\n")
            f.write(c)

        print "Done!"
    else:
        print "translate_domain.py <source> <destination>"
Esempio n. 7
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 def test_empty_methods(self):
     t = '''
         (:domain test_domain (:method (test_method ?v1 ?v2)))
         '''
     actual_domain = domain.build(s_expression.parse(t))
     actual_method = actual_domain.children[0]
     self.assertEqual('test_method', actual_method.name)
     self.assertEqual(['?v1', '?v2'], actual_method.variables)
Esempio n. 8
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 def test_empty_methods(self):
     t = '''
         (:domain test_domain (:method (test_method ?v1 ?v2)))
         '''
     actual_domain = domain.build(s_expression.parse(t))
     actual_method = actual_domain.children[0]
     self.assertEqual('test_method', actual_method.name)
     self.assertEqual(['?v1', '?v2'], actual_method.variables)
 def test_conversion_with_call_term(self):
     t = '''
         ((or (a) (b)) (call func ?x ?y))
         '''
     actual = logical_expression.build(s_expression.parse(t))
     actual = logical_expression.convert_to_dnf(actual)
     expected = '(or (and a func) (and b func))'
     self.assertEqual(expected, self.tree_to_sexp(actual))
    def test_literal_is_dnf(self):
        actual = logical_expression.build(s_expression.parse('((a))'))
        actual = logical_expression.convert_to_dnf(actual)
        expected = node_type.LogicalOp(
            op=node_type.OP_OR, 
            children=[node_type.Atom(name='a')])

        self.assertEqual(expected, actual)

        actual = logical_expression.build(s_expression.parse('((not (a)))'))
        actual = logical_expression.convert_to_dnf(actual)
        expected = node_type.LogicalOp(
                op=node_type.OP_OR,
                children=[node_type.LogicalOp(
                    op=node_type.OP_NOT, 
                    children=[node_type.Atom(name='a')])])

        self.assertEqual(expected, actual)
    def test_conversion_1(self):
        t = '''
            ((and (q1) (or (r1) (r2)) (q2) (or (r3) (r4)) (q3)))
            '''

        actual = logical_expression.build(s_expression.parse(t))
        actual = logical_expression.convert_to_dnf(actual)

        expected = '(or (and q1 r1 q2 r3 q3) (and q1 r1 q2 r4 q3) (and q1 r2 q2 r3 q3) (and q1 r2 q2 r4 q3))'

        self.assertEqual(expected, self.tree_to_sexp(actual))
    def test_neg_neg_is_pos(self):
        t = '''
            ((not (not (a))))
            '''

        actual = logical_expression.build(s_expression.parse(t))
        actual = logical_expression.convert_to_nnf(actual)

        expected = node_type.Atom(name='a')

        self.assertEqual(expected, actual)
    def test_conversion_5(self):
        t = '''
            ((t1) (or (not (t2)) (and (t2) (t3) (t4))))
            '''

        actual = logical_expression.build(s_expression.parse(t))
        actual = logical_expression.convert_to_dnf(actual)

        expected = '(or (and t1 (not t2)) (and t1 t2 t3 t4))'

        self.assertEqual(expected, self.tree_to_sexp(actual))
    def test_conversion_4(self):
        t = '''
            ((or (not (call f1))))
            '''

        actual = logical_expression.build(s_expression.parse(t))
        actual = logical_expression.convert_to_dnf(actual)

        expected = '(or (not f1))'

        self.assertEqual(expected, self.tree_to_sexp(actual))
    def test_conversion_2(self):
        t = '''
            ((a) (not (or (b) (c))))
            '''

        actual = logical_expression.build(s_expression.parse(t))
        actual = logical_expression.convert_to_dnf(actual)

        expected = '(or (and a (not b) (not c)))'

        self.assertEqual(expected, self.tree_to_sexp(actual))
    def test_and_is_default_root(self):
        t = '''
            ((a) (b))
            '''
        actual = logical_expression.build(s_expression.parse(t))

        expected = node_type.LogicalOp(
            op = node_type.OP_AND,
            children = [
                node_type.Atom(name='a'),
                node_type.Atom(name='b'),
                ])

        self.assertEqual(expected, actual)
    def test_simple(self):
        t = '''
            ((or (a) (b) (c)))
            '''
        actual = logical_expression.build(s_expression.parse(t))

        expected = node_type.LogicalOp(
            op = node_type.OP_OR,
            children = [
                node_type.Atom(name='a'),
                node_type.Atom(name='b'),
                node_type.Atom(name='c'),
                ])

        self.assertEqual(expected, actual)
    def test_no_conversion_is_required(self):
        t = '''
            ((or (a) (b)))
            '''

        actual = logical_expression.build(s_expression.parse(t))
        actual = logical_expression.convert_to_nnf(actual)

        expected = node_type.LogicalOp(
            op = node_type.OP_OR,
            children = [
                node_type.Atom(name='a'),
                node_type.Atom(name='b'),
                ])

        self.assertEqual(expected, actual)
Esempio n. 19
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    def test_full_domain(self):
        t = '''
            (:domain test-domain
                (:method (test-method ?var_a ?var_b)
                    ((fact1 ?var_a str_const) (fact2 ?var_a 239.0) (fact3 ?var_b))
                    ((empty-method ?var_a ?var_b str_const 123.0))

                    branch_name
                    ((fact4))
                    ((empty-method2))
                )

                (:method (empty-method ?var_x ?var_y ?var_z ?var_w)
                    branch-default
                    ()
                    ()
                )
            )
            '''

        actual_domain = domain.build(s_expression.parse(t))

        self.assertEqual(2, len(actual_domain.children))

        test_method_node = actual_domain.children[0]
        empty_method_node = actual_domain.children[1]
        test_method_branch_node = test_method_node.children[0]
        test_method_tasklist = test_method_branch_node.tasklist

        self.assertEqual('test_method', test_method_node.name)
        self.assertEqual('empty_method', empty_method_node.name)

        self.assertEqual(['?var_x', '?var_y', '?var_z', '?var_w'],
                         empty_method_node.variables)

        self.assertEqual('branch_0', test_method_branch_node.name)
        self.assertEqual(1, len(test_method_tasklist))
        self.assertEqual('empty_method', test_method_tasklist[0].name)
        self.assertEqual(['?var_a', '?var_b', 'str_const', 123.0],
                         test_method_tasklist[0].child_names())

        self.assertEqual('branch_name', test_method_node.children[1].name)
Esempio n. 20
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    def test_full_domain(self):
        t = '''
            (:domain test-domain
                (:method (test-method ?var_a ?var_b)
                    ((fact1 ?var_a str_const) (fact2 ?var_a 239.0) (fact3 ?var_b))
                    ((empty-method ?var_a ?var_b str_const 123.0))

                    branch_name
                    ((fact4))
                    ((empty-method2))
                )

                (:method (empty-method ?var_x ?var_y ?var_z ?var_w)
                    branch-default
                    ()
                    ()
                )
            )
            '''

        actual_domain = domain.build(s_expression.parse(t))

        self.assertEqual(2, len(actual_domain.children))

        test_method_node = actual_domain.children[0]
        empty_method_node = actual_domain.children[1]
        test_method_branch_node = test_method_node.children[0]
        test_method_tasklist = test_method_branch_node.tasklist

        self.assertEqual('test_method', test_method_node.name)
        self.assertEqual('empty_method', empty_method_node.name)

        self.assertEqual(['?var_x', '?var_y', '?var_z', '?var_w'], empty_method_node.variables)

        self.assertEqual('branch_0', test_method_branch_node.name)
        self.assertEqual(1, len(test_method_tasklist))
        self.assertEqual('empty_method', test_method_tasklist[0].name)
        self.assertEqual(['?var_a', '?var_b', 'str_const', 123.0], test_method_tasklist[0].child_names())

        self.assertEqual('branch_name', test_method_node.children[1].name)
Esempio n. 21
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 def test_empty_domain(self):
     t = '''
         (:domain expected-name)
         '''
     actual = domain.build(s_expression.parse(t))
     self.assertEqual('expected_name', actual.name)
Esempio n. 22
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 def test_modules(self):
     t = '''
         (:domain test_domain (:module mod_a) (:module mod_b *))
         '''
     actual_domain = domain.build(s_expression.parse(t))
     self.assertEqual(set([('mod_a', None), ('mod_b', '*')]), set(actual_domain.modules))
    def test_empty_expression_is_dnf(self):
        actual = logical_expression.build(s_expression.parse('()'))
        actual = logical_expression.convert_to_dnf(actual)
        expected = node_type.LogicalOp(op=node_type.OP_OR)

        self.assertEqual(expected, actual)
Esempio n. 24
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 def test_empty_domain(self):
     t = '''
         (:domain expected-name)
         '''
     actual = domain.build(s_expression.parse(t))
     self.assertEqual('expected_name', actual.name)