Exemplo n.º 1
0
    def test_sym_expr(self):
        node = gtirb.SymAddrConst(
            offset=123,
            symbol=gtirb.Symbol(name="symbol", payload=gtirb.ProxyBlock()),
        )
        string = repr(node)
        new_node = eval(string)
        self.assertEqual(node.offset, new_node.offset)
        self.assertTrue(node.symbol.deep_eq(new_node.symbol))

        node = gtirb.SymStackConst(
            offset=123,
            symbol=gtirb.Symbol(name="symbol", payload=gtirb.ProxyBlock()),
        )
        string = repr(node)
        new_node = eval(string)
        self.assertEqual(node.offset, new_node.offset)
        self.assertTrue(node.symbol.deep_eq(new_node.symbol))

        node = gtirb.SymAddrAddr(
            offset=123,
            scale=2,
            symbol1=gtirb.Symbol(name="symbol1", payload=gtirb.ProxyBlock()),
            symbol2=gtirb.Symbol(name="symbol2", payload=gtirb.ProxyBlock()),
        )
        string = repr(node)
        new_node = eval(string)
        self.assertEqual(node.offset, new_node.offset)
        self.assertEqual(node.scale, new_node.scale)
        self.assertTrue(node.symbol1.deep_eq(new_node.symbol1))
        self.assertTrue(node.symbol2.deep_eq(new_node.symbol2))
Exemplo n.º 2
0
    def test_byte_intervals(self):
        s = gtirb.Symbol(name="test")
        se1 = gtirb.SymAddrConst(0, s)
        se3 = gtirb.SymAddrAddr(0, 1, s, s)
        bi = gtirb.ByteInterval(address=10,
                                size=5,
                                symbolic_expressions={
                                    0: se1,
                                    4: se3
                                })

        self.assertEqual(set(bi.symbolic_expressions_at(9)), set())
        self.assertEqual(set(bi.symbolic_expressions_at(10)), {(bi, 0, se1)})
        self.assertEqual(set(bi.symbolic_expressions_at(11)), set())
        self.assertEqual(set(bi.symbolic_expressions_at(13)), set())
        self.assertEqual(set(bi.symbolic_expressions_at(14)), {(bi, 4, se3)})
        self.assertEqual(set(bi.symbolic_expressions_at(15)), set())

        self.assertEqual(set(bi.symbolic_expressions_at(range(0, 9))), set())
        self.assertEqual(set(bi.symbolic_expressions_at(range(11, 14))), set())
        self.assertEqual(set(bi.symbolic_expressions_at(range(20, 90))), set())
        self.assertEqual(
            set(bi.symbolic_expressions_at(range(0, 90))),
            {(bi, 0, se1), (bi, 4, se3)},
        )
        self.assertEqual(
            set(bi.symbolic_expressions_at(range(10, 15))),
            {(bi, 0, se1), (bi, 4, se3)},
        )
        self.assertEqual(set(bi.symbolic_expressions_at(range(11, 18))),
                         {(bi, 4, se3)})
Exemplo n.º 3
0
    def test_sym_exprs(self):
        node = gtirb.SymAddrConst(
            offset=123,
            symbol=gtirb.Symbol(name="symbol", payload=gtirb.ProxyBlock()),
        )
        self.assertEqual({x.name for x in node.symbols}, {"symbol"})

        node = gtirb.SymAddrAddr(
            offset=123,
            scale=2,
            symbol1=gtirb.Symbol(name="symbol1", payload=gtirb.ProxyBlock()),
            symbol2=gtirb.Symbol(name="symbol2", payload=gtirb.ProxyBlock()),
        )
        self.assertEqual({x.name
                          for x in node.symbols}, {"symbol1", "symbol2"})
Exemplo n.º 4
0
    def test_sym_expr(self):
        node = gtirb.SymAddrConst(
            offset=123,
            symbol=gtirb.Symbol(name="symbol", payload=gtirb.ProxyBlock()),
            attributes=set(),
        )
        string = repr(node)
        new_node = eval(string)
        self.assertTrue(node.deep_eq(new_node))

        node = gtirb.SymAddrAddr(
            offset=123,
            scale=2,
            symbol1=gtirb.Symbol(name="symbol1", payload=gtirb.ProxyBlock()),
            symbol2=gtirb.Symbol(name="symbol2", payload=gtirb.ProxyBlock()),
            attributes={
                gtirb.SymbolicExpression.Attribute.Adjusted,
                gtirb.SymbolicExpression.Attribute.Part0,
            },
        )
        string = repr(node)
        new_node = eval(string)
        self.assertTrue(node.deep_eq(new_node))
Exemplo n.º 5
0
    def test_sym_exprs(self):
        id1 = uuid.uuid4()
        id2 = uuid.uuid4()

        # SymAddrConst
        s1 = gtirb.SymAddrConst(offset=1,
                                symbol=gtirb.Symbol(name="name",
                                                    payload=None,
                                                    uuid=id1))
        s2 = gtirb.SymAddrConst(offset=1,
                                symbol=gtirb.Symbol(name="name",
                                                    payload=None,
                                                    uuid=id1))
        self.assertTrue(s1.deep_eq(s2))

        s1 = gtirb.SymAddrConst(offset=1,
                                symbol=gtirb.Symbol(name="name",
                                                    payload=None,
                                                    uuid=id1))
        s2 = gtirb.SymAddrConst(offset=2,
                                symbol=gtirb.Symbol(name="name",
                                                    payload=None,
                                                    uuid=id1))
        self.assertFalse(s1.deep_eq(s2))

        s1 = gtirb.SymAddrConst(offset=1,
                                symbol=gtirb.Symbol(name="name1",
                                                    payload=None,
                                                    uuid=id1))
        s2 = gtirb.SymAddrConst(offset=1,
                                symbol=gtirb.Symbol(name="name2",
                                                    payload=None,
                                                    uuid=id1))
        self.assertFalse(s1.deep_eq(s2))

        # SymStackConst
        s1 = gtirb.SymStackConst(offset=1,
                                 symbol=gtirb.Symbol(name="name",
                                                     payload=None,
                                                     uuid=id1))
        s2 = gtirb.SymStackConst(offset=1,
                                 symbol=gtirb.Symbol(name="name",
                                                     payload=None,
                                                     uuid=id1))
        self.assertTrue(s1.deep_eq(s2))

        s1 = gtirb.SymStackConst(offset=1,
                                 symbol=gtirb.Symbol(name="name",
                                                     payload=None,
                                                     uuid=id1))
        s2 = gtirb.SymStackConst(offset=2,
                                 symbol=gtirb.Symbol(name="name",
                                                     payload=None,
                                                     uuid=id1))
        self.assertFalse(s1.deep_eq(s2))

        s1 = gtirb.SymStackConst(offset=1,
                                 symbol=gtirb.Symbol(name="name1",
                                                     payload=None,
                                                     uuid=id1))
        s2 = gtirb.SymStackConst(offset=1,
                                 symbol=gtirb.Symbol(name="name2",
                                                     payload=None,
                                                     uuid=id1))
        self.assertFalse(s1.deep_eq(s2))

        # SymAddrAddr
        s1 = gtirb.SymAddrAddr(
            offset=1,
            scale=2,
            symbol1=gtirb.Symbol(name="name1", payload=None, uuid=id1),
            symbol2=gtirb.Symbol(name="name2", payload=None, uuid=id2),
        )
        s2 = gtirb.SymAddrAddr(
            offset=1,
            scale=2,
            symbol1=gtirb.Symbol(name="name1", payload=None, uuid=id1),
            symbol2=gtirb.Symbol(name="name2", payload=None, uuid=id2),
        )
        self.assertTrue(s1.deep_eq(s2))

        s1 = gtirb.SymAddrAddr(
            offset=1,
            scale=2,
            symbol1=gtirb.Symbol(name="name1", payload=None, uuid=id1),
            symbol2=gtirb.Symbol(name="name2", payload=None, uuid=id2),
        )
        s2 = gtirb.SymAddrAddr(
            offset=2,
            scale=2,
            symbol1=gtirb.Symbol(name="name1", payload=None, uuid=id1),
            symbol2=gtirb.Symbol(name="name2", payload=None, uuid=id2),
        )
        self.assertFalse(s1.deep_eq(s2))

        s1 = gtirb.SymAddrAddr(
            offset=1,
            scale=2,
            symbol1=gtirb.Symbol(name="name1", payload=None, uuid=id1),
            symbol2=gtirb.Symbol(name="name2", payload=None, uuid=id2),
        )
        s2 = gtirb.SymAddrAddr(
            offset=1,
            scale=4,
            symbol1=gtirb.Symbol(name="name1", payload=None, uuid=id1),
            symbol2=gtirb.Symbol(name="name2", payload=None, uuid=id2),
        )
        self.assertFalse(s1.deep_eq(s2))

        s1 = gtirb.SymAddrAddr(
            offset=1,
            scale=2,
            symbol1=gtirb.Symbol(name="name1", payload=None, uuid=id1),
            symbol2=gtirb.Symbol(name="name2", payload=None, uuid=id2),
        )
        s2 = gtirb.SymAddrAddr(
            offset=1,
            scale=2,
            symbol1=gtirb.Symbol(name="name3", payload=None, uuid=id1),
            symbol2=gtirb.Symbol(name="name2", payload=None, uuid=id2),
        )
        self.assertFalse(s1.deep_eq(s2))

        s1 = gtirb.SymAddrAddr(
            offset=1,
            scale=2,
            symbol1=gtirb.Symbol(name="name1", payload=None, uuid=id1),
            symbol2=gtirb.Symbol(name="name2", payload=None, uuid=id2),
        )
        s2 = gtirb.SymAddrAddr(
            offset=1,
            scale=2,
            symbol1=gtirb.Symbol(name="name1", payload=None, uuid=id1),
            symbol2=gtirb.Symbol(name="name3", payload=None, uuid=id2),
        )
        self.assertFalse(s1.deep_eq(s2))