Exemple #1
0
class ListTest(CSTNodeTest):

    # A lot of Element/StarredElement tests are provided by the tests for Tuple, so we
    # we don't need to duplicate them here.
    @data_provider([
        # one-element list, sentinel comma value
        {
            "node": cst.Set([cst.Element(cst.Name("single_element"))]),
            "code": "{single_element}",
            "parser": parse_expression,
        },
        # custom whitespace between brackets
        {
            "node":
            cst.Set(
                [cst.Element(cst.Name("single_element"))],
                lbrace=cst.LeftCurlyBrace(
                    whitespace_after=cst.SimpleWhitespace("\t")),
                rbrace=cst.RightCurlyBrace(
                    whitespace_before=cst.SimpleWhitespace("    ")),
            ),
            "code":
            "{\tsingle_element    }",
            "parser":
            parse_expression,
        },
        # two-element list, sentinel comma value
        {
            "node":
            cst.Set(
                [cst.Element(cst.Name("one")),
                 cst.Element(cst.Name("two"))]),
            "code":
            "{one, two}",
            "parser":
            None,
        },
        # with parenthesis
        {
            "node":
            cst.Set(
                [cst.Element(cst.Name("one"))],
                lpar=[cst.LeftParen()],
                rpar=[cst.RightParen()],
            ),
            "code":
            "({one})",
            "parser":
            None,
        },
        # starred element
        {
            "node":
            cst.Set([
                cst.StarredElement(cst.Name("one")),
                cst.StarredElement(cst.Name("two")),
            ]),
            "code":
            "{*one, *two}",
            "parser":
            None,
        },
        # missing spaces around set, always okay
        {
            "node":
            cst.GeneratorExp(
                cst.Name("elt"),
                cst.CompFor(
                    target=cst.Name("elt"),
                    iter=cst.Set([
                        cst.Element(
                            cst.Name("one"),
                            cst.Comma(
                                whitespace_after=cst.SimpleWhitespace(" ")),
                        ),
                        cst.Element(cst.Name("two")),
                    ]),
                    ifs=[
                        cst.CompIf(
                            cst.Name("test"),
                            whitespace_before=cst.SimpleWhitespace(""),
                        )
                    ],
                    whitespace_after_in=cst.SimpleWhitespace(""),
                ),
            ),
            "code":
            "(elt for elt in{one, two}if test)",
            "parser":
            parse_expression,
        },
    ])
    def test_valid(self, **kwargs: Any) -> None:
        self.validate_node(**kwargs)

    @data_provider((
        (
            lambda: cst.Set(
                [cst.Element(cst.Name("mismatched"))],
                lpar=[cst.LeftParen(), cst.LeftParen()],
                rpar=[cst.RightParen()],
            ),
            "unbalanced parens",
        ),
        (lambda: cst.Set([]), "at least one element"),
    ))
    def test_invalid(self, get_node: Callable[[], cst.CSTNode],
                     expected_re: str) -> None:
        self.assert_invalid(get_node, expected_re)

    @data_provider((
        {
            "code": "{*x, 2}",
            "parser": parse_expression_as(python_version="3.5"),
            "expect_success": True,
        },
        {
            "code": "{*x, 2}",
            "parser": parse_expression_as(python_version="3.3"),
            "expect_success": False,
        },
    ))
    def test_versions(self, **kwargs: Any) -> None:
        if is_native() and not kwargs.get("expect_success", True):
            self.skipTest("parse errors are disabled for native parser")
        self.assert_parses(**kwargs)
Exemple #2
0
class TupleTest(CSTNodeTest):
    @data_provider(
        [
            # zero-element tuple
            {"node": cst.Tuple([]), "code": "()", "parser": parse_expression},
            # one-element tuple, sentinel comma value
            {
                "node": cst.Tuple([cst.Element(cst.Name("single_element"))]),
                "code": "(single_element,)",
                "parser": None,
            },
            {
                "node": cst.Tuple([cst.StarredElement(cst.Name("single_element"))]),
                "code": "(*single_element,)",
                "parser": None,
            },
            # two-element tuple, sentinel comma value
            {
                "node": cst.Tuple(
                    [cst.Element(cst.Name("one")), cst.Element(cst.Name("two"))]
                ),
                "code": "(one, two)",
                "parser": None,
            },
            # remove parenthesis
            {
                "node": cst.Tuple(
                    [cst.Element(cst.Name("one")), cst.Element(cst.Name("two"))],
                    lpar=[],
                    rpar=[],
                ),
                "code": "one, two",
                "parser": None,
            },
            # add extra parenthesis
            {
                "node": cst.Tuple(
                    [cst.Element(cst.Name("one")), cst.Element(cst.Name("two"))],
                    lpar=[cst.LeftParen(), cst.LeftParen()],
                    rpar=[cst.RightParen(), cst.RightParen()],
                ),
                "code": "((one, two))",
                "parser": None,
            },
            # starred element
            {
                "node": cst.Tuple(
                    [
                        cst.StarredElement(cst.Name("one")),
                        cst.StarredElement(cst.Name("two")),
                    ]
                ),
                "code": "(*one, *two)",
                "parser": None,
            },
            # custom comma on Element
            {
                "node": cst.Tuple(
                    [
                        cst.Element(cst.Name("one"), comma=cst.Comma()),
                        cst.Element(cst.Name("two"), comma=cst.Comma()),
                    ]
                ),
                "code": "(one,two,)",
                "parser": parse_expression,
            },
            # custom comma on StarredElement
            {
                "node": cst.Tuple(
                    [
                        cst.StarredElement(cst.Name("one"), comma=cst.Comma()),
                        cst.StarredElement(cst.Name("two"), comma=cst.Comma()),
                    ]
                ),
                "code": "(*one,*two,)",
                "parser": parse_expression,
                "expected_position": CodeRange((1, 1), (1, 11)),
            },
            # custom parenthesis on StarredElement
            {
                "node": cst.Tuple(
                    [
                        cst.StarredElement(
                            cst.Name("abc"),
                            lpar=[cst.LeftParen()],
                            rpar=[cst.RightParen()],
                            comma=cst.Comma(),
                        )
                    ]
                ),
                "code": "((*abc),)",
                "parser": parse_expression,
                "expected_position": CodeRange((1, 1), (1, 8)),
            },
            # custom whitespace on StarredElement
            {
                "node": cst.Tuple(
                    [
                        cst.Element(cst.Name("one"), comma=cst.Comma()),
                        cst.StarredElement(
                            cst.Name("two"),
                            whitespace_before_value=cst.SimpleWhitespace("  "),
                            lpar=[cst.LeftParen()],
                            rpar=[cst.RightParen()],
                        ),
                    ],
                    lpar=[],
                    rpar=[],  # rpar can't own the trailing whitespace if it's not there
                ),
                "code": "one,(*  two)",
                "parser": parse_expression,
                "expected_position": CodeRange((1, 0), (1, 12)),
            },
            # missing spaces around tuple, okay with parenthesis
            {
                "node": cst.For(
                    target=cst.Tuple(
                        [
                            cst.Element(cst.Name("k"), comma=cst.Comma()),
                            cst.Element(cst.Name("v")),
                        ]
                    ),
                    iter=cst.Name("abc"),
                    body=cst.SimpleStatementSuite([cst.Pass()]),
                    whitespace_after_for=cst.SimpleWhitespace(""),
                    whitespace_before_in=cst.SimpleWhitespace(""),
                ),
                "code": "for(k,v)in abc: pass\n",
                "parser": parse_statement,
            },
            # no spaces around tuple, but using values that are parenthesized
            {
                "node": cst.For(
                    target=cst.Tuple(
                        [
                            cst.Element(
                                cst.Name(
                                    "k", lpar=[cst.LeftParen()], rpar=[cst.RightParen()]
                                ),
                                comma=cst.Comma(),
                            ),
                            cst.Element(
                                cst.Name(
                                    "v", lpar=[cst.LeftParen()], rpar=[cst.RightParen()]
                                )
                            ),
                        ],
                        lpar=[],
                        rpar=[],
                    ),
                    iter=cst.Name("abc"),
                    body=cst.SimpleStatementSuite([cst.Pass()]),
                    whitespace_after_for=cst.SimpleWhitespace(""),
                    whitespace_before_in=cst.SimpleWhitespace(""),
                ),
                "code": "for(k),(v)in abc: pass\n",
                "parser": parse_statement,
            },
            # starred elements are safe to use without a space before them
            {
                "node": cst.For(
                    target=cst.Tuple(
                        [cst.StarredElement(cst.Name("foo"), comma=cst.Comma())],
                        lpar=[],
                        rpar=[],
                    ),
                    iter=cst.Name("bar"),
                    body=cst.SimpleStatementSuite([cst.Pass()]),
                    whitespace_after_for=cst.SimpleWhitespace(""),
                ),
                "code": "for*foo, in bar: pass\n",
                "parser": parse_statement,
            },
            # a trailing comma doesn't mess up TrailingWhitespace
            {
                "node": cst.SimpleStatementLine(
                    [
                        cst.Expr(
                            cst.Tuple(
                                [
                                    cst.Element(cst.Name("one"), comma=cst.Comma()),
                                    cst.Element(cst.Name("two"), comma=cst.Comma()),
                                ],
                                lpar=[],
                                rpar=[],
                            )
                        )
                    ],
                    trailing_whitespace=cst.TrailingWhitespace(
                        whitespace=cst.SimpleWhitespace("  "),
                        comment=cst.Comment("# comment"),
                    ),
                ),
                "code": "one,two,  # comment\n",
                "parser": parse_statement,
            },
        ]
    )
    def test_valid(self, **kwargs: Any) -> None:
        self.validate_node(**kwargs)

    @data_provider(
        (
            (
                lambda: cst.Tuple([], lpar=[], rpar=[]),
                "A zero-length tuple must be wrapped in parentheses.",
            ),
            (
                lambda: cst.Tuple(
                    [cst.Element(cst.Name("mismatched"))],
                    lpar=[cst.LeftParen(), cst.LeftParen()],
                    rpar=[cst.RightParen()],
                ),
                "unbalanced parens",
            ),
            (
                lambda: cst.For(
                    target=cst.Tuple([cst.Element(cst.Name("el"))], lpar=[], rpar=[]),
                    iter=cst.Name("it"),
                    body=cst.SimpleStatementSuite([cst.Pass()]),
                    whitespace_after_for=cst.SimpleWhitespace(""),
                ),
                "Must have at least one space after 'for' keyword.",
            ),
            (
                lambda: cst.For(
                    target=cst.Tuple([cst.Element(cst.Name("el"))], lpar=[], rpar=[]),
                    iter=cst.Name("it"),
                    body=cst.SimpleStatementSuite([cst.Pass()]),
                    whitespace_before_in=cst.SimpleWhitespace(""),
                ),
                "Must have at least one space before 'in' keyword.",
            ),
            # an additional check for StarredElement, since it's a separate codepath
            (
                lambda: cst.For(
                    target=cst.Tuple(
                        [cst.StarredElement(cst.Name("el"))], lpar=[], rpar=[]
                    ),
                    iter=cst.Name("it"),
                    body=cst.SimpleStatementSuite([cst.Pass()]),
                    whitespace_before_in=cst.SimpleWhitespace(""),
                ),
                "Must have at least one space before 'in' keyword.",
            ),
        )
    )
    def test_invalid(
        self, get_node: Callable[[], cst.CSTNode], expected_re: str
    ) -> None:
        self.assert_invalid(get_node, expected_re)
Exemple #3
0
class ListTest(CSTNodeTest):

    # A lot of Element/StarredElement tests are provided by the tests for Tuple, so we
    # we don't need to duplicate them here.
    @data_provider([
        # zero-element list
        {
            "node": cst.List([]),
            "code": "[]",
            "parser": parse_expression
        },
        # one-element list, sentinel comma value
        {
            "node": cst.List([cst.Element(cst.Name("single_element"))]),
            "code": "[single_element]",
            "parser": parse_expression,
        },
        # custom whitespace between brackets
        {
            "node":
            cst.List(
                [cst.Element(cst.Name("single_element"))],
                lbracket=cst.LeftSquareBracket(
                    whitespace_after=cst.SimpleWhitespace("\t")),
                rbracket=cst.RightSquareBracket(
                    whitespace_before=cst.SimpleWhitespace("    ")),
            ),
            "code":
            "[\tsingle_element    ]",
            "parser":
            parse_expression,
            "expected_position":
            CodeRange.create((1, 0), (1, 21)),
        },
        # two-element list, sentinel comma value
        {
            "node":
            cst.List(
                [cst.Element(cst.Name("one")),
                 cst.Element(cst.Name("two"))]),
            "code":
            "[one, two]",
            "parser":
            None,
        },
        # with parenthesis
        {
            "node":
            cst.List(
                [cst.Element(cst.Name("one"))],
                lpar=[cst.LeftParen()],
                rpar=[cst.RightParen()],
            ),
            "code":
            "([one])",
            "parser":
            None,
            "expected_position":
            CodeRange.create((1, 1), (1, 6)),
        },
        # starred element
        {
            "node":
            cst.List([
                cst.StarredElement(cst.Name("one")),
                cst.StarredElement(cst.Name("two")),
            ]),
            "code":
            "[*one, *two]",
            "parser":
            None,
            "expected_position":
            CodeRange.create((1, 0), (1, 12)),
        },
        # missing spaces around list, always okay
        {
            "node":
            cst.For(
                target=cst.List([
                    cst.Element(cst.Name("k"), comma=cst.Comma()),
                    cst.Element(cst.Name("v")),
                ]),
                iter=cst.Name("abc"),
                body=cst.SimpleStatementSuite([cst.Pass()]),
                whitespace_after_for=cst.SimpleWhitespace(""),
                whitespace_before_in=cst.SimpleWhitespace(""),
            ),
            "code":
            "for[k,v]in abc: pass\n",
            "parser":
            parse_statement,
        },
    ])
    def test_valid(self, **kwargs: Any) -> None:
        self.validate_node(**kwargs)

    @data_provider(((
        lambda: cst.List(
            [cst.Element(cst.Name("mismatched"))],
            lpar=[cst.LeftParen(), cst.LeftParen()],
            rpar=[cst.RightParen()],
        ),
        "unbalanced parens",
    ), ))
    def test_invalid(self, get_node: Callable[[], cst.CSTNode],
                     expected_re: str) -> None:
        self.assert_invalid(get_node, expected_re)