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# Copyright (c) Meta Platforms, Inc. and affiliates.
#
# This source code is licensed under the MIT license found in the
# LICENSE file in the root directory of this source tree.
from typing import Any, Callable
import libcst as cst
from libcst import parse_expression, parse_statement
from libcst._nodes.tests.base import CSTNodeTest, parse_expression_as
from libcst._parser.entrypoints import is_native
from libcst.metadata import CodeRange
from libcst.testing.utils import data_provider
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)),
},
# top-level two-element tuple, with one being starred
{
"node": cst.SimpleStatementLine(
body=[
cst.Expr(
value=cst.Tuple(
[
cst.Element(cst.Name("one"), comma=cst.Comma()),
cst.StarredElement(cst.Name("two")),
],
lpar=[],
rpar=[],
)
)
]
),
"code": "one,*two\n",
"parser": parse_statement,
},
# top-level three-element tuple, start/end is starred
{
"node": cst.SimpleStatementLine(
body=[
cst.Expr(
value=cst.Tuple(
[
cst.StarredElement(
cst.Name("one"), comma=cst.Comma()
),
cst.Element(cst.Name("two"), comma=cst.Comma()),
cst.StarredElement(cst.Name("three")),
],
lpar=[],
rpar=[],
)
)
]
),
"code": "*one,two,*three\n",
"parser": parse_statement,
},
# 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)
@data_provider(
(
{
"code": "(a, *b)",
"parser": parse_expression_as(python_version="3.5"),
"expect_success": True,
},
{
"code": "(a, *b)",
"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)
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