cpython/Lib/test/test_peg_generator/test_c_parser.py

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import textwrap
import unittest
from distutils.tests.support import TempdirManager
from pathlib import Path
from test import test_tools
from test import support
from test.support import os_helper
from test.support.script_helper import assert_python_ok
test_tools.skip_if_missing("peg_generator")
with test_tools.imports_under_tool("peg_generator"):
from pegen.grammar_parser import GeneratedParser as GrammarParser
from pegen.testutil import (
parse_string,
generate_parser_c_extension,
generate_c_parser_source,
)
from pegen.ast_dump import ast_dump
TEST_TEMPLATE = """
tmp_dir = {extension_path!r}
import ast
import traceback
import sys
import unittest
from test import test_tools
with test_tools.imports_under_tool("peg_generator"):
from pegen.ast_dump import ast_dump
sys.path.insert(0, tmp_dir)
import parse
class Tests(unittest.TestCase):
def check_input_strings_for_grammar(
self,
valid_cases = (),
invalid_cases = (),
):
if valid_cases:
for case in valid_cases:
parse.parse_string(case, mode=0)
if invalid_cases:
for case in invalid_cases:
with self.assertRaises(SyntaxError):
parse.parse_string(case, mode=0)
def verify_ast_generation(self, stmt):
expected_ast = ast.parse(stmt)
actual_ast = parse.parse_string(stmt, mode=1)
self.assertEqual(ast_dump(expected_ast), ast_dump(actual_ast))
def test_parse(self):
{test_source}
unittest.main()
"""
class TestCParser(TempdirManager, unittest.TestCase):
def setUp(self):
cmd = support.missing_compiler_executable()
if cmd is not None:
self.skipTest("The %r command is not found" % cmd)
super(TestCParser, self).setUp()
self.tmp_path = self.mkdtemp()
change_cwd = os_helper.change_cwd(self.tmp_path)
change_cwd.__enter__()
self.addCleanup(change_cwd.__exit__, None, None, None)
def tearDown(self):
super(TestCParser, self).tearDown()
def build_extension(self, grammar_source):
grammar = parse_string(grammar_source, GrammarParser)
generate_parser_c_extension(grammar, Path(self.tmp_path))
def run_test(self, grammar_source, test_source):
self.build_extension(grammar_source)
test_source = textwrap.indent(textwrap.dedent(test_source), 8 * " ")
assert_python_ok(
"-c",
TEST_TEMPLATE.format(extension_path=self.tmp_path, test_source=test_source),
)
def test_c_parser(self) -> None:
grammar_source = """
start[mod_ty]: a[asdl_stmt_seq*]=stmt* $ { Module(a, NULL, p->arena) }
stmt[stmt_ty]: a=expr_stmt { a }
expr_stmt[stmt_ty]: a=expression NEWLINE { _Py_Expr(a, EXTRA) }
expression[expr_ty]: ( l=expression '+' r=term { _Py_BinOp(l, Add, r, EXTRA) }
| l=expression '-' r=term { _Py_BinOp(l, Sub, r, EXTRA) }
| t=term { t }
)
term[expr_ty]: ( l=term '*' r=factor { _Py_BinOp(l, Mult, r, EXTRA) }
| l=term '/' r=factor { _Py_BinOp(l, Div, r, EXTRA) }
| f=factor { f }
)
factor[expr_ty]: ('(' e=expression ')' { e }
| a=atom { a }
)
atom[expr_ty]: ( n=NAME { n }
| n=NUMBER { n }
| s=STRING { s }
)
"""
test_source = """
expressions = [
"4+5",
"4-5",
"4*5",
"1+4*5",
"1+4/5",
"(1+1) + (1+1)",
"(1+1) - (1+1)",
"(1+1) * (1+1)",
"(1+1) / (1+1)",
]
for expr in expressions:
the_ast = parse.parse_string(expr, mode=1)
expected_ast = ast.parse(expr)
self.assertEqual(ast_dump(the_ast), ast_dump(expected_ast))
"""
self.run_test(grammar_source, test_source)
def test_lookahead(self) -> None:
grammar_source = """
start: NAME &NAME expr NEWLINE? ENDMARKER
expr: NAME | NUMBER
"""
test_source = """
valid_cases = ["foo bar"]
invalid_cases = ["foo 34"]
self.check_input_strings_for_grammar(valid_cases, invalid_cases)
"""
self.run_test(grammar_source, test_source)
def test_negative_lookahead(self) -> None:
grammar_source = """
start: NAME !NAME expr NEWLINE? ENDMARKER
expr: NAME | NUMBER
"""
test_source = """
valid_cases = ["foo 34"]
invalid_cases = ["foo bar"]
self.check_input_strings_for_grammar(valid_cases, invalid_cases)
"""
self.run_test(grammar_source, test_source)
def test_cut(self) -> None:
grammar_source = """
start: X ~ Y Z | X Q S
X: 'x'
Y: 'y'
Z: 'z'
Q: 'q'
S: 's'
"""
test_source = """
valid_cases = ["x y z"]
invalid_cases = ["x q s"]
self.check_input_strings_for_grammar(valid_cases, invalid_cases)
"""
self.run_test(grammar_source, test_source)
def test_gather(self) -> None:
grammar_source = """
start: ';'.pass_stmt+ NEWLINE
pass_stmt: 'pass'
"""
test_source = """
valid_cases = ["pass", "pass; pass"]
invalid_cases = ["pass;", "pass; pass;"]
self.check_input_strings_for_grammar(valid_cases, invalid_cases)
"""
self.run_test(grammar_source, test_source)
def test_left_recursion(self) -> None:
grammar_source = """
start: expr NEWLINE
expr: ('-' term | expr '+' term | term)
term: NUMBER
"""
test_source = """
valid_cases = ["-34", "34", "34 + 12", "1 + 1 + 2 + 3"]
self.check_input_strings_for_grammar(valid_cases)
"""
self.run_test(grammar_source, test_source)
def test_advanced_left_recursive(self) -> None:
grammar_source = """
start: NUMBER | sign start
sign: ['-']
"""
test_source = """
valid_cases = ["23", "-34"]
self.check_input_strings_for_grammar(valid_cases)
"""
self.run_test(grammar_source, test_source)
def test_mutually_left_recursive(self) -> None:
grammar_source = """
start: foo 'E'
foo: bar 'A' | 'B'
bar: foo 'C' | 'D'
"""
test_source = """
valid_cases = ["B E", "D A C A E"]
self.check_input_strings_for_grammar(valid_cases)
"""
self.run_test(grammar_source, test_source)
def test_nasty_mutually_left_recursive(self) -> None:
grammar_source = """
start: target '='
target: maybe '+' | NAME
maybe: maybe '-' | target
"""
test_source = """
valid_cases = ["x ="]
invalid_cases = ["x - + ="]
self.check_input_strings_for_grammar(valid_cases, invalid_cases)
"""
self.run_test(grammar_source, test_source)
def test_return_stmt_noexpr_action(self) -> None:
grammar_source = """
start[mod_ty]: a=[statements] ENDMARKER { Module(a, NULL, p->arena) }
statements[asdl_stmt_seq*]: a[asdl_stmt_seq*]=statement+ { a }
statement[stmt_ty]: simple_stmt
simple_stmt[stmt_ty]: small_stmt
small_stmt[stmt_ty]: return_stmt
return_stmt[stmt_ty]: a='return' NEWLINE { _Py_Return(NULL, EXTRA) }
"""
test_source = """
stmt = "return"
self.verify_ast_generation(stmt)
"""
self.run_test(grammar_source, test_source)
def test_gather_action_ast(self) -> None:
grammar_source = """
start[mod_ty]: a[asdl_stmt_seq*]=';'.pass_stmt+ NEWLINE ENDMARKER { Module(a, NULL, p->arena) }
pass_stmt[stmt_ty]: a='pass' { _Py_Pass(EXTRA)}
"""
test_source = """
stmt = "pass; pass"
self.verify_ast_generation(stmt)
"""
self.run_test(grammar_source, test_source)
def test_pass_stmt_action(self) -> None:
grammar_source = """
start[mod_ty]: a=[statements] ENDMARKER { Module(a, NULL, p->arena) }
statements[asdl_stmt_seq*]: a[asdl_stmt_seq*]=statement+ { a }
statement[stmt_ty]: simple_stmt
simple_stmt[stmt_ty]: small_stmt
small_stmt[stmt_ty]: pass_stmt
pass_stmt[stmt_ty]: a='pass' NEWLINE { _Py_Pass(EXTRA) }
"""
test_source = """
stmt = "pass"
self.verify_ast_generation(stmt)
"""
self.run_test(grammar_source, test_source)
def test_if_stmt_action(self) -> None:
grammar_source = """
start[mod_ty]: a=[statements] ENDMARKER { Module(a, NULL, p->arena) }
statements[asdl_stmt_seq*]: a=statement+ { (asdl_stmt_seq*)_PyPegen_seq_flatten(p, a) }
statement[asdl_stmt_seq*]: a=compound_stmt { (asdl_stmt_seq*)_PyPegen_singleton_seq(p, a) } | simple_stmt
simple_stmt[asdl_stmt_seq*]: a=small_stmt b=further_small_stmt* [';'] NEWLINE {
(asdl_stmt_seq*)_PyPegen_seq_insert_in_front(p, a, b) }
further_small_stmt[stmt_ty]: ';' a=small_stmt { a }
block: simple_stmt | NEWLINE INDENT a=statements DEDENT { a }
compound_stmt: if_stmt
if_stmt: 'if' a=full_expression ':' b=block { _Py_If(a, b, NULL, EXTRA) }
small_stmt[stmt_ty]: pass_stmt
pass_stmt[stmt_ty]: a='pass' { _Py_Pass(EXTRA) }
full_expression: NAME
"""
test_source = """
stmt = "pass"
self.verify_ast_generation(stmt)
"""
self.run_test(grammar_source, test_source)
def test_same_name_different_types(self) -> None:
grammar_source = """
start[mod_ty]: a[asdl_stmt_seq*]=import_from+ NEWLINE ENDMARKER { Module(a, NULL, p->arena)}
import_from[stmt_ty]: ( a='from' !'import' c=simple_name 'import' d=import_as_names_from {
_Py_ImportFrom(c->v.Name.id, d, 0, EXTRA) }
| a='from' '.' 'import' c=import_as_names_from {
_Py_ImportFrom(NULL, c, 1, EXTRA) }
)
simple_name[expr_ty]: NAME
import_as_names_from[asdl_alias_seq*]: a[asdl_alias_seq*]=','.import_as_name_from+ { a }
import_as_name_from[alias_ty]: a=NAME 'as' b=NAME { _Py_alias(((expr_ty) a)->v.Name.id, ((expr_ty) b)->v.Name.id, p->arena) }
"""
test_source = """
for stmt in ("from a import b as c", "from . import a as b"):
expected_ast = ast.parse(stmt)
actual_ast = parse.parse_string(stmt, mode=1)
self.assertEqual(ast_dump(expected_ast), ast_dump(actual_ast))
"""
self.run_test(grammar_source, test_source)
def test_with_stmt_with_paren(self) -> None:
grammar_source = """
start[mod_ty]: a=[statements] ENDMARKER { Module(a, NULL, p->arena) }
statements[asdl_stmt_seq*]: a=statement+ { (asdl_stmt_seq*)_PyPegen_seq_flatten(p, a) }
statement[asdl_stmt_seq*]: a=compound_stmt { (asdl_stmt_seq*)_PyPegen_singleton_seq(p, a) }
compound_stmt[stmt_ty]: with_stmt
with_stmt[stmt_ty]: (
a='with' '(' b[asdl_withitem_seq*]=','.with_item+ ')' ':' c=block {
_Py_With(b, (asdl_stmt_seq*) _PyPegen_singleton_seq(p, c), NULL, EXTRA) }
)
with_item[withitem_ty]: (
e=NAME o=['as' t=NAME { t }] { _Py_withitem(e, _PyPegen_set_expr_context(p, o, Store), p->arena) }
)
block[stmt_ty]: a=pass_stmt NEWLINE { a } | NEWLINE INDENT a=pass_stmt DEDENT { a }
pass_stmt[stmt_ty]: a='pass' { _Py_Pass(EXTRA) }
"""
test_source = """
stmt = "with (\\n a as b,\\n c as d\\n): pass"
the_ast = parse.parse_string(stmt, mode=1)
self.assertTrue(ast_dump(the_ast).startswith(
"Module(body=[With(items=[withitem(context_expr=Name(id='a', ctx=Load()), optional_vars=Name(id='b', ctx=Store())), "
"withitem(context_expr=Name(id='c', ctx=Load()), optional_vars=Name(id='d', ctx=Store()))]"
))
"""
self.run_test(grammar_source, test_source)
def test_ternary_operator(self) -> None:
grammar_source = """
start[mod_ty]: a=expr ENDMARKER { Module(a, NULL, p->arena) }
expr[asdl_stmt_seq*]: a=listcomp NEWLINE { (asdl_stmt_seq*)_PyPegen_singleton_seq(p, _Py_Expr(a, EXTRA)) }
listcomp[expr_ty]: (
a='[' b=NAME c=for_if_clauses d=']' { _Py_ListComp(b, c, EXTRA) }
)
for_if_clauses[asdl_comprehension_seq*]: (
a[asdl_comprehension_seq*]=(y=[ASYNC] 'for' a=NAME 'in' b=NAME c[asdl_expr_seq*]=('if' z=NAME { z })*
{ _Py_comprehension(_Py_Name(((expr_ty) a)->v.Name.id, Store, EXTRA), b, c, (y == NULL) ? 0 : 1, p->arena) })+ { a }
)
"""
test_source = """
stmt = "[i for i in a if b]"
self.verify_ast_generation(stmt)
"""
self.run_test(grammar_source, test_source)
def test_syntax_error_for_string(self) -> None:
grammar_source = """
start: expr+ NEWLINE? ENDMARKER
expr: NAME
"""
test_source = r"""
for text in ("a b 42 b a", "\u540d \u540d 42 \u540d \u540d"):
try:
parse.parse_string(text, mode=0)
except SyntaxError as e:
tb = traceback.format_exc()
self.assertTrue('File "<string>", line 1' in tb)
self.assertTrue(f"SyntaxError: invalid syntax" in tb)
"""
self.run_test(grammar_source, test_source)
def test_headers_and_trailer(self) -> None:
grammar_source = """
@header 'SOME HEADER'
@subheader 'SOME SUBHEADER'
@trailer 'SOME TRAILER'
start: expr+ NEWLINE? ENDMARKER
expr: x=NAME
"""
grammar = parse_string(grammar_source, GrammarParser)
parser_source = generate_c_parser_source(grammar)
self.assertTrue("SOME HEADER" in parser_source)
self.assertTrue("SOME SUBHEADER" in parser_source)
self.assertTrue("SOME TRAILER" in parser_source)
def test_error_in_rules(self) -> None:
grammar_source = """
start: expr+ NEWLINE? ENDMARKER
expr: NAME {PyTuple_New(-1)}
"""
# PyTuple_New raises SystemError if an invalid argument was passed.
test_source = """
with self.assertRaises(SystemError):
parse.parse_string("a", mode=0)
"""
self.run_test(grammar_source, test_source)
def test_no_soft_keywords(self) -> None:
grammar_source = """
start: expr+ NEWLINE? ENDMARKER
expr: 'foo'
"""
grammar = parse_string(grammar_source, GrammarParser)
parser_source = generate_c_parser_source(grammar)
assert "expect_soft_keyword" not in parser_source
def test_soft_keywords(self) -> None:
grammar_source = """
start: expr+ NEWLINE? ENDMARKER
expr: "foo"
"""
grammar = parse_string(grammar_source, GrammarParser)
parser_source = generate_c_parser_source(grammar)
assert "expect_soft_keyword" in parser_source
def test_soft_keywords_parse(self) -> None:
grammar_source = """
start: "if" expr '+' expr NEWLINE
expr: NAME
"""
test_source = """
valid_cases = ["if if + if"]
invalid_cases = ["if if"]
self.check_input_strings_for_grammar(valid_cases, invalid_cases)
"""
self.run_test(grammar_source, test_source)
def test_soft_keywords_lookahead(self) -> None:
grammar_source = """
start: &"if" "if" expr '+' expr NEWLINE
expr: NAME
"""
test_source = """
valid_cases = ["if if + if"]
invalid_cases = ["if if"]
self.check_input_strings_for_grammar(valid_cases, invalid_cases)
"""
self.run_test(grammar_source, test_source)