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python.gram
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python.gram
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# PEG grammar for Python
@class PythonParser
@subheader'''
import enum
import io
import itertools
import os
import sys
import token
from typing import (
Any, Callable, Iterator, List, Literal, Tuple, TypeVar, Union, NoReturn
)
from pegen.tokenizer import Tokenizer
# Singleton ast nodes, created once for efficiency
Load = ast.Load()
Store = ast.Store()
Del = ast.Del()
Node = TypeVar("Node")
FC = TypeVar("FC", ast.FunctionDef, ast.AsyncFunctionDef, ast.ClassDef)
EXPR_NAME_MAPPING = {
ast.Attribute: "attribute",
ast.Subscript: "subscript",
ast.Starred: "starred",
ast.Name: "name",
ast.List: "list",
ast.Tuple: "tuple",
ast.Lambda: "lambda",
ast.Call: "function call",
ast.BoolOp: "expression",
ast.BinOp: "expression",
ast.UnaryOp: "expression",
ast.GeneratorExp: "generator expression",
ast.Yield: "yield expression",
ast.YieldFrom: "yield expression",
ast.Await: "await expression",
ast.ListComp: "list comprehension",
ast.SetComp: "set comprehension",
ast.DictComp: "dict comprehension",
ast.Dict: "dict literal",
ast.Set: "set display",
ast.JoinedStr: "f-string expression",
ast.FormattedValue: "f-string expression",
ast.Compare: "comparison",
ast.IfExp: "conditional expression",
ast.NamedExpr: "named expression",
}
def parse_file(
path: str,
py_version: Optional[tuple]=None,
token_stream_factory: Optional[
Callable[[Callable[[], str]], Iterator[tokenize.TokenInfo]]
] = None,
verbose:bool = False,
) -> ast.Module:
"""Parse a file."""
with open(path) as f:
tok_stream = (
token_stream_factory(f.readline)
if token_stream_factory else
tokenize.generate_tokens(f.readline)
)
tokenizer = Tokenizer(tok_stream, verbose=verbose, path=path)
parser = PythonParser(
tokenizer,
verbose=verbose,
filename=os.path.basename(path),
py_version=py_version
)
return parser.parse("file")
def parse_string(
source: str,
mode: Union[Literal["eval"], Literal["exec"]],
py_version: Optional[tuple]=None,
token_stream_factory: Optional[
Callable[[Callable[[], str]], Iterator[tokenize.TokenInfo]]
] = None,
verbose:bool = False,
) -> Any:
"""Parse a string."""
tok_stream = (
token_stream_factory(io.StringIO(source).readline)
if token_stream_factory else
tokenize.generate_tokens(io.StringIO(source).readline)
)
tokenizer = Tokenizer(tok_stream, verbose=verbose)
parser = PythonParser(tokenizer, verbose=verbose, py_version=py_version)
return parser.parse(mode if mode == "eval" else "file")
class Target(enum.Enum):
FOR_TARGETS = enum.auto()
STAR_TARGETS = enum.auto()
DEL_TARGETS = enum.auto()
class Parser(Parser):
#: Name of the source file, used in error reports
filename : str
def __init__(self,
tokenizer: Tokenizer, *,
verbose: bool = False,
filename: str = "<unknown>",
py_version: Optional[tuple] = None,
) -> None:
super().__init__(tokenizer, verbose=verbose)
self.filename = filename
self.py_version = min(py_version, sys.version_info) if py_version else sys.version_info
def parse(self, rule: str, call_invalid_rules: bool = False) -> Optional[ast.AST]:
old = self.call_invalid_rules
self.call_invalid_rules = call_invalid_rules
res = getattr(self, rule)()
if res is None:
# Grab the last token that was parsed in the first run to avoid
# polluting a generic error reports with progress made by invalid rules.
last_token = self._tokenizer.diagnose()
if not call_invalid_rules:
self.call_invalid_rules = True
# Reset the parser cache to be able to restart parsing from the
# beginning.
self._reset(0) # type: ignore
self._cache.clear()
res = getattr(self, rule)()
self.raise_raw_syntax_error("invalid syntax", last_token.start, last_token.end)
return res
def check_version(self, min_version: Tuple[int, ...], error_msg: str, node: Node) -> Node:
"""Check that the python version is high enough for a rule to apply.
"""
if self.py_version >= min_version:
return node
else:
raise SyntaxError(
f"{error_msg} is only supported in Python {min_version} and above."
)
def raise_indentation_error(self, msg: str) -> None:
"""Raise an indentation error."""
last_token = self._tokenizer.diagnose()
args = (self.filename, last_token.start[0], last_token.start[1] + 1, last_token.line)
if sys.version_info >= (3, 10):
args += (last_token.end[0], last_token.end[1] + 1)
raise IndentationError(msg, args)
def get_expr_name(self, node) -> str:
"""Get a descriptive name for an expression."""
# See https://github.com/python/cpython/blob/master/Parser/pegen.c#L161
assert node is not None
node_t = type(node)
if node_t is ast.Constant:
v = node.value
if v is Ellipsis:
return "ellipsis"
elif v is None:
return str(v)
# Avoid treating 1 as True through == comparison
elif v is True:
return str(v)
elif v is False:
return str(v)
else:
return "literal"
try:
return EXPR_NAME_MAPPING[node_t]
except KeyError:
raise ValueError(
f"unexpected expression in assignment {type(node).__name__} "
f"(line {node.lineno})."
)
def get_invalid_target(self, target: Target, node: Optional[ast.AST]) -> Optional[ast.AST]:
"""Get the meaningful invalid target for different assignment type."""
if node is None:
return None
# We only need to visit List and Tuple nodes recursively as those
# are the only ones that can contain valid names in targets when
# they are parsed as expressions. Any other kind of expression
# that is a container (like Sets or Dicts) is directly invalid and
# we do not need to visit it recursively.
if isinstance(node, (ast.List, ast.Tuple)):
for e in node.elts:
if (inv := self.get_invalid_target(target, e)) is not None:
return inv
elif isinstance(node, ast.Starred):
if target is Target.DEL_TARGETS:
return node
return self.get_invalid_target(target, node.value)
elif isinstance(node, ast.Compare):
# This is needed, because the `a in b` in `for a in b` gets parsed
# as a comparison, and so we need to search the left side of the comparison
# for invalid targets.
if target is Target.FOR_TARGETS:
if isinstance(node.ops[0], ast.In):
return self.get_invalid_target(target, node.left)
return None
return node
elif isinstance(node, (ast.Name, ast.Subscript, ast.Attribute)):
return None
else:
return node
def set_expr_context(self, node, context):
"""Set the context (Load, Store, Del) of an ast node."""
node.ctx = context
return node
def ensure_real(self, number: ast.Constant):
value = ast.literal_eval(number.string)
if type(value) is complex:
self.raise_syntax_error_known_location("real number required in complex literal", number)
return value
def ensure_imaginary(self, number: ast.Constant):
value = ast.literal_eval(number.string)
if type(value) is not complex:
self.raise_syntax_error_known_location("imaginary number required in complex literal", number)
return value
def generate_ast_for_string(self, tokens):
"""Generate AST nodes for strings."""
err_args = None
line_offset = tokens[0].start[0]
line = line_offset
col_offset = 0
source = "(\\n"
for t in tokens:
n_line = t.start[0] - line
if n_line:
col_offset = 0
source += """\\n""" * n_line + ' ' * (t.start[1] - col_offset) + t.string
line, col_offset = t.end
source += "\\n)"
try:
m = ast.parse(source)
except SyntaxError as err:
args = (err.filename, err.lineno + line_offset - 2, err.offset, err.text)
if sys.version_info >= (3, 10):
args += (err.end_lineno + line_offset - 2, err.end_offset)
err_args = (err.msg, args)
# Ensure we do not keep the frame alive longer than necessary
# by explicitely deleting the error once we got what we needed out
# of it
del err
# Avoid getting a triple nesting in the error report that does not
# bring anything relevant to the traceback.
if err_args is not None:
raise SyntaxError(*err_args)
node = m.body[0].value
# Since we asked Python to parse an alterred source starting at line 2
# we alter the lineno of the returned AST to recover the right line.
# If the string start at line 1, tha AST says 2 so we need to decrement by 1
# hence the -2.
ast.increment_lineno(node, line_offset - 2)
return node
def extract_import_level(self, tokens: List[tokenize.TokenInfo]) -> int:
"""Extract the relative import level from the tokens preceding the module name.
'.' count for one and '...' for 3.
"""
level = 0
for t in tokens:
if t.string == ".":
level += 1
else:
level += 3
return level
def set_decorators(self,
target: FC,
decorators: list
) -> FC:
"""Set the decorators on a function or class definition."""
target.decorator_list = decorators
return target
def get_comparison_ops(self, pairs):
return [op for op, _ in pairs]
def get_comparators(self, pairs):
return [comp for _, comp in pairs]
def set_arg_type_comment(self, arg, type_comment):
if type_comment or sys.version_info < (3, 9):
arg.type_comment = type_comment
return arg
def make_arguments(self,
pos_only: Optional[List[Tuple[ast.arg, None]]],
pos_only_with_default: List[Tuple[ast.arg, Any]],
param_no_default: Optional[List[Tuple[ast.arg, None]]],
param_default: Optional[List[Tuple[ast.arg, Any]]],
after_star: Optional[Tuple[Optional[ast.arg], List[Tuple[ast.arg, Any]], Optional[ast.arg]]]
) -> ast.arguments:
"""Build a function definition arguments."""
defaults = (
[d for _, d in pos_only_with_default if d is not None]
if pos_only_with_default else
[]
)
defaults += (
[d for _, d in param_default if d is not None]
if param_default else
[]
)
pos_only = pos_only or pos_only_with_default
# Because we need to combine pos only with and without default even
# the version with no default is a tuple
pos_only = [p for p, _ in pos_only]
params = (param_no_default or []) + ([p for p, _ in param_default] if param_default else [])
# If after_star is None, make a default tuple
after_star = after_star or (None, [], None)
return ast.arguments(
posonlyargs=pos_only,
args=params,
defaults=defaults,
vararg=after_star[0],
kwonlyargs=[p for p, _ in after_star[1]],
kw_defaults=[d for _, d in after_star[1]],
kwarg=after_star[2]
)
def _build_syntax_error(
self,
message: str,
start: Optional[Tuple[int, int]] = None,
end: Optional[Tuple[int, int]] = None
) -> None:
line_from_token = start is None and end is None
if start is None or end is None:
tok = self._tokenizer.diagnose()
start = start or tok.start
end = end or tok.end
if line_from_token:
line = tok.line
else:
# End is used only to get the proper text
line = "\\n".join(
self._tokenizer.get_lines(list(range(start[0], end[0] + 1)))
)
# tokenize.py index column offset from 0 while Cpython index column
# offset at 1 when reporting SyntaxError, so we need to increment
# the column offset when reporting the error.
args = (self.filename, start[0], start[1] + 1, line)
if sys.version_info >= (3, 10):
args += (end[0], end[1] + 1)
return SyntaxError(message, args)
def raise_raw_syntax_error(
self,
message: str,
start: Optional[Tuple[int, int]] = None,
end: Optional[Tuple[int, int]] = None
) -> NoReturn:
raise self._build_syntax_error(message, start, end)
def make_syntax_error(self, message: str) -> None:
return self._build_syntax_error(message)
def expect_forced(self, res: Any, expectation: str) -> Optional[tokenize.TokenInfo]:
if res is None:
last_token = self._tokenizer.diagnose()
self.raise_raw_syntax_error(
f"expected {expectation}", last_token.start, last_token.start
)
return res
def raise_syntax_error(self, message: str) -> NoReturn:
"""Raise a syntax error."""
tok = self._tokenizer.diagnose()
raise self._build_syntax_error(message, tok.start, tok.end if tok.type != 4 else tok.start)
def raise_syntax_error_known_location(
self, message: str, node: Union[ast.AST, tokenize.TokenInfo]
) -> NoReturn:
"""Raise a syntax error that occured at a given AST node."""
if isinstance(node, tokenize.TokenInfo):
start = node.start
end = node.end
else:
start = node.lineno, node.col_offset
end = node.end_lineno, node.end_col_offset
raise self._build_syntax_error(message, start, end)
def raise_syntax_error_known_range(
self,
message: str,
start_node: Union[ast.AST, tokenize.TokenInfo],
end_node: Union[ast.AST, tokenize.TokenInfo]
) -> NoReturn:
if isinstance(start_node, tokenize.TokenInfo):
start = start_node.start
else:
start = start_node.lineno, start_node.col_offset
if isinstance(end_node, tokenize.TokenInfo):
end = end_node.end
else:
end = end_node.end_lineno, end_node.end_col_offset
raise self._build_syntax_error(message, start, end)
def raise_syntax_error_starting_from(
self,
message: str,
start_node: Union[ast.AST, tokenize.TokenInfo]
) -> NoReturn:
if isinstance(start_node, tokenize.TokenInfo):
start = start_node.start
else:
start = start_node.lineno, start_node.col_offset
last_token = self._tokenizer.diagnose()
raise self._build_syntax_error(message, start, last_token.start)
def raise_syntax_error_invalid_target(
self, target: Target, node: Optional[ast.AST]
) -> NoReturn:
invalid_target = self.get_invalid_target(target, node)
if invalid_target is None:
return None
if target in (Target.STAR_TARGETS, Target.FOR_TARGETS):
msg = f"cannot assign to {self.get_expr_name(invalid_target)}"
else:
msg = f"cannot delete {self.get_expr_name(invalid_target)}"
self.raise_syntax_error_known_location(msg, invalid_target)
'''
# STARTING RULES
# ==============
start: file
file[ast.Module]: a=[statements] ENDMARKER { ast.Module(body=a or [], type_ignores=[]) }
interactive[ast.Interactive]: a=statement_newline { ast.Interactive(body=a) }
eval[ast.Expression]: a=expressions NEWLINE* ENDMARKER { ast.Expression(body=a) }
func_type[ast.FunctionType]: '(' a=[type_expressions] ')' '->' b=expression NEWLINE* ENDMARKER { ast.FunctionType(argtypes=a, returns=b) }
fstring[ast.Expr]: star_expressions
# GENERAL STATEMENTS
# ==================
statements[list]: a=statement+ { list(itertools.chain.from_iterable(a)) }
statement[list]: a=compound_stmt { [a] } | a=simple_stmts { a }
statement_newline[list]:
| a=compound_stmt NEWLINE { [a] }
| simple_stmts
| NEWLINE { [ast.Pass(LOCATIONS)] }
| ENDMARKER { None }
simple_stmts[list]:
| a=simple_stmt !';' NEWLINE { [a] } # Not needed, there for speedup
| a=';'.simple_stmt+ [';'] NEWLINE { a }
# NOTE: assignment MUST precede expression, else parsing a simple assignment
# will throw a SyntaxError.
simple_stmt (memo):
| assignment
| e=star_expressions { ast.Expr(value=e, LOCATIONS) }
| &'return' return_stmt
| &('import' | 'from') import_stmt
| &'raise' raise_stmt
| 'pass' { ast.Pass(LOCATIONS) }
| &'del' del_stmt
| &'yield' yield_stmt
| &'assert' assert_stmt
| 'break' { ast.Break(LOCATIONS) }
| 'continue' { ast.Continue(LOCATIONS) }
| &'global' global_stmt
| &'nonlocal' nonlocal_stmt
compound_stmt:
| &('def' | '@' | 'async') function_def
| &'if' if_stmt
| &('class' | '@') class_def
| &('with' | 'async') with_stmt
| &('for' | 'async') for_stmt
| &'try' try_stmt
| &'while' while_stmt
| match_stmt
# SIMPLE STATEMENTS
# =================
# NOTE: annotated_rhs may start with 'yield'; yield_expr must start with 'yield'
assignment:
| a=NAME ':' b=expression c=['=' d=annotated_rhs { d }] {
self.check_version(
(3, 6),
"Variable annotation syntax is",
ast.AnnAssign(
target=ast.Name(
id=a.string,
ctx=Store,
lineno=a.start[0],
col_offset=a.start[1],
end_lineno=a.end[0],
end_col_offset=a.end[1],
),
annotation=b,
value=c,
simple=1,
LOCATIONS,
)
) }
| a=('(' b=single_target ')' { b }
| single_subscript_attribute_target) ':' b=expression c=['=' d=annotated_rhs { d }] {
self.check_version(
(3, 6),
"Variable annotation syntax is",
ast.AnnAssign(
target=a,
annotation=b,
value=c,
simple=0,
LOCATIONS,
)
)
}
| a=(z=star_targets '=' { z })+ b=(yield_expr | star_expressions) !'=' tc=[TYPE_COMMENT] {
ast.Assign(targets=a, value=b, type_comment=tc, LOCATIONS)
}
| a=single_target b=augassign ~ c=(yield_expr | star_expressions) {
ast.AugAssign(target = a, op=b, value=c, LOCATIONS)
}
| invalid_assignment
annotated_rhs: yield_expr | star_expressions
augassign:
| '+=' { ast.Add() }
| '-=' { ast.Sub() }
| '*=' { ast.Mult() }
| '@=' { self.check_version((3, 5), "The '@' operator is", ast.MatMult()) }
| '/=' { ast.Div() }
| '%=' { ast.Mod() }
| '&=' { ast.BitAnd() }
| '|=' { ast.BitOr() }
| '^=' { ast.BitXor() }
| '<<=' { ast.LShift() }
| '>>=' { ast.RShift() }
| '**=' { ast.Pow() }
| '//=' { ast.FloorDiv() }
return_stmt[ast.Return]:
| 'return' a=[star_expressions] { ast.Return(value=a, LOCATIONS) }
raise_stmt[ast.Raise]:
| 'raise' a=expression b=['from' z=expression { z }] { ast.Raise(exc=a, cause=b, LOCATIONS) }
| 'raise' { ast.Raise(exc=None, cause=None, LOCATIONS) }
global_stmt[ast.Global]: 'global' a=','.NAME+ {
ast.Global(names=[n.string for n in a], LOCATIONS)
}
nonlocal_stmt[ast.Nonlocal]: 'nonlocal' a=','.NAME+ {
ast.Nonlocal(names=[n.string for n in a], LOCATIONS)
}
del_stmt[ast.Delete]:
| 'del' a=del_targets &(';' | NEWLINE) { ast.Delete(targets=a, LOCATIONS) }
| invalid_del_stmt
yield_stmt[ast.Expr]: y=yield_expr { ast.Expr(value=y, LOCATIONS) }
assert_stmt[ast.Assert]: 'assert' a=expression b=[',' z=expression { z }] {
ast.Assert(test=a, msg=b, LOCATIONS)
}
import_stmt[ast.Import]: import_name | import_from
# Import statements
# -----------------
import_name[ast.Import]: 'import' a=dotted_as_names { ast.Import(names=a, LOCATIONS) }
# note below: the ('.' | '...') is necessary because '...' is tokenized as ELLIPSIS
import_from[ast.ImportFrom]:
| 'from' a=('.' | '...')* b=dotted_name 'import' c=import_from_targets {
ast.ImportFrom(module=b, names=c, level=self.extract_import_level(a), LOCATIONS)
}
| 'from' a=('.' | '...')+ 'import' b=import_from_targets {
ast.ImportFrom(names=b, level=self.extract_import_level(a), LOCATIONS)
if sys.version_info >= (3, 9) else
ast.ImportFrom(module=None, names=b, level=self.extract_import_level(a), LOCATIONS)
}
import_from_targets[List[ast.alias]]:
| '(' a=import_from_as_names [','] ')' { a }
| import_from_as_names !','
| '*' { [ast.alias(name="*", asname=None, LOCATIONS)] }
| invalid_import_from_targets
import_from_as_names[List[ast.alias]]:
| a=','.import_from_as_name+ { a }
import_from_as_name[ast.alias]:
| a=NAME b=['as' z=NAME { z.string }] { ast.alias(name=a.string, asname=b, LOCATIONS) }
dotted_as_names[List[ast.alias]]:
| a=','.dotted_as_name+ { a }
dotted_as_name[ast.alias]:
| a=dotted_name b=['as' z=NAME { z.string }] { ast.alias(name=a, asname=b, LOCATIONS) }
dotted_name[str]:
| a=dotted_name '.' b=NAME { a + "." + b.string }
| a=NAME { a.string }
# COMPOUND STATEMENTS
# ===================
# Common elements
# ---------------
block[list] (memo):
| NEWLINE INDENT a=statements DEDENT { a }
| simple_stmts
| invalid_block
decorators: decorator+
decorator:
| a=('@' f=dec_maybe_call NEWLINE { f }) { a }
| a=('@' f=named_expression NEWLINE { f }) {
self.check_version((3, 9), "Generic decorator are", a)
}
dec_maybe_call:
| dn=dec_primary '(' z=[arguments] ')' {
ast.Call(func=dn, args=z[0] if z else [], keywords=z[1] if z else [], LOCATIONS)
}
| dec_primary
dec_primary:
| a=dec_primary '.' b=NAME { ast.Attribute(value=a, attr=b.string, ctx=Load, LOCATIONS) }
| a=NAME { ast.Name(id=a.string, ctx=Load, LOCATIONS) }
# Class definitions
# -----------------
class_def[ast.ClassDef]:
| a=decorators b=class_def_raw { self.set_decorators(b, a) }
| class_def_raw
class_def_raw[ast.ClassDef]:
| invalid_class_def_raw
| 'class' a=NAME b=['(' z=[arguments] ')' { z }] &&':' c=block {
ast.ClassDef(
a.string,
bases=b[0] if b else [],
keywords=b[1] if b else [],
body=c,
decorator_list=[],
LOCATIONS,
)
}
# Function definitions
# --------------------
function_def[Union[ast.FunctionDef, ast.AsyncFunctionDef]]:
| d=decorators f=function_def_raw { self.set_decorators(f, d) }
| f=function_def_raw {self.set_decorators(f, [])}
function_def_raw[Union[ast.FunctionDef, ast.AsyncFunctionDef]]:
| invalid_def_raw
| 'def' n=NAME &&'(' params=[params] ')' a=['->' z=expression { z }] &&':' tc=[func_type_comment] b=block {
ast.FunctionDef(
name=n.string,
args=params or self.make_arguments(None, [], None, [], None),
returns=a,
body=b,
type_comment=tc,
LOCATIONS,
)
}
| 'async' 'def' n=NAME &&'(' params=[params] ')' a=['->' z=expression { z }] &&':' tc=[func_type_comment] b=block {
self.check_version(
(3, 5),
"Async functions are",
ast.AsyncFunctionDef(
name=n.string,
args=params or self.make_arguments(None, [], None, [], None),
returns=a,
body=b,
type_comment=tc,
LOCATIONS,
)
)
}
# Function parameters
# -------------------
params:
| invalid_parameters
| parameters
parameters[ast.arguments]:
| a=slash_no_default b=param_no_default* c=param_with_default* d=[star_etc] {
self.check_version(
(3, 8), "Positional only arguments are", self.make_arguments(a, [], b, c, d)
)
}
| a=slash_with_default b=param_with_default* c=[star_etc] {
self.check_version(
(3, 8),
"Positional only arguments are",
self.make_arguments(None, a, None, b, c),
)
}
| a=param_no_default+ b=param_with_default* c=[star_etc] {
self.make_arguments(None, [], a, b, c)
}
| a=param_with_default+ b=[star_etc] {
self.make_arguments(None, [], None, a, b)
}
| a=star_etc { self.make_arguments(None, [], None, None, a) }
# Some duplication here because we can't write (',' | &')'),
# which is because we don't support empty alternatives (yet).
#
slash_no_default[List[Tuple[ast.arg, None]]]:
| a=param_no_default+ '/' ',' { [(p, None) for p in a] }
| a=param_no_default+ '/' &')' { [(p, None) for p in a] }
slash_with_default[List[Tuple[ast.arg, Any]]]:
| a=param_no_default* b=param_with_default+ '/' ',' { ([(p, None) for p in a] if a else []) + b }
| a=param_no_default* b=param_with_default+ '/' &')' { ([(p, None) for p in a] if a else []) + b }
star_etc[Tuple[Optional[ast.arg], List[Tuple[ast.arg, Any]], Optional[ast.arg]]]:
| invalid_star_etc
| '*' a=param_no_default b=param_maybe_default* c=[kwds] { (a, b, c) }
| '*' ',' b=param_maybe_default+ c=[kwds] { (None, b, c) }
| a=kwds { (None, [], a) }
kwds[ast.arg]:
| invalid_kwds
| '**' a=param_no_default { a }
# One parameter. This *includes* a following comma and type comment.
#
# There are three styles:
# - No default
# - With default
# - Maybe with default
#
# There are two alternative forms of each, to deal with type comments:
# - Ends in a comma followed by an optional type comment
# - No comma, optional type comment, must be followed by close paren
# The latter form is for a final parameter without trailing comma.
#
param_no_default[ast.arg]:
| a=param ',' tc=TYPE_COMMENT? { self.set_arg_type_comment(a, tc) }
| a=param tc=TYPE_COMMENT? &')' { self.set_arg_type_comment(a, tc) }
param_with_default[Tuple[ast.arg, Any]]:
| a=param c=default ',' tc=TYPE_COMMENT? { (self.set_arg_type_comment(a, tc), c) }
| a=param c=default tc=TYPE_COMMENT? &')' { (self.set_arg_type_comment(a, tc), c) }
param_maybe_default[Tuple[ast.arg, Any]]:
| a=param c=default? ',' tc=TYPE_COMMENT? { (self.set_arg_type_comment(a, tc), c) }
| a=param c=default? tc=TYPE_COMMENT? &')' { (self.set_arg_type_comment(a, tc), c) }
param: a=NAME b=annotation? { ast.arg(arg=a.string, annotation=b, LOCATIONS) }
annotation: ':' a=expression { a }
default: '=' a=expression { a } | invalid_default
# If statement
# ------------
if_stmt[ast.If]:
| invalid_if_stmt
| 'if' a=named_expression ':' b=block c=elif_stmt { ast.If(test=a, body=b, orelse=c or [], LOCATIONS) }
| 'if' a=named_expression ':' b=block c=[else_block] { ast.If(test=a, body=b, orelse=c or [], LOCATIONS) }
elif_stmt[List[ast.If]]:
| invalid_elif_stmt
| 'elif' a=named_expression ':' b=block c=elif_stmt { [ast.If(test=a, body=b, orelse=c, LOCATIONS)] }
| 'elif' a=named_expression ':' b=block c=[else_block] { [ast.If(test=a, body=b, orelse=c or [], LOCATIONS)] }
else_block[list]:
| invalid_else_stmt
| 'else' &&':' b=block { b }
# While statement
# ---------------
while_stmt[ast.While]:
| invalid_while_stmt
| 'while' a=named_expression ':' b=block c=[else_block] {
ast.While(test=a, body=b, orelse=c or [], LOCATIONS)
}
# For statement
# -------------
for_stmt[Union[ast.For, ast.AsyncFor]]:
| invalid_for_stmt
| 'for' t=star_targets 'in' ~ ex=star_expressions &&':' tc=[TYPE_COMMENT] b=block el=[else_block] {
ast.For(target=t, iter=ex, body=b, orelse=el or [], type_comment=tc, LOCATIONS) }
| 'async' 'for' t=star_targets 'in' ~ ex=star_expressions ':' tc=[TYPE_COMMENT] b=block el=[else_block] {
self.check_version(
(3, 5),
"Async for loops are",
ast.AsyncFor(target=t, iter=ex, body=b, orelse=el or [], type_comment=tc, LOCATIONS)) }
| invalid_for_target
# With statement
# --------------
with_stmt[Union[ast.With, ast.AsyncWith]]:
| invalid_with_stmt_indent
| 'with' '(' a=','.with_item+ ','? ')' ':' b=block {
self.check_version(
(3, 9),
"Parenthesized with items",
ast.With(items=a, body=b, LOCATIONS)
)
}
| 'with' a=','.with_item+ ':' tc=[TYPE_COMMENT] b=block {
ast.With(items=a, body=b, type_comment=tc, LOCATIONS)
}
| 'async' 'with' '(' a=','.with_item+ ','? ')' ':' b=block {
self.check_version(
(3, 9),
"Parenthesized with items",
ast.AsyncWith(items=a, body=b, LOCATIONS)
)
}
| 'async' 'with' a=','.with_item+ ':' tc=[TYPE_COMMENT] b=block {
self.check_version(
(3, 5),
"Async with statements are",
ast.AsyncWith(items=a, body=b, type_comment=tc, LOCATIONS)
)
}
| invalid_with_stmt
with_item[ast.withitem]:
| e=expression 'as' t=star_target &(',' | ')' | ':') {
ast.withitem(context_expr=e, optional_vars=t)
}
| invalid_with_item
| e=expression { ast.withitem(context_expr=e, optional_vars=None) }
# Try statement
# -------------
try_stmt[ast.Try]:
| invalid_try_stmt
| 'try' &&':' b=block f=finally_block {
ast.Try(body=b, handlers=[], orelse=[], finalbody=f, LOCATIONS)
}
| 'try' &&':' b=block ex=except_block+ el=[else_block] f=[finally_block] {
ast.Try(body=b, handlers=ex, orelse=el or [], finalbody=f or [], LOCATIONS)
}
# Except statement
# ----------------
except_block[ast.ExceptHandler]:
| invalid_except_stmt_indent
| 'except' e=expression t=['as' z=NAME { z.string }] ':' b=block {
ast.ExceptHandler(type=e, name=t, body=b, LOCATIONS) }
| 'except' ':' b=block { ast.ExceptHandler(type=None, name=None, body=b, LOCATIONS) }
| invalid_except_stmt
finally_block[list]:
| invalid_finally_stmt
| 'finally' &&':' a=block { a }
# Match statement
# ---------------
# We cannot do version checks here since the production will occur after any other
# production which will have failed since the ast module does not have the right nodes.
match_stmt["ast.Match"]:
| "match" subject=subject_expr ':' NEWLINE INDENT cases=case_block+ DEDENT {
ast.Match(subject=subject, cases=cases, LOCATIONS)
}
| invalid_match_stmt
# Version checking here allows to avoid tracking down every single possible production
subject_expr:
| value=star_named_expression ',' values=star_named_expressions? {
self.check_version(
(3, 10),
"Pattern matching is",
ast.Tuple(elts=[value] + (values or []), ctx=Load, LOCATIONS)
)
}
| e=named_expression { self.check_version((3, 10), "Pattern matching is", e)}
case_block["ast.match_case"]:
| invalid_case_block
| "case" pattern=patterns guard=guard? ':' body=block {
ast.match_case(pattern=pattern, guard=guard, body=body)
}
guard: 'if' guard=named_expression { guard }
patterns:
| patterns=open_sequence_pattern {
ast.MatchSequence(patterns=patterns, LOCATIONS)
}
| pattern
pattern:
| as_pattern
| or_pattern
as_pattern["ast.MatchAs"]:
| pattern=or_pattern 'as' target=pattern_capture_target {
ast.MatchAs(pattern=pattern, name=target, LOCATIONS)
}
| invalid_as_pattern
or_pattern["ast.MatchOr"]:
| patterns='|'.closed_pattern+ {
ast.MatchOr(patterns=patterns, LOCATIONS) if len(patterns) > 1 else patterns[0]
}
closed_pattern:
| literal_pattern
| capture_pattern
| wildcard_pattern
| value_pattern
| group_pattern
| sequence_pattern
| mapping_pattern
| class_pattern
# Literal patterns are used for equality and identity constraints
literal_pattern:
| value=signed_number !('+' | '-') { ast.MatchValue(value=value, LOCATIONS) }
| value=complex_number { ast.MatchValue(value=value, LOCATIONS) }
| value=strings { ast.MatchValue(value=value, LOCATIONS) }
| 'None' { ast.MatchSingleton(value=None, LOCATIONS) }
| 'True' { ast.MatchSingleton(value=True, LOCATIONS) }
| 'False' { ast.MatchSingleton(value=False, LOCATIONS) }
# Literal expressions are used to restrict permitted mapping pattern keys
literal_expr:
| signed_number !('+' | '-')
| complex_number
| strings
| 'None' { ast.Constant(value=None, LOCATIONS) }
| 'True' { ast.Constant(value=True, LOCATIONS) }
| 'False' { ast.Constant(value=False, LOCATIONS) }
complex_number:
| real=signed_real_number '+' imag=imaginary_number {
ast.BinOp(left=real, op=ast.Add(), right=imag, LOCATIONS)
}
| real=signed_real_number '-' imag=imaginary_number {
ast.BinOp(left=real, op=ast.Sub(), right=imag, LOCATIONS)
}
signed_number:
| a=NUMBER { ast.Constant(value=ast.literal_eval(a.string), LOCATIONS) }
| '-' a=NUMBER {
ast.UnaryOp(
op=ast.USub(),
operand=ast.Constant(
value=ast.literal_eval(a.string),
lineno=a.start[0],
col_offset=a.start[1],
end_lineno=a.end[0],
end_col_offset=a.end[1]
),