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guess-the-function / venv /lib /python3.11 /site-packages /blib2to3 /pgen2 /tokenize.py
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 # Copyright (c) 2001, 2002, 2003, 2004, 2005, 2006 Python Software Foundation.
# All rights reserved.
# mypy: allow-untyped-defs, allow-untyped-calls
"""Tokenization help for Python programs.
generate_tokens(readline) is a generator that breaks a stream of
text into Python tokens. It accepts a readline-like method which is called
repeatedly to get the next line of input (or "" for EOF). It generates
5-tuples with these members:
the token type (see token.py)
the token (a string)
the starting (row, column) indices of the token (a 2-tuple of ints)
the ending (row, column) indices of the token (a 2-tuple of ints)
the original line (string)
It is designed to match the working of the Python tokenizer exactly, except
that it produces COMMENT tokens for comments and gives type OP for all
operators
Older entry points
tokenize_loop(readline, tokeneater)
tokenize(readline, tokeneater=printtoken)
are the same, except instead of generating tokens, tokeneater is a callback
function to which the 5 fields described above are passed as 5 arguments,
each time a new token is found."""
import sys
from typing import (
Callable,
Iterable,
Iterator,
List,
Optional,
Set,
Tuple,
Pattern,
Union,
cast,
)
from typing import Final
from blib2to3.pgen2.token import *
from blib2to3.pgen2.grammar import Grammar
__author__ = "Ka-Ping Yee <ping@lfw.org>"
__credits__ = "GvR, ESR, Tim Peters, Thomas Wouters, Fred Drake, Skip Montanaro"
import re
from codecs import BOM_UTF8, lookup
from blib2to3.pgen2.token import *
from . import token
__all__ = [x for x in dir(token) if x[0] != "_"] + [
"tokenize",
"generate_tokens",
"untokenize",
]
del token
def group(*choices: str) -> str:
return "(" + "|".join(choices) + ")"
def any(*choices: str) -> str:
return group(*choices) + "*"
def maybe(*choices: str) -> str:
return group(*choices) + "?"
def _combinations(*l: str) -> Set[str]:
return {x + y for x in l for y in l + ("",) if x.casefold() != y.casefold()}
Whitespace = r"[ \f\t]*"
Comment = r"#[^\r\n]*"
Ignore = Whitespace + any(r"\\\r?\n" + Whitespace) + maybe(Comment)
Name = ( # this is invalid but it's fine because Name comes after Number in all groups
r"[^\s#\(\)\[\]\{\}+\-*/!@$%^&=|;:'\",\.<>/?`~\\]+"
)
Binnumber = r"0[bB]_?[01]+(?:_[01]+)*"
Hexnumber = r"0[xX]_?[\da-fA-F]+(?:_[\da-fA-F]+)*[lL]?"
Octnumber = r"0[oO]?_?[0-7]+(?:_[0-7]+)*[lL]?"
Decnumber = group(r"[1-9]\d*(?:_\d+)*[lL]?", "0[lL]?")
Intnumber = group(Binnumber, Hexnumber, Octnumber, Decnumber)
Exponent = r"[eE][-+]?\d+(?:_\d+)*"
Pointfloat = group(r"\d+(?:_\d+)*\.(?:\d+(?:_\d+)*)?", r"\.\d+(?:_\d+)*") + maybe(
Exponent
)
Expfloat = r"\d+(?:_\d+)*" + Exponent
Floatnumber = group(Pointfloat, Expfloat)
Imagnumber = group(r"\d+(?:_\d+)*[jJ]", Floatnumber + r"[jJ]")
Number = group(Imagnumber, Floatnumber, Intnumber)
# Tail end of ' string.
Single = r"[^'\\]*(?:\\.[^'\\]*)*'"
# Tail end of " string.
Double = r'[^"\\]*(?:\\.[^"\\]*)*"'
# Tail end of ''' string.
Single3 = r"[^'\\]*(?:(?:\\.|'(?!''))[^'\\]*)*'''"
# Tail end of """ string.
Double3 = r'[^"\\]*(?:(?:\\.|"(?!""))[^"\\]*)*"""'
_litprefix = r"(?:[uUrRbBfF]|[rR][fFbB]|[fFbBuU][rR])?"
Triple = group(_litprefix + "'''", _litprefix + '"""')
# Single-line ' or " string.
String = group(
_litprefix + r"'[^\n'\\]*(?:\\.[^\n'\\]*)*'",
_litprefix + r'"[^\n"\\]*(?:\\.[^\n"\\]*)*"',
)
# Because of leftmost-then-longest match semantics, be sure to put the
# longest operators first (e.g., if = came before ==, == would get
# recognized as two instances of =).
Operator = group(
r"\*\*=?",
r">>=?",
r"<<=?",
r"<>",
r"!=",
r"//=?",
r"->",
r"[+\-*/%&@|^=<>:]=?",
r"~",
)
Bracket = "[][(){}]"
Special = group(r"\r?\n", r"[:;.,`@]")
Funny = group(Operator, Bracket, Special)
# First (or only) line of ' or " string.
ContStr = group(
_litprefix + r"'[^\n'\\]*(?:\\.[^\n'\\]*)*" + group("'", r"\\\r?\n"),
_litprefix + r'"[^\n"\\]*(?:\\.[^\n"\\]*)*' + group('"', r"\\\r?\n"),
)
PseudoExtras = group(r"\\\r?\n", Comment, Triple)
PseudoToken = Whitespace + group(PseudoExtras, Number, Funny, ContStr, Name)
pseudoprog: Final = re.compile(PseudoToken, re.UNICODE)
single3prog = re.compile(Single3)
double3prog = re.compile(Double3)
_strprefixes = (
_combinations("r", "R", "f", "F")
| _combinations("r", "R", "b", "B")
| {"u", "U", "ur", "uR", "Ur", "UR"}
)
endprogs: Final = {
"'": re.compile(Single),
'"': re.compile(Double),
"'''": single3prog,
'"""': double3prog,
**{f"{prefix}'''": single3prog for prefix in _strprefixes},
**{f'{prefix}"""': double3prog for prefix in _strprefixes},
}
triple_quoted: Final = (
{"'''", '"""'}
| {f"{prefix}'''" for prefix in _strprefixes}
| {f'{prefix}"""' for prefix in _strprefixes}
)
single_quoted: Final = (
{"'", '"'}
| {f"{prefix}'" for prefix in _strprefixes}
| {f'{prefix}"' for prefix in _strprefixes}
)
tabsize = 8
class TokenError(Exception):
pass
class StopTokenizing(Exception):
pass
Coord = Tuple[int, int]
def printtoken(
type: int, token: str, srow_col: Coord, erow_col: Coord, line: str
) -> None: # for testing
(srow, scol) = srow_col
(erow, ecol) = erow_col
print(
"%d,%d-%d,%d:\t%s\t%s" % (srow, scol, erow, ecol, tok_name[type], repr(token))
)
TokenEater = Callable[[int, str, Coord, Coord, str], None]
def tokenize(readline: Callable[[], str], tokeneater: TokenEater = printtoken) -> None:
"""
The tokenize() function accepts two parameters: one representing the
input stream, and one providing an output mechanism for tokenize().
The first parameter, readline, must be a callable object which provides
the same interface as the readline() method of built-in file objects.
Each call to the function should return one line of input as a string.
The second parameter, tokeneater, must also be a callable object. It is
called once for each token, with five arguments, corresponding to the
tuples generated by generate_tokens().
"""
try:
tokenize_loop(readline, tokeneater)
except StopTokenizing:
pass
# backwards compatible interface
def tokenize_loop(readline: Callable[[], str], tokeneater: TokenEater) -> None:
for token_info in generate_tokens(readline):
tokeneater(*token_info)
GoodTokenInfo = Tuple[int, str, Coord, Coord, str]
TokenInfo = Union[Tuple[int, str], GoodTokenInfo]
class Untokenizer:
tokens: List[str]
prev_row: int
prev_col: int
def __init__(self) -> None:
self.tokens = []
self.prev_row = 1
self.prev_col = 0
def add_whitespace(self, start: Coord) -> None:
row, col = start
assert row <= self.prev_row
col_offset = col - self.prev_col
if col_offset:
self.tokens.append(" " * col_offset)
def untokenize(self, iterable: Iterable[TokenInfo]) -> str:
for t in iterable:
if len(t) == 2:
self.compat(cast(Tuple[int, str], t), iterable)
break
tok_type, token, start, end, line = cast(
Tuple[int, str, Coord, Coord, str], t
)
self.add_whitespace(start)
self.tokens.append(token)
self.prev_row, self.prev_col = end
if tok_type in (NEWLINE, NL):
self.prev_row += 1
self.prev_col = 0
return "".join(self.tokens)
def compat(self, token: Tuple[int, str], iterable: Iterable[TokenInfo]) -> None:
startline = False
indents = []
toks_append = self.tokens.append
toknum, tokval = token
if toknum in (NAME, NUMBER):
tokval += " "
if toknum in (NEWLINE, NL):
startline = True
for tok in iterable:
toknum, tokval = tok[:2]
if toknum in (NAME, NUMBER, ASYNC, AWAIT):
tokval += " "
if toknum == INDENT:
indents.append(tokval)
continue
elif toknum == DEDENT:
indents.pop()
continue
elif toknum in (NEWLINE, NL):
startline = True
elif startline and indents:
toks_append(indents[-1])
startline = False
toks_append(tokval)
cookie_re = re.compile(r"^[ \t\f]*#.*?coding[:=][ \t]*([-\w.]+)", re.ASCII)
blank_re = re.compile(rb"^[ \t\f]*(?:[#\r\n]|$)", re.ASCII)
def _get_normal_name(orig_enc: str) -> str:
"""Imitates get_normal_name in tokenizer.c."""
# Only care about the first 12 characters.
enc = orig_enc[:12].lower().replace("_", "-")
if enc == "utf-8" or enc.startswith("utf-8-"):
return "utf-8"
if enc in ("latin-1", "iso-8859-1", "iso-latin-1") or enc.startswith(
("latin-1-", "iso-8859-1-", "iso-latin-1-")
):
return "iso-8859-1"
return orig_enc
def detect_encoding(readline: Callable[[], bytes]) -> Tuple[str, List[bytes]]:
"""
The detect_encoding() function is used to detect the encoding that should
be used to decode a Python source file. It requires one argument, readline,
in the same way as the tokenize() generator.
It will call readline a maximum of twice, and return the encoding used
(as a string) and a list of any lines (left as bytes) it has read
in.
It detects the encoding from the presence of a utf-8 bom or an encoding
cookie as specified in pep-0263. If both a bom and a cookie are present, but
disagree, a SyntaxError will be raised. If the encoding cookie is an invalid
charset, raise a SyntaxError. Note that if a utf-8 bom is found,
'utf-8-sig' is returned.
If no encoding is specified, then the default of 'utf-8' will be returned.
"""
bom_found = False
encoding = None
default = "utf-8"
def read_or_stop() -> bytes:
try:
return readline()
except StopIteration:
return b""
def find_cookie(line: bytes) -> Optional[str]:
try:
line_string = line.decode("ascii")
except UnicodeDecodeError:
return None
match = cookie_re.match(line_string)
if not match:
return None
encoding = _get_normal_name(match.group(1))
try:
codec = lookup(encoding)
except LookupError:
# This behaviour mimics the Python interpreter
raise SyntaxError("unknown encoding: " + encoding)
if bom_found:
if codec.name != "utf-8":
# This behaviour mimics the Python interpreter
raise SyntaxError("encoding problem: utf-8")
encoding += "-sig"
return encoding
first = read_or_stop()
if first.startswith(BOM_UTF8):
bom_found = True
first = first[3:]
default = "utf-8-sig"
if not first:
return default, []
encoding = find_cookie(first)
if encoding:
return encoding, [first]
if not blank_re.match(first):
return default, [first]
second = read_or_stop()
if not second:
return default, [first]
encoding = find_cookie(second)
if encoding:
return encoding, [first, second]
return default, [first, second]
def untokenize(iterable: Iterable[TokenInfo]) -> str:
"""Transform tokens back into Python source code.
Each element returned by the iterable must be a token sequence
with at least two elements, a token number and token value. If
only two tokens are passed, the resulting output is poor.
Round-trip invariant for full input:
Untokenized source will match input source exactly
Round-trip invariant for limited input:
# Output text will tokenize the back to the input
t1 = [tok[:2] for tok in generate_tokens(f.readline)]
newcode = untokenize(t1)
readline = iter(newcode.splitlines(1)).next
t2 = [tok[:2] for tokin generate_tokens(readline)]
assert t1 == t2
"""
ut = Untokenizer()
return ut.untokenize(iterable)
def generate_tokens(
readline: Callable[[], str], grammar: Optional[Grammar] = None
) -> Iterator[GoodTokenInfo]:
"""
The generate_tokens() generator requires one argument, readline, which
must be a callable object which provides the same interface as the
readline() method of built-in file objects. Each call to the function
should return one line of input as a string. Alternately, readline
can be a callable function terminating with StopIteration:
readline = open(myfile).next # Example of alternate readline
The generator produces 5-tuples with these members: the token type; the
token string; a 2-tuple (srow, scol) of ints specifying the row and
column where the token begins in the source; a 2-tuple (erow, ecol) of
ints specifying the row and column where the token ends in the source;
and the line on which the token was found. The line passed is the
logical line; continuation lines are included.
"""
lnum = parenlev = continued = 0
numchars: Final[str] = "0123456789"
contstr, needcont = "", 0
contline: Optional[str] = None
indents = [0]
# If we know we're parsing 3.7+, we can unconditionally parse `async` and
# `await` as keywords.
async_keywords = False if grammar is None else grammar.async_keywords
# 'stashed' and 'async_*' are used for async/await parsing
stashed: Optional[GoodTokenInfo] = None
async_def = False
async_def_indent = 0
async_def_nl = False
strstart: Tuple[int, int]
endprog: Pattern[str]
while 1: # loop over lines in stream
try:
line = readline()
except StopIteration:
line = ""
lnum += 1
pos, max = 0, len(line)
if contstr: # continued string
assert contline is not None
if not line:
raise TokenError("EOF in multi-line string", strstart)
endmatch = endprog.match(line)
if endmatch:
pos = end = endmatch.end(0)
yield (
STRING,
contstr + line[:end],
strstart,
(lnum, end),
contline + line,
)
contstr, needcont = "", 0
contline = None
elif needcont and line[-2:] != "\\\n" and line[-3:] != "\\\r\n":
yield (
ERRORTOKEN,
contstr + line,
strstart,
(lnum, len(line)),
contline,
)
contstr = ""
contline = None
continue
else:
contstr = contstr + line
contline = contline + line
continue
elif parenlev == 0 and not continued: # new statement
if not line:
break
column = 0
while pos < max: # measure leading whitespace
if line[pos] == " ":
column += 1
elif line[pos] == "\t":
column = (column // tabsize + 1) * tabsize
elif line[pos] == "\f":
column = 0
else:
break
pos += 1
if pos == max:
break
if stashed:
yield stashed
stashed = None
if line[pos] in "\r\n": # skip blank lines
yield (NL, line[pos:], (lnum, pos), (lnum, len(line)), line)
continue
if line[pos] == "#": # skip comments
comment_token = line[pos:].rstrip("\r\n")
nl_pos = pos + len(comment_token)
yield (
COMMENT,
comment_token,
(lnum, pos),
(lnum, nl_pos),
line,
)
yield (NL, line[nl_pos:], (lnum, nl_pos), (lnum, len(line)), line)
continue
if column > indents[-1]: # count indents
indents.append(column)
yield (INDENT, line[:pos], (lnum, 0), (lnum, pos), line)
while column < indents[-1]: # count dedents
if column not in indents:
raise IndentationError(
"unindent does not match any outer indentation level",
("<tokenize>", lnum, pos, line),
)
indents = indents[:-1]
if async_def and async_def_indent >= indents[-1]:
async_def = False
async_def_nl = False
async_def_indent = 0
yield (DEDENT, "", (lnum, pos), (lnum, pos), line)
if async_def and async_def_nl and async_def_indent >= indents[-1]:
async_def = False
async_def_nl = False
async_def_indent = 0
else: # continued statement
if not line:
raise TokenError("EOF in multi-line statement", (lnum, 0))
continued = 0
while pos < max:
pseudomatch = pseudoprog.match(line, pos)
if pseudomatch: # scan for tokens
start, end = pseudomatch.span(1)
spos, epos, pos = (lnum, start), (lnum, end), end
token, initial = line[start:end], line[start]
if initial in numchars or (
initial == "." and token != "."
): # ordinary number
yield (NUMBER, token, spos, epos, line)
elif initial in "\r\n":
newline = NEWLINE
if parenlev > 0:
newline = NL
elif async_def:
async_def_nl = True
if stashed:
yield stashed
stashed = None
yield (newline, token, spos, epos, line)
elif initial == "#":
assert not token.endswith("\n")
if stashed:
yield stashed
stashed = None
yield (COMMENT, token, spos, epos, line)
elif token in triple_quoted:
endprog = endprogs[token]
endmatch = endprog.match(line, pos)
if endmatch: # all on one line
pos = endmatch.end(0)
token = line[start:pos]
if stashed:
yield stashed
stashed = None
yield (STRING, token, spos, (lnum, pos), line)
else:
strstart = (lnum, start) # multiple lines
contstr = line[start:]
contline = line
break
elif (
initial in single_quoted
or token[:2] in single_quoted
or token[:3] in single_quoted
):
if token[-1] == "\n": # continued string
strstart = (lnum, start)
maybe_endprog = (
endprogs.get(initial)
or endprogs.get(token[1])
or endprogs.get(token[2])
)
assert (
maybe_endprog is not None
), f"endprog not found for {token}"
endprog = maybe_endprog
contstr, needcont = line[start:], 1
contline = line
break
else: # ordinary string
if stashed:
yield stashed
stashed = None
yield (STRING, token, spos, epos, line)
elif initial.isidentifier(): # ordinary name
if token in ("async", "await"):
if async_keywords or async_def:
yield (
ASYNC if token == "async" else AWAIT,
token,
spos,
epos,
line,
)
continue
tok = (NAME, token, spos, epos, line)
if token == "async" and not stashed:
stashed = tok
continue
if token in ("def", "for"):
if stashed and stashed[0] == NAME and stashed[1] == "async":
if token == "def":
async_def = True
async_def_indent = indents[-1]
yield (
ASYNC,
stashed[1],
stashed[2],
stashed[3],
stashed[4],
)
stashed = None
if stashed:
yield stashed
stashed = None
yield tok
elif initial == "\\": # continued stmt
# This yield is new; needed for better idempotency:
if stashed:
yield stashed
stashed = None
yield (NL, token, spos, (lnum, pos), line)
continued = 1
else:
if initial in "([{":
parenlev += 1
elif initial in ")]}":
parenlev -= 1
if stashed:
yield stashed
stashed = None
yield (OP, token, spos, epos, line)
else:
yield (ERRORTOKEN, line[pos], (lnum, pos), (lnum, pos + 1), line)
pos += 1
if stashed:
yield stashed
stashed = None
for indent in indents[1:]: # pop remaining indent levels
yield (DEDENT, "", (lnum, 0), (lnum, 0), "")
yield (ENDMARKER, "", (lnum, 0), (lnum, 0), "")
if __name__ == "__main__": # testing
import sys
if len(sys.argv) > 1:
tokenize(open(sys.argv[1]).readline)
else:
tokenize(sys.stdin.readline)