ba-thesis/app/.venv/lib/python3.11/site-packages/sqlparse/utils.py

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2023-07-21 09:57:46 +01:00
#
# Copyright (C) 2009-2020 the sqlparse authors and contributors
# <see AUTHORS file>
#
# This module is part of python-sqlparse and is released under
# the BSD License: https://opensource.org/licenses/BSD-3-Clause
import itertools
import re
from collections import deque
from contextlib import contextmanager
# This regular expression replaces the home-cooked parser that was here before.
# It is much faster, but requires an extra post-processing step to get the
# desired results (that are compatible with what you would expect from the
# str.splitlines() method).
#
# It matches groups of characters: newlines, quoted strings, or unquoted text,
# and splits on that basis. The post-processing step puts those back together
# into the actual lines of SQL.
SPLIT_REGEX = re.compile(r"""
(
(?: # Start of non-capturing group
(?:\r\n|\r|\n) | # Match any single newline, or
[^\r\n'"]+ | # Match any character series without quotes or
# newlines, or
"(?:[^"\\]|\\.)*" | # Match double-quoted strings, or
'(?:[^'\\]|\\.)*' # Match single quoted strings
)
)
""", re.VERBOSE)
LINE_MATCH = re.compile(r'(\r\n|\r|\n)')
def split_unquoted_newlines(stmt):
"""Split a string on all unquoted newlines.
Unlike str.splitlines(), this will ignore CR/LF/CR+LF if the requisite
character is inside of a string."""
text = str(stmt)
lines = SPLIT_REGEX.split(text)
outputlines = ['']
for line in lines:
if not line:
continue
elif LINE_MATCH.match(line):
outputlines.append('')
else:
outputlines[-1] += line
return outputlines
def remove_quotes(val):
"""Helper that removes surrounding quotes from strings."""
if val is None:
return
if val[0] in ('"', "'", '`') and val[0] == val[-1]:
val = val[1:-1]
return val
def recurse(*cls):
"""Function decorator to help with recursion
:param cls: Classes to not recurse over
:return: function
"""
def wrap(f):
def wrapped_f(tlist):
for sgroup in tlist.get_sublists():
if not isinstance(sgroup, cls):
wrapped_f(sgroup)
f(tlist)
return wrapped_f
return wrap
def imt(token, i=None, m=None, t=None):
"""Helper function to simplify comparisons Instance, Match and TokenType
:param token:
:param i: Class or Tuple/List of Classes
:param m: Tuple of TokenType & Value. Can be list of Tuple for multiple
:param t: TokenType or Tuple/List of TokenTypes
:return: bool
"""
clss = i
types = [t, ] if t and not isinstance(t, list) else t
mpatterns = [m, ] if m and not isinstance(m, list) else m
if token is None:
return False
elif clss and isinstance(token, clss):
return True
elif mpatterns and any(token.match(*pattern) for pattern in mpatterns):
return True
elif types and any(token.ttype in ttype for ttype in types):
return True
else:
return False
def consume(iterator, n):
"""Advance the iterator n-steps ahead. If n is none, consume entirely."""
deque(itertools.islice(iterator, n), maxlen=0)
@contextmanager
def offset(filter_, n=0):
filter_.offset += n
yield
filter_.offset -= n
@contextmanager
def indent(filter_, n=1):
filter_.indent += n
yield
filter_.indent -= n