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651 lines
20 KiB
Python
651 lines
20 KiB
Python
# -*- coding: utf-8 -*-
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#
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# Copyright (C) 2009-2018 the sqlparse authors and contributors
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# <see AUTHORS file>
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#
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# This module is part of python-sqlparse and is released under
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# the BSD License: https://opensource.org/licenses/BSD-3-Clause
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"""This module contains classes representing syntactical elements of SQL."""
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from __future__ import print_function
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import re
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from sqlparse import tokens as T
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from sqlparse.compat import string_types, text_type, unicode_compatible
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from sqlparse.utils import imt, remove_quotes
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class NameAliasMixin:
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"""Implements get_real_name and get_alias."""
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def get_real_name(self):
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"""Returns the real name (object name) of this identifier."""
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# a.b
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dot_idx, _ = self.token_next_by(m=(T.Punctuation, '.'))
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return self._get_first_name(dot_idx, real_name=True)
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def get_alias(self):
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"""Returns the alias for this identifier or ``None``."""
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# "name AS alias"
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kw_idx, kw = self.token_next_by(m=(T.Keyword, 'AS'))
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if kw is not None:
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return self._get_first_name(kw_idx + 1, keywords=True)
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# "name alias" or "complicated column expression alias"
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_, ws = self.token_next_by(t=T.Whitespace)
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if len(self.tokens) > 2 and ws is not None:
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return self._get_first_name(reverse=True)
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@unicode_compatible
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class Token(object):
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"""Base class for all other classes in this module.
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It represents a single token and has two instance attributes:
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``value`` is the unchanged value of the token and ``ttype`` is
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the type of the token.
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"""
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__slots__ = ('value', 'ttype', 'parent', 'normalized', 'is_keyword',
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'is_group', 'is_whitespace')
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def __init__(self, ttype, value):
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value = text_type(value)
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self.value = value
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self.ttype = ttype
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self.parent = None
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self.is_group = False
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self.is_keyword = ttype in T.Keyword
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self.is_whitespace = self.ttype in T.Whitespace
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self.normalized = value.upper() if self.is_keyword else value
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def __str__(self):
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return self.value
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# Pending tokenlist __len__ bug fix
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# def __len__(self):
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# return len(self.value)
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def __repr__(self):
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cls = self._get_repr_name()
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value = self._get_repr_value()
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q = u'"' if value.startswith("'") and value.endswith("'") else u"'"
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return u"<{cls} {q}{value}{q} at 0x{id:2X}>".format(
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id=id(self), **locals())
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def _get_repr_name(self):
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return str(self.ttype).split('.')[-1]
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def _get_repr_value(self):
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raw = text_type(self)
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if len(raw) > 7:
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raw = raw[:6] + '...'
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return re.sub(r'\s+', ' ', raw)
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def flatten(self):
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"""Resolve subgroups."""
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yield self
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def match(self, ttype, values, regex=False):
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"""Checks whether the token matches the given arguments.
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*ttype* is a token type. If this token doesn't match the given token
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type.
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*values* is a list of possible values for this token. The values
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are OR'ed together so if only one of the values matches ``True``
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is returned. Except for keyword tokens the comparison is
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case-sensitive. For convenience it's OK to pass in a single string.
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If *regex* is ``True`` (default is ``False``) the given values are
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treated as regular expressions.
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"""
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type_matched = self.ttype is ttype
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if not type_matched or values is None:
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return type_matched
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if isinstance(values, string_types):
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values = (values,)
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if regex:
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# TODO: Add test for regex with is_keyboard = false
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flag = re.IGNORECASE if self.is_keyword else 0
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values = (re.compile(v, flag) for v in values)
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for pattern in values:
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if pattern.search(self.normalized):
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return True
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return False
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if self.is_keyword:
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values = (v.upper() for v in values)
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return self.normalized in values
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def within(self, group_cls):
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"""Returns ``True`` if this token is within *group_cls*.
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Use this method for example to check if an identifier is within
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a function: ``t.within(sql.Function)``.
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"""
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parent = self.parent
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while parent:
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if isinstance(parent, group_cls):
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return True
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parent = parent.parent
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return False
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def is_child_of(self, other):
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"""Returns ``True`` if this token is a direct child of *other*."""
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return self.parent == other
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def has_ancestor(self, other):
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"""Returns ``True`` if *other* is in this tokens ancestry."""
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parent = self.parent
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while parent:
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if parent == other:
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return True
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parent = parent.parent
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return False
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@unicode_compatible
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class TokenList(Token):
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"""A group of tokens.
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It has an additional instance attribute ``tokens`` which holds a
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list of child-tokens.
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"""
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__slots__ = 'tokens'
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def __init__(self, tokens=None):
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self.tokens = tokens or []
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[setattr(token, 'parent', self) for token in self.tokens]
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super(TokenList, self).__init__(None, text_type(self))
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self.is_group = True
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def __str__(self):
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return u''.join(token.value for token in self.flatten())
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# weird bug
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# def __len__(self):
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# return len(self.tokens)
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def __iter__(self):
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return iter(self.tokens)
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def __getitem__(self, item):
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return self.tokens[item]
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def _get_repr_name(self):
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return type(self).__name__
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def _pprint_tree(self, max_depth=None, depth=0, f=None, _pre=''):
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"""Pretty-print the object tree."""
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token_count = len(self.tokens)
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for idx, token in enumerate(self.tokens):
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cls = token._get_repr_name()
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value = token._get_repr_value()
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last = idx == (token_count - 1)
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pre = u'`- ' if last else u'|- '
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q = u'"' if value.startswith("'") and value.endswith("'") else u"'"
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print(u"{_pre}{pre}{idx} {cls} {q}{value}{q}"
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.format(**locals()), file=f)
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if token.is_group and (max_depth is None or depth < max_depth):
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parent_pre = u' ' if last else u'| '
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token._pprint_tree(max_depth, depth + 1, f, _pre + parent_pre)
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def get_token_at_offset(self, offset):
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"""Returns the token that is on position offset."""
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idx = 0
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for token in self.flatten():
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end = idx + len(token.value)
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if idx <= offset < end:
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return token
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idx = end
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def flatten(self):
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"""Generator yielding ungrouped tokens.
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This method is recursively called for all child tokens.
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"""
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for token in self.tokens:
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if token.is_group:
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for item in token.flatten():
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yield item
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else:
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yield token
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def get_sublists(self):
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for token in self.tokens:
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if token.is_group:
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yield token
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@property
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def _groupable_tokens(self):
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return self.tokens
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def _token_matching(self, funcs, start=0, end=None, reverse=False):
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"""next token that match functions"""
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if start is None:
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return None
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if not isinstance(funcs, (list, tuple)):
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funcs = (funcs,)
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if reverse:
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assert end is None
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for idx in range(start - 2, -1, -1):
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token = self.tokens[idx]
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for func in funcs:
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if func(token):
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return idx, token
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else:
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for idx, token in enumerate(self.tokens[start:end], start=start):
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for func in funcs:
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if func(token):
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return idx, token
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return None, None
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def token_first(self, skip_ws=True, skip_cm=False):
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"""Returns the first child token.
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If *skip_ws* is ``True`` (the default), whitespace
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tokens are ignored.
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if *skip_cm* is ``True`` (default: ``False``), comments are
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ignored too.
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"""
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# this on is inconsistent, using Comment instead of T.Comment...
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def matcher(tk):
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return not ((skip_ws and tk.is_whitespace)
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or (skip_cm and imt(tk, t=T.Comment, i=Comment)))
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return self._token_matching(matcher)[1]
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def token_next_by(self, i=None, m=None, t=None, idx=-1, end=None):
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idx += 1
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return self._token_matching(lambda tk: imt(tk, i, m, t), idx, end)
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def token_not_matching(self, funcs, idx):
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funcs = (funcs,) if not isinstance(funcs, (list, tuple)) else funcs
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funcs = [lambda tk: not func(tk) for func in funcs]
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return self._token_matching(funcs, idx)
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def token_matching(self, funcs, idx):
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return self._token_matching(funcs, idx)[1]
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def token_prev(self, idx, skip_ws=True, skip_cm=False):
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"""Returns the previous token relative to *idx*.
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If *skip_ws* is ``True`` (the default) whitespace tokens are ignored.
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If *skip_cm* is ``True`` comments are ignored.
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``None`` is returned if there's no previous token.
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"""
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return self.token_next(idx, skip_ws, skip_cm, _reverse=True)
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# TODO: May need to re-add default value to idx
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def token_next(self, idx, skip_ws=True, skip_cm=False, _reverse=False):
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"""Returns the next token relative to *idx*.
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If *skip_ws* is ``True`` (the default) whitespace tokens are ignored.
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If *skip_cm* is ``True`` comments are ignored.
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``None`` is returned if there's no next token.
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"""
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if idx is None:
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return None, None
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idx += 1 # alot of code usage current pre-compensates for this
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def matcher(tk):
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return not ((skip_ws and tk.is_whitespace)
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or (skip_cm and imt(tk, t=T.Comment, i=Comment)))
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return self._token_matching(matcher, idx, reverse=_reverse)
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def token_index(self, token, start=0):
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"""Return list index of token."""
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start = start if isinstance(start, int) else self.token_index(start)
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return start + self.tokens[start:].index(token)
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def group_tokens(self, grp_cls, start, end, include_end=True,
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extend=False):
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"""Replace tokens by an instance of *grp_cls*."""
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start_idx = start
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start = self.tokens[start_idx]
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end_idx = end + include_end
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# will be needed later for new group_clauses
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# while skip_ws and tokens and tokens[-1].is_whitespace:
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# tokens = tokens[:-1]
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if extend and isinstance(start, grp_cls):
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subtokens = self.tokens[start_idx + 1:end_idx]
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grp = start
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grp.tokens.extend(subtokens)
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del self.tokens[start_idx + 1:end_idx]
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grp.value = text_type(start)
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else:
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subtokens = self.tokens[start_idx:end_idx]
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grp = grp_cls(subtokens)
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self.tokens[start_idx:end_idx] = [grp]
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grp.parent = self
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for token in subtokens:
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token.parent = grp
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return grp
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def insert_before(self, where, token):
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"""Inserts *token* before *where*."""
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if not isinstance(where, int):
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where = self.token_index(where)
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token.parent = self
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self.tokens.insert(where, token)
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def insert_after(self, where, token, skip_ws=True):
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"""Inserts *token* after *where*."""
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if not isinstance(where, int):
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where = self.token_index(where)
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nidx, next_ = self.token_next(where, skip_ws=skip_ws)
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token.parent = self
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if next_ is None:
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self.tokens.append(token)
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else:
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self.tokens.insert(nidx, token)
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def has_alias(self):
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"""Returns ``True`` if an alias is present."""
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return self.get_alias() is not None
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def get_alias(self):
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"""Returns the alias for this identifier or ``None``."""
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return None
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def get_name(self):
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"""Returns the name of this identifier.
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This is either it's alias or it's real name. The returned valued can
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be considered as the name under which the object corresponding to
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this identifier is known within the current statement.
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"""
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return self.get_alias() or self.get_real_name()
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def get_real_name(self):
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"""Returns the real name (object name) of this identifier."""
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return None
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def get_parent_name(self):
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"""Return name of the parent object if any.
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A parent object is identified by the first occurring dot.
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"""
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dot_idx, _ = self.token_next_by(m=(T.Punctuation, '.'))
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_, prev_ = self.token_prev(dot_idx)
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return remove_quotes(prev_.value) if prev_ is not None else None
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def _get_first_name(self, idx=None, reverse=False, keywords=False,
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real_name=False):
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"""Returns the name of the first token with a name"""
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tokens = self.tokens[idx:] if idx else self.tokens
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tokens = reversed(tokens) if reverse else tokens
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types = [T.Name, T.Wildcard, T.String.Symbol]
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if keywords:
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types.append(T.Keyword)
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for token in tokens:
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if token.ttype in types:
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return remove_quotes(token.value)
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elif isinstance(token, (Identifier, Function)):
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return token.get_real_name() if real_name else token.get_name()
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class Statement(TokenList):
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"""Represents a SQL statement."""
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def get_type(self):
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"""Returns the type of a statement.
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The returned value is a string holding an upper-cased reprint of
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the first DML or DDL keyword. If the first token in this group
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isn't a DML or DDL keyword "UNKNOWN" is returned.
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Whitespaces and comments at the beginning of the statement
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are ignored.
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"""
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first_token = self.token_first(skip_cm=True)
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if first_token is None:
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# An "empty" statement that either has not tokens at all
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# or only whitespace tokens.
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return 'UNKNOWN'
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elif first_token.ttype in (T.Keyword.DML, T.Keyword.DDL):
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return first_token.normalized
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elif first_token.ttype == T.Keyword.CTE:
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# The WITH keyword should be followed by either an Identifier or
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# an IdentifierList containing the CTE definitions; the actual
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# DML keyword (e.g. SELECT, INSERT) will follow next.
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fidx = self.token_index(first_token)
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tidx, token = self.token_next(fidx, skip_ws=True)
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if isinstance(token, (Identifier, IdentifierList)):
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_, dml_keyword = self.token_next(tidx, skip_ws=True)
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if dml_keyword is not None \
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and dml_keyword.ttype == T.Keyword.DML:
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return dml_keyword.normalized
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# Hmm, probably invalid syntax, so return unknown.
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return 'UNKNOWN'
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class Identifier(NameAliasMixin, TokenList):
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"""Represents an identifier.
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Identifiers may have aliases or typecasts.
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"""
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def is_wildcard(self):
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"""Return ``True`` if this identifier contains a wildcard."""
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_, token = self.token_next_by(t=T.Wildcard)
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return token is not None
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def get_typecast(self):
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"""Returns the typecast or ``None`` of this object as a string."""
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midx, marker = self.token_next_by(m=(T.Punctuation, '::'))
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nidx, next_ = self.token_next(midx, skip_ws=False)
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return next_.value if next_ else None
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def get_ordering(self):
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"""Returns the ordering or ``None`` as uppercase string."""
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_, ordering = self.token_next_by(t=T.Keyword.Order)
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return ordering.normalized if ordering else None
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def get_array_indices(self):
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"""Returns an iterator of index token lists"""
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for token in self.tokens:
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if isinstance(token, SquareBrackets):
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# Use [1:-1] index to discard the square brackets
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yield token.tokens[1:-1]
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class IdentifierList(TokenList):
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"""A list of :class:`~sqlparse.sql.Identifier`\'s."""
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def get_identifiers(self):
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"""Returns the identifiers.
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Whitespaces and punctuations are not included in this generator.
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"""
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for token in self.tokens:
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if not (token.is_whitespace or token.match(T.Punctuation, ',')):
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yield token
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class TypedLiteral(TokenList):
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"""A typed literal, such as "date '2001-09-28'" or "interval '2 hours'"."""
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M_OPEN = [(T.Name.Builtin, None), (T.Keyword, "TIMESTAMP")]
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M_CLOSE = T.String.Single, None
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M_EXTEND = T.Keyword, ("DAY", "HOUR", "MINUTE", "MONTH", "SECOND", "YEAR")
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class Parenthesis(TokenList):
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"""Tokens between parenthesis."""
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M_OPEN = T.Punctuation, '('
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M_CLOSE = T.Punctuation, ')'
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@property
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def _groupable_tokens(self):
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return self.tokens[1:-1]
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class SquareBrackets(TokenList):
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"""Tokens between square brackets"""
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M_OPEN = T.Punctuation, '['
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M_CLOSE = T.Punctuation, ']'
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@property
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def _groupable_tokens(self):
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return self.tokens[1:-1]
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class Assignment(TokenList):
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"""An assignment like 'var := val;'"""
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class If(TokenList):
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"""An 'if' clause with possible 'else if' or 'else' parts."""
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M_OPEN = T.Keyword, 'IF'
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M_CLOSE = T.Keyword, 'END IF'
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class For(TokenList):
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"""A 'FOR' loop."""
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M_OPEN = T.Keyword, ('FOR', 'FOREACH')
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M_CLOSE = T.Keyword, 'END LOOP'
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class Comparison(TokenList):
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"""A comparison used for example in WHERE clauses."""
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|
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@property
|
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def left(self):
|
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return self.tokens[0]
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@property
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def right(self):
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return self.tokens[-1]
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class Comment(TokenList):
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"""A comment."""
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def is_multiline(self):
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return self.tokens and self.tokens[0].ttype == T.Comment.Multiline
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class Where(TokenList):
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"""A WHERE clause."""
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M_OPEN = T.Keyword, 'WHERE'
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M_CLOSE = T.Keyword, (
|
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'ORDER BY', 'GROUP BY', 'LIMIT', 'UNION', 'UNION ALL', 'EXCEPT',
|
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'HAVING', 'RETURNING', 'INTO')
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|
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class Having(TokenList):
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"""A HAVING clause."""
|
|
M_OPEN = T.Keyword, 'HAVING'
|
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M_CLOSE = T.Keyword, ('ORDER BY', 'LIMIT')
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|
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class Case(TokenList):
|
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"""A CASE statement with one or more WHEN and possibly an ELSE part."""
|
|
M_OPEN = T.Keyword, 'CASE'
|
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M_CLOSE = T.Keyword, 'END'
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|
|
|
def get_cases(self, skip_ws=False):
|
|
"""Returns a list of 2-tuples (condition, value).
|
|
|
|
If an ELSE exists condition is None.
|
|
"""
|
|
CONDITION = 1
|
|
VALUE = 2
|
|
|
|
ret = []
|
|
mode = CONDITION
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|
|
|
for token in self.tokens:
|
|
# Set mode from the current statement
|
|
if token.match(T.Keyword, 'CASE'):
|
|
continue
|
|
|
|
elif skip_ws and token.ttype in T.Whitespace:
|
|
continue
|
|
|
|
elif token.match(T.Keyword, 'WHEN'):
|
|
ret.append(([], []))
|
|
mode = CONDITION
|
|
|
|
elif token.match(T.Keyword, 'THEN'):
|
|
mode = VALUE
|
|
|
|
elif token.match(T.Keyword, 'ELSE'):
|
|
ret.append((None, []))
|
|
mode = VALUE
|
|
|
|
elif token.match(T.Keyword, 'END'):
|
|
mode = None
|
|
|
|
# First condition without preceding WHEN
|
|
if mode and not ret:
|
|
ret.append(([], []))
|
|
|
|
# Append token depending of the current mode
|
|
if mode == CONDITION:
|
|
ret[-1][0].append(token)
|
|
|
|
elif mode == VALUE:
|
|
ret[-1][1].append(token)
|
|
|
|
# Return cases list
|
|
return ret
|
|
|
|
|
|
class Function(NameAliasMixin, TokenList):
|
|
"""A function or procedure call."""
|
|
|
|
def get_parameters(self):
|
|
"""Return a list of parameters."""
|
|
parenthesis = self.tokens[-1]
|
|
for token in parenthesis.tokens:
|
|
if isinstance(token, IdentifierList):
|
|
return token.get_identifiers()
|
|
elif imt(token, i=(Function, Identifier), t=T.Literal):
|
|
return [token, ]
|
|
return []
|
|
|
|
|
|
class Begin(TokenList):
|
|
"""A BEGIN/END block."""
|
|
M_OPEN = T.Keyword, 'BEGIN'
|
|
M_CLOSE = T.Keyword, 'END'
|
|
|
|
|
|
class Operation(TokenList):
|
|
"""Grouping of operations"""
|
|
|
|
|
|
class Values(TokenList):
|
|
"""Grouping of values"""
|
|
|
|
|
|
class Command(TokenList):
|
|
"""Grouping of CLI commands."""
|