1109 lines
40 KiB
Python
1109 lines
40 KiB
Python
"""
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pygments.lexers.sql
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~~~~~~~~~~~~~~~~~~~
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Lexers for various SQL dialects and related interactive sessions.
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Postgres specific lexers:
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`PostgresLexer`
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A SQL lexer for the PostgreSQL dialect. Differences w.r.t. the SQL
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lexer are:
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- keywords and data types list parsed from the PG docs (run the
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`_postgres_builtins` module to update them);
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- Content of $-strings parsed using a specific lexer, e.g. the content
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of a PL/Python function is parsed using the Python lexer;
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- parse PG specific constructs: E-strings, $-strings, U&-strings,
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different operators and punctuation.
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`PlPgsqlLexer`
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A lexer for the PL/pgSQL language. Adds a few specific construct on
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top of the PG SQL lexer (such as <<label>>).
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`PostgresConsoleLexer`
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A lexer to highlight an interactive psql session:
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- identifies the prompt and does its best to detect the end of command
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in multiline statement where not all the lines are prefixed by a
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prompt, telling them apart from the output;
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- highlights errors in the output and notification levels;
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- handles psql backslash commands.
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`PostgresExplainLexer`
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A lexer to highlight Postgres execution plan.
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The ``tests/examplefiles`` contains a few test files with data to be
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parsed by these lexers.
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:copyright: Copyright 2006-2025 by the Pygments team, see AUTHORS.
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:license: BSD, see LICENSE for details.
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"""
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import collections
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import re
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from pygments.lexer import Lexer, RegexLexer, do_insertions, bygroups, words
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from pygments.lexers import _googlesql_builtins
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from pygments.lexers import _mysql_builtins
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from pygments.lexers import _postgres_builtins
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from pygments.lexers import _sql_builtins
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from pygments.lexers import _tsql_builtins
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from pygments.lexers import get_lexer_by_name, ClassNotFound
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from pygments.token import Punctuation, Whitespace, Text, Comment, Operator, \
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Keyword, Name, String, Number, Generic, Literal
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__all__ = ['GoogleSqlLexer', 'PostgresLexer', 'PlPgsqlLexer',
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'PostgresConsoleLexer', 'PostgresExplainLexer', 'SqlLexer',
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'TransactSqlLexer', 'MySqlLexer', 'SqliteConsoleLexer', 'RqlLexer']
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line_re = re.compile('.*?\n')
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sqlite_prompt_re = re.compile(r'^(?:sqlite| ...)>(?= )')
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language_re = re.compile(r"\s+LANGUAGE\s+'?(\w+)'?", re.IGNORECASE)
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do_re = re.compile(r'\bDO\b', re.IGNORECASE)
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# Regular expressions for analyse_text()
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name_between_bracket_re = re.compile(r'\[[a-zA-Z_]\w*\]')
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name_between_backtick_re = re.compile(r'`[a-zA-Z_]\w*`')
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tsql_go_re = re.compile(r'\bgo\b', re.IGNORECASE)
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tsql_declare_re = re.compile(r'\bdeclare\s+@', re.IGNORECASE)
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tsql_variable_re = re.compile(r'@[a-zA-Z_]\w*\b')
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# Identifiers for analyse_text()
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googlesql_identifiers = (
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_googlesql_builtins.functionnames
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+ _googlesql_builtins.keywords
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+ _googlesql_builtins.types)
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def language_callback(lexer, match):
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"""Parse the content of a $-string using a lexer
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The lexer is chosen looking for a nearby LANGUAGE or assumed as
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plpgsql if inside a DO statement and no LANGUAGE has been found.
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"""
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lx = None
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m = language_re.match(lexer.text[match.end():match.end()+100])
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if m is not None:
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lx = lexer._get_lexer(m.group(1))
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else:
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m = list(language_re.finditer(
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lexer.text[max(0, match.start()-100):match.start()]))
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if m:
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lx = lexer._get_lexer(m[-1].group(1))
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else:
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m = list(do_re.finditer(
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lexer.text[max(0, match.start()-25):match.start()]))
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if m:
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lx = lexer._get_lexer('plpgsql')
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# 1 = $, 2 = delimiter, 3 = $
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yield (match.start(1), String, match.group(1))
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yield (match.start(2), String.Delimiter, match.group(2))
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yield (match.start(3), String, match.group(3))
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# 4 = string contents
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if lx:
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yield from lx.get_tokens_unprocessed(match.group(4))
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else:
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yield (match.start(4), String, match.group(4))
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# 5 = $, 6 = delimiter, 7 = $
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yield (match.start(5), String, match.group(5))
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yield (match.start(6), String.Delimiter, match.group(6))
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yield (match.start(7), String, match.group(7))
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class PostgresBase:
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"""Base class for Postgres-related lexers.
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This is implemented as a mixin to avoid the Lexer metaclass kicking in.
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this way the different lexer don't have a common Lexer ancestor. If they
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had, _tokens could be created on this ancestor and not updated for the
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other classes, resulting e.g. in PL/pgSQL parsed as SQL. This shortcoming
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seem to suggest that regexp lexers are not really subclassable.
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"""
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def get_tokens_unprocessed(self, text, *args):
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# Have a copy of the entire text to be used by `language_callback`.
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self.text = text
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yield from super().get_tokens_unprocessed(text, *args)
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def _get_lexer(self, lang):
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if lang.lower() == 'sql':
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return get_lexer_by_name('postgresql', **self.options)
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tries = [lang]
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if lang.startswith('pl'):
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tries.append(lang[2:])
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if lang.endswith('u'):
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tries.append(lang[:-1])
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if lang.startswith('pl') and lang.endswith('u'):
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tries.append(lang[2:-1])
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for lx in tries:
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try:
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return get_lexer_by_name(lx, **self.options)
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except ClassNotFound:
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pass
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else:
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# TODO: better logging
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# print >>sys.stderr, "language not found:", lang
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return None
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class PostgresLexer(PostgresBase, RegexLexer):
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"""
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Lexer for the PostgreSQL dialect of SQL.
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"""
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name = 'PostgreSQL SQL dialect'
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aliases = ['postgresql', 'postgres']
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mimetypes = ['text/x-postgresql']
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url = 'https://www.postgresql.org'
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version_added = '1.5'
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flags = re.IGNORECASE
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tokens = {
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'root': [
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(r'\s+', Whitespace),
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(r'--.*\n?', Comment.Single),
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(r'/\*', Comment.Multiline, 'multiline-comments'),
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(r'(' + '|'.join(s.replace(" ", r"\s+")
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for s in _postgres_builtins.DATATYPES +
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_postgres_builtins.PSEUDO_TYPES) + r')\b',
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Name.Builtin),
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(words(_postgres_builtins.KEYWORDS, suffix=r'\b'), Keyword),
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(r'[+*/<>=~!@#%^&|`?-]+', Operator),
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(r'::', Operator), # cast
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(r'\$\d+', Name.Variable),
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(r'([0-9]*\.[0-9]*|[0-9]+)(e[+-]?[0-9]+)?', Number.Float),
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(r'[0-9]+', Number.Integer),
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(r"((?:E|U&)?)(')", bygroups(String.Affix, String.Single), 'string'),
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# quoted identifier
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(r'((?:U&)?)(")', bygroups(String.Affix, String.Name), 'quoted-ident'),
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(r'(?s)(\$)([^$]*)(\$)(.*?)(\$)(\2)(\$)', language_callback),
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(r'[a-z_]\w*', Name),
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# psql variable in SQL
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(r""":(['"]?)[a-z]\w*\b\1""", Name.Variable),
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(r'[;:()\[\]{},.]', Punctuation),
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],
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'multiline-comments': [
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(r'/\*', Comment.Multiline, 'multiline-comments'),
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(r'\*/', Comment.Multiline, '#pop'),
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(r'[^/*]+', Comment.Multiline),
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(r'[/*]', Comment.Multiline)
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],
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'string': [
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(r"[^']+", String.Single),
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(r"''", String.Single),
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(r"'", String.Single, '#pop'),
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],
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'quoted-ident': [
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(r'[^"]+', String.Name),
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(r'""', String.Name),
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(r'"', String.Name, '#pop'),
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],
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}
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class PlPgsqlLexer(PostgresBase, RegexLexer):
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"""
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Handle the extra syntax in Pl/pgSQL language.
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"""
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name = 'PL/pgSQL'
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aliases = ['plpgsql']
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mimetypes = ['text/x-plpgsql']
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url = 'https://www.postgresql.org/docs/current/plpgsql.html'
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version_added = '1.5'
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flags = re.IGNORECASE
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# FIXME: use inheritance
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tokens = {name: state[:] for (name, state) in PostgresLexer.tokens.items()}
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# extend the keywords list
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for i, pattern in enumerate(tokens['root']):
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if pattern[1] == Keyword:
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tokens['root'][i] = (
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words(_postgres_builtins.KEYWORDS +
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_postgres_builtins.PLPGSQL_KEYWORDS, suffix=r'\b'),
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Keyword)
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del i
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break
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else:
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assert 0, "SQL keywords not found"
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# Add specific PL/pgSQL rules (before the SQL ones)
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tokens['root'][:0] = [
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(r'\%[a-z]\w*\b', Name.Builtin), # actually, a datatype
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(r':=', Operator),
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(r'\<\<[a-z]\w*\>\>', Name.Label),
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(r'\#[a-z]\w*\b', Keyword.Pseudo), # #variable_conflict
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]
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class PsqlRegexLexer(PostgresBase, RegexLexer):
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"""
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Extend the PostgresLexer adding support specific for psql commands.
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This is not a complete psql lexer yet as it lacks prompt support
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and output rendering.
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"""
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name = 'PostgreSQL console - regexp based lexer'
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aliases = [] # not public
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flags = re.IGNORECASE
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tokens = {name: state[:] for (name, state) in PostgresLexer.tokens.items()}
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tokens['root'].append(
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(r'\\[^\s]+', Keyword.Pseudo, 'psql-command'))
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tokens['psql-command'] = [
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(r'\n', Text, 'root'),
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(r'\s+', Whitespace),
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(r'\\[^\s]+', Keyword.Pseudo),
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(r""":(['"]?)[a-z]\w*\b\1""", Name.Variable),
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(r"'(''|[^'])*'", String.Single),
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(r"`([^`])*`", String.Backtick),
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(r"[^\s]+", String.Symbol),
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]
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re_prompt = re.compile(r'^(\S.*?)??[=\-\(\$\'\"][#>]')
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re_psql_command = re.compile(r'\s*\\')
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re_end_command = re.compile(r';\s*(--.*?)?$')
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re_psql_command = re.compile(r'(\s*)(\\.+?)(\s+)$')
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re_error = re.compile(r'(ERROR|FATAL):')
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re_message = re.compile(
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r'((?:DEBUG|INFO|NOTICE|WARNING|ERROR|'
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r'FATAL|HINT|DETAIL|CONTEXT|LINE [0-9]+):)(.*?\n)')
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class lookahead:
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"""Wrap an iterator and allow pushing back an item."""
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def __init__(self, x):
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self.iter = iter(x)
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self._nextitem = None
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def __iter__(self):
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return self
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def send(self, i):
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self._nextitem = i
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return i
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def __next__(self):
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if self._nextitem is not None:
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ni = self._nextitem
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self._nextitem = None
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return ni
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return next(self.iter)
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next = __next__
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class PostgresConsoleLexer(Lexer):
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"""
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Lexer for psql sessions.
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"""
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name = 'PostgreSQL console (psql)'
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aliases = ['psql', 'postgresql-console', 'postgres-console']
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mimetypes = ['text/x-postgresql-psql']
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url = 'https://www.postgresql.org'
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version_added = '1.5'
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_example = "psql/psql_session.txt"
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def get_tokens_unprocessed(self, data):
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sql = PsqlRegexLexer(**self.options)
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lines = lookahead(line_re.findall(data))
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# prompt-output cycle
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while 1:
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# consume the lines of the command: start with an optional prompt
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# and continue until the end of command is detected
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curcode = ''
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insertions = []
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for line in lines:
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# Identify a shell prompt in case of psql commandline example
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if line.startswith('$') and not curcode:
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lexer = get_lexer_by_name('console', **self.options)
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yield from lexer.get_tokens_unprocessed(line)
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break
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# Identify a psql prompt
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mprompt = re_prompt.match(line)
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if mprompt is not None:
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insertions.append((len(curcode),
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[(0, Generic.Prompt, mprompt.group())]))
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curcode += line[len(mprompt.group()):]
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else:
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curcode += line
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# Check if this is the end of the command
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# TODO: better handle multiline comments at the end with
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# a lexer with an external state?
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if re_psql_command.match(curcode) \
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or re_end_command.search(curcode):
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break
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# Emit the combined stream of command and prompt(s)
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yield from do_insertions(insertions,
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sql.get_tokens_unprocessed(curcode))
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# Emit the output lines
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out_token = Generic.Output
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for line in lines:
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mprompt = re_prompt.match(line)
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if mprompt is not None:
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# push the line back to have it processed by the prompt
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lines.send(line)
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break
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mmsg = re_message.match(line)
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if mmsg is not None:
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if mmsg.group(1).startswith("ERROR") \
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or mmsg.group(1).startswith("FATAL"):
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out_token = Generic.Error
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yield (mmsg.start(1), Generic.Strong, mmsg.group(1))
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yield (mmsg.start(2), out_token, mmsg.group(2))
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else:
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yield (0, out_token, line)
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else:
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return
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|
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class PostgresExplainLexer(RegexLexer):
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"""
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Handle PostgreSQL EXPLAIN output
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"""
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name = 'PostgreSQL EXPLAIN dialect'
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aliases = ['postgres-explain']
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filenames = ['*.explain']
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mimetypes = ['text/x-postgresql-explain']
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url = 'https://www.postgresql.org/docs/current/using-explain.html'
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version_added = '2.15'
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tokens = {
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'root': [
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(r'(:|\(|\)|ms|kB|->|\.\.|\,|\/)', Punctuation),
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(r'(\s+)', Whitespace),
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|
# This match estimated cost and effectively measured counters with ANALYZE
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# Then, we move to instrumentation state
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(r'(cost)(=?)', bygroups(Name.Class, Punctuation), 'instrumentation'),
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(r'(actual)( )(=?)', bygroups(Name.Class, Whitespace, Punctuation), 'instrumentation'),
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# Misc keywords
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(words(('actual', 'Memory Usage', 'Disk Usage', 'Memory', 'Buckets', 'Batches',
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'originally', 'row', 'rows', 'Hits', 'Misses',
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'Evictions', 'Overflows', 'Planned Partitions'), suffix=r'\b'),
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Comment.Single),
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(r'(hit|read|dirtied|written|write|time|calls)(=)', bygroups(Comment.Single, Operator)),
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(r'(shared|temp|local)', Keyword.Pseudo),
|
|
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# We move to sort state in order to emphasize specific keywords (especially disk access)
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(r'(Sort Method)(: )', bygroups(Comment.Preproc, Punctuation), 'sort'),
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|
|
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# These keywords can be followed by an object, like a table
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(r'(Sort Key|Group Key|Presorted Key|Hash Key)(:)( )',
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bygroups(Comment.Preproc, Punctuation, Whitespace), 'object_name'),
|
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(r'(Cache Key|Cache Mode)(:)( )', bygroups(Comment, Punctuation, Whitespace), 'object_name'),
|
|
|
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# These keywords can be followed by a predicate
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(words(('Join Filter', 'Subplans Removed', 'Filter', 'Merge Cond',
|
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'Hash Cond', 'Index Cond', 'Recheck Cond', 'Heap Blocks',
|
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'TID Cond', 'Run Condition', 'Order By', 'Function Call',
|
|
'Table Function Call', 'Inner Unique', 'Params Evaluated',
|
|
'Single Copy', 'Sampling', 'One-Time Filter', 'Output',
|
|
'Relations', 'Remote SQL'), suffix=r'\b'),
|
|
Comment.Preproc, 'predicate'),
|
|
|
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# Special keyword to handle ON CONFLICT
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(r'Conflict ', Comment.Preproc, 'conflict'),
|
|
|
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# Special keyword for InitPlan or SubPlan
|
|
(r'(InitPlan|SubPlan)( )(\d+)( )',
|
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bygroups(Keyword, Whitespace, Number.Integer, Whitespace),
|
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'init_plan'),
|
|
|
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(words(('Sort Method', 'Join Filter', 'Planning time',
|
|
'Planning Time', 'Execution time', 'Execution Time',
|
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'Workers Planned', 'Workers Launched', 'Buffers',
|
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'Planning', 'Worker', 'Query Identifier', 'Time',
|
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'Full-sort Groups', 'Pre-sorted Groups'), suffix=r'\b'), Comment.Preproc),
|
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|
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# Emphasize these keywords
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|
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(words(('Rows Removed by Join Filter', 'Rows Removed by Filter',
|
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'Rows Removed by Index Recheck',
|
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'Heap Fetches', 'never executed'),
|
|
suffix=r'\b'), Name.Exception),
|
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(r'(I/O Timings)(:)( )', bygroups(Name.Exception, Punctuation, Whitespace)),
|
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|
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(words(_postgres_builtins.EXPLAIN_KEYWORDS, suffix=r'\b'), Keyword),
|
|
|
|
# join keywords
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|
(r'((Right|Left|Full|Semi|Anti) Join)', Keyword.Type),
|
|
(r'(Parallel |Async |Finalize |Partial )', Comment.Preproc),
|
|
(r'Backward', Comment.Preproc),
|
|
(r'(Intersect|Except|Hash)', Comment.Preproc),
|
|
|
|
(r'(CTE)( )(\w*)?', bygroups(Comment, Whitespace, Name.Variable)),
|
|
|
|
|
|
# Treat "on" and "using" as a punctuation
|
|
(r'(on|using)', Punctuation, 'object_name'),
|
|
|
|
|
|
# strings
|
|
(r"'(''|[^'])*'", String.Single),
|
|
# numbers
|
|
(r'-?\d+\.\d+', Number.Float),
|
|
(r'(-?\d+)', Number.Integer),
|
|
|
|
# boolean
|
|
(r'(true|false)', Name.Constant),
|
|
# explain header
|
|
(r'\s*QUERY PLAN\s*\n\s*-+', Comment.Single),
|
|
# Settings
|
|
(r'(Settings)(:)( )', bygroups(Comment.Preproc, Punctuation, Whitespace), 'setting'),
|
|
|
|
# Handle JIT counters
|
|
(r'(JIT|Functions|Options|Timing)(:)', bygroups(Comment.Preproc, Punctuation)),
|
|
(r'(Inlining|Optimization|Expressions|Deforming|Generation|Emission|Total)', Keyword.Pseudo),
|
|
|
|
# Handle Triggers counters
|
|
(r'(Trigger)( )(\S*)(:)( )',
|
|
bygroups(Comment.Preproc, Whitespace, Name.Variable, Punctuation, Whitespace)),
|
|
|
|
],
|
|
'expression': [
|
|
# matches any kind of parenthesized expression
|
|
# the first opening paren is matched by the 'caller'
|
|
(r'\(', Punctuation, '#push'),
|
|
(r'\)', Punctuation, '#pop'),
|
|
(r'(never executed)', Name.Exception),
|
|
(r'[^)(]+', Comment),
|
|
],
|
|
'object_name': [
|
|
|
|
# This is a cost or analyze measure
|
|
(r'(\(cost)(=?)', bygroups(Name.Class, Punctuation), 'instrumentation'),
|
|
(r'(\(actual)( )(=?)', bygroups(Name.Class, Whitespace, Punctuation), 'instrumentation'),
|
|
|
|
# if object_name is parenthesized, mark opening paren as
|
|
# punctuation, call 'expression', and exit state
|
|
(r'\(', Punctuation, 'expression'),
|
|
(r'(on)', Punctuation),
|
|
# matches possibly schema-qualified table and column names
|
|
(r'\w+(\.\w+)*( USING \S+| \w+ USING \S+)', Name.Variable),
|
|
(r'\"?\w+\"?(?:\.\"?\w+\"?)?', Name.Variable),
|
|
(r'\'\S*\'', Name.Variable),
|
|
|
|
# if we encounter a comma, another object is listed
|
|
(r',\n', Punctuation, 'object_name'),
|
|
(r',', Punctuation, 'object_name'),
|
|
|
|
# special case: "*SELECT*"
|
|
(r'"\*SELECT\*( \d+)?"(.\w+)?', Name.Variable),
|
|
(r'"\*VALUES\*(_\d+)?"(.\w+)?', Name.Variable),
|
|
(r'"ANY_subquery"', Name.Variable),
|
|
|
|
# Variable $1 ...
|
|
(r'\$\d+', Name.Variable),
|
|
# cast
|
|
(r'::\w+', Name.Variable),
|
|
(r' +', Whitespace),
|
|
(r'"', Punctuation),
|
|
(r'\[\.\.\.\]', Punctuation),
|
|
(r'\)', Punctuation, '#pop'),
|
|
],
|
|
'predicate': [
|
|
# if predicate is parenthesized, mark paren as punctuation
|
|
(r'(\()([^\n]*)(\))', bygroups(Punctuation, Name.Variable, Punctuation), '#pop'),
|
|
# otherwise color until newline
|
|
(r'[^\n]*', Name.Variable, '#pop'),
|
|
],
|
|
'instrumentation': [
|
|
(r'=|\.\.', Punctuation),
|
|
(r' +', Whitespace),
|
|
(r'(rows|width|time|loops)', Name.Class),
|
|
(r'\d+\.\d+', Number.Float),
|
|
(r'(\d+)', Number.Integer),
|
|
(r'\)', Punctuation, '#pop'),
|
|
],
|
|
'conflict': [
|
|
(r'(Resolution: )(\w+)', bygroups(Comment.Preproc, Name.Variable)),
|
|
(r'(Arbiter \w+:)', Comment.Preproc, 'object_name'),
|
|
(r'(Filter: )', Comment.Preproc, 'predicate'),
|
|
],
|
|
'setting': [
|
|
(r'([a-z_]*?)(\s*)(=)(\s*)(\'.*?\')', bygroups(Name.Attribute, Whitespace, Operator, Whitespace, String)),
|
|
(r'\, ', Punctuation),
|
|
],
|
|
'init_plan': [
|
|
(r'\(', Punctuation),
|
|
(r'returns \$\d+(,\$\d+)?', Name.Variable),
|
|
(r'\)', Punctuation, '#pop'),
|
|
],
|
|
'sort': [
|
|
(r':|kB', Punctuation),
|
|
(r'(quicksort|top-N|heapsort|Average|Memory|Peak)', Comment.Prepoc),
|
|
(r'(external|merge|Disk|sort)', Name.Exception),
|
|
(r'(\d+)', Number.Integer),
|
|
(r' +', Whitespace),
|
|
],
|
|
}
|
|
|
|
|
|
class SqlLexer(RegexLexer):
|
|
"""
|
|
Lexer for Structured Query Language. Currently, this lexer does
|
|
not recognize any special syntax except ANSI SQL.
|
|
"""
|
|
|
|
name = 'SQL'
|
|
aliases = ['sql']
|
|
filenames = ['*.sql']
|
|
mimetypes = ['text/x-sql']
|
|
url = 'https://en.wikipedia.org/wiki/SQL'
|
|
version_added = ''
|
|
|
|
flags = re.IGNORECASE
|
|
tokens = {
|
|
'root': [
|
|
(r'\s+', Whitespace),
|
|
(r'--.*\n?', Comment.Single),
|
|
(r'/\*', Comment.Multiline, 'multiline-comments'),
|
|
(words(_sql_builtins.KEYWORDS, suffix=r'\b'), Keyword),
|
|
(words(_sql_builtins.DATATYPES, suffix=r'\b'), Name.Builtin),
|
|
(r'[+*/<>=~!@#%^&|`?-]', Operator),
|
|
(r'[0-9]+', Number.Integer),
|
|
# TODO: Backslash escapes?
|
|
(r"'(''|[^'])*'", String.Single),
|
|
(r'"(""|[^"])*"', String.Symbol), # not a real string literal in ANSI SQL
|
|
(r'[a-z_][\w$]*', Name), # allow $s in strings for Oracle
|
|
(r'[;:()\[\],.]', Punctuation)
|
|
],
|
|
'multiline-comments': [
|
|
(r'/\*', Comment.Multiline, 'multiline-comments'),
|
|
(r'\*/', Comment.Multiline, '#pop'),
|
|
(r'[^/*]+', Comment.Multiline),
|
|
(r'[/*]', Comment.Multiline)
|
|
]
|
|
}
|
|
|
|
def analyse_text(self, text):
|
|
return
|
|
|
|
|
|
class TransactSqlLexer(RegexLexer):
|
|
"""
|
|
Transact-SQL (T-SQL) is Microsoft's and Sybase's proprietary extension to
|
|
SQL.
|
|
|
|
The list of keywords includes ODBC and keywords reserved for future use.
|
|
"""
|
|
|
|
name = 'Transact-SQL'
|
|
aliases = ['tsql', 't-sql']
|
|
filenames = ['*.sql']
|
|
mimetypes = ['text/x-tsql']
|
|
url = 'https://www.tsql.info'
|
|
version_added = ''
|
|
|
|
flags = re.IGNORECASE
|
|
|
|
tokens = {
|
|
'root': [
|
|
(r'\s+', Whitespace),
|
|
(r'--.*[$|\n]?', Comment.Single),
|
|
(r'/\*', Comment.Multiline, 'multiline-comments'),
|
|
(words(_tsql_builtins.OPERATORS), Operator),
|
|
(words(_tsql_builtins.OPERATOR_WORDS, suffix=r'\b'), Operator.Word),
|
|
(words(_tsql_builtins.TYPES, suffix=r'\b'), Name.Class),
|
|
(words(_tsql_builtins.FUNCTIONS, suffix=r'\b'), Name.Function),
|
|
(r'(goto)(\s+)(\w+\b)', bygroups(Keyword, Whitespace, Name.Label)),
|
|
(words(_tsql_builtins.KEYWORDS, suffix=r'\b'), Keyword),
|
|
(r'(\[)([^]]+)(\])', bygroups(Operator, Name, Operator)),
|
|
(r'0x[0-9a-f]+', Number.Hex),
|
|
# Float variant 1, for example: 1., 1.e2, 1.2e3
|
|
(r'[0-9]+\.[0-9]*(e[+-]?[0-9]+)?', Number.Float),
|
|
# Float variant 2, for example: .1, .1e2
|
|
(r'\.[0-9]+(e[+-]?[0-9]+)?', Number.Float),
|
|
# Float variant 3, for example: 123e45
|
|
(r'[0-9]+e[+-]?[0-9]+', Number.Float),
|
|
(r'[0-9]+', Number.Integer),
|
|
(r"'(''|[^'])*'", String.Single),
|
|
(r'"(""|[^"])*"', String.Symbol),
|
|
(r'[;(),.]', Punctuation),
|
|
# Below we use \w even for the first "real" character because
|
|
# tokens starting with a digit have already been recognized
|
|
# as Number above.
|
|
(r'@@\w+', Name.Builtin),
|
|
(r'@\w+', Name.Variable),
|
|
(r'(\w+)(:)', bygroups(Name.Label, Punctuation)),
|
|
(r'#?#?\w+', Name), # names for temp tables and anything else
|
|
(r'\?', Name.Variable.Magic), # parameter for prepared statements
|
|
],
|
|
'multiline-comments': [
|
|
(r'/\*', Comment.Multiline, 'multiline-comments'),
|
|
(r'\*/', Comment.Multiline, '#pop'),
|
|
(r'[^/*]+', Comment.Multiline),
|
|
(r'[/*]', Comment.Multiline)
|
|
]
|
|
}
|
|
|
|
def analyse_text(text):
|
|
rating = 0
|
|
if tsql_declare_re.search(text):
|
|
# Found T-SQL variable declaration.
|
|
rating = 1.0
|
|
else:
|
|
name_between_backtick_count = len(
|
|
name_between_backtick_re.findall(text))
|
|
name_between_bracket_count = len(
|
|
name_between_bracket_re.findall(text))
|
|
# We need to check if there are any names using
|
|
# backticks or brackets, as otherwise both are 0
|
|
# and 0 >= 2 * 0, so we would always assume it's true
|
|
dialect_name_count = name_between_backtick_count + name_between_bracket_count
|
|
if dialect_name_count >= 1 and \
|
|
name_between_bracket_count >= 2 * name_between_backtick_count:
|
|
# Found at least twice as many [name] as `name`.
|
|
rating += 0.5
|
|
elif name_between_bracket_count > name_between_backtick_count:
|
|
rating += 0.2
|
|
elif name_between_bracket_count > 0:
|
|
rating += 0.1
|
|
if tsql_variable_re.search(text) is not None:
|
|
rating += 0.1
|
|
if tsql_go_re.search(text) is not None:
|
|
rating += 0.1
|
|
return rating
|
|
|
|
|
|
class MySqlLexer(RegexLexer):
|
|
"""The Oracle MySQL lexer.
|
|
|
|
This lexer does not attempt to maintain strict compatibility with
|
|
MariaDB syntax or keywords. Although MySQL and MariaDB's common code
|
|
history suggests there may be significant overlap between the two,
|
|
compatibility between the two is not a target for this lexer.
|
|
"""
|
|
|
|
name = 'MySQL'
|
|
aliases = ['mysql']
|
|
mimetypes = ['text/x-mysql']
|
|
url = 'https://www.mysql.com'
|
|
version_added = ''
|
|
|
|
flags = re.IGNORECASE
|
|
tokens = {
|
|
'root': [
|
|
(r'\s+', Whitespace),
|
|
|
|
# Comments
|
|
(r'(?:#|--\s+).*', Comment.Single),
|
|
(r'/\*\+', Comment.Special, 'optimizer-hints'),
|
|
(r'/\*', Comment.Multiline, 'multiline-comment'),
|
|
|
|
# Hexadecimal literals
|
|
(r"x'([0-9a-f]{2})+'", Number.Hex), # MySQL requires paired hex characters in this form.
|
|
(r'0x[0-9a-f]+', Number.Hex),
|
|
|
|
# Binary literals
|
|
(r"b'[01]+'", Number.Bin),
|
|
(r'0b[01]+', Number.Bin),
|
|
|
|
# Numeric literals
|
|
(r'[0-9]+\.[0-9]*(e[+-]?[0-9]+)?', Number.Float), # Mandatory integer, optional fraction and exponent
|
|
(r'[0-9]*\.[0-9]+(e[+-]?[0-9]+)?', Number.Float), # Mandatory fraction, optional integer and exponent
|
|
(r'[0-9]+e[+-]?[0-9]+', Number.Float), # Exponents with integer significands are still floats
|
|
(r'[0-9]+(?=[^0-9a-z$_\u0080-\uffff])', Number.Integer), # Integers that are not in a schema object name
|
|
|
|
# Date literals
|
|
(r"\{\s*d\s*(?P<quote>['\"])\s*\d{2}(\d{2})?.?\d{2}.?\d{2}\s*(?P=quote)\s*\}",
|
|
Literal.Date),
|
|
|
|
# Time literals
|
|
(r"\{\s*t\s*(?P<quote>['\"])\s*(?:\d+\s+)?\d{1,2}.?\d{1,2}.?\d{1,2}(\.\d*)?\s*(?P=quote)\s*\}",
|
|
Literal.Date),
|
|
|
|
# Timestamp literals
|
|
(
|
|
r"\{\s*ts\s*(?P<quote>['\"])\s*"
|
|
r"\d{2}(?:\d{2})?.?\d{2}.?\d{2}" # Date part
|
|
r"\s+" # Whitespace between date and time
|
|
r"\d{1,2}.?\d{1,2}.?\d{1,2}(\.\d*)?" # Time part
|
|
r"\s*(?P=quote)\s*\}",
|
|
Literal.Date
|
|
),
|
|
|
|
# String literals
|
|
(r"'", String.Single, 'single-quoted-string'),
|
|
(r'"', String.Double, 'double-quoted-string'),
|
|
|
|
# Variables
|
|
(r'@@(?:global\.|persist\.|persist_only\.|session\.)?[a-z_]+', Name.Variable),
|
|
(r'@[a-z0-9_$.]+', Name.Variable),
|
|
(r"@'", Name.Variable, 'single-quoted-variable'),
|
|
(r'@"', Name.Variable, 'double-quoted-variable'),
|
|
(r"@`", Name.Variable, 'backtick-quoted-variable'),
|
|
(r'\?', Name.Variable), # For demonstrating prepared statements
|
|
|
|
# Operators
|
|
(r'[!%&*+/:<=>^|~-]+', Operator),
|
|
|
|
# Exceptions; these words tokenize differently in different contexts.
|
|
(r'\b(set)(?!\s*\()', Keyword),
|
|
(r'\b(character)(\s+)(set)\b', bygroups(Keyword, Whitespace, Keyword)),
|
|
# In all other known cases, "SET" is tokenized by MYSQL_DATATYPES.
|
|
|
|
(words(_mysql_builtins.MYSQL_CONSTANTS, prefix=r'\b', suffix=r'\b'),
|
|
Name.Constant),
|
|
(words(_mysql_builtins.MYSQL_DATATYPES, prefix=r'\b', suffix=r'\b'),
|
|
Keyword.Type),
|
|
(words(_mysql_builtins.MYSQL_KEYWORDS, prefix=r'\b', suffix=r'\b'),
|
|
Keyword),
|
|
(words(_mysql_builtins.MYSQL_FUNCTIONS, prefix=r'\b', suffix=r'\b(\s*)(\()'),
|
|
bygroups(Name.Function, Whitespace, Punctuation)),
|
|
|
|
# Schema object names
|
|
#
|
|
# Note: Although the first regex supports unquoted all-numeric
|
|
# identifiers, this will not be a problem in practice because
|
|
# numeric literals have already been handled above.
|
|
#
|
|
('[0-9a-z$_\u0080-\uffff]+', Name),
|
|
(r'`', Name.Quoted, 'schema-object-name'),
|
|
|
|
# Punctuation
|
|
(r'[(),.;]', Punctuation),
|
|
],
|
|
|
|
# Multiline comment substates
|
|
# ---------------------------
|
|
|
|
'optimizer-hints': [
|
|
(r'[^*a-z]+', Comment.Special),
|
|
(r'\*/', Comment.Special, '#pop'),
|
|
(words(_mysql_builtins.MYSQL_OPTIMIZER_HINTS, suffix=r'\b'),
|
|
Comment.Preproc),
|
|
('[a-z]+', Comment.Special),
|
|
(r'\*', Comment.Special),
|
|
],
|
|
|
|
'multiline-comment': [
|
|
(r'[^*]+', Comment.Multiline),
|
|
(r'\*/', Comment.Multiline, '#pop'),
|
|
(r'\*', Comment.Multiline),
|
|
],
|
|
|
|
# String substates
|
|
# ----------------
|
|
|
|
'single-quoted-string': [
|
|
(r"[^'\\]+", String.Single),
|
|
(r"''", String.Escape),
|
|
(r"""\\[0'"bnrtZ\\%_]""", String.Escape),
|
|
(r"'", String.Single, '#pop'),
|
|
],
|
|
|
|
'double-quoted-string': [
|
|
(r'[^"\\]+', String.Double),
|
|
(r'""', String.Escape),
|
|
(r"""\\[0'"bnrtZ\\%_]""", String.Escape),
|
|
(r'"', String.Double, '#pop'),
|
|
],
|
|
|
|
# Variable substates
|
|
# ------------------
|
|
|
|
'single-quoted-variable': [
|
|
(r"[^']+", Name.Variable),
|
|
(r"''", Name.Variable),
|
|
(r"'", Name.Variable, '#pop'),
|
|
],
|
|
|
|
'double-quoted-variable': [
|
|
(r'[^"]+', Name.Variable),
|
|
(r'""', Name.Variable),
|
|
(r'"', Name.Variable, '#pop'),
|
|
],
|
|
|
|
'backtick-quoted-variable': [
|
|
(r'[^`]+', Name.Variable),
|
|
(r'``', Name.Variable),
|
|
(r'`', Name.Variable, '#pop'),
|
|
],
|
|
|
|
# Schema object name substates
|
|
# ----------------------------
|
|
#
|
|
# "Name.Quoted" and "Name.Quoted.Escape" are non-standard but
|
|
# formatters will style them as "Name" by default but add
|
|
# additional styles based on the token name. This gives users
|
|
# flexibility to add custom styles as desired.
|
|
#
|
|
'schema-object-name': [
|
|
(r'[^`]+', Name.Quoted),
|
|
(r'``', Name.Quoted.Escape),
|
|
(r'`', Name.Quoted, '#pop'),
|
|
],
|
|
}
|
|
|
|
def analyse_text(text):
|
|
rating = 0
|
|
name_between_backtick_count = len(
|
|
name_between_backtick_re.findall(text))
|
|
name_between_bracket_count = len(
|
|
name_between_bracket_re.findall(text))
|
|
# Same logic as above in the TSQL analysis
|
|
dialect_name_count = name_between_backtick_count + name_between_bracket_count
|
|
if dialect_name_count >= 1 and \
|
|
name_between_backtick_count >= 2 * name_between_bracket_count:
|
|
# Found at least twice as many `name` as [name].
|
|
rating += 0.5
|
|
elif name_between_backtick_count > name_between_bracket_count:
|
|
rating += 0.2
|
|
elif name_between_backtick_count > 0:
|
|
rating += 0.1
|
|
return rating
|
|
|
|
|
|
class GoogleSqlLexer(RegexLexer):
|
|
"""
|
|
GoogleSQL is Google's standard SQL dialect, formerly known as ZetaSQL.
|
|
|
|
The list of keywords includes reserved words for future use.
|
|
"""
|
|
|
|
name = 'GoogleSQL'
|
|
aliases = ['googlesql', 'zetasql']
|
|
filenames = ['*.googlesql', '*.googlesql.sql']
|
|
mimetypes = ['text/x-google-sql', 'text/x-google-sql-aux']
|
|
url = 'https://cloud.google.com/bigquery/googlesql'
|
|
version_added = '2.19'
|
|
|
|
flags = re.IGNORECASE
|
|
tokens = {
|
|
'root': [
|
|
(r'\s+', Whitespace),
|
|
|
|
# Comments
|
|
(r'(?:#|--\s+).*', Comment.Single),
|
|
(r'/\*', Comment.Multiline, 'multiline-comment'),
|
|
|
|
# Hexadecimal literals
|
|
(r"x'([0-9a-f]{2})+'", Number.Hex),
|
|
(r'0x[0-9a-f]+', Number.Hex),
|
|
|
|
# Binary literals
|
|
(r"b'[01]+'", Number.Bin),
|
|
(r'0b[01]+', Number.Bin),
|
|
|
|
# Numeric literals
|
|
(r'[0-9]+\.[0-9]*(e[+-]?[0-9]+)?', Number.Float), # Mandatory integer, optional fraction and exponent
|
|
(r'[0-9]*\.[0-9]+(e[+-]?[0-9]+)?', Number.Float), # Mandatory fraction, optional integer and exponent
|
|
(r'[0-9]+e[+-]?[0-9]+', Number.Float), # Exponents with integer significands are still floats
|
|
(r'[0-9]+(?=[^0-9a-z$_\u0080-\uffff])', Number.Integer), # Integers that are not in a schema object name
|
|
|
|
# Date literals
|
|
(r"\{\s*d\s*(?P<quote>['\"])\s*\d{2}(\d{2})?.?\d{2}.?\d{2}\s*(?P=quote)\s*\}",
|
|
Literal.Date),
|
|
|
|
# Time literals
|
|
(r"\{\s*t\s*(?P<quote>['\"])\s*(?:\d+\s+)?\d{1,2}.?\d{1,2}.?\d{1,2}(\.\d*)?\s*(?P=quote)\s*\}",
|
|
Literal.Date),
|
|
|
|
# Timestamp literals
|
|
(
|
|
r"\{\s*ts\s*(?P<quote>['\"])\s*"
|
|
r"\d{2}(?:\d{2})?.?\d{2}.?\d{2}" # Date part
|
|
r"\s+" # Whitespace between date and time
|
|
r"\d{1,2}.?\d{1,2}.?\d{1,2}(\.\d*)?" # Time part
|
|
r"\s*(?P=quote)\s*\}",
|
|
Literal.Date
|
|
),
|
|
|
|
# String literals
|
|
(r"'", String.Single, 'single-quoted-string'),
|
|
(r'"', String.Double, 'double-quoted-string'),
|
|
|
|
# Variables
|
|
(r'@@(?:global\.|persist\.|persist_only\.|session\.)?[a-z_]+', Name.Variable),
|
|
(r'@[a-z0-9_$.]+', Name.Variable),
|
|
(r"@'", Name.Variable, 'single-quoted-variable'),
|
|
(r'@"', Name.Variable, 'double-quoted-variable'),
|
|
(r"@`", Name.Variable, 'backtick-quoted-variable'),
|
|
(r'\?', Name.Variable), # For demonstrating prepared statements
|
|
|
|
# Exceptions; these words tokenize differently in different contexts.
|
|
(r'\b(set)(?!\s*\()', Keyword),
|
|
(r'\b(character)(\s+)(set)\b', bygroups(Keyword, Whitespace, Keyword)),
|
|
|
|
# Constants, types, keywords, functions, operators
|
|
(words(_googlesql_builtins.constants, prefix=r'\b', suffix=r'\b'), Name.Constant),
|
|
(words(_googlesql_builtins.types, prefix=r'\b', suffix=r'\b'), Keyword.Type),
|
|
(words(_googlesql_builtins.keywords, prefix=r'\b', suffix=r'\b'), Keyword),
|
|
(words(_googlesql_builtins.functionnames, prefix=r'\b', suffix=r'\b(\s*)(\()'),
|
|
bygroups(Name.Function, Whitespace, Punctuation)),
|
|
(words(_googlesql_builtins.operators, prefix=r'\b', suffix=r'\b'), Operator),
|
|
|
|
# Schema object names
|
|
#
|
|
# Note: Although the first regex supports unquoted all-numeric
|
|
# identifiers, this will not be a problem in practice because
|
|
# numeric literals have already been handled above.
|
|
#
|
|
('[0-9a-z$_\u0080-\uffff]+', Name),
|
|
(r'`', Name.Quoted, 'schema-object-name'),
|
|
|
|
# Punctuation
|
|
(r'[(),.;]', Punctuation),
|
|
],
|
|
|
|
# Multiline comment substates
|
|
# ---------------------------
|
|
|
|
'multiline-comment': [
|
|
(r'[^*]+', Comment.Multiline),
|
|
(r'\*/', Comment.Multiline, '#pop'),
|
|
(r'\*', Comment.Multiline),
|
|
],
|
|
|
|
# String substates
|
|
# ----------------
|
|
|
|
'single-quoted-string': [
|
|
(r"[^'\\]+", String.Single),
|
|
(r"''", String.Escape),
|
|
(r"""\\[0'"bnrtZ\\%_]""", String.Escape),
|
|
(r"'", String.Single, '#pop'),
|
|
],
|
|
|
|
'double-quoted-string': [
|
|
(r'[^"\\]+', String.Double),
|
|
(r'""', String.Escape),
|
|
(r"""\\[0'"bnrtZ\\%_]""", String.Escape),
|
|
(r'"', String.Double, '#pop'),
|
|
],
|
|
|
|
# Variable substates
|
|
# ------------------
|
|
|
|
'single-quoted-variable': [
|
|
(r"[^']+", Name.Variable),
|
|
(r"''", Name.Variable),
|
|
(r"'", Name.Variable, '#pop'),
|
|
],
|
|
|
|
'double-quoted-variable': [
|
|
(r'[^"]+', Name.Variable),
|
|
(r'""', Name.Variable),
|
|
(r'"', Name.Variable, '#pop'),
|
|
],
|
|
|
|
'backtick-quoted-variable': [
|
|
(r'[^`]+', Name.Variable),
|
|
(r'``', Name.Variable),
|
|
(r'`', Name.Variable, '#pop'),
|
|
],
|
|
|
|
# Schema object name substates
|
|
# ----------------------------
|
|
#
|
|
# "Name.Quoted" and "Name.Quoted.Escape" are non-standard but
|
|
# formatters will style them as "Name" by default but add
|
|
# additional styles based on the token name. This gives users
|
|
# flexibility to add custom styles as desired.
|
|
#
|
|
'schema-object-name': [
|
|
(r'[^`]+', Name.Quoted),
|
|
(r'``', Name.Quoted.Escape),
|
|
(r'`', Name.Quoted, '#pop'),
|
|
],
|
|
}
|
|
|
|
def analyse_text(text):
|
|
tokens = collections.Counter(text.split())
|
|
return 0.001 * sum(count for t, count in tokens.items()
|
|
if t in googlesql_identifiers)
|
|
|
|
|
|
class SqliteConsoleLexer(Lexer):
|
|
"""
|
|
Lexer for example sessions using sqlite3.
|
|
"""
|
|
|
|
name = 'sqlite3con'
|
|
aliases = ['sqlite3']
|
|
filenames = ['*.sqlite3-console']
|
|
mimetypes = ['text/x-sqlite3-console']
|
|
url = 'https://www.sqlite.org'
|
|
version_added = '0.11'
|
|
_example = "sqlite3/sqlite3.sqlite3-console"
|
|
|
|
def get_tokens_unprocessed(self, data):
|
|
sql = SqlLexer(**self.options)
|
|
|
|
curcode = ''
|
|
insertions = []
|
|
for match in line_re.finditer(data):
|
|
line = match.group()
|
|
prompt_match = sqlite_prompt_re.match(line)
|
|
if prompt_match is not None:
|
|
insertions.append((len(curcode),
|
|
[(0, Generic.Prompt, line[:7])]))
|
|
insertions.append((len(curcode),
|
|
[(7, Whitespace, ' ')]))
|
|
curcode += line[8:]
|
|
else:
|
|
if curcode:
|
|
yield from do_insertions(insertions,
|
|
sql.get_tokens_unprocessed(curcode))
|
|
curcode = ''
|
|
insertions = []
|
|
if line.startswith('SQL error: '):
|
|
yield (match.start(), Generic.Traceback, line)
|
|
else:
|
|
yield (match.start(), Generic.Output, line)
|
|
if curcode:
|
|
yield from do_insertions(insertions,
|
|
sql.get_tokens_unprocessed(curcode))
|
|
|
|
|
|
class RqlLexer(RegexLexer):
|
|
"""
|
|
Lexer for Relation Query Language.
|
|
"""
|
|
name = 'RQL'
|
|
url = 'http://www.logilab.org/project/rql'
|
|
aliases = ['rql']
|
|
filenames = ['*.rql']
|
|
mimetypes = ['text/x-rql']
|
|
version_added = '2.0'
|
|
|
|
flags = re.IGNORECASE
|
|
tokens = {
|
|
'root': [
|
|
(r'\s+', Whitespace),
|
|
(r'(DELETE|SET|INSERT|UNION|DISTINCT|WITH|WHERE|BEING|OR'
|
|
r'|AND|NOT|GROUPBY|HAVING|ORDERBY|ASC|DESC|LIMIT|OFFSET'
|
|
r'|TODAY|NOW|TRUE|FALSE|NULL|EXISTS)\b', Keyword),
|
|
(r'[+*/<>=%-]', Operator),
|
|
(r'(Any|is|instance_of|CWEType|CWRelation)\b', Name.Builtin),
|
|
(r'[0-9]+', Number.Integer),
|
|
(r'[A-Z_]\w*\??', Name),
|
|
(r"'(''|[^'])*'", String.Single),
|
|
(r'"(""|[^"])*"', String.Single),
|
|
(r'[;:()\[\],.]', Punctuation)
|
|
],
|
|
}
|