Ejemplo n.º 1
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    def test_simple(self):
        stream = StringIO("SELECT 1; SELECT 2;")

        tokens = lexer.tokenize(stream)
        self.assertEqual(len(list(tokens)), 9)

        stream.seek(0)
        tokens = list(lexer.tokenize(stream))
        self.assertEqual(len(tokens), 9)

        stream.seek(0)
        tokens = list(lexer.tokenize(stream))
        self.assertEqual(len(tokens), 9)
Ejemplo n.º 2
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def test_stream_simple():
    stream = StringIO("SELECT 1; SELECT 2;")

    tokens = lexer.tokenize(stream)
    assert len(list(tokens)) == 9

    stream.seek(0)
    tokens = list(lexer.tokenize(stream))
    assert len(tokens) == 9

    stream.seek(0)
    tokens = list(lexer.tokenize(stream))
    assert len(tokens) == 9
Ejemplo n.º 3
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 def test_linebreaks(self):  # issue1
     s = 'foo\nbar\n'
     tokens = lexer.tokenize(s)
     self.assertEqual(''.join(str(x[1]) for x in tokens), s)
     s = 'foo\rbar\r'
     tokens = lexer.tokenize(s)
     self.assertEqual(''.join(str(x[1]) for x in tokens), s)
     s = 'foo\r\nbar\r\n'
     tokens = lexer.tokenize(s)
     self.assertEqual(''.join(str(x[1]) for x in tokens), s)
     s = 'foo\r\nbar\n'
     tokens = lexer.tokenize(s)
     self.assertEqual(''.join(str(x[1]) for x in tokens), s)
Ejemplo n.º 4
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 def test_linebreaks(self):  # issue1
     sql = 'foo\nbar\n'
     tokens = lexer.tokenize(sql)
     self.assertEqual(''.join(str(x[1]) for x in tokens), sql)
     sql = 'foo\rbar\r'
     tokens = lexer.tokenize(sql)
     self.assertEqual(''.join(str(x[1]) for x in tokens), sql)
     sql = 'foo\r\nbar\r\n'
     tokens = lexer.tokenize(sql)
     self.assertEqual(''.join(str(x[1]) for x in tokens), sql)
     sql = 'foo\r\nbar\n'
     tokens = lexer.tokenize(sql)
     self.assertEqual(''.join(str(x[1]) for x in tokens), sql)
Ejemplo n.º 5
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def test_stream_simple():
    stream = StringIO("SELECT 1; SELECT 2;")

    tokens = lexer.tokenize(stream)
    assert len(list(tokens)) == 9

    stream.seek(0)
    tokens = list(lexer.tokenize(stream))
    assert len(tokens) == 9

    stream.seek(0)
    tokens = list(lexer.tokenize(stream))
    assert len(tokens) == 9
Ejemplo n.º 6
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    def count(self):
        # Reset .order_by() which is not required for .count() and may cause
        # 'column "FOO" must appear in the GROUP BY clause or be used in an aggregate function'
        # error when particular column is in the list of currently applied order_by().
        # .filter() seems not to be affected.
        c = self.order_by()

        # Rewrite query arguments to 'count(*)' function.
        stmts = tokenize(c.query.sql)
        rewrite_query = []
        is_rewritten = False
        copying = True
        for token_type, token_value in stmts:
            if copying:
                rewrite_query.append(token_value)
            if token_type == Token.Keyword.DML and token_value.upper() == 'SELECT':
                copying = False
                is_rewritten = True
                rewrite_query.append(' count(*) ')
            elif token_type == Token.Keyword and token_value.upper() == 'FROM':
                copying = True
                rewrite_query.append(token_value)

        if is_rewritten:
            c.query.sql = ''.join(rewrite_query)
            query = iter(c.query)
            for values in query:
                count = values[0]
                return count

        # Fallback to approximate QuerySet.count() when SQL query rewrite failed.
        return c.filtered_qs.count()
Ejemplo n.º 7
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 def parse(self, sql, encoding):
     stream = lexer.tokenize(sql, encoding)
     statements = _split_statements(stream)
     stack = engine.FilterStack()
     stack.enable_grouping()
     for statement in statements:
         yield stack.run(statement)
Ejemplo n.º 8
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 def parser_command(self, sql_command):
     sql = sql_command
     quitarG = sql.replace("--", "")
     quitarE = quitarG.replace("?>", "")
     quitarEP = quitarE.replace("<?query", "")
     stream = lexer.tokenize(quitarEP)
     tokens = list(stream)
     Conta_Posi = 0
     juntar = ''
     for etiqueta in tokens:
         if tokens[Conta_Posi][0] == T.Number.Integer:
             juntar += 'Int'
             Conta_Posi += 1
         elif tokens[Conta_Posi][0] == T.String.Symbol:
             juntar += 'Str'
             Conta_Posi += 1
         elif tokens[Conta_Posi][0] == T.String.Single:
             juntar += 'Str Sim'
             Conta_Posi += 1
         elif tokens[Conta_Posi][0] == T.String.Float:
             juntar += 'Float'
             Conta_Posi += 1
         else:
             juntar += etiqueta[1]
             Conta_Posi += 1
     return juntar
Ejemplo n.º 9
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    def test_compact1(self):
        stream = compact(tokenize(self.sql))

        result = Tokens2Unicode(stream)

        self.assertEqual(result,
                         'INSERT INTO directories(inode)VALUES(:inode)LIMIT 1')
Ejemplo n.º 10
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 def parse(self, sql, encoding):
     stream = lexer.tokenize(sql, encoding)
     statements = _split_statements(stream)
     stack = engine.FilterStack()
     stack.enable_grouping()
     for statement in statements:
         yield stack.run(statement)
Ejemplo n.º 11
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    def count(self):
        # Reset .order_by() which is not required for .count() and may cause
        # 'column "FOO" must appear in the GROUP BY clause or be used in an aggregate function'
        # error when particular column is in the list of currently applied order_by().
        # .filter() seems not to be affected.
        c = self.order_by()

        # Rewrite query arguments to 'count(*)' function.
        stmts = tokenize(c.query.sql)
        rewrite_query = []
        is_rewritten = False
        copying = True
        for token_type, token_value in stmts:
            if copying:
                rewrite_query.append(token_value)
            if token_type == Token.Keyword.DML and token_value.upper() == 'SELECT':
                copying = False
                is_rewritten = True
                rewrite_query.append(' count(*) ')
            elif token_type == Token.Keyword and token_value.upper() == 'FROM':
                copying = True
                rewrite_query.append(token_value)

        if is_rewritten:
            c.query.sql = ''.join(rewrite_query)
            query = iter(c.query)
            for values in query:
                count = values[0]
                return count

        # Fallback to approximate QuerySet.count() when SQL query rewrite failed.
        return c.filtered_qs.count()
Ejemplo n.º 12
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    def test_compact2(self):
        stream = tokenize(self.sql2)

        result = compact(stream)

        self.assertEqual(Tokens2Unicode(result),
            'SELECT child_entry,asdf AS inode,creation FROM links WHERE '
            'parent_dir==:parent_dir AND name==:name LIMIT 1')
 def test_simple(self):
     sql = 'select * from foo;'
     stream = lexer.tokenize(sql)
     self.assert_(type(stream) is types.GeneratorType)
     tokens = list(stream)
     self.assertEqual(len(tokens), 8)
     self.assertEqual(len(tokens[0]), 2)
     self.assertEqual(tokens[0], (Keyword.DML, u'select'))
     self.assertEqual(tokens[-1], (Punctuation, u';'))
Ejemplo n.º 14
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 def test_simple(self):
     s = 'select * from foo;'
     stream = lexer.tokenize(s)
     self.assert_(isinstance(stream, types.GeneratorType))
     tokens = list(stream)
     self.assertEqual(len(tokens), 8)
     self.assertEqual(len(tokens[0]), 2)
     self.assertEqual(tokens[0], (T.Keyword.DML, u'select'))
     self.assertEqual(tokens[-1], (T.Punctuation, u';'))
Ejemplo n.º 15
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    def test_compact2(self):
        stream = tokenize(self.sql2)

        result = compact(stream)

        self.assertEqual(
            Tokens2Unicode(result),
            'SELECT child_entry,asdf AS inode,creation FROM links WHERE '
            'parent_dir==:parent_dir AND name==:name LIMIT 1')
Ejemplo n.º 16
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 def test_simple(self):
     sql = 'select * from foo;'
     stream = lexer.tokenize(sql)
     self.assert_(type(stream) is types.GeneratorType)
     tokens = list(stream)
     self.assertEqual(len(tokens), 8)
     self.assertEqual(len(tokens[0]), 2)
     self.assertEqual(tokens[0], (Keyword.DML, u'select'))
     self.assertEqual(tokens[-1], (Punctuation, u';'))
Ejemplo n.º 17
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def test_tokenize_simple():
    s = 'select * from foo;'
    stream = lexer.tokenize(s)
    assert isinstance(stream, types.GeneratorType)
    tokens = list(stream)
    assert len(tokens) == 8
    assert len(tokens[0]) == 2
    assert tokens[0] == (T.Keyword.DML, 'select')
    assert tokens[-1] == (T.Punctuation, ';')
Ejemplo n.º 18
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def test_tokenize_simple():
    s = 'select * from foo;'
    stream = lexer.tokenize(s)
    assert isinstance(stream, types.GeneratorType)
    tokens = list(stream)
    assert len(tokens) == 8
    assert len(tokens[0]) == 2
    assert tokens[0] == (T.Keyword.DML, 'select')
    assert tokens[-1] == (T.Punctuation, ';')
Ejemplo n.º 19
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    def run(self, sql, encoding=None):
        stream = lexer.tokenize(sql, encoding)
        # Process token stream
        if self.preprocess:
            for filter_ in self.preprocess:
                stream = filter_.process(self, stream)

        if (self.stmtprocess or self.postprocess or self.split_statements
                or self._grouping):
            splitter = StatementFilter()
            stream = splitter.process(self, stream)

        # import StripCommentsFilter in the run() method to avoid a circular dependency.
        # For stripping comments, the only grouping method we want to invoke is
        # grouping.group(), this considerably improves performance.
        strip_comments_only = False
        if self.stmtprocess and len(self.stmtprocess) == 1:
            from sqlparse.filters import StripCommentsFilter
            strip_comments_only = isinstance(self.stmtprocess[0],
                                             StripCommentsFilter)

        if self._grouping:

            def _group(stream):
                for stmt in stream:
                    if strip_comments_only:
                        grouping.group_comments(stmt)
                    else:
                        grouping.group(stmt)
                    yield stmt

            stream = _group(stream)

        if self.stmtprocess:

            def _run1(stream):
                ret = []
                for stmt in stream:
                    for filter_ in self.stmtprocess:
                        filter_.process(self, stmt)
                    ret.append(stmt)
                return ret

            stream = _run1(stream)

        if self.postprocess:

            def _run2(stream):
                for stmt in stream:
                    stmt.tokens = list(self._flatten(stmt.tokens))
                    for filter_ in self.postprocess:
                        stmt = filter_.process(self, stmt)
                    yield stmt

            stream = _run2(stream)

        return stream
Ejemplo n.º 20
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 def test_StripWhitespace3(self):
     self.assertEqual(Tokens2Unicode(StripWhitespace(tokenize(self.sql3))),
         'SELECT 0 AS st_dev,0 AS st_uid,0 AS st_gid,dir_entries.type AS '
         'st_mode,dir_entries.inode AS st_ino,COUNT(links.child_entry)AS '
         'st_nlink,:creation AS st_ctime,dir_entries.access AS st_atime,'
         'dir_entries.modification AS st_mtime,COALESCE(files.size,0)AS '
         'st_size,COALESCE(files.size,0)AS size FROM dir_entries LEFT JOIN'
         ' files ON dir_entries.inode==files.inode LEFT JOIN links ON '
         'dir_entries.inode==links.child_entry WHERE dir_entries.inode=='
         ':inode GROUP BY dir_entries.inode LIMIT 1')
Ejemplo n.º 21
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 def test_inline_keywords(self):  # issue 7
     sql = "create created_foo"
     tokens = list(lexer.tokenize(sql))
     self.assertEqual(len(tokens), 3)
     self.assertEqual(tokens[0][0], Keyword.DDL)
     self.assertEqual(tokens[2][0], Name)
     self.assertEqual(tokens[2][1], u'created_foo')
     sql = "enddate"
     tokens = list(lexer.tokenize(sql))
     self.assertEqual(len(tokens), 1)
     self.assertEqual(tokens[0][0], Name)
     sql = "join_col"
     tokens = list(lexer.tokenize(sql))
     self.assertEqual(len(tokens), 1)
     self.assertEqual(tokens[0][0], Name)
     sql = "left join_col"
     tokens = list(lexer.tokenize(sql))
     self.assertEqual(len(tokens), 3)
     self.assertEqual(tokens[2][0], Name)
     self.assertEqual(tokens[2][1], 'join_col')
Ejemplo n.º 22
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    def test_includeStatement(self):
        stream = tokenize(self.sql)
        includeStatement = IncludeStatement('tests/files', raiseexceptions=True)
        stream = includeStatement.process(None, stream)
        stream = compact(stream)

        result = Tokens2Unicode(stream)

        self.assertEqual(result,
            'INSERT INTO dir_entries(type)VALUES(:type);INSERT INTO '
            'directories(inode)VALUES(:inode)LIMIT 1')
Ejemplo n.º 23
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 def test_inline_keywords(self):  # issue 7
     s = "create created_foo"
     tokens = list(lexer.tokenize(s))
     self.assertEqual(len(tokens), 3)
     self.assertEqual(tokens[0][0], T.Keyword.DDL)
     self.assertEqual(tokens[2][0], T.Name)
     self.assertEqual(tokens[2][1], u'created_foo')
     s = "enddate"
     tokens = list(lexer.tokenize(s))
     self.assertEqual(len(tokens), 1)
     self.assertEqual(tokens[0][0], T.Name)
     s = "join_col"
     tokens = list(lexer.tokenize(s))
     self.assertEqual(len(tokens), 1)
     self.assertEqual(tokens[0][0], T.Name)
     s = "left join_col"
     tokens = list(lexer.tokenize(s))
     self.assertEqual(len(tokens), 3)
     self.assertEqual(tokens[2][0], T.Name)
     self.assertEqual(tokens[2][1], 'join_col')
Ejemplo n.º 24
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 def test_StripWhitespace3(self):
     self.assertEqual(
         Tokens2Unicode(StripWhitespace(tokenize(self.sql3))),
         'SELECT 0 AS st_dev,0 AS st_uid,0 AS st_gid,dir_entries.type AS '
         'st_mode,dir_entries.inode AS st_ino,COUNT(links.child_entry)AS '
         'st_nlink,:creation AS st_ctime,dir_entries.access AS st_atime,'
         'dir_entries.modification AS st_mtime,COALESCE(files.size,0)AS '
         'st_size,COALESCE(files.size,0)AS size FROM dir_entries LEFT JOIN'
         ' files ON dir_entries.inode==files.inode LEFT JOIN links ON '
         'dir_entries.inode==links.child_entry WHERE dir_entries.inode=='
         ':inode GROUP BY dir_entries.inode LIMIT 1')
Ejemplo n.º 25
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def split(sql, encoding=None):
    """Split *sql* into single statements.

    :param sql: A string containting one or more SQL statements.
    :param encoding: The encoding of the statement (optional).
    :returns: A list of strings.
    """
    stream = lexer.tokenize(sql, encoding)
    splitter = StatementFilter()
    stream = splitter.process(None, stream)
    return [unicode(stmt).strip() for stmt in stream]
Ejemplo n.º 26
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def test_tokenize_inline_keywords():
    # issue 7
    s = "create created_foo"
    tokens = list(lexer.tokenize(s))
    assert len(tokens) == 3
    assert tokens[0][0] == T.Keyword.DDL
    assert tokens[2][0] == T.Name
    assert tokens[2][1] == 'created_foo'
    s = "enddate"
    tokens = list(lexer.tokenize(s))
    assert len(tokens) == 1
    assert tokens[0][0] == T.Name
    s = "join_col"
    tokens = list(lexer.tokenize(s))
    assert len(tokens) == 1
    assert tokens[0][0] == T.Name
    s = "left join_col"
    tokens = list(lexer.tokenize(s))
    assert len(tokens) == 3
    assert tokens[2][0] == T.Name
    assert tokens[2][1] == 'join_col'
Ejemplo n.º 27
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def test_tokenize_inline_keywords():
    # issue 7
    s = "create created_foo"
    tokens = list(lexer.tokenize(s))
    assert len(tokens) == 3
    assert tokens[0][0] == T.Keyword.DDL
    assert tokens[2][0] == T.Name
    assert tokens[2][1] == 'created_foo'
    s = "enddate"
    tokens = list(lexer.tokenize(s))
    assert len(tokens) == 1
    assert tokens[0][0] == T.Name
    s = "join_col"
    tokens = list(lexer.tokenize(s))
    assert len(tokens) == 1
    assert tokens[0][0] == T.Name
    s = "left join_col"
    tokens = list(lexer.tokenize(s))
    assert len(tokens) == 3
    assert tokens[2][0] == T.Name
    assert tokens[2][1] == 'join_col'
Ejemplo n.º 28
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    def test_includeStatement(self):
        stream = tokenize(self.sql)
        includeStatement = IncludeStatement(FILES_DIR,
                                            raiseexceptions=True)
        stream = includeStatement.process(None, stream)
        stream = compact(stream)

        result = Tokens2Unicode(stream)

        self.assertEqual(
            result, (
                'INSERT INTO dir_entries(type)VALUES(:type);INSERT INTO '
                'directories(inode)VALUES(:inode)LIMIT 1'))
Ejemplo n.º 29
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    def run(self, sql, encoding=None):
        stream = lexer.tokenize(sql, encoding)
        # Process token stream
        if self.preprocess:
            for filter_ in self.preprocess:
                stream = filter_.process(self, stream)

        if (self.stmtprocess or self.postprocess or self.split_statements
            or self._grouping):
            splitter = StatementFilter()
            stream = splitter.process(self, stream)

        # import StripCommentsFilter in the run() method to avoid a circular dependency.
        # For stripping comments, the only grouping method we want to invoke is
        # grouping.group(), this considerably improves performance.
        strip_comments_only = False
        if self.stmtprocess and len(self.stmtprocess) == 1:
          from sqlparse.filters import StripCommentsFilter
          strip_comments_only = isinstance(self.stmtprocess[0], StripCommentsFilter)

        if self._grouping:
            def _group(stream):
                for stmt in stream:
                    if strip_comments_only:
                        grouping.group_comments(stmt)
                    else:
                        grouping.group(stmt)
                    yield stmt
            stream = _group(stream)

        if self.stmtprocess:
            def _run1(stream):
                ret = []
                for stmt in stream:
                    for filter_ in self.stmtprocess:
                        filter_.process(self, stmt)
                    ret.append(stmt)
                return ret
            stream = _run1(stream)

        if self.postprocess:

            def _run2(stream):
                for stmt in stream:
                    stmt.tokens = list(self._flatten(stmt.tokens))
                    for filter_ in self.postprocess:
                        stmt = filter_.process(self, stmt)
                    yield stmt
            stream = _run2(stream)

        return stream
Ejemplo n.º 30
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    def parse(self, sql, encoding):
        stream = lexer.tokenize(sql, encoding)
        statements = _split_statements(stream)

        default_stack = engine.FilterStack()
        default_stack.enable_grouping()
        create_table_statement_filter_stack = engine.FilterStack(
            stmtprocess=[filters.MysqlCreateStatementFilter()],
            grouping_funcs=[grouping.group_brackets]
        )
        create_table_statement_filter_stack.enable_grouping()
        for statement in statements:
            if _is_create_table_statement(statement):
                yield create_table_statement_filter_stack.run(statement)
            else:
                yield default_stack.run(statement)
Ejemplo n.º 31
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    def parse(self, sql, encoding):
        stream = lexer.tokenize(sql, encoding)
        statements = _split_statements(stream)

        default_stack = engine.FilterStack()
        default_stack.enable_grouping()
        create_table_statement_filter_stack = engine.FilterStack(
            stmtprocess=[filters.MysqlCreateStatementFilter()],
            grouping_funcs=[grouping.group_brackets]
        )
        create_table_statement_filter_stack.enable_grouping()
        for statement in statements:
            if _is_create_table_statement(statement):
                yield create_table_statement_filter_stack.run(statement)
            else:
                yield default_stack.run(statement)
Ejemplo n.º 32
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    def run(self, sql):
        stream = lexer.tokenize(sql)

        # Process token stream
        if self.preprocess:
            for filter_ in self.preprocess:
                stream = filter_.process(self, stream)

        if (self.stmtprocess or self.postprocess or self.split_statements
                or self._grouping):
            splitter = StatementFilter()
            stream = splitter.process(self, stream)

        if self._grouping:

            def _group(stream):
                for stmt in stream:
                    grouping.group(stmt)
                    yield stmt

            stream = _group(stream)

        if self.stmtprocess:

            def _run1(stream):
                ret = []
                for stmt in stream:
                    for filter_ in self.stmtprocess:
                        filter_.process(self, stmt)
                    ret.append(stmt)
                return ret

            stream = _run1(stream)

        if self.postprocess:

            def _run2(stream):
                for stmt in stream:
                    stmt.tokens = list(self._flatten(stmt.tokens))
                    for filter_ in self.postprocess:
                        stmt = filter_.process(self, stmt)
                    yield stmt

            stream = _run2(stream)

        return stream
Ejemplo n.º 33
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def QueryHasDml(sql):
    """Determines if the sql string contains a DML query.

  Args:
    sql (string): The sql string entered by the user.

  Returns:
    A boolean.
  """
    sql = sql.lstrip().lower()
    tokenized = lexer.tokenize(sql)
    for token in list(tokenized):
        has_dml = (token == (T.Keyword.DML, 'insert')
                   or token == (T.Keyword.DML, 'update')
                   or token == (T.Keyword.DML, 'delete'))
        if has_dml is True:
            return True
    return False
Ejemplo n.º 34
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    def run(self, sql):
        stream = lexer.tokenize(sql)
        # Process token stream
        if self.preprocess:
            for filter_ in self.preprocess:
                stream = filter_.process(self, stream)

        if (self.stmtprocess or self.postprocess or self.split_statements
            or self._grouping):
            splitter = StatementFilter()
            stream = splitter.process(self, stream)

        if self._grouping:

            def _group(stream):
                # modified by rrana
                pass
                for stmt in stream:
                    grouping.group(stmt) 
                    yield stmt
            stream = _group(stream)

        if self.stmtprocess:

            def _run1(stream):
                ret = []
                for stmt in stream:
                    for filter_ in self.stmtprocess:
                        filter_.process(self, stmt)
                    ret.append(stmt)
                return ret
            stream = _run1(stream)

        if self.postprocess:

            def _run2(stream):
                for stmt in stream:
                    stmt.tokens = list(self._flatten(stmt.tokens))
                    for filter_ in self.postprocess:
                        stmt = filter_.process(self, stmt)
                    yield stmt
            stream = _run2(stream)

        return stream
Ejemplo n.º 35
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def format(sql, **options):
    """Format *sql* according to *options*.

    Available options are documented in :ref:`formatting`.

    In addition to the formatting options this function accepts the
    keyword "encoding" which determines the encoding of the statement.

    :returns: The formatted SQL statement as string.
    """
    options = formatter.validate_options(options)
    encoding = options.pop('encoding', None)
    stream = lexer.tokenize(sql, encoding)
    stream = _format_pre_process(stream, options)
    stack = engine.FilterStack()
    stack = formatter.build_filter_stack(stack, options)
    stack.postprocess.append(filters.SerializerUnicode())
    statements = split2(stream)
    return ''.join(stack.run(statement) for statement in statements)
Ejemplo n.º 36
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    def run(self, sql, encoding=None):
        stream = lexer.tokenize(sql, encoding)
        # Process token stream
        for filter_ in self.preprocess:
            stream = filter_.process(stream)

        stream = StatementSplitter().process(stream)

        # Output: Stream processed Statements
        for stmt in stream:
            if self._grouping:
                stmt = grouping.group(stmt)

            for filter_ in self.stmtprocess:
                filter_.process(stmt)

            for filter_ in self.postprocess:
                stmt = filter_.process(stmt)

            yield stmt
Ejemplo n.º 37
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    def run(self, sql, encoding=None):
        stream = lexer.tokenize(sql, encoding)
        # Process token stream
        for filter_ in self.preprocess:
            stream = filter_.process(stream)

        stream = StatementSplitter().process(stream)

        # Output: Stream processed Statements
        for stmt in stream:
            if self._grouping:
                stmt = grouping.group(stmt)

            for filter_ in self.stmtprocess:
                filter_.process(stmt)

            for filter_ in self.postprocess:
                stmt = filter_.process(stmt)

            yield stmt
Ejemplo n.º 38
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    def run(self, sql, encoding=None):
        stream = lexer.tokenize(sql, encoding)
        # Process token stream
        for filter_ in self.preprocess:
            stream = filter_.process(stream)

        # stream contains leaf of all tokens 
        stream = StatementSplitter().process(stream)

        # Output: Stream processed Statements
        # now grouping makes semantically idenfiable group
        for stmt in stream:            
            if self._grouping:                
                stmt = grouping.group(stmt, self.query_reduction)
            for filter_ in self.stmtprocess:
                filter_.process(stmt)

            for filter_ in self.postprocess:
                stmt = filter_.process(stmt)

            yield stmt
Ejemplo n.º 39
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    def run(self, sql, encoding=None):
        stream = lexer.tokenize(
            sql, encoding)  # 通过词法分析器的分析,吐出一个流,其中信息均以(tokentype, value)的形式存在
        # Process token stream
        # 遍历前处理列表中的过滤器
        for filter_ in self.preprocess:
            stream = filter_.process(stream)  # 前处理的过滤器开始进行处理

        stream = StatementSplitter().process(stream)  # 整理前处理结果

        # Output: Stream processed Statements
        # 进行事中处理和后处理
        for stmt in stream:
            if self._grouping:
                stmt = grouping.group(stmt)

            for filter_ in self.stmtprocess:
                filter_.process(stmt)

            for filter_ in self.postprocess:
                stmt = filter_.process(stmt)

            yield stmt
Ejemplo n.º 40
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def test_tokenize_negative_numbers():
    s = "values(-1)"
    tokens = list(lexer.tokenize(s))
    assert len(tokens) == 4
    assert tokens[2][0] == T.Number.Integer
    assert tokens[2][1] == '-1'
Ejemplo n.º 41
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def test_tokenize_linebreaks(s):
    # issue1
    tokens = lexer.tokenize(s)
    assert ''.join(str(x[1]) for x in tokens) == s
Ejemplo n.º 42
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def test_tokenize_linebreaks(s):
    # issue1
    tokens = lexer.tokenize(s)
    assert ''.join(str(x[1]) for x in tokens) == s
Ejemplo n.º 43
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def test_tokenize_backticks():
    s = '`foo`.`bar`'
    tokens = list(lexer.tokenize(s))
    assert len(tokens) == 3
    assert tokens[0] == (T.Name, '`foo`')
Ejemplo n.º 44
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def test_stream_error():
    stream = StringIO("FOOBAR{")

    tokens = list(lexer.tokenize(stream))
    assert len(tokens) == 2
    assert tokens[1][0] == T.Error
Ejemplo n.º 45
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def test_tokenize_negative_numbers():
    s = "values(-1)"
    tokens = list(lexer.tokenize(s))
    assert len(tokens) == 4
    assert tokens[2][0] == T.Number.Integer
    assert tokens[2][1] == '-1'
Ejemplo n.º 46
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 def test_getcolumns1(self):
     columns = getcolumns(tokenize(self.sql))
     self.assertEqual(columns, [])
Ejemplo n.º 47
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 def test_getcolumns3(self):
     columns = getcolumns(tokenize(self.sql3))
     self.assertEqual(columns, ['st_dev', 'st_uid', 'st_gid', 'st_mode',
                                'st_ino', 'st_nlink', 'st_ctime',
                                'st_atime', 'st_mtime', 'st_size', 'size'])
Ejemplo n.º 48
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 def test_getcolumns2(self):
     columns = getcolumns(tokenize(self.sql2))
     self.assertEqual(columns, ['child_entry', 'inode', 'creation'])
Ejemplo n.º 49
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 def test_backticks(self):
     sql = '`foo`.`bar`'
     tokens = list(lexer.tokenize(sql))
     self.assertEqual(len(tokens), 3)
     self.assertEqual(tokens[0], (Name, u'`foo`'))
Ejemplo n.º 50
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 def test_getlimit3(self):
     limit = getlimit(tokenize(self.sql3))
     self.assertEqual(limit, 1)
Ejemplo n.º 51
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    def test_istype2(self):
        stream = tokenize(self.sql2)
        self.assertTrue(IsType('SELECT')(stream))

        stream = tokenize(self.sql2)
        self.assertFalse(IsType('INSERT')(stream))
Ejemplo n.º 52
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 def test_StripWhitespace1(self):
     self.assertEqual(
         Tokens2Unicode(StripWhitespace(tokenize(self.sql))),
         'INSERT INTO dir_entries(type)VALUES(:type);INSERT INTO '
         'directories(inode)VALUES(:inode)LIMIT 1')
Ejemplo n.º 53
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 def test_StripWhitespace2(self):
     self.assertEqual(
         Tokens2Unicode(StripWhitespace(tokenize(self.sql2))),
         'SELECT child_entry,asdf AS inode,creation FROM links WHERE '
         'parent_dir==:parent_dir AND name==:name LIMIT 1')