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calibre-web/vendor/sqlalchemy/engine/ddl.py
2016-04-27 17:47:31 +02:00

194 lines
6.9 KiB
Python

# engine/ddl.py
# Copyright (C) 2009-2013 the SQLAlchemy authors and contributors <see AUTHORS file>
#
# This module is part of SQLAlchemy and is released under
# the MIT License: http://www.opensource.org/licenses/mit-license.php
"""Routines to handle CREATE/DROP workflow."""
from .. import schema
from ..sql import util as sql_util
class DDLBase(schema.SchemaVisitor):
def __init__(self, connection):
self.connection = connection
class SchemaGenerator(DDLBase):
def __init__(self, dialect, connection, checkfirst=False,
tables=None, **kwargs):
super(SchemaGenerator, self).__init__(connection, **kwargs)
self.checkfirst = checkfirst
self.tables = tables
self.preparer = dialect.identifier_preparer
self.dialect = dialect
self.memo = {}
def _can_create_table(self, table):
self.dialect.validate_identifier(table.name)
if table.schema:
self.dialect.validate_identifier(table.schema)
return not self.checkfirst or \
not self.dialect.has_table(self.connection,
table.name, schema=table.schema)
def _can_create_sequence(self, sequence):
return self.dialect.supports_sequences and \
(
(not self.dialect.sequences_optional or
not sequence.optional) and
(
not self.checkfirst or
not self.dialect.has_sequence(
self.connection,
sequence.name,
schema=sequence.schema)
)
)
def visit_metadata(self, metadata):
if self.tables is not None:
tables = self.tables
else:
tables = metadata.tables.values()
collection = [t for t in sql_util.sort_tables(tables)
if self._can_create_table(t)]
seq_coll = [s for s in metadata._sequences.values()
if s.column is None and self._can_create_sequence(s)]
metadata.dispatch.before_create(metadata, self.connection,
tables=collection,
checkfirst=self.checkfirst,
_ddl_runner=self)
for seq in seq_coll:
self.traverse_single(seq, create_ok=True)
for table in collection:
self.traverse_single(table, create_ok=True)
metadata.dispatch.after_create(metadata, self.connection,
tables=collection,
checkfirst=self.checkfirst,
_ddl_runner=self)
def visit_table(self, table, create_ok=False):
if not create_ok and not self._can_create_table(table):
return
table.dispatch.before_create(table, self.connection,
checkfirst=self.checkfirst,
_ddl_runner=self)
for column in table.columns:
if column.default is not None:
self.traverse_single(column.default)
self.connection.execute(schema.CreateTable(table))
if hasattr(table, 'indexes'):
for index in table.indexes:
self.traverse_single(index)
table.dispatch.after_create(table, self.connection,
checkfirst=self.checkfirst,
_ddl_runner=self)
def visit_sequence(self, sequence, create_ok=False):
if not create_ok and not self._can_create_sequence(sequence):
return
self.connection.execute(schema.CreateSequence(sequence))
def visit_index(self, index):
self.connection.execute(schema.CreateIndex(index))
class SchemaDropper(DDLBase):
def __init__(self, dialect, connection, checkfirst=False,
tables=None, **kwargs):
super(SchemaDropper, self).__init__(connection, **kwargs)
self.checkfirst = checkfirst
self.tables = tables
self.preparer = dialect.identifier_preparer
self.dialect = dialect
self.memo = {}
def visit_metadata(self, metadata):
if self.tables is not None:
tables = self.tables
else:
tables = metadata.tables.values()
collection = [
t
for t in reversed(sql_util.sort_tables(tables))
if self._can_drop_table(t)
]
seq_coll = [
s
for s in metadata._sequences.values()
if s.column is None and self._can_drop_sequence(s)
]
metadata.dispatch.before_drop(
metadata, self.connection, tables=collection,
checkfirst=self.checkfirst, _ddl_runner=self)
for table in collection:
self.traverse_single(table, drop_ok=True)
for seq in seq_coll:
self.traverse_single(seq, drop_ok=True)
metadata.dispatch.after_drop(
metadata, self.connection, tables=collection,
checkfirst=self.checkfirst, _ddl_runner=self)
def _can_drop_table(self, table):
self.dialect.validate_identifier(table.name)
if table.schema:
self.dialect.validate_identifier(table.schema)
return not self.checkfirst or self.dialect.has_table(self.connection,
table.name, schema=table.schema)
def _can_drop_sequence(self, sequence):
return self.dialect.supports_sequences and \
((not self.dialect.sequences_optional or
not sequence.optional) and
(not self.checkfirst or
self.dialect.has_sequence(
self.connection,
sequence.name,
schema=sequence.schema))
)
def visit_index(self, index):
self.connection.execute(schema.DropIndex(index))
def visit_table(self, table, drop_ok=False):
if not drop_ok and not self._can_drop_table(table):
return
table.dispatch.before_drop(table, self.connection,
checkfirst=self.checkfirst,
_ddl_runner=self)
for column in table.columns:
if column.default is not None:
self.traverse_single(column.default)
self.connection.execute(schema.DropTable(table))
table.dispatch.after_drop(table, self.connection,
checkfirst=self.checkfirst,
_ddl_runner=self)
def visit_sequence(self, sequence, drop_ok=False):
if not drop_ok and not self._can_drop_sequence(sequence):
return
self.connection.execute(schema.DropSequence(sequence))