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      """

      Code to generate a Python model from a database or differences

      between a model and database.

      Some of this is borrowed heavily from the AutoCode project at:

      http://code.google.com/p/sqlautocode/

      """

      import sys

      import logging

      import sqlalchemy

      import rhodecode.lib.dbmigrate.migrate

      import rhodecode.lib.dbmigrate.migrate.changeset

      log = logging.getLogger(__name__)

      HEADER = """

      ## File autogenerated by genmodel.py

      from sqlalchemy import *

      """

      META_DEFINITION = "meta = MetaData()"

      DECLARATIVE_DEFINITION = """

      from sqlalchemy.ext import declarative

      Base = declarative.declarative_base()

      """

      class ModelGenerator(object):

          """Various transformations from an A, B diff.

          In the implementation, A tends to be called the model and B

          the database (although this is not true of all diffs).

          The diff is directionless, but transformations apply the diff

          in a particular direction, described in the method name.

          """

          def __init__(self, diff, engine, declarative=False):

              self.diff = diff

              self.engine = engine

              self.declarative = declarative

          def column_repr(self, col):

              kwarg = []

              if col.key != col.name:

                  kwarg.append('key')

              if col.primary_key:

                  col.primary_key = True  # otherwise it dumps it as 1

                  kwarg.append('primary_key')

              if not col.nullable:

                  kwarg.append('nullable')

              if col.onupdate:

                  kwarg.append('onupdate')

              if col.default:

                  if col.primary_key:

                      # I found that PostgreSQL automatically creates a

                      # default value for the sequence, but let's not show

                      # that.

                      pass

                  else:

                      kwarg.append('default')

              args = ['%s=%r' % (k, getattr(col, k)) for k in kwarg]

              # crs: not sure if this is good idea, but it gets rid of extra

              # u''

              name = col.name.encode('utf8')

              type_ = col.type

              for cls in col.type.__class__.__mro__:

                  if cls.__module__ == 'sqlalchemy.types' and \

                      not cls.__name__.isupper():

                      if cls is not type_.__class__:

                          type_ = cls()

                      break

              type_repr = repr(type_)

              if type_repr.endswith('()'):

                  type_repr = type_repr[:-2]

              constraints = [repr(cn) for cn in col.constraints]

              data = {

                  'name': name,

                  'commonStuff': ', '.join([type_repr] + constraints + args),

              }

              if self.declarative:

                  return """%(name)s = Column(%(commonStuff)s)""" % data

              else:

                  return """Column(%(name)r, %(commonStuff)s)""" % data

          def _getTableDefn(self, table, metaName='meta'):

              out = []

              tableName = table.name

              if self.declarative:

                  out.append("class %(table)s(Base):" % {'table': tableName})

                  out.append("    __tablename__ = '%(table)s'\n" %

                                  {'table': tableName})

                  for col in table.columns:

                      out.append("    %s" % self.column_repr(col))

                  out.append('\n')

              else:

                  out.append("%(table)s = Table('%(table)s', %(meta)s," %

                             {'table': tableName, 'meta': metaName})

                  for col in table.columns:

                      out.append("    %s," % self.column_repr(col))

                  out.append(")\n")

              return out

          def _get_tables(self,missingA=False,missingB=False,modified=False):

              to_process = []

              for bool_,names,metadata in (

                  (missingA,self.diff.tables_missing_from_A,self.diff.metadataB),

                  (missingB,self.diff.tables_missing_from_B,self.diff.metadataA),

                  (modified,self.diff.tables_different,self.diff.metadataA),

                      ):

                  if bool_:

                      for name in names:

                          yield metadata.tables.get(name)

          def _genModelHeader(self, tables):

              out = []

              import_index = []

              out.append(HEADER)

              for table in tables:

                  for col in table.columns:

                      if "dialects" in col.type.__module__ and \

                         col.type.__class__ not in import_index:

                          out.append("from " + col.type.__module__ +

                                     " import " + col.type.__class__.__name__)

                          import_index.append(col.type.__class__)

              out.append("")

              if self.declarative:

                  out.append(DECLARATIVE_DEFINITION)

              else:

                  out.append(META_DEFINITION)

              out.append("")

              return out

          def genBDefinition(self):

              """Generates the source code for a definition of B.

              Assumes a diff where A is empty.

              Was: toPython. Assume database (B) is current and model (A) is empty.

              """

              out = []

              out.extend(self._genModelHeader(self._get_tables(missingA=True)))

              for table in self._get_tables(missingA=True):

                  out.extend(self._getTableDefn(table))

              return '\n'.join(out)

          def genB2AMigration(self, indent='    '):

              """Generate a migration from B to A.

              Was: toUpgradeDowngradePython

              Assume model (A) is most current and database (B) is out-of-date.

              """

              decls = ['from rhodecode.lib.dbmigrate.migrate.changeset import schema',

                       'pre_meta = MetaData()',

                       'post_meta = MetaData()',

                      ]

              upgradeCommands = ['pre_meta.bind = migrate_engine',

                                 'post_meta.bind = migrate_engine']

              downgradeCommands = list(upgradeCommands)

              for tn in self.diff.tables_missing_from_A:

                  pre_table = self.diff.metadataB.tables[tn]

                  decls.extend(self._getTableDefn(pre_table, metaName='pre_meta'))

                  upgradeCommands.append(

                      "pre_meta.tables[%(table)r].drop()" % {'table': tn})

                  downgradeCommands.append(

                      "pre_meta.tables[%(table)r].create()" % {'table': tn})

              for tn in self.diff.tables_missing_from_B:

                  post_table = self.diff.metadataA.tables[tn]

                  decls.extend(self._getTableDefn(post_table, metaName='post_meta'))

                  upgradeCommands.append(

                      "post_meta.tables[%(table)r].create()" % {'table': tn})

                  downgradeCommands.append(

                      "post_meta.tables[%(table)r].drop()" % {'table': tn})

              for (tn, td) in self.diff.tables_different.iteritems():

                  if td.columns_missing_from_A or td.columns_different:

                      pre_table = self.diff.metadataB.tables[tn]

                      decls.extend(self._getTableDefn(

                          pre_table, metaName='pre_meta'))

                  if td.columns_missing_from_B or td.columns_different:

                      post_table = self.diff.metadataA.tables[tn]

                      decls.extend(self._getTableDefn(

                          post_table, metaName='post_meta'))

                  for col in td.columns_missing_from_A:

                      upgradeCommands.append(

                          'pre_meta.tables[%r].columns[%r].drop()' % (tn, col))

                      downgradeCommands.append(

                          'pre_meta.tables[%r].columns[%r].create()' % (tn, col))

                  for col in td.columns_missing_from_B:

                      upgradeCommands.append(

                          'post_meta.tables[%r].columns[%r].create()' % (tn, col))

                      downgradeCommands.append(

                          'post_meta.tables[%r].columns[%r].drop()' % (tn, col))

                  for modelCol, databaseCol, modelDecl, databaseDecl in td.columns_different:

                      upgradeCommands.append(

                          'assert False, "Can\'t alter columns: %s:%s=>%s"' % (

                          tn, modelCol.name, databaseCol.name))

                      downgradeCommands.append(

                          'assert False, "Can\'t alter columns: %s:%s=>%s"' % (

                          tn, modelCol.name, databaseCol.name))

              return (

                  '\n'.join(decls),

                  '\n'.join('%s%s' % (indent, line) for line in upgradeCommands),

                  '\n'.join('%s%s' % (indent, line) for line in downgradeCommands))

          def _db_can_handle_this_change(self,td):

              """Check if the database can handle going from B to A."""

              if (td.columns_missing_from_B

                  and not td.columns_missing_from_A

                  and not td.columns_different):

                  # Even sqlite can handle column additions.

                  return True

              else:

                  return not self.engine.url.drivername.startswith('sqlite')

          def runB2A(self):

              """Goes from B to A.

              Was: applyModel. Apply model (A) to current database (B).

              """

              meta = sqlalchemy.MetaData(self.engine)

              for table in self._get_tables(missingA=True):

                  table = table.tometadata(meta)

                  table.drop()

              for table in self._get_tables(missingB=True):

                  table = table.tometadata(meta)

                  table.create()

              for modelTable in self._get_tables(modified=True):

                  tableName = modelTable.name

                  modelTable = modelTable.tometadata(meta)

                  dbTable = self.diff.metadataB.tables[tableName]

                  td = self.diff.tables_different[tableName]

                  if self._db_can_handle_this_change(td):

                      for col in td.columns_missing_from_B:

                          modelTable.columns[col].create()

                      for col in td.columns_missing_from_A:

                          dbTable.columns[col].drop()

                      # XXX handle column changes here.

                  else:

                      # Sqlite doesn't support drop column, so you have to

                      # do more: create temp table, copy data to it, drop

                      # old table, create new table, copy data back.

                      #

                      # I wonder if this is guaranteed to be unique?

                      tempName = '_temp_%s' % modelTable.name

                      def getCopyStatement():

                          preparer = self.engine.dialect.preparer

                          commonCols = []

                          for modelCol in modelTable.columns:

                              if modelCol.name in dbTable.columns:

                                  commonCols.append(modelCol.name)

                          commonColsStr = ', '.join(commonCols)

                          return 'INSERT INTO %s (%s) SELECT %s FROM %s' % \

                              (tableName, commonColsStr, commonColsStr, tempName)

                      # Move the data in one transaction, so that we don't

                      # leave the database in a nasty state.

                      connection = self.engine.connect()

                      trans = connection.begin()

                      try:

                          connection.execute(

                              'CREATE TEMPORARY TABLE %s as SELECT * from %s' % \

                                  (tempName, modelTable.name))

                          # make sure the drop takes place inside our

                          # transaction with the bind parameter

                          modelTable.drop(bind=connection)

                          modelTable.create(bind=connection)

                          connection.execute(getCopyStatement())

                          connection.execute('DROP TABLE %s' % tempName)

                          trans.commit()

                      except:

                          trans.rollback()

                          raise

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				"""
				Code to generate a Python model from a database or differences
				between a model and database.

				Some of this is borrowed heavily from the AutoCode project at:
				http://code.google.com/p/sqlautocode/
				"""

				import sys
				import logging

				import sqlalchemy

				import rhodecode.lib.dbmigrate.migrate
				import rhodecode.lib.dbmigrate.migrate.changeset


				log = logging.getLogger(__name__)
				HEADER = """
				## File autogenerated by genmodel.py

				from sqlalchemy import *
				"""

				META_DEFINITION = "meta = MetaData()"

				DECLARATIVE_DEFINITION = """
				from sqlalchemy.ext import declarative

				Base = declarative.declarative_base()
				"""


				class ModelGenerator(object):
				"""Various transformations from an A, B diff.

				In the implementation, A tends to be called the model and B
				the database (although this is not true of all diffs).
				The diff is directionless, but transformations apply the diff
				in a particular direction, described in the method name.
				"""

				def __init__(self, diff, engine, declarative=False):
				self.diff = diff
				self.engine = engine
				self.declarative = declarative

				def column_repr(self, col):
				kwarg = []
				if col.key != col.name:
				kwarg.append('key')
				if col.primary_key:
				col.primary_key = True # otherwise it dumps it as 1
				kwarg.append('primary_key')
				if not col.nullable:
				kwarg.append('nullable')
				if col.onupdate:
				kwarg.append('onupdate')
				if col.default:
				if col.primary_key:
				# I found that PostgreSQL automatically creates a
				# default value for the sequence, but let's not show
				# that.
				pass
				else:
				kwarg.append('default')
				args = ['%s=%r' % (k, getattr(col, k)) for k in kwarg]

				# crs: not sure if this is good idea, but it gets rid of extra
				# u''
				name = col.name.encode('utf8')

				type_ = col.type
				for cls in col.type.__class__.__mro__:
				if cls.__module__ == 'sqlalchemy.types' and \
				not cls.__name__.isupper():
				if cls is not type_.__class__:
				type_ = cls()
				break

				type_repr = repr(type_)
				if type_repr.endswith('()'):
				type_repr = type_repr[:-2]

				constraints = [repr(cn) for cn in col.constraints]

				data = {
				'name': name,
				'commonStuff': ', '.join([type_repr] + constraints + args),
				}

				if self.declarative:
				return """%(name)s = Column(%(commonStuff)s)""" % data
				else:
				return """Column(%(name)r, %(commonStuff)s)""" % data

				def _getTableDefn(self, table, metaName='meta'):
				out = []
				tableName = table.name
				if self.declarative:
				out.append("class %(table)s(Base):" % {'table': tableName})
				out.append(" __tablename__ = '%(table)s'\n" %
				{'table': tableName})
				for col in table.columns:
				out.append(" %s" % self.column_repr(col))
				out.append('\n')
				else:
				out.append("%(table)s = Table('%(table)s', %(meta)s," %
				{'table': tableName, 'meta': metaName})
				for col in table.columns:
				out.append(" %s," % self.column_repr(col))
				out.append(")\n")
				return out

				def _get_tables(self,missingA=False,missingB=False,modified=False):
				to_process = []
				for bool_,names,metadata in (
				(missingA,self.diff.tables_missing_from_A,self.diff.metadataB),
				(missingB,self.diff.tables_missing_from_B,self.diff.metadataA),
				(modified,self.diff.tables_different,self.diff.metadataA),
				):
				if bool_:
				for name in names:
				yield metadata.tables.get(name)

				def _genModelHeader(self, tables):
				out = []
				import_index = []

				out.append(HEADER)

				for table in tables:
				for col in table.columns:
				if "dialects" in col.type.__module__ and \
				col.type.__class__ not in import_index:
				out.append("from " + col.type.__module__ +
				" import " + col.type.__class__.__name__)
				import_index.append(col.type.__class__)

				out.append("")

				if self.declarative:
				out.append(DECLARATIVE_DEFINITION)
				else:
				out.append(META_DEFINITION)
				out.append("")

				return out

				def genBDefinition(self):
				"""Generates the source code for a definition of B.

				Assumes a diff where A is empty.

				Was: toPython. Assume database (B) is current and model (A) is empty.
				"""

				out = []
				out.extend(self._genModelHeader(self._get_tables(missingA=True)))
				for table in self._get_tables(missingA=True):
				out.extend(self._getTableDefn(table))
				return '\n'.join(out)

				def genB2AMigration(self, indent=' '):
				"""Generate a migration from B to A.

				Was: toUpgradeDowngradePython
				Assume model (A) is most current and database (B) is out-of-date.
				"""

				decls = ['from rhodecode.lib.dbmigrate.migrate.changeset import schema',
				'pre_meta = MetaData()',
				'post_meta = MetaData()',
				]
				upgradeCommands = ['pre_meta.bind = migrate_engine',
				'post_meta.bind = migrate_engine']
				downgradeCommands = list(upgradeCommands)

				for tn in self.diff.tables_missing_from_A:
				pre_table = self.diff.metadataB.tables[tn]
				decls.extend(self._getTableDefn(pre_table, metaName='pre_meta'))
				upgradeCommands.append(
				"pre_meta.tables[%(table)r].drop()" % {'table': tn})
				downgradeCommands.append(
				"pre_meta.tables[%(table)r].create()" % {'table': tn})

				for tn in self.diff.tables_missing_from_B:
				post_table = self.diff.metadataA.tables[tn]
				decls.extend(self._getTableDefn(post_table, metaName='post_meta'))
				upgradeCommands.append(
				"post_meta.tables[%(table)r].create()" % {'table': tn})
				downgradeCommands.append(
				"post_meta.tables[%(table)r].drop()" % {'table': tn})

				for (tn, td) in self.diff.tables_different.iteritems():
				if td.columns_missing_from_A or td.columns_different:
				pre_table = self.diff.metadataB.tables[tn]
				decls.extend(self._getTableDefn(
				pre_table, metaName='pre_meta'))
				if td.columns_missing_from_B or td.columns_different:
				post_table = self.diff.metadataA.tables[tn]
				decls.extend(self._getTableDefn(
				post_table, metaName='post_meta'))

				for col in td.columns_missing_from_A:
				upgradeCommands.append(
				'pre_meta.tables[%r].columns[%r].drop()' % (tn, col))
				downgradeCommands.append(
				'pre_meta.tables[%r].columns[%r].create()' % (tn, col))
				for col in td.columns_missing_from_B:
				upgradeCommands.append(
				'post_meta.tables[%r].columns[%r].create()' % (tn, col))
				downgradeCommands.append(
				'post_meta.tables[%r].columns[%r].drop()' % (tn, col))
				for modelCol, databaseCol, modelDecl, databaseDecl in td.columns_different:
				upgradeCommands.append(
				'assert False, "Can\'t alter columns: %s:%s=>%s"' % (
				tn, modelCol.name, databaseCol.name))
				downgradeCommands.append(
				'assert False, "Can\'t alter columns: %s:%s=>%s"' % (
				tn, modelCol.name, databaseCol.name))

				return (
				'\n'.join(decls),
				'\n'.join('%s%s' % (indent, line) for line in upgradeCommands),
				'\n'.join('%s%s' % (indent, line) for line in downgradeCommands))

				def _db_can_handle_this_change(self,td):
				"""Check if the database can handle going from B to A."""

				if (td.columns_missing_from_B
				and not td.columns_missing_from_A
				and not td.columns_different):
				# Even sqlite can handle column additions.
				return True
				else:
				return not self.engine.url.drivername.startswith('sqlite')

				def runB2A(self):
				"""Goes from B to A.

				Was: applyModel. Apply model (A) to current database (B).
				"""

				meta = sqlalchemy.MetaData(self.engine)

				for table in self._get_tables(missingA=True):
				table = table.tometadata(meta)
				table.drop()
				for table in self._get_tables(missingB=True):
				table = table.tometadata(meta)
				table.create()
				for modelTable in self._get_tables(modified=True):
				tableName = modelTable.name
				modelTable = modelTable.tometadata(meta)
				dbTable = self.diff.metadataB.tables[tableName]

				td = self.diff.tables_different[tableName]

				if self._db_can_handle_this_change(td):

				for col in td.columns_missing_from_B:
				modelTable.columns[col].create()
				for col in td.columns_missing_from_A:
				dbTable.columns[col].drop()
				# XXX handle column changes here.
				else:
				# Sqlite doesn't support drop column, so you have to
				# do more: create temp table, copy data to it, drop
				# old table, create new table, copy data back.
				#
				# I wonder if this is guaranteed to be unique?
				tempName = '_temp_%s' % modelTable.name

				def getCopyStatement():
				preparer = self.engine.dialect.preparer
				commonCols = []
				for modelCol in modelTable.columns:
				if modelCol.name in dbTable.columns:
				commonCols.append(modelCol.name)
				commonColsStr = ', '.join(commonCols)
				return 'INSERT INTO %s (%s) SELECT %s FROM %s' % \
				(tableName, commonColsStr, commonColsStr, tempName)

				# Move the data in one transaction, so that we don't
				# leave the database in a nasty state.
				connection = self.engine.connect()
				trans = connection.begin()
				try:
				connection.execute(
				'CREATE TEMPORARY TABLE %s as SELECT * from %s' % \
				(tempName, modelTable.name))
				# make sure the drop takes place inside our
				# transaction with the bind parameter
				modelTable.drop(bind=connection)
				modelTable.create(bind=connection)
				connection.execute(getCopyStatement())
				connection.execute('DROP TABLE %s' % tempName)
				trans.commit()
				except:
				trans.rollback()
				raise