from django.core.management.base import NoArgsCommand from django.core.management.color import no_style from optparse import make_option import sys try: set except NameError: from sets import Set as set # Python 2.3 fallback class Command(NoArgsCommand): option_list = NoArgsCommand.option_list + ( make_option('--noinput', action='store_false', dest='interactive', default=True, help='Tells Django to NOT prompt the user for input of any kind.'), ) help = "Create the database tables for all apps in INSTALLED_APPS whose tables haven't already been created." def handle_noargs(self, **options): from django.db import connection, transaction, models from django.conf import settings from django.core.management.sql import custom_sql_for_model, emit_post_sync_signal verbosity = int(options.get('verbosity', 1)) interactive = options.get('interactive') show_traceback = options.get('traceback', False) self.style = no_style() # Import the 'management' module within each installed app, to register # dispatcher events. for app_name in settings.INSTALLED_APPS: try: __import__(app_name + '.management', {}, {}, ['']) except ImportError, exc: # This is slightly hackish. We want to ignore ImportErrors # if the "management" module itself is missing -- but we don't # want to ignore the exception if the management module exists # but raises an ImportError for some reason. The only way we # can do this is to check the text of the exception. Note that # we're a bit broad in how we check the text, because different # Python implementations may not use the same text. # CPython uses the text "No module named management" # PyPy uses "No module named myproject.myapp.management" msg = exc.args[0] if not msg.startswith('No module named') or 'management' not in msg: raise cursor = connection.cursor() # Get a list of already installed *models* so that references work right. tables = connection.introspection.table_names() seen_models = connection.introspection.installed_models(tables) created_models = set() pending_references = {} # Create the tables for each model for app in models.get_apps(): app_name = app.__name__.split('.')[-2] model_list = models.get_models(app) for model in model_list: # Create the model's database table, if it doesn't already exist. if verbosity >= 2: print "Processing %s.%s model" % (app_name, model._meta.object_name) if connection.introspection.table_name_converter(model._meta.db_table) in tables: continue sql, references = connection.creation.sql_create_model(model, self.style, seen_models) seen_models.add(model) created_models.add(model) for refto, refs in references.items(): pending_references.setdefault(refto, []).extend(refs) if refto in seen_models: sql.extend(connection.creation.sql_for_pending_references(refto, self.style, pending_references)) sql.extend(connection.creation.sql_for_pending_references(model, self.style, pending_references)) if verbosity >= 1 and sql: print "Creating table %s" % model._meta.db_table for statement in sql: cursor.execute(statement) tables.append(connection.introspection.table_name_converter(model._meta.db_table)) # Create the m2m tables. This must be done after all tables have been created # to ensure that all referred tables will exist. for app in models.get_apps(): app_name = app.__name__.split('.')[-2] model_list = models.get_models(app) for model in model_list: if model in created_models: sql = connection.creation.sql_for_many_to_many(model, self.style) if sql: if verbosity >= 2: print "Creating many-to-many tables for %s.%s model" % (app_name, model._meta.object_name) for statement in sql: cursor.execute(statement) transaction.commit_unless_managed() # Send the post_syncdb signal, so individual apps can do whatever they need # to do at this point. emit_post_sync_signal(created_models, verbosity, interactive) # The connection may have been closed by a syncdb handler. cursor = connection.cursor() # Install custom SQL for the app (but only if this # is a model we've just created) for app in models.get_apps(): app_name = app.__name__.split('.')[-2] for model in models.get_models(app): if model in created_models: custom_sql = custom_sql_for_model(model, self.style) if custom_sql: if verbosity >= 1: print "Installing custom SQL for %s.%s model" % (app_name, model._meta.object_name) try: for sql in custom_sql: cursor.execute(sql) except Exception, e: sys.stderr.write("Failed to install custom SQL for %s.%s model: %s\n" % \ (app_name, model._meta.object_name, e)) if show_traceback: import traceback traceback.print_exc() transaction.rollback_unless_managed() else: transaction.commit_unless_managed() else: if verbosity >= 2: print "No custom SQL for %s.%s model" % (app_name, model._meta.object_name) # Install SQL indicies for all newly created models for app in models.get_apps(): app_name = app.__name__.split('.')[-2] for model in models.get_models(app): if model in created_models: index_sql = connection.creation.sql_indexes_for_model(model, self.style) if index_sql: if verbosity >= 1: print "Installing index for %s.%s model" % (app_name, model._meta.object_name) try: for sql in index_sql: cursor.execute(sql) except Exception, e: sys.stderr.write("Failed to install index for %s.%s model: %s\n" % \ (app_name, model._meta.object_name, e)) transaction.rollback_unless_managed() else: transaction.commit_unless_managed() # Install the 'initial_data' fixture, using format discovery from django.core.management import call_command call_command('loaddata', 'initial_data', verbosity=verbosity)