webapp/django/core/management/base.py - gerrit-attic - Git at Google

 import os
 import sys
 from optparse import make_option, OptionParser

 import django
 from django.core.exceptions import ImproperlyConfigured
 from django.core.management.color import color_style

 try:
     set
 except NameError:
     from sets import Set as set     # For Python 2.3

 class CommandError(Exception):
     pass

 def handle_default_options(options):
     """
     Include any default options that all commands should accept
     here so that ManagementUtility can handle them before searching
     for user commands.
     """
     if options.settings:
         os.environ['DJANGO_SETTINGS_MODULE'] = options.settings
     if options.pythonpath:
         sys.path.insert(0, options.pythonpath)

 class BaseCommand(object):
     # Metadata about this command.
     option_list = (
         make_option('--settings',
             help='The Python path to a settings module, e.g. "myproject.settings.main". If this isn\'t provided, the DJANGO_SETTINGS_MODULE environment variable will be used.'),
         make_option('--pythonpath',
             help='A directory to add to the Python path, e.g. "/home/djangoprojects/myproject".'),
         make_option('--traceback', action='store_true',
             help='Print traceback on exception'),
     )
     help = ''
     args = ''

     # Configuration shortcuts that alter various logic.
     can_import_settings = True
     requires_model_validation = True
     output_transaction = False # Whether to wrap the output in a "BEGIN; COMMIT;"

     def __init__(self):
         self.style = color_style()

     def get_version(self):
         """
         Returns the Django version, which should be correct for all built-in
         Django commands. User-supplied commands should override this method.
         """
         return django.get_version()

     def usage(self, subcommand):
         usage = '%%prog %s [options] %s' % (subcommand, self.args)
         if self.help:
             return '%s\n\n%s' % (usage, self.help)
         else:
             return usage

     def create_parser(self, prog_name, subcommand):
         return OptionParser(prog=prog_name,
                             usage=self.usage(subcommand),
                             version=self.get_version(),
                             option_list=self.option_list)

     def print_help(self, prog_name, subcommand):
         parser = self.create_parser(prog_name, subcommand)
         parser.print_help()

     def run_from_argv(self, argv):
         parser = self.create_parser(argv[0], argv[1])
         options, args = parser.parse_args(argv[2:])
         handle_default_options(options)
         self.execute(*args, **options.__dict__)

     def execute(self, *args, **options):
         # Switch to English, because django-admin.py creates database content
         # like permissions, and those shouldn't contain any translations.
         # But only do this if we can assume we have a working settings file,
         # because django.utils.translation requires settings.
         if self.can_import_settings:
             try:
                 from django.utils import translation
                 translation.activate('en-us')
             except ImportError, e:
                 # If settings should be available, but aren't,
                 # raise the error and quit.
                 sys.stderr.write(self.style.ERROR(str('Error: %s\n' % e)))
                 sys.exit(1)
         try:
             if self.requires_model_validation:
                 self.validate()
             output = self.handle(*args, **options)
             if output:
                 if self.output_transaction:
                     # This needs to be imported here, because it relies on settings.
                     from django.db import connection
                     if connection.ops.start_transaction_sql():
                         print self.style.SQL_KEYWORD(connection.ops.start_transaction_sql())
                 print output
                 if self.output_transaction:
                     print self.style.SQL_KEYWORD("COMMIT;")
         except CommandError, e:
             sys.stderr.write(self.style.ERROR(str('Error: %s\n' % e)))
             sys.exit(1)

     def validate(self, app=None, display_num_errors=False):
         """
         Validates the given app, raising CommandError for any errors.

         If app is None, then this will validate all installed apps.
         """
         from django.core.management.validation import get_validation_errors
         try:
             from cStringIO import StringIO
         except ImportError:
             from StringIO import StringIO
         s = StringIO()
         num_errors = get_validation_errors(s, app)
         if num_errors:
             s.seek(0)
             error_text = s.read()
             raise CommandError("One or more models did not validate:\n%s" % error_text)
         if display_num_errors:
             print "%s error%s found" % (num_errors, num_errors != 1 and 's' or '')

     def handle(self, *args, **options):
         raise NotImplementedError()

 class AppCommand(BaseCommand):
     args = '<appname appname ...>'

     def handle(self, *app_labels, **options):
         from django.db import models
         if not app_labels:
             raise CommandError('Enter at least one appname.')
         try:
             app_list = [models.get_app(app_label) for app_label in app_labels]
         except (ImproperlyConfigured, ImportError), e:
             raise CommandError("%s. Are you sure your INSTALLED_APPS setting is correct?" % e)
         output = []
         for app in app_list:
             app_output = self.handle_app(app, **options)
             if app_output:
                 output.append(app_output)
         return '\n'.join(output)

     def handle_app(self, app, **options):
         raise NotImplementedError()

 class LabelCommand(BaseCommand):
     args = '<label label ...>'
     label = 'label'

     def handle(self, *labels, **options):
         if not labels:
             raise CommandError('Enter at least one %s.' % self.label)

         output = []
         for label in labels:
             label_output = self.handle_label(label, **options)
             if label_output:
                 output.append(label_output)
         return '\n'.join(output)

     def handle_label(self, label, **options):
         raise NotImplementedError()

 class NoArgsCommand(BaseCommand):
     args = ''

     def handle(self, *args, **options):
         if args:
             raise CommandError("Command doesn't accept any arguments")
         return self.handle_noargs(**options)

     def handle_noargs(self, **options):
         raise NotImplementedError()

 def copy_helper(style, app_or_project, name, directory, other_name=''):
     """
     Copies either a Django application layout template or a Django project
     layout template into the specified directory.
     """
     # style -- A color style object (see django.core.management.color).
     # app_or_project -- The string 'app' or 'project'.
     # name -- The name of the application or project.
     # directory -- The directory to which the layout template should be copied.
     # other_name -- When copying an application layout, this should be the name
     #               of the project.
     import re
     import shutil
     other = {'project': 'app', 'app': 'project'}[app_or_project]
     if not re.search(r'^\w+$', name): # If it's not a valid directory name.
         raise CommandError("%r is not a valid %s name. Please use only numbers, letters and underscores." % (name, app_or_project))
     top_dir = os.path.join(directory, name)
     try:
         os.mkdir(top_dir)
     except OSError, e:
         raise CommandError(e)

     # Determine where the app or project templates are. Use
     # django.__path__[0] because we don't know into which directory
     # django has been installed.
     template_dir = os.path.join(django.__path__[0], 'conf', '%s_template' % app_or_project)

     for d, subdirs, files in os.walk(template_dir):
         relative_dir = d[len(template_dir)+1:].replace('%s_name' % app_or_project, name)
         if relative_dir:
             os.mkdir(os.path.join(top_dir, relative_dir))
         for i, subdir in enumerate(subdirs):
             if subdir.startswith('.'):
                 del subdirs[i]
         for f in files:
             if f.endswith('.pyc'):
                 continue
             path_old = os.path.join(d, f)
             path_new = os.path.join(top_dir, relative_dir, f.replace('%s_name' % app_or_project, name))
             fp_old = open(path_old, 'r')
             fp_new = open(path_new, 'w')
             fp_new.write(fp_old.read().replace('{{ %s_name }}' % app_or_project, name).replace('{{ %s_name }}' % other, other_name))
             fp_old.close()
             fp_new.close()
             try:
                 shutil.copymode(path_old, path_new)
                 _make_writeable(path_new)
             except OSError:
                 sys.stderr.write(style.NOTICE("Notice: Couldn't set permission bits on %s. You're probably using an uncommon filesystem setup. No problem.\n" % path_new))

 def _make_writeable(filename):
     "Makes sure that the file is writeable. Useful if our source is read-only."
     import stat
     if sys.platform.startswith('java'):
         # On Jython there is no os.access()
         return
     if not os.access(filename, os.W_OK):
         st = os.stat(filename)
         new_permissions = stat.S_IMODE(st.st_mode) | stat.S_IWUSR
         os.chmod(filename, new_permissions)
	import os
	import sys
	from optparse import make_option, OptionParser

	import django
	from django.core.exceptions import ImproperlyConfigured
	from django.core.management.color import color_style

	try:
	set
	except NameError:
	from sets import Set as set # For Python 2.3

	class CommandError(Exception):
	pass

	def handle_default_options(options):
	"""
	Include any default options that all commands should accept
	here so that ManagementUtility can handle them before searching
	for user commands.
	"""
	if options.settings:
	os.environ['DJANGO_SETTINGS_MODULE'] = options.settings
	if options.pythonpath:
	sys.path.insert(0, options.pythonpath)

	class BaseCommand(object):
	# Metadata about this command.
	option_list = (
	make_option('--settings',
	help='The Python path to a settings module, e.g. "myproject.settings.main". If this isn\'t provided, the DJANGO_SETTINGS_MODULE environment variable will be used.'),
	make_option('--pythonpath',
	help='A directory to add to the Python path, e.g. "/home/djangoprojects/myproject".'),
	make_option('--traceback', action='store_true',
	help='Print traceback on exception'),
	)
	help = ''
	args = ''

	# Configuration shortcuts that alter various logic.
	can_import_settings = True
	requires_model_validation = True
	output_transaction = False # Whether to wrap the output in a "BEGIN; COMMIT;"

	def __init__(self):
	self.style = color_style()

	def get_version(self):
	"""
	Returns the Django version, which should be correct for all built-in
	Django commands. User-supplied commands should override this method.
	"""
	return django.get_version()

	def usage(self, subcommand):
	usage = '%%prog %s [options] %s' % (subcommand, self.args)
	if self.help:
	return '%s\n\n%s' % (usage, self.help)
	else:
	return usage

	def create_parser(self, prog_name, subcommand):
	return OptionParser(prog=prog_name,
	usage=self.usage(subcommand),
	version=self.get_version(),
	option_list=self.option_list)

	def print_help(self, prog_name, subcommand):
	parser = self.create_parser(prog_name, subcommand)
	parser.print_help()

	def run_from_argv(self, argv):
	parser = self.create_parser(argv[0], argv[1])
	options, args = parser.parse_args(argv[2:])
	handle_default_options(options)
	self.execute(args, *options.__dict__)

	def execute(self, args, *options):
	# Switch to English, because django-admin.py creates database content
	# like permissions, and those shouldn't contain any translations.
	# But only do this if we can assume we have a working settings file,
	# because django.utils.translation requires settings.
	if self.can_import_settings:
	try:
	from django.utils import translation
	translation.activate('en-us')
	except ImportError, e:
	# If settings should be available, but aren't,
	# raise the error and quit.
	sys.stderr.write(self.style.ERROR(str('Error: %s\n' % e)))
	sys.exit(1)
	try:
	if self.requires_model_validation:
	self.validate()
	output = self.handle(args, *options)
	if output:
	if self.output_transaction:
	# This needs to be imported here, because it relies on settings.
	from django.db import connection
	if connection.ops.start_transaction_sql():
	print self.style.SQL_KEYWORD(connection.ops.start_transaction_sql())
	print output
	if self.output_transaction:
	print self.style.SQL_KEYWORD("COMMIT;")
	except CommandError, e:
	sys.stderr.write(self.style.ERROR(str('Error: %s\n' % e)))
	sys.exit(1)

	def validate(self, app=None, display_num_errors=False):
	"""
	Validates the given app, raising CommandError for any errors.

	If app is None, then this will validate all installed apps.
	"""
	from django.core.management.validation import get_validation_errors
	try:
	from cStringIO import StringIO
	except ImportError:
	from StringIO import StringIO
	s = StringIO()
	num_errors = get_validation_errors(s, app)
	if num_errors:
	s.seek(0)
	error_text = s.read()
	raise CommandError("One or more models did not validate:\n%s" % error_text)
	if display_num_errors:
	print "%s error%s found" % (num_errors, num_errors != 1 and 's' or '')

	def handle(self, args, *options):
	raise NotImplementedError()

	class AppCommand(BaseCommand):
	args = '<appname appname ...>'

	def handle(self, app_labels, *options):
	from django.db import models
	if not app_labels:
	raise CommandError('Enter at least one appname.')
	try:
	app_list = [models.get_app(app_label) for app_label in app_labels]
	except (ImproperlyConfigured, ImportError), e:
	raise CommandError("%s. Are you sure your INSTALLED_APPS setting is correct?" % e)
	output = []
	for app in app_list:
	app_output = self.handle_app(app, **options)
	if app_output:
	output.append(app_output)
	return '\n'.join(output)

	def handle_app(self, app, **options):
	raise NotImplementedError()

	class LabelCommand(BaseCommand):
	args = '<label label ...>'
	label = 'label'

	def handle(self, labels, *options):
	if not labels:
	raise CommandError('Enter at least one %s.' % self.label)

	output = []
	for label in labels:
	label_output = self.handle_label(label, **options)
	if label_output:
	output.append(label_output)
	return '\n'.join(output)

	def handle_label(self, label, **options):
	raise NotImplementedError()

	class NoArgsCommand(BaseCommand):
	args = ''

	def handle(self, args, *options):
	if args:
	raise CommandError("Command doesn't accept any arguments")
	return self.handle_noargs(**options)

	def handle_noargs(self, **options):
	raise NotImplementedError()

	def copy_helper(style, app_or_project, name, directory, other_name=''):
	"""
	Copies either a Django application layout template or a Django project
	layout template into the specified directory.
	"""
	# style -- A color style object (see django.core.management.color).
	# app_or_project -- The string 'app' or 'project'.
	# name -- The name of the application or project.
	# directory -- The directory to which the layout template should be copied.
	# other_name -- When copying an application layout, this should be the name
	# of the project.
	import re
	import shutil
	other = {'project': 'app', 'app': 'project'}[app_or_project]
	if not re.search(r'^\w+$', name): # If it's not a valid directory name.
	raise CommandError("%r is not a valid %s name. Please use only numbers, letters and underscores." % (name, app_or_project))
	top_dir = os.path.join(directory, name)
	try:
	os.mkdir(top_dir)
	except OSError, e:
	raise CommandError(e)

	# Determine where the app or project templates are. Use
	# django.__path__[0] because we don't know into which directory
	# django has been installed.
	template_dir = os.path.join(django.__path__[0], 'conf', '%s_template' % app_or_project)

	for d, subdirs, files in os.walk(template_dir):
	relative_dir = d[len(template_dir)+1:].replace('%s_name' % app_or_project, name)
	if relative_dir:
	os.mkdir(os.path.join(top_dir, relative_dir))
	for i, subdir in enumerate(subdirs):
	if subdir.startswith('.'):
	del subdirs[i]
	for f in files:
	if f.endswith('.pyc'):
	continue
	path_old = os.path.join(d, f)
	path_new = os.path.join(top_dir, relative_dir, f.replace('%s_name' % app_or_project, name))
	fp_old = open(path_old, 'r')
	fp_new = open(path_new, 'w')
	fp_new.write(fp_old.read().replace('{{ %s_name }}' % app_or_project, name).replace('{{ %s_name }}' % other, other_name))
	fp_old.close()
	fp_new.close()
	try:
	shutil.copymode(path_old, path_new)
	_make_writeable(path_new)
	except OSError:
	sys.stderr.write(style.NOTICE("Notice: Couldn't set permission bits on %s. You're probably using an uncommon filesystem setup. No problem.\n" % path_new))

	def _make_writeable(filename):
	"Makes sure that the file is writeable. Useful if our source is read-only."
	import stat
	if sys.platform.startswith('java'):
	# On Jython there is no os.access()
	return
	if not os.access(filename, os.W_OK):
	st = os.stat(filename)
	new_permissions = stat.S_IMODE(st.st_mode) \| stat.S_IWUSR
	os.chmod(filename, new_permissions)