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# Copyright (C) 2006 Canonical Ltd
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# Copyright (C) 2004, 2005 by Canonical Ltd
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# This program is free software; you can redistribute it and/or modify
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# it under the terms of the GNU General Public License as published by
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# the Free Software Foundation; either version 2 of the License, or
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# (at your option) any later version.
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# This program is distributed in the hope that it will be useful,
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# but WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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# GNU General Public License for more details.
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# You should have received a copy of the GNU General Public License
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# along with this program; if not, write to the Free Software
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# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
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# TODO: probably should say which arguments are candidates for glob
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# expansion on windows and do that at the command level.
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# TODO: Help messages for options.
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# TODO: Define arguments by objects, rather than just using names.
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# Those objects can specify the expected type of the argument, which
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# would help with validation and shell completion. They could also provide
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# help/explanation for that argument in a structured way.
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# TODO: Specific "examples" property on commands for consistent formatting.
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# would help with validation and shell completion.
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# TODO: "--profile=cum", to change sort order. Is there any value in leaving
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# the profile output behind so it can be interactively examined?
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from bzrlib.lazy_import import lazy_import
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lazy_import(globals(), """
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from warnings import warn
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from inspect import getdoc
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from bzrlib.symbol_versioning import (
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from bzrlib.option import Option
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from bzrlib.trace import mutter, note, log_error, warning
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from bzrlib.errors import BzrError, BzrCheckError, BzrCommandError, NotBranchError
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from bzrlib.revisionspec import RevisionSpec
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from bzrlib import BZRDIR
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def register_command(cmd, decorate=False):
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"""Utility function to help register a command
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:param cmd: Command subclass to register
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:param decorate: If true, allow overriding an existing command
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of the same name; the old command is returned by this function.
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Otherwise it is an error to try to override an existing command.
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def register_command(cmd):
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"Utility function to help register a command"
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if k.startswith("cmd_"):
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k_unsquished = _unsquish_command_name(k)
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if k_unsquished not in plugin_cmds:
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plugin_cmds[k_unsquished] = cmd
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## trace.mutter('registered plugin command %s', k_unsquished)
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if decorate and k_unsquished in builtin_command_names():
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return _builtin_commands()[k_unsquished]
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result = plugin_cmds[k_unsquished]
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plugin_cmds[k_unsquished] = cmd
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if not plugin_cmds.has_key(k_unsquished):
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plugin_cmds[k_unsquished] = cmd
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mutter('registered plugin command %s', k_unsquished)
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trace.log_error('Two plugins defined the same command: %r' % k)
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trace.log_error('Not loading the one in %r' % sys.modules[cmd.__module__])
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log_error('Two plugins defined the same command: %r' % k)
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log_error('Not loading the one in %r' % sys.modules[cmd.__module__])
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def _squish_command_name(cmd):
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return cmd[4:].replace('_','-')
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def _parse_revision_str(revstr):
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"""This handles a revision string -> revno.
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This always returns a list. The list will have one element for
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>>> _parse_revision_str('234')
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[<RevisionSpec_int 234>]
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>>> _parse_revision_str('234..567')
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[<RevisionSpec_int 234>, <RevisionSpec_int 567>]
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>>> _parse_revision_str('..')
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[<RevisionSpec None>, <RevisionSpec None>]
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>>> _parse_revision_str('..234')
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[<RevisionSpec None>, <RevisionSpec_int 234>]
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>>> _parse_revision_str('234..')
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[<RevisionSpec_int 234>, <RevisionSpec None>]
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>>> _parse_revision_str('234..456..789') # Maybe this should be an error
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[<RevisionSpec_int 234>, <RevisionSpec_int 456>, <RevisionSpec_int 789>]
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>>> _parse_revision_str('234....789') # Error?
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[<RevisionSpec_int 234>, <RevisionSpec None>, <RevisionSpec_int 789>]
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>>> _parse_revision_str('revid:test@other.com-234234')
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[<RevisionSpec_revid revid:test@other.com-234234>]
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>>> _parse_revision_str('revid:test@other.com-234234..revid:test@other.com-234235')
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[<RevisionSpec_revid revid:test@other.com-234234>, <RevisionSpec_revid revid:test@other.com-234235>]
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>>> _parse_revision_str('revid:test@other.com-234234..23')
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[<RevisionSpec_revid revid:test@other.com-234234>, <RevisionSpec_int 23>]
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>>> _parse_revision_str('date:2005-04-12')
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[<RevisionSpec_date date:2005-04-12>]
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>>> _parse_revision_str('date:2005-04-12 12:24:33')
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[<RevisionSpec_date date:2005-04-12 12:24:33>]
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>>> _parse_revision_str('date:2005-04-12T12:24:33')
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[<RevisionSpec_date date:2005-04-12T12:24:33>]
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>>> _parse_revision_str('date:2005-04-12,12:24:33')
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[<RevisionSpec_date date:2005-04-12,12:24:33>]
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>>> _parse_revision_str('-5..23')
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[<RevisionSpec_int -5>, <RevisionSpec_int 23>]
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>>> _parse_revision_str('-5')
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[<RevisionSpec_int -5>]
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>>> _parse_revision_str('123a')
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Traceback (most recent call last):
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BzrError: No namespace registered for string: '123a'
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>>> _parse_revision_str('abc')
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Traceback (most recent call last):
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BzrError: No namespace registered for string: 'abc'
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old_format_re = re.compile('\d*:\d*')
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m = old_format_re.match(revstr)
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warning('Colon separator for revision numbers is deprecated.'
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for rev in revstr.split(':'):
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revs.append(RevisionSpec(int(rev)))
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revs.append(RevisionSpec(None))
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for x in revstr.split('..'):
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revs.append(RevisionSpec(None))
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revs.append(RevisionSpec(x))
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def _builtin_commands():
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import bzrlib.builtins
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builtins = bzrlib.builtins.__dict__
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for name in builtins:
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if name.startswith("cmd_"):
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real_name = _unsquish_command_name(name)
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real_name = _unsquish_command_name(name)
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r[real_name] = builtins[name]
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def builtin_command_names():
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List of argument forms, marked with whether they are optional,
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['to_location', 'from_branch?', 'file*']
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'to_location' is required
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'from_branch' is optional
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'file' can be specified 0 or more times
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List of options that may be given for this command. These can
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be either strings, referring to globally-defined options,
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or option objects. Retrieve through options().
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List of options that may be given for this command.
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If true, this command isn't advertised. This is typically
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for commands intended for expert users.
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Command objects will get a 'outf' attribute, which has been
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setup to properly handle encoding of unicode strings.
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encoding_type determines what will happen when characters cannot
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strict - abort if we cannot decode
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replace - put in a bogus character (typically '?')
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exact - do not encode sys.stdout
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NOTE: by default on Windows, sys.stdout is opened as a text
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stream, therefore LF line-endings are converted to CRLF.
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When a command uses encoding_type = 'exact', then
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sys.stdout is forced to be a binary stream, and line-endings
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takes_options = []
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encoding_type = 'strict'
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if self.__doc__ == Command.__doc__:
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warn("No help message set for %r" % self)
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"""Return dict of valid options for this command.
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Maps from long option name to option object."""
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r['help'] = option.Option.OPTIONS['help']
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for o in self.takes_options:
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if isinstance(o, basestring):
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o = option.Option.OPTIONS[o]
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def _setup_outf(self):
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"""Return a file linked to stdout, which has proper encoding."""
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assert self.encoding_type in ['strict', 'exact', 'replace']
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# Originally I was using self.stdout, but that looks
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# *way* too much like sys.stdout
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if self.encoding_type == 'exact':
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# force sys.stdout to be binary stream on win32
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if sys.platform == 'win32':
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fileno = getattr(sys.stdout, 'fileno', None)
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msvcrt.setmode(fileno(), os.O_BINARY)
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self.outf = sys.stdout
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output_encoding = osutils.get_terminal_encoding()
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# use 'replace' so that we don't abort if trying to write out
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# in e.g. the default C locale.
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self.outf = codecs.getwriter(output_encoding)(sys.stdout, errors=self.encoding_type)
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# For whatever reason codecs.getwriter() does not advertise its encoding
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# it just returns the encoding of the wrapped file, which is completely
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# bogus. So set the attribute, so we can find the correct encoding later.
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self.outf.encoding = output_encoding
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@deprecated_method(zero_eight)
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def run_argv(self, argv):
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"""Parse command line and run.
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See run_argv_aliases for the 0.8 and beyond api.
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return self.run_argv_aliases(argv)
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"""Parse command line and run."""
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args, opts = parse_args(argv)
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def run_argv_aliases(self, argv, alias_argv=None):
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"""Parse the command line and run with extra aliases in alias_argv."""
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warn("Passing None for [] is deprecated from bzrlib 0.10",
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DeprecationWarning, stacklevel=2)
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args, opts = parse_args(self, argv, alias_argv)
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if 'help' in opts: # e.g. bzr add --help
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from bzrlib.help import help_on_command
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help_on_command(self.name())
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# check options are reasonable
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allowed = self.takes_options
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if oname not in allowed:
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raise BzrCommandError("option '--%s' is not allowed for command %r"
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% (oname, self.name()))
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# mix arguments and options into one dictionary
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cmdargs = _match_argform(self.name(), self.takes_args, args)
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parsed = [spec, None]
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def parse_args(command, argv, alias_argv=None):
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# list of all available options; the rhs can be either None for an
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# option that takes no argument, or a constructor function that checks
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'revision': _parse_revision_str,
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def parse_args(argv):
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"""Parse command line.
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Arguments and options are parsed at this level before being passed
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down to specific command handlers. This routine knows, from a
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lookup table, something about the available options, what optargs
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they take, and which commands will accept them.
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>>> parse_args('--help'.split())
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>>> parse_args('help -- --invalidcmd'.split())
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(['help', '--invalidcmd'], {})
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>>> parse_args('--version'.split())
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([], {'version': True})
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>>> parse_args('status --all'.split())
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(['status'], {'all': True})
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>>> parse_args('commit --message=biter'.split())
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(['commit'], {'message': u'biter'})
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>>> parse_args('log -r 500'.split())
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(['log'], {'revision': [<RevisionSpec_int 500>]})
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>>> parse_args('log -r500..600'.split())
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(['log'], {'revision': [<RevisionSpec_int 500>, <RevisionSpec_int 600>]})
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>>> parse_args('log -vr500..600'.split())
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(['log'], {'verbose': True, 'revision': [<RevisionSpec_int 500>, <RevisionSpec_int 600>]})
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>>> parse_args('log -rrevno:500..600'.split()) #the r takes an argument
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(['log'], {'revision': [<RevisionSpec_revno revno:500>, <RevisionSpec_int 600>]})
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# TODO: make it a method of the Command?
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parser = option.get_optparser(command.options())
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if alias_argv is not None:
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args = alias_argv + argv
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options, args = parser.parse_args(args)
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opts = dict([(k, v) for k, v in options.__dict__.iteritems() if
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v is not option.OptionParser.DEFAULT_VALUE])
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if not argsover and a[0] == '-':
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# option names must not be unicode
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# We've received a standalone -- No more flags
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mutter(" got option %r" % a)
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optname, optarg = a[2:].split('=', 1)
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if optname not in OPTIONS:
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raise BzrError('unknown long option %r' % a)
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if shortopt in SHORT_OPTIONS:
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# Multi-character options must have a space to delimit
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optname = SHORT_OPTIONS[shortopt]
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# Single character short options, can be chained,
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# and have their value appended to their name
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if shortopt not in SHORT_OPTIONS:
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# We didn't find the multi-character name, and we
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# didn't find the single char name
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raise BzrError('unknown short option %r' % a)
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optname = SHORT_OPTIONS[shortopt]
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# There are extra things on this option
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# see if it is the value, or if it is another
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optargfn = OPTIONS[optname]
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# This option does not take an argument, so the
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# next entry is another short option, pack it back
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argv.insert(0, '-' + a[2:])
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# This option takes an argument, so pack it
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# XXX: Do we ever want to support this, e.g. for -r?
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raise BzrError('repeated option %r' % a)
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optargfn = OPTIONS[optname]
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raise BzrError('option %r needs an argument' % a)
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opts[optname] = optargfn(optarg)
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raise BzrError('option %r takes no argument' % optname)
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return args, opts
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def _match_argform(cmd, takes_args, args):
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argdict[argname + '_list'] = None
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elif ap[-1] == '+':
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raise errors.BzrCommandError("command %r needs one or more %s"
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% (cmd, argname.upper()))
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raise BzrCommandError("command %r needs one or more %s"
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% (cmd, argname.upper()))
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argdict[argname + '_list'] = args[:]
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elif ap[-1] == '$': # all but one
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if len(args) < 2:
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raise errors.BzrCommandError("command %r needs one or more %s"
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% (cmd, argname.upper()))
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raise BzrCommandError("command %r needs one or more %s"
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% (cmd, argname.upper()))
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argdict[argname + '_list'] = args[:-1]
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# just a plain arg
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raise errors.BzrCommandError("command %r requires argument %s"
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% (cmd, argname.upper()))
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raise BzrCommandError("command %r requires argument %s"
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% (cmd, argname.upper()))
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argdict[argname] = args.pop(0)
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raise errors.BzrCommandError("extra argument to command %s: %s"
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raise BzrCommandError("extra argument to command %s: %s"
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os.remove(pfname)
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def apply_lsprofiled(filename, the_callable, *args, **kwargs):
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from bzrlib.lsprof import profile
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ret, stats = profile(the_callable, *args, **kwargs)
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cPickle.dump(stats, open(filename, 'w'), 2)
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print 'Profile data written to %r.' % filename
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def get_alias(cmd, config=None):
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"""Return an expanded alias, or None if no alias exists.
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Command to be checked for an alias.
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Used to specify an alternative config to use,
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which is especially useful for testing.
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If it is unspecified, the global config will be used.
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config = bzrlib.config.GlobalConfig()
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alias = config.get_alias(cmd)
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return [a.decode('utf-8') for a in shlex.split(alias.encode('utf-8'))]
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def run_bzr(argv):
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"""Execute a command.
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Do not load plugin modules at all
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Only use builtin commands. (Plugins are still allowed to change
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other behaviour.)
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Run under the Python hotshot profiler.
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Run under the Python lsprof profiler.
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Run under the Python profiler.
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trace.mutter("bzr arguments: %r", argv)
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# Load all of the transport methods
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import bzrlib.transport.local, bzrlib.transport.http
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argv = [a.decode(bzrlib.user_encoding) for a in argv]
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opt_lsprof = opt_profile = opt_no_plugins = opt_builtin = \
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opt_no_aliases = False
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opt_lsprof_file = None
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opt_profile = opt_no_plugins = opt_builtin = False
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# --no-plugins is handled specially at a very early stage. We need
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# to load plugins before doing other command parsing so that they
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# can override commands, but this needs to happen first.
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if a == '--profile':
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opt_profile = True
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elif a == '--lsprof':
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elif a == '--lsprof-file':
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opt_lsprof_file = argv[i + 1]
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elif a == '--no-plugins':
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opt_no_plugins = True
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elif a == '--no-aliases':
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opt_no_aliases = True
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elif a == '--builtin':
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opt_builtin = True
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elif a in ('--quiet', '-q'):
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elif a.startswith('-D'):
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debug.debug_flags.add(a[2:])
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from bzrlib.builtins import cmd_help
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cmd_help().run_argv_aliases([])
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if (not argv) or (argv[0] == '--help'):
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from bzrlib.help import help
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if argv[0] == '--version':
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from bzrlib.version import show_version
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from bzrlib.builtins import show_version
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if not opt_no_plugins:
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from bzrlib.plugin import load_plugins
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from bzrlib.plugin import disable_plugins
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if not opt_no_aliases:
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alias_argv = get_alias(argv[0])
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alias_argv = [a.decode(bzrlib.user_encoding) for a in alias_argv]
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argv[0] = alias_argv.pop(0)
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# We want only 'ascii' command names, but the user may have typed
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# in a Unicode name. In that case, they should just get a
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# 'command not found' error later.
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cmd = str(argv.pop(0))
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cmd_obj = get_cmd_object(cmd, plugins_override=not opt_builtin)
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if not getattr(cmd_obj.run_argv, 'is_deprecated', False):
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run = cmd_obj.run_argv
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ret = apply_profiled(cmd_obj.run_argv, argv)
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run = cmd_obj.run_argv_aliases
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run_argv = [argv, alias_argv]
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ret = apply_lsprofiled(opt_lsprof_file, run, *run_argv)
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ret = apply_profiled(run, *run_argv)
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# reset, in case we may do other commands later within the same process
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trace.be_quiet(False)
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def display_command(func):
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"""Decorator that suppresses pipe/interrupt errors."""
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def ignore_pipe(*args, **kwargs):
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result = func(*args, **kwargs)
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if getattr(e, 'errno', None) is None:
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if e.errno != errno.EPIPE:
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# Win32 raises IOError with errno=0 on a broken pipe
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if sys.platform != 'win32' or e.errno != 0:
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except KeyboardInterrupt:
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ret = cmd_obj.run_argv(argv)
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from bzrlib.ui.text import TextUIFactory
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bzrlib.ui.ui_factory = TextUIFactory()
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argv = [a.decode(bzrlib.user_encoding) for a in argv[1:]]
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ret = run_bzr_catch_errors(argv)
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trace.mutter("return code %d", ret)
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bzrlib.trace.log_startup(argv)
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bzrlib.ui.ui_factory = bzrlib.ui.TextUIFactory()
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return run_bzr_catch_errors(argv[1:])
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def run_bzr_catch_errors(argv):
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# do this here inside the exception wrappers to catch EPIPE
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except (KeyboardInterrupt, Exception), e:
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# used to handle AssertionError and KeyboardInterrupt
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# specially here, but hopefully they're handled ok by the logger now
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trace.report_exception(sys.exc_info(), sys.stderr)
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if os.environ.get('BZR_PDB'):
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print '**** entering debugger'
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pdb.post_mortem(sys.exc_traceback)
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# do this here inside the exception wrappers to catch EPIPE
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except BzrCommandError, e:
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# command line syntax error, etc
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bzrlib.trace.log_exception()
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except AssertionError, e:
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bzrlib.trace.log_exception('assertion failed: ' + str(e))
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except KeyboardInterrupt, e:
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bzrlib.trace.log_exception('interrupted')
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if (isinstance(e, IOError)
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and hasattr(e, 'errno')
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and e.errno == errno.EPIPE):
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bzrlib.trace.note('broken pipe')
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bzrlib.trace.log_exception()
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if __name__ == '__main__':
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sys.exit(main(sys.argv))
added
removed
bzrlib/commands.py
