728 lines
29 KiB
Python
728 lines
29 KiB
Python
"""distutils.core
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The only module that needs to be imported to use the Distutils; provides
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the 'setup' function (which must be called); the 'Distribution' class
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(which may be subclassed if additional functionality is desired), and
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the 'Command' class (which is used both internally by Distutils, and
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may be subclassed by clients for still more flexibility)."""
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# created 1999/03/01, Greg Ward
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__rcsid__ = "$Id$"
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import sys, os
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import string, re
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from distutils.errors import *
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from distutils.fancy_getopt import fancy_getopt
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from distutils import util
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# This is not *quite* the same as a Python NAME; I don't allow leading
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# underscores. The fact that they're very similar is no coincidence...
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command_re = re.compile (r'^[a-zA-Z]([a-zA-Z0-9_]*)$')
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# Defining this as a global is probably inadequate -- what about
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# listing the available options (or even commands, which can vary
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# quite late as well)
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usage = '%s [global_opts] cmd1 [cmd1_opts] [cmd2 [cmd2_opts] ...]' % sys.argv[0]
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def setup (**attrs):
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"""The gateway to the Distutils: do everything your setup script
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needs to do, in a highly flexible and user-driven way. Briefly:
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create a Distribution instance; parse the command-line, creating
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and customizing instances of the command class for each command
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found on the command-line; run each of those commands.
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The Distribution instance might be an instance of a class
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supplied via the 'distclass' keyword argument to 'setup'; if no
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such class is supplied, then the 'Distribution' class (also in
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this module) is instantiated. All other arguments to 'setup'
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(except for 'cmdclass') are used to set attributes of the
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Distribution instance.
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The 'cmdclass' argument, if supplied, is a dictionary mapping
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command names to command classes. Each command encountered on the
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command line will be turned into a command class, which is in turn
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instantiated; any class found in 'cmdclass' is used in place of the
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default, which is (for command 'foo_bar') class 'FooBar' in module
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'distutils.command.foo_bar'. The command object must provide an
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'options' attribute which is a list of option specifiers for
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'distutils.fancy_getopt'. Any command-line options between the
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current and the next command are used to set attributes in the
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current command object.
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When the entire command-line has been successfully parsed, calls the
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'run' method on each command object in turn. This method will be
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driven entirely by the Distribution object (which each command
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object has a reference to, thanks to its constructor), and the
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command-specific options that became attributes of each command
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object."""
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# Determine the distribution class -- either caller-supplied or
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# our Distribution (see below).
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klass = attrs.get ('distclass')
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if klass:
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del attrs['distclass']
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else:
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klass = Distribution
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# Create the Distribution instance, using the remaining arguments
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# (ie. everything except distclass) to initialize it
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dist = klass (attrs)
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# Get it to parse the command line; any command-line errors are
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# the end-users fault, so turn them into SystemExit to suppress
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# tracebacks.
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try:
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dist.parse_command_line (sys.argv[1:])
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except DistutilsArgError, msg:
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raise SystemExit, msg
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# And finally, run all the commands found on the command line.
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dist.run_commands ()
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# setup ()
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class Distribution:
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"""The core of the Distutils. Most of the work hiding behind
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'setup' is really done within a Distribution instance, which
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farms the work out to the Distutils commands specified on the
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command line.
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Clients will almost never instantiate Distribution directly,
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unless the 'setup' function is totally inadequate to their needs.
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However, it is conceivable that a client might wish to subclass
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Distribution for some specialized purpose, and then pass the
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subclass to 'setup' as the 'distclass' keyword argument. If so,
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it is necessary to respect the expectations that 'setup' has of
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Distribution: it must have a constructor and methods
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'parse_command_line()' and 'run_commands()' with signatures like
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those described below."""
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# 'global_options' describes the command-line options that may
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# be supplied to the client (setup.py) prior to any actual
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# commands. Eg. "./setup.py -nv" or "./setup.py --verbose"
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# both take advantage of these global options.
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global_options = [('verbose', 'v', "run verbosely"),
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('dry-run', 'n', "don't actually do anything"),
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]
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# -- Creation/initialization methods -------------------------------
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def __init__ (self, attrs=None):
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"""Construct a new Distribution instance: initialize all the
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attributes of a Distribution, and then uses 'attrs' (a
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dictionary mapping attribute names to values) to assign
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some of those attributes their "real" values. (Any attributes
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not mentioned in 'attrs' will be assigned to some null
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value: 0, None, an empty list or dictionary, etc.) Most
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importantly, initialize the 'command_obj' attribute
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to the empty dictionary; this will be filled in with real
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command objects by 'parse_command_line()'."""
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# Default values for our command-line options
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self.verbose = 0
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self.dry_run = 0
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# And for all other attributes (stuff that might be passed in
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# from setup.py, rather than from the end-user)
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self.name = None
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self.version = None
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self.author = None
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self.licence = None
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self.description = None
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self.cmdclass = {}
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# The rest of these are really the business of various commands,
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# rather than of the Distribution itself. However, they have
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# to be here as a conduit to the relevant command class.
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self.py_modules = None
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self.ext_modules = None
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self.package = None
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# Now we'll use the attrs dictionary to possibly override
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# any or all of these distribution options
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if attrs:
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for k in attrs.keys():
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setattr (self, k, attrs[k])
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# And now initialize bookkeeping stuff that can't be supplied by
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# the caller at all
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self.command_obj = {}
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# __init__ ()
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def parse_command_line (self, args):
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"""Parse the client's command line: set any Distribution
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attributes tied to command-line options, create all command
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objects, and set their options from the command-line. 'args'
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must be a list of command-line arguments, most likely
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'sys.argv[1:]' (see the 'setup()' function). This list is
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first processed for "global options" -- options that set
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attributes of the Distribution instance. Then, it is
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alternately scanned for Distutils command and options for
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that command. Each new command terminates the options for
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the previous command. The allowed options for a command are
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determined by the 'options' attribute of the command object
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-- thus, we instantiate (and cache) every command object
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here, in order to access its 'options' attribute. Any error
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in that 'options' attribute raises DistutilsGetoptError; any
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error on the command-line raises DistutilsArgError. If no
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Distutils commands were found on the command line, raises
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DistutilsArgError."""
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# We have to parse the command line a bit at a time -- global
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# options, then the first command, then its options, and so on --
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# because each command will be handled by a different class, and
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# the options that are valid for a particular class aren't
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# known until we instantiate the command class, which doesn't
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# happen until we know what the command is.
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self.commands = []
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args = fancy_getopt (self.global_options, self, sys.argv[1:])
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while args:
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# Pull the current command from the head of the command line
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command = args[0]
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if not command_re.match (command):
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raise SystemExit, "invalid command name '%s'" % command
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self.commands.append (command)
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# Have to instantiate the command class now, so we have a
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# way to get its valid options and somewhere to put the
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# results of parsing its share of the command-line
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cmd_obj = self.create_command_obj (command)
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# Require that the command class be derived from Command --
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# that way, we can be sure that we at least have the 'run'
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# and 'get_option' methods.
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if not isinstance (cmd_obj, Command):
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raise DistutilsClassError, \
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"command class %s must subclass Command" % \
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cmd_obj.__class__
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# XXX this assumes that cmd_obj provides an 'options'
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# attribute, but we're not enforcing that anywhere!
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args = fancy_getopt (cmd_obj.options, cmd_obj, args[1:])
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self.command_obj[command] = cmd_obj
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# while args
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# Oops, no commands found -- an end-user error
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if not self.commands:
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sys.stderr.write (usage + "\n")
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raise DistutilsArgError, "no commands supplied"
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# parse_command_line()
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# -- Command class/object methods ----------------------------------
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# This is a method just so it can be overridden if desired; it doesn't
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# actually use or change any attributes of the Distribution instance.
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def find_command_class (self, command):
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"""Given a command, derives the names of the module and class
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expected to implement the command: eg. 'foo_bar' becomes
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'distutils.command.foo_bar' (the module) and 'FooBar' (the
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class within that module). Loads the module, extracts the
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class from it, and returns the class object.
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Raises DistutilsModuleError with a semi-user-targeted error
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message if the expected module could not be loaded, or the
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expected class was not found in it."""
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module_name = 'distutils.command.' + command
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klass_name = string.join \
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(map (string.capitalize, string.split (command, '_')), '')
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try:
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__import__ (module_name)
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module = sys.modules[module_name]
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except ImportError:
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raise DistutilsModuleError, \
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"invalid command '%s' (no module named %s)" % \
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(command, module_name)
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try:
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klass = vars(module)[klass_name]
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except KeyError:
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raise DistutilsModuleError, \
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"invalid command '%s' (no class '%s' in module '%s')" \
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% (command, klass_name, module_name)
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return klass
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# find_command_class ()
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def create_command_obj (self, command):
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"""Figure out the class that should implement a command,
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instantiate it, cache and return the new "command object".
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The "command class" is determined either by looking it up in
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the 'cmdclass' attribute (this is the mechanism whereby
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clients may override default Distutils commands or add their
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own), or by calling the 'find_command_class()' method (if the
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command name is not in 'cmdclass'."""
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# Determine the command class -- either it's in the command_class
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# dictionary, or we have to divine the module and class name
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klass = self.cmdclass.get(command)
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if not klass:
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klass = self.find_command_class (command)
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self.cmdclass[command] = klass
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# Found the class OK -- instantiate it
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cmd_obj = klass (self)
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return cmd_obj
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def find_command_obj (self, command, create=1):
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"""Look up and return a command object in the cache maintained by
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'create_command_obj()'. If none found, the action taken
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depends on 'create': if true (the default), create a new
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command object by calling 'create_command_obj()' and return
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it; otherwise, return None."""
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cmd_obj = self.command_obj.get (command)
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if not cmd_obj and create:
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cmd_obj = self.create_command_obj (command)
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self.command_obj[command] = cmd_obj
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return cmd_obj
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# -- Methods that operate on the Distribution ----------------------
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def announce (self, msg, level=1):
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"""Print 'msg' if 'level' is greater than or equal to the verbosity
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level recorded in the 'verbose' attribute (which, currently,
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can be only 0 or 1)."""
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if self.verbose >= level:
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print msg
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def run_commands (self):
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"""Run each command that was seen on the client command line.
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Uses the list of commands found and cache of command objects
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created by 'create_command_obj()'."""
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for cmd in self.commands:
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self.run_command (cmd)
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def get_option (self, option):
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"""Return the value of a distribution option. Raise
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DistutilsOptionError if 'option' is not known."""
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try:
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return getattr (self, opt)
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except AttributeError:
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raise DistutilsOptionError, \
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"unknown distribution option %s" % option
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def get_options (self, *options):
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"""Return (as a tuple) the values of several distribution
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options. Raise DistutilsOptionError if any element of
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'options' is not known."""
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values = []
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try:
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for opt in options:
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values.append (getattr (self, opt))
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except AttributeError, name:
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raise DistutilsOptionError, \
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"unknown distribution option %s" % name
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return tuple (values)
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# -- Methods that operate on its Commands --------------------------
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def run_command (self, command):
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"""Create a command object for 'command' if necessary, and
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run the command by invoking its 'run()' method."""
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self.announce ("running " + command)
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cmd_obj = self.find_command_obj (command)
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cmd_obj.run ()
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def get_command_option (self, command, option):
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"""Create a command object for 'command' if necessary, finalize
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its option values by invoking its 'set_final_options()'
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method, and return the value of its 'option' option. Raise
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DistutilsOptionError if 'option' is not known for
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that 'command'."""
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cmd_obj = self.find_command_obj (command)
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cmd_obj.set_final_options ()
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return cmd_obj.get_option (option)
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try:
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return getattr (cmd_obj, option)
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except AttributeError:
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raise DistutilsOptionError, \
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"command %s: no such option %s" % (command, option)
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def get_command_options (self, command, *options):
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"""Create a command object for 'command' if necessary, finalize
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its option values by invoking its 'set_final_options()'
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method, and return the values of all the options listed in
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'options' for that command. Raise DistutilsOptionError if
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'option' is not known for that 'command'."""
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cmd_obj = self.find_command_obj (command)
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cmd_obj.set_final_options ()
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values = []
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try:
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for opt in options:
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values.append (getattr (cmd_obj, option))
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except AttributeError, name:
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raise DistutilsOptionError, \
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"command %s: no such option %s" % (command, name)
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return tuple (values)
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# end class Distribution
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class Command:
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"""Abstract base class for defining command classes, the "worker bees"
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of the Distutils. A useful analogy for command classes is to
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think of them as subroutines with local variables called
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"options". The options are "declared" in 'set_initial_options()'
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and "initialized" (given their real values) in
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'set_final_options()', both of which must be defined by every
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command class. The distinction between the two is necessary
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because option values might come from the outside world (command
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line, option file, ...), and any options dependent on other
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options must be computed *after* these outside influences have
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been processed -- hence 'set_final_values()'. The "body" of the
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subroutine, where it does all its work based on the values of its
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options, is the 'run()' method, which must also be implemented by
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every command class."""
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# -- Creation/initialization methods -------------------------------
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def __init__ (self, dist):
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"""Create and initialize a new Command object. Most importantly,
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invokes the 'set_default_options()' method, which is the
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real initializer and depends on the actual command being
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instantiated."""
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if not isinstance (dist, Distribution):
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raise TypeError, "dist must be a Distribution instance"
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if self.__class__ is Command:
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raise RuntimeError, "Command is an abstract class"
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self.distribution = dist
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self.set_default_options ()
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# end __init__ ()
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# Subclasses must define:
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# set_default_options()
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# provide default values for all options; may be overridden
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# by Distutils client, by command-line options, or by options
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# from option file
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# set_final_options()
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# decide on the final values for all options; this is called
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# after all possible intervention from the outside world
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# (command-line, option file, etc.) has been processed
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# run()
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# run the command: do whatever it is we're here to do,
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# controlled by the command's various option values
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def set_default_options (self):
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"""Set default values for all the options that this command
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supports. Note that these defaults may be overridden
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by the command-line supplied by the user; thus, this is
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not the place to code dependencies between options; generally,
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'set_default_options()' implementations are just a bunch
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of "self.foo = None" assignments.
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This method must be implemented by all command classes."""
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raise RuntimeError, \
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"abstract method -- subclass %s must override" % self.__class__
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def set_final_options (self):
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"""Set final values for all the options that this command
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supports. This is always called as late as possible, ie.
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after any option assignments from the command-line or from
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other commands have been done. Thus, this is the place to to
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code option dependencies: if 'foo' depends on 'bar', then it
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is safe to set 'foo' from 'bar' as long as 'foo' still has
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the same value it was assigned in 'set_default_options()'.
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This method must be implemented by all command classes."""
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raise RuntimeError, \
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"abstract method -- subclass %s must override" % self.__class__
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def run (self):
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"""A command's raison d'etre: carry out the action it exists
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to perform, controlled by the options initialized in
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'set_initial_options()', customized by the user and other
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commands, and finalized in 'set_final_options()'. All
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terminal output and filesystem interaction should be done by
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'run()'.
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This method must be implemented by all command classes."""
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raise RuntimeError, \
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"abstract method -- subclass %s must override" % self.__class__
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def announce (self, msg, level=1):
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"""If the Distribution instance to which this command belongs
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has a verbosity level of greater than or equal to 'level'
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print 'msg' to stdout."""
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if self.distribution.verbose >= level:
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print msg
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# -- Option query/set methods --------------------------------------
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def get_option (self, option):
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"""Return the value of a single option for this command. Raise
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DistutilsOptionError if 'option' is not known."""
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try:
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return getattr (self, option)
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except AttributeError:
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raise DistutilsOptionError, \
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"command %s: no such option %s" % \
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(self.command_name(), option)
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def get_options (self, *options):
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"""Return (as a tuple) the values of several options for this
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command. Raise DistutilsOptionError if any of the options in
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'options' are not known."""
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values = []
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try:
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for opt in options:
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values.append (getattr (self, opt))
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except AttributeError, name:
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raise DistutilsOptionError, \
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"command %s: no such option %s" % \
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(self.command_name(), name)
|
|
|
|
return tuple (values)
|
|
|
|
|
|
def set_option (self, option, value):
|
|
"""Set the value of a single option for this command. Raise
|
|
DistutilsOptionError if 'option' is not known."""
|
|
|
|
if not hasattr (self, option):
|
|
raise DistutilsOptionError, \
|
|
"command %s: no such option %s" % \
|
|
(self.command_name(), option)
|
|
if value is not None:
|
|
setattr (self, option, value)
|
|
|
|
def set_options (self, **optval):
|
|
"""Set the values of several options for this command. Raise
|
|
DistutilsOptionError if any of the options specified as
|
|
keyword arguments are not known."""
|
|
|
|
for k in optval.keys():
|
|
if optval[k] is not None:
|
|
self.set_option (k, optval[k])
|
|
|
|
|
|
# -- Convenience methods for commands ------------------------------
|
|
|
|
def set_undefined_options (self, src_cmd, *option_pairs):
|
|
"""Set the values of any "undefined" options from corresponding
|
|
option values in some other command object. "Undefined" here
|
|
means "is None", which is the convention used to indicate
|
|
that an option has not been changed between
|
|
'set_initial_values()' and 'set_final_values()'. Usually
|
|
called from 'set_final_values()' for options that depend on
|
|
some other command rather than another option of the same
|
|
command. 'src_cmd' is the other command from which option
|
|
values will be taken (a command object will be created for it
|
|
if necessary); the remaining arguments are
|
|
'(src_option,dst_option)' tuples which mean "take the value
|
|
of 'src_option' in the 'src_cmd' command object, and copy it
|
|
to 'dst_option' in the current command object"."""
|
|
|
|
# Option_pairs: list of (src_option, dst_option) tuples
|
|
|
|
src_cmd_obj = self.distribution.find_command_obj (src_cmd)
|
|
src_cmd_obj.set_final_options ()
|
|
try:
|
|
for (src_option, dst_option) in option_pairs:
|
|
if getattr (self, dst_option) is None:
|
|
self.set_option (dst_option,
|
|
src_cmd_obj.get_option (src_option))
|
|
except AttributeError, name:
|
|
# duh, which command?
|
|
raise DistutilsOptionError, "unknown option %s" % name
|
|
|
|
|
|
def set_peer_option (self, command, option, value):
|
|
"""Attempt to simulate a command-line override of some option
|
|
value in another command. Creates a command object for
|
|
'command' if necessary, sets 'option' to 'value', and invokes
|
|
'set_final_options()' on that command object. This will only
|
|
have the desired effect if the command object for 'command'
|
|
has not previously been created. Generally this is used to
|
|
ensure that the options in 'command' dependent on 'option'
|
|
are computed, hopefully (but not necessarily) deriving from
|
|
'value'. It might be more accurate to call this method
|
|
'influence_dependent_peer_options()'."""
|
|
|
|
cmd_obj = self.distribution.find_command_obj (command)
|
|
cmd_obj.set_option (option, value)
|
|
cmd_obj.set_final_options ()
|
|
|
|
|
|
def run_peer (self, command):
|
|
"""Run some other command: uses the 'run_command()' method of
|
|
Distribution, which creates the command object if necessary
|
|
and then invokes its 'run()' method."""
|
|
|
|
self.distribution.run_command (command)
|
|
|
|
|
|
# -- External world manipulation -----------------------------------
|
|
|
|
def execute (self, func, args, msg=None, level=1):
|
|
"""Perform some action that affects the outside world (eg.
|
|
by writing to the filesystem). Such actions are special because
|
|
they should be disabled by the "dry run" flag (carried around by
|
|
the Command's Distribution), and should announce themselves if
|
|
the current verbosity level is high enough. This method takes
|
|
care of all that bureaucracy for you; all you have to do is
|
|
supply the funtion to call and an argument tuple for it (to
|
|
embody the "external action" being performed), a message to
|
|
print if the verbosity level is high enough, and an optional
|
|
verbosity threshold."""
|
|
|
|
|
|
# Generate a message if we weren't passed one
|
|
if msg is None:
|
|
msg = "%s %s" % (func.__name__, `args`)
|
|
if msg[-2:] == ',)': # correct for singleton tuple
|
|
msg = msg[0:-2] + ')'
|
|
|
|
# Print it if verbosity level is high enough
|
|
self.announce (msg, level)
|
|
|
|
# And do it, as long as we're not in dry-run mode
|
|
if not self.distribution.dry_run:
|
|
apply (func, args)
|
|
|
|
# execute()
|
|
|
|
|
|
def mkpath (self, name, mode=0777):
|
|
util.mkpath (name, mode,
|
|
self.distribution.verbose, self.distribution.dry_run)
|
|
|
|
|
|
def copy_file (self, infile, outfile,
|
|
preserve_mode=1, preserve_times=1, update=1, level=1):
|
|
"""Copy a file respecting verbose and dry-run flags."""
|
|
|
|
return util.copy_file (infile, outfile,
|
|
preserve_mode, preserve_times,
|
|
update, self.distribution.verbose >= level,
|
|
self.distribution.dry_run)
|
|
|
|
|
|
def copy_tree (self, infile, outfile,
|
|
preserve_mode=1, preserve_times=1, preserve_symlinks=0,
|
|
update=1, level=1):
|
|
"""Copy an entire directory tree respecting verbose and dry-run
|
|
flags."""
|
|
|
|
return util.copy_tree (infile, outfile,
|
|
preserve_mode,preserve_times,preserve_symlinks,
|
|
update, self.distribution.verbose >= level,
|
|
self.distribution.dry_run)
|
|
|
|
|
|
def make_file (self, infiles, outfile, func, args,
|
|
exec_msg=None, skip_msg=None, level=1):
|
|
|
|
"""Special case of 'execute()' for operations that process one or
|
|
more input files and generate one output file. Works just like
|
|
'execute()', except the operation is skipped and a different
|
|
message printed if 'outfile' already exists and is newer than
|
|
all files listed in 'infiles'."""
|
|
|
|
|
|
if exec_msg is None:
|
|
exec_msg = "generating %s from %s" % \
|
|
(outfile, string.join (infiles, ', '))
|
|
if skip_msg is None:
|
|
skip_msg = "skipping %s (inputs unchanged)" % outfile
|
|
|
|
|
|
# Allow 'infiles' to be a single string
|
|
if type (infiles) is StringType:
|
|
infiles = (infiles,)
|
|
elif type (infiles) not in (ListType, TupleType):
|
|
raise TypeError, \
|
|
"'infiles' must be a string, or a list or tuple of strings"
|
|
|
|
# XXX this stuff should probably be moved off to a function
|
|
# in 'distutils.util'
|
|
from stat import *
|
|
|
|
if os.path.exists (outfile):
|
|
out_mtime = os.stat (outfile)[ST_MTIME]
|
|
|
|
# Loop over all infiles. If any infile is newer than outfile,
|
|
# then we'll have to regenerate outfile
|
|
for f in infiles:
|
|
in_mtime = os.stat (f)[ST_MTIME]
|
|
if in_mtime > out_mtime:
|
|
runit = 1
|
|
break
|
|
else:
|
|
runit = 0
|
|
|
|
else:
|
|
runit = 1
|
|
|
|
# If we determined that 'outfile' must be regenerated, then
|
|
# perform the action that presumably regenerates it
|
|
if runit:
|
|
self.execute (func, args, exec_msg, level)
|
|
|
|
# Otherwise, print the "skip" message
|
|
else:
|
|
self.announce (skip_msg, level)
|
|
|
|
# make_file ()
|
|
|
|
|
|
# def make_files (self, infiles, outfiles, func, args,
|
|
# exec_msg=None, skip_msg=None, level=1):
|
|
|
|
# """Special case of 'execute()' for operations that process one or
|
|
# more input files and generate one or more output files. Works
|
|
# just like 'execute()', except the operation is skipped and a
|
|
# different message printed if all files listed in 'outfiles'
|
|
# already exist and are newer than all files listed in
|
|
# 'infiles'."""
|
|
|
|
# pass
|
|
|
|
|
|
|
|
# end class Command
|