"""distutils.core The only module that needs to be imported to use the Distutils; provides the 'setup' function (which must be called); the 'Distribution' class (which may be subclassed if additional functionality is desired), and the 'Command' class (which is used both internally by Distutils, and may be subclassed by clients for still more flexibility).""" # created 1999/03/01, Greg Ward __revision__ = "$Id$" import sys, os import string, re from types import * from copy import copy from distutils.errors import * from distutils.fancy_getopt import fancy_getopt, print_help from distutils import util # Regex to define acceptable Distutils command names. This is not *quite* # the same as a Python NAME -- I don't allow leading underscores. The fact # that they're very similar is no coincidence; the default naming scheme is # to look for a Python module named after the command. command_re = re.compile (r'^[a-zA-Z]([a-zA-Z0-9_]*)$') # This is a barebones help message generated displayed when the user # runs the setup script with no arguments at all. More useful help # is generated with various --help options: global help, list commands, # and per-command help. usage = """\ usage: %s [global_opts] cmd1 [cmd1_opts] [cmd2 [cmd2_opts] ...] or: %s --help or: %s --help-commands or: %s cmd --help """ % ((sys.argv[0],) * 4) def setup (**attrs): """The gateway to the Distutils: do everything your setup script needs to do, in a highly flexible and user-driven way. Briefly: create a Distribution instance; parse the command-line, creating and customizing instances of the command class for each command found on the command-line; run each of those commands. The Distribution instance might be an instance of a class supplied via the 'distclass' keyword argument to 'setup'; if no such class is supplied, then the 'Distribution' class (also in this module) is instantiated. All other arguments to 'setup' (except for 'cmdclass') are used to set attributes of the Distribution instance. The 'cmdclass' argument, if supplied, is a dictionary mapping command names to command classes. Each command encountered on the command line will be turned into a command class, which is in turn instantiated; any class found in 'cmdclass' is used in place of the default, which is (for command 'foo_bar') class 'foo_bar' in module 'distutils.command.foo_bar'. The command class must provide a 'user_options' attribute which is a list of option specifiers for 'distutils.fancy_getopt'. Any command-line options between the current and the next command are used to set attributes of the current command object. When the entire command-line has been successfully parsed, calls the 'run()' method on each command object in turn. This method will be driven entirely by the Distribution object (which each command object has a reference to, thanks to its constructor), and the command-specific options that became attributes of each command object.""" # Determine the distribution class -- either caller-supplied or # our Distribution (see below). klass = attrs.get ('distclass') if klass: del attrs['distclass'] else: klass = Distribution # Create the Distribution instance, using the remaining arguments # (ie. everything except distclass) to initialize it dist = klass (attrs) # If we had a config file, this is where we would parse it: override # the client-supplied command options, but be overridden by the # command line. # Parse the command line; any command-line errors are the end-users # fault, so turn them into SystemExit to suppress tracebacks. try: ok = dist.parse_command_line (sys.argv[1:]) except DistutilsArgError, msg: sys.stderr.write (usage + "\n") raise SystemExit, "error: %s" % msg # And finally, run all the commands found on the command line. if ok: try: dist.run_commands () except KeyboardInterrupt: raise SystemExit, "interrupted" except (OSError, IOError), exc: # arg, try to work with Python pre-1.5.2 if hasattr (exc, 'filename') and hasattr (exc, 'strerror'): raise SystemExit, \ "error: %s: %s" % (exc.filename, exc.strerror) else: raise SystemExit, str (exc) except DistutilsExecError, msg: raise SystemExit, "error: " + str (msg) # setup () class Distribution: """The core of the Distutils. Most of the work hiding behind 'setup' is really done within a Distribution instance, which farms the work out to the Distutils commands specified on the command line. Clients will almost never instantiate Distribution directly, unless the 'setup' function is totally inadequate to their needs. However, it is conceivable that a client might wish to subclass Distribution for some specialized purpose, and then pass the subclass to 'setup' as the 'distclass' keyword argument. If so, it is necessary to respect the expectations that 'setup' has of Distribution: it must have a constructor and methods 'parse_command_line()' and 'run_commands()' with signatures like those described below.""" # 'global_options' describes the command-line options that may be # supplied to the client (setup.py) prior to any actual commands. # Eg. "./setup.py -nv" or "./setup.py --verbose" both take advantage of # these global options. This list should be kept to a bare minimum, # since every global option is also valid as a command option -- and we # don't want to pollute the commands with too many options that they # have minimal control over. global_options = [('verbose', 'v', "run verbosely (default)"), ('quiet', 'q', "run quietly (turns verbosity off)"), ('dry-run', 'n', "don't actually do anything"), ('force', 'f', "skip dependency checking between files"), ('help', 'h', "show this help message"), ] negative_opt = {'quiet': 'verbose'} # -- Creation/initialization methods ------------------------------- def __init__ (self, attrs=None): """Construct a new Distribution instance: initialize all the attributes of a Distribution, and then uses 'attrs' (a dictionary mapping attribute names to values) to assign some of those attributes their "real" values. (Any attributes not mentioned in 'attrs' will be assigned to some null value: 0, None, an empty list or dictionary, etc.) Most importantly, initialize the 'command_obj' attribute to the empty dictionary; this will be filled in with real command objects by 'parse_command_line()'.""" # Default values for our command-line options self.verbose = 1 self.dry_run = 0 self.force = 0 self.help = 0 self.help_commands = 0 # And the "distribution meta-data" options -- these can only # come from setup.py (the caller), not the command line # (or a hypothetical config file). self.name = None self.version = None self.author = None self.author_email = None self.maintainer = None self.maintainer_email = None self.url = None self.licence = None self.description = None # 'cmdclass' maps command names to class objects, so we # can 1) quickly figure out which class to instantiate when # we need to create a new command object, and 2) have a way # for the client to override command classes self.cmdclass = {} # These options are really the business of various commands, rather # than of the Distribution itself. We provide aliases for them in # Distribution as a convenience to the developer. # dictionary. self.packages = None self.package_dir = None self.py_modules = None self.libraries = None self.ext_modules = None self.ext_package = None self.include_dirs = None self.extra_path = None # And now initialize bookkeeping stuff that can't be supplied by # the caller at all. 'command_obj' maps command names to # Command instances -- that's how we enforce that every command # class is a singleton. self.command_obj = {} # 'have_run' maps command names to boolean values; it keeps track # of whether we have actually run a particular command, to make it # cheap to "run" a command whenever we think we might need to -- if # it's already been done, no need for expensive filesystem # operations, we just check the 'have_run' dictionary and carry on. # It's only safe to query 'have_run' for a command class that has # been instantiated -- a false value will be inserted when the # command object is created, and replaced with a true value when # the command is succesfully run. Thus it's probably best to use # '.get()' rather than a straight lookup. self.have_run = {} # Now we'll use the attrs dictionary (ultimately, keyword args from # the client) to possibly override any or all of these distribution # options. if attrs: # Pull out the set of command options and work on them # specifically. Note that this order guarantees that aliased # command options will override any supplied redundantly # through the general options dictionary. options = attrs.get ('options') if options: del attrs['options'] for (command, cmd_options) in options.items(): cmd_obj = self.find_command_obj (command) for (key, val) in cmd_options.items(): cmd_obj.set_option (key, val) # loop over commands # if any command options # Now work on the rest of the attributes. Any attribute that's # not already defined is invalid! for (key,val) in attrs.items(): if hasattr (self, key): setattr (self, key, val) else: raise DistutilsOptionError, \ "invalid distribution option '%s'" % key # __init__ () def parse_command_line (self, args): """Parse the setup script's command line: set any Distribution attributes tied to command-line options, create all command objects, and set their options from the command-line. 'args' must be a list of command-line arguments, most likely 'sys.argv[1:]' (see the 'setup()' function). This list is first processed for "global options" -- options that set attributes of the Distribution instance. Then, it is alternately scanned for Distutils command and options for that command. Each new command terminates the options for the previous command. The allowed options for a command are determined by the 'options' attribute of the command object -- thus, we instantiate (and cache) every command object here, in order to access its 'options' attribute. Any error in that 'options' attribute raises DistutilsGetoptError; any error on the command-line raises DistutilsArgError. If no Distutils commands were found on the command line, raises DistutilsArgError. Return true if command-line successfully parsed and we should carry on with executing commands; false if no errors but we shouldn't execute commands (currently, this only happens if user asks for help).""" # We have to parse the command line a bit at a time -- global # options, then the first command, then its options, and so on -- # because each command will be handled by a different class, and # the options that are valid for a particular class aren't # known until we instantiate the command class, which doesn't # happen until we know what the command is. self.commands = [] options = self.global_options + \ [('help-commands', None, "list all available commands")] args = fancy_getopt (options, self.negative_opt, self, sys.argv[1:]) # User just wants a list of commands -- we'll print it out and stop # processing now (ie. if they ran "setup --help-commands foo bar", # we ignore "foo bar"). if self.help_commands: self.print_commands () print print usage return while args: # Pull the current command from the head of the command line command = args[0] if not command_re.match (command): raise SystemExit, "invalid command name '%s'" % command self.commands.append (command) # Make sure we have a command object to put the options into # (this either pulls it out of a cache of command objects, # or finds and instantiates the command class). try: cmd_obj = self.find_command_obj (command) except DistutilsModuleError, msg: raise DistutilsArgError, msg # Require that the command class be derived from Command -- # that way, we can be sure that we at least have the 'run' # and 'get_option' methods. if not isinstance (cmd_obj, Command): raise DistutilsClassError, \ "command class %s must subclass Command" % \ cmd_obj.__class__ # Also make sure that the command object provides a list of its # known options if not (hasattr (cmd_obj, 'user_options') and type (cmd_obj.user_options) is ListType): raise DistutilsClassError, \ ("command class %s must provide " + "'user_options' attribute (a list of tuples)") % \ cmd_obj.__class__ # Poof! like magic, all commands support the global # options too, just by adding in 'global_options'. negative_opt = self.negative_opt if hasattr (cmd_obj, 'negative_opt'): negative_opt = copy (negative_opt) negative_opt.update (cmd_obj.negative_opt) options = self.global_options + cmd_obj.user_options args = fancy_getopt (options, negative_opt, cmd_obj, args[1:]) if cmd_obj.help: print_help (self.global_options, header="Global options:") print print_help (cmd_obj.user_options, header="Options for '%s' command:" % command) print print usage return self.command_obj[command] = cmd_obj self.have_run[command] = 0 # while args # If the user wants help -- ie. they gave the "--help" option -- # give it to 'em. We do this *after* processing the commands in # case they want help on any particular command, eg. # "setup.py --help foo". (This isn't the documented way to # get help on a command, but I support it because that's how # CVS does it -- might as well be consistent.) if self.help: print_help (self.global_options, header="Global options:") print for command in self.commands: klass = self.find_command_class (command) print_help (klass.user_options, header="Options for '%s' command:" % command) print print usage return # Oops, no commands found -- an end-user error if not self.commands: raise DistutilsArgError, "no commands supplied" # All is well: return true return 1 # parse_command_line() def print_command_list (self, commands, header, max_length): """Print a subset of the list of all commands -- used by 'print_commands()'.""" print header + ":" for cmd in commands: klass = self.cmdclass.get (cmd) if not klass: klass = self.find_command_class (cmd) try: description = klass.description except AttributeError: description = "(no description available)" print " %-*s %s" % (max_length, cmd, description) # print_command_list () def print_commands (self): """Print out a help message listing all available commands with a description of each. The list is divided into "standard commands" (listed in distutils.command.__all__) and "extra commands" (mentioned in self.cmdclass, but not a standard command). The descriptions come from the command class attribute 'description'.""" import distutils.command std_commands = distutils.command.__all__ is_std = {} for cmd in std_commands: is_std[cmd] = 1 extra_commands = [] for cmd in self.cmdclass.keys(): if not is_std.get(cmd): extra_commands.append (cmd) max_length = 0 for cmd in (std_commands + extra_commands): if len (cmd) > max_length: max_length = len (cmd) self.print_command_list (std_commands, "Standard commands", max_length) if extra_commands: print self.print_command_list (extra_commands, "Extra commands", max_length) # print_commands () # -- Command class/object methods ---------------------------------- # This is a method just so it can be overridden if desired; it doesn't # actually use or change any attributes of the Distribution instance. def find_command_class (self, command): """Given a command, derives the names of the module and class expected to implement the command: eg. 'foo_bar' becomes 'distutils.command.foo_bar' (the module) and 'FooBar' (the class within that module). Loads the module, extracts the class from it, and returns the class object. Raises DistutilsModuleError with a semi-user-targeted error message if the expected module could not be loaded, or the expected class was not found in it.""" module_name = 'distutils.command.' + command klass_name = command try: __import__ (module_name) module = sys.modules[module_name] except ImportError: raise DistutilsModuleError, \ "invalid command '%s' (no module named '%s')" % \ (command, module_name) try: klass = vars(module)[klass_name] except KeyError: raise DistutilsModuleError, \ "invalid command '%s' (no class '%s' in module '%s')" \ % (command, klass_name, module_name) return klass # find_command_class () def create_command_obj (self, command): """Figure out the class that should implement a command, instantiate it, cache and return the new "command object". The "command class" is determined either by looking it up in the 'cmdclass' attribute (this is the mechanism whereby clients may override default Distutils commands or add their own), or by calling the 'find_command_class()' method (if the command name is not in 'cmdclass'.""" # Determine the command class -- either it's in the command_class # dictionary, or we have to divine the module and class name klass = self.cmdclass.get(command) if not klass: klass = self.find_command_class (command) self.cmdclass[command] = klass # Found the class OK -- instantiate it cmd_obj = klass (self) return cmd_obj def find_command_obj (self, command, create=1): """Look up and return a command object in the cache maintained by 'create_command_obj()'. If none found, the action taken depends on 'create': if true (the default), create a new command object by calling 'create_command_obj()' and return it; otherwise, return None. If 'command' is an invalid command name, then DistutilsModuleError will be raised.""" cmd_obj = self.command_obj.get (command) if not cmd_obj and create: cmd_obj = self.create_command_obj (command) self.command_obj[command] = cmd_obj return cmd_obj # -- Methods that operate on the Distribution ---------------------- def announce (self, msg, level=1): """Print 'msg' if 'level' is greater than or equal to the verbosity level recorded in the 'verbose' attribute (which, currently, can be only 0 or 1).""" if self.verbose >= level: print msg def run_commands (self): """Run each command that was seen on the client command line. Uses the list of commands found and cache of command objects created by 'create_command_obj()'.""" for cmd in self.commands: self.run_command (cmd) def get_option (self, option): """Return the value of a distribution option. Raise DistutilsOptionError if 'option' is not known.""" try: return getattr (self, opt) except AttributeError: raise DistutilsOptionError, \ "unknown distribution option %s" % option def get_options (self, *options): """Return (as a tuple) the values of several distribution options. Raise DistutilsOptionError if any element of 'options' is not known.""" values = [] try: for opt in options: values.append (getattr (self, opt)) except AttributeError, name: raise DistutilsOptionError, \ "unknown distribution option %s" % name return tuple (values) # -- Methods that operate on its Commands -------------------------- def run_command (self, command): """Do whatever it takes to run a command (including nothing at all, if the command has already been run). Specifically: if we have already created and run the command named by 'command', return silently without doing anything. If the command named by 'command' doesn't even have a command object yet, create one. Then invoke 'run()' on that command object (or an existing one).""" # Already been here, done that? then return silently. if self.have_run.get (command): return self.announce ("running " + command) cmd_obj = self.find_command_obj (command) cmd_obj.ensure_ready () cmd_obj.run () self.have_run[command] = 1 def get_command_option (self, command, option): """Create a command object for 'command' if necessary, ensure that its option values are all set to their final values, and return the value of its 'option' option. Raise DistutilsOptionError if 'option' is not known for that 'command'.""" cmd_obj = self.find_command_obj (command) cmd_obj.ensure_ready () return cmd_obj.get_option (option) try: return getattr (cmd_obj, option) except AttributeError: raise DistutilsOptionError, \ "command %s: no such option %s" % (command, option) def get_command_options (self, command, *options): """Create a command object for 'command' if necessary, ensure that its option values are all set to their final values, and return a tuple containing the values of all the options listed in 'options' for that command. Raise DistutilsOptionError if any invalid option is supplied in 'options'.""" cmd_obj = self.find_command_obj (command) cmd_obj.ensure_ready () values = [] try: for opt in options: values.append (getattr (cmd_obj, option)) except AttributeError, name: raise DistutilsOptionError, \ "command %s: no such option %s" % (command, name) return tuple (values) # end class Distribution class Command: """Abstract base class for defining command classes, the "worker bees" of the Distutils. A useful analogy for command classes is to think of them as subroutines with local variables called "options". The options are "declared" in 'initialize_options()' and "defined" (given their final values, aka "finalized") in 'finalize_options()', both of which must be defined by every command class. The distinction between the two is necessary because option values might come from the outside world (command line, option file, ...), and any options dependent on other options must be computed *after* these outside influences have been processed -- hence 'finalize_options()'. The "body" of the subroutine, where it does all its work based on the values of its options, is the 'run()' method, which must also be implemented by every command class.""" # -- Creation/initialization methods ------------------------------- def __init__ (self, dist): """Create and initialize a new Command object. Most importantly, invokes the 'initialize_options()' method, which is the real initializer and depends on the actual command being instantiated.""" if not isinstance (dist, Distribution): raise TypeError, "dist must be a Distribution instance" if self.__class__ is Command: raise RuntimeError, "Command is an abstract class" self.distribution = dist self.initialize_options () # Per-command versions of the global flags, so that the user can # customize Distutils' behaviour command-by-command and let some # commands fallback on the Distribution's behaviour. None means # "not defined, check self.distribution's copy", while 0 or 1 mean # false and true (duh). Note that this means figuring out the real # value of each flag is a touch complicatd -- hence "self.verbose" # (etc.) will be handled by __getattr__, below. self._verbose = None self._dry_run = None self._force = None # The 'help' flag is just used for command-line parsing, so # none of that complicated bureaucracy is needed. self.help = 0 # 'ready' records whether or not 'finalize_options()' has been # called. 'finalize_options()' itself should not pay attention to # this flag: it is the business of 'ensure_ready()', which always # calls 'finalize_options()', to respect/update it. self.ready = 0 # end __init__ () def __getattr__ (self, attr): if attr in ('verbose', 'dry_run', 'force'): myval = getattr (self, "_" + attr) if myval is None: return getattr (self.distribution, attr) else: return myval else: raise AttributeError, attr def ensure_ready (self): if not self.ready: self.finalize_options () self.ready = 1 # Subclasses must define: # initialize_options() # provide default values for all options; may be overridden # by Distutils client, by command-line options, or by options # from option file # finalize_options() # decide on the final values for all options; this is called # after all possible intervention from the outside world # (command-line, option file, etc.) has been processed # run() # run the command: do whatever it is we're here to do, # controlled by the command's various option values def initialize_options (self): """Set default values for all the options that this command supports. Note that these defaults may be overridden by the command-line supplied by the user; thus, this is not the place to code dependencies between options; generally, 'initialize_options()' implementations are just a bunch of "self.foo = None" assignments. This method must be implemented by all command classes.""" raise RuntimeError, \ "abstract method -- subclass %s must override" % self.__class__ def finalize_options (self): """Set final values for all the options that this command supports. This is always called as late as possible, ie. after any option assignments from the command-line or from other commands have been done. Thus, this is the place to to code option dependencies: if 'foo' depends on 'bar', then it is safe to set 'foo' from 'bar' as long as 'foo' still has the same value it was assigned in 'initialize_options()'. This method must be implemented by all command classes.""" raise RuntimeError, \ "abstract method -- subclass %s must override" % self.__class__ def run (self): """A command's raison d'etre: carry out the action it exists to perform, controlled by the options initialized in 'initialize_options()', customized by the user and other commands, and finalized in 'finalize_options()'. All terminal output and filesystem interaction should be done by 'run()'. This method must be implemented by all command classes.""" raise RuntimeError, \ "abstract method -- subclass %s must override" % self.__class__ def announce (self, msg, level=1): """If the Distribution instance to which this command belongs has a verbosity level of greater than or equal to 'level' print 'msg' to stdout.""" if self.verbose >= level: print msg # -- Option query/set methods -------------------------------------- def get_option (self, option): """Return the value of a single option for this command. Raise DistutilsOptionError if 'option' is not known.""" try: return getattr (self, option) except AttributeError: raise DistutilsOptionError, \ "command %s: no such option %s" % \ (self.get_command_name(), option) def get_options (self, *options): """Return (as a tuple) the values of several options for this command. Raise DistutilsOptionError if any of the options in 'options' are not known.""" values = [] try: for opt in options: values.append (getattr (self, opt)) except AttributeError, name: raise DistutilsOptionError, \ "command %s: no such option %s" % \ (self.get_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.get_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 get_command_name (self): if hasattr (self, 'command_name'): return self.command_name else: class_name = self.__class__.__name__ # The re.split here returs empty strings delimited by the # words we're actually interested in -- e.g. "FooBarBaz" # splits to ['', 'Foo', '', 'Bar', '', 'Baz', '']. Hence # the 'filter' to strip out the empties. words = filter (None, re.split (r'([A-Z][a-z]+)', class_name)) self.command_name = string.join (map (string.lower, words), "_") return self.command_name 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.ensure_ready () 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 find_peer (self, command, create=1): """Wrapper around Distribution's 'find_command_obj()' method: find (create if necessary and 'create' is true) the command object for 'command'..""" cmd_obj = self.distribution.find_command_obj (command, create) cmd_obj.ensure_ready () return cmd_obj def get_peer_option (self, command, option): """Find or create the command object for 'command', and return its 'option' option.""" cmd_obj = self.distribution.find_command_obj (command) return cmd_obj.get_option (option) 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 warn (self, msg): sys.stderr.write ("warning: %s: %s\n" % (self.get_command_name(), msg)) 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, 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.dry_run: apply (func, args) # execute() def mkpath (self, name, mode=0777): util.mkpath (name, mode, self.verbose, self.dry_run) def copy_file (self, infile, outfile, preserve_mode=1, preserve_times=1, level=1): """Copy a file respecting verbose, dry-run and force flags.""" return util.copy_file (infile, outfile, preserve_mode, preserve_times, not self.force, self.verbose >= level, self.dry_run) def copy_tree (self, infile, outfile, preserve_mode=1, preserve_times=1, preserve_symlinks=0, level=1): """Copy an entire directory tree respecting verbose, dry-run, and force flags.""" return util.copy_tree (infile, outfile, preserve_mode,preserve_times,preserve_symlinks, not self.force, self.verbose >= level, self.dry_run) def move_file (self, src, dst, level=1): """Move a file respecting verbose and dry-run flags.""" return util.move_file (src, dst, self.verbose >= level, self.dry_run) def spawn (self, cmd, search_path=1, level=1): from distutils.spawn import spawn spawn (cmd, search_path, self.verbose >= level, self.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" # If 'outfile' must be regenerated (either because it doesn't # exist, is out-of-date, or the 'force' flag is true) then # perform the action that presumably regenerates it if self.force or util.newer_group (infiles, outfile): self.execute (func, args, exec_msg, level) # Otherwise, print the "skip" message else: self.announce (skip_msg, level) # make_file () # end class Command