#!/usr/bin/env python # encoding: utf-8 # Thomas Nagy, 2005 (ita) """ Dependency tree holder The class Build holds all the info related to a build: * file system representation (tree of Node instances) * various cached objects (task signatures, file scan results, ..) There is only one Build object at a time (bld singleton) """ import os, sys, errno, re, glob, gc, datetime, shutil try: import cPickle except: import pickle as cPickle import Runner, TaskGen, Node, Scripting, Utils, Environment, Task, Logs, Options from Logs import debug, error, info from Constants import * SAVED_ATTRS = 'root srcnode bldnode node_sigs node_deps raw_deps task_sigs id_nodes'.split() "Build class members to save" bld = None "singleton - safe to use when Waf is not used as a library" class BuildError(Utils.WafError): def __init__(self, b=None, t=[]): self.bld = b self.tasks = t self.ret = 1 Utils.WafError.__init__(self, self.format_error()) def format_error(self): lst = ['Build failed:'] for tsk in self.tasks: txt = tsk.format_error() if txt: lst.append(txt) sep = ' ' if len(lst) > 2: sep = '\n' return sep.join(lst) def group_method(fun): """ sets a build context method to execute after the current group has finished executing this is useful for installing build files: * calling install_files/install_as will fail if called too early * people do not want to define install method in their task classes TODO: try it """ def f(*k, **kw): if not k[0].is_install: return False postpone = True if 'postpone' in kw: postpone = kw['postpone'] del kw['postpone'] # TODO waf 1.6 in theory there should be no reference to the TaskManager internals here if postpone: m = k[0].task_manager if not m.groups: m.add_group() m.groups[m.current_group].post_funs.append((fun, k, kw)) if not 'cwd' in kw: kw['cwd'] = k[0].path else: fun(*k, **kw) return f class BuildContext(Utils.Context): "holds the dependency tree" def __init__(self): # not a singleton, but provided for compatibility global bld bld = self self.task_manager = Task.TaskManager() # instead of hashing the nodes, we assign them a unique id when they are created self.id_nodes = 0 self.idx = {} # map names to environments, the 'Release' must be defined self.all_envs = {} # ======================================= # # code for reading the scripts # project build directory - do not reset() from load_dirs() self.bdir = '' # the current directory from which the code is run # the folder changes everytime a wscript is read self.path = None # Manual dependencies. self.deps_man = Utils.DefaultDict(list) # ======================================= # # cache variables # local cache for absolute paths - cache_node_abspath[variant][node] self.cache_node_abspath = {} # list of folders that are already scanned # so that we do not need to stat them one more time self.cache_scanned_folders = {} # list of targets to uninstall for removing the empty folders after uninstalling self.uninstall = [] # ======================================= # # tasks and objects # build dir variants (release, debug, ..) for v in 'cache_node_abspath task_sigs node_deps raw_deps node_sigs'.split(): var = {} setattr(self, v, var) self.cache_dir_contents = {} self.all_task_gen = [] self.task_gen_cache_names = {} self.cache_sig_vars = {} self.log = None self.root = None self.srcnode = None self.bldnode = None # bind the build context to the nodes in use # this means better encapsulation and no build context singleton class node_class(Node.Node): pass self.node_class = node_class self.node_class.__module__ = "Node" self.node_class.__name__ = "Nodu" self.node_class.bld = self self.is_install = None def __copy__(self): "nodes are not supposed to be copied" raise Utils.WafError('build contexts are not supposed to be cloned') def load(self): "load the cache from the disk" try: env = Environment.Environment(os.path.join(self.cachedir, 'build.config.py')) except (IOError, OSError): pass else: if env['version'] < HEXVERSION: raise Utils.WafError('Version mismatch! reconfigure the project') for t in env['tools']: self.setup(**t) try: gc.disable() f = data = None Node.Nodu = self.node_class try: f = open(os.path.join(self.bdir, DBFILE), 'rb') except (IOError, EOFError): # handle missing file/empty file pass try: if f: data = cPickle.load(f) except AttributeError: # handle file of an old Waf version # that has an attribute which no longer exist # (e.g. AttributeError: 'module' object has no attribute 'BuildDTO') if Logs.verbose > 1: raise if data: for x in SAVED_ATTRS: setattr(self, x, data[x]) else: debug('build: Build cache loading failed') finally: if f: f.close() gc.enable() def save(self): "store the cache on disk, see self.load" gc.disable() self.root.__class__.bld = None # some people are very nervous with ctrl+c so we have to make a temporary file Node.Nodu = self.node_class db = os.path.join(self.bdir, DBFILE) file = open(db + '.tmp', 'wb') data = {} for x in SAVED_ATTRS: data[x] = getattr(self, x) cPickle.dump(data, file, -1) file.close() # do not use shutil.move try: os.unlink(db) except OSError: pass os.rename(db + '.tmp', db) self.root.__class__.bld = self gc.enable() # ======================================= # def clean(self): debug('build: clean called') # does not clean files created during the configuration precious = set([]) for env in self.all_envs.values(): for x in env[CFG_FILES]: node = self.srcnode.find_resource(x) if node: precious.add(node.id) def clean_rec(node): for x in list(node.childs.keys()): nd = node.childs[x] tp = nd.id & 3 if tp == Node.DIR: clean_rec(nd) elif tp == Node.BUILD: if nd.id in precious: continue for env in self.all_envs.values(): try: os.remove(nd.abspath(env)) except OSError: pass node.childs.__delitem__(x) clean_rec(self.srcnode) for v in 'node_sigs node_deps task_sigs raw_deps cache_node_abspath'.split(): setattr(self, v, {}) def compile(self): """The cache file is not written if nothing was build at all (build is up to date)""" debug('build: compile called') """ import cProfile, pstats cProfile.run("import Build\nBuild.bld.flush()", 'profi.txt') p = pstats.Stats('profi.txt') p.sort_stats('cumulative').print_stats(80) """ self.flush() #""" self.generator = Runner.Parallel(self, Options.options.jobs) def dw(on=True): if Options.options.progress_bar: if on: sys.stderr.write(Logs.colors.cursor_on) else: sys.stderr.write(Logs.colors.cursor_off) debug('build: executor starting') back = os.getcwd() os.chdir(self.bldnode.abspath()) try: try: dw(on=False) self.generator.start() except KeyboardInterrupt: dw() if Runner.TaskConsumer.consumers: self.save() raise except Exception: dw() # do not store anything, for something bad happened raise else: dw() if Runner.TaskConsumer.consumers: self.save() if self.generator.error: raise BuildError(self, self.task_manager.tasks_done) finally: os.chdir(back) def install(self): "this function is called for both install and uninstall" debug('build: install called') self.flush() # remove empty folders after uninstalling if self.is_install < 0: lst = [] for x in self.uninstall: dir = os.path.dirname(x) if not dir in lst: lst.append(dir) lst.sort() lst.reverse() nlst = [] for y in lst: x = y while len(x) > 4: if not x in nlst: nlst.append(x) x = os.path.dirname(x) nlst.sort() nlst.reverse() for x in nlst: try: os.rmdir(x) except OSError: pass def new_task_gen(self, *k, **kw): if self.task_gen_cache_names: self.task_gen_cache_names = {} kw['bld'] = self if len(k) == 0: ret = TaskGen.task_gen(*k, **kw) else: cls_name = k[0] try: cls = TaskGen.task_gen.classes[cls_name] except KeyError: raise Utils.WscriptError('%s is not a valid task generator -> %s' % (cls_name, [x for x in TaskGen.task_gen.classes])) ret = cls(*k, **kw) return ret def __call__(self, *k, **kw): if self.task_gen_cache_names: self.task_gen_cache_names = {} kw['bld'] = self return TaskGen.task_gen(*k, **kw) def load_envs(self): try: lst = Utils.listdir(self.cachedir) except OSError, e: if e.errno == errno.ENOENT: raise Utils.WafError('The project was not configured: run "waf configure" first!') else: raise if not lst: raise Utils.WafError('The cache directory is empty: reconfigure the project') for file in lst: if file.endswith(CACHE_SUFFIX): env = Environment.Environment(os.path.join(self.cachedir, file)) name = file[:-len(CACHE_SUFFIX)] self.all_envs[name] = env self.init_variants() for env in self.all_envs.values(): for f in env[CFG_FILES]: newnode = self.path.find_or_declare(f) try: hash = Utils.h_file(newnode.abspath(env)) except (IOError, AttributeError): error("cannot find "+f) hash = SIG_NIL self.node_sigs[env.variant()][newnode.id] = hash # TODO: hmmm, these nodes are removed from the tree when calling rescan() self.bldnode = self.root.find_dir(self.bldnode.abspath()) self.path = self.srcnode = self.root.find_dir(self.srcnode.abspath()) self.cwd = self.bldnode.abspath() def setup(self, tool, tooldir=None, funs=None): "setup tools for build process" if isinstance(tool, list): for i in tool: self.setup(i, tooldir) return if not tooldir: tooldir = Options.tooldir module = Utils.load_tool(tool, tooldir) if hasattr(module, "setup"): module.setup(self) def init_variants(self): debug('build: init variants') lstvariants = [] for env in self.all_envs.values(): if not env.variant() in lstvariants: lstvariants.append(env.variant()) self.lst_variants = lstvariants debug('build: list of variants is %r', lstvariants) for name in lstvariants+[0]: for v in 'node_sigs cache_node_abspath'.split(): var = getattr(self, v) if not name in var: var[name] = {} # ======================================= # # node and folder handling # this should be the main entry point def load_dirs(self, srcdir, blddir, load_cache=1): "this functions should be the start of everything" assert(os.path.isabs(srcdir)) assert(os.path.isabs(blddir)) self.cachedir = os.path.join(blddir, CACHE_DIR) if srcdir == blddir: raise Utils.WafError("build dir must be different from srcdir: %s <-> %s " % (srcdir, blddir)) self.bdir = blddir # try to load the cache file, if it does not exist, nothing happens self.load() if not self.root: Node.Nodu = self.node_class self.root = Node.Nodu('', None, Node.DIR) if not self.srcnode: self.srcnode = self.root.ensure_dir_node_from_path(srcdir) debug('build: srcnode is %s and srcdir %s', self.srcnode.name, srcdir) self.path = self.srcnode # create this build dir if necessary try: os.makedirs(blddir) except OSError: pass if not self.bldnode: self.bldnode = self.root.ensure_dir_node_from_path(blddir) self.init_variants() def rescan(self, src_dir_node): """ look the contents of a (folder)node and update its list of childs The intent is to perform the following steps * remove the nodes for the files that have disappeared * remove the signatures for the build files that have disappeared * cache the results of os.listdir * create the build folder equivalent (mkdir) for each variant src/bar -> build/Release/src/bar, build/Debug/src/bar when a folder in the source directory is removed, we do not check recursively to remove the unused nodes. To do that, call 'waf clean' and build again. """ # do not rescan over and over again # TODO use a single variable in waf 1.6 if self.cache_scanned_folders.get(src_dir_node.id, None): return self.cache_scanned_folders[src_dir_node.id] = True # TODO remove in waf 1.6 if hasattr(self, 'repository'): self.repository(src_dir_node) if not src_dir_node.name and sys.platform == 'win32': # the root has no name, contains drive letters, and cannot be listed return # first, take the case of the source directory parent_path = src_dir_node.abspath() try: lst = set(Utils.listdir(parent_path)) except OSError: lst = set([]) # TODO move this at the bottom self.cache_dir_contents[src_dir_node.id] = lst # hash the existing source files, remove the others cache = self.node_sigs[0] for x in src_dir_node.childs.values(): if x.id & 3 != Node.FILE: continue if x.name in lst: try: cache[x.id] = Utils.h_file(x.abspath()) except IOError: raise Utils.WafError('The file %s is not readable or has become a dir' % x.abspath()) else: try: del cache[x.id] except KeyError: pass del src_dir_node.childs[x.name] # first obtain the differences between srcnode and src_dir_node h1 = self.srcnode.height() h2 = src_dir_node.height() lst = [] child = src_dir_node while h2 > h1: lst.append(child.name) child = child.parent h2 -= 1 lst.reverse() # list the files in the build dirs try: for variant in self.lst_variants: sub_path = os.path.join(self.bldnode.abspath(), variant , *lst) self.listdir_bld(src_dir_node, sub_path, variant) except OSError: # listdir failed, remove the build node signatures for all variants for node in src_dir_node.childs.values(): if node.id & 3 != Node.BUILD: continue for dct in self.node_sigs.values(): if node.id in dct: dct.__delitem__(node.id) # the policy is to avoid removing nodes representing directories src_dir_node.childs.__delitem__(node.name) for variant in self.lst_variants: sub_path = os.path.join(self.bldnode.abspath(), variant , *lst) try: os.makedirs(sub_path) except OSError: pass # ======================================= # def listdir_src(self, parent_node): """do not use, kept for compatibility""" pass def remove_node(self, node): """do not use, kept for compatibility""" pass def listdir_bld(self, parent_node, path, variant): """in this method we do not add timestamps but we remove them when the files no longer exist (file removed in the build dir)""" i_existing_nodes = [x for x in parent_node.childs.values() if x.id & 3 == Node.BUILD] lst = set(Utils.listdir(path)) node_names = set([x.name for x in i_existing_nodes]) remove_names = node_names - lst # remove the stamps of the build nodes that no longer exist on the filesystem ids_to_remove = [x.id for x in i_existing_nodes if x.name in remove_names] cache = self.node_sigs[variant] for nid in ids_to_remove: if nid in cache: cache.__delitem__(nid) def get_env(self): return self.env_of_name('Release') def set_env(self, name, val): self.all_envs[name] = val env = property(get_env, set_env) def add_manual_dependency(self, path, value): if isinstance(path, Node.Node): node = path elif os.path.isabs(path): node = self.root.find_resource(path) else: node = self.path.find_resource(path) self.deps_man[node.id].append(value) def launch_node(self): """return the launch directory as a node""" # p_ln is kind of private, but public in case if try: return self.p_ln except AttributeError: self.p_ln = self.root.find_dir(Options.launch_dir) return self.p_ln def glob(self, pattern, relative=True): "files matching the pattern, seen from the current folder" path = self.path.abspath() files = [self.root.find_resource(x) for x in glob.glob(path+os.sep+pattern)] if relative: files = [x.path_to_parent(self.path) for x in files if x] else: files = [x.abspath() for x in files if x] return files ## the following methods are candidates for the stable apis ## def add_group(self, *k): self.task_manager.add_group(*k) def set_group(self, *k, **kw): self.task_manager.set_group(*k, **kw) def hash_env_vars(self, env, vars_lst): """hash environment variables ['CXX', ..] -> [env['CXX'], ..] -> md5()""" # ccroot objects use the same environment for building the .o at once # the same environment and the same variables are used idx = str(id(env)) + str(vars_lst) try: return self.cache_sig_vars[idx] except KeyError: pass lst = [str(env[a]) for a in vars_lst] ret = Utils.h_list(lst) debug('envhash: %r %r', ret, lst) # next time self.cache_sig_vars[idx] = ret return ret def name_to_obj(self, name, env): """retrieve a task generator from its name or its target name remember that names must be unique""" cache = self.task_gen_cache_names if not cache: # create the index lazily for x in self.all_task_gen: vt = x.env.variant() + '_' if x.name: cache[vt + x.name] = x else: if isinstance(x.target, str): target = x.target else: target = ' '.join(x.target) v = vt + target if not cache.get(v, None): cache[v] = x return cache.get(env.variant() + '_' + name, None) def flush(self, all=1): """tell the task generators to create the tasks""" self.ini = datetime.datetime.now() # force the initialization of the mapping name->object in flush # name_to_obj can be used in userland scripts, in that case beware of incomplete mapping self.task_gen_cache_names = {} self.name_to_obj('', self.env) debug('build: delayed operation TaskGen.flush() called') if Options.options.compile_targets: debug('task_gen: posting objects listed in compile_targets') # ensure the target names exist, fail before any post() target_objects = Utils.DefaultDict(list) for target_name in Options.options.compile_targets.split(','): # trim target_name (handle cases when the user added spaces to targets) target_name = target_name.strip() for env in self.all_envs.values(): obj = self.name_to_obj(target_name, env) if obj: target_objects[target_name].append(obj) if not target_name in target_objects and all: raise Utils.WafError("target '%s' does not exist" % target_name) to_compile = [] for x in target_objects.values(): for y in x: to_compile.append(id(y)) # tasks must be posted in order of declaration # we merely apply a filter to discard the ones we are not interested in for i in xrange(len(self.task_manager.groups)): g = self.task_manager.groups[i] self.task_manager.current_group = i if Logs.verbose: Logs.debug('group: group %s' % ([x for x in self.task_manager.groups_names if id(self.task_manager.groups_names[x]) == id(g)][0])) for tg in g.tasks_gen: if id(tg) in to_compile: if Logs.verbose: Logs.debug('group: %s' % tg) tg.post() else: debug('task_gen: posting objects (normal)') ln = self.launch_node() # if the build is started from the build directory, do as if it was started from the top-level # for the pretty-printing (Node.py), the two lines below cannot be moved to Build::launch_node if ln.is_child_of(self.bldnode) or not ln.is_child_of(self.srcnode): ln = self.srcnode # if the project file is located under the source directory, build all targets by default # else 'waf configure build' does nothing proj_node = self.root.find_dir(os.path.split(Utils.g_module.root_path)[0]) if proj_node.id != self.srcnode.id: ln = self.srcnode for i in xrange(len(self.task_manager.groups)): g = self.task_manager.groups[i] self.task_manager.current_group = i if Logs.verbose: Logs.debug('group: group %s' % ([x for x in self.task_manager.groups_names if id(self.task_manager.groups_names[x]) == id(g)][0])) for tg in g.tasks_gen: if not tg.path.is_child_of(ln): continue if Logs.verbose: Logs.debug('group: %s' % tg) tg.post() def env_of_name(self, name): try: return self.all_envs[name] except KeyError: error('no such environment: '+name) return None def progress_line(self, state, total, col1, col2): n = len(str(total)) Utils.rot_idx += 1 ind = Utils.rot_chr[Utils.rot_idx % 4] ini = self.ini pc = (100.*state)/total eta = Utils.get_elapsed_time(ini) fs = "[%%%dd/%%%dd][%%s%%2d%%%%%%s][%s][" % (n, n, ind) left = fs % (state, total, col1, pc, col2) right = '][%s%s%s]' % (col1, eta, col2) cols = Utils.get_term_cols() - len(left) - len(right) + 2*len(col1) + 2*len(col2) if cols < 7: cols = 7 ratio = int((cols*state)/total) - 1 bar = ('='*ratio+'>').ljust(cols) msg = Utils.indicator % (left, bar, right) return msg # do_install is not used anywhere def do_install(self, src, tgt, chmod=O644): """returns true if the file was effectively installed or uninstalled, false otherwise""" if self.is_install > 0: if not Options.options.force: # check if the file is already there to avoid a copy try: st1 = os.stat(tgt) st2 = os.stat(src) except OSError: pass else: # same size and identical timestamps -> make no copy if st1.st_mtime >= st2.st_mtime and st1.st_size == st2.st_size: return False srclbl = src.replace(self.srcnode.abspath(None)+os.sep, '') info("* installing %s as %s" % (srclbl, tgt)) # following is for shared libs and stale inodes (-_-) try: os.remove(tgt) except OSError: pass try: shutil.copy2(src, tgt) os.chmod(tgt, chmod) except IOError: try: os.stat(src) except (OSError, IOError): error('File %r does not exist' % src) raise Utils.WafError('Could not install the file %r' % tgt) return True elif self.is_install < 0: info("* uninstalling %s" % tgt) self.uninstall.append(tgt) try: os.remove(tgt) except OSError, e: if e.errno != errno.ENOENT: if not getattr(self, 'uninstall_error', None): self.uninstall_error = True Logs.warn('build: some files could not be uninstalled (retry with -vv to list them)') if Logs.verbose > 1: Logs.warn('could not remove %s (error code %r)' % (e.filename, e.errno)) return True red = re.compile(r"^([A-Za-z]:)?[/\\\\]*") def get_install_path(self, path, env=None): "installation path prefixed by the destdir, the variables like in '${PREFIX}/bin' are substituted" if not env: env = self.env destdir = env.get_destdir() path = path.replace('/', os.sep) destpath = Utils.subst_vars(path, env) if destdir: destpath = os.path.join(destdir, self.red.sub('', destpath)) return destpath def install_dir(self, path, env=None): """ create empty folders for the installation (very rarely used) """ if env: assert isinstance(env, Environment.Environment), "invalid parameter" else: env = self.env if not path: return [] destpath = self.get_install_path(path, env) if self.is_install > 0: info('* creating %s' % destpath) Utils.check_dir(destpath) elif self.is_install < 0: info('* removing %s' % destpath) self.uninstall.append(destpath + '/xxx') # yes, ugly def install_files(self, path, files, env=None, chmod=O644, relative_trick=False, cwd=None): """To install files only after they have been built, put the calls in a method named post_build on the top-level wscript The files must be a list and contain paths as strings or as Nodes The relative_trick flag can be set to install folders, use bld.path.ant_glob() with it """ if env: assert isinstance(env, Environment.Environment), "invalid parameter" else: env = self.env if not path: return [] if not cwd: cwd = self.path if isinstance(files, str) and '*' in files: gl = cwd.abspath() + os.sep + files lst = glob.glob(gl) else: lst = Utils.to_list(files) if not getattr(lst, '__iter__', False): lst = [lst] destpath = self.get_install_path(path, env) Utils.check_dir(destpath) installed_files = [] for filename in lst: if isinstance(filename, str) and os.path.isabs(filename): alst = Utils.split_path(filename) destfile = os.path.join(destpath, alst[-1]) else: if isinstance(filename, Node.Node): nd = filename else: nd = cwd.find_resource(filename) if not nd: raise Utils.WafError("Unable to install the file %r (not found in %s)" % (filename, cwd)) if relative_trick: destfile = os.path.join(destpath, filename) Utils.check_dir(os.path.dirname(destfile)) else: destfile = os.path.join(destpath, nd.name) filename = nd.abspath(env) if self.do_install(filename, destfile, chmod): installed_files.append(destfile) return installed_files def install_as(self, path, srcfile, env=None, chmod=O644, cwd=None): """ srcfile may be a string or a Node representing the file to install returns True if the file was effectively installed, False otherwise """ if env: assert isinstance(env, Environment.Environment), "invalid parameter" else: env = self.env if not path: raise Utils.WafError("where do you want to install %r? (%r?)" % (srcfile, path)) if not cwd: cwd = self.path destpath = self.get_install_path(path, env) dir, name = os.path.split(destpath) Utils.check_dir(dir) # the source path if isinstance(srcfile, Node.Node): src = srcfile.abspath(env) else: src = srcfile if not os.path.isabs(srcfile): node = cwd.find_resource(srcfile) if not node: raise Utils.WafError("Unable to install the file %r (not found in %s)" % (srcfile, cwd)) src = node.abspath(env) return self.do_install(src, destpath, chmod) def symlink_as(self, path, src, env=None, cwd=None): """example: bld.symlink_as('${PREFIX}/lib/libfoo.so', 'libfoo.so.1.2.3') """ if sys.platform == 'win32': # well, this *cannot* work return if not path: raise Utils.WafError("where do you want to install %r? (%r?)" % (src, path)) tgt = self.get_install_path(path, env) dir, name = os.path.split(tgt) Utils.check_dir(dir) if self.is_install > 0: link = False if not os.path.islink(tgt): link = True elif os.readlink(tgt) != src: link = True if link: try: os.remove(tgt) except OSError: pass info('* symlink %s (-> %s)' % (tgt, src)) os.symlink(src, tgt) return 0 else: # UNINSTALL try: info('* removing %s' % (tgt)) os.remove(tgt) return 0 except OSError: return 1 def exec_command(self, cmd, **kw): # 'runner' zone is printed out for waf -v, see wafadmin/Options.py debug('runner: system command -> %s', cmd) if self.log: self.log.write('%s\n' % cmd) kw['log'] = self.log try: if not kw.get('cwd', None): kw['cwd'] = self.cwd except AttributeError: self.cwd = kw['cwd'] = self.bldnode.abspath() return Utils.exec_command(cmd, **kw) def printout(self, s): f = self.log or sys.stderr f.write(s) f.flush() def add_subdirs(self, dirs): self.recurse(dirs, 'build') def pre_recurse(self, name_or_mod, path, nexdir): if not hasattr(self, 'oldpath'): self.oldpath = [] self.oldpath.append(self.path) self.path = self.root.find_dir(nexdir) return {'bld': self, 'ctx': self} def post_recurse(self, name_or_mod, path, nexdir): self.path = self.oldpath.pop() ###### user-defined behaviour def pre_build(self): if hasattr(self, 'pre_funs'): for m in self.pre_funs: m(self) def post_build(self): if hasattr(self, 'post_funs'): for m in self.post_funs: m(self) def add_pre_fun(self, meth): try: self.pre_funs.append(meth) except AttributeError: self.pre_funs = [meth] def add_post_fun(self, meth): try: self.post_funs.append(meth) except AttributeError: self.post_funs = [meth] def use_the_magic(self): Task.algotype = Task.MAXPARALLEL Task.file_deps = Task.extract_deps self.magic = True install_as = group_method(install_as) install_files = group_method(install_files) symlink_as = group_method(symlink_as)