#!/usr/bin/env python # encoding: utf-8 # Thomas Nagy, 2005-2008 (ita) """ The class task_gen encapsulates the creation of task objects (low-level code) The instances can have various parameters, but the creation of task nodes (Task.py) is delayed. To achieve this, various methods are called from the method "apply" The class task_gen contains lots of methods, and a configuration table: * the methods to call (self.meths) can be specified dynamically (removing, adding, ..) * the order of the methods (self.prec or by default task_gen.prec) is configurable * new methods can be inserted dynamically without pasting old code Additionally, task_gen provides the method apply_core * file extensions are mapped to methods: def meth(self, name_or_node) * if a mapping is not found in self.mappings, it is searched in task_gen.mappings * when called, the functions may modify self.allnodes to re-add source to process * the mappings can map an extension or a filename (see the code below) WARNING: subclasses must reimplement the clone method """ import os, traceback, copy import Build, Task, Utils, Logs, Options from Logs import debug, error, warn from Constants import * typos = { 'sources':'source', 'targets':'target', 'include':'includes', 'define':'defines', 'importpath':'importpaths', 'install_var':'install_path', 'install_subdir':'install_path', 'inst_var':'install_path', 'inst_dir':'install_path', 'feature':'features', } class register_obj(type): """no decorators for classes, so we use a metaclass we store into task_gen.classes the classes that inherit task_gen and whose names end in '_taskgen' """ def __init__(cls, name, bases, dict): super(register_obj, cls).__init__(name, bases, dict) name = cls.__name__ suffix = '_taskgen' if name.endswith(suffix): task_gen.classes[name.replace(suffix, '')] = cls class task_gen(object): """ Most methods are of the form 'def meth(self):' without any parameters there are many of them, and they do many different things: * task creation * task results installation * environment modification * attribute addition/removal The inheritance approach is complicated * mixing several languages at once * subclassing is needed even for small changes * inserting new methods is complicated This new class uses a configuration table: * adding new methods easily * obtaining the order in which to call the methods * postponing the method calls (post() -> apply) Additionally, a 'traits' static attribute is provided: * this list contains methods * the methods can remove or add methods from self.meths Example1: the attribute 'staticlib' is set on an instance a method set in the list of traits is executed when the instance is posted, it finds that flag and adds another method for execution Example2: a method set in the list of traits finds the msvc compiler (from self.env['MSVC']==1); more methods are added to self.meths """ __metaclass__ = register_obj mappings = {} mapped = {} prec = Utils.DefaultDict(list) traits = Utils.DefaultDict(set) classes = {} def __init__(self, *kw, **kwargs): self.prec = Utils.DefaultDict(list) "map precedence of function names to call" # so we will have to play with directed acyclic graphs # detect cycles, etc self.source = '' self.target = '' # list of methods to execute - does not touch it by hand unless you know self.meths = [] # list of mappings extension -> function self.mappings = {} # list of features (see the documentation on traits) self.features = list(kw) # not always a good idea self.tasks = [] self.default_chmod = O644 self.default_install_path = None # kind of private, beware of what you put in it, also, the contents are consumed self.allnodes = [] self.bld = kwargs.get('bld', Build.bld) self.env = self.bld.env.copy() self.path = self.bld.path # emulate chdir when reading scripts self.name = '' # give a name to the target (static+shlib with the same targetname ambiguity) # provide a unique id self.idx = self.bld.idx[self.path.id] = self.bld.idx.get(self.path.id, 0) + 1 for key, val in kwargs.iteritems(): setattr(self, key, val) self.bld.task_manager.add_task_gen(self) self.bld.all_task_gen.append(self) def __str__(self): return ("" % (self.name or self.target, self.__class__.__name__, str(self.path))) def __setattr__(self, name, attr): real = typos.get(name, name) if real != name: warn('typo %s -> %s' % (name, real)) if Logs.verbose > 0: traceback.print_stack() object.__setattr__(self, real, attr) def to_list(self, value): "helper: returns a list" if isinstance(value, str): return value.split() else: return value def apply(self): "order the methods to execute using self.prec or task_gen.prec" keys = set(self.meths) # add the methods listed in the features self.features = Utils.to_list(self.features) for x in self.features + ['*']: st = task_gen.traits[x] if not st: warn('feature %r does not exist - bind at least one method to it' % x) keys.update(st) # copy the precedence table prec = {} prec_tbl = self.prec or task_gen.prec for x in prec_tbl: if x in keys: prec[x] = prec_tbl[x] # elements disconnected tmp = [] for a in keys: for x in prec.values(): if a in x: break else: tmp.append(a) # topological sort out = [] while tmp: e = tmp.pop() if e in keys: out.append(e) try: nlst = prec[e] except KeyError: pass else: del prec[e] for x in nlst: for y in prec: if x in prec[y]: break else: tmp.append(x) if prec: raise Utils.WafError("graph has a cycle %s" % str(prec)) out.reverse() self.meths = out # then we run the methods in order debug('task_gen: posting %s %d', self, id(self)) for x in out: try: v = getattr(self, x) except AttributeError: raise Utils.WafError("tried to retrieve %s which is not a valid method" % x) debug('task_gen: -> %s (%d)', x, id(self)) v() def post(self): "runs the code to create the tasks, do not subclass" if not self.name: if isinstance(self.target, list): self.name = ' '.join(self.target) else: self.name = self.target if getattr(self, 'posted', None): #error("OBJECT ALREADY POSTED" + str( self)) return self.apply() debug('task_gen: posted %s', self.name) self.posted = True def get_hook(self, ext): try: return self.mappings[ext] except KeyError: try: return task_gen.mappings[ext] except KeyError: return None # TODO waf 1.6: always set the environment # TODO waf 1.6: create_task(self, name, inputs, outputs) def create_task(self, name, src=None, tgt=None, env=None): env = env or self.env task = Task.TaskBase.classes[name](env.copy(), generator=self) if src: task.set_inputs(src) if tgt: task.set_outputs(tgt) self.tasks.append(task) return task def name_to_obj(self, name): return self.bld.name_to_obj(name, self.env) def find_sources_in_dirs(self, dirnames, excludes=[], exts=[]): """ The attributes "excludes" and "exts" must be lists to avoid the confusion find_sources_in_dirs('a', 'b', 'c') <-> find_sources_in_dirs('a b c') do not use absolute paths do not use paths outside of the source tree the files or folder beginning by . are not returned # TODO: remove in Waf 1.6 """ err_msg = "'%s' attribute must be a list" if not isinstance(excludes, list): raise Utils.WscriptError(err_msg % 'excludes') if not isinstance(exts, list): raise Utils.WscriptError(err_msg % 'exts') lst = [] #make sure dirnames is a list helps with dirnames with spaces dirnames = self.to_list(dirnames) ext_lst = exts or list(self.mappings.keys()) + list(task_gen.mappings.keys()) for name in dirnames: anode = self.path.find_dir(name) if not anode or not anode.is_child_of(self.bld.srcnode): raise Utils.WscriptError("Unable to use '%s' - either because it's not a relative path" \ ", or it's not child of '%s'." % (name, self.bld.srcnode)) self.bld.rescan(anode) for name in self.bld.cache_dir_contents[anode.id]: # ignore hidden files if name.startswith('.'): continue (base, ext) = os.path.splitext(name) if ext in ext_lst and not name in lst and not name in excludes: lst.append((anode.relpath_gen(self.path) or '.') + os.path.sep + name) lst.sort() self.source = self.to_list(self.source) if not self.source: self.source = lst else: self.source += lst def clone(self, env): "" newobj = task_gen(bld=self.bld) for x in self.__dict__: if x in ['env', 'bld']: continue elif x in ["path", "features"]: setattr(newobj, x, getattr(self, x)) else: setattr(newobj, x, copy.copy(getattr(self, x))) newobj.__class__ = self.__class__ if isinstance(env, str): newobj.env = self.bld.all_envs[env].copy() else: newobj.env = env.copy() return newobj def get_inst_path(self): return getattr(self, '_install_path', getattr(self, 'default_install_path', '')) def set_inst_path(self, val): self._install_path = val install_path = property(get_inst_path, set_inst_path) def get_chmod(self): return getattr(self, '_chmod', getattr(self, 'default_chmod', O644)) def set_chmod(self, val): self._chmod = val chmod = property(get_chmod, set_chmod) def declare_extension(var, func): try: for x in Utils.to_list(var): task_gen.mappings[x] = func except: raise Utils.WscriptError('declare_extension takes either a list or a string %r' % var) task_gen.mapped[func.__name__] = func def declare_order(*k): assert(len(k) > 1) n = len(k) - 1 for i in xrange(n): f1 = k[i] f2 = k[i+1] if not f1 in task_gen.prec[f2]: task_gen.prec[f2].append(f1) def declare_chain(name='', action='', ext_in='', ext_out='', reentrant=True, color='BLUE', install=0, before=[], after=[], decider=None, rule=None, scan=None): """ see Tools/flex.py for an example while i do not like such wrappers, some people really do """ action = action or rule if isinstance(action, str): act = Task.simple_task_type(name, action, color=color) else: act = Task.task_type_from_func(name, action, color=color) act.ext_in = tuple(Utils.to_list(ext_in)) act.ext_out = tuple(Utils.to_list(ext_out)) act.before = Utils.to_list(before) act.after = Utils.to_list(after) act.scan = scan def x_file(self, node): if decider: ext = decider(self, node) else: ext = ext_out if isinstance(ext, str): out_source = node.change_ext(ext) if reentrant: self.allnodes.append(out_source) elif isinstance(ext, list): out_source = [node.change_ext(x) for x in ext] if reentrant: for i in xrange((reentrant is True) and len(out_source) or reentrant): self.allnodes.append(out_source[i]) else: # XXX: useless: it will fail on Utils.to_list above... raise Utils.WafError("do not know how to process %s" % str(ext)) tsk = self.create_task(name, node, out_source) if node.__class__.bld.is_install: tsk.install = install declare_extension(act.ext_in, x_file) def bind_feature(name, methods): lst = Utils.to_list(methods) task_gen.traits[name].update(lst) """ All the following decorators are registration decorators, i.e add an attribute to current class (task_gen and its derivatives), with same name as func, which points to func itself. For example: @taskgen def sayHi(self): print("hi") Now taskgen.sayHi() may be called If python were really smart, it could infer itself the order of methods by looking at the attributes. A prerequisite for execution is to have the attribute set before. Intelligent compilers binding aspect-oriented programming and parallelization, what a nice topic for studies. """ def taskgen(func): setattr(task_gen, func.__name__, func) return func def feature(*k): def deco(func): setattr(task_gen, func.__name__, func) for name in k: task_gen.traits[name].update([func.__name__]) return func return deco def before(*k): def deco(func): setattr(task_gen, func.__name__, func) for fun_name in k: if not func.__name__ in task_gen.prec[fun_name]: task_gen.prec[fun_name].append(func.__name__) return func return deco def after(*k): def deco(func): setattr(task_gen, func.__name__, func) for fun_name in k: if not fun_name in task_gen.prec[func.__name__]: task_gen.prec[func.__name__].append(fun_name) return func return deco def extension(var): def deco(func): setattr(task_gen, func.__name__, func) try: for x in Utils.to_list(var): task_gen.mappings[x] = func except: raise Utils.WafError('extension takes either a list or a string %r' % var) task_gen.mapped[func.__name__] = func return func return deco # TODO make certain the decorators may be used here def apply_core(self): """Process the attribute source transform the names into file nodes try to process the files by name first, later by extension""" # get the list of folders to use by the scanners # all our objects share the same include paths anyway find_resource = self.path.find_resource for filename in self.to_list(self.source): # if self.mappings or task_gen.mappings contains a file of the same name x = self.get_hook(filename) if x: x(self, filename) else: node = find_resource(filename) if not node: raise Utils.WafError("source not found: '%s' in '%s'" % (filename, str(self.path))) self.allnodes.append(node) for node in self.allnodes: # self.mappings or task_gen.mappings map the file extension to a function x = self.get_hook(node.suffix()) if not x: raise Utils.WafError("Cannot guess how to process %s (got mappings %r in %r) -> try conf.check_tool(..)?" % \ (str(node), self.__class__.mappings.keys(), self.__class__)) x(self, node) feature('*')(apply_core) def exec_rule(self): """Process the attribute rule, when provided the method apply_core will be disabled """ if not getattr(self, 'rule', None): return # someone may have removed it already try: self.meths.remove('apply_core') except ValueError: pass # get the function and the variables func = self.rule vars2 = [] if isinstance(func, str): # use the shell by default for user-defined commands (func, vars2) = Task.compile_fun('', self.rule, shell=getattr(self, 'shell', True)) func.code = self.rule vars = getattr(self, 'vars', vars2) if not vars: if isinstance(self.rule, str): vars = self.rule else: vars = Utils.h_fun(self.rule) # create the task class name = getattr(self, 'name', None) or self.target or self.rule if not isinstance(name, str): name = str(self.idx) cls = Task.task_type_from_func(name, func, vars) # now create one instance tsk = self.create_task(name) # we assume that the user knows that without inputs or outputs #if not getattr(self, 'target', None) and not getattr(self, 'source', None): # cls.quiet = True if getattr(self, 'target', None): cls.quiet = True tsk.outputs = [self.path.find_or_declare(x) for x in self.to_list(self.target)] if getattr(self, 'source', None): cls.quiet = True tsk.inputs = [] for x in self.to_list(self.source): y = self.path.find_resource(x) if not y: raise Utils.WafError('input file %r could not be found (%r)' % (x, self.path.abspath())) tsk.inputs.append(y) if getattr(self, 'scan', None): cls.scan = self.scan if getattr(self, 'install_path', None): tsk.install_path = self.install_path if getattr(self, 'cwd', None): tsk.cwd = self.cwd if getattr(self, 'on_results', None): Task.update_outputs(cls) if getattr(self, 'always', None): Task.always_run(cls) for x in ['after', 'before', 'ext_in', 'ext_out']: setattr(cls, x, getattr(self, x, [])) feature('*')(exec_rule) before('apply_core')(exec_rule) def sequence_order(self): """ add a strict sequential constraint between the tasks generated by task generators it uses the fact that task generators are posted in order it will not post objects which belong to other folders there is also an awesome trick for executing the method in last position to use: bld(features='javac seq') bld(features='jar seq') to start a new sequence, set the attribute seq_start, for example: obj.seq_start = True """ if self.meths and self.meths[-1] != 'sequence_order': self.meths.append('sequence_order') return if getattr(self, 'seq_start', None): return # all the tasks previously declared must be run before these if getattr(self.bld, 'prev', None): self.bld.prev.post() for x in self.bld.prev.tasks: for y in self.tasks: y.set_run_after(x) self.bld.prev = self feature('seq')(sequence_order)