import re import subprocess # import feature, taskgen_method, before_method, task_gen from waflib import TaskGen, Node, Task, Utils, Build, Options, Logs, Task debug = Logs.debug error = Logs.error import shellcmd #shellcmd.subprocess = pproc # the WAF version of the subprocess module is supposedly less buggy shellcmd.debug = debug arg_rx = re.compile(r"(?P\$\$)|(?P\$\{(?P\w+)(?P.*?)\})", re.M) class command_task(Task.Task): color = "BLUE" def __init__(self, env, generator): Task.Task.__init__(self, env=env, normal=1, generator=generator) def __str__(self): "string to display to the user" env = self.env src_str = ' '.join([a.nice_path(env) for a in self.inputs]) tgt_str = ' '.join([a.nice_path(env) for a in self.outputs]) if self.outputs: sep = ' -> ' else: sep = '' pipeline = shellcmd.Pipeline() pipeline.parse(self.generator.command) cmd = pipeline.get_abbreviated_command() return 'command (%s): %s%s%s\n' % (cmd, src_str, sep, tgt_str) def _subst_arg(self, arg, direction, namespace): """ @param arg: the command argument (or stdin/stdout/stderr) to substitute @param direction: direction of the argument: 'in', 'out', or None """ def repl(match): if match.group('dollar'): return "$" elif match.group('subst'): var = match.group('var') code = match.group('code') result = eval(var+code, namespace) if isinstance(result, Node.Node): if var == 'TGT': return result.get_bld().abspath() elif var == 'SRC': return result.srcpath() else: raise ValueError("Bad subst variable %r" % var) elif result is self.inputs: if len(self.inputs) == 1: return result[0].srcpath() else: raise ValueError("${SRC} requested but have multiple sources; which one?") elif result is self.outputs: if len(self.outputs) == 1: return result[0].get_bld().abspath() else: raise ValueError("${TGT} requested but have multiple targets; which one?") elif isinstance(result, list): assert len(result) == 1 return result[0] else: return result return None return arg_rx.sub(repl, arg) def run(self): pipeline = shellcmd.Pipeline() pipeline.parse(self.generator.command) namespace = self.env.get_merged_dict() if self.generator.variables is not None: namespace.update(self.generator.variables) namespace.update(env=self.env, SRC=self.inputs, TGT=self.outputs) for cmd in pipeline.pipeline: if isinstance(cmd, shellcmd.Command): if isinstance(cmd.stdin, basestring): cmd.stdin = self._subst_arg(cmd.stdin, 'in', namespace) if isinstance(cmd.stdout, basestring): cmd.stdout = self._subst_arg(cmd.stdout, 'out', namespace) if isinstance(cmd.stderr, basestring): cmd.stderr = self._subst_arg(cmd.stderr, 'out', namespace) for argI in xrange(len(cmd.argv)): cmd.argv[argI] = self._subst_arg(cmd.argv[argI], None, namespace) if cmd.env_vars is not None: env_vars = dict() for name, value in cmd.env_vars.iteritems(): env_vars[name] = self._subst_arg(value, None, namespace) cmd.env_vars = env_vars elif isinstance(cmd, shellcmd.Chdir): cmd.dir = self._subst_arg(cmd.dir, None, namespace) return pipeline.run(verbose=(Options.options.verbose > 0)) @TaskGen.taskgen_method @TaskGen.feature('command') def init_command(self): Utils.def_attrs(self, # other variables that can be used in the command: ${VARIABLE} variables = None, rule='') @TaskGen.feature('command') @TaskGen.after_method('process_rule') def apply_command(self): #self.meths.remove('apply_core') # create the task task = self.create_task('command') setattr(task, "dep_vars", getattr(self, "dep_vars", None)) # process the sources inputs = [] for node in self.source: inputs.append(node) task.set_inputs(inputs) task.set_outputs([self.path.find_or_declare(tgt) for tgt in self.to_list(self.target)]) self.source = '' #Task.file_deps = Task.extract_deps # class command_taskgen(task_gen): # def __init__(self, *k, **kw): # task_gen.__init__(self, *k, **kw) # self.features.append('command')