#! /usr/bin/env python # encoding: utf-8 # DC 2008 # Thomas Nagy 2010 (ita) """ fortran support """ from waflib import Utils, Task, Logs from waflib.Tools import ccroot, fc_config, fc_scan from waflib.TaskGen import feature, extension from waflib.Configure import conf ccroot.USELIB_VARS['fc'] = set(['FCFLAGS', 'DEFINES', 'INCLUDES', 'FCPPFLAGS']) ccroot.USELIB_VARS['fcprogram_test'] = ccroot.USELIB_VARS['fcprogram'] = set(['LIB', 'STLIB', 'LIBPATH', 'STLIBPATH', 'LINKFLAGS', 'RPATH', 'LINKDEPS']) ccroot.USELIB_VARS['fcshlib'] = set(['LIB', 'STLIB', 'LIBPATH', 'STLIBPATH', 'LINKFLAGS', 'RPATH', 'LINKDEPS']) ccroot.USELIB_VARS['fcstlib'] = set(['ARFLAGS', 'LINKDEPS']) @extension('.f', '.f90', '.F', '.F90', '.for', '.FOR') def fc_hook(self, node): "Bind the typical Fortran file extensions to the creation of a :py:class:`waflib.Tools.fc.fc` instance" return self.create_compiled_task('fc', node) @conf def modfile(conf, name): """ Turn a module name into the right module file name. Defaults to all lower case. """ return {'lower' :name.lower() + '.mod', 'lower.MOD' :name.upper() + '.MOD', 'UPPER.mod' :name.upper() + '.mod', 'UPPER' :name.upper() + '.MOD'}[conf.env.FC_MOD_CAPITALIZATION or 'lower'] def get_fortran_tasks(tsk): """ Obtain all other fortran tasks from the same build group. Those tasks must not have the attribute 'nomod' or 'mod_fortran_done' """ bld = tsk.generator.bld tasks = bld.get_tasks_group(bld.get_group_idx(tsk.generator)) return [x for x in tasks if isinstance(x, fc) and not getattr(x, 'nomod', None) and not getattr(x, 'mod_fortran_done', None)] class fc(Task.Task): """ The fortran tasks can only run when all fortran tasks in the current group are ready to be executed This may cause a deadlock if another fortran task is waiting for something that cannot happen (circular dependency) in this case, set the 'nomod=True' on those tasks instances to break the loop """ color = 'GREEN' run_str = '${FC} ${FCFLAGS} ${FCINCPATH_ST:INCPATHS} ${FCDEFINES_ST:DEFINES} ${_FCMODOUTFLAGS} ${FC_TGT_F}${TGT[0].abspath()} ${FC_SRC_F}${SRC[0].abspath()} ${FCPPFLAGS}' vars = ["FORTRANMODPATHFLAG"] def scan(self): """scanner for fortran dependencies""" tmp = fc_scan.fortran_parser(self.generator.includes_nodes) tmp.task = self tmp.start(self.inputs[0]) if Logs.verbose: Logs.debug('deps: deps for %r: %r; unresolved %r', self.inputs, tmp.nodes, tmp.names) return (tmp.nodes, tmp.names) def runnable_status(self): """ Set the mod file outputs and the dependencies on the mod files over all the fortran tasks executed by the main thread so there are no concurrency issues """ if getattr(self, 'mod_fortran_done', None): return super(fc, self).runnable_status() # now, if we reach this part it is because this fortran task is the first in the list bld = self.generator.bld # obtain the fortran tasks lst = get_fortran_tasks(self) # disable this method for other tasks for tsk in lst: tsk.mod_fortran_done = True # wait for all the .f tasks to be ready for execution # and ensure that the scanners are called at least once for tsk in lst: ret = tsk.runnable_status() if ret == Task.ASK_LATER: # we have to wait for one of the other fortran tasks to be ready # this may deadlock if there are dependencies between the fortran tasks # but this should not happen (we are setting them here!) for x in lst: x.mod_fortran_done = None # TODO sort the list of tasks in bld.producer.outstanding to put all fortran tasks at the end return Task.ASK_LATER ins = Utils.defaultdict(set) outs = Utils.defaultdict(set) # the .mod files to create for tsk in lst: key = tsk.uid() for x in bld.raw_deps[key]: if x.startswith('MOD@'): name = bld.modfile(x.replace('MOD@', '')) node = bld.srcnode.find_or_declare(name) tsk.set_outputs(node) outs[id(node)].add(tsk) # the .mod files to use for tsk in lst: key = tsk.uid() for x in bld.raw_deps[key]: if x.startswith('USE@'): name = bld.modfile(x.replace('USE@', '')) node = bld.srcnode.find_resource(name) if node and node not in tsk.outputs: if not node in bld.node_deps[key]: bld.node_deps[key].append(node) ins[id(node)].add(tsk) # if the intersection matches, set the order for k in ins.keys(): for a in ins[k]: a.run_after.update(outs[k]) # the scanner cannot output nodes, so we have to set them # ourselves as task.dep_nodes (additional input nodes) tmp = [] for t in outs[k]: tmp.extend(t.outputs) a.dep_nodes.extend(tmp) a.dep_nodes.sort(key=lambda x: x.abspath()) # the task objects have changed: clear the signature cache for tsk in lst: try: delattr(tsk, 'cache_sig') except AttributeError: pass return super(fc, self).runnable_status() class fcprogram(ccroot.link_task): """Link fortran programs""" color = 'YELLOW' run_str = '${FC} ${LINKFLAGS} ${FCLNK_SRC_F}${SRC} ${FCLNK_TGT_F}${TGT[0].abspath()} ${RPATH_ST:RPATH} ${FCSTLIB_MARKER} ${FCSTLIBPATH_ST:STLIBPATH} ${FCSTLIB_ST:STLIB} ${FCSHLIB_MARKER} ${FCLIBPATH_ST:LIBPATH} ${FCLIB_ST:LIB} ${LDFLAGS}' inst_to = '${BINDIR}' class fcshlib(fcprogram): """Link fortran libraries""" inst_to = '${LIBDIR}' class fcprogram_test(fcprogram): """Custom link task to obtain the compiler outputs for fortran configuration tests""" def runnable_status(self): """This task is always executed""" ret = super(fcprogram_test, self).runnable_status() if ret == Task.SKIP_ME: ret = Task.RUN_ME return ret def exec_command(self, cmd, **kw): """Store the compiler std our/err onto the build context, to bld.out + bld.err""" bld = self.generator.bld kw['shell'] = isinstance(cmd, str) kw['stdout'] = kw['stderr'] = Utils.subprocess.PIPE kw['cwd'] = self.get_cwd() bld.out = bld.err = '' bld.to_log('command: %s\n' % cmd) kw['output'] = 0 try: (bld.out, bld.err) = bld.cmd_and_log(cmd, **kw) except Exception: return -1 if bld.out: bld.to_log("out: %s\n" % bld.out) if bld.err: bld.to_log("err: %s\n" % bld.err) class fcstlib(ccroot.stlink_task): """Link fortran static libraries (uses ar by default)""" pass # do not remove the pass statement