#! /usr/bin/env python # encoding: utf-8 # DC 2008 # Thomas Nagy 2010 (ita) """ Fortran configuration helpers """ import re, shutil, os, sys, string, shlex from waflib.Configure import conf from waflib.TaskGen import feature, after_method, before_method from waflib import Build, Utils FC_FRAGMENT = ' program main\n end program main\n' FC_FRAGMENT2 = ' PROGRAM MAIN\n END\n' # what's the actual difference between these? @conf def fc_flags(conf): """ Define common fortran configuration flags and file extensions """ v = conf.env v['FC_SRC_F'] = [] v['FC_TGT_F'] = ['-c', '-o'] v['FCINCPATH_ST'] = '-I%s' v['FCDEFINES_ST'] = '-D%s' if not v['LINK_FC']: v['LINK_FC'] = v['FC'] v['FCLNK_SRC_F'] = [] v['FCLNK_TGT_F'] = ['-o'] v['FCFLAGS_fcshlib'] = ['-fpic'] v['LINKFLAGS_fcshlib'] = ['-shared'] v['fcshlib_PATTERN'] = 'lib%s.so' v['fcstlib_PATTERN'] = 'lib%s.a' v['FCLIB_ST'] = '-l%s' v['FCLIBPATH_ST'] = '-L%s' v['FCSTLIB_ST'] = '-l%s' v['FCSTLIBPATH_ST'] = '-L%s' v['FCSTLIB_MARKER'] = '-Wl,-Bstatic' v['FCSHLIB_MARKER'] = '-Wl,-Bdynamic' v['SONAME_ST'] = '-Wl,-h,%s' @conf def check_fortran(self, *k, **kw): """See if the fortran compiler works by compiling a simple fortran program""" self.check_cc( fragment = FC_FRAGMENT, compile_filename = 'test.f', features = 'fc fcprogram', msg = 'Compiling a simple fortran app') @conf def check_fc(self, *k, **kw): """ Same as :py:func:`waflib.Tools.c_config.check` but default to the *Fortran* programming language (Overriding the C defaults in :py:func:`waflib.Tools.c_config.validate_c` here) """ kw['compiler'] = 'fc' if not 'compile_mode' in kw: kw['compile_mode'] = 'fc' if not 'type' in kw: kw['type'] = 'fcprogram' if not 'compile_filename' in kw: kw['compile_filename'] = 'test.f90' if not 'code' in kw: kw['code'] = FC_FRAGMENT return self.check(*k, **kw) # ------------------------------------------------------------------------ # --- These are the default platform modifiers, refactored here for # convenience. gfortran and g95 have much overlap. # ------------------------------------------------------------------------ @conf def fortran_modifier_darwin(conf): """ Define fortran flags and extensions for the OSX systems """ v = conf.env v['FCFLAGS_fcshlib'] = ['-fPIC', '-compatibility_version', '1', '-current_version', '1'] v['LINKFLAGS_fcshlib'] = ['-dynamiclib'] v['fcshlib_PATTERN'] = 'lib%s.dylib' v['FRAMEWORKPATH_ST'] = '-F%s' v['FRAMEWORK_ST'] = '-framework %s' v['LINKFLAGS_fcstlib'] = [] v['FCSHLIB_MARKER'] = '' v['FCSTLIB_MARKER'] = '' v['SONAME_ST'] = '' @conf def fortran_modifier_win32(conf): """Define fortran flags for the windows platforms""" v = conf.env v['fcprogram_PATTERN'] = v['fcprogram_test_PATTERN'] = '%s.exe' v['fcshlib_PATTERN'] = '%s.dll' v['implib_PATTERN'] = 'lib%s.dll.a' v['IMPLIB_ST'] = '-Wl,--out-implib,%s' v['FCFLAGS_fcshlib'] = [] v.append_value('FCFLAGS_fcshlib', ['-DDLL_EXPORT']) # TODO adding nonstandard defines like this DLL_EXPORT is not a good idea # Auto-import is enabled by default even without this option, # but enabling it explicitly has the nice effect of suppressing the rather boring, debug-level messages # that the linker emits otherwise. v.append_value('LINKFLAGS', ['-Wl,--enable-auto-import']) @conf def fortran_modifier_cygwin(conf): """Define fortran flags for use on cygwin""" fortran_modifier_win32(conf) v = conf.env v['fcshlib_PATTERN'] = 'cyg%s.dll' v.append_value('LINKFLAGS_fcshlib', ['-Wl,--enable-auto-image-base']) v['FCFLAGS_fcshlib'] = [] # ------------------------------------------------------------------------ @conf def check_fortran_dummy_main(self, *k, **kw): """ Guess if a main function is needed by compiling a code snippet with the C compiler and link with the Fortran compiler TODO: (DC) - handling dialects (F77, F90, etc... -> needs core support first) - fix dummy main check (AC_FC_DUMMY_MAIN vs AC_FC_MAIN) TODO: what does the above mean? (ita) """ if not self.env.CC: self.fatal('A c compiler is required for check_fortran_dummy_main') lst = ['MAIN__', '__MAIN', '_MAIN', 'MAIN_', 'MAIN'] lst.extend([m.lower() for m in lst]) lst.append('') self.start_msg('Detecting whether we need a dummy main') for main in lst: kw['fortran_main'] = main try: self.check_cc( fragment = 'int %s() { return 0; }\n' % (main or 'test'), features = 'c fcprogram', mandatory = True ) if not main: self.env.FC_MAIN = -1 self.end_msg('no') else: self.env.FC_MAIN = main self.end_msg('yes %s' % main) break except self.errors.ConfigurationError: pass else: self.end_msg('not found') self.fatal('could not detect whether fortran requires a dummy main, see the config.log') # ------------------------------------------------------------------------ GCC_DRIVER_LINE = re.compile('^Driving:') POSIX_STATIC_EXT = re.compile('\S+\.a') POSIX_LIB_FLAGS = re.compile('-l\S+') @conf def is_link_verbose(self, txt): """Return True if 'useful' link options can be found in txt""" assert isinstance(txt, str) for line in txt.splitlines(): if not GCC_DRIVER_LINE.search(line): if POSIX_STATIC_EXT.search(line) or POSIX_LIB_FLAGS.search(line): return True return False @conf def check_fortran_verbose_flag(self, *k, **kw): """ Check what kind of verbose (-v) flag works, then set it to env.FC_VERBOSE_FLAG """ self.start_msg('fortran link verbose flag') for x in ['-v', '--verbose', '-verbose', '-V']: try: self.check_cc( features = 'fc fcprogram_test', fragment = FC_FRAGMENT2, compile_filename = 'test.f', linkflags = [x], mandatory=True ) except self.errors.ConfigurationError: pass else: # output is on stderr or stdout (for xlf) if self.is_link_verbose(self.test_bld.err) or self.is_link_verbose(self.test_bld.out): self.end_msg(x) break else: self.end_msg('failure') self.fatal('Could not obtain the fortran link verbose flag (see config.log)') self.env.FC_VERBOSE_FLAG = x return x # ------------------------------------------------------------------------ # linkflags which match those are ignored LINKFLAGS_IGNORED = [r'-lang*', r'-lcrt[a-zA-Z0-9\.]*\.o', r'-lc$', r'-lSystem', r'-libmil', r'-LIST:*', r'-LNO:*'] if os.name == 'nt': LINKFLAGS_IGNORED.extend([r'-lfrt*', r'-luser32', r'-lkernel32', r'-ladvapi32', r'-lmsvcrt', r'-lshell32', r'-lmingw', r'-lmoldname']) else: LINKFLAGS_IGNORED.append(r'-lgcc*') RLINKFLAGS_IGNORED = [re.compile(f) for f in LINKFLAGS_IGNORED] def _match_ignore(line): """Returns True if the line should be ignored (fortran test for verbosity).""" for i in RLINKFLAGS_IGNORED: if i.match(line): return True return False def parse_fortran_link(lines): """Given the output of verbose link of Fortran compiler, this returns a list of flags necessary for linking using the standard linker.""" # TODO: On windows ? final_flags = [] for line in lines: if not GCC_DRIVER_LINE.match(line): _parse_flink_line(line, final_flags) return final_flags SPACE_OPTS = re.compile('^-[LRuYz]$') NOSPACE_OPTS = re.compile('^-[RL]') def _parse_flink_line(line, final_flags): """private""" lexer = shlex.shlex(line, posix = True) lexer.whitespace_split = True t = lexer.get_token() tmp_flags = [] while t: def parse(token): # Here we go (convention for wildcard is shell, not regex !) # 1 TODO: we first get some root .a libraries # 2 TODO: take everything starting by -bI:* # 3 Ignore the following flags: -lang* | -lcrt*.o | -lc | # -lgcc* | -lSystem | -libmil | -LANG:=* | -LIST:* | -LNO:*) # 4 take into account -lkernel32 # 5 For options of the kind -[[LRuYz]], as they take one argument # after, the actual option is the next token # 6 For -YP,*: take and replace by -Larg where arg is the old # argument # 7 For -[lLR]*: take # step 3 if _match_ignore(token): pass # step 4 elif token.startswith('-lkernel32') and sys.platform == 'cygwin': tmp_flags.append(token) # step 5 elif SPACE_OPTS.match(token): t = lexer.get_token() if t.startswith('P,'): t = t[2:] for opt in t.split(os.pathsep): tmp_flags.append('-L%s' % opt) # step 6 elif NOSPACE_OPTS.match(token): tmp_flags.append(token) # step 7 elif POSIX_LIB_FLAGS.match(token): tmp_flags.append(token) else: # ignore anything not explicitely taken into account pass t = lexer.get_token() return t t = parse(t) final_flags.extend(tmp_flags) return final_flags @conf def check_fortran_clib(self, autoadd=True, *k, **kw): """ Obtain the flags for linking with the C library if this check works, add uselib='CLIB' to your task generators """ if not self.env.FC_VERBOSE_FLAG: self.fatal('env.FC_VERBOSE_FLAG is not set: execute check_fortran_verbose_flag?') self.start_msg('Getting fortran runtime link flags') try: self.check_cc( fragment = FC_FRAGMENT2, compile_filename = 'test.f', features = 'fc fcprogram_test', linkflags = [self.env.FC_VERBOSE_FLAG] ) except: self.end_msg(False) if kw.get('mandatory', True): conf.fatal('Could not find the c library flags') else: out = self.test_bld.err flags = parse_fortran_link(out.splitlines()) self.end_msg('ok (%s)' % ' '.join(flags)) self.env.LINKFLAGS_CLIB = flags return flags return [] def getoutput(conf, cmd, stdin=False): """ TODO a bit redundant, can be removed anytime """ try: if stdin: stdin = Utils.subprocess.PIPE else: stdin = None p = Utils.subprocess.Popen(cmd, stdin=stdin, stdout=Utils.subprocess.PIPE, stderr=Utils.subprocess.PIPE) if stdin: p.stdin.write('\n'.encode()) stdout, stderr = p.communicate() except: conf.fatal('could not determine the compiler version %r' % cmd) else: if not isinstance(stdout, str): stdout = stdout.decode(sys.stdout.encoding) if not isinstance(stderr, str): stderr = stderr.decode(sys.stdout.encoding) return stdout, stderr # ------------------------------------------------------------------------ ROUTINES_CODE = """\ subroutine foobar() return end subroutine foo_bar() return end """ MAIN_CODE = """ void %(dummy_func_nounder)s(void); void %(dummy_func_under)s(void); int %(main_func_name)s() { %(dummy_func_nounder)s(); %(dummy_func_under)s(); return 0; } """ @feature('link_main_routines_func') @before_method('process_source') def link_main_routines_tg_method(self): """ The configuration test declares a unique task generator, so we create other task generators from there for fortran link tests """ def write_test_file(task): task.outputs[0].write(task.generator.code) bld = self.bld bld(rule=write_test_file, target='main.c', code=MAIN_CODE % self.__dict__) bld(rule=write_test_file, target='test.f', code=ROUTINES_CODE) bld(features='fc fcstlib', source='test.f', target='test') bld(features='c fcprogram', source='main.c', target='app', use='test') def mangling_schemes(): """ Generate triplets for use with mangle_name (used in check_fortran_mangling) the order is tuned for gfortan """ for u in ['_', '']: for du in ['', '_']: for c in ["lower", "upper"]: yield (u, du, c) def mangle_name(u, du, c, name): """Mangle a name from a triplet (used in check_fortran_mangling)""" return getattr(name, c)() + u + (name.find('_') != -1 and du or '') @conf def check_fortran_mangling(self, *k, **kw): """ Detect the mangling scheme, sets FORTRAN_MANGLING to the triplet found This test will compile a fortran static library, then link a c app against it """ if not self.env.CC: self.fatal('A c compiler is required for link_main_routines') if not self.env.FC: self.fatal('A fortran compiler is required for link_main_routines') if not self.env.FC_MAIN: self.fatal('Checking for mangling requires self.env.FC_MAIN (execute "check_fortran_dummy_main" first?)') self.start_msg('Getting fortran mangling scheme') for (u, du, c) in mangling_schemes(): try: self.check_cc( compile_filename = [], features = 'link_main_routines_func', msg = 'nomsg', errmsg = 'nomsg', mandatory=True, dummy_func_nounder = mangle_name(u, du, c, "foobar"), dummy_func_under = mangle_name(u, du, c, "foo_bar"), main_func_name = self.env.FC_MAIN ) except self.errors.ConfigurationError: pass else: self.end_msg("ok ('%s', '%s', '%s-case')" % (u, du, c)) self.env.FORTRAN_MANGLING = (u, du, c) break else: self.end_msg(False) self.fatal('mangler not found') return (u, du, c) @feature('pyext') @before_method('propagate_uselib_vars', 'apply_link') def set_lib_pat(self): """Set the fortran flags for linking with the python library""" self.env['fcshlib_PATTERN'] = self.env['pyext_PATTERN']