#!/usr/bin/env python # # __COPYRIGHT__ # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "__FILE__ __REVISION__ __DATE__ __DEVELOPER__" import os import string import sys import TestSCons _python_ = TestSCons._python_ _exe = TestSCons._exe test = TestSCons.TestSCons() if sys.platform == 'win32': test.write('mylink.py', r""" import string import sys args = sys.argv[1:] while args: a = args[0] if a[0] != '/': break args = args[1:] if string.lower(a[:5]) == '/out:': out = a[5:] infile = open(args[0], 'rb') outfile = open(out, 'wb') for l in infile.readlines(): if l[:5] != '#link': outfile.write(l) sys.exit(0) """) else: test.write('mylink.py', r""" import getopt import sys opts, args = getopt.getopt(sys.argv[1:], 'o:') for opt, arg in opts: if opt == '-o': out = arg infile = open(args[0], 'rb') outfile = open(out, 'wb') for l in infile.readlines(): if l[:5] != '#link': outfile.write(l) sys.exit(0) """) test.write('myfortran.py', r""" import getopt import sys comment = '#' + sys.argv[1] length = len(comment) opts, args = getopt.getopt(sys.argv[2:], 'co:') for opt, arg in opts: if opt == '-o': out = arg infile = open(args[0], 'rb') outfile = open(out, 'wb') for l in infile.readlines(): if l[:length] != comment: outfile.write(l) sys.exit(0) """) test.write('SConstruct', """ env = Environment(LINK = r'%(_python_)s mylink.py', LINKFLAGS = [], F90 = r'%(_python_)s myfortran.py f90', FORTRAN = r'%(_python_)s myfortran.py fortran') env.Program(target = 'test01', source = 'test01.f') env.Program(target = 'test02', source = 'test02.F') env.Program(target = 'test03', source = 'test03.for') env.Program(target = 'test04', source = 'test04.FOR') env.Program(target = 'test05', source = 'test05.ftn') env.Program(target = 'test06', source = 'test06.FTN') env.Program(target = 'test07', source = 'test07.fpp') env.Program(target = 'test08', source = 'test08.FPP') env.Program(target = 'test09', source = 'test09.f77') env.Program(target = 'test10', source = 'test10.F77') env.Program(target = 'test11', source = 'test11.f90') env.Program(target = 'test12', source = 'test12.F90') env.Program(target = 'test13', source = 'test13.f95') env.Program(target = 'test14', source = 'test14.F95') """ % locals()) test.write('test01.f', "This is a .f file.\n#link\n#fortran\n") test.write('test02.F', "This is a .F file.\n#link\n#fortran\n") test.write('test03.for', "This is a .for file.\n#link\n#fortran\n") test.write('test04.FOR', "This is a .FOR file.\n#link\n#fortran\n") test.write('test05.ftn', "This is a .ftn file.\n#link\n#fortran\n") test.write('test06.FTN', "This is a .FTN file.\n#link\n#fortran\n") test.write('test07.fpp', "This is a .fpp file.\n#link\n#fortran\n") test.write('test08.FPP', "This is a .FPP file.\n#link\n#fortran\n") test.write('test09.f77', "This is a .f77 file.\n#link\n#fortran\n") test.write('test10.F77', "This is a .F77 file.\n#link\n#fortran\n") test.write('test11.f90', "This is a .f90 file.\n#link\n#f90\n") test.write('test12.F90', "This is a .F90 file.\n#link\n#f90\n") test.write('test13.f95', "This is a .f95 file.\n#link\n#fortran\n") test.write('test14.F95', "This is a .F95 file.\n#link\n#fortran\n") test.run(arguments = '.', stderr = None) test.must_match('test01' + _exe, "This is a .f file.\n") test.must_match('test02' + _exe, "This is a .F file.\n") test.must_match('test03' + _exe, "This is a .for file.\n") test.must_match('test04' + _exe, "This is a .FOR file.\n") test.must_match('test05' + _exe, "This is a .ftn file.\n") test.must_match('test06' + _exe, "This is a .FTN file.\n") test.must_match('test07' + _exe, "This is a .fpp file.\n") test.must_match('test08' + _exe, "This is a .FPP file.\n") test.must_match('test09' + _exe, "This is a .f77 file.\n") test.must_match('test10' + _exe, "This is a .F77 file.\n") test.must_match('test11' + _exe, "This is a .f90 file.\n") test.must_match('test12' + _exe, "This is a .F90 file.\n") test.must_match('test13' + _exe, "This is a .f95 file.\n") test.must_match('test14' + _exe, "This is a .F95 file.\n") g90 = test.detect('F90', 'g90') FTN_LIB = TestSCons.fortran_lib if g90: test.write("wrapper.py", """import os import string import sys open('%s', 'wb').write("wrapper.py\\n") os.system(string.join(sys.argv[1:], " ")) """ % string.replace(test.workpath('wrapper.out'), '\\', '\\\\')) test.write('SConstruct', """ foo = Environment(LIBS = %(FTN_LIB)s) f90 = foo.Dictionary('F90') bar = foo.Clone(F90 = r'%(_python_)s wrapper.py ' + f90) foo.Program(target = 'foo', source = 'foo.f') bar.Program(target = 'bar', source = 'bar.f') """ % locals()) test.write('foo.f', r""" PROGRAM FOO USE MOD_BAR PRINT *,'foo.f' CALL P STOP END MODULE MOD_BAR IMPLICIT NONE CONTAINS SUBROUTINE P PRINT *,'mod_bar' END SUBROUTINE P END MODULE MOD_BAR """) test.write('bar.f', r""" PROGRAM BAR USE MOD_FOO PRINT *,'bar.f' CALL P STOP END """) test.write('foo_mod.f', r""" MODULE MOD_FOO IMPLICIT NONE CONTAINS SUBROUTINE P PRINT *,'mod_foo' END SUBROUTINE P END MODULE MOD_FOO """) test.run(arguments = 'foo' + _exe, stderr = None) test.run(program = test.workpath('foo'), stdout = " foo.f\n") test.must_not_exist('wrapper.out') test.run(arguments = 'bar' + _exe) test.run(program = test.workpath('bar'), stdout = " bar.f\n") test.must_match('wrapper.out', "wrapper.py\n") test.pass_test()