#!/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__" """ Test that the -u option only builds targets at or below the current directory. """ import os import TestSCons test = TestSCons.TestSCons() test.subdir('sub1', 'sub2', ['sub2', 'dir'], 'sub3', 'sub4', ['sub4', 'dir']) test.write('SConstruct', """ def cat(env, source, target): target = str(target[0]) f = open(target, "wb") for src in source: f.write(open(str(src), "rb").read()) f.close() env = Environment() env.Append(BUILDERS = {'Cat' : Builder(action=cat)}) env.Cat(target = 'sub1/f1a.out', source = 'sub1/f1a.in') env.Cat(target = 'sub1/f1b.out', source = 'sub1/f1b.in') Export('env') SConscript('sub2/SConscript') f3 = env.Cat(target = 'sub3/f3.out', source = 'sub3/f3.in') env.Alias('my_alias', f3) VariantDir('build', 'sub4') SConscript('build/SConscript') """) test.write(['sub2', 'SConscript'], """ Import('env') env.Cat(target = 'f2a.out', source = 'f2a.in') env.Cat(target = 'dir/f2b.out', source = 'dir/f2b.in') """) test.write(['sub4', 'SConscript'], """ Import('env') env.Cat(target = 'f4a.out', source = 'f4a.in') f4b_in = File('dir/f4b.in') f4b_in.exists() f4b_in.is_derived() env.Cat(target = 'dir/f4b.out', source = f4b_in) """) test.write(['sub1', 'f1a.in'], "sub1/f1a.in") test.write(['sub1', 'f1b.in'], "sub1/f1b.in") test.write(['sub2', 'f2a.in'], "sub2/f2a.in") test.write(['sub2', 'dir', 'f2b.in'], "sub2/dir/f2b.in") test.write(['sub3', 'f3.in'], "sub3/f3.in") test.write(['sub4', 'f4a.in'], "sub4/f4a.in") test.write(['sub4', 'dir', 'f4b.in'], "sub4/dir/f4b.in") # Verify that we only build the specified local argument. test.run(chdir = 'sub1', arguments = '-u f1a.out') test.must_match(['sub1', 'f1a.out'], "sub1/f1a.in") test.must_not_exist(test.workpath('sub1', 'sub1/f1b.out')) test.must_not_exist(test.workpath('sub2', 'f2a.out')) test.must_not_exist(test.workpath('sub2', 'dir', 'f2b.out')) test.must_not_exist(test.workpath('sub3', 'f3.out')) test.must_not_exist(test.workpath('sub4', 'f4a.out')) test.must_not_exist(test.workpath('sub4', 'dir', 'f4b.out')) test.must_not_exist(test.workpath('build', 'f4a.out')) test.must_not_exist(test.workpath('build', 'dir', 'f4b.out')) # Verify that we build everything at or below our current directory. test.run(chdir = 'sub2', arguments = '-u') test.must_not_exist(test.workpath('sub1', 'sub1/f1b.out')) test.must_match(['sub2', 'f2a.out'], "sub2/f2a.in") test.must_match(['sub2', 'dir', 'f2b.out'], "sub2/dir/f2b.in") test.must_not_exist(test.workpath('sub3', 'f3.out')) test.must_not_exist(test.workpath('sub4', 'f4a.out')) test.must_not_exist(test.workpath('sub4', 'dir', 'f4b.out')) test.must_not_exist(test.workpath('build', 'f4a.out')) test.must_not_exist(test.workpath('build', 'dir', 'f4b.out')) # Verify that we build a specified alias, regardless of where. test.run(chdir = 'sub2', arguments = '-u my_alias') test.must_not_exist(test.workpath('sub1', 'sub1/f1b.out')) test.must_match(['sub3', 'f3.out'], "sub3/f3.in") test.must_not_exist(test.workpath('sub4', 'f4a.out')) test.must_not_exist(test.workpath('sub4', 'dir', 'f4b.out')) test.must_not_exist(test.workpath('build', 'f4a.out')) test.must_not_exist(test.workpath('build', 'dir', 'f4b.out')) # Verify that we build things in a linked VariantDir. f4a_in = os.path.join('build', 'f4a.in') f4a_out = os.path.join('build', 'f4a.out') f4b_in = os.path.join('build', 'dir', 'f4b.in') f4b_out = os.path.join('build', 'dir', 'f4b.out') test.run(chdir = 'sub4', arguments = '-u', stdout = "scons: Entering directory `%s'\n" % test.workpath() + \ test.wrap_stdout("""\ scons: building associated VariantDir targets: build cat(["%s"], ["%s"]) cat(["%s"], ["%s"]) scons: `sub4' is up to date. """ % (f4b_out, f4b_in, f4a_out, f4a_in))) test.must_not_exist(test.workpath('sub1', 'sub1/f1b.out')) test.must_not_exist(test.workpath('sub4', 'f4a.out')) test.must_not_exist(test.workpath('sub4', 'dir', 'f4b.out')) test.must_match(['build', 'f4a.out'], "sub4/f4a.in") test.must_match(['build', 'dir', 'f4b.out'], "sub4/dir/f4b.in") test.pass_test() # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: