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#!/usr/bin/env python3
# Copyright 2016-2017 The Meson development team
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
# http://www.apache.org/licenses/LICENSE-2.0
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
import stat
import shlex
import subprocess
import re, json
8 years ago
import tempfile
import unittest, os, sys, shutil, time
from glob import glob
from pathlib import PurePath
import mesonbuild.compilers
import mesonbuild.environment
import mesonbuild.mesonlib
from mesonbuild.mesonlib import is_windows, is_osx
from mesonbuild.environment import detect_ninja, Environment
from mesonbuild.dependencies import PkgConfigDependency, ExternalProgram
if is_windows():
exe_suffix = '.exe'
else:
exe_suffix = ''
def get_soname(fname):
# HACK, fix to not use shell.
raw_out = subprocess.check_output(['readelf', '-a', fname],
universal_newlines=True)
pattern = re.compile('soname: \[(.*?)\]')
for line in raw_out.split('\n'):
m = pattern.search(line)
if m is not None:
return m.group(1)
raise RuntimeError('Could not determine soname:\n\n' + raw_out)
def get_fake_options(prefix):
import argparse
opts = argparse.Namespace()
opts.cross_file = None
opts.prefix = prefix
return opts
class FakeEnvironment(object):
def __init__(self):
self.cross_info = None
def is_cross_build(self):
return False
class InternalTests(unittest.TestCase):
def test_version_number(self):
searchfunc = mesonbuild.environment.search_version
self.assertEqual(searchfunc('foobar 1.2.3'), '1.2.3')
self.assertEqual(searchfunc('1.2.3'), '1.2.3')
self.assertEqual(searchfunc('foobar 2016.10.28 1.2.3'), '1.2.3')
self.assertEqual(searchfunc('2016.10.28 1.2.3'), '1.2.3')
self.assertEqual(searchfunc('foobar 2016.10.128'), 'unknown version')
self.assertEqual(searchfunc('2016.10.128'), 'unknown version')
def test_mode_symbolic_to_bits(self):
modefunc = mesonbuild.mesonlib.FileMode.perms_s_to_bits
self.assertEqual(modefunc('---------'), 0)
self.assertEqual(modefunc('r--------'), stat.S_IRUSR)
self.assertEqual(modefunc('---r-----'), stat.S_IRGRP)
self.assertEqual(modefunc('------r--'), stat.S_IROTH)
self.assertEqual(modefunc('-w-------'), stat.S_IWUSR)
self.assertEqual(modefunc('----w----'), stat.S_IWGRP)
self.assertEqual(modefunc('-------w-'), stat.S_IWOTH)
self.assertEqual(modefunc('--x------'), stat.S_IXUSR)
self.assertEqual(modefunc('-----x---'), stat.S_IXGRP)
self.assertEqual(modefunc('--------x'), stat.S_IXOTH)
self.assertEqual(modefunc('--S------'), stat.S_ISUID)
self.assertEqual(modefunc('-----S---'), stat.S_ISGID)
self.assertEqual(modefunc('--------T'), stat.S_ISVTX)
self.assertEqual(modefunc('--s------'), stat.S_ISUID | stat.S_IXUSR)
self.assertEqual(modefunc('-----s---'), stat.S_ISGID | stat.S_IXGRP)
self.assertEqual(modefunc('--------t'), stat.S_ISVTX | stat.S_IXOTH)
self.assertEqual(modefunc('rwx------'), stat.S_IRWXU)
self.assertEqual(modefunc('---rwx---'), stat.S_IRWXG)
self.assertEqual(modefunc('------rwx'), stat.S_IRWXO)
# We could keep listing combinations exhaustively but that seems
# tedious and pointless. Just test a few more.
self.assertEqual(modefunc('rwxr-xr-x'),
stat.S_IRWXU |
stat.S_IRGRP | stat.S_IXGRP |
stat.S_IROTH | stat.S_IXOTH)
self.assertEqual(modefunc('rw-r--r--'),
stat.S_IRUSR | stat.S_IWUSR |
stat.S_IRGRP |
stat.S_IROTH)
self.assertEqual(modefunc('rwsr-x---'),
stat.S_IRWXU | stat.S_ISUID |
stat.S_IRGRP | stat.S_IXGRP)
def test_compiler_args_class(self):
cargsfunc = mesonbuild.compilers.CompilerArgs
c = mesonbuild.environment.CCompiler([], 'fake', False)
# Test that bad initialization fails
self.assertRaises(TypeError, cargsfunc, [])
self.assertRaises(TypeError, cargsfunc, [], [])
self.assertRaises(TypeError, cargsfunc, c, [], [])
# Test that empty initialization works
a = cargsfunc(c)
self.assertEqual(a, [])
# Test that list initialization works
a = cargsfunc(['-I.', '-I..'], c)
self.assertEqual(a, ['-I.', '-I..'])
# Test that there is no de-dup on initialization
self.assertEqual(cargsfunc(['-I.', '-I.'], c), ['-I.', '-I.'])
## Test that appending works
a.append('-I..')
self.assertEqual(a, ['-I..', '-I.'])
a.append('-O3')
self.assertEqual(a, ['-I..', '-I.', '-O3'])
## Test that in-place addition works
a += ['-O2', '-O2']
self.assertEqual(a, ['-I..', '-I.', '-O3', '-O2', '-O2'])
# Test that removal works
a.remove('-O2')
self.assertEqual(a, ['-I..', '-I.', '-O3', '-O2'])
# Test that de-dup happens on addition
a += ['-Ifoo', '-Ifoo']
self.assertEqual(a, ['-Ifoo', '-I..', '-I.', '-O3', '-O2'])
# .extend() is just +=, so we don't test it
## Test that addition works
# Test that adding a list with just one old arg works and yields the same array
a = a + ['-Ifoo']
self.assertEqual(a, ['-Ifoo', '-I..', '-I.', '-O3', '-O2'])
# Test that adding a list with one arg new and one old works
a = a + ['-Ifoo', '-Ibaz']
self.assertEqual(a, ['-Ifoo', '-Ibaz', '-I..', '-I.', '-O3', '-O2'])
# Test that adding args that must be prepended and appended works
a = a + ['-Ibar', '-Wall']
self.assertEqual(a, ['-Ibar', '-Ifoo', '-Ibaz', '-I..', '-I.', '-O3', '-O2', '-Wall'])
## Test that reflected addition works
# Test that adding to a list with just one old arg works and DOES NOT yield the same array
a = ['-Ifoo'] + a
self.assertEqual(a, ['-Ibar', '-Ifoo', '-Ibaz', '-I..', '-I.', '-O3', '-O2', '-Wall'])
# Test that adding to a list with just one new arg that is not pre-pended works
a = ['-Werror'] + a
self.assertEqual(a, ['-Ibar', '-Ifoo', '-Ibaz', '-I..', '-I.', '-Werror', '-O3', '-O2', '-Wall'])
# Test that adding to a list with two new args preserves the order
a = ['-Ldir', '-Lbah'] + a
self.assertEqual(a, ['-Ibar', '-Ifoo', '-Ibaz', '-I..', '-I.', '-Ldir', '-Lbah', '-Werror', '-O3', '-O2', '-Wall'])
def test_commonpath(self):
from os.path import sep
commonpath = mesonbuild.mesonlib.commonpath
self.assertRaises(ValueError, commonpath, [])
self.assertEqual(commonpath(['/usr', '/usr']), sep + 'usr')
self.assertEqual(commonpath(['/usr', '/usr/']), sep + 'usr')
self.assertEqual(commonpath(['/usr', '/usr/bin']), sep + 'usr')
self.assertEqual(commonpath(['/usr/', '/usr/bin']), sep + 'usr')
self.assertEqual(commonpath(['/usr/./', '/usr/bin']), sep + 'usr')
self.assertEqual(commonpath(['/usr/bin', '/usr/bin']), sep + 'usr' + sep + 'bin')
self.assertEqual(commonpath(['/usr//bin', '/usr/bin']), sep + 'usr' + sep + 'bin')
self.assertEqual(commonpath(['/usr/./bin', '/usr/bin']), sep + 'usr' + sep + 'bin')
self.assertEqual(commonpath(['/usr/local', '/usr/lib']), sep + 'usr')
self.assertEqual(commonpath(['/usr', '/bin']), sep)
self.assertEqual(commonpath(['/usr', 'bin']), '')
self.assertEqual(commonpath(['blam', 'bin']), '')
prefix = '/some/path/to/prefix'
libdir = '/some/path/to/prefix/libdir'
self.assertEqual(commonpath([prefix, libdir]), str(PurePath(prefix)))
def test_string_templates_substitution(self):
dictfunc = mesonbuild.mesonlib.get_filenames_templates_dict
substfunc = mesonbuild.mesonlib.substitute_values
ME = mesonbuild.mesonlib.MesonException
# Identity
self.assertEqual(dictfunc([], []), {})
# One input, no outputs
inputs = ['bar/foo.c.in']
outputs = []
ret = dictfunc(inputs, outputs)
d = {'@INPUT@': inputs, '@INPUT0@': inputs[0],
'@PLAINNAME@': 'foo.c.in', '@BASENAME@': 'foo.c'}
# Check dictionary
self.assertEqual(ret, d)
# Check substitutions
cmd = ['some', 'ordinary', 'strings']
self.assertEqual(substfunc(cmd, d), cmd)
cmd = ['@INPUT@.out', 'ordinary', 'strings']
self.assertEqual(substfunc(cmd, d), [inputs[0] + '.out'] + cmd[1:])
cmd = ['@INPUT0@.out', '@PLAINNAME@.ok', 'strings']
self.assertEqual(substfunc(cmd, d),
[inputs[0] + '.out'] + [d['@PLAINNAME@'] + '.ok'] + cmd[2:])
cmd = ['@INPUT@', '@BASENAME@.hah', 'strings']
self.assertEqual(substfunc(cmd, d),
inputs + [d['@BASENAME@'] + '.hah'] + cmd[2:])
cmd = ['@OUTPUT@']
self.assertRaises(ME, substfunc, cmd, d)
# One input, one output
inputs = ['bar/foo.c.in']
outputs = ['out.c']
ret = dictfunc(inputs, outputs)
d = {'@INPUT@': inputs, '@INPUT0@': inputs[0],
'@PLAINNAME@': 'foo.c.in', '@BASENAME@': 'foo.c',
'@OUTPUT@': outputs, '@OUTPUT0@': outputs[0], '@OUTDIR@': '.'}
# Check dictionary
self.assertEqual(ret, d)
# Check substitutions
cmd = ['some', 'ordinary', 'strings']
self.assertEqual(substfunc(cmd, d), cmd)
cmd = ['@INPUT@.out', '@OUTPUT@', 'strings']
self.assertEqual(substfunc(cmd, d),
[inputs[0] + '.out'] + outputs + cmd[2:])
cmd = ['@INPUT0@.out', '@PLAINNAME@.ok', '@OUTPUT0@']
self.assertEqual(substfunc(cmd, d),
[inputs[0] + '.out', d['@PLAINNAME@'] + '.ok'] + outputs)
cmd = ['@INPUT@', '@BASENAME@.hah', 'strings']
self.assertEqual(substfunc(cmd, d),
inputs + [d['@BASENAME@'] + '.hah'] + cmd[2:])
# One input, one output with a subdir
outputs = ['dir/out.c']
ret = dictfunc(inputs, outputs)
d = {'@INPUT@': inputs, '@INPUT0@': inputs[0],
'@PLAINNAME@': 'foo.c.in', '@BASENAME@': 'foo.c',
'@OUTPUT@': outputs, '@OUTPUT0@': outputs[0], '@OUTDIR@': 'dir'}
# Check dictionary
self.assertEqual(ret, d)
# Two inputs, no outputs
inputs = ['bar/foo.c.in', 'baz/foo.c.in']
outputs = []
ret = dictfunc(inputs, outputs)
d = {'@INPUT@': inputs, '@INPUT0@': inputs[0], '@INPUT1@': inputs[1]}
# Check dictionary
self.assertEqual(ret, d)
# Check substitutions
cmd = ['some', 'ordinary', 'strings']
self.assertEqual(substfunc(cmd, d), cmd)
cmd = ['@INPUT@', 'ordinary', 'strings']
self.assertEqual(substfunc(cmd, d), inputs + cmd[1:])
cmd = ['@INPUT0@.out', 'ordinary', 'strings']
self.assertEqual(substfunc(cmd, d), [inputs[0] + '.out'] + cmd[1:])
cmd = ['@INPUT0@.out', '@INPUT1@.ok', 'strings']
self.assertEqual(substfunc(cmd, d), [inputs[0] + '.out', inputs[1] + '.ok'] + cmd[2:])
cmd = ['@INPUT0@', '@INPUT1@', 'strings']
self.assertEqual(substfunc(cmd, d), inputs + cmd[2:])
# Many inputs, can't use @INPUT@ like this
cmd = ['@INPUT@.out', 'ordinary', 'strings']
# Not enough inputs
cmd = ['@INPUT2@.out', 'ordinary', 'strings']
self.assertRaises(ME, substfunc, cmd, d)
# Too many inputs
cmd = ['@PLAINNAME@']
self.assertRaises(ME, substfunc, cmd, d)
cmd = ['@BASENAME@']
self.assertRaises(ME, substfunc, cmd, d)
# No outputs
cmd = ['@OUTPUT@']
self.assertRaises(ME, substfunc, cmd, d)
cmd = ['@OUTPUT0@']
self.assertRaises(ME, substfunc, cmd, d)
cmd = ['@OUTDIR@']
self.assertRaises(ME, substfunc, cmd, d)
# Two inputs, one output
outputs = ['dir/out.c']
ret = dictfunc(inputs, outputs)
d = {'@INPUT@': inputs, '@INPUT0@': inputs[0], '@INPUT1@': inputs[1],
'@OUTPUT@': outputs, '@OUTPUT0@': outputs[0], '@OUTDIR@': 'dir'}
# Check dictionary
self.assertEqual(ret, d)
# Check substitutions
cmd = ['some', 'ordinary', 'strings']
self.assertEqual(substfunc(cmd, d), cmd)
cmd = ['@OUTPUT@', 'ordinary', 'strings']
self.assertEqual(substfunc(cmd, d), outputs + cmd[1:])
cmd = ['@OUTPUT@.out', 'ordinary', 'strings']
self.assertEqual(substfunc(cmd, d), [outputs[0] + '.out'] + cmd[1:])
cmd = ['@OUTPUT0@.out', '@INPUT1@.ok', 'strings']
self.assertEqual(substfunc(cmd, d), [outputs[0] + '.out', inputs[1] + '.ok'] + cmd[2:])
# Many inputs, can't use @INPUT@ like this
cmd = ['@INPUT@.out', 'ordinary', 'strings']
# Not enough inputs
cmd = ['@INPUT2@.out', 'ordinary', 'strings']
self.assertRaises(ME, substfunc, cmd, d)
# Not enough outputs
cmd = ['@OUTPUT2@.out', 'ordinary', 'strings']
self.assertRaises(ME, substfunc, cmd, d)
# Two inputs, two outputs
outputs = ['dir/out.c', 'dir/out2.c']
ret = dictfunc(inputs, outputs)
d = {'@INPUT@': inputs, '@INPUT0@': inputs[0], '@INPUT1@': inputs[1],
'@OUTPUT@': outputs, '@OUTPUT0@': outputs[0], '@OUTPUT1@': outputs[1],
'@OUTDIR@': 'dir'}
# Check dictionary
self.assertEqual(ret, d)
# Check substitutions
cmd = ['some', 'ordinary', 'strings']
self.assertEqual(substfunc(cmd, d), cmd)
cmd = ['@OUTPUT@', 'ordinary', 'strings']
self.assertEqual(substfunc(cmd, d), outputs + cmd[1:])
cmd = ['@OUTPUT0@', '@OUTPUT1@', 'strings']
self.assertEqual(substfunc(cmd, d), outputs + cmd[2:])
cmd = ['@OUTPUT0@.out', '@INPUT1@.ok', '@OUTDIR@']
self.assertEqual(substfunc(cmd, d), [outputs[0] + '.out', inputs[1] + '.ok', 'dir'])
# Many inputs, can't use @INPUT@ like this
cmd = ['@INPUT@.out', 'ordinary', 'strings']
# Not enough inputs
cmd = ['@INPUT2@.out', 'ordinary', 'strings']
self.assertRaises(ME, substfunc, cmd, d)
# Not enough outputs
cmd = ['@OUTPUT2@.out', 'ordinary', 'strings']
self.assertRaises(ME, substfunc, cmd, d)
# Many outputs, can't use @OUTPUT@ like this
cmd = ['@OUTPUT@.out', 'ordinary', 'strings']
self.assertRaises(ME, substfunc, cmd, d)
class BasePlatformTests(unittest.TestCase):
def setUp(self):
super().setUp()
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src_root = os.path.dirname(__file__)
src_root = os.path.join(os.getcwd(), src_root)
self.src_root = src_root
# In case the directory is inside a symlinked directory, find the real
# path otherwise we might not find the srcdir from inside the builddir.
self.builddir = os.path.realpath(tempfile.mkdtemp())
self.logdir = os.path.join(self.builddir, 'meson-logs')
self.prefix = '/usr'
self.libdir = os.path.join(self.prefix, 'lib')
self.installdir = os.path.join(self.builddir, 'install')
self.meson_command = [sys.executable, os.path.join(src_root, 'meson.py')]
self.mconf_command = [sys.executable, os.path.join(src_root, 'mesonconf.py')]
self.mintro_command = [sys.executable, os.path.join(src_root, 'mesonintrospect.py')]
self.mtest_command = [sys.executable, os.path.join(src_root, 'mesontest.py'), '-C', self.builddir]
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self.ninja_command = [detect_ninja(), '-C', self.builddir]
self.common_test_dir = os.path.join(src_root, 'test cases/common')
self.vala_test_dir = os.path.join(src_root, 'test cases/vala')
self.framework_test_dir = os.path.join(src_root, 'test cases/frameworks')
self.unit_test_dir = os.path.join(src_root, 'test cases/unit')
self.orig_env = os.environ.copy()
def _print_meson_log(self):
log = os.path.join(self.logdir, 'meson-log.txt')
if not os.path.isfile(log):
print("{!r} doesn't exist".format(log))
return
with open(log, 'r', encoding='utf-8') as f:
print(f.read())
def tearDown(self):
shutil.rmtree(self.builddir)
os.environ = self.orig_env
super().tearDown()
def _run(self, command):
'''
Run a command while printing the stdout and stderr to stdout,
and also return a copy of it
'''
p = subprocess.Popen(command, stdout=subprocess.PIPE,
stderr=subprocess.STDOUT, env=os.environ.copy(),
universal_newlines=True)
output = p.communicate()[0]
print(output)
if p.returncode != 0:
raise subprocess.CalledProcessError(p.returncode, command)
return output
def init(self, srcdir, extra_args=None, default_args=True):
if extra_args is None:
extra_args = []
args = [srcdir, self.builddir]
if default_args:
args += ['--prefix', self.prefix,
'--libdir', self.libdir]
try:
self._run(self.meson_command + args + extra_args)
except:
self._print_meson_log()
raise
self.privatedir = os.path.join(self.builddir, 'meson-private')
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def build(self, extra_args=None):
if extra_args is None:
extra_args = []
self._run(self.ninja_command + extra_args)
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def run_tests(self):
self._run(self.ninja_command + ['test'])
def install(self):
os.environ['DESTDIR'] = self.installdir
self._run(self.ninja_command + ['install'])
def uninstall(self):
self._run(self.ninja_command + ['uninstall'])
def run_target(self, target):
'''
Run a Ninja target while printing the stdout and stderr to stdout,
and also return a copy of it
'''
return self._run(self.ninja_command + [target])
def setconf(self, arg, will_build=True):
# This is needed to increase the difference between build.ninja's
# timestamp and coredata.dat's timestamp due to a Ninja bug.
# https://github.com/ninja-build/ninja/issues/371
if will_build:
time.sleep(1)
self._run(self.mconf_command + [arg, self.builddir])
def wipe(self):
shutil.rmtree(self.builddir)
def get_compdb(self):
with open(os.path.join(self.builddir, 'compile_commands.json')) as ifile:
return json.load(ifile)
def get_meson_log(self):
with open(os.path.join(self.builddir, 'meson-logs', 'meson-log.txt')) as f:
return f.readlines()
def get_meson_log_compiler_checks(self):
'''
Fetch a list command-lines run by meson for compiler checks.
Each command-line is returned as a list of arguments.
'''
log = self.get_meson_log()
prefix = 'Command line:'
cmds = [l[len(prefix):].split() for l in log if l.startswith(prefix)]
return cmds
def introspect(self, arg):
out = subprocess.check_output(self.mintro_command + [arg, self.builddir],
universal_newlines=True)
return json.loads(out)
def assertPathEqual(self, path1, path2):
'''
Handles a lot of platform-specific quirks related to paths such as
separator, case-sensitivity, etc.
'''
self.assertEqual(PurePath(path1), PurePath(path2))
def assertPathBasenameEqual(self, path, basename):
msg = '{!r} does not end with {!r}'.format(path, basename)
# We cannot use os.path.basename because it returns '' when the path
# ends with '/' for some silly reason. This is not how the UNIX utility
# `basename` works.
path_basename = PurePath(path).parts[-1]
self.assertEqual(PurePath(path_basename), PurePath(basename), msg)
class AllPlatformTests(BasePlatformTests):
'''
Tests that should run on all platforms
'''
def test_default_options_prefix(self):
'''
Tests that setting a prefix in default_options in project() works.
Can't be an ordinary test because we pass --prefix to meson there.
https://github.com/mesonbuild/meson/issues/1349
'''
testdir = os.path.join(self.common_test_dir, '94 default options')
self.init(testdir, default_args=False)
opts = self.introspect('--buildoptions')
for opt in opts:
if opt['name'] == 'prefix':
prefix = opt['value']
self.assertEqual(prefix, '/absoluteprefix')
def test_absolute_prefix_libdir(self):
'''
Tests that setting absolute paths for --prefix and --libdir work. Can't
be an ordinary test because these are set via the command-line.
https://github.com/mesonbuild/meson/issues/1341
https://github.com/mesonbuild/meson/issues/1345
'''
testdir = os.path.join(self.common_test_dir, '94 default options')
prefix = '/someabs'
libdir = 'libdir'
extra_args = ['--prefix=' + prefix,
# This can just be a relative path, but we want to test
# that passing this as an absolute path also works
'--libdir=' + prefix + '/' + libdir]
self.init(testdir, extra_args, default_args=False)
opts = self.introspect('--buildoptions')
for opt in opts:
if opt['name'] == 'prefix':
self.assertEqual(prefix, opt['value'])
elif opt['name'] == 'libdir':
self.assertEqual(libdir, opt['value'])
def test_libdir_must_be_inside_prefix(self):
'''
Tests that libdir is forced to be inside prefix no matter how it is set.
Must be a unit test for obvious reasons.
'''
testdir = os.path.join(self.common_test_dir, '1 trivial')
# libdir being inside prefix is ok
args = ['--prefix', '/opt', '--libdir', '/opt/lib32']
self.init(testdir, args)
self.wipe()
# libdir not being inside prefix is not ok
args = ['--prefix', '/usr', '--libdir', '/opt/lib32']
self.assertRaises(subprocess.CalledProcessError, self.init, testdir, args)
self.wipe()
# libdir must be inside prefix even when set via mesonconf
self.init(testdir)
self.assertRaises(subprocess.CalledProcessError, self.setconf, '-Dlibdir=/opt', False)
def test_static_library_overwrite(self):
'''
Tests that static libraries are never appended to, always overwritten.
Has to be a unit test because this involves building a project,
reconfiguring, and building it again so that `ar` is run twice on the
same static library.
https://github.com/mesonbuild/meson/issues/1355
'''
testdir = os.path.join(self.common_test_dir, '3 static')
env = Environment(testdir, self.builddir, self.meson_command,
get_fake_options(self.prefix), [])
cc = env.detect_c_compiler(False)
static_linker = env.detect_static_linker(cc)
if not isinstance(static_linker, mesonbuild.compilers.ArLinker):
raise unittest.SkipTest('static linker is not `ar`')
# Configure
self.init(testdir)
# Get name of static library
targets = self.introspect('--targets')
self.assertEqual(len(targets), 1)
libname = targets[0]['filename']
# Build and get contents of static library
self.build()
before = self._run(['ar', 't', os.path.join(self.builddir, libname)]).split()
# Filter out non-object-file contents
before = [f for f in before if f.endswith(('.o', '.obj'))]
# Static library should contain only one object
self.assertEqual(len(before), 1, msg=before)
# Change the source to be built into the static library
self.setconf('-Dsource=libfile2.c')
self.build()
after = self._run(['ar', 't', os.path.join(self.builddir, libname)]).split()
# Filter out non-object-file contents
after = [f for f in after if f.endswith(('.o', '.obj'))]
# Static library should contain only one object
self.assertEqual(len(after), 1, msg=after)
# and the object must have changed
self.assertNotEqual(before, after)
def test_static_compile_order(self):
'''
Test that the order of files in a compiler command-line while compiling
and linking statically is deterministic. This can't be an ordinary test
case because we need to inspect the compiler database.
https://github.com/mesonbuild/meson/pull/951
'''
testdir = os.path.join(self.common_test_dir, '5 linkstatic')
self.init(testdir)
compdb = self.get_compdb()
# Rules will get written out in this order
self.assertTrue(compdb[0]['file'].endswith("libfile.c"))
self.assertTrue(compdb[1]['file'].endswith("libfile2.c"))
self.assertTrue(compdb[2]['file'].endswith("libfile3.c"))
self.assertTrue(compdb[3]['file'].endswith("libfile4.c"))
# FIXME: We don't have access to the linker command
def test_run_target_files_path(self):
'''
Test that run_targets are run from the correct directory
https://github.com/mesonbuild/meson/issues/957
'''
testdir = os.path.join(self.common_test_dir, '58 run target')
self.init(testdir)
self.run_target('check_exists')
def test_install_introspection(self):
'''
Tests that the Meson introspection API exposes install filenames correctly
https://github.com/mesonbuild/meson/issues/829
'''
testdir = os.path.join(self.common_test_dir, '8 install')
self.init(testdir)
intro = self.introspect('--targets')
if intro[0]['type'] == 'executable':
intro = intro[::-1]
self.assertPathEqual(intro[0]['install_filename'], '/usr/lib/libstat.a')
self.assertPathEqual(intro[1]['install_filename'], '/usr/bin/prog' + exe_suffix)
def test_uninstall(self):
exename = os.path.join(self.installdir, 'usr/bin/prog' + exe_suffix)
testdir = os.path.join(self.common_test_dir, '8 install')
self.init(testdir)
self.assertFalse(os.path.exists(exename))
self.install()
self.assertTrue(os.path.exists(exename))
self.uninstall()
self.assertFalse(os.path.exists(exename))
def test_testsetups(self):
if not shutil.which('valgrind'):
raise unittest.SkipTest('Valgrind not installed.')
testdir = os.path.join(self.unit_test_dir, '2 testsetups')
self.init(testdir)
self.build()
# Run tests without setup
self.run_tests()
with open(os.path.join(self.logdir, 'testlog.txt')) as f:
basic_log = f.read()
# Run buggy test with setup that has env that will make it fail
self.assertRaises(subprocess.CalledProcessError,
self._run, self.mtest_command + ['--setup=valgrind'])
with open(os.path.join(self.logdir, 'testlog-valgrind.txt')) as f:
vg_log = f.read()
self.assertFalse('TEST_ENV is set' in basic_log)
self.assertFalse('Memcheck' in basic_log)
self.assertTrue('TEST_ENV is set' in vg_log)
self.assertTrue('Memcheck' in vg_log)
# Run buggy test with setup without env that will pass
self._run(self.mtest_command + ['--setup=wrapper'])
# Setup with no properties works
self._run(self.mtest_command + ['--setup=empty'])
# Setup with only env works
self._run(self.mtest_command + ['--setup=onlyenv'])
# Setup with only a timeout works
self._run(self.mtest_command + ['--setup=timeout'])
def assertFailedTestCount(self, failure_count, command):
try:
self._run(command)
self.assertEqual(0, failure_count, 'Expected %d tests to fail.' % failure_count)
except subprocess.CalledProcessError as e:
self.assertEqual(e.returncode, failure_count)
def test_suite_selection(self):
testdir = os.path.join(self.unit_test_dir, '4 suite selection')
self.init(testdir)
self.build()
self.assertFailedTestCount(3, self.mtest_command)
self.assertFailedTestCount(0, self.mtest_command + ['--suite', ':success'])
self.assertFailedTestCount(3, self.mtest_command + ['--suite', ':fail'])
self.assertFailedTestCount(3, self.mtest_command + ['--no-suite', ':success'])
self.assertFailedTestCount(0, self.mtest_command + ['--no-suite', ':fail'])
self.assertFailedTestCount(1, self.mtest_command + ['--suite', 'mainprj'])
self.assertFailedTestCount(0, self.mtest_command + ['--suite', 'subprjsucc'])
self.assertFailedTestCount(1, self.mtest_command + ['--suite', 'subprjfail'])
self.assertFailedTestCount(1, self.mtest_command + ['--suite', 'subprjmix'])
self.assertFailedTestCount(2, self.mtest_command + ['--no-suite', 'mainprj'])
self.assertFailedTestCount(3, self.mtest_command + ['--no-suite', 'subprjsucc'])
self.assertFailedTestCount(2, self.mtest_command + ['--no-suite', 'subprjfail'])
self.assertFailedTestCount(2, self.mtest_command + ['--no-suite', 'subprjmix'])
self.assertFailedTestCount(1, self.mtest_command + ['--suite', 'mainprj:fail'])
self.assertFailedTestCount(0, self.mtest_command + ['--suite', 'mainprj:success'])
self.assertFailedTestCount(2, self.mtest_command + ['--no-suite', 'mainprj:fail'])
self.assertFailedTestCount(3, self.mtest_command + ['--no-suite', 'mainprj:success'])
self.assertFailedTestCount(1, self.mtest_command + ['--suite', 'subprjfail:fail'])
self.assertFailedTestCount(0, self.mtest_command + ['--suite', 'subprjfail:success'])
self.assertFailedTestCount(2, self.mtest_command + ['--no-suite', 'subprjfail:fail'])
self.assertFailedTestCount(3, self.mtest_command + ['--no-suite', 'subprjfail:success'])
self.assertFailedTestCount(0, self.mtest_command + ['--suite', 'subprjsucc:fail'])
self.assertFailedTestCount(0, self.mtest_command + ['--suite', 'subprjsucc:success'])
self.assertFailedTestCount(3, self.mtest_command + ['--no-suite', 'subprjsucc:fail'])
self.assertFailedTestCount(3, self.mtest_command + ['--no-suite', 'subprjsucc:success'])
self.assertFailedTestCount(1, self.mtest_command + ['--suite', 'subprjmix:fail'])
self.assertFailedTestCount(0, self.mtest_command + ['--suite', 'subprjmix:success'])
self.assertFailedTestCount(2, self.mtest_command + ['--no-suite', 'subprjmix:fail'])
self.assertFailedTestCount(3, self.mtest_command + ['--no-suite', 'subprjmix:success'])
self.assertFailedTestCount(2, self.mtest_command + ['--suite', 'subprjfail', '--suite', 'subprjmix:fail'])
self.assertFailedTestCount(3, self.mtest_command + ['--suite', 'subprjfail', '--suite', 'subprjmix', '--suite', 'mainprj'])
self.assertFailedTestCount(2, self.mtest_command + ['--suite', 'subprjfail', '--suite', 'subprjmix', '--suite', 'mainprj', '--no-suite', 'subprjmix:fail'])
self.assertFailedTestCount(1, self.mtest_command + ['--suite', 'subprjfail', '--suite', 'subprjmix', '--suite', 'mainprj', '--no-suite', 'subprjmix:fail', 'mainprj-failing_test'])
self.assertFailedTestCount(1, self.mtest_command + ['--no-suite', 'subprjfail:fail', '--no-suite', 'subprjmix:fail'])
def test_build_by_default(self):
testdir = os.path.join(self.common_test_dir, '137 build by default')
self.init(testdir)
self.build()
genfile = os.path.join(self.builddir, 'generated.dat')
exe = os.path.join(self.builddir, 'fooprog' + exe_suffix)
self.assertTrue(os.path.exists(genfile))
self.assertFalse(os.path.exists(exe))
self._run(self.ninja_command + ['fooprog' + exe_suffix])
self.assertTrue(os.path.exists(exe))
def test_internal_include_order(self):
testdir = os.path.join(self.common_test_dir, '138 include order')
self.init(testdir)
for cmd in self.get_compdb():
if cmd['file'].endswith('/main.c'):
cmd = cmd['command']
break
else:
raise Exception('Could not find main.c command')
if cmd.endswith('.rsp'):
# Pretend to build so that the rsp files are generated
self.build(['-d', 'keeprsp', '-n'])
# Extract the actual command from the rsp file
rsp = os.path.join(self.builddir, cmd.split('cl @')[1])
with open(rsp, 'r', encoding='utf-8') as f:
cmd = f.read()
incs = [a for a in shlex.split(cmd) if a.startswith("-I")]
self.assertEqual(len(incs), 8)
# target private dir
self.assertPathEqual(incs[0], "-Isub4/someexe@exe")
# target build subdir
self.assertPathEqual(incs[1], "-Isub4")
# target source subdir
self.assertPathBasenameEqual(incs[2], 'sub4')
# include paths added via per-target c_args: ['-I'...]
self.assertPathBasenameEqual(incs[3], 'sub3')
# target include_directories: build dir
self.assertPathEqual(incs[4], "-Isub2")
# target include_directories: source dir
self.assertPathBasenameEqual(incs[5], 'sub2')
# target internal dependency include_directories: build dir
self.assertPathEqual(incs[6], "-Isub1")
# target internal dependency include_directories: source dir
self.assertPathBasenameEqual(incs[7], 'sub1')
def test_compiler_detection(self):
'''
Test that automatic compiler detection and setting from the environment
both work just fine. This is needed because while running project tests
and other unit tests, we always read CC/CXX/etc from the environment.
'''
gnu = mesonbuild.compilers.GnuCompiler
clang = mesonbuild.compilers.ClangCompiler
intel = mesonbuild.compilers.IntelCompiler
msvc = mesonbuild.compilers.VisualStudioCCompiler
ar = mesonbuild.compilers.ArLinker
lib = mesonbuild.compilers.VisualStudioLinker
langs = [('c', 'CC'), ('cpp', 'CXX')]
if not is_windows():
langs += [('objc', 'OBJC'), ('objcpp', 'OBJCXX')]
testdir = os.path.join(self.unit_test_dir, '5 compiler detection')
env = Environment(testdir, self.builddir, self.meson_command,
get_fake_options(self.prefix), [])
for lang, evar in langs:
evalue = None
# Detect with evar and do sanity checks on that
if evar in os.environ:
ecc = getattr(env, 'detect_{}_compiler'.format(lang))(False)
elinker = env.detect_static_linker(ecc)
# Pop it so we don't use it for the next detection
evalue = os.environ.pop(evar)
# Very rough/strict heuristics. Would never work for actual
# compiler detection, but should be ok for the tests.
if os.path.basename(evalue).startswith('g'):
self.assertIsInstance(ecc, gnu)
self.assertIsInstance(elinker, ar)
elif 'clang' in os.path.basename(evalue):
self.assertIsInstance(ecc, clang)
self.assertIsInstance(elinker, ar)
elif os.path.basename(evalue).startswith('ic'):
self.assertIsInstance(ecc, intel)
self.assertIsInstance(elinker, ar)
elif os.path.basename(evalue).startswith('cl'):
self.assertIsInstance(ecc, msvc)
self.assertIsInstance(elinker, lib)
else:
raise AssertionError('Unknown compiler {!r}'.format(evalue))
# Check that we actually used the evalue correctly as the compiler
self.assertEqual(ecc.get_exelist(), shlex.split(evalue))
# Do auto-detection of compiler based on platform, PATH, etc.
cc = getattr(env, 'detect_{}_compiler'.format(lang))(False)
linker = env.detect_static_linker(cc)
# Check compiler type
if isinstance(cc, gnu):
self.assertIsInstance(linker, ar)
if is_osx():
self.assertEqual(cc.gcc_type, mesonbuild.compilers.GCC_OSX)
elif is_windows():
self.assertEqual(cc.gcc_type, mesonbuild.compilers.GCC_MINGW)
else:
self.assertEqual(cc.gcc_type, mesonbuild.compilers.GCC_STANDARD)
if isinstance(cc, clang):
self.assertIsInstance(linker, ar)
if is_osx():
self.assertEqual(cc.clang_type, mesonbuild.compilers.CLANG_OSX)
elif is_windows():
# Not implemented yet
self.assertEqual(cc.clang_type, mesonbuild.compilers.CLANG_WIN)
else:
self.assertEqual(cc.clang_type, mesonbuild.compilers.CLANG_STANDARD)
if isinstance(cc, intel):
self.assertIsInstance(linker, ar)
if is_osx():
self.assertEqual(cc.icc_type, mesonbuild.compilers.ICC_OSX)
elif is_windows():
self.assertEqual(cc.icc_type, mesonbuild.compilers.ICC_WIN)
else:
self.assertEqual(cc.icc_type, mesonbuild.compilers.ICC_STANDARD)
if isinstance(cc, msvc):
self.assertTrue(is_windows())
self.assertIsInstance(linker, lib)
self.assertEqual(cc.id, 'msvc')
# Set evar ourselves to a wrapper script that just calls the same
# exelist + some argument. This is meant to test that setting
# something like `ccache gcc -pipe` or `distcc ccache gcc` works.
wrapper = os.path.join(testdir, 'compiler wrapper.py')
wrappercc = [sys.executable, wrapper] + cc.get_exelist() + cc.get_always_args()
wrappercc_s = ''
for w in wrappercc:
wrappercc_s += shlex.quote(w) + ' '
os.environ[evar] = wrappercc_s
wcc = getattr(env, 'detect_{}_compiler'.format(lang))(False)
# Check static linker too
wrapperlinker = [sys.executable, wrapper] + linker.get_exelist() + linker.get_always_args()
wrapperlinker_s = ''
for w in wrapperlinker:
wrapperlinker_s += shlex.quote(w) + ' '
os.environ['AR'] = wrapperlinker_s
wlinker = env.detect_static_linker(wcc)
# Must be the same type since it's a wrapper around the same exelist
self.assertIs(type(cc), type(wcc))
self.assertIs(type(linker), type(wlinker))
# Ensure that the exelist is correct
self.assertEqual(wcc.get_exelist(), wrappercc)
self.assertEqual(wlinker.get_exelist(), wrapperlinker)
class WindowsTests(BasePlatformTests):
'''
Tests that should run on Cygwin, MinGW, and MSVC
'''
def setUp(self):
super().setUp()
self.platform_test_dir = os.path.join(self.src_root, 'test cases/windows')
def test_find_program(self):
'''
Test that Windows-specific edge-cases in find_program are functioning
correctly. Cannot be an ordinary test because it involves manipulating
PATH to point to a directory with Python scripts.
'''
testdir = os.path.join(self.platform_test_dir, '9 find program')
# Find `cmd` and `cmd.exe`
prog1 = ExternalProgram('cmd')
self.assertTrue(prog1.found(), msg='cmd not found')
prog2 = ExternalProgram('cmd.exe')
self.assertTrue(prog2.found(), msg='cmd.exe not found')
self.assertPathEqual(prog1.get_path(), prog2.get_path())
# Find cmd with an absolute path that's missing the extension
cmd_path = prog2.get_path()[:-4]
prog = ExternalProgram(cmd_path)
self.assertTrue(prog.found(), msg='{!r} not found'.format(cmd_path))
# Finding a script with no extension inside a directory works
prog = ExternalProgram(os.path.join(testdir, 'test-script'))
self.assertTrue(prog.found(), msg='test-script not found')
# Finding a script with an extension inside a directory works
prog = ExternalProgram(os.path.join(testdir, 'test-script-ext.py'))
self.assertTrue(prog.found(), msg='test-script-ext.py not found')
# Finding a script in PATH w/o extension works and adds the interpreter
os.environ['PATH'] += os.pathsep + testdir
prog = ExternalProgram('test-script-ext')
self.assertTrue(prog.found(), msg='test-script-ext not found in PATH')
self.assertPathEqual(prog.get_command()[0], sys.executable)
self.assertPathBasenameEqual(prog.get_path(), 'test-script-ext.py')
# Finding a script in PATH with extension works and adds the interpreter
prog = ExternalProgram('test-script-ext.py')
self.assertTrue(prog.found(), msg='test-script-ext.py not found in PATH')
self.assertPathEqual(prog.get_command()[0], sys.executable)
self.assertPathBasenameEqual(prog.get_path(), 'test-script-ext.py')
class LinuxlikeTests(BasePlatformTests):
'''
Tests that should run on Linux and *BSD
'''
def test_basic_soname(self):
'''
Test that the soname is set correctly for shared libraries. This can't
be an ordinary test case because we need to run `readelf` and actually
check the soname.
https://github.com/mesonbuild/meson/issues/785
'''
testdir = os.path.join(self.common_test_dir, '4 shared')
8 years ago
self.init(testdir)
self.build()
lib1 = os.path.join(self.builddir, 'libmylib.so')
soname = get_soname(lib1)
self.assertEqual(soname, 'libmylib.so')
def test_custom_soname(self):
'''
Test that the soname is set correctly for shared libraries when
a custom prefix and/or suffix is used. This can't be an ordinary test
case because we need to run `readelf` and actually check the soname.
https://github.com/mesonbuild/meson/issues/785
'''
testdir = os.path.join(self.common_test_dir, '27 library versions')
8 years ago
self.init(testdir)
self.build()
lib1 = os.path.join(self.builddir, 'prefixsomelib.suffix')
soname = get_soname(lib1)
self.assertEqual(soname, 'prefixsomelib.suffix')
def test_pic(self):
'''
Test that -fPIC is correctly added to static libraries when b_staticpic
is true and not when it is false. This can't be an ordinary test case
because we need to inspect the compiler database.
'''
testdir = os.path.join(self.common_test_dir, '3 static')
self.init(testdir)
compdb = self.get_compdb()
self.assertIn('-fPIC', compdb[0]['command'])
self.setconf('-Db_staticpic=false')
# Regenerate build
self.build()
compdb = self.get_compdb()
self.assertNotIn('-fPIC', compdb[0]['command'])
def test_pkgconfig_gen(self):
'''
Test that generated pkg-config files can be found and have the correct
version and link args. This can't be an ordinary test case because we
need to run pkg-config outside of a Meson build file.
https://github.com/mesonbuild/meson/issues/889
'''
testdir = os.path.join(self.common_test_dir, '51 pkgconfig-gen')
self.init(testdir)
env = FakeEnvironment()
kwargs = {'required': True, 'silent': True}
os.environ['PKG_CONFIG_LIBDIR'] = self.privatedir
simple_dep = PkgConfigDependency('libfoo', env, kwargs)
self.assertTrue(simple_dep.found())
self.assertEqual(simple_dep.get_version(), '1.0')
self.assertIn('-lfoo', simple_dep.get_link_args())
def test_vala_c_warnings(self):
'''
Test that no warnings are emitted for C code generated by Vala. This
can't be an ordinary test case because we need to inspect the compiler
database.
https://github.com/mesonbuild/meson/issues/864
'''
testdir = os.path.join(self.vala_test_dir, '5 target glib')
self.init(testdir)
compdb = self.get_compdb()
vala_command = None
c_command = None
for each in compdb:
if each['file'].endswith('GLib.Thread.c'):
vala_command = each['command']
elif each['file'].endswith('GLib.Thread.vala'):
continue
elif each['file'].endswith('retcode.c'):
c_command = each['command']
else:
m = 'Unknown file {!r} in vala_c_warnings test'.format(each['file'])
raise AssertionError(m)
self.assertIsNotNone(vala_command)
self.assertIsNotNone(c_command)
# -w suppresses all warnings, should be there in Vala but not in C
self.assertIn("'-w'", vala_command)
self.assertNotIn("'-w'", c_command)
# -Wall enables all warnings, should be there in C but not in Vala
self.assertNotIn("'-Wall'", vala_command)
self.assertIn("'-Wall'", c_command)
# -Werror converts warnings to errors, should always be there since it's
# injected by an unrelated piece of code and the project has werror=true
self.assertIn("'-Werror'", vala_command)
self.assertIn("'-Werror'", c_command)
def test_qt5dependency_qmake_detection(self):
'''
Test that qt5 detection with qmake works. This can't be an ordinary
test case because it involves setting the environment.
'''
# Verify that qmake is for Qt5
if not shutil.which('qmake-qt5'):
if not shutil.which('qmake'):
raise unittest.SkipTest('QMake not found')
# For some inexplicable reason qmake --version gives different
# results when run from the command line vs invoked by Python.
# Check for both cases in case this behaviour changes in the future.
output = subprocess.getoutput(['qmake', '--version'])
if 'Qt version 5' not in output and 'qt5' not in output:
raise unittest.SkipTest('Qmake found, but it is not for Qt 5.')
# Disable pkg-config codepath and force searching with qmake/qmake-qt5
os.environ['PKG_CONFIG_LIBDIR'] = self.builddir
os.environ['PKG_CONFIG_PATH'] = self.builddir
testdir = os.path.join(self.framework_test_dir, '4 qt')
self.init(testdir)
# Confirm that the dependency was found with qmake
msg = 'Qt5 native `qmake-qt5` dependency (modules: Core) found: YES\n'
msg2 = 'Qt5 native `qmake` dependency (modules: Core) found: YES\n'
mesonlog = self.get_meson_log()
self.assertTrue(msg in mesonlog or msg2 in mesonlog)
def get_soname(self, fname):
output = subprocess.check_output(['readelf', '-a', fname],
universal_newlines=True)
for line in output.split('\n'):
if 'SONAME' in line:
return line.split('[')[1].split(']')[0]
raise RuntimeError('Readelf gave no SONAME.')
def _test_soname_impl(self, libpath, install):
testdir = os.path.join(self.unit_test_dir, '1 soname')
self.init(testdir)
self.build()
if install:
self.install()
# File without aliases set.
nover = os.path.join(libpath, 'libnover.so')
self.assertTrue(os.path.exists(nover))
self.assertFalse(os.path.islink(nover))
self.assertEqual(self.get_soname(nover), 'libnover.so')
self.assertEqual(len(glob(nover[:-3] + '*')), 1)
# File with version set
verset = os.path.join(libpath, 'libverset.so')
self.assertTrue(os.path.exists(verset + '.4.5.6'))
self.assertEqual(os.readlink(verset), 'libverset.so.4')
self.assertEqual(self.get_soname(verset), 'libverset.so.4')
self.assertEqual(len(glob(verset[:-3] + '*')), 3)
# File with soversion set
soverset = os.path.join(libpath, 'libsoverset.so')
self.assertTrue(os.path.exists(soverset + '.1.2.3'))
self.assertEqual(os.readlink(soverset), 'libsoverset.so.1.2.3')
self.assertEqual(self.get_soname(soverset), 'libsoverset.so.1.2.3')
self.assertEqual(len(glob(soverset[:-3] + '*')), 2)
# File with version and soversion set to same values
settosame = os.path.join(libpath, 'libsettosame.so')
self.assertTrue(os.path.exists(settosame + '.7.8.9'))
self.assertEqual(os.readlink(settosame), 'libsettosame.so.7.8.9')
self.assertEqual(self.get_soname(settosame), 'libsettosame.so.7.8.9')
self.assertEqual(len(glob(settosame[:-3] + '*')), 2)
# File with version and soversion set to different values
bothset = os.path.join(libpath, 'libbothset.so')
self.assertTrue(os.path.exists(bothset + '.1.2.3'))
self.assertEqual(os.readlink(bothset), 'libbothset.so.1.2.3')
self.assertEqual(os.readlink(bothset + '.1.2.3'), 'libbothset.so.4.5.6')
self.assertEqual(self.get_soname(bothset), 'libbothset.so.1.2.3')
self.assertEqual(len(glob(bothset[:-3] + '*')), 3)
def test_soname(self):
self._test_soname_impl(self.builddir, False)
def test_installed_soname(self):
self._test_soname_impl(self.installdir + self.libdir, True)
def test_compiler_check_flags_order(self):
'''
Test that compiler check flags override all other flags. This can't be
an ordinary test case because it needs the environment to be set.
'''
Oflag = '-O3'
os.environ['CFLAGS'] = os.environ['CXXFLAGS'] = Oflag
testdir = os.path.join(self.common_test_dir, '43 has function')
self.init(testdir)
cmds = self.get_meson_log_compiler_checks()
for cmd in cmds:
if cmd[0] == 'ccache':
cmd = cmd[1:]
# Verify that -I flags from the `args` kwarg are first
# This is set in the '43 has function' test case
self.assertEqual(cmd[1], '-I/tmp')
# Verify that -O3 set via the environment is overriden by -O0
Oargs = [arg for arg in cmd if arg.startswith('-O')]
self.assertEqual(Oargs, [Oflag, '-O0'])
def test_custom_target_exe_data_deterministic(self):
testdir = os.path.join(self.common_test_dir, '117 custom target capture')
self.init(testdir)
meson_exe_dat1 = glob(os.path.join(self.privatedir, 'meson_exe*.dat'))
self.wipe()
self.init(testdir)
meson_exe_dat2 = glob(os.path.join(self.privatedir, 'meson_exe*.dat'))
self.assertListEqual(meson_exe_dat1, meson_exe_dat2)
def _test_stds_impl(self, testdir, compiler, p):
lang_std = p + '_std'
# Check that all the listed -std=xxx options for this compiler work
# just fine when used
for v in compiler.get_options()[lang_std].choices:
std_opt = '{}={}'.format(lang_std, v)
self.init(testdir, ['-D' + std_opt])
cmd = self.get_compdb()[0]['command']
if v != 'none':
cmd_std = "'-std={}'".format(v)
self.assertIn(cmd_std, cmd)
try:
self.build()
except:
print('{} was {!r}'.format(lang_std, v))
raise
self.wipe()
# Check that an invalid std option in CFLAGS/CPPFLAGS fails
# Needed because by default ICC ignores invalid options
cmd_std = '-std=FAIL'
env_flags = p.upper() + 'FLAGS'
os.environ[env_flags] = cmd_std
self.init(testdir)
cmd = self.get_compdb()[0]['command']
qcmd_std = "'{}'".format(cmd_std)
self.assertIn(qcmd_std, cmd)
with self.assertRaises(subprocess.CalledProcessError,
msg='{} should have failed'.format(qcmd_std)):
self.build()
def test_compiler_c_stds(self):
'''
Test that C stds specified for this compiler can all be used. Can't be
an ordinary test because it requires passing options to meson.
'''
testdir = os.path.join(self.common_test_dir, '1 trivial')
env = Environment(testdir, self.builddir, self.meson_command,
get_fake_options(self.prefix), [])
cc = env.detect_c_compiler(False)
self._test_stds_impl(testdir, cc, 'c')
def test_compiler_cpp_stds(self):
'''
Test that C++ stds specified for this compiler can all be used. Can't
be an ordinary test because it requires passing options to meson.
'''
testdir = os.path.join(self.common_test_dir, '2 cpp')
env = Environment(testdir, self.builddir, self.meson_command,
get_fake_options(self.prefix), [])
cpp = env.detect_cpp_compiler(False)
self._test_stds_impl(testdir, cpp, 'cpp')
def test_installed_modes(self):
'''
Test that files installed by these tests have the correct permissions.
Can't be an ordinary test because our installed_files.txt is very basic.
'''
# Test file modes
testdir = os.path.join(self.common_test_dir, '12 data')
self.init(testdir)
self.install()
f = os.path.join(self.installdir, 'etc', 'etcfile.dat')
found_mode = stat.filemode(os.stat(f).st_mode)
want_mode = 'rw------T'
self.assertEqual(want_mode, found_mode[1:])
f = os.path.join(self.installdir, 'usr', 'bin', 'runscript.sh')
statf = os.stat(f)
found_mode = stat.filemode(statf.st_mode)
want_mode = 'rwxr-sr-x'
self.assertEqual(want_mode, found_mode[1:])
if os.getuid() == 0:
# The chown failed nonfatally if we're not root
self.assertEqual(0, statf.st_uid)
self.assertEqual(0, statf.st_gid)
f = os.path.join(self.installdir, 'usr', 'share', 'progname',
'fileobject_datafile.dat')
orig = os.path.join(testdir, 'fileobject_datafile.dat')
statf = os.stat(f)
statorig = os.stat(orig)
found_mode = stat.filemode(statf.st_mode)
orig_mode = stat.filemode(statorig.st_mode)
self.assertEqual(orig_mode[1:], found_mode[1:])
self.assertEqual(os.getuid(), statf.st_uid)
if os.getuid() == 0:
# The chown failed nonfatally if we're not root
self.assertEqual(0, statf.st_gid)
self.wipe()
# Test directory modes
testdir = os.path.join(self.common_test_dir, '66 install subdir')
self.init(testdir)
self.install()
f = os.path.join(self.installdir, 'usr', 'share', 'sub1')
statf = os.stat(f)
found_mode = stat.filemode(statf.st_mode)
want_mode = 'rwxr-x--t'
self.assertEqual(want_mode, found_mode[1:])
if os.getuid() == 0:
# The chown failed nonfatally if we're not root
self.assertEqual(0, statf.st_uid)
class RewriterTests(unittest.TestCase):
def setUp(self):
super().setUp()
src_root = os.path.dirname(__file__)
self.testroot = os.path.realpath(tempfile.mkdtemp())
self.rewrite_command = [sys.executable, os.path.join(src_root, 'mesonrewriter.py')]
self.tmpdir = os.path.realpath(tempfile.mkdtemp())
self.workdir = os.path.join(self.tmpdir, 'foo')
self.test_dir = os.path.join(src_root, 'test cases/rewrite')
def tearDown(self):
shutil.rmtree(self.tmpdir)
def read_contents(self, fname):
with open(os.path.join(self.workdir, fname)) as f:
return f.read()
def check_effectively_same(self, mainfile, truth):
mf = self.read_contents(mainfile)
t = self.read_contents(truth)
# Rewriting is not guaranteed to do a perfect job of
# maintaining whitespace.
self.assertEqual(mf.replace(' ', ''), t.replace(' ', ''))
def prime(self, dirname):
shutil.copytree(os.path.join(self.test_dir, dirname), self.workdir)
def test_basic(self):
self.prime('1 basic')
subprocess.check_call(self.rewrite_command + ['remove',
'--target=trivialprog',
'--filename=notthere.c',
'--sourcedir', self.workdir],
universal_newlines=True)
self.check_effectively_same('meson.build', 'removed.txt')
subprocess.check_call(self.rewrite_command + ['add',
'--target=trivialprog',
'--filename=notthere.c',
'--sourcedir', self.workdir],
universal_newlines=True)
self.check_effectively_same('meson.build', 'added.txt')
subprocess.check_call(self.rewrite_command + ['remove',
'--target=trivialprog',
'--filename=notthere.c',
'--sourcedir', self.workdir],
universal_newlines=True)
self.check_effectively_same('meson.build', 'removed.txt')
def test_subdir(self):
self.prime('2 subdirs')
top = self.read_contents('meson.build')
s2 = self.read_contents('sub2/meson.build')
subprocess.check_call(self.rewrite_command + ['remove',
'--target=something',
'--filename=second.c',
'--sourcedir', self.workdir],
universal_newlines=True)
self.check_effectively_same('sub1/meson.build', 'sub1/after.txt')
self.assertEqual(top, self.read_contents('meson.build'))
self.assertEqual(s2, self.read_contents('sub2/meson.build'))
if __name__ == '__main__':
unittest.main(buffer=True)