def check(args):
filename = args[0]
output = ChunkedIO()
namespace = Namespace('Test', '1.0')
logger = MessageLogger.get(namespace=namespace, output=output)
logger.enable_warnings(True)
transformer = Transformer(namespace)
transformer.set_include_paths([
os.path.join(top_srcdir, 'gir'),
top_builddir,
os.path.join(top_builddir, 'gir'),
])
transformer.register_include(Include.from_string('GObject-2.0'))
ss = SourceScanner()
options = Options()
exit_code = process_packages(options, ['gobject-2.0'])
if exit_code:
sys.exit(exit_code)
ss.set_cpp_options(options.cpp_includes, options.cpp_defines,
options.cpp_undefines)
ss.parse_files([filename])
ss.parse_macros([filename])
transformer.parse(ss.get_symbols())
cbp = GtkDocCommentBlockParser()
blocks = cbp.parse_comment_blocks(ss.get_comments())
main = MainTransformer(transformer, blocks)
main.transform()
final = IntrospectablePass(transformer, blocks)
final.validate()
emitted_warnings = [w[w.find(':') + 1:] for w in output.getvalue()]
expected_warnings = _extract_expected(filename)
sortkey = lambda x: int(x.split(':')[0])
expected_warnings.sort(key=sortkey)
emitted_warnings.sort(key=sortkey)
if len(expected_warnings) != len(emitted_warnings):
raise SystemExit("ERROR in '%s': %d warnings were emitted, "
"expected %d:\n%s" %
(os.path.basename(filename), len(emitted_warnings),
len(expected_warnings),
_diff(expected_warnings, emitted_warnings)))
for emitted_warning, expected_warning in zip(emitted_warnings,
expected_warnings):
if expected_warning != emitted_warning:
raise SystemExit(
"ERROR in '%s': expected warning does not match emitted "
"warning:\n%s" %
(filename, _diff([expected_warning], [emitted_warning])))
def setUp(self):
self.ss = SourceScanner()
tmp_fd, tmp_name = tempfile.mkstemp()
file = os.fdopen(tmp_fd, 'wt')
file.write(two_typedefs_source)
file.close()
self.ss.parse_files([tmp_name])
def create_scanner_from_source_string(source):
ss = SourceScanner()
tmp_fd, tmp_name = tempfile.mkstemp(suffix='.h', text=True)
file = os.fdopen(tmp_fd, 'wt')
file.write(source)
file.close()
ss.parse_files([tmp_name])
return ss
def _parse_files(self, code, header=True):
scanner = SourceScanner()
tmp_fd, tmp_name = tempfile.mkstemp(suffix=".h" if header else ".c")
fileobj = os.fdopen(tmp_fd, 'wb')
with fileobj:
fileobj.write(code.encode("utf-8"))
scanner.parse_files([tmp_name])
os.unlink(tmp_name)
return scanner
def create_source_scanner(args, filenames, cflags):
ss = SourceScanner()
ss.set_cpp_options (args.cpp_includes,
args.cpp_defines,
args.cpp_undefines,
cflags=cflags)
ss.parse_files(filenames)
return ss
def create_scanner_from_source_string(source):
ss = SourceScanner()
tmp_fd, tmp_name = tempfile.mkstemp(suffix='.h', text=True)
file = os.fdopen(tmp_fd, 'wt')
file.write(source)
file.close()
ss.parse_files([tmp_name])
return ss
def check(args):
filename = args[0]
output = StringIO()
namespace = Namespace("Test", "1.0")
logger = MessageLogger.get(namespace=namespace, output=output)
logger.enable_warnings(True)
transformer = Transformer(namespace)
transformer.set_include_paths(
[os.path.join(top_srcdir, 'gir'), top_builddir])
transformer.register_include(Include.from_string("GObject-2.0"))
ss = SourceScanner()
options = Options()
exit_code = process_packages(options, ['gobject-2.0'])
if exit_code:
sys.exit(exit_code)
ss.set_cpp_options(options.cpp_includes, options.cpp_defines,
options.cpp_undefines)
ss.parse_files([filename])
ss.parse_macros([filename])
transformer.parse(ss.get_symbols())
ap = AnnotationParser()
blocks = ap.parse(ss.get_comments())
main = MainTransformer(transformer, blocks)
main.transform()
final = IntrospectablePass(transformer, blocks)
final.validate()
raw = output.getvalue()
if raw.endswith('\n'):
raw = raw[:-1]
warnings = raw.split('\n')
failed_tests = 0
expected_warnings = _extract_expected(filename)
if '' in warnings:
warnings.remove('')
if len(expected_warnings) != len(warnings):
raise SystemExit(
"ERROR in %r: expected %d warnings, but got %d:\n"
"----\nexpected:\n%s\n----\ngot:\n%s\n----" %
(os.path.basename(filename), len(expected_warnings), len(warnings),
'\n'.join([w[1] for w in expected_warnings]), '\n'.join(
[w.split(':', 2)[2][1:] for w in warnings])))
for warning, (sort_key, expected) in zip(warnings, expected_warnings):
actual = warning.split(":", 1)[1]
if _diff(expected, actual, filename):
raise SystemExit("ERROR: tests %r failed" % (filename, ))
def create_scanner_from_source_string(source):
ss = SourceScanner()
tmp_fd, tmp_name = tempfile.mkstemp(suffix='.h', text=True)
try:
with os.fdopen(tmp_fd, 'wt') as file:
file.write(source)
ss.parse_files([tmp_name])
finally:
os.unlink(tmp_name)
return ss
def check(args):
filename = args[0]
output = ChunkedIO()
namespace = Namespace('Test', '1.0')
logger = MessageLogger.get(namespace=namespace, output=output)
logger.enable_warnings((WARNING, ERROR, FATAL))
transformer = Transformer(namespace)
transformer.set_include_paths([os.path.join(top_srcdir, 'gir'), top_builddir])
transformer.register_include(Include.from_string('GObject-2.0'))
ss = SourceScanner()
options = Options()
exit_code = process_packages(options, ['gobject-2.0'])
if exit_code:
sys.exit(exit_code)
ss.set_cpp_options(options.cpp_includes, options.cpp_defines, options.cpp_undefines)
ss.parse_files([filename])
ss.parse_macros([filename])
transformer.parse(ss.get_symbols())
cbp = GtkDocCommentBlockParser()
blocks = cbp.parse_comment_blocks(ss.get_comments())
main = MainTransformer(transformer, blocks)
main.transform()
final = IntrospectablePass(transformer, blocks)
final.validate()
emitted_warnings = [w[w.find(':') + 1:] for w in output.getvalue()]
expected_warnings = _extract_expected(filename)
sortkey = lambda x: int(x.split(':')[0])
expected_warnings.sort(key=sortkey)
emitted_warnings.sort(key=sortkey)
if len(expected_warnings) != len(emitted_warnings):
raise SystemExit("ERROR in '%s': %d warnings were emitted, "
"expected %d:\n%s" % (os.path.basename(filename),
len(emitted_warnings),
len(expected_warnings),
_diff(expected_warnings, emitted_warnings)))
for emitted_warning, expected_warning in zip(emitted_warnings, expected_warnings):
if expected_warning != emitted_warning:
raise SystemExit("ERROR in '%s': expected warning does not match emitted "
"warning:\n%s" % (filename,
_diff([expected_warning], [emitted_warning])))
def setUp(self):
self.ss = SourceScanner()
tmp_fd, tmp_name = tempfile.mkstemp()
file = os.fdopen(tmp_fd, 'wt')
file.write(two_typedefs_source)
file.close()
self.ss.parse_files([tmp_name])
class Test(unittest.TestCase):
def setUp(self):
self.ss = SourceScanner()
tmp_fd, tmp_name = tempfile.mkstemp()
file = os.fdopen(tmp_fd, 'wt')
file.write(two_typedefs_source)
file.close()
self.ss.parse_files([tmp_name])
def test_get_symbols_length_consistency(self):
self.assertEqual(len(list(self.ss.get_symbols())), 2)
self.assertEqual(len(list(self.ss.get_symbols())), 2)
def test_get_comments_length_consistency(self):
self.assertEqual(len(list(self.ss.get_comments())), 2)
self.assertEqual(len(list(self.ss.get_comments())), 2)
class Test(unittest.TestCase):
def setUp(self):
self.ss = SourceScanner()
tmp_fd, tmp_name = tempfile.mkstemp()
file = os.fdopen(tmp_fd, 'wt')
file.write(two_typedefs_source)
file.close()
self.ss.parse_files([tmp_name])
def test_get_symbols_length_consistency(self):
self.assertEqual(len(list(self.ss.get_symbols())), 2)
self.assertEqual(len(list(self.ss.get_symbols())), 2)
def test_get_comments_length_consistency(self):
self.assertEqual(len(list(self.ss.get_comments())), 2)
self.assertEqual(len(list(self.ss.get_comments())), 2)
def create_source_scanner(options, args):
filenames = extract_filenames(args)
# Run the preprocessor, tokenize and construct simple
# objects representing the raw C symbols
ss = SourceScanner()
ss.set_cpp_options(options.cpp_includes, options.cpp_defines,
options.cpp_undefines)
ss.parse_files(filenames)
ss.parse_macros(filenames)
return ss
def create_source_scanner(options, args):
filenames = extract_filenames(args)
# Run the preprocessor, tokenize and construct simple
# objects representing the raw C symbols
ss = SourceScanner()
ss.set_cpp_options(options.cpp_includes,
options.cpp_defines,
options.cpp_undefines)
ss.parse_files(filenames)
ss.parse_macros(filenames)
return ss
def create_source_scanner(options, args):
if hasattr(options, 'filelist') and options.filelist:
filenames = extract_filelist(options)
else:
filenames = extract_filenames(args)
if platform.system() == 'Darwin':
options.cpp_undefines.append('__BLOCKS__')
# Run the preprocessor, tokenize and construct simple
# objects representing the raw C symbols
ss = SourceScanner()
ss.set_cpp_options(options.cpp_includes,
options.cpp_defines,
options.cpp_undefines,
cflags=options.cflags)
ss.parse_files(filenames)
ss.parse_macros(filenames)
return ss
def create_source_scanner(options, args):
if hasattr(options, 'filelist') and options.filelist:
filenames = extract_filelist(options)
else:
filenames = extract_filenames(args)
filenames = [os.path.realpath(f) for f in filenames]
if platform.system() == 'Darwin':
options.cpp_undefines.append('__BLOCKS__')
# Run the preprocessor, tokenize and construct simple
# objects representing the raw C symbols
ss = SourceScanner()
ss.set_cpp_options(options.cpp_includes,
options.cpp_defines,
options.cpp_undefines,
cflags=options.cflags)
try:
ss.parse_files(filenames)
ss.parse_macros(filenames)
finally:
for error in ss.get_errors():
print(error, file=sys.stderr)
return ss, filenames
def create_source_scanner(options, args):
if hasattr(options, 'filelist') and options.filelist:
filenames = extract_filelist(options)
else:
filenames = extract_filenames(args)
if platform.system() == 'Darwin':
options.cpp_undefines.append('__BLOCKS__')
# Run the preprocessor, tokenize and construct simple
# objects representing the raw C symbols
ss = SourceScanner()
ss.set_cpp_options(options.cpp_includes,
options.cpp_defines,
options.cpp_undefines,
cflags=options.cflags)
ss.parse_files(filenames)
ss.parse_macros(filenames)
return ss
def scanner_main(args):
parser = _get_option_parser()
(options, args) = parser.parse_args(args)
if len(args) <= 1:
_error('Need at least one filename')
if options.typelib_xml:
return typelib_xml_strip(args[1])
if options.inject:
if len(args) != 4:
_error('Need three filenames; e.g. g-ir-scanner '
'--inject Source.gir Additions.xml SourceOut.gir')
return inject(*args[1:4])
if options.xpath_assertions:
return validate(options.xpath_assertions, args[1])
if not options.namespace_name:
_error('Namespace name missing')
if options.format == 'gir':
from giscanner.girwriter import GIRWriter as Writer
else:
_error("Unknown format: %s" % (options.format, ))
if not (options.libraries or options.program):
_error("Must specify --program or --library")
libraries = options.libraries
filenames = []
for arg in args:
if (arg.endswith('.c') or
arg.endswith('.h')):
if not os.path.exists(arg):
_error('%s: no such a file or directory' % (arg, ))
# Make absolute, because we do comparisons inside scannerparser.c
# against the absolute path that cpp will give us
filenames.append(os.path.abspath(arg))
cachestore = CacheStore()
transformer = Transformer(cachestore,
options.namespace_name,
options.namespace_version)
if options.strip_prefix:
transformer.set_strip_prefix(options.strip_prefix)
else:
transformer.set_strip_prefix(options.namespace_name)
transformer.set_include_paths(options.include_paths)
shown_include_warning = False
for include in options.includes:
if os.sep in include:
raise ValueError("Invalid include path %r" % (include, ))
try:
include_obj = Include.from_string(include)
except:
sys.stderr.write("Malformed include %r\n" % (include, ))
sys.exit(1)
transformer.register_include(include_obj)
packages = set(options.packages)
packages.update(transformer.get_pkgconfig_packages())
process_packages(parser, options, packages)
# Run the preprocessor, tokenize and construct simple
# objects representing the raw C symbols
ss = SourceScanner()
ss.set_cpp_options(options.cpp_includes,
options.cpp_defines,
options.cpp_undefines)
ss.parse_files(filenames)
ss.parse_macros(filenames)
# Transform the C symbols into AST nodes
transformer.set_source_ast(ss)
# Transform the C AST nodes into higher level
# GLib/GObject nodes
glibtransformer = GLibTransformer(transformer,
noclosure=options.noclosure)
# Do enough parsing that we have the get_type() functions to reference
# when creating the introspection binary
glibtransformer.init_parse()
if options.program:
args=[options.program]
args.extend(options.program_args)
binary = IntrospectionBinary(args)
else:
binary = compile_introspection_binary(options,
glibtransformer.get_get_type_functions())
shlibs = resolve_shlibs(options, binary, libraries)
glibtransformer.set_introspection_binary(binary)
namespace = glibtransformer.parse()
ap = AnnotationParser(namespace, ss, transformer)
try:
ap.parse()
except InvalidAnnotationError, e:
raise SystemExit("ERROR in annotation: %s" % (str(e), ))
