import os from clang.cindex import Config if 'CLANG_LIBRARY_PATH' in os.environ: Config.set_library_path(os.environ['CLANG_LIBRARY_PATH']) from contextlib import contextmanager import gc import os import sys import tempfile import unittest from clang.cindex import CursorKind from clang.cindex import Cursor from clang.cindex import File from clang.cindex import Index from clang.cindex import SourceLocation from clang.cindex import SourceRange from clang.cindex import TranslationUnitSaveError from clang.cindex import TranslationUnitLoadError from clang.cindex import TranslationUnit from .util import get_cursor from .util import get_tu from .util import skip_if_no_fspath from .util import str_to_path kInputsDir = os.path.join(os.path.dirname(__file__), 'INPUTS') @contextmanager def save_tu(tu): """Convenience API to save a TranslationUnit to a file. Returns the filename it was saved to. """ with tempfile.NamedTemporaryFile() as t: tu.save(t.name) yield t.name @contextmanager def save_tu_pathlike(tu): """Convenience API to save a TranslationUnit to a file. Returns the filename it was saved to. """ with tempfile.NamedTemporaryFile() as t: tu.save(str_to_path(t.name)) yield t.name class TestTranslationUnit(unittest.TestCase): def test_spelling(self): path = os.path.join(kInputsDir, 'hello.cpp') tu = TranslationUnit.from_source(path) self.assertEqual(tu.spelling, path) def test_cursor(self): path = os.path.join(kInputsDir, 'hello.cpp') tu = get_tu(path) c = tu.cursor self.assertIsInstance(c, Cursor) self.assertIs(c.kind, CursorKind.TRANSLATION_UNIT) def test_parse_arguments(self): path = os.path.join(kInputsDir, 'parse_arguments.c') tu = TranslationUnit.from_source(path, ['-DDECL_ONE=hello', '-DDECL_TWO=hi']) spellings = [c.spelling for c in tu.cursor.get_children()] self.assertEqual(spellings[-2], 'hello') self.assertEqual(spellings[-1], 'hi') def test_reparse_arguments(self): path = os.path.join(kInputsDir, 'parse_arguments.c') tu = TranslationUnit.from_source(path, ['-DDECL_ONE=hello', '-DDECL_TWO=hi']) tu.reparse() spellings = [c.spelling for c in tu.cursor.get_children()] self.assertEqual(spellings[-2], 'hello') self.assertEqual(spellings[-1], 'hi') def test_unsaved_files(self): tu = TranslationUnit.from_source('fake.c', ['-I./'], unsaved_files = [ ('fake.c', """ #include "fake.h" int x; int SOME_DEFINE; """), ('./fake.h', """ #define SOME_DEFINE y """) ]) spellings = [c.spelling for c in tu.cursor.get_children()] self.assertEqual(spellings[-2], 'x') self.assertEqual(spellings[-1], 'y') def test_unsaved_files_2(self): if sys.version_info.major >= 3: from io import StringIO else: from io import BytesIO as StringIO tu = TranslationUnit.from_source('fake.c', unsaved_files = [ ('fake.c', StringIO('int x;'))]) spellings = [c.spelling for c in tu.cursor.get_children()] self.assertEqual(spellings[-1], 'x') @skip_if_no_fspath def test_from_source_accepts_pathlike(self): tu = TranslationUnit.from_source(str_to_path('fake.c'), ['-Iincludes'], unsaved_files = [ (str_to_path('fake.c'), """ #include "fake.h" int x; int SOME_DEFINE; """), (str_to_path('includes/fake.h'), """ #define SOME_DEFINE y """) ]) spellings = [c.spelling for c in tu.cursor.get_children()] self.assertEqual(spellings[-2], 'x') self.assertEqual(spellings[-1], 'y') def assert_normpaths_equal(self, path1, path2): """ Compares two paths for equality after normalizing them with os.path.normpath """ self.assertEqual(os.path.normpath(path1), os.path.normpath(path2)) def test_includes(self): def eq(expected, actual): if not actual.is_input_file: self.assert_normpaths_equal(expected[0], actual.source.name) self.assert_normpaths_equal(expected[1], actual.include.name) else: self.assert_normpaths_equal(expected[1], actual.include.name) src = os.path.join(kInputsDir, 'include.cpp') h1 = os.path.join(kInputsDir, "header1.h") h2 = os.path.join(kInputsDir, "header2.h") h3 = os.path.join(kInputsDir, "header3.h") inc = [(src, h1), (h1, h3), (src, h2), (h2, h3)] tu = TranslationUnit.from_source(src) for i in zip(inc, tu.get_includes()): eq(i[0], i[1]) def test_inclusion_directive(self): src = os.path.join(kInputsDir, 'include.cpp') h1 = os.path.join(kInputsDir, "header1.h") h2 = os.path.join(kInputsDir, "header2.h") h3 = os.path.join(kInputsDir, "header3.h") inc = [h1, h3, h2, h3, h1] tu = TranslationUnit.from_source(src, options=TranslationUnit.PARSE_DETAILED_PROCESSING_RECORD) inclusion_directive_files = [c.get_included_file().name for c in tu.cursor.get_children() if c.kind == CursorKind.INCLUSION_DIRECTIVE] for i in zip(inc, inclusion_directive_files): self.assert_normpaths_equal(i[0], i[1]) def test_save(self): """Ensure TranslationUnit.save() works.""" tu = get_tu('int foo();') with save_tu(tu) as path: self.assertTrue(os.path.exists(path)) self.assertGreater(os.path.getsize(path), 0) @skip_if_no_fspath def test_save_pathlike(self): """Ensure TranslationUnit.save() works with PathLike filename.""" tu = get_tu('int foo();') with save_tu_pathlike(tu) as path: self.assertTrue(os.path.exists(path)) self.assertGreater(os.path.getsize(path), 0) def test_save_translation_errors(self): """Ensure that saving to an invalid directory raises.""" tu = get_tu('int foo();') path = '/does/not/exist/llvm-test.ast' self.assertFalse(os.path.exists(os.path.dirname(path))) with self.assertRaises(TranslationUnitSaveError) as cm: tu.save(path) ex = cm.exception expected = TranslationUnitSaveError.ERROR_UNKNOWN self.assertEqual(ex.save_error, expected) def test_load(self): """Ensure TranslationUnits can be constructed from saved files.""" tu = get_tu('int foo();') self.assertEqual(len(tu.diagnostics), 0) with save_tu(tu) as path: self.assertTrue(os.path.exists(path)) self.assertGreater(os.path.getsize(path), 0) tu2 = TranslationUnit.from_ast_file(filename=path) self.assertEqual(len(tu2.diagnostics), 0) foo = get_cursor(tu2, 'foo') self.assertIsNotNone(foo) # Just in case there is an open file descriptor somewhere. del tu2 @skip_if_no_fspath def test_load_pathlike(self): """Ensure TranslationUnits can be constructed from saved files - PathLike variant.""" tu = get_tu('int foo();') self.assertEqual(len(tu.diagnostics), 0) with save_tu(tu) as path: tu2 = TranslationUnit.from_ast_file(filename=str_to_path(path)) self.assertEqual(len(tu2.diagnostics), 0) foo = get_cursor(tu2, 'foo') self.assertIsNotNone(foo) # Just in case there is an open file descriptor somewhere. del tu2 def test_index_parse(self): path = os.path.join(kInputsDir, 'hello.cpp') index = Index.create() tu = index.parse(path) self.assertIsInstance(tu, TranslationUnit) def test_get_file(self): """Ensure tu.get_file() works appropriately.""" tu = get_tu('int foo();') f = tu.get_file('t.c') self.assertIsInstance(f, File) self.assertEqual(f.name, 't.c') with self.assertRaises(Exception): f = tu.get_file('foobar.cpp') @skip_if_no_fspath def test_get_file_pathlike(self): """Ensure tu.get_file() works appropriately with PathLike filenames.""" tu = get_tu('int foo();') f = tu.get_file(str_to_path('t.c')) self.assertIsInstance(f, File) self.assertEqual(f.name, 't.c') with self.assertRaises(Exception): f = tu.get_file(str_to_path('foobar.cpp')) def test_get_source_location(self): """Ensure tu.get_source_location() works.""" tu = get_tu('int foo();') location = tu.get_location('t.c', 2) self.assertIsInstance(location, SourceLocation) self.assertEqual(location.offset, 2) self.assertEqual(location.file.name, 't.c') location = tu.get_location('t.c', (1, 3)) self.assertIsInstance(location, SourceLocation) self.assertEqual(location.line, 1) self.assertEqual(location.column, 3) self.assertEqual(location.file.name, 't.c') def test_get_source_range(self): """Ensure tu.get_source_range() works.""" tu = get_tu('int foo();') r = tu.get_extent('t.c', (1,4)) self.assertIsInstance(r, SourceRange) self.assertEqual(r.start.offset, 1) self.assertEqual(r.end.offset, 4) self.assertEqual(r.start.file.name, 't.c') self.assertEqual(r.end.file.name, 't.c') r = tu.get_extent('t.c', ((1,2), (1,3))) self.assertIsInstance(r, SourceRange) self.assertEqual(r.start.line, 1) self.assertEqual(r.start.column, 2) self.assertEqual(r.end.line, 1) self.assertEqual(r.end.column, 3) self.assertEqual(r.start.file.name, 't.c') self.assertEqual(r.end.file.name, 't.c') start = tu.get_location('t.c', 0) end = tu.get_location('t.c', 5) r = tu.get_extent('t.c', (start, end)) self.assertIsInstance(r, SourceRange) self.assertEqual(r.start.offset, 0) self.assertEqual(r.end.offset, 5) self.assertEqual(r.start.file.name, 't.c') self.assertEqual(r.end.file.name, 't.c') def test_get_tokens_gc(self): """Ensures get_tokens() works properly with garbage collection.""" tu = get_tu('int foo();') r = tu.get_extent('t.c', (0, 10)) tokens = list(tu.get_tokens(extent=r)) self.assertEqual(tokens[0].spelling, 'int') gc.collect() self.assertEqual(tokens[0].spelling, 'int') del tokens[1] gc.collect() self.assertEqual(tokens[0].spelling, 'int') # May trigger segfault if we don't do our job properly. del tokens gc.collect() gc.collect() # Just in case. def test_fail_from_source(self): path = os.path.join(kInputsDir, 'non-existent.cpp') try: tu = TranslationUnit.from_source(path) except TranslationUnitLoadError: tu = None self.assertEqual(tu, None) def test_fail_from_ast_file(self): path = os.path.join(kInputsDir, 'non-existent.ast') try: tu = TranslationUnit.from_ast_file(path) except TranslationUnitLoadError: tu = None self.assertEqual(tu, None)