#!/usr/bin/env python # Copyright (c) 2014 The Chromium Authors. All rights reserved. # Use of this source code is governed by a BSD-style license that can be # found in the LICENSE file. """Test for TranslationUnitGenerator tool.""" from __future__ import print_function import difflib import glob import json import ntpath import os import os.path import subprocess import sys def _GenerateCompileCommands(template_path, test_files_dir): """Returns a JSON string containing a compilation database for the input.""" with open(template_path) as fh: return fh.read().replace('$test_files_dir', test_files_dir) def _NumberOfTestsToString(tests): """Returns an English sentence describing the number of tests.""" return "%d test%s" % (tests, 's' if tests != 1 else '') # Before running this test script, please build the translation_unit clang tool # first. This is explained here: # https://chromium.googlesource.com/chromium/src/+/master/docs/clang_tool_refactoring.md def main(): tools_clang_directory = os.path.dirname(os.path.dirname( os.path.realpath(__file__))) tools_clang_scripts_directory = os.path.join(tools_clang_directory, 'scripts') test_directory_for_tool = os.path.join( tools_clang_directory, 'translation_unit', 'test_files') compile_database = os.path.join(test_directory_for_tool, 'compile_commands.json') compile_database_template = compile_database + '.template' source_files = glob.glob(os.path.join(test_directory_for_tool, '*.cc')) # Generate a temporary compilation database to run the tool over. with open(compile_database, 'w') as f: f.write(_GenerateCompileCommands(compile_database_template, test_directory_for_tool)) args = ['python', os.path.join(tools_clang_scripts_directory, 'run_tool.py'), '--tool', 'translation_unit', '-p', test_directory_for_tool] args.extend(source_files) run_tool = subprocess.Popen(args, stdout=subprocess.PIPE) stdout, _ = run_tool.communicate() if run_tool.returncode != 0: print('run_tool failed:\n%s' % stdout) sys.exit(1) passed = 0 failed = 0 for actual in source_files: actual += '.filepaths' expected = actual + '.expected' print('[ RUN ] %s' % os.path.relpath(actual)) expected_output = actual_output = None with open(expected, 'r') as f: expected_output = f.readlines() with open(actual, 'r') as f: actual_output = f.readlines() has_same_filepaths = True for expected_line, actual_line in zip(expected_output, actual_output): if '//' in actual_line: actual_line = '//' + actual_line.split('//')[1] if ntpath.basename(expected_line) != ntpath.basename(actual_line): sys.stdout.write('expected: %s' % ntpath.basename(expected_line)) sys.stdout.write('actual: %s' % ntpath.basename(actual_line)) has_same_filepaths = False break if not has_same_filepaths: failed += 1 for line in difflib.unified_diff(expected_output, actual_output, fromfile=os.path.relpath(expected), tofile=os.path.relpath(actual)): sys.stdout.write(line) print('[ FAILED ] %s' % os.path.relpath(actual)) # Don't clean up the file on failure, so the results can be referenced # more easily. continue print('[ OK ] %s' % os.path.relpath(actual)) passed += 1 os.remove(actual) if failed == 0: os.remove(compile_database) print('[==========] %s ran.' % _NumberOfTestsToString(len(source_files))) if passed > 0: print('[ PASSED ] %s.' % _NumberOfTestsToString(passed)) if failed > 0: print('[ FAILED ] %s.' % _NumberOfTestsToString(failed)) if __name__ == '__main__': sys.exit(main())