blob: ff12570b605f15b5fd5b48df3cb09be9cab1716b [file] [log] [blame]
#!/usr/bin/env python
# Copyright (c) 2012 Google Inc. All rights reserved.
# Use of this source code is governed by a BSD-style license that can be
# found in the LICENSE file.
Verifies build of a static_library with the standalone_static_library flag set.
import os
import subprocess
import sys
import TestGyp
# standalone_static_library currently means two things: a specific output
# location for the built target and non-thin archive files. The Android gyp
# generator leaves both decisions to the Android build system, so this test
# doesn't work for that format.
test = TestGyp.TestGyp(formats=['!android'])
# Verify that types other than static_library cause a failure.
test.run_gyp('invalid.gyp', status=1, stderr=None)
target_str = 'invalid.gyp:bad#target'
err = ['gyp: Target %s has type executable but standalone_static_library flag '
'is only valid for static_library type.' % target_str]
test.must_contain_all_lines(test.stderr(), err)
# Build a valid standalone_static_library.
test.run_gyp('mylib.gyp')'mylib.gyp', target='prog')
# Verify that the static library is copied to the correct location.
# We expect the library to be copied to $PRODUCT_DIR.
standalone_static_library_dir = test.EXECUTABLE
path_to_lib = os.path.split(
test.built_file_path('mylib', type=standalone_static_library_dir))[0]
lib_name = test.built_file_basename('mylib', type=test.STATIC_LIB)
path = os.path.join(path_to_lib, lib_name)
# Verify that the program runs properly.
expect = 'hello from mylib.c\n'
test.run_built_executable('prog', stdout=expect)
# Verify that libmylib.a contains symbols. "ar -x" fails on a 'thin' archive.
supports_thick = ('make', 'ninja', 'cmake')
if test.format in supports_thick and sys.platform.startswith('linux'):
retcode =['ar', '-x', path])
assert retcode == 0