build.py - platform/external/clang - Git at Google

 #!/usr/bin/env python
 #
 # Copyright (C) 2015 The Android Open Source Project
 #
 # 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.
 #
 from __future__ import print_function

 import argparse
 import glob
 import multiprocessing
 import os
 import shutil
 import subprocess
 import sys

 import version


 THIS_DIR = os.path.realpath(os.path.dirname(__file__))
 ORIG_ENV = dict(os.environ)


 def android_path(*args):
     return os.path.realpath(os.path.join(THIS_DIR, '../..', *args))


 def build_path(*args):
     # Our multistage build directories will be placed under OUT_DIR if it is in
     # the environment. By default they will be placed under
     # $ANDROID_BUILD_TOP/out.
     top_out = ORIG_ENV.get('OUT_DIR', android_path('out'))
     if not os.path.isabs(top_out):
         top_out = os.path.realpath(top_out)
     return os.path.join(top_out, *args)


 def short_version():
     return '.'.join([version.major, version.minor])


 def long_version():
     return '.'.join([version.major, version.minor, version.patch])


 def install_file(src, dst):
     print('Copying ' + src)
     shutil.copy2(src, dst)


 def install_directory(src, dst):
     print('Copying ' + src)
     shutil.copytree(src, dst)


 def build(out_dir, prebuilts_path=None, prebuilts_version=None,
           build_all_llvm_tools=None):
     products = (
         'aosp_arm',
         'aosp_arm64',
         'aosp_mips',
         'aosp_mips64',
         'aosp_x86',
         'aosp_x86_64',
     )
     for product in products:
         build_product(out_dir, product, prebuilts_path, prebuilts_version,
                       build_all_llvm_tools)


 def build_product(out_dir, product, prebuilts_path, prebuilts_version,
                   build_all_llvm_tools):
     env = dict(ORIG_ENV)
     env['DISABLE_LLVM_DEVICE_BUILDS'] = 'true'
     env['DISABLE_RELOCATION_PACKER'] = 'true'
     env['FORCE_BUILD_LLVM_COMPONENTS'] = 'true'
     env['FORCE_BUILD_SANITIZER_SHARED_OBJECTS'] = 'true'
     env['OUT_DIR'] = out_dir
     env['SKIP_LLVM_TESTS'] = 'true'
     env['SOONG_ALLOW_MISSING_DEPENDENCIES'] = 'true'
     env['TARGET_BUILD_VARIANT'] = 'userdebug'
     env['TARGET_PRODUCT'] = product

     overrides = []
     if prebuilts_path is not None:
         overrides.append('LLVM_PREBUILTS_BASE={}'.format(prebuilts_path))
     if prebuilts_version is not None:
         overrides.append('LLVM_PREBUILTS_VERSION={}'.format(prebuilts_version))

     jobs_arg = '-j{}'.format(multiprocessing.cpu_count())
     targets = ['clang-toolchain']
     if build_all_llvm_tools:
         targets += ['llvm-tools']
     subprocess.check_call(
         ['make', jobs_arg] + overrides + targets, cwd=android_path(), env=env)


 def package_toolchain(build_dir, build_name, host, dist_dir):
     package_name = 'clang-' + build_name
     install_host_dir = build_path('install', host)
     install_dir = os.path.join(install_host_dir, package_name)

     # Remove any previously installed toolchain so it doesn't pollute the
     # build.
     if os.path.exists(install_host_dir):
         shutil.rmtree(install_host_dir)

     install_toolchain(build_dir, install_dir, host)

     version_file_path = os.path.join(install_dir, 'AndroidVersion.txt')
     with open(version_file_path, 'w') as version_file:
         version_file.write('{}.{}.{}\n'.format(
             version.major, version.minor, version.patch))

     tarball_name = package_name + '-' + host
     package_path = os.path.join(dist_dir, tarball_name) + '.tar.bz2'
     print('Packaging ' + package_path)
     args = [
         'tar', '-cjC', install_host_dir, '-f', package_path, package_name
     ]
     subprocess.check_call(args)


 def install_toolchain(build_dir, install_dir, host):
     install_built_host_files(build_dir, install_dir, host)
     install_sanitizer_scripts(install_dir)
     install_scan_scripts(install_dir)
     install_analyzer_scripts(install_dir)
     install_headers(build_dir, install_dir, host)
     install_profile_rt(build_dir, install_dir, host)
     install_sanitizers(build_dir, install_dir, host)
     install_license_files(install_dir)
     install_repo_prop(install_dir)


 def install_built_host_files(build_dir, install_dir, host):
     is_windows = host.startswith('windows')
     is_darwin = host.startswith('darwin-x86')
     bin_ext = '.exe' if is_windows else ''

     if is_windows:
         lib_ext = '.dll'
     elif is_darwin:
         lib_ext = '.dylib'
     else:
         lib_ext = '.so'

     built_files = [
         'bin/clang' + bin_ext,
         'bin/clang++' + bin_ext,
     ]
     if host != 'windows-x86':
         built_files.extend([
             'bin/FileCheck' + bin_ext,
             'bin/llvm-as' + bin_ext,
             'bin/llvm-dis' + bin_ext,
             'bin/llvm-link' + bin_ext,
             'lib64/libc++' + lib_ext,
             'lib64/libLLVM' + lib_ext,
             'lib64/LLVMgold' + lib_ext,
         ])

     for built_file in built_files:
         dirname = os.path.dirname(built_file)
         install_path = os.path.join(install_dir, dirname)
         if not os.path.exists(install_path):
             os.makedirs(install_path)

         built_path = os.path.join(build_dir, 'host', host, built_file)
         install_file(built_path, install_path)

         file_name = os.path.basename(built_file)

         # Only strip bin files (not libs) on darwin.
         if not is_darwin or built_file.startswith('bin/'):
             subprocess.check_call(
                 ['strip', os.path.join(install_path, file_name)])


 def install_sanitizer_scripts(install_dir):
     script_path = android_path(
         'external/compiler-rt/lib/asan/scripts/asan_device_setup')
     shutil.copy2(script_path, os.path.join(install_dir, 'bin'))


 def install_analyzer_scripts(install_dir):
     """Create and install bash scripts for invoking Clang for analysis."""
     analyzer_text = (
         '#!/bin/bash\n'
         'if [ "$1" != "-cc1" ]; then\n'
         '    `dirname $0`/../clang{clang_suffix} -target {target} "$@"\n'
         'else\n'
         '    # target/triple already spelled out.\n'
         '    `dirname $0`/../clang{clang_suffix} "$@"\n'
         'fi\n'
     )

     arch_target_pairs = (
         ('arm64-v8a', 'aarch64-none-linux-android'),
         ('armeabi', 'armv5te-none-linux-androideabi'),
         ('armeabi-v7a', 'armv7-none-linux-androideabi'),
         ('armeabi-v7a-hard', 'armv7-none-linux-androideabi'),
         ('mips', 'mipsel-none-linux-android'),
         ('mips64', 'mips64el-none-linux-android'),
         ('x86', 'i686-none-linux-android'),
         ('x86_64', 'x86_64-none-linux-android'),
     )

     for arch, target in arch_target_pairs:
         arch_path = os.path.join(install_dir, 'bin', arch)
         os.makedirs(arch_path)

         analyzer_file_path = os.path.join(arch_path, 'analyzer')
         print('Creating ' + analyzer_file_path)
         with open(analyzer_file_path, 'w') as analyzer_file:
             analyzer_file.write(
                 analyzer_text.format(clang_suffix='', target=target))

         analyzerpp_file_path = os.path.join(arch_path, 'analyzer++')
         print('Creating ' + analyzerpp_file_path)
         with open(analyzerpp_file_path, 'w') as analyzerpp_file:
             analyzerpp_file.write(
                 analyzer_text.format(clang_suffix='++', target=target))


 def install_scan_scripts(install_dir):
     tools_install_dir = os.path.join(install_dir, 'tools')
     os.makedirs(tools_install_dir)
     tools = ('scan-build', 'scan-view')
     tools_dir = android_path('external/clang/tools')
     for tool in tools:
         tool_path = os.path.join(tools_dir, tool)
         install_path = os.path.join(install_dir, 'tools', tool)
         install_directory(tool_path, install_path)


 def install_headers(build_dir, install_dir, host):
     def should_copy(path):
         if os.path.basename(path) in ('Makefile', 'CMakeLists.txt'):
             return False
         _, ext = os.path.splitext(path)
         if ext == '.mk':
             return False
         return True

     headers_src = android_path('external/clang/lib/Headers')
     headers_dst = os.path.join(
         install_dir, 'lib64/clang', short_version(), 'include')
     os.makedirs(headers_dst)
     for header in os.listdir(headers_src):
         if not should_copy(header):
             continue
         install_file(os.path.join(headers_src, header), headers_dst)

     install_file(android_path('bionic/libc/include/stdatomic.h'), headers_dst)

     # arm_neon.h gets produced as part of external/clang/lib/Basic/Android.mk.
     # We must bundle the resulting file as part of the official Clang headers.
     arm_neon_h = os.path.join(
         build_dir, 'host', host, 'obj/STATIC_LIBRARIES/'
         'libclangBasic_intermediates/include/clang/Basic/arm_neon.h')
     install_file(arm_neon_h, headers_dst)

     os.symlink(short_version(),
                os.path.join(install_dir, 'lib64/clang', long_version()))


 def install_profile_rt(build_dir, install_dir, host):
     lib_dir = os.path.join(
         install_dir, 'lib64/clang', short_version(), 'lib/linux')
     os.makedirs(lib_dir)

     install_target_profile_rt(build_dir, lib_dir)

     # We only support profiling libs for Linux and Android.
     if host == 'linux-x86':
         install_host_profile_rt(build_dir, host, lib_dir)


 def install_target_profile_rt(build_dir, lib_dir):
     product_to_arch = {
         'generic': 'arm',
         'generic_arm64': 'aarch64',
         'generic_mips': 'mipsel',
         'generic_mips64': 'mips64el',
         'generic_x86': 'i686',
         'generic_x86_64': 'x86_64',
     }

     for product, arch in product_to_arch.items():
         product_dir = os.path.join(build_dir, 'target/product', product)
         static_libs = os.path.join(product_dir, 'obj/STATIC_LIBRARIES')
         built_lib = os.path.join(
             static_libs, 'libprofile_rt_intermediates/libprofile_rt.a')
         lib_name = 'libclang_rt.profile-{}-android.a'.format(arch)
         install_file(built_lib, os.path.join(lib_dir, lib_name))


 def install_host_profile_rt(build_dir, host, lib_dir):
     arch_to_obj_dir = {
         'i686': 'obj32',
         'x86_64': 'obj',
     }

     for arch, obj_dir in arch_to_obj_dir.items():
         static_libs = os.path.join(
             build_dir, 'host', host, obj_dir, 'STATIC_LIBRARIES')
         built_lib = os.path.join(
             static_libs, 'libprofile_rt_intermediates/libprofile_rt.a')
         lib_name = 'libclang_rt.profile-{}.a'.format(arch)
         install_file(built_lib, os.path.join(lib_dir, lib_name))


 def install_sanitizers(build_dir, install_dir, host):
     headers_src = android_path('external/compiler-rt/include/sanitizer')
     clang_lib = os.path.join(install_dir, 'lib64/clang', short_version())
     headers_dst = os.path.join(clang_lib, 'include/sanitizer')
     lib_dst = os.path.join(clang_lib, 'lib/linux')
     install_directory(headers_src, headers_dst)

     if host == 'linux-x86':
         install_host_sanitizers(build_dir, host, lib_dst)

     # Tuples of (product, arch, libdir)
     product_to_arch = (
         ('generic', 'arm', 'lib'),
         ('generic_arm64', 'aarch64', 'lib64'),
         ('generic_x86', 'i686', 'lib'),
     )

     for product, arch, libdir in product_to_arch:
         product_dir = os.path.join(build_dir, 'target/product', product)
         system_dir = os.path.join(product_dir, 'system')
         system_lib_dir = os.path.join(system_dir, libdir)
         lib_name = 'libclang_rt.asan-{}-android.so'.format(arch)
         built_lib = os.path.join(system_lib_dir, lib_name)
         install_file(built_lib, lib_dst)


 def install_host_sanitizers(build_dir, host, lib_dst):
     # Tuples of (name, multilib).
     libs = (
         ('asan', True),
         ('asan_cxx', True),
         ('ubsan_standalone', True),
         ('ubsan_standalone_cxx', True),
         ('tsan', False),
         ('tsan_cxx', False),
     )

     obj32 = os.path.join(build_dir, 'host', host, 'obj32/STATIC_LIBRARIES')
     obj64 = os.path.join(build_dir, 'host', host, 'obj/STATIC_LIBRARIES')
     for lib, is_multilib in libs:
         built_lib_name = 'lib{}.a'.format(lib)

         obj64_dir = os.path.join(obj64, 'lib{}_intermediates'.format(lib))
         lib64_name = 'libclang_rt.{}-x86_64.a'.format(lib)
         built_lib64 = os.path.join(obj64_dir, built_lib_name)
         install_file(built_lib64, os.path.join(lib_dst, lib64_name))
         if is_multilib:
             obj32_dir = os.path.join(obj32, 'lib{}_intermediates'.format(lib))
             lib32_name = 'libclang_rt.{}-i686.a'.format(lib)
             built_lib32 = os.path.join(obj32_dir, built_lib_name)
             install_file(built_lib32, os.path.join(lib_dst, lib32_name))


 def install_license_files(install_dir):
     projects = (
         'clang',
         'compiler-rt',
         'libcxx',
         'libcxxabi',
         'libunwind_llvm',
         'llvm',
     )

     notices = []
     for project in projects:
         project_path = android_path('external', project)
         license_pattern = os.path.join(project_path, 'MODULE_LICENSE_*')
         for license_file in glob.glob(license_pattern):
             install_file(license_file, install_dir)
         with open(os.path.join(project_path, 'NOTICE')) as notice_file:
             notices.append(notice_file.read())
     with open(os.path.join(install_dir, 'NOTICE'), 'w') as notice_file:
         notice_file.write('\n'.join(notices))


 def install_repo_prop(install_dir):
     file_name = 'repo.prop'

     dist_dir = os.environ.get('DIST_DIR')
     if dist_dir is not None:
         dist_repo_prop = os.path.join(dist_dir, file_name)
         shutil.copy(dist_repo_prop, install_dir)
     else:
         out_file = os.path.join(install_dir, file_name)
         with open(out_file, 'w') as prop_file:
             cmd = [
                 'repo', 'forall', '-c',
                 'echo $REPO_PROJECT $(git rev-parse HEAD)',
             ]
             subprocess.check_call(cmd, stdout=prop_file)


 def parse_args():
     parser = argparse.ArgumentParser()

     parser.add_argument(
         '--build-name', default='dev', help='Release name for the package.')

     multi_stage_group = parser.add_mutually_exclusive_group()
     multi_stage_group.add_argument(
         '--multi-stage', action='store_true', default=True,
         help='Perform multi-stage build (enabled by default).')
     multi_stage_group.add_argument(
         '--no-multi-stage', action='store_false', dest='multi_stage',
         help='Do not perform multi-stage build.')

     parser.add_argument(
         '--build-all-llvm-tools', action='store_true', default=True,
         help='Build all the LLVM tools/utilities.')

     parser.add_argument(
         '--no-build-all-llvm-tools', action='store_false',
         dest='build_all_llvm_tools',
         help='Build all the LLVM tools/utilities.')

     return parser.parse_args()


 def main():
     args = parse_args()

     if sys.platform.startswith('linux'):
         hosts = ['linux-x86', 'windows-x86']
     elif sys.platform == 'darwin':
         hosts = ['darwin-x86']
     else:
         raise RuntimeError('Unsupported host: {}'.format(sys.platform))

     stage_1_out_dir = build_path('stage1')
     build(out_dir=stage_1_out_dir)
     final_out_dir = stage_1_out_dir
     if args.multi_stage:
         stage_1_install_dir = build_path('stage1-install')
         for host in hosts:
             package_name = 'clang-' + args.build_name
             install_host_dir = os.path.join(stage_1_install_dir, host)
             install_dir = os.path.join(install_host_dir, package_name)

             # Remove any previously installed toolchain so it doesn't pollute
             # the build.
             if os.path.exists(install_host_dir):
                 shutil.rmtree(install_host_dir)

             install_toolchain(stage_1_out_dir, install_dir, host)

         stage_2_out_dir = build_path('stage2')
         build(out_dir=stage_2_out_dir, prebuilts_path=stage_1_install_dir,
               prebuilts_version=package_name,
               build_all_llvm_tools=args.build_all_llvm_tools)
         final_out_dir = stage_2_out_dir

     dist_dir = ORIG_ENV.get('DIST_DIR', final_out_dir)
     for host in hosts:
         package_toolchain(final_out_dir, args.build_name, host, dist_dir)


 if __name__ == '__main__':
     main()
	#!/usr/bin/env python
	#
	# Copyright (C) 2015 The Android Open Source Project
	#
	# 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.
	#
	from __future__ import print_function

	import argparse
	import glob
	import multiprocessing
	import os
	import shutil
	import subprocess
	import sys

	import version


	THIS_DIR = os.path.realpath(os.path.dirname(__file__))
	ORIG_ENV = dict(os.environ)


	def android_path(*args):
	return os.path.realpath(os.path.join(THIS_DIR, '../..', *args))


	def build_path(*args):
	# Our multistage build directories will be placed under OUT_DIR if it is in
	# the environment. By default they will be placed under
	# $ANDROID_BUILD_TOP/out.
	top_out = ORIG_ENV.get('OUT_DIR', android_path('out'))
	if not os.path.isabs(top_out):
	top_out = os.path.realpath(top_out)
	return os.path.join(top_out, *args)


	def short_version():
	return '.'.join([version.major, version.minor])


	def long_version():
	return '.'.join([version.major, version.minor, version.patch])


	def install_file(src, dst):
	print('Copying ' + src)
	shutil.copy2(src, dst)


	def install_directory(src, dst):
	print('Copying ' + src)
	shutil.copytree(src, dst)


	def build(out_dir, prebuilts_path=None, prebuilts_version=None,
	build_all_llvm_tools=None):
	products = (
	'aosp_arm',
	'aosp_arm64',
	'aosp_mips',
	'aosp_mips64',
	'aosp_x86',
	'aosp_x86_64',
	)
	for product in products:
	build_product(out_dir, product, prebuilts_path, prebuilts_version,
	build_all_llvm_tools)


	def build_product(out_dir, product, prebuilts_path, prebuilts_version,
	build_all_llvm_tools):
	env = dict(ORIG_ENV)
	env['DISABLE_LLVM_DEVICE_BUILDS'] = 'true'
	env['DISABLE_RELOCATION_PACKER'] = 'true'
	env['FORCE_BUILD_LLVM_COMPONENTS'] = 'true'
	env['FORCE_BUILD_SANITIZER_SHARED_OBJECTS'] = 'true'
	env['OUT_DIR'] = out_dir
	env['SKIP_LLVM_TESTS'] = 'true'
	env['SOONG_ALLOW_MISSING_DEPENDENCIES'] = 'true'
	env['TARGET_BUILD_VARIANT'] = 'userdebug'
	env['TARGET_PRODUCT'] = product

	overrides = []
	if prebuilts_path is not None:
	overrides.append('LLVM_PREBUILTS_BASE={}'.format(prebuilts_path))
	if prebuilts_version is not None:
	overrides.append('LLVM_PREBUILTS_VERSION={}'.format(prebuilts_version))

	jobs_arg = '-j{}'.format(multiprocessing.cpu_count())
	targets = ['clang-toolchain']
	if build_all_llvm_tools:
	targets += ['llvm-tools']
	subprocess.check_call(
	['make', jobs_arg] + overrides + targets, cwd=android_path(), env=env)


	def package_toolchain(build_dir, build_name, host, dist_dir):
	package_name = 'clang-' + build_name
	install_host_dir = build_path('install', host)
	install_dir = os.path.join(install_host_dir, package_name)

	# Remove any previously installed toolchain so it doesn't pollute the
	# build.
	if os.path.exists(install_host_dir):
	shutil.rmtree(install_host_dir)

	install_toolchain(build_dir, install_dir, host)

	version_file_path = os.path.join(install_dir, 'AndroidVersion.txt')
	with open(version_file_path, 'w') as version_file:
	version_file.write('{}.{}.{}\n'.format(
	version.major, version.minor, version.patch))

	tarball_name = package_name + '-' + host
	package_path = os.path.join(dist_dir, tarball_name) + '.tar.bz2'
	print('Packaging ' + package_path)
	args = [
	'tar', '-cjC', install_host_dir, '-f', package_path, package_name
	]
	subprocess.check_call(args)


	def install_toolchain(build_dir, install_dir, host):
	install_built_host_files(build_dir, install_dir, host)
	install_sanitizer_scripts(install_dir)
	install_scan_scripts(install_dir)
	install_analyzer_scripts(install_dir)
	install_headers(build_dir, install_dir, host)
	install_profile_rt(build_dir, install_dir, host)
	install_sanitizers(build_dir, install_dir, host)
	install_license_files(install_dir)
	install_repo_prop(install_dir)


	def install_built_host_files(build_dir, install_dir, host):
	is_windows = host.startswith('windows')
	is_darwin = host.startswith('darwin-x86')
	bin_ext = '.exe' if is_windows else ''

	if is_windows:
	lib_ext = '.dll'
	elif is_darwin:
	lib_ext = '.dylib'
	else:
	lib_ext = '.so'

	built_files = [
	'bin/clang' + bin_ext,
	'bin/clang++' + bin_ext,
	]
	if host != 'windows-x86':
	built_files.extend([
	'bin/FileCheck' + bin_ext,
	'bin/llvm-as' + bin_ext,
	'bin/llvm-dis' + bin_ext,
	'bin/llvm-link' + bin_ext,
	'lib64/libc++' + lib_ext,
	'lib64/libLLVM' + lib_ext,
	'lib64/LLVMgold' + lib_ext,
	])

	for built_file in built_files:
	dirname = os.path.dirname(built_file)
	install_path = os.path.join(install_dir, dirname)
	if not os.path.exists(install_path):
	os.makedirs(install_path)

	built_path = os.path.join(build_dir, 'host', host, built_file)
	install_file(built_path, install_path)

	file_name = os.path.basename(built_file)

	# Only strip bin files (not libs) on darwin.
	if not is_darwin or built_file.startswith('bin/'):
	subprocess.check_call(
	['strip', os.path.join(install_path, file_name)])


	def install_sanitizer_scripts(install_dir):
	script_path = android_path(
	'external/compiler-rt/lib/asan/scripts/asan_device_setup')
	shutil.copy2(script_path, os.path.join(install_dir, 'bin'))


	def install_analyzer_scripts(install_dir):
	"""Create and install bash scripts for invoking Clang for analysis."""
	analyzer_text = (
	'#!/bin/bash\n'
	'if [ "$1" != "-cc1" ]; then\n'
	' `dirname $0`/../clang{clang_suffix} -target {target} "$@"\n'
	'else\n'
	' # target/triple already spelled out.\n'
	' `dirname $0`/../clang{clang_suffix} "$@"\n'
	'fi\n'
	)

	arch_target_pairs = (
	('arm64-v8a', 'aarch64-none-linux-android'),
	('armeabi', 'armv5te-none-linux-androideabi'),
	('armeabi-v7a', 'armv7-none-linux-androideabi'),
	('armeabi-v7a-hard', 'armv7-none-linux-androideabi'),
	('mips', 'mipsel-none-linux-android'),
	('mips64', 'mips64el-none-linux-android'),
	('x86', 'i686-none-linux-android'),
	('x86_64', 'x86_64-none-linux-android'),
	)

	for arch, target in arch_target_pairs:
	arch_path = os.path.join(install_dir, 'bin', arch)
	os.makedirs(arch_path)

	analyzer_file_path = os.path.join(arch_path, 'analyzer')
	print('Creating ' + analyzer_file_path)
	with open(analyzer_file_path, 'w') as analyzer_file:
	analyzer_file.write(
	analyzer_text.format(clang_suffix='', target=target))

	analyzerpp_file_path = os.path.join(arch_path, 'analyzer++')
	print('Creating ' + analyzerpp_file_path)
	with open(analyzerpp_file_path, 'w') as analyzerpp_file:
	analyzerpp_file.write(
	analyzer_text.format(clang_suffix='++', target=target))


	def install_scan_scripts(install_dir):
	tools_install_dir = os.path.join(install_dir, 'tools')
	os.makedirs(tools_install_dir)
	tools = ('scan-build', 'scan-view')
	tools_dir = android_path('external/clang/tools')
	for tool in tools:
	tool_path = os.path.join(tools_dir, tool)
	install_path = os.path.join(install_dir, 'tools', tool)
	install_directory(tool_path, install_path)


	def install_headers(build_dir, install_dir, host):
	def should_copy(path):
	if os.path.basename(path) in ('Makefile', 'CMakeLists.txt'):
	return False
	_, ext = os.path.splitext(path)
	if ext == '.mk':
	return False
	return True

	headers_src = android_path('external/clang/lib/Headers')
	headers_dst = os.path.join(
	install_dir, 'lib64/clang', short_version(), 'include')
	os.makedirs(headers_dst)
	for header in os.listdir(headers_src):
	if not should_copy(header):
	continue
	install_file(os.path.join(headers_src, header), headers_dst)

	install_file(android_path('bionic/libc/include/stdatomic.h'), headers_dst)

	# arm_neon.h gets produced as part of external/clang/lib/Basic/Android.mk.
	# We must bundle the resulting file as part of the official Clang headers.
	arm_neon_h = os.path.join(
	build_dir, 'host', host, 'obj/STATIC_LIBRARIES/'
	'libclangBasic_intermediates/include/clang/Basic/arm_neon.h')
	install_file(arm_neon_h, headers_dst)

	os.symlink(short_version(),
	os.path.join(install_dir, 'lib64/clang', long_version()))


	def install_profile_rt(build_dir, install_dir, host):
	lib_dir = os.path.join(
	install_dir, 'lib64/clang', short_version(), 'lib/linux')
	os.makedirs(lib_dir)

	install_target_profile_rt(build_dir, lib_dir)

	# We only support profiling libs for Linux and Android.
	if host == 'linux-x86':
	install_host_profile_rt(build_dir, host, lib_dir)


	def install_target_profile_rt(build_dir, lib_dir):
	product_to_arch = {
	'generic': 'arm',
	'generic_arm64': 'aarch64',
	'generic_mips': 'mipsel',
	'generic_mips64': 'mips64el',
	'generic_x86': 'i686',
	'generic_x86_64': 'x86_64',
	}

	for product, arch in product_to_arch.items():
	product_dir = os.path.join(build_dir, 'target/product', product)
	static_libs = os.path.join(product_dir, 'obj/STATIC_LIBRARIES')
	built_lib = os.path.join(
	static_libs, 'libprofile_rt_intermediates/libprofile_rt.a')
	lib_name = 'libclang_rt.profile-{}-android.a'.format(arch)
	install_file(built_lib, os.path.join(lib_dir, lib_name))


	def install_host_profile_rt(build_dir, host, lib_dir):
	arch_to_obj_dir = {
	'i686': 'obj32',
	'x86_64': 'obj',
	}

	for arch, obj_dir in arch_to_obj_dir.items():
	static_libs = os.path.join(
	build_dir, 'host', host, obj_dir, 'STATIC_LIBRARIES')
	built_lib = os.path.join(
	static_libs, 'libprofile_rt_intermediates/libprofile_rt.a')
	lib_name = 'libclang_rt.profile-{}.a'.format(arch)
	install_file(built_lib, os.path.join(lib_dir, lib_name))


	def install_sanitizers(build_dir, install_dir, host):
	headers_src = android_path('external/compiler-rt/include/sanitizer')
	clang_lib = os.path.join(install_dir, 'lib64/clang', short_version())
	headers_dst = os.path.join(clang_lib, 'include/sanitizer')
	lib_dst = os.path.join(clang_lib, 'lib/linux')
	install_directory(headers_src, headers_dst)

	if host == 'linux-x86':
	install_host_sanitizers(build_dir, host, lib_dst)

	# Tuples of (product, arch, libdir)
	product_to_arch = (
	('generic', 'arm', 'lib'),
	('generic_arm64', 'aarch64', 'lib64'),
	('generic_x86', 'i686', 'lib'),
	)

	for product, arch, libdir in product_to_arch:
	product_dir = os.path.join(build_dir, 'target/product', product)
	system_dir = os.path.join(product_dir, 'system')
	system_lib_dir = os.path.join(system_dir, libdir)
	lib_name = 'libclang_rt.asan-{}-android.so'.format(arch)
	built_lib = os.path.join(system_lib_dir, lib_name)
	install_file(built_lib, lib_dst)


	def install_host_sanitizers(build_dir, host, lib_dst):
	# Tuples of (name, multilib).
	libs = (
	('asan', True),
	('asan_cxx', True),
	('ubsan_standalone', True),
	('ubsan_standalone_cxx', True),
	('tsan', False),
	('tsan_cxx', False),
	)

	obj32 = os.path.join(build_dir, 'host', host, 'obj32/STATIC_LIBRARIES')
	obj64 = os.path.join(build_dir, 'host', host, 'obj/STATIC_LIBRARIES')
	for lib, is_multilib in libs:
	built_lib_name = 'lib{}.a'.format(lib)

	obj64_dir = os.path.join(obj64, 'lib{}_intermediates'.format(lib))
	lib64_name = 'libclang_rt.{}-x86_64.a'.format(lib)
	built_lib64 = os.path.join(obj64_dir, built_lib_name)
	install_file(built_lib64, os.path.join(lib_dst, lib64_name))
	if is_multilib:
	obj32_dir = os.path.join(obj32, 'lib{}_intermediates'.format(lib))
	lib32_name = 'libclang_rt.{}-i686.a'.format(lib)
	built_lib32 = os.path.join(obj32_dir, built_lib_name)
	install_file(built_lib32, os.path.join(lib_dst, lib32_name))


	def install_license_files(install_dir):
	projects = (
	'clang',
	'compiler-rt',
	'libcxx',
	'libcxxabi',
	'libunwind_llvm',
	'llvm',
	)

	notices = []
	for project in projects:
	project_path = android_path('external', project)
	license_pattern = os.path.join(project_path, 'MODULE_LICENSE_*')
	for license_file in glob.glob(license_pattern):
	install_file(license_file, install_dir)
	with open(os.path.join(project_path, 'NOTICE')) as notice_file:
	notices.append(notice_file.read())
	with open(os.path.join(install_dir, 'NOTICE'), 'w') as notice_file:
	notice_file.write('\n'.join(notices))


	def install_repo_prop(install_dir):
	file_name = 'repo.prop'

	dist_dir = os.environ.get('DIST_DIR')
	if dist_dir is not None:
	dist_repo_prop = os.path.join(dist_dir, file_name)
	shutil.copy(dist_repo_prop, install_dir)
	else:
	out_file = os.path.join(install_dir, file_name)
	with open(out_file, 'w') as prop_file:
	cmd = [
	'repo', 'forall', '-c',
	'echo $REPO_PROJECT $(git rev-parse HEAD)',
	]
	subprocess.check_call(cmd, stdout=prop_file)


	def parse_args():
	parser = argparse.ArgumentParser()

	parser.add_argument(
	'--build-name', default='dev', help='Release name for the package.')

	multi_stage_group = parser.add_mutually_exclusive_group()
	multi_stage_group.add_argument(
	'--multi-stage', action='store_true', default=True,
	help='Perform multi-stage build (enabled by default).')
	multi_stage_group.add_argument(
	'--no-multi-stage', action='store_false', dest='multi_stage',
	help='Do not perform multi-stage build.')

	parser.add_argument(
	'--build-all-llvm-tools', action='store_true', default=True,
	help='Build all the LLVM tools/utilities.')

	parser.add_argument(
	'--no-build-all-llvm-tools', action='store_false',
	dest='build_all_llvm_tools',
	help='Build all the LLVM tools/utilities.')

	return parser.parse_args()


	def main():
	args = parse_args()

	if sys.platform.startswith('linux'):
	hosts = ['linux-x86', 'windows-x86']
	elif sys.platform == 'darwin':
	hosts = ['darwin-x86']
	else:
	raise RuntimeError('Unsupported host: {}'.format(sys.platform))

	stage_1_out_dir = build_path('stage1')
	build(out_dir=stage_1_out_dir)
	final_out_dir = stage_1_out_dir
	if args.multi_stage:
	stage_1_install_dir = build_path('stage1-install')
	for host in hosts:
	package_name = 'clang-' + args.build_name
	install_host_dir = os.path.join(stage_1_install_dir, host)
	install_dir = os.path.join(install_host_dir, package_name)

	# Remove any previously installed toolchain so it doesn't pollute
	# the build.
	if os.path.exists(install_host_dir):
	shutil.rmtree(install_host_dir)

	install_toolchain(stage_1_out_dir, install_dir, host)

	stage_2_out_dir = build_path('stage2')
	build(out_dir=stage_2_out_dir, prebuilts_path=stage_1_install_dir,
	prebuilts_version=package_name,
	build_all_llvm_tools=args.build_all_llvm_tools)
	final_out_dir = stage_2_out_dir

	dist_dir = ORIG_ENV.get('DIST_DIR', final_out_dir)
	for host in hosts:
	package_toolchain(final_out_dir, args.build_name, host, dist_dir)


	if __name__ == '__main__':
	main()