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make.py
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make.py
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# coding: utf-8
from __future__ import print_function
import argparse
import multiprocessing
import os
import platform
import re
import shutil
import subprocess
import sys
import threading
import time
import urllib.request
import zipfile
# The current test data version in use
REGRESSION_TEST_DATA_SOURCE_URL = 'https://github.com/nfrechette/acl-test-data/releases/download/v2.0.0/'
CURRENT_REGRESSION_TEST_DATA_FILENAME = 'acl_regression_tests_v2.zip'
# The current decompression data version in use
current_decomp_data = 'decomp_data_v8'
def is_host_cpu_arm64():
is_arm64_cpu = False
if platform.machine() == 'arm64' or platform.machine() == 'aarch64':
is_arm64_cpu = True
return is_arm64_cpu
def parse_argv():
parser = argparse.ArgumentParser(add_help=False)
actions = parser.add_argument_group(title='Actions', description='If no action is specified, on Windows, OS X, and Linux the solution/make files are generated. Multiple actions can be used simultaneously.')
actions.add_argument('-build', action='store_true')
actions.add_argument('-clean', action='store_true')
actions.add_argument('-clean_only', action='store_true')
actions.add_argument('-unit_test', action='store_true')
actions.add_argument('-regression_test', action='store_true')
actions.add_argument('-bench', action='store_true')
actions.add_argument('-run_bench', action='store_true')
actions.add_argument('-pull_bench', action='store_true') # Android only
actions.add_argument('-convert', help='Input/Output directory to convert')
target = parser.add_argument_group(title='Target')
target.add_argument('-compiler', choices=['vs2015', 'vs2017', 'vs2019', 'vs2022', 'vs2019-clang', 'vs2022-clang', 'android', 'clang4', 'clang5', 'clang6', 'clang7', 'clang8', 'clang9', 'clang10', 'clang11', 'clang12', 'clang13', 'clang14', 'clang15', 'gcc5', 'gcc6', 'gcc7', 'gcc8', 'gcc9', 'gcc10', 'gcc11', 'gcc12', 'gcc13', 'osx', 'ios', 'emscripten'], help='Defaults to the host system\'s default compiler')
target.add_argument('-config', choices=['Debug', 'Release'], type=str.capitalize)
target.add_argument('-cpu', choices=['x86', 'x64', 'armv7', 'arm64', 'wasm'], help='Defaults to the host system\'s architecture')
target.add_argument('-cpp_version', choices=['11', '14', '17', '20'], help='Defaults to C++11')
misc = parser.add_argument_group(title='Miscellaneous')
misc.add_argument('-avx', dest='use_avx', action='store_true', help='Compile using AVX instructions on Windows, OS X, and Linux')
misc.add_argument('-pop', dest='use_popcnt', action='store_true', help='Compile using the POPCNT instruction')
misc.add_argument('-nosimd', dest='use_simd', action='store_false', help='Compile without SIMD instructions')
misc.add_argument('-simd', dest='use_simd', action='store_true', help='Compile with default SIMD instructions')
misc.add_argument('-nosjson', dest='use_sjson', action='store_false', help='Compile without SJSON support')
misc.add_argument('-allwarnings', dest='allwarnings', action='store_true', help='Enable all warnings, MSVC only')
misc.add_argument('-num_threads', help='No. to use while compiling and regressing')
misc.add_argument('-tests_matching', help='Only run tests whose names match this regex')
misc.add_argument('-ci', action='store_true', help='Whether or not this is a Continuous Integration build')
misc.add_argument('-help', action='help', help='Display this usage information')
num_threads = multiprocessing.cpu_count()
if platform.system() == 'Linux' and sys.version_info >= (3, 4):
num_threads = len(os.sched_getaffinity(0))
if not num_threads or num_threads == 0:
num_threads = 4
parser.set_defaults(build=False, clean=False, clean_only=False, unit_test=False, regression_test=False, bench=False, run_bench=False, pull_bench=False,
compiler=None, config='Release', cpu=None, cpp_version='11', use_avx=False, use_popcnt=False, use_simd=True, use_sjson=True, allwarnings=False,
num_threads=num_threads, tests_matching='')
args = parser.parse_args()
is_arm64_cpu = is_host_cpu_arm64()
# Sanitize and validate our options
if args.use_avx and not args.use_simd:
print('SIMD is disabled; AVX cannot be used')
args.use_avx = False
if args.compiler == 'android':
if not args.cpu:
args.cpu = 'arm64'
if not platform.system() == 'Windows':
print('Android is only supported on Windows')
sys.exit(1)
if args.use_avx:
print('AVX is not supported on Android')
sys.exit(1)
if not args.cpu in ['armv7', 'arm64']:
print('{} cpu architecture not in supported list [armv7, arm64] for Android'.format(args.cpu))
sys.exit(1)
elif args.compiler == 'ios':
if not args.cpu:
args.cpu = 'arm64'
if not platform.system() == 'Darwin':
print('iOS is only supported on OS X')
sys.exit(1)
if args.use_avx:
print('AVX is not supported on iOS')
sys.exit(1)
if args.unit_test:
print('Unit tests cannot run from the command line on iOS')
sys.exit(1)
if args.regression_test:
print('Regression tests cannot run from the command line on iOS')
sys.exit(1)
if not args.cpu in ['arm64']:
print('{} cpu architecture not in supported list [arm64] for iOS'.format(args.cpu))
sys.exit(1)
elif args.compiler == 'emscripten':
if not args.cpu:
args.cpu = 'wasm'
if not platform.system() == 'Darwin' and not platform.system() == 'Linux':
print('Emscripten is only supported on OS X and Linux')
sys.exit(1)
if args.use_avx:
print('AVX is not supported with Emscripten')
sys.exit(1)
if not args.cpu in ['wasm']:
print('{} cpu architecture not in supported list [wasm] for Emscripten'.format(args.cpu))
sys.exit(1)
else:
if not args.cpu:
if is_arm64_cpu:
args.cpu = 'arm64'
else:
args.cpu = 'x64'
if args.cpu == 'arm64':
is_arm_supported = False
# Cross compilation
if args.compiler in ['vs2017', 'vs2019', 'vs2022', 'ios', 'android']:
is_arm_supported = True
# Native compilation
if platform.system() == 'Darwin' and is_arm64_cpu:
is_arm_supported = True
elif platform.system() == 'Linux' and is_arm64_cpu:
is_arm_supported = True
if not is_arm_supported:
print('arm64 is only supported with VS2017, VS2019, OS X (M1 processors), Linux, Android, and iOS')
sys.exit(1)
elif args.cpu == 'armv7':
if not args.compiler == 'android':
print('armv7 is only supported with Android')
sys.exit(1)
elif args.cpu == 'wasm':
if not args.compiler == 'emscripten':
print('wasm is only supported with Emscripten')
sys.exit(1)
if platform.system() == 'Darwin' and args.cpu == 'x86':
result = subprocess.check_output(['xcodebuild', '-version']).decode("utf-8")
if 'Xcode 11' in result:
print('Versions of Xcode 11 and up no longer support x86')
sys.exit(1)
return args
def get_generator(compiler, cpu):
if compiler == None:
return None
if platform.system() == 'Windows':
if compiler == 'vs2015':
if cpu == 'x86':
return 'Visual Studio 14'
elif cpu == 'x64':
return 'Visual Studio 14 Win64'
elif compiler == 'vs2017':
if cpu == 'x86':
return 'Visual Studio 15'
elif cpu == 'x64':
return 'Visual Studio 15 Win64'
elif cpu == 'arm64':
# VS2017 ARM/ARM64 support only works with cmake 3.13 and up and the architecture must be specified with
# the -A cmake switch
return 'Visual Studio 15 2017'
elif compiler == 'vs2019' or compiler == 'vs2019-clang':
return 'Visual Studio 16 2019'
elif compiler == 'vs2022' or compiler == 'vs2022-clang':
return 'Visual Studio 17 2022'
elif compiler == 'android':
# For Android, we use the default generator since we don't build with CMake
return None
elif platform.system() == 'Darwin':
if compiler == 'osx' or compiler == 'ios':
return 'Xcode'
elif compiler == 'emscripten':
# Emscripten uses the default generator
return None
elif platform.system() == 'Linux':
if compiler == 'emscripten':
# Emscripten uses the default generator
return None
return 'Unix Makefiles'
print('Unknown compiler: {}'.format(compiler))
print('See help with: python make.py -help')
sys.exit(1)
def get_architecture(compiler, cpu):
if compiler == None:
return None
if platform.system() == 'Windows':
if compiler == 'vs2017':
if cpu == 'arm64':
return 'ARM64'
is_modern_vs = False
if compiler == 'vs2019' or compiler == 'vs2019-clang':
is_modern_vs = True
elif compiler == 'vs2022' or compiler == 'vs2022-clang':
is_modern_vs = True
if is_modern_vs:
if cpu == 'x86':
return 'Win32'
else:
return cpu
# This compiler/cpu pair does not need the architecture switch
return None
def get_toolchain(compiler, cmake_script_dir):
if platform.system() == 'Windows' and compiler == 'android':
return os.path.join(cmake_script_dir, 'Toolchain-Android.cmake')
elif platform.system() == 'Darwin' and compiler == 'ios':
return os.path.join(cmake_script_dir, 'Toolchain-iOS.cmake')
# No toolchain
return None
def set_compiler_env(compiler, args):
if platform.system() == 'Linux':
if compiler == 'clang4':
os.environ['CC'] = 'clang-4.0'
os.environ['CXX'] = 'clang++-4.0'
elif compiler == 'clang5':
os.environ['CC'] = 'clang-5.0'
os.environ['CXX'] = 'clang++-5.0'
elif compiler == 'clang6':
os.environ['CC'] = 'clang-6.0'
os.environ['CXX'] = 'clang++-6.0'
elif compiler == 'clang7':
os.environ['CC'] = 'clang-7'
os.environ['CXX'] = 'clang++-7'
elif compiler == 'clang8':
os.environ['CC'] = 'clang-8'
os.environ['CXX'] = 'clang++-8'
elif compiler == 'clang9':
os.environ['CC'] = 'clang-9'
os.environ['CXX'] = 'clang++-9'
elif compiler == 'clang10':
os.environ['CC'] = 'clang-10'
os.environ['CXX'] = 'clang++-10'
elif compiler == 'clang11':
os.environ['CC'] = 'clang-11'
os.environ['CXX'] = 'clang++-11'
elif compiler == 'clang12':
os.environ['CC'] = 'clang-12'
os.environ['CXX'] = 'clang++-12'
elif compiler == 'clang13':
os.environ['CC'] = 'clang-13'
os.environ['CXX'] = 'clang++-13'
elif compiler == 'clang14':
os.environ['CC'] = 'clang-14'
os.environ['CXX'] = 'clang++-14'
elif compiler == 'clang15':
os.environ['CC'] = 'clang-15'
os.environ['CXX'] = 'clang++-15'
elif compiler == 'gcc5':
os.environ['CC'] = 'gcc-5'
os.environ['CXX'] = 'g++-5'
elif compiler == 'gcc6':
os.environ['CC'] = 'gcc-6'
os.environ['CXX'] = 'g++-6'
elif compiler == 'gcc7':
os.environ['CC'] = 'gcc-7'
os.environ['CXX'] = 'g++-7'
elif compiler == 'gcc8':
os.environ['CC'] = 'gcc-8'
os.environ['CXX'] = 'g++-8'
elif compiler == 'gcc9':
os.environ['CC'] = 'gcc-9'
os.environ['CXX'] = 'g++-9'
elif compiler == 'gcc10':
os.environ['CC'] = 'gcc-10'
os.environ['CXX'] = 'g++-10'
elif compiler == 'gcc11':
os.environ['CC'] = 'gcc-11'
os.environ['CXX'] = 'g++-11'
elif compiler == 'gcc12':
os.environ['CC'] = 'gcc-12'
os.environ['CXX'] = 'g++-12'
elif compiler == 'gcc13':
os.environ['CC'] = 'gcc-13'
os.environ['CXX'] = 'g++-13'
elif compiler == 'emscripten':
# Nothing to do for Emscripten
return
else:
print('Unknown compiler: {}'.format(compiler))
print('See help with: python make.py -help')
sys.exit(1)
def do_generate_solution(build_dir, cmake_script_dir, regression_test_data_dir, decomp_data_dir, args):
compiler = args.compiler
cpu = args.cpu
config = args.config
if compiler:
set_compiler_env(compiler, args)
extra_switches = ['--no-warn-unused-cli']
extra_switches.append('-DCPU_INSTRUCTION_SET:STRING={}'.format(cpu))
extra_switches.append('-DCMAKE_CXX_STANDARD:STRING={}'.format(args.cpp_version))
if args.use_avx:
print('Enabling AVX usage')
extra_switches.append('-DUSE_AVX_INSTRUCTIONS:BOOL=true')
if args.use_popcnt:
print('Enabling POPCOUNT usage')
extra_switches.append('-DUSE_POPCNT_INSTRUCTIONS:BOOL=true')
if not args.use_simd:
print('Disabling SIMD instruction usage')
extra_switches.append('-DUSE_SIMD_INSTRUCTIONS:BOOL=false')
if not args.use_sjson:
print('Disabling SJSON support')
extra_switches.append('-DUSE_SJSON:BOOL=false')
if args.allwarnings and compiler.startswith('vs'):
print('Enabling all warnings')
extra_switches.append('-DENABLE_ALL_WARNINGS:BOOL=true')
if args.bench:
extra_switches.append('-DBUILD_BENCHMARK_EXE:BOOL=true')
if platform.system() == 'Windows':
if os.path.sep == '\\':
# Native Windows
extra_switches
else:
# MSYS2 or Cygwin
extra_switches.append('-DCMAKE_BUILD_TYPE={}'.format(config.upper()))
else:
extra_switches.append('-DCMAKE_BUILD_TYPE={}'.format(config.upper()))
if platform.system() == 'Darwin' and compiler == 'ios' and args.ci:
# Disable code signing for CI iOS builds since we just test compilation
extra_switches.append('-DCMAKE_XCODE_ATTRIBUTE_CODE_SIGNING_REQUIRED=NO')
extra_switches.append('-DCMAKE_XCODE_ATTRIBUTE_CODE_SIGNING_ALLOWED=NO')
toolchain = get_toolchain(compiler, cmake_script_dir)
if toolchain:
extra_switches.append('-DCMAKE_TOOLCHAIN_FILE={}'.format(toolchain))
if regression_test_data_dir:
extra_switches.append('-DTEST_DATA_DIR:STRING="{}"'.format(regression_test_data_dir))
if decomp_data_dir:
extra_switches.append('-DDECOMP_DATA_DIR:STRING="{}"'.format(decomp_data_dir))
# Generate IDE solution
print('Generating build files ...')
if compiler == 'emscripten':
cmake_cmd = 'emcmake cmake .. -DCMAKE_INSTALL_PREFIX="{}" {}'.format(build_dir, ' '.join(extra_switches))
else:
cmake_generator = get_generator(compiler, cpu)
if not cmake_generator:
print('Using default generator')
else:
generator_suffix = ''
if compiler == 'vs2019-clang' or compiler == 'vs2022-clang':
extra_switches.append('-T ClangCL')
generator_suffix = 'Clang CL'
print('Using generator: {} {}'.format(cmake_generator, generator_suffix))
extra_switches.append('-G "{}"'.format(cmake_generator))
cmake_arch = get_architecture(compiler, cpu)
if cmake_arch:
print('Using architecture: {}'.format(cmake_arch))
extra_switches.append('-A {}'.format(cmake_arch))
cmake_cmd = 'cmake .. -DCMAKE_INSTALL_PREFIX="{}" {}'.format(build_dir, ' '.join(extra_switches))
result = subprocess.call(cmake_cmd, shell=True)
if result != 0:
sys.exit(result)
def do_build(args):
config = args.config
print('Building ...')
cmake_cmd = 'cmake --build .'
if platform.system() == 'Windows':
if args.compiler == 'android':
cmake_cmd += ' --config {}'.format(config)
else:
if os.path.sep == '\\':
# Native Windows
cmake_cmd += ' --config {} --target INSTALL'.format(config)
else:
# MSYS2 or Cygwin
cmake_cmd += ' --config {} --target install'.format(config)
elif platform.system() == 'Darwin':
if args.compiler == 'ios':
cmake_cmd += ' --config {}'.format(config)
else:
cmake_cmd += ' --config {} --target install'.format(config)
else:
cmake_cmd += ' --target install'
result = subprocess.call(cmake_cmd, shell=True)
if result != 0:
sys.exit(result)
def do_convert(test_data_dir, args):
if sys.version_info < (3, 4):
print('Python 3.4 or higher needed to run conversion')
sys.exit(1)
if not os.path.exists(args.convert):
print('Input/Output conversion directory not found: {}'.format(args.convert))
sys.exit(1)
# Validate that our regression testing tool is present
if args.compiler == 'emscripten':
compressor_exe_path = './bin/acl_compressor.js'
elif platform.system() == 'Windows':
compressor_exe_path = './bin/acl_compressor.exe'
else:
compressor_exe_path = './bin/acl_compressor'
compressor_exe_path = os.path.abspath(compressor_exe_path)
if not os.path.exists(compressor_exe_path):
print('Compressor exe not found: {}'.format(compressor_exe_path))
sys.exit(1)
# Grab all the test clips
conversion_clips = []
for (dirpath, dirnames, filenames) in os.walk(args.convert):
for filename in filenames:
if not filename.endswith('.acl.sjson'):
continue
clip_filename = os.path.join(dirpath, filename)
conversion_clips.append(clip_filename)
# Grab the raw config
config_dir = os.path.join(test_data_dir, 'configs')
config_filename = os.path.join(config_dir, 'uniformly_sampled_raw.config.sjson')
print('Converting SJSON clips in {} ...'.format(args.convert))
conversion_failed = False
for clip_filename in conversion_clips:
output_filename = clip_filename.replace('.acl.sjson', '.acl')
if args.compiler == 'emscripten':
cmd = 'node "{}" -acl="{}" -config="{}" -out="{}"'.format(compressor_exe_path, clip_filename, config_filename, output_filename)
else:
cmd = '"{}" -acl="{}" -config="{}" -out="{}"'.format(compressor_exe_path, clip_filename, config_filename, output_filename)
if platform.system() == 'Windows':
cmd = cmd.replace('/', '\\')
result = subprocess.call(cmd, shell=True)
if result != 0:
print('Failed to run conversion for clip: {}'.format(clip_filename))
print(cmd)
conversion_failed = True
print('Done!')
if conversion_failed:
sys.exit(1)
def do_tests_android(build_dir, args):
# Switch our working directory to where we built everything
working_dir = os.path.join(build_dir, 'tests', 'main_android')
os.chdir(working_dir)
gradlew_exe = os.path.join(working_dir, 'gradlew.bat')
# We uninstall first and then install
if args.config == 'Debug':
install_cmd = 'uninstallAll installDebug'
elif args.config == 'Release':
install_cmd = 'uninstallAll installRelease'
# Install our app
test_cmd = '"{}" {}'.format(gradlew_exe, install_cmd)
result = subprocess.call(test_cmd, shell=True)
if result != 0:
sys.exit(result)
# Execute through ADB
run_cmd = 'adb shell am start -n "com.acl.unit_tests/com.acl.unit_tests.MainActivity" -a android.intent.action.MAIN -c android.intent.category.LAUNCHER'
result = subprocess.call(run_cmd, shell=True)
if result != 0:
sys.exit(result)
# Restore working directory
os.chdir(build_dir)
def do_tests_cmake(args):
ctest_cmd = 'ctest --output-on-failure --parallel {}'.format(args.num_threads)
if platform.system() == 'Windows' or platform.system() == 'Darwin':
ctest_cmd += ' -C {}'.format(args.config)
if args.tests_matching:
ctest_cmd += ' --tests-regex {}'.format(args.tests_matching)
result = subprocess.call(ctest_cmd, shell=True)
if result != 0:
sys.exit(result)
def do_tests(build_dir, args):
print('Running unit tests ...')
if args.compiler == 'android':
do_tests_android(build_dir, args)
else:
do_tests_cmake(args)
def format_elapsed_time(elapsed_time):
hours, rem = divmod(elapsed_time, 3600)
minutes, seconds = divmod(rem, 60)
return '{:0>2}h {:0>2}m {:05.2f}s'.format(int(hours), int(minutes), seconds)
def print_progress(iteration, total, prefix='', suffix='', decimals = 1, bar_length = 40):
# Taken from https://stackoverflow.com/questions/3173320/text-progress-bar-in-the-console
# With minor tweaks
"""
Call in a loop to create terminal progress bar
@params:
iteration - Required : current iteration (Int)
total - Required : total iterations (Int)
prefix - Optional : prefix string (Str)
suffix - Optional : suffix string (Str)
decimals - Optional : positive number of decimals in percent complete (Int)
bar_length - Optional : character length of bar (Int)
"""
str_format = "{0:." + str(decimals) + "f}"
percents = str_format.format(100 * (iteration / float(total)))
filled_length = int(round(bar_length * iteration / float(total)))
bar = '█' * filled_length + '-' * (bar_length - filled_length)
# We need to clear any previous line we might have to ensure we have no visual artifacts
# Note that if this function is called too quickly, the text might flicker
terminal_width = 80
sys.stdout.write('{}\r'.format(' ' * terminal_width))
sys.stdout.flush()
sys.stdout.write('%s |%s| %s%s %s\r' % (prefix, bar, percents, '%', suffix)),
sys.stdout.flush()
if iteration == total:
sys.stdout.write('\n')
def do_prepare_regression_test_data(test_data_dir, args):
print('Preparing regression test data ...')
regression_test_data_dir = os.path.join(test_data_dir, 'regression_test_data')
current_test_data_zip = os.path.join(test_data_dir, CURRENT_REGRESSION_TEST_DATA_FILENAME)
# Validate that our regression test data is present
if not os.path.exists(current_test_data_zip):
print('Regression test data not found: {}'.format(current_test_data_zip))
# Delete any stale data we might have
if os.path.exists(regression_test_data_dir):
shutil.rmtree(regression_test_data_dir)
# Attempt to download it from GitHub
source_url = REGRESSION_TEST_DATA_SOURCE_URL + CURRENT_REGRESSION_TEST_DATA_FILENAME
print('Downloading regression test data from: ' + source_url)
try:
filename, headers = urllib.request.urlretrieve(source_url, CURRENT_REGRESSION_TEST_DATA_FILENAME)
shutil.copyfile(filename, current_test_data_zip)
except:
print('Failed to download regression tests')
return None
# If it hasn't been decompressed yet, do so now
needs_decompression = not os.path.exists(regression_test_data_dir)
if needs_decompression:
print('Decompressing {} ...'.format(current_test_data_zip))
with zipfile.ZipFile(current_test_data_zip, 'r') as zip_ref:
zip_ref.extractall(regression_test_data_dir)
# Grab all the test clips
regression_clips = []
for (dirpath, dirnames, filenames) in os.walk(regression_test_data_dir):
for filename in filenames:
if not filename.endswith('.acl'):
continue
clip_filename = os.path.join(dirpath, filename)
regression_clips.append((clip_filename, os.path.getsize(clip_filename)))
if len(regression_clips) == 0:
print('No regression clips found')
sys.exit(1)
print('Found {} regression clips'.format(len(regression_clips)))
# Grab all the test configurations
test_configs = []
test_config_dir = os.path.join(test_data_dir, 'configs')
if os.path.exists(test_config_dir):
for (dirpath, dirnames, filenames) in os.walk(test_config_dir):
for filename in filenames:
if not filename.endswith('.config.sjson'):
continue
config_filename = os.path.join(dirpath, filename)
test_configs.append((config_filename, filename))
if len(test_configs) == 0:
print('No regression configurations found')
sys.exit(1)
print('Found {} regression configurations'.format(len(test_configs)))
# Sort the configs by name for consistency
test_configs.sort(key=lambda entry: entry[1])
# Sort clips by size to test larger clips first, it parallelizes better
regression_clips.sort(key=lambda entry: entry[1], reverse=True)
# Write our metadata file
with open(os.path.join(regression_test_data_dir, 'metadata.sjson'), 'w') as metadata_file:
print('configs = [', file = metadata_file)
for config_filename, _ in test_configs:
print('\t"{}"'.format(os.path.relpath(config_filename, test_config_dir)), file = metadata_file)
print(']', file = metadata_file)
print('', file = metadata_file)
print('clips = [', file = metadata_file)
for clip_filename, _ in regression_clips:
print('\t"{}"'.format(os.path.relpath(clip_filename, regression_test_data_dir)), file = metadata_file)
print(']', file = metadata_file)
print('', file = metadata_file)
return regression_test_data_dir
def do_prepare_decompression_test_data(test_data_dir, args):
print('Preparing decompression test data ...')
current_data_zip = os.path.join(test_data_dir, '{}.zip'.format(current_decomp_data))
# Validate that our regression test data is present
if not os.path.exists(current_data_zip):
print('Decompression test data not found: {}'.format(current_data_zip))
return
# If it hasn't been decompressed yet, do so now
current_data_dir = os.path.join(test_data_dir, current_decomp_data)
needs_decompression = not os.path.exists(current_data_dir)
if needs_decompression:
print('Decompressing {} ...'.format(current_data_zip))
with zipfile.ZipFile(current_data_zip, 'r') as zip_ref:
zip_ref.extractall(test_data_dir)
# Grab all the test clips
clips = []
for (dirpath, dirnames, filenames) in os.walk(current_data_dir):
for filename in filenames:
if not filename.endswith('.acl'):
continue
clip_filename = os.path.join(dirpath, filename)
clips.append(clip_filename)
if len(clips) == 0:
print('No decompression clips found')
return
print('Found {} decompression clips'.format(len(clips)))
# Sort clips by name for determinism
clips.sort()
# Write our metadata file
with open(os.path.join(current_data_dir, 'metadata.sjson'), 'w') as metadata_file:
print('clip_dir = "{}"'.format(current_data_dir), file = metadata_file)
print('', file = metadata_file)
print('clips = [', file = metadata_file)
for clip_filename in clips:
print('\t"{}"'.format(os.path.relpath(clip_filename, current_data_dir)), file = metadata_file)
print(']', file = metadata_file)
print('', file = metadata_file)
return current_data_dir
def do_regression_tests_android(build_dir, args):
# Switch our working directory to where we built everything
working_dir = os.path.join(build_dir, 'tools', 'regression_tester_android')
os.chdir(working_dir)
gradlew_exe = os.path.join(working_dir, 'gradlew.bat')
# We uninstall first and then install
if args.config == 'Debug':
install_cmd = 'uninstallAll installDebug'
elif args.config == 'Release':
install_cmd = 'uninstallAll installRelease'
# Install our app
test_cmd = '"{}" {}'.format(gradlew_exe, install_cmd)
result = subprocess.call(test_cmd, shell=True)
if result != 0:
sys.exit(result)
# Execute through ADB
run_cmd = 'adb shell am start -n "com.acl.regression_tests/com.acl.regression_tests.MainActivity" -a android.intent.action.MAIN -c android.intent.category.LAUNCHER'
result = subprocess.call(run_cmd, shell=True)
if result != 0:
sys.exit(result)
# Restore working directory
os.chdir(build_dir)
def do_regression_tests_cmake(test_data_dir, regression_test_data_dir, args):
if sys.version_info < (3, 4):
print('Python 3.4 or higher needed to run regression tests')
sys.exit(1)
import queue
# Validate that our regression testing tool is present
if args.compiler == 'emscripten':
compressor_exe_path = './bin/acl_compressor.js'
elif platform.system() == 'Windows':
compressor_exe_path = './bin/acl_compressor.exe'
else:
compressor_exe_path = './bin/acl_compressor'
compressor_exe_path = os.path.abspath(compressor_exe_path)
if not os.path.exists(compressor_exe_path):
print('Compressor exe not found: {}'.format(compressor_exe_path))
sys.exit(1)
# Grab all the test clips
regression_clips = []
for (dirpath, dirnames, filenames) in os.walk(regression_test_data_dir):
for filename in filenames:
if not filename.endswith('.acl'):
continue
clip_filename = os.path.join(dirpath, filename)
regression_clips.append((clip_filename, os.path.getsize(clip_filename)))
# Grab all the test configurations
test_configs = []
test_config_dir = os.path.join(test_data_dir, 'configs')
if os.path.exists(test_config_dir):
for (dirpath, dirnames, filenames) in os.walk(test_config_dir):
for filename in filenames:
if not filename.endswith('.config.sjson'):
continue
config_filename = os.path.join(dirpath, filename)
test_configs.append((config_filename, filename))
# Sort the configs by name for consistency
test_configs.sort(key=lambda entry: entry[1])
# Sort clips by size to test larger clips first, it parallelizes better
regression_clips.sort(key=lambda entry: entry[1], reverse=True)
# Iterate over every clip and configuration and perform the regression testing
for config_filename, _ in test_configs:
print('Performing regression tests for configuration: {}'.format(os.path.basename(config_filename)))
regression_start_time = time.perf_counter()
cmd_queue = queue.Queue()
completed_queue = queue.Queue()
failed_queue = queue.Queue()
failure_lock = threading.Lock()
for clip_filename, _ in regression_clips:
if args.compiler == 'emscripten':
cmd = 'node "{}" -acl="{}" -test -config="{}"'.format(compressor_exe_path, clip_filename, config_filename)
else:
cmd = '"{}" -acl="{}" -test -config="{}"'.format(compressor_exe_path, clip_filename, config_filename)
if platform.system() == 'Windows':
cmd = cmd.replace('/', '\\')
cmd_queue.put((clip_filename, cmd))
# Add a marker to terminate the threads
for i in range(args.num_threads):
cmd_queue.put(None)
def run_clip_regression_test(cmd_queue, completed_queue, failed_queue, failure_lock):
while True:
entry = cmd_queue.get()
if entry is None:
return
(clip_filename, cmd) = entry
result = subprocess.call(cmd, shell=True)
if result != 0:
failed_queue.put((clip_filename, cmd))
failure_lock.acquire()
print('Failed to run regression test for clip: {}'.format(clip_filename))
print(cmd)
failure_lock.release()
completed_queue.put(clip_filename)
threads = [ threading.Thread(target = run_clip_regression_test, args = (cmd_queue, completed_queue, failed_queue, failure_lock)) for _i in range(args.num_threads) ]
for thread in threads:
thread.daemon = True
thread.start()
if not args.ci:
print_progress(0, len(regression_clips), 'Testing clips:', '{} / {}'.format(0, len(regression_clips)))
try:
while True:
for thread in threads:
thread.join(1.0)
if not args.ci:
num_processed = completed_queue.qsize()
print_progress(num_processed, len(regression_clips), 'Testing clips:', '{} / {}'.format(num_processed, len(regression_clips)))
all_threads_done = True
for thread in threads:
if thread.is_alive():
all_threads_done = False
if all_threads_done:
break
except KeyboardInterrupt:
sys.exit(1)
regression_testing_failed = not failed_queue.empty()
regression_end_time = time.perf_counter()
print('Done in {}'.format(format_elapsed_time(regression_end_time - regression_start_time)))
if regression_testing_failed:
sys.exit(1)
def do_regression_tests(build_dir, test_data_dir, regression_test_data_dir, args):
print('Running regression tests ...')
if args.compiler == 'android':
do_regression_tests_android(build_dir, args)
else:
do_regression_tests_cmake(test_data_dir, regression_test_data_dir, args)
def do_run_bench_android(build_dir, args):
# Switch our working directory to where we built everything
working_dir = os.path.join(build_dir, 'tools', 'acl_decompressor', 'main_android')
os.chdir(working_dir)
gradlew_exe = os.path.join(working_dir, 'gradlew.bat')
# We uninstall first and then install
if args.config == 'Debug':
install_cmd = 'uninstallAll installDebug'
elif args.config == 'Release':
install_cmd = 'uninstallAll installRelease'
# Install our app
test_cmd = '"{}" {}'.format(gradlew_exe, install_cmd)
result = subprocess.call(test_cmd, shell=True)
if result != 0:
sys.exit(result)
# Execute through ADB
run_cmd = 'adb shell am start -n "com.acl.decompressor/com.acl.decompressor.MainActivity" -a android.intent.action.MAIN -c android.intent.category.LAUNCHER'
result = subprocess.call(run_cmd, shell=True)
if result != 0:
sys.exit(result)
# Restore working directory
os.chdir(build_dir)
def do_pull_bench_android(build_dir):
# Grab the android directory we wrote the results to
output = str(subprocess.check_output('adb logcat -s acl -e "Benchmark results will be written to:" -m 1 -d'))
matches = re.search('Benchmark results will be written to: ([/\.\w]+)', output)
if matches == None:
print('Failed to find Android source directory from ADB')
android_src_dir = '/storage/emulated/0/Android/data/com.acl.decompressor/files'
print('{} will be used instead'.format(android_src_dir))
else:
android_src_dir = matches.group(1)
# Grab the benchmark results from the android device
dst_filename = os.path.join(build_dir, 'benchmark_results.json')
src_filename = '{}/benchmark_results.json'.format(android_src_dir)
cmd = 'adb pull "{}" "{}"'.format(src_filename, dst_filename)
os.system(cmd)
def do_run_bench_native(build_dir, test_data_dir):
if platform.system() == 'Windows':
bench_exe = os.path.join(os.getcwd(), 'bin/acl_decompressor.exe')
else:
bench_exe = os.path.join(os.getcwd(), 'bin/acl_decompressor')
current_data_dir = os.path.join(test_data_dir, current_decomp_data)
metadata_filename = os.path.join(current_data_dir, 'metadata.sjson')
benchmark_output_filename = os.path.join(build_dir, 'benchmark_results.json')
bench_cmd = '{} -metadata="{}" --benchmark_out={} --benchmark_out_format=json'.format(bench_exe, metadata_filename, benchmark_output_filename)
result = subprocess.call(bench_cmd, shell=True)
if result != 0:
sys.exit(result)
def do_run_bench(build_dir, test_data_dir, args):
if args.compiler == 'ios':
return # Not supported on iOS
print('Running benchmark ...')
if args.compiler == 'android':
do_run_bench_android(build_dir, args)
else:
do_run_bench_native(build_dir, test_data_dir)
if __name__ == "__main__":
args = parse_argv()
build_dir = os.path.join(os.getcwd(), 'build')
test_data_dir = os.path.join(os.getcwd(), 'test_data')
cmake_script_dir = os.path.join(os.getcwd(), 'cmake')
is_clean_requested = args.clean or args.clean_only
if is_clean_requested and os.path.exists(build_dir):
print('Cleaning previous build ...')
shutil.rmtree(build_dir)
if args.clean_only:
sys.exit(0)
if not os.path.exists(build_dir):
os.makedirs(build_dir)
os.chdir(build_dir)
print('Using config: {}'.format(args.config))
print('Using cpu: {}'.format(args.cpu))
if args.compiler:
print('Using compiler: {}'.format(args.compiler))
print('Using C++-{}'.format(args.cpp_version))
print('Using {} threads'.format(args.num_threads))
# Check if we are cross-compiling
is_cross_compiling = False
if args.compiler == 'ios' or args.compiler == 'android':
is_cross_compiling = True
elif args.cpu == 'x86' or args.cpu == 'x64':
is_cross_compiling = is_host_cpu_arm64()
elif args.cpu == 'armv7' or args.cpu == 'arm64':
is_cross_compiling = not is_host_cpu_arm64()
# We always prepare this since for Android/iOS the data is included as part of the executable
regression_test_data_dir = do_prepare_regression_test_data(test_data_dir, args)
decomp_data_dir = do_prepare_decompression_test_data(test_data_dir, args)
# Make sure 'make' runs with all available cores
os.environ['MAKEFLAGS'] = '-j{}'.format(args.num_threads)
do_generate_solution(build_dir, cmake_script_dir, regression_test_data_dir, decomp_data_dir, args)
if args.build:
do_build(args)
if args.convert and not is_cross_compiling:
do_convert(test_data_dir, args)