# # Copyright 2015 Google Inc. # # Use of this source code is governed by a BSD-style license that can be # found in the LICENSE file. # #!/usr/bin/env python usage = ''' Write extra flags to outfile for nanobench based on the bot name: $ python nanobench_flags.py outfile Perf-Android-GCC-GalaxyS3-GPU-Mali400-Arm7-Release Or run self-tests: $ python nanobench_flags.py test ''' import inspect import json import os import sys def lineno(): caller = inspect.stack()[1] # Up one level to our caller. return inspect.getframeinfo(caller[0]).lineno cov_start = lineno()+1 # We care about coverage starting just past this def. def get_args(bot): args = ['--pre_log'] if 'GPU' in bot: args.append('--images') args.extend(['--gpuStatsDump', 'true']) if 'Android' in bot and 'GPU' in bot: args.extend(['--useThermalManager', '1,1,10,1000']) if 'Appurify' not in bot: args.extend(['--scales', '1.0', '1.1']) if 'iOS' in bot: args.extend(['--skps', 'ignore_skps']) if 'Appurify' not in bot: config = ['565', '8888', 'gpu', 'nonrendering', 'angle', 'hwui'] # The S4 crashes and the NP produces a long error stream when we run with # MSAA. if ('GalaxyS4' not in bot and 'NexusPlayer' not in bot): if 'Android' in bot: config.extend(['msaa4', 'nvprmsaa4']) else: config.extend(['msaa16', 'nvprmsaa16']) args.append('--config') args.extend(config) if 'Valgrind' in bot: # Don't care about Valgrind performance. args.extend(['--loops', '1']) args.extend(['--samples', '1']) # Ensure that the bot framework does not think we have timed out. args.extend(['--keepAlive', 'true']) if 'HD2000' in bot: args.extend(['--GPUbenchTileW', '256']) args.extend(['--GPUbenchTileH', '256']) match = [] if 'Android' in bot: # Segfaults when run as GPU bench. Very large texture? match.append('~blurroundrect') match.append('~patch_grid') # skia:2847 match.append('~desk_carsvg') if 'HD2000' in bot: match.extend(['~gradient', '~etc1bitmap']) # skia:2895 if 'NexusPlayer' in bot: match.append('~desk_unicodetable') if 'GalaxyS4' in bot: match.append('~GLInstancedArraysBench') # skia:4371 if 'iOS' in bot: match.append('~blurroundrect') match.append('~patch_grid') # skia:2847 match.append('~desk_carsvg') match.append('~keymobi') match.append('~path_hairline') match.append('~GLInstancedArraysBench') # skia:4714 # the 32-bit GCE bots run out of memory in DM when running these large images # so defensively disable them in nanobench, too. # FIXME (scroggo): This may have just been due to SkImageDecoder's # buildTileIndex leaking memory (https://bug.skia.org/4360). That is # disabled by default for nanobench, so we may not need this. # FIXME (scroggo): Share image blacklists between dm and nanobench? if 'x86' in bot and not 'x86-64' in bot: match.append('~interlaced1.png') match.append('~interlaced2.png') match.append('~interlaced3.png') # We do not need or want to benchmark the decodes of incomplete images. # In fact, in nanobench we assert that the full image decode succeeds. match.append('~inc0.gif') match.append('~inc1.gif') match.append('~incInterlaced.gif') match.append('~inc0.jpg') match.append('~incGray.jpg') match.append('~inc0.wbmp') match.append('~inc1.wbmp') match.append('~inc0.webp') match.append('~inc1.webp') match.append('~inc0.ico') match.append('~inc1.ico') match.append('~inc0.png') match.append('~inc1.png') match.append('~inc2.png') match.append('~inc12.png') match.append('~inc13.png') match.append('~inc14.png') match.append('~inc0.webp') match.append('~inc1.webp') if match: args.append('--match') args.extend(match) return args cov_end = lineno() # Don't care about code coverage past here. def self_test(): import coverage # This way the bots don't need coverage.py to be installed. args = {} cases = [ 'Perf-Android-GCC-Nexus6-GPU-Adreno420-Arm7-Release', 'Perf-Android-Nexus7-Tegra3-Arm7-Release', 'Perf-Android-GCC-NexusPlayer-GPU-PowerVR-x86-Release', 'Test-Ubuntu-GCC-ShuttleA-GPU-GTX550Ti-x86_64-Release-Valgrind', 'Test-Win7-MSVC-ShuttleA-GPU-HD2000-x86-Debug-ANGLE', 'Test-iOS-Clang-iPad4-GPU-SGX554-Arm7-Debug', 'Test-Android-GCC-GalaxyS4-GPU-SGX544-Arm7-Release', ] cov = coverage.coverage() cov.start() for case in cases: args[case] = get_args(case) cov.stop() this_file = os.path.basename(__file__) _, _, not_run, _ = cov.analysis(this_file) filtered = [line for line in not_run if line > cov_start and line < cov_end] if filtered: print 'Lines not covered by test cases: ', filtered sys.exit(1) golden = this_file.replace('.py', '.json') with open(os.path.join(os.path.dirname(__file__), golden), 'w') as f: json.dump(args, f, indent=2, sort_keys=True) if __name__ == '__main__': if len(sys.argv) == 2 and sys.argv[1] == 'test': self_test() sys.exit(0) if len(sys.argv) != 3: print usage sys.exit(1) with open(sys.argv[1], 'w') as out: json.dump(get_args(sys.argv[2]), out)