blob: c4faaf27ab030de44c0cc167ba5ff19e67cf8ac6 [file] [log] [blame]
#!/usr/bin/env python
# Copyright 2017 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.
"""Generate data struct from GPU blacklist and driver bug workarounds json."""
import json
import os
import platform
import sys
from optparse import OptionParser
from subprocess import call
_LICENSE = """// Copyright 2017 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.
"""
_DO_NOT_EDIT_WARNING = """// This file is auto-generated from
// gpu/config/process_json.py
// It's formatted by clang-format using chromium coding style:
// clang-format -i -style=chromium filename
// DO NOT EDIT!
"""
_OS_TYPE_MAP = {
'win': 'kOsWin',
'macosx': 'kOsMacosx',
'android': 'kOsAndroid',
'linux': 'kOsLinux',
'chromeos': 'kOsChromeOS',
'': 'kOsAny',
}
def load_software_rendering_list_features(feature_type_filename):
header_file = open(feature_type_filename, 'rb')
start = False
features = []
for line in header_file:
if line.startswith('enum GpuFeatureType {'):
assert not start
start = True
continue
if not start:
continue
line = line.strip()
line = line.split(' ', 1)[0]
line = line.split(',', 1)[0]
if line.startswith('NUMBER_OF_GPU_FEATURE_TYPES'):
assert start
start = False
break
elif line.startswith('GPU_FEATURE_TYPE_'):
name = line[len('GPU_FEATURE_TYPE_'):]
features.append(name.lower())
else:
assert False
assert not start
assert len(features) > 0
header_file.close()
return features
def load_gpu_driver_bug_workarounds(workaround_type_filename):
header_file = open(workaround_type_filename, 'rb')
start = False
workaround = None
workarounds = []
for line in header_file:
if line.startswith('#define GPU_DRIVER_BUG_WORKAROUNDS(GPU_OP)'):
assert not start
start = True
continue
if not start:
continue
line = line.strip()
if line.startswith('GPU_OP('):
assert not workaround
workaround = line[len('GPU_OP('):]
workaround = workaround.split(',', 1)[0].lower()
continue
if workaround:
line = line.split(')', 1)[0]
assert line == workaround
workarounds.append(line)
workaround = None
continue
start = False
break
assert not start
assert len(workarounds) > 0
header_file.close()
return workarounds
def get_feature_set(features, total_feature_set):
assert len(features) > 0
feature_set = set([])
for feature in features:
if feature == 'all':
feature_set = set(total_feature_set)
elif isinstance(feature, dict):
for key in feature:
if key == 'exceptions':
for exception in feature['exceptions']:
assert exception in feature_set
feature_set.remove(exception)
else:
raise KeyError('only exceptions are allowed')
else:
assert feature in total_feature_set
feature_set.add(feature)
return feature_set
def write_features(feature_set, feature_name_prefix, var_name,
data_helper_file):
data_helper_file.write('const int %s[%d] = {\n' %
(var_name, len(feature_set)))
for feature in feature_set:
data_helper_file.write(feature_name_prefix + feature.upper())
data_helper_file.write(',\n')
data_helper_file.write('};\n\n')
def write_disabled_extension_list(entry_kind, entry_id, data, data_file,
data_helper_file):
if data:
var_name = 'k%sForEntry%d' % (entry_kind, entry_id)
# define the list
data_helper_file.write(
'const char* const %s[%d] = {\n' % (var_name, len(data)))
for item in data:
write_string(item, data_helper_file)
data_helper_file.write(',\n')
data_helper_file.write('};\n\n')
# use the list
data_file.write('base::size(%s), // %s size\n' % (var_name, entry_kind))
data_file.write('%s, // %s\n' % (var_name, entry_kind))
else:
data_file.write('0, // %s size\n' % entry_kind)
data_file.write('nullptr, // %s\n' % entry_kind)
def write_gl_strings(entry_id, is_exception, exception_id, data,
unique_symbol_id, data_file, data_helper_file):
if data:
var_name = 'kGLStringsFor%sEntry%d' % (unique_symbol_id, entry_id)
if is_exception:
var_name += 'Exception' + str(exception_id)
# define the GL strings
data_helper_file.write('const GpuControlList::GLStrings %s = {\n' %
var_name)
for item in data:
write_string(item, data_helper_file)
data_helper_file.write(',\n')
data_helper_file.write('};\n\n')
# reference the GL strings
data_file.write('&%s, // GL strings\n' % var_name)
else:
data_file.write('nullptr, // GL strings\n')
def write_version(version_info, name_tag, data_file):
op = ''
style = ''
version1 = ''
version2 = ''
if version_info:
op = version_info['op']
if 'style' in version_info:
style = version_info['style']
version1 = version_info['value']
if 'value2' in version_info:
version2 = version_info['value2']
data_file.write('{')
op_map = {
'=': 'kEQ',
'<': 'kLT',
'<=': 'kLE',
'>': 'kGT',
'>=': 'kGE',
'any': 'kAny',
'between': 'kBetween',
'': 'kUnknown',
}
assert op_map.has_key(op)
data_file.write('GpuControlList::%s, ' % op_map[op])
style_map = {
'lexical': 'Lexical',
'numerical': 'Numerical',
'': 'Numerical',
}
assert style_map.has_key(style)
data_file.write('GpuControlList::kVersionStyle%s, ' % style_map[style])
write_string(version1, data_file)
data_file.write(', ')
write_string(version2, data_file)
data_file.write('}, // %s\n' % name_tag)
def write_driver_info(entry_id, is_exception, exception_id, driver_vendor,
driver_version, driver_date, unique_symbol_id,
data_file, data_helper_file):
var_name = 'kDriverInfoFor%sEntry%d' % (unique_symbol_id, entry_id)
if is_exception:
var_name += 'Exception' + str(exception_id)
# define the GL strings
data_helper_file.write('const GpuControlList::DriverInfo %s = {\n' %
var_name)
write_string_value(driver_vendor, 'driver_vendor', data_helper_file)
write_version(driver_version, 'driver_version', data_helper_file)
write_version(driver_date, 'driver_date', data_helper_file)
data_helper_file.write('};\n\n')
# reference the GL strings
data_file.write('&%s, // driver info\n' % var_name)
def write_number_list(entry_id, data_type, name_tag, data, is_exception,
exception_id, unique_symbol_id, data_file,
data_helper_file):
if data:
var_name = 'k%sFor%sEntry%d' % (name_tag, unique_symbol_id, entry_id)
if is_exception:
var_name += 'Exception' + str(exception_id)
# define the list
data_helper_file.write('const %s %s[%d] = {\n' %
(data_type, var_name, len(data)))
for item in data:
data_helper_file.write(str(item))
data_helper_file.write(',\n')
data_helper_file.write('};\n\n')
# reference the list
data_file.write('base::size(%s), // %s size\n' % (var_name, name_tag))
data_file.write('%s, // %s\n' % (var_name, name_tag))
else:
data_file.write('0, // %s size\n' % name_tag)
data_file.write('nullptr, // %s\n' % name_tag)
def write_string(string, data_file):
if string == '':
data_file.write('nullptr')
else:
data_file.write('"%s"' % string.replace('\\', '\\\\'))
def write_string_value(string, name_tag, data_file):
write_string(string, data_file)
data_file.write(', // %s\n' % name_tag)
def write_boolean_value(value, name_tag, data_file):
data_file.write('%s, // %s\n' % (str(value).lower(), name_tag))
def write_integer_value(value, name_tag, data_file):
data_file.write('%s, // %s\n' % (str(value), name_tag))
def write_machine_model_info(entry_id, is_exception, exception_id,
machine_model_name, machine_model_version,
data_file, data_helper_file):
model_name_var_name = None
if machine_model_name:
model_name_var_name = 'kMachineModelNameForEntry' + str(entry_id)
if is_exception:
model_name_var_name += 'Exception' + str(exception_id)
data_helper_file.write('const char* const %s[%d] = {\n' %
(model_name_var_name, len(machine_model_name)))
for item in machine_model_name:
write_string(item, data_helper_file)
data_helper_file.write(',\n')
data_helper_file.write('};\n\n')
var_name = None
if machine_model_name or machine_model_version:
var_name = 'kMachineModelInfoForEntry' + str(entry_id)
if is_exception:
var_name += 'Exception' + str(exception_id)
# define machine model info
data_helper_file.write(
'const GpuControlList::MachineModelInfo %s = {\n' % var_name)
if machine_model_name:
data_helper_file.write('base::size(%s), // machine model name size\n' %
model_name_var_name)
data_helper_file.write('%s, // machine model names\n' %
model_name_var_name)
else:
data_helper_file.write('0, // machine model name size\n')
data_helper_file.write('nullptr, // machine model names\n')
write_version(machine_model_version, 'machine model version',
data_helper_file)
data_helper_file.write('};\n\n')
# reference the machine model info
data_file.write('&%s, // machine model info\n' % var_name)
else:
data_file.write('nullptr, // machine model info\n')
def write_os_type(os_type, data_file):
assert _OS_TYPE_MAP.has_key(os_type)
data_file.write('GpuControlList::%s, // os_type\n' % _OS_TYPE_MAP[os_type])
def write_multi_gpu_category(multi_gpu_category, data_file):
map = {
'primary': 'Primary',
'secondary': 'Secondary',
'active': 'Active',
'any': 'Any',
'': 'None',
}
assert map.has_key(multi_gpu_category)
data_file.write(
'GpuControlList::kMultiGpuCategory%s, // multi_gpu_category\n' %
map[multi_gpu_category])
def write_multi_gpu_style(multi_gpu_style, data_file):
map = {
'optimus': 'Optimus',
'amd_switchable': 'AMDSwitchable',
'amd_switchable_discrete': 'AMDSwitchableDiscrete',
'amd_switchable_integrated': 'AMDSwitchableIntegrated',
'': 'None',
}
assert map.has_key(multi_gpu_style)
data_file.write(
'GpuControlList::kMultiGpuStyle%s, // multi_gpu_style\n' %
map[multi_gpu_style])
def write_gl_type(gl_type, data_file):
map = {
'gl': 'GL',
'gles': 'GLES',
'angle': 'ANGLE',
'': 'None',
}
assert map.has_key(gl_type)
data_file.write('GpuControlList::kGLType%s, // gl_type\n' % map[gl_type])
def write_supported_or_not(feature_value, feature_name, data_file):
if feature_value is None:
feature_value = 'dont_care'
map = {
'supported': 'Supported',
'unsupported': 'Unsupported',
'dont_care': 'DontCare',
}
assert map.has_key(feature_value)
data_file.write('GpuControlList::k%s, // %s\n' %
(map[feature_value], feature_name))
def write_conditions(entry_id, is_exception, exception_id, entry,
unique_symbol_id, data_file, data_helper_file,
_data_exception_file):
os_type = ''
os_version = None
vendor_id = 0
device_id = None
multi_gpu_category = ''
multi_gpu_style = ''
gpu_series_list = None
driver_vendor = ''
driver_version = None
driver_date = None
gl_renderer = ''
gl_vendor = ''
gl_extensions = ''
gl_version_string = ''
gl_type = ''
gl_version = None
pixel_shader_version = None
in_process_gpu = False
gl_reset_notification_strategy = None
direct_rendering = True
gpu_count = None
hardware_overlay = None
test_group = 0
machine_model_name = None
machine_model_version = None
exception_count = 0
# process the entry
for key in entry:
if key == 'id':
assert not is_exception
assert entry['id'] == entry_id
continue
elif key == 'description':
assert not is_exception
continue
elif key == 'features':
assert not is_exception
continue
elif key == 'disabled_extensions':
assert not is_exception
continue
elif key == 'disabled_webgl_extensions':
assert not is_exception
continue
elif key == 'comment':
continue
elif key == 'webkit_bugs':
assert not is_exception
continue
elif key == 'cr_bugs':
assert not is_exception
continue
elif key == 'os':
os_info = entry[key]
os_type = os_info['type']
if 'version' in os_info:
os_version = os_info['version']
elif key == 'vendor_id':
vendor_id = int(entry[key], 0)
elif key == 'device_id':
device_id = entry[key]
elif key == 'multi_gpu_category':
multi_gpu_category = entry[key]
elif key == 'multi_gpu_style':
multi_gpu_style = entry[key]
elif key == 'gpu_series':
gpu_series_list = entry[key]
elif key == 'driver_vendor':
driver_vendor = entry[key]
elif key == 'driver_version':
driver_version = entry[key]
elif key == 'driver_date':
driver_date = entry[key]
elif key == 'gl_vendor':
gl_vendor = entry[key]
elif key == 'gl_renderer':
gl_renderer = entry[key]
elif key == 'gl_version_string':
gl_version_string = entry[key]
elif key == 'gl_type':
gl_type = entry[key]
elif key == 'gl_version':
gl_version = entry[key]
elif key == 'gl_extensions':
gl_extensions = entry[key]
elif key == 'pixel_shader_version':
pixel_shader_version = entry[key]
elif key == 'in_process_gpu':
assert entry[key]
in_process_gpu = True
elif key == 'gl_reset_notification_strategy':
gl_reset_notification_strategy = entry[key]
elif key == 'direct_rendering':
assert not entry[key]
direct_rendering = False
elif key == 'gpu_count':
gpu_count = entry[key]
elif key == 'hardware_overlay':
hardware_overlay = entry[key]
elif key == 'test_group':
assert entry[key] > 0
test_group = entry[key]
elif key == 'machine_model_name':
machine_model_name = entry[key]
elif key == 'machine_model_version':
machine_model_version = entry[key]
elif key == 'exceptions':
assert not is_exception
assert exception_count == 0
else:
raise ValueError('unknown key: ' + key + ' in entry ' + str(entry))
# write out the entry
write_os_type(os_type, data_file)
write_version(os_version, 'os_version', data_file)
data_file.write(format(vendor_id, '#04x'))
data_file.write(', // vendor_id\n')
write_number_list(entry_id, 'uint32_t', 'DeviceIDs', device_id, is_exception,
exception_id, unique_symbol_id, data_file,
data_helper_file)
write_multi_gpu_category(multi_gpu_category, data_file)
write_multi_gpu_style(multi_gpu_style, data_file)
# group driver info
if driver_vendor != '' or driver_version != None or driver_date != None:
write_driver_info(entry_id, is_exception, exception_id, driver_vendor,
driver_version, driver_date, unique_symbol_id,
data_file, data_helper_file)
else:
data_file.write('nullptr, // driver info\n')
# group GL strings
gl_strings = None
if (gl_vendor != '' or gl_renderer != '' or gl_extensions != '' or
gl_version_string != ''):
gl_strings = [gl_vendor, gl_renderer, gl_extensions, gl_version_string]
write_gl_strings(entry_id, is_exception, exception_id, gl_strings,
unique_symbol_id, data_file, data_helper_file)
# group machine model info
write_machine_model_info(entry_id, is_exception, exception_id,
machine_model_name, machine_model_version,
data_file, data_helper_file)
write_gpu_series_list(entry_id, is_exception, exception_id, gpu_series_list,
data_file, data_helper_file)
# group a bunch of less used conditions
if (gl_version != None or pixel_shader_version != None or in_process_gpu or
gl_reset_notification_strategy != None or (not direct_rendering) or
gpu_count != None or hardware_overlay != None or test_group != 0):
write_entry_more_data(entry_id, is_exception, exception_id, gl_type,
gl_version, pixel_shader_version, in_process_gpu,
gl_reset_notification_strategy, direct_rendering,
gpu_count, hardware_overlay, test_group, data_file,
data_helper_file)
else:
data_file.write('nullptr, // more conditions\n')
def write_gpu_series_list(entry_id, is_exception, exception_id, gpu_series_list,
data_file, data_helper_file):
if gpu_series_list:
var_name = 'kGpuSeriesForEntry' + str(entry_id)
if is_exception:
var_name += 'Exception' + str(exception_id)
data_helper_file.write('const GpuSeriesType %s[%d] = {\n' %
(var_name, len(gpu_series_list)))
gpu_series_map = {
'intel_sandybridge': 'kIntelSandyBridge',
'intel_valleyview': 'kIntelValleyView',
'intel_ivybridge': 'kIntelIvyBridge',
'intel_haswell': 'kIntelHaswell',
'intel_cherryview': 'kIntelCherryView',
'intel_broadwell': 'kIntelBroadwell',
'intel_apollolake': 'kIntelApolloLake',
'intel_skylake': 'kIntelSkyLake',
'intel_geminilake': 'kIntelGeminiLake',
'intel_kabylake': 'kIntelKabyLake',
'intel_coffeelake': 'kIntelCoffeeLake',
}
for series in gpu_series_list:
assert gpu_series_map.has_key(series)
data_helper_file.write('GpuSeriesType::%s,\n' %
gpu_series_map[series])
data_helper_file.write('};\n\n')
data_file.write('base::size(%s), // gpu_series size\n' % var_name)
data_file.write('%s, // gpu_series\n' % var_name)
else:
data_file.write('0, // gpu_series size\n')
data_file.write('nullptr, // gpu_series\n')
def write_entry_more_data(entry_id, is_exception, exception_id, gl_type,
gl_version, pixel_shader_version, in_process_gpu,
gl_reset_notification_strategy, direct_rendering,
gpu_count, hardware_overlay, test_group, data_file,
data_helper_file):
# write more data
var_name = 'kMoreForEntry' + str(entry_id)
if is_exception:
var_name += 'Exception' + str(exception_id)
data_helper_file.write('const GpuControlList::More %s = {\n' % var_name)
write_gl_type(gl_type, data_helper_file)
write_version(gl_version, 'gl_version', data_helper_file)
write_version(pixel_shader_version, 'pixel_shader_version', data_helper_file)
write_boolean_value(in_process_gpu, 'in_process_gpu', data_helper_file)
if not gl_reset_notification_strategy:
gl_reset_notification_strategy = '0'
data_helper_file.write('%s, // gl_reset_notification_strategy\n' %
gl_reset_notification_strategy)
write_boolean_value(direct_rendering, 'direct_rendering', data_helper_file)
write_version(gpu_count, 'gpu_count', data_helper_file)
write_supported_or_not(hardware_overlay, 'hardware_overlay', data_helper_file)
write_integer_value(test_group, 'test_group', data_helper_file)
data_helper_file.write('};\n\n')
# reference more data in entry
data_file.write('&%s, // more data\n' % var_name)
def write_entry(entry, total_feature_set, feature_name_prefix,
unique_symbol_id, data_file, data_helper_file,
data_exception_file):
data_file.write('{\n')
# ID
entry_id = entry['id']
data_file.write('%d, // id\n' % entry_id)
data_file.write('"%s",\n' % entry['description']);
# Features
if 'features' in entry:
var_name = 'kFeatureListFor%sEntry%d' % (unique_symbol_id, entry_id)
features = entry['features']
feature_set = get_feature_set(features, total_feature_set)
data_file.write('base::size(%s), // features size\n' % var_name)
data_file.write('%s, // features\n' % var_name)
write_features(feature_set, feature_name_prefix, var_name, data_helper_file)
else:
data_file.write('0, // feature size\n')
data_file.write('nullptr, // features\n')
# Disabled extensions
write_disabled_extension_list('DisabledExtensions', entry_id,
entry.get('disabled_extensions', None),
data_file, data_helper_file)
# Disabled WebGL extensions
write_disabled_extension_list('DisabledWebGLExtensions', entry_id,
entry.get('disabled_webgl_extensions', None),
data_file, data_helper_file)
# webkit_bugs are skipped because there is only one entry that has it.
# cr_bugs
cr_bugs = None
if 'cr_bugs' in entry:
cr_bugs = entry['cr_bugs']
write_number_list(entry_id, 'uint32_t', 'CrBugs', cr_bugs, False, -1,
unique_symbol_id, data_file, data_helper_file)
# Conditions
data_file.write('{\n')
write_conditions(entry_id, False, -1, entry, unique_symbol_id,
data_file, data_helper_file, data_exception_file)
data_file.write('},\n')
# Exceptions
if 'exceptions' in entry:
exceptions = entry['exceptions']
exception_count = len(exceptions)
exception_var = 'kExceptionsForEntry' + str(entry_id)
data_exception_file.write('const GpuControlList::Conditions %s[%d] = {\n' %
(exception_var, exception_count))
for index in range(exception_count):
exception = exceptions[index]
if 'device_id' in exception and 'vendor_id' not in exception:
assert 'vendor_id' in entry
exception['vendor_id'] = entry['vendor_id']
data_exception_file.write('{\n')
write_conditions(entry_id, True, index, exception, unique_symbol_id,
data_exception_file, data_helper_file, None)
data_exception_file.write('},\n')
data_exception_file.write('};\n\n')
data_file.write('base::size(%s), // exceptions count\n' % exception_var)
data_file.write('%s, // exceptions\n' % exception_var)
else:
data_file.write('0, // exceptions count\n')
data_file.write('nullptr, // exceptions\n')
# END
data_file.write('},\n')
def format_files(generated_files):
formatter = "clang-format"
if platform.system() == "Windows":
formatter += ".bat"
for filename in generated_files:
call([formatter, "-i", "-style=chromium", filename])
def write_header_file_guard(file, filename, path, begin):
token = (path.upper().replace('/', '_') + '_' +
filename.upper().replace('.', '_') + '_')
if begin:
file.write('#ifndef %s\n#define %s\n\n' % (token, token))
else:
file.write('\n#endif // %s\n' % token)
def process_json_file(json_filepath, list_tag,
feature_header_filename, total_features, feature_tag,
output_header_filepath, output_data_filepath,
output_helper_filepath, output_exception_filepath, path,
export_tag, git_format, os_filter, unique_symbol_id):
output_header_filename = os.path.basename(output_header_filepath)
output_helper_filename = os.path.basename(output_helper_filepath)
output_exception_filename = os.path.basename(output_exception_filepath)
json_file = open(json_filepath, 'rb')
json_data = json.load(json_file)
json_file.close()
data_file = open(output_data_filepath, 'wb')
data_file.write(_LICENSE)
data_file.write(_DO_NOT_EDIT_WARNING)
data_file.write('#include "%s/%s"\n\n' % (path, output_header_filename))
data_file.write('#include "%s/%s"\n' % (path, output_helper_filename))
data_file.write('#include "%s/%s"\n\n' % (path, output_exception_filename))
data_helper_file = open(output_helper_filepath, 'wb')
data_helper_file.write(_LICENSE)
data_helper_file.write(_DO_NOT_EDIT_WARNING)
write_header_file_guard(data_helper_file, output_helper_filename, path, True)
data_helper_file.write('#include "gpu/config/%s"\n\n' %
feature_header_filename)
data_helper_file.write('namespace gpu {\n')
data_exception_file = open(output_exception_filepath, 'wb')
data_exception_file.write(_LICENSE)
data_exception_file.write(_DO_NOT_EDIT_WARNING)
write_header_file_guard(data_exception_file, output_exception_filename, path,
True)
data_exception_file.write('namespace gpu {\n')
data_file.write('namespace gpu {\n\n')
data_file.write('const GpuControlList::Entry k%sEntries[] = {\n' % list_tag)
ids = []
entry_count = 0
for index in range(len(json_data['entries'])):
entry = json_data['entries'][index]
entry_id = entry['id']
assert entry_id not in ids
ids.append(entry_id)
if 'os' in entry:
os_type = entry['os']['type']
# Check for typos in the .json data
if not _OS_TYPE_MAP.has_key(os_type):
raise Exception('Unknown OS type "%s" for entry %d' %
(os_type, entry_id))
if os_filter != None and os_type != os_filter:
continue
entry_count += 1
write_entry(entry, total_features, feature_tag, unique_symbol_id,
data_file, data_helper_file, data_exception_file)
data_file.write('};\n')
data_file.write('const size_t k%sEntryCount = %d;\n' %
(list_tag, entry_count))
data_file.write('} // namespace gpu\n')
data_file.close()
data_helper_file.write('} // namespace gpu\n')
write_header_file_guard(data_helper_file, output_helper_filename, path, False)
data_helper_file.close()
data_exception_file.write('} // namespace gpu\n')
write_header_file_guard(data_exception_file, output_exception_filename, path,
False)
data_exception_file.close()
data_header_file = open(output_header_filepath, 'wb')
data_header_file.write(_LICENSE)
data_header_file.write(_DO_NOT_EDIT_WARNING)
write_header_file_guard(data_header_file, output_header_filename, path, True)
if export_tag == 'CONTENT_EXPORT ':
data_header_file.write('#include "content/common/content_export.h"\n')
data_header_file.write('#include "gpu/config/gpu_control_list.h"\n\n')
data_header_file.write('\n')
data_header_file.write('namespace gpu {\n')
data_header_file.write('%sextern const size_t k%sEntryCount;\n' %
(export_tag, list_tag))
data_header_file.write(
'%sextern const GpuControlList::Entry k%sEntries[];\n' %
(export_tag, list_tag))
data_header_file.write('} // namespace gpu\n')
write_header_file_guard(data_header_file, output_header_filename, path, False)
data_header_file.close()
if git_format:
format_files([output_header_filepath, output_data_filepath,
output_helper_filepath, output_exception_filepath])
def process_software_rendering_list(script_dir, output_dir, os_filter):
total_features = load_software_rendering_list_features(
os.path.join(script_dir, 'gpu_feature_type.h'))
process_json_file(
os.path.join(script_dir, 'software_rendering_list.json'),
'SoftwareRenderingList',
'gpu_feature_type.h',
total_features,
'GPU_FEATURE_TYPE_',
os.path.join(output_dir, 'software_rendering_list_autogen.h'),
os.path.join(output_dir, 'software_rendering_list_autogen.cc'),
os.path.join(output_dir,
'software_rendering_list_arrays_and_structs_autogen.h'),
os.path.join(output_dir, 'software_rendering_list_exceptions_autogen.h'),
'gpu/config',
'GPU_EXPORT ',
False,
os_filter,
'Software')
def process_gpu_driver_bug_list(script_dir, output_dir, os_filter):
total_features = load_gpu_driver_bug_workarounds(
os.path.join(output_dir, 'gpu_driver_bug_workaround_autogen.h'))
process_json_file(
os.path.join(script_dir, 'gpu_driver_bug_list.json'),
'GpuDriverBugList',
'gpu_driver_bug_workaround_type.h',
total_features,
'',
os.path.join(output_dir, 'gpu_driver_bug_list_autogen.h'),
os.path.join(output_dir, 'gpu_driver_bug_list_autogen.cc'),
os.path.join(output_dir,
'gpu_driver_bug_list_arrays_and_structs_autogen.h'),
os.path.join(output_dir, 'gpu_driver_bug_list_exceptions_autogen.h'),
'gpu/config',
'GPU_EXPORT ',
False,
os_filter,
'Workarounds')
def process_gpu_control_list_testing(script_dir, output_dir):
total_features = ['test_feature_0', 'test_feature_1', 'test_feature_2']
process_json_file(
os.path.join(script_dir, 'gpu_control_list_testing.json'),
'GpuControlListTesting',
'gpu_control_list_testing_data.h',
total_features,
'',
os.path.join(output_dir, 'gpu_control_list_testing_autogen.h'),
os.path.join(output_dir, 'gpu_control_list_testing_autogen.cc'),
os.path.join(output_dir,
'gpu_control_list_testing_arrays_and_structs_autogen.h'),
os.path.join(output_dir, 'gpu_control_list_testing_exceptions_autogen.h'),
'gpu/config',
'',
True,
None,
'GpuControlTesting')
def process_gpu_data_manager_testing(script_dir, output_dir):
total_features = load_software_rendering_list_features(
os.path.join(script_dir, 'gpu_feature_type.h'))
process_json_file(
os.path.join(output_dir, 'gpu_data_manager_testing.json'),
'GpuDataManagerTesting',
'gpu_feature_type.h',
total_features,
'GPU_FEATURE_TYPE_',
os.path.join(output_dir, 'gpu_data_manager_testing_autogen.h'),
os.path.join(output_dir, 'gpu_data_manager_testing_autogen.cc'),
os.path.join(output_dir,
'gpu_data_manager_testing_arrays_and_structs_autogen.h'),
os.path.join(output_dir, 'gpu_data_manager_testing_exceptions_autogen.h'),
'content/browser/gpu',
'',
True,
None,
'GpuManagerTesting')
def write_test_entry_enums(input_json_filepath, output_entry_enums_filepath,
path, list_tag):
json_file = open(input_json_filepath, 'rb')
json_data = json.load(json_file)
json_file.close()
output_entry_enums_filename = os.path.basename(output_entry_enums_filepath)
enum_file = open(output_entry_enums_filepath, 'wb')
enum_file.write(_LICENSE)
enum_file.write(_DO_NOT_EDIT_WARNING)
write_header_file_guard(enum_file, output_entry_enums_filename, path, True)
enum_file.write('namespace gpu {\n')
enum_file.write('enum %sEntryEnum {\n' % list_tag)
entry_count = len(json_data['entries'])
for index in range(entry_count):
entry = json_data['entries'][index]
entry_id = entry['id']
description = entry['description']
assert(index + 1 == int(entry_id))
description = 'k' + description
description = description.replace('.', '_')
enum_file.write(' %s = %d,\n' % (description, index))
enum_file.write('};\n')
enum_file.write('} // namespace gpu\n')
write_header_file_guard(enum_file, output_entry_enums_filename, path, False)
enum_file.close()
format_files([output_entry_enums_filepath])
def main(argv):
parser = OptionParser()
parser.add_option("--output-dir",
help="output directory for SoftwareRenderingList and "
"GpuDriverBugList data files. "
"If unspecified, these files are not generated.")
parser.add_option("--skip-testing-data", action="store_false",
dest="generate_testing_data", default=True,
help="skip testing data generation.")
parser.add_option("--os-filter",
help="only output entries applied to the specified os.")
(options, _) = parser.parse_args(args=argv)
script_dir = os.path.dirname(os.path.realpath(__file__))
if options.output_dir != None:
process_software_rendering_list(
script_dir, options.output_dir, options.os_filter)
process_gpu_driver_bug_list(
script_dir, options.output_dir, options.os_filter)
if options.generate_testing_data:
# Testing data files are generated by calling the script manually.
process_gpu_control_list_testing(script_dir, script_dir)
write_test_entry_enums(
os.path.join(script_dir, 'gpu_control_list_testing.json'),
os.path.join(script_dir,
'gpu_control_list_testing_entry_enums_autogen.h'),
'gpu/config',
'GpuControlListTesting')
chrome_root_dir = os.path.abspath(os.path.join(script_dir, '../../'))
gpu_data_manager_dir = os.path.join(chrome_root_dir, 'content/browser/gpu')
process_gpu_data_manager_testing(script_dir, gpu_data_manager_dir)
write_test_entry_enums(
os.path.join(gpu_data_manager_dir, 'gpu_data_manager_testing.json'),
os.path.join(gpu_data_manager_dir,
'gpu_data_manager_testing_entry_enums_autogen.h'),
'content/browser/gpu',
'GpuDataManagerTesting')
if __name__ == '__main__':
sys.exit(main(sys.argv[1:]))