generator/dawn_gpu_info_generator.py - dawn - Git at Google

 #!/usr/bin/env python3
 # Copyright 2022 The Dawn Authors
 #
 # 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.

 import json, os, sys
 from collections import namedtuple

 from generator_lib import Generator, run_generator, FileRender


 def parse_mask(mask):
     if mask:
         return int(mask, 0)
     return 0xffffffff


 class Name:
     def __init__(self, name):
         self.name = name
         self.chunks = name.split(' ')

     def get(self):
         return self.name

     def CamelChunk(self, chunk):
         return chunk[0].upper() + chunk[1:]

     def canonical_case(self):
         return (' '.join(self.chunks)).lower()

     def concatcase(self):
         return ''.join(self.chunks)

     def camelCase(self):
         return self.chunks[0] + ''.join(
             [self.CamelChunk(chunk) for chunk in self.chunks[1:]])

     def CamelCase(self):
         return ''.join([self.CamelChunk(chunk) for chunk in self.chunks])

     def SNAKE_CASE(self):
         return '_'.join([chunk.upper() for chunk in self.chunks])

     def snake_case(self):
         return '_'.join(self.chunks)

     def js_enum_case(self):
         result = self.chunks[0].lower()
         for chunk in self.chunks[1:]:
             if not result[-1].isdigit():
                 result += '-'
             result += chunk.lower()
         return result


 class Architecture:
     def __init__(self, name, json_data, mask):
         self.name = Name(name)
         self.devices = []

         mask_num = parse_mask(mask)

         for device in json_data:
             device_num = int(device, 0)

             # Don't allow duplicate entries
             assert device not in self.devices, 'Architecture "{}" contained duplicate deviceID "{}"'.format(
                 self.name.get(), device)
             # Ensure that all device IDs don't contain bits outside the mask
             assert device_num & mask_num == device_num, 'Architecture "{}" contained deviceID "{}" which doesn\'t match the given mask of "{}"'.format(
                 self.name.get(), device, mask)

             self.devices.append(device)


 class DeviceSet:
     def __init__(self, json_data):
         self.mask = None
         self.internal = False

         if 'mask' in json_data:
             self.mask = json_data['mask']

         if 'internal' in json_data:
             self.internal = json_data['internal']

         self.architectures = []
         if 'architecture' in json_data:
             for (arch_name, arch_data) in json_data['architecture'].items():
                 # Skip any entries that start with an underscore. Used for comments.
                 if arch_name[0] == '_':
                     continue

                 architecture = Architecture(arch_name, arch_data, self.mask)

                 # Validate that deviceIDs are only allowed to be in one Architecture at a time
                 for other_architecture in self.architectures:
                     for device in architecture.devices:
                         assert device not in other_architecture.devices, 'Architectures "{}" and "{}" both contain deviceID "{}"'.format(
                             architecture.name.get(),
                             other_architecture.name.get(), device)

                 self.architectures.append(architecture)

     def validate_devices(self, other_devices, other_mask):
         combined_mask = parse_mask(self.mask) & parse_mask(other_mask)

         for other_device in other_devices:
             other_device_num = int(other_device, 0) & combined_mask
             for architecture in self.architectures:
                 for device in architecture.devices:
                     device_num = int(device, 0) & combined_mask
                     assert device_num != other_device_num, 'DeviceID "{}" & mask "{}" conflicts with deviceId "{}" & mask "{}" in architecture "{}"'.format(
                         other_device, other_mask, device, self.mask,
                         architecture.name.get())

     def maskDeviceId(self):
         if not self.mask:
             return ''
         return ' & ' + self.mask


 class Vendor:
     def __init__(self, name, json_data):
         self.name = Name(name)
         self.id = json_data['id']

         architecture_dict = {}
         internal_architecture_dict = {}

         self.device_sets = []
         if 'devices' in json_data:
             for device_data in json_data['devices']:
                 device_set = DeviceSet(device_data)

                 for architecture in device_set.architectures:

                     # Validate that deviceIDs are unique across device sets
                     for other_device_set in self.device_sets:
                         # Only validate device IDs between internal and public device sets.
                         if other_device_set.internal == device_set.internal:
                             assert device_set.mask != other_device_set.mask, 'Vendor "{}" contained duplicate device masks "{}"'.format(
                                 self.name.get(), device_set.mask)
                             other_device_set.validate_devices(
                                 architecture.devices, device_set.mask)

                         # Validate that architecture names are unique between internal and public device sets.
                         else:
                             for other_architecture in other_device_set.architectures:
                                 assert architecture.name.canonical_case(
                                 ) != other_architecture.name.canonical_case(
                                 ), '"{}" is defined as both an internal and public architecture'.format(
                                     architecture.name.get())

                     if device_set.internal:
                         internal_architecture_dict[
                             architecture.name.canonical_case(
                             )] = architecture.name
                     else:
                         architecture_dict[architecture.name.canonical_case(
                         )] = architecture.name

                 self.device_sets.append(device_set)

         # List of unique architecture names under this vendor
         self.architecture_names = architecture_dict.values()
         self.internal_architecture_names = internal_architecture_dict.values()


 def parse_json(json):
     vendors = []
     internal_architecture_count = 0

     for (vendor_name, vendor_data) in json['vendors'].items():
         # Skip vendors that have a leading underscore. Those are intended to be "comments".
         if vendor_name[0] == '_':
             continue

         vendor = Vendor(vendor_name, vendor_data)
         vendors.append(vendor)
         internal_architecture_count += len(vendor.internal_architecture_names)

     return {
         'vendors': vendors,
         'has_internal': internal_architecture_count > 0
     }


 class DawnGpuInfoGenerator(Generator):
     def get_description(self):
         return "Generates GPU Info Dawn code."

     def add_commandline_arguments(self, parser):
         parser.add_argument('--gpu-info-json',
                             required=True,
                             type=str,
                             help='The GPU Info JSON definition to use.')

     def get_dependencies(self, args):
         return [os.path.abspath(args.gpu_info_json)]

     def get_file_renders(self, args):
         with open(args.gpu_info_json) as f:
             loaded_json = json.loads(f.read())

         params = parse_json(loaded_json)

         return [
             FileRender("dawn/common/GPUInfo.h",
                        "src/dawn/common/GPUInfo_autogen.h", [params]),
             FileRender("dawn/common/GPUInfo.cpp",
                        "src/dawn/common/GPUInfo_autogen.cpp", [params]),
         ]


 if __name__ == "__main__":
     sys.exit(run_generator(DawnGpuInfoGenerator()))
	#!/usr/bin/env python3
	# Copyright 2022 The Dawn Authors
	#
	# 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.

	import json, os, sys
	from collections import namedtuple

	from generator_lib import Generator, run_generator, FileRender


	def parse_mask(mask):
	if mask:
	return int(mask, 0)
	return 0xffffffff


	class Name:
	def __init__(self, name):
	self.name = name
	self.chunks = name.split(' ')

	def get(self):
	return self.name

	def CamelChunk(self, chunk):
	return chunk[0].upper() + chunk[1:]

	def canonical_case(self):
	return (' '.join(self.chunks)).lower()

	def concatcase(self):
	return ''.join(self.chunks)

	def camelCase(self):
	return self.chunks[0] + ''.join(
	[self.CamelChunk(chunk) for chunk in self.chunks[1:]])

	def CamelCase(self):
	return ''.join([self.CamelChunk(chunk) for chunk in self.chunks])

	def SNAKE_CASE(self):
	return '_'.join([chunk.upper() for chunk in self.chunks])

	def snake_case(self):
	return '_'.join(self.chunks)

	def js_enum_case(self):
	result = self.chunks[0].lower()
	for chunk in self.chunks[1:]:
	if not result[-1].isdigit():
	result += '-'
	result += chunk.lower()
	return result


	class Architecture:
	def __init__(self, name, json_data, mask):
	self.name = Name(name)
	self.devices = []

	mask_num = parse_mask(mask)

	for device in json_data:
	device_num = int(device, 0)

	# Don't allow duplicate entries
	assert device not in self.devices, 'Architecture "{}" contained duplicate deviceID "{}"'.format(
	self.name.get(), device)
	# Ensure that all device IDs don't contain bits outside the mask
	assert device_num & mask_num == device_num, 'Architecture "{}" contained deviceID "{}" which doesn\'t match the given mask of "{}"'.format(
	self.name.get(), device, mask)

	self.devices.append(device)


	class DeviceSet:
	def __init__(self, json_data):
	self.mask = None
	self.internal = False

	if 'mask' in json_data:
	self.mask = json_data['mask']

	if 'internal' in json_data:
	self.internal = json_data['internal']

	self.architectures = []
	if 'architecture' in json_data:
	for (arch_name, arch_data) in json_data['architecture'].items():
	# Skip any entries that start with an underscore. Used for comments.
	if arch_name[0] == '_':
	continue

	architecture = Architecture(arch_name, arch_data, self.mask)

	# Validate that deviceIDs are only allowed to be in one Architecture at a time
	for other_architecture in self.architectures:
	for device in architecture.devices:
	assert device not in other_architecture.devices, 'Architectures "{}" and "{}" both contain deviceID "{}"'.format(
	architecture.name.get(),
	other_architecture.name.get(), device)

	self.architectures.append(architecture)

	def validate_devices(self, other_devices, other_mask):
	combined_mask = parse_mask(self.mask) & parse_mask(other_mask)

	for other_device in other_devices:
	other_device_num = int(other_device, 0) & combined_mask
	for architecture in self.architectures:
	for device in architecture.devices:
	device_num = int(device, 0) & combined_mask
	assert device_num != other_device_num, 'DeviceID "{}" & mask "{}" conflicts with deviceId "{}" & mask "{}" in architecture "{}"'.format(
	other_device, other_mask, device, self.mask,
	architecture.name.get())

	def maskDeviceId(self):
	if not self.mask:
	return ''
	return ' & ' + self.mask


	class Vendor:
	def __init__(self, name, json_data):
	self.name = Name(name)
	self.id = json_data['id']

	architecture_dict = {}
	internal_architecture_dict = {}

	self.device_sets = []
	if 'devices' in json_data:
	for device_data in json_data['devices']:
	device_set = DeviceSet(device_data)

	for architecture in device_set.architectures:

	# Validate that deviceIDs are unique across device sets
	for other_device_set in self.device_sets:
	# Only validate device IDs between internal and public device sets.
	if other_device_set.internal == device_set.internal:
	assert device_set.mask != other_device_set.mask, 'Vendor "{}" contained duplicate device masks "{}"'.format(
	self.name.get(), device_set.mask)
	other_device_set.validate_devices(
	architecture.devices, device_set.mask)

	# Validate that architecture names are unique between internal and public device sets.
	else:
	for other_architecture in other_device_set.architectures:
	assert architecture.name.canonical_case(
	) != other_architecture.name.canonical_case(
	), '"{}" is defined as both an internal and public architecture'.format(
	architecture.name.get())

	if device_set.internal:
	internal_architecture_dict[
	architecture.name.canonical_case(
	)] = architecture.name
	else:
	architecture_dict[architecture.name.canonical_case(
	)] = architecture.name

	self.device_sets.append(device_set)

	# List of unique architecture names under this vendor
	self.architecture_names = architecture_dict.values()
	self.internal_architecture_names = internal_architecture_dict.values()


	def parse_json(json):
	vendors = []
	internal_architecture_count = 0

	for (vendor_name, vendor_data) in json['vendors'].items():
	# Skip vendors that have a leading underscore. Those are intended to be "comments".
	if vendor_name[0] == '_':
	continue

	vendor = Vendor(vendor_name, vendor_data)
	vendors.append(vendor)
	internal_architecture_count += len(vendor.internal_architecture_names)

	return {
	'vendors': vendors,
	'has_internal': internal_architecture_count > 0
	}


	class DawnGpuInfoGenerator(Generator):
	def get_description(self):
	return "Generates GPU Info Dawn code."

	def add_commandline_arguments(self, parser):
	parser.add_argument('--gpu-info-json',
	required=True,
	type=str,
	help='The GPU Info JSON definition to use.')

	def get_dependencies(self, args):
	return [os.path.abspath(args.gpu_info_json)]

	def get_file_renders(self, args):
	with open(args.gpu_info_json) as f:
	loaded_json = json.loads(f.read())

	params = parse_json(loaded_json)

	return [
	FileRender("dawn/common/GPUInfo.h",
	"src/dawn/common/GPUInfo_autogen.h", [params]),
	FileRender("dawn/common/GPUInfo.cpp",
	"src/dawn/common/GPUInfo_autogen.cpp", [params]),
	]


	if __name__ == "__main__":
	sys.exit(run_generator(DawnGpuInfoGenerator()))