vk-bootstrap/script/generate_dispatch.py
Charles Giessen 83ef1035bf Add the Instance dispatch table
While not designed to be called by the user, it is common for other libraries to need
function pointers, including instance level functions.
2023-09-24 18:45:20 -06:00

398 lines
17 KiB
Python

#
# generate_dispatch.py
#
# Copyright © 2021 Cody Goodson (contact@vibimanx.com)
# Copyright © 2022 Charles Giessen (charles@lunarg.com)
#
# Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated
# documentation files (the “Software”), to deal in the Software without restriction, including without
# limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies
# of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions:
#
# The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software.
#
# THE SOFTWARE IS PROVIDED “AS IS”, WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT
# LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
# IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY,
# WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
# This file is a part of VkBootstrap
# https://github.com/charles-lunarg/vk-bootstrap
# On run, vk.xml is pulled from the master of Khronos's Vulkan-Headers repo and a VkBoostrapDispatch header
# is generated and placed in VkBoostrap's source directory
# https://raw.githubusercontent.com/KhronosGroup/Vulkan-Headers/master/registry/vk.xml
# This script makes use of xmltodict
# https://github.com/martinblech/xmltodict
# User will be prompted to install if not detected
# Command Line Arguments
# [--auto] Don't ask for input from the command line
import sys
import os
import subprocess
import copy
import codecs
import re
from string import Template
import urllib.request
import pkg_resources
# Exclusions
exclusions = [
'vkGetDeviceProcAddr',
'vkCreateDevice',
'vkDestroyDevice'
]
# Excluded extension authors - don't generate anything for these types of extensions
excluded_extension_authors = [
'NVX'
]
excluded_alias_types = [
'VkPipelineInfoKHR'
]
# Check for/install xmltodict
installed = {pkg.key for pkg in pkg_resources.working_set}
xmltodict_missing = {'xmltodict'} - installed
# Install xmltodict
if xmltodict_missing:
if '--auto' not in sys.argv:
val = input('xmltodict is required to run this script. Would you like to install? (y/n): ')
else:
val = 'y'
if val.lower() == 'y':
try:
subprocess.check_call([sys.executable, '-m', 'pip', 'install', 'xmltodict'])
except subprocess.CalledProcessError as error:
print('Failed to install xmltodict due to error:')
print(error)
if '--auto' not in sys.argv:
input('Press Enter to continue...')
sys.exit()
else:
sys.exit()
# Fetch fresh vk.xml from Khronos repo
import xmltodict
try:
response = urllib.request.urlopen('https://raw.githubusercontent.com/KhronosGroup/Vulkan-Headers/main/registry/vk.xml')
except urllib.error.URLError as error:
print('Failed to download vk.xml due to error:')
print(error.reason)
if '-q' not in sys.argv:
input('Press Enter to continue...')
sys.exit()
vk_xml_raw = response.read()
vk_xml = xmltodict.parse(vk_xml_raw,process_namespaces=True)
command_params = {'return_type': '', 'args': [], 'dispatch_type': '', 'requirements': [], 'macro_template': Template('')}
commands = {}
INSTANCE = 'instance'
DEVICE = 'device'
aliased_types = {}
types_node = vk_xml['registry']['types']['type']
for type_node in types_node:
if '@alias' in type_node:
aliased_types[type_node['@alias']] = type_node['@name']
# Gather all device functions/aliases for filtering core/extension function fetching
commands_node = vk_xml['registry']['commands']['command']
aliases = {}
for command_node in commands_node:
if 'proto' in command_node:
command_name = command_node['proto']['name']
new_command_params = copy.deepcopy(command_params)
new_command_params['return_type'] = command_node['proto']['type']
if isinstance(command_node['param'], list):
params = command_node['param']
else:
params = [command_node['param']]
new_command_params['args'] = []
for param in params:
# if the api attribute does exist, make sure it is for vulkan
if not '@api' in param or param['@api'] == 'vulkan':
new_command_params['args'].append(param)
if not command_name in exclusions:
commands[command_name] = new_command_params
commands[command_name]['is_alias'] = False
if new_command_params['args'][0]['type'] in ['VkDevice', 'VkCommandBuffer', 'VkQueue']:
commands[command_name]['dispatch_type'] = DEVICE
elif new_command_params['args'][0]['type'] in ['VkInstance', 'VkPhysicalDevice']:
commands[command_name]['dispatch_type'] = INSTANCE
elif '@alias' in command_node:
aliases[command_node['@alias']] = command_node['@name']
# Push the alias name as a device function if the alias exists in device commands
for alias_name, alias in aliases.items():
if alias in commands:
commands[alias] = copy.deepcopy(commands[alias_name])
commands[alias]['is_alias'] = True
# Add requirements for core PFN's
features_node = vk_xml['registry']['feature']
for feature_node in features_node:
if feature_node['@name'] != 'VK_VERSION_1_0':
for require_node in feature_node['require']:
for param_node in require_node:
if param_node == 'command':
if not isinstance(require_node[param_node], list):
require_node[param_node] = [require_node[param_node]]
for param in require_node[param_node]:
if param['@name'] in commands:
commands[param['@name']]['requirements'] += [[feature_node['@name']]]
# Add requirements for extension PFN's
extensions_node = vk_xml['registry']['extensions']['extension']
for extension_node in extensions_node:
extension_name = extension_node['@name']
if 'require' in extension_node.keys():
require_nodes = extension_node['require']
for require_node in require_nodes:
requirements = [extension_name]
if not isinstance(require_node, str):
if 'command' in require_node.keys():
if '@feature' in require_node.keys():
requirements.append(require_node['@feature'])
if '@extension' in require_node.keys():
requirements.extend(require_node['@extension'].split(','))
if not isinstance(require_node['command'], list):
require_node['command'] = [require_node['command']]
for command_node in require_node['command']:
if command_node['@name'] in commands:
if '@author' in extension_node and extension_node['@author'] in excluded_extension_authors:
commands.pop(command_node['@name'])
else:
commands[command_node['@name']]['requirements'] += [requirements]
elif require_node == 'command':
if not isinstance(require_nodes['command'], list):
require_nodes['command'] = [require_nodes['command']]
for command_node in require_nodes['command']:
if command_node['@name'] in commands:
if '@author' in extension_node and extension_node['@author'] in excluded_extension_authors:
commands.pop(command_node['@name'])
else:
commands[command_node['@name']]['requirements'] += [requirements]
# Generate macro templates
for command_name, command in commands.items():
macro = ''
requirements_collection = commands[command_name]['requirements']
collection_count = len(requirements_collection)
if collection_count > 0:
macro = '#if '
while collection_count > 0:
for requirements in requirements_collection:
requirements_count = len(requirements)
macro += '('
for requirement in requirements:
macro += f'defined({requirement})'
requirements_count -= 1
if requirements_count > 0:
macro += ' && '
macro += ')'
if collection_count > 0:
collection_count -= 1
if collection_count > 0:
macro += ' || '
macro += '\n$body#endif\n'
else:
macro = '$body'
commands[command_name]['macro_template'] = Template(macro)
# License
dispatch_license = '''/*
* Copyright © 2021 Cody Goodson (contact@vibimanx.com)
* Copyright © 2022 Charles Giessen (charles@lunarg.com)
*
* Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated
* documentation files (the “Software”), to deal in the Software without restriction, including without
* limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies
* of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED “AS IS”, WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT
* LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
* IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY,
* WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
*
*/
'''
# Info
info = '// This file is a part of VkBootstrap\n'
info += '// https://github.com/charles-lunarg/vk-bootstrap\n\n'
# # Content
head = '\n#pragma once\n\n#include <vulkan/vulkan.h>\n\n'
head += 'namespace vkb {\n\n'
def create_dispatch_table(dispatch_type):
out = ''
if dispatch_type == INSTANCE:
out += 'struct InstanceDispatchTable {\n'
out += '\tInstanceDispatchTable() = default;\n'
out += '\tInstanceDispatchTable(VkInstance instance, PFN_vkGetInstanceProcAddr procAddr) : instance(instance), populated(true) {\n'
else:
out += 'struct DispatchTable {\n'
out += '\tDispatchTable() = default;\n'
out += '\tDispatchTable(VkDevice device, PFN_vkGetDeviceProcAddr procAddr) : device(device), populated(true) {\n'
proxy_section = ''
fp_decl_section = ''
pfn_load_section = ''
proxy_template = Template('\t$return_type $proxy_name($args_full) const noexcept {\n\t\t$opt_return$fp_name($args_names);\n\t}\n')
fp_decl_template = Template('\t$pfn_name $fp_name = nullptr;\n')
if dispatch_type == INSTANCE:
pfn_load_template = Template('\t\t$fp_name = reinterpret_cast<$pfn_name>(procAddr(instance, "$command_name"));\n')
else:
pfn_load_template = Template('\t\t$fp_name = reinterpret_cast<$pfn_name>(procAddr(device, "$command_name"));\n')
for command_name, command in commands.items():
if command['dispatch_type'] != dispatch_type:
continue
params = commands[command_name]
# easy stuff out of the way
return_type = params['return_type']
if return_type != 'void':
opt_return = 'return '
else:
opt_return = ''
proxy_name = command_name[2].lower() + command_name[3:]
fp_name = 'fp_' + command_name
pfn_name = 'PFN_' + command_name
# Now for args
arg_template = Template('$front_mods$arg_type$back_mods$arg_name$array')
args_full = ''
args_names = ''
args_count = len(params['args'])
i = args_count
for arg in params['args']:
front_mods = ''
back_mods = ' '
array = ''
arg_type = arg['type']
arg_name = arg['name']
if '#text' in arg:
text = arg['#text']
text = text.replace(' ', '')
array_index = text.find('[')
if array_index != -1:
array = text[array_index:]
text = text[0:array_index]
if text == '*':
front_mods = ''
back_mods = '* '
elif text == '**':
front_mods = ''
back_mods = '** '
elif text == 'struct**':
front_mods = 'struct '
back_mods = '** '
elif text == 'const*':
front_mods = 'const '
back_mods = '* '
elif text == 'const**':
front_mods = 'const '
back_mods = '** '
elif text == 'const*const*':
front_mods = 'const '
back_mods = '* const* '
elif text == 'conststruct*':
front_mods = 'const struct '
back_mods = '* '
if i == args_count and (dispatch_type == INSTANCE and arg_type == 'VkInstance') or (dispatch_type == DEVICE and arg_type == 'VkDevice'):
args_names += arg_name
if i > 0:
i -= 1
if i > 0:
args_names += ', '
else:
if arg_type in aliased_types and arg_type not in excluded_alias_types:
arg_type = aliased_types[arg_type]
args_full += arg_template.substitute(front_mods = front_mods, arg_type = arg_type, back_mods = back_mods, arg_name = arg_name, array = array)
args_names += arg_name
if i > 0:
i -= 1
if i > 0:
args_full += ', '
args_names += ', '
proxy_body = proxy_template.substitute(return_type = return_type, proxy_name = proxy_name, args_full = args_full, opt_return = opt_return, fp_name = fp_name, args_names = args_names)
fp_decl_body = fp_decl_template.substitute(pfn_name = pfn_name, fp_name = fp_name)
pfn_load_body = pfn_load_template.substitute(fp_name = fp_name, pfn_name = pfn_name, command_name = command_name)
macro_template = params['macro_template']
proxy_section += macro_template.substitute(body=proxy_body)
fp_decl_section += macro_template.substitute(body=fp_decl_body)
pfn_load_section += macro_template.substitute(body=pfn_load_body)
out += pfn_load_section
out += '\t}\n'
out += proxy_section
out += fp_decl_section
out += '\tbool is_populated() const { return populated; }\n'
if dispatch_type == INSTANCE:
out += '\tVkInstance instance = VK_NULL_HANDLE;\n'
else:
out += '\tVkDevice device = VK_NULL_HANDLE;\n'
out += 'private:\n'
out += '\t bool populated = false;\n'
out += '};\n\n'
return out
tail = '} // namespace vkb'
# find the version used to generate the code
for type_node in types_node:
if '@api' in type_node and type_node['@api'] == 'vulkan' and 'name' in type_node and type_node['name'] == 'VK_HEADER_VERSION_COMPLETE':
complete_header_version = type_node['#text']
if '@api' in type_node and type_node['@api'] == 'vulkan' and 'name' in type_node and type_node['name'] == 'VK_HEADER_VERSION':
vk_header_version = type_node['#text']
find_number_fields = re.compile('[0-9]+')
version_fields = find_number_fields.findall(complete_header_version)
header_version_field = find_number_fields.findall(vk_header_version)[0]
version_tag = f'{version_fields[1]}.{version_fields[2]}.{header_version_field}'
path_to_src = os.path.join('src')
if not os.path.exists(path_to_src):
path_to_src = os.path.join('..', 'src')
if not os.path.exists(path_to_src):
print('Could not find source folder. Is the current directory wrong?')
sys.exit()
header_file = codecs.open(os.path.join(path_to_src,'VkBootstrapDispatch.h'), 'w', 'utf-8')
header_file.write(dispatch_license + info + head + create_dispatch_table('instance') + create_dispatch_table('device') + tail)
header_file.close()
path_to_gen = os.path.join('gen')
if not os.path.exists(path_to_gen):
path_to_gen = os.path.join('..', 'gen')
if not os.path.exists(path_to_gen):
print('Could not find gen folder. Is the current directory wrong?')
sys.exit()
# Generate a CMake file that contains the header version used.
cmake_version_file = codecs.open(os.path.join(path_to_gen,'CurrentBuildVulkanVersion.cmake'), 'w', 'utf-8')
cmake_version_file.write(f'set(VK_BOOTSTRAP_SOURCE_HEADER_VERSION {version_tag})\n')
cmake_version_file.write(f'set(VK_BOOTSTRAP_SOURCE_HEADER_VERSION_GIT_TAG v{version_tag})\n')
cmake_version_file.close()
print('Generation finished.')