vk-bootstrap/script/generate_dispatch.py
Charles Giessen 6ab5669064 Workaround breaking API change in vkGetLatencyTimingsNV
The API of vkGetLatencyTimingsNV changed, which causes compilation failure due to
the generated code using the newer API while the Vulkan-Headers may be for the old
API.

The fix is to just disable the function if the headers are too old. While this does
limit the usage, because its from a new extension, there shouldn't be a huge impact.
2023-11-29 14:20:10 -07:00

417 lines
18 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'
def get_macro_guard(reqs_collection, command_name):
guard = ''
count = len(reqs_collection)
if count > 0:
while count > 0:
for reqs in reqs_collection:
reqs_count = len(reqs)
guard += '('
for req in reqs:
guard += f'defined({req})'
reqs_count -= 1
if reqs_count > 0:
guard += ' && '
guard += ')'
if count > 0:
count -= 1
if count > 0:
guard += ' || '
# API breaking change causes this function to fail compilation
if command_name == 'vkGetLatencyTimingsNV':
guard = f'({guard}) && VK_HEADER_VERSION >= 271'
return guard
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():
if len(commands[command_name]['requirements']) > 0:
macro_guard = get_macro_guard(commands[command_name]['requirements'], command_name)
macro = f'#if {macro_guard}\n$body#endif\n'
else:
macro = '$body'
commands[command_name]['macro_template'] = Template(macro)
for command_name, command in commands.items():
if len(commands[command_name]['requirements']) > 0:
macro_guard = get_macro_guard(commands[command_name]['requirements'], command_name)
pfn_decl_macro = f'#if {macro_guard}\n$body#else\n void * fp_{command_name}{{}};\n#endif\n'
else:
pfn_decl_macro = '$body'
commands[command_name]['pfn_decl_macro_template'] = Template(pfn_decl_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 += ' InstanceDispatchTable() = default;\n'
out += ' InstanceDispatchTable(VkInstance instance, PFN_vkGetInstanceProcAddr procAddr) : instance(instance), populated(true) {\n'
else:
out += 'struct DispatchTable {\n'
out += ' DispatchTable() = default;\n'
out += ' DispatchTable(VkDevice device, PFN_vkGetDeviceProcAddr procAddr) : device(device), populated(true) {\n'
proxy_section = ''
fp_decl_section = ''
pfn_load_section = ''
proxy_template = Template(' $return_type $proxy_name($args_full) const noexcept {\n $opt_return$fp_name($args_names);\n }\n')
fp_decl_template = Template(' $pfn_name $fp_name = nullptr;\n')
if dispatch_type == INSTANCE:
pfn_load_template = Template(' $fp_name = reinterpret_cast<$pfn_name>(procAddr(instance, "$command_name"));\n')
else:
pfn_load_template = Template(' $fp_name = reinterpret_cast<$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 == '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']
pfn_decl_macro_template = params['pfn_decl_macro_template']
proxy_section += macro_template.substitute(body=proxy_body)
fp_decl_section += pfn_decl_macro_template.substitute(body=fp_decl_body)
pfn_load_section += macro_template.substitute(body=pfn_load_body)
out += pfn_load_section
out += ' }\n'
out += proxy_section
out += fp_decl_section
out += ' bool is_populated() const { return populated; }\n'
if dispatch_type == INSTANCE:
out += ' VkInstance instance = VK_NULL_HANDLE;\n'
else:
out += ' VkDevice device = VK_NULL_HANDLE;\n'
out += 'private:\n'
out += ' 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.')