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android / toolchain / prebuilts / ndk / r13 / refs/heads/main / . / sources / third_party / vulkan / src / vk-layer-generate.py
blob: 015826f4c7b77c8feffeef5e57b0522e0faa162d [file] [log] [blame]
#!/usr/bin/env python3
#
# VK
#
# Copyright (c) 2015-2016 The Khronos Group Inc.
# Copyright (c) 2015-2016 Valve Corporation
# Copyright (c) 2015-2016 LunarG, Inc.
# Copyright (c) 2015-2016 Google Inc.
#
# 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.
#
# Author: Tobin Ehlis <tobine@google.com>
# Author: Courtney Goeltzenleuchter <courtneygo@google.com>
# Author: Jon Ashburn <jon@lunarg.com>
# Author: Mark Lobodzinski <mark@lunarg.com>
# Author: Mike Stroyan <stroyan@google.com>
# Author: Tony Barbour <tony@LunarG.com>
# Author: Chia-I Wu <olv@google.com>
# Author: Gwan-gyeong Mun <kk.moon@samsung.com>
import sys
import os
import re
import vulkan
import vk_helper
from source_line_info import sourcelineinfo
from collections import defaultdict
def proto_is_global(proto):
global_function_names = [
"CreateInstance",
"EnumerateInstanceLayerProperties",
"EnumerateInstanceExtensionProperties",
"EnumerateDeviceLayerProperties",
"EnumerateDeviceExtensionProperties",
"CreateXcbSurfaceKHR",
"GetPhysicalDeviceXcbPresentationSupportKHR",
"CreateXlibSurfaceKHR",
"GetPhysicalDeviceXlibPresentationSupportKHR",
"CreateWaylandSurfaceKHR",
"GetPhysicalDeviceWaylandPresentationSupportKHR",
"CreateMirSurfaceKHR",
"GetPhysicalDeviceMirPresentationSupportKHR",
"CreateAndroidSurfaceKHR",
"CreateWin32SurfaceKHR",
"GetPhysicalDeviceWin32PresentationSupportKHR",
"GetPhysicalDeviceDisplayPropertiesKHR",
"GetPhysicalDeviceDisplayPlanePropertiesKHR",
"GetDisplayPlaneSupportedDisplaysKHR",
"GetDisplayModePropertiesKHR",
"CreateDisplayModeKHR",
"GetDisplayPlaneCapabilitiesKHR",
"CreateDisplayPlaneSurfaceKHR"
]
if proto.params[0].ty == "VkInstance" or proto.params[0].ty == "VkPhysicalDevice" or proto.name in global_function_names:
return True
else:
return False
def wsi_name(ext_name):
wsi_prefix = ""
if 'Xcb' in ext_name:
wsi_prefix = 'XCB'
elif 'Xlib' in ext_name:
wsi_prefix = 'XLIB'
elif 'Win32' in ext_name:
wsi_prefix = 'WIN32'
elif 'Mir' in ext_name:
wsi_prefix = 'MIR'
elif 'Wayland' in ext_name:
wsi_prefix = 'WAYLAND'
elif 'Android' in ext_name:
wsi_prefix = 'ANDROID'
else:
wsi_prefix = ''
return wsi_prefix
def wsi_ifdef(ext_name):
wsi_prefix = wsi_name(ext_name)
if not wsi_prefix:
return ''
else:
return "#ifdef VK_USE_PLATFORM_%s_KHR" % wsi_prefix
def wsi_endif(ext_name):
wsi_prefix = wsi_name(ext_name)
if not wsi_prefix:
return ''
else:
return "#endif // VK_USE_PLATFORM_%s_KHR" % wsi_prefix
def generate_get_proc_addr_check(name):
return " if (!%s || %s[0] != 'v' || %s[1] != 'k')\n" \
" return NULL;" % ((name,) * 3)
def ucc_to_U_C_C(CamelCase):
temp = re.sub('(.)([A-Z][a-z]+)', r'\1_\2', CamelCase)
return re.sub('([a-z0-9])([A-Z])', r'\1_\2', temp).upper()
# Parse complete struct chain and add any new ndo_uses to the dict
def gather_object_uses_in_struct(obj_list, struct_type):
struct_uses = {}
if vk_helper.typedef_rev_dict[struct_type] in vk_helper.struct_dict:
struct_type = vk_helper.typedef_rev_dict[struct_type]
# Parse elements of this struct param to identify objects and/or arrays of objects
for m in sorted(vk_helper.struct_dict[struct_type]):
array_len = "%s" % (str(vk_helper.struct_dict[struct_type][m]['array_size']))
base_type = vk_helper.struct_dict[struct_type][m]['type']
mem_name = vk_helper.struct_dict[struct_type][m]['name']
if array_len != '0':
mem_name = "%s[%s]" % (mem_name, array_len)
if base_type in obj_list:
#if array_len not in ndo_uses:
# struct_uses[array_len] = []
#struct_uses[array_len].append("%s%s,%s" % (name_prefix, struct_name, base_type))
struct_uses[mem_name] = base_type
elif vk_helper.is_type(base_type, 'struct'):
sub_uses = gather_object_uses_in_struct(obj_list, base_type)
if len(sub_uses) > 0:
struct_uses[mem_name] = sub_uses
return struct_uses
# For the given list of object types, Parse the given list of params
# and return dict of params that use one of the obj_list types
# Format of the dict is that terminal elements have <name>,<type>
# non-terminal elements will have <name>[<array_size>]
# TODO : This analysis could be done up-front at vk_helper time
def get_object_uses(obj_list, params):
obj_uses = {}
local_decls = {}
param_count = 'NONE' # track params that give array sizes
for p in params:
base_type = p.ty.replace('const ', '').strip('*')
array_len = ''
is_ptr = False
if 'count' in p.name.lower():
param_count = p.name
ptr_txt = ''
if '*' in p.ty:
is_ptr = True
ptr_txt = '*'
if base_type in obj_list:
if is_ptr and 'const' in p.ty and param_count != 'NONE':
array_len = "[%s]" % param_count
# Non-arrays we can overwrite in place, but need local decl for arrays
local_decls[p.name] = '%s%s' % (base_type, ptr_txt)
#if array_len not in obj_uses:
# obj_uses[array_len] = {}
# obj_uses[array_len][p.name] = base_type
obj_uses["%s%s" % (p.name, array_len)] = base_type
elif vk_helper.is_type(base_type, 'struct'):
struct_name = p.name
if 'NONE' != param_count:
struct_name = "%s[%s]" % (struct_name, param_count)
struct_uses = gather_object_uses_in_struct(obj_list, base_type)
if len(struct_uses) > 0:
obj_uses[struct_name] = struct_uses
# This is a top-level struct w/ uses below it, so need local decl
local_decls['%s' % (p.name)] = '%s%s' % (base_type, ptr_txt)
return (obj_uses, local_decls)
class Subcommand(object):
def __init__(self, outfile):
self.outfile = outfile
self.headers = vulkan.headers
self.protos = vulkan.protos
self.no_addr = False
self.layer_name = ""
self.lineinfo = sourcelineinfo()
self.wsi = sys.argv[1]
def run(self):
if self.outfile:
with open(self.outfile, "w") as outfile:
outfile.write(self.generate())
else:
print(self.generate())
def generate(self):
copyright = self.generate_copyright()
header = self.generate_header()
body = self.generate_body()
footer = self.generate_footer()
contents = []
if copyright:
contents.append(copyright)
if header:
contents.append(header)
if body:
contents.append(body)
if footer:
contents.append(footer)
return "\n\n".join(contents)
def generate_copyright(self):
return """/* THIS FILE IS GENERATED. DO NOT EDIT. */
/*
* Copyright (c) 2015-2016 The Khronos Group Inc.
* Copyright (c) 2015-2016 Valve Corporation
* Copyright (c) 2015-2016 LunarG, Inc.
* Copyright (c) 2015-2016 Google, Inc.
*
* 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.
*
* Author: Tobin Ehlis <tobine@google.com>
* Author: Courtney Goeltzenleuchter <courtneygo@google.com>
* Author: Jon Ashburn <jon@lunarg.com>
* Author: Mark Lobodzinski <mark@lunarg.com>
* Author: Mike Stroyan <stroyan@google.com>
* Author: Tony Barbour <tony@LunarG.com>
*/"""
def generate_header(self):
return "\n".join(["#include <" + h + ">" for h in self.headers])
def generate_body(self):
pass
def generate_footer(self):
pass
# Return set of printf '%' qualifier and input to that qualifier
def _get_printf_params(self, vk_type, name, output_param, cpp=False):
# TODO : Need ENUM and STRUCT checks here
if vk_helper.is_type(vk_type, 'enum'):#"_TYPE" in vk_type: # TODO : This should be generic ENUM check
return ("%s", "string_%s(%s)" % (vk_type.replace('const ', '').strip('*'), name))
if "char*" == vk_type:
return ("%s", name)
if "uint64" in vk_type:
if '*' in vk_type:
return ("%lu", "*%s" % name)
return ("%lu", name)
if vk_type.strip('*') in vulkan.object_non_dispatch_list:
if '*' in vk_type:
return ("%lu", "%s" % name)
return ("%lu", "%s" % name)
if "size" in vk_type:
if '*' in vk_type:
return ("%lu", "(unsigned long)*%s" % name)
return ("%lu", "(unsigned long)%s" % name)
if "float" in vk_type:
if '[' in vk_type: # handle array, current hard-coded to 4 (TODO: Make this dynamic)
if cpp:
return ("[%i, %i, %i, %i]", '"[" << %s[0] << "," << %s[1] << "," << %s[2] << "," << %s[3] << "]"' % (name, name, name, name))
return ("[%f, %f, %f, %f]", "%s[0], %s[1], %s[2], %s[3]" % (name, name, name, name))
return ("%f", name)
if "bool" in vk_type.lower() or 'xcb_randr_crtc_t' in vk_type:
return ("%u", name)
if True in [t in vk_type.lower() for t in ["int", "flags", "mask", "xcb_window_t"]]:
if '[' in vk_type: # handle array, current hard-coded to 4 (TODO: Make this dynamic)
if cpp:
return ("[%i, %i, %i, %i]", "%s[0] << %s[1] << %s[2] << %s[3]" % (name, name, name, name))
return ("[%i, %i, %i, %i]", "%s[0], %s[1], %s[2], %s[3]" % (name, name, name, name))
if '*' in vk_type:
if 'pUserData' == name:
return ("%i", "((pUserData == 0) ? 0 : *(pUserData))")
if 'const' in vk_type.lower():
return ("0x%p", "(void*)(%s)" % name)
return ("%i", "*(%s)" % name)
return ("%i", name)
# TODO : This is special-cased as there's only one "format" param currently and it's nice to expand it
if "VkFormat" == vk_type:
if cpp:
return ("0x%p", "&%s" % name)
return ("{%s.channelFormat = %%s, %s.numericFormat = %%s}" % (name, name), "string_VK_COLOR_COMPONENT_FORMAT(%s.channelFormat), string_VK_FORMAT_RANGE_SIZE(%s.numericFormat)" % (name, name))
if output_param:
return ("0x%p", "(void*)*%s" % name)
if vk_helper.is_type(vk_type, 'struct') and '*' not in vk_type:
return ("0x%p", "(void*)(&%s)" % name)
return ("0x%p", "(void*)(%s)" % name)
def _gen_create_msg_callback(self):
r_body = []
r_body.append('%s' % self.lineinfo.get())
r_body.append('VKAPI_ATTR VkResult VKAPI_CALL CreateDebugReportCallbackEXT(')
r_body.append(' VkInstance instance,')
r_body.append(' const VkDebugReportCallbackCreateInfoEXT* pCreateInfo,')
r_body.append(' const VkAllocationCallbacks* pAllocator,')
r_body.append(' VkDebugReportCallbackEXT* pCallback)')
r_body.append('{')
# Switch to this code section for the new per-instance storage and debug callbacks
if self.layer_name in ['unique_objects']:
r_body.append(' VkLayerInstanceDispatchTable *pInstanceTable = get_dispatch_table(%s_instance_table_map, instance);' % self.layer_name )
r_body.append(' VkResult result = pInstanceTable->CreateDebugReportCallbackEXT(instance, pCreateInfo, pAllocator, pCallback);')
r_body.append(' if (VK_SUCCESS == result) {')
r_body.append(' layer_data *my_data = get_my_data_ptr(get_dispatch_key(instance), layer_data_map);')
r_body.append(' result = layer_create_msg_callback(my_data->report_data,')
r_body.append(' false,')
r_body.append(' pCreateInfo,')
r_body.append(' pAllocator,')
r_body.append(' pCallback);')
r_body.append(' }')
r_body.append(' return result;')
else:
r_body.append(' VkResult result = instance_dispatch_table(instance)->CreateDebugReportCallbackEXT(instance, pCreateInfo, pAllocator, pCallback);')
r_body.append(' if (VK_SUCCESS == result) {')
r_body.append(' layer_data *my_data = get_my_data_ptr(get_dispatch_key(instance), layer_data_map);')
r_body.append(' result = layer_create_msg_callback(my_data->report_data, false, pCreateInfo, pAllocator, pCallback);')
r_body.append(' }')
r_body.append(' return result;')
r_body.append('}')
return "\n".join(r_body)
def _gen_destroy_msg_callback(self):
r_body = []
r_body.append('%s' % self.lineinfo.get())
r_body.append('VKAPI_ATTR void VKAPI_CALL DestroyDebugReportCallbackEXT(VkInstance instance, VkDebugReportCallbackEXT msgCallback, const VkAllocationCallbacks *pAllocator)')
r_body.append('{')
# Switch to this code section for the new per-instance storage and debug callbacks
if self.layer_name in ['unique_objects']:
r_body.append(' VkLayerInstanceDispatchTable *pInstanceTable = get_dispatch_table(%s_instance_table_map, instance);' % self.layer_name )
else:
r_body.append(' VkLayerInstanceDispatchTable *pInstanceTable = instance_dispatch_table(instance);')
r_body.append(' pInstanceTable->DestroyDebugReportCallbackEXT(instance, msgCallback, pAllocator);')
r_body.append(' layer_data *my_data = get_my_data_ptr(get_dispatch_key(instance), layer_data_map);')
r_body.append(' layer_destroy_msg_callback(my_data->report_data, msgCallback, pAllocator);')
r_body.append('}')
return "\n".join(r_body)
def _gen_debug_report_msg(self):
r_body = []
r_body.append('%s' % self.lineinfo.get())
r_body.append('VKAPI_ATTR void VKAPI_CALL DebugReportMessageEXT(VkInstance instance, VkDebugReportFlagsEXT flags, VkDebugReportObjectTypeEXT objType, uint64_t object, size_t location, int32_t msgCode, const char *pLayerPrefix, const char *pMsg)')
r_body.append('{')
# Switch to this code section for the new per-instance storage and debug callbacks
r_body.append(' VkLayerInstanceDispatchTable *pInstanceTable = instance_dispatch_table(instance);')
r_body.append(' pInstanceTable->DebugReportMessageEXT(instance, flags, objType, object, location, msgCode, pLayerPrefix, pMsg);')
r_body.append('}')
return "\n".join(r_body)
def _gen_layer_logging_workaround(self):
body = []
body.append('%s' % self.lineinfo.get())
body.append('// vk_layer_logging.h expects these to be defined')
body.append('')
body.append('VKAPI_ATTR VkResult VKAPI_CALL')
body.append('vkCreateDebugReportCallbackEXT(VkInstance instance, const VkDebugReportCallbackCreateInfoEXT *pCreateInfo,')
body.append(' const VkAllocationCallbacks *pAllocator, VkDebugReportCallbackEXT *pMsgCallback) {')
body.append(' return %s::CreateDebugReportCallbackEXT(instance, pCreateInfo, pAllocator, pMsgCallback);' % self.layer_name)
body.append('}')
body.append('')
body.append('VKAPI_ATTR void VKAPI_CALL vkDestroyDebugReportCallbackEXT(VkInstance instance,')
body.append(' VkDebugReportCallbackEXT msgCallback,')
body.append(' const VkAllocationCallbacks *pAllocator) {')
body.append(' %s::DestroyDebugReportCallbackEXT(instance, msgCallback, pAllocator);' % self.layer_name)
body.append('}')
body.append('')
body.append('VKAPI_ATTR void VKAPI_CALL')
body.append('vkDebugReportMessageEXT(VkInstance instance, VkDebugReportFlagsEXT flags, VkDebugReportObjectTypeEXT objType, uint64_t object,')
body.append(' size_t location, int32_t msgCode, const char *pLayerPrefix, const char *pMsg) {')
body.append(' %s::DebugReportMessageEXT(instance, flags, objType, object, location, msgCode, pLayerPrefix, pMsg);' % self.layer_name)
body.append('}')
return "\n".join(body)
def _gen_layer_interface_v0_functions(self):
body = []
body.append('%s' % self.lineinfo.get())
body.append('// loader-layer interface v0, just wrappers since there is only a layer')
body.append('')
body.append('VK_LAYER_EXPORT VKAPI_ATTR VkResult VKAPI_CALL vkEnumerateInstanceExtensionProperties(const char *pLayerName, uint32_t *pCount, VkExtensionProperties* pProperties)')
body.append('{')
body.append(' return %s::EnumerateInstanceExtensionProperties(pLayerName, pCount, pProperties);' % self.layer_name)
body.append('}')
body.append('')
body.append('VK_LAYER_EXPORT VKAPI_ATTR VkResult VKAPI_CALL vkEnumerateInstanceLayerProperties(uint32_t *pCount, VkLayerProperties* pProperties)')
body.append('{')
body.append(' return %s::EnumerateInstanceLayerProperties(pCount, pProperties);' % self.layer_name)
body.append('}')
body.append('')
body.append('VK_LAYER_EXPORT VKAPI_ATTR VkResult VKAPI_CALL vkEnumerateDeviceLayerProperties(VkPhysicalDevice physicalDevice, uint32_t *pCount, VkLayerProperties* pProperties)')
body.append('{')
body.append(' // the layer command handles VK_NULL_HANDLE just fine internally')
body.append(' assert(physicalDevice == VK_NULL_HANDLE);')
body.append(' return %s::EnumerateDeviceLayerProperties(VK_NULL_HANDLE, pCount, pProperties);' % self.layer_name)
body.append('}')
body.append('')
body.append('VK_LAYER_EXPORT VKAPI_ATTR PFN_vkVoidFunction VKAPI_CALL vkGetDeviceProcAddr(VkDevice dev, const char *funcName)')
body.append('{')
body.append(' return %s::GetDeviceProcAddr(dev, funcName);' % self.layer_name)
body.append('}')
body.append('')
body.append('VK_LAYER_EXPORT VKAPI_ATTR PFN_vkVoidFunction VKAPI_CALL vkGetInstanceProcAddr(VkInstance instance, const char *funcName)')
body.append('{')
body.append(' return %s::GetInstanceProcAddr(instance, funcName);' % self.layer_name)
body.append('}')
body.append('')
body.append('VK_LAYER_EXPORT VKAPI_ATTR VkResult VKAPI_CALL vkEnumerateDeviceExtensionProperties(VkPhysicalDevice physicalDevice,')
body.append(' const char *pLayerName, uint32_t *pCount,')
body.append(' VkExtensionProperties *pProperties)')
body.append('{')
body.append(' // the layer command handles VK_NULL_HANDLE just fine internally')
body.append(' assert(physicalDevice == VK_NULL_HANDLE);')
body.append(' return %s::EnumerateDeviceExtensionProperties(VK_NULL_HANDLE, pLayerName, pCount, pProperties);' % self.layer_name)
body.append('}')
return "\n".join(body)
def _generate_dispatch_entrypoints(self, qual=""):
if qual:
qual += " "
funcs = []
intercepted = []
for proto in self.protos:
if proto.name in ["EnumerateInstanceExtensionProperties",
"EnumerateInstanceLayerProperties",
"EnumerateDeviceLayerProperties",
"GetDeviceProcAddr",
"GetInstanceProcAddr"]:
funcs.append(proto.c_func(attr="VKAPI") + ';')
intercepted.append(proto)
else:
intercept = self.generate_intercept(proto, qual)
if intercept is None:
# fill in default intercept for certain entrypoints
if 'CreateDebugReportCallbackEXT' == proto.name:
intercept = self._gen_layer_dbg_create_msg_callback()
elif 'DestroyDebugReportCallbackEXT' == proto.name:
intercept = self._gen_layer_dbg_destroy_msg_callback()
elif 'DebugReportMessageEXT' == proto.name:
intercept = self._gen_debug_report_msg()
elif 'CreateDevice' == proto.name:
funcs.append('/* CreateDevice HERE */')
if intercept is not None:
funcs.append(intercept)
if not "KHR" in proto.name:
intercepted.append(proto)
instance_lookups = []
device_lookups = []
for proto in intercepted:
if proto_is_global(proto):
instance_lookups.append("if (!strcmp(name, \"%s\"))" % proto.name)
instance_lookups.append(" return (PFN_vkVoidFunction) %s;" % (proto.name))
else:
device_lookups.append("if (!strcmp(name, \"%s\"))" % proto.name)
device_lookups.append(" return (PFN_vkVoidFunction) %s;" % (proto.name))
# add customized intercept_core_device_command
body = []
body.append('%s' % self.lineinfo.get())
body.append("static inline PFN_vkVoidFunction intercept_core_device_command(const char *name)")
body.append("{")
body.append(generate_get_proc_addr_check("name"))
body.append("")
body.append(" name += 2;")
body.append(" %s" % "\n ".join(device_lookups))
body.append("")
body.append(" return NULL;")
body.append("}")
# add intercept_core_instance_command
body.append("static inline PFN_vkVoidFunction intercept_core_instance_command(const char *name)")
body.append("{")
body.append(generate_get_proc_addr_check("name"))
body.append("")
body.append(" name += 2;")
body.append(" %s" % "\n ".join(instance_lookups))
body.append("")
body.append(" return NULL;")
body.append("}")
funcs.append("\n".join(body))
return "\n\n".join(funcs)
def _generate_extensions(self):
exts = []
exts.append('%s' % self.lineinfo.get())
exts.append(self._gen_create_msg_callback())
exts.append(self._gen_destroy_msg_callback())
exts.append(self._gen_debug_report_msg())
return "\n".join(exts)
def _generate_layer_introspection_function(self):
body = []
body.append('%s' % self.lineinfo.get())
body.append('static const VkLayerProperties globalLayerProps = {')
body.append(' "VK_LAYER_GOOGLE_%s",' % self.layer_name)
body.append(' VK_LAYER_API_VERSION, // specVersion')
body.append(' 1, // implementationVersion')
body.append(' "Google Validation Layer"')
body.append('};')
body.append('')
body.append('VKAPI_ATTR VkResult VKAPI_CALL EnumerateInstanceLayerProperties(uint32_t *pCount, VkLayerProperties* pProperties)')
body.append('{')
body.append(' return util_GetLayerProperties(1, &globalLayerProps, pCount, pProperties);')
body.append('}')
body.append('')
body.append('VKAPI_ATTR VkResult VKAPI_CALL EnumerateDeviceLayerProperties(VkPhysicalDevice physicalDevice, uint32_t *pCount, VkLayerProperties* pProperties)')
body.append('{')
body.append(' return util_GetLayerProperties(1, &globalLayerProps, pCount, pProperties);')
body.append('}')
body.append('')
body.append('VKAPI_ATTR VkResult VKAPI_CALL EnumerateInstanceExtensionProperties(const char *pLayerName, uint32_t *pCount, VkExtensionProperties* pProperties)')
body.append('{')
body.append(' if (pLayerName && !strcmp(pLayerName, globalLayerProps.layerName))')
body.append(' return util_GetExtensionProperties(0, NULL, pCount, pProperties);')
body.append('')
body.append(' return VK_ERROR_LAYER_NOT_PRESENT;')
body.append('}')
body.append('')
body.append('VKAPI_ATTR VkResult VKAPI_CALL EnumerateDeviceExtensionProperties(VkPhysicalDevice physicalDevice,')
body.append(' const char *pLayerName, uint32_t *pCount,')
body.append(' VkExtensionProperties *pProperties)')
body.append('{')
body.append(' if (pLayerName && !strcmp(pLayerName, globalLayerProps.layerName))')
body.append(' return util_GetExtensionProperties(0, nullptr, pCount, pProperties);')
body.append('')
body.append(' assert(physicalDevice);')
body.append(' VkLayerInstanceDispatchTable* pTable = get_dispatch_table(%s_instance_table_map, physicalDevice);' % self.layer_name)
body.append(' return pTable->EnumerateDeviceExtensionProperties(physicalDevice, NULL, pCount, pProperties);')
body.append('}')
return "\n".join(body)
def _generate_layer_gpa_function(self, extensions=[], instance_extensions=[]):
func_body = []
#
# New style of GPA Functions for the new layer_data/layer_logging changes
#
if self.layer_name in ['unique_objects']:
for ext_enable, ext_list in extensions:
func_body.append('%s' % self.lineinfo.get())
func_body.append('static inline PFN_vkVoidFunction intercept_%s_command(const char *name, VkDevice dev)' % ext_enable)
func_body.append('{')
func_body.append(' if (dev) {')
func_body.append(' layer_data *my_data = get_my_data_ptr(get_dispatch_key(dev), layer_data_map);')
func_body.append(' if (!my_data->%s)' % ext_enable)
func_body.append(' return nullptr;')
func_body.append(' }\n')
for ext_name in ext_list:
func_body.append(' if (!strcmp("%s", name))\n'
' return reinterpret_cast<PFN_vkVoidFunction>(%s);' % (ext_name, ext_name[2:]))
func_body.append('\n return nullptr;')
func_body.append('}\n')
func_body.append("VKAPI_ATTR PFN_vkVoidFunction VKAPI_CALL GetDeviceProcAddr(VkDevice device, const char* funcName)\n"
"{\n"
" PFN_vkVoidFunction addr;\n"
" addr = intercept_core_device_command(funcName);\n"
" if (addr)\n"
" return addr;\n"
" assert(device);\n")
for ext_enable, _ in extensions:
func_body.append(' addr = intercept_%s_command(funcName, device);' % ext_enable)
func_body.append(' if (addr)\n'
' return addr;')
func_body.append("\n if (get_dispatch_table(%s_device_table_map, device)->GetDeviceProcAddr == NULL)\n"
" return NULL;\n"
" return get_dispatch_table(%s_device_table_map, device)->GetDeviceProcAddr(device, funcName);\n"
"}\n" % (self.layer_name, self.layer_name))
# The WSI-related extensions have independent extension enables
wsi_sub_enables = {'WIN32': 'win32_enabled',
'XLIB': 'xlib_enabled',
'XCB': 'xcb_enabled',
'MIR': 'mir_enabled',
'WAYLAND': 'wayland_enabled',
'ANDROID': 'android_enabled'}
for ext_enable, ext_list in instance_extensions:
func_body.append('%s' % self.lineinfo.get())
func_body.append('static inline PFN_vkVoidFunction intercept_%s_command(const char *name, VkInstance instance)' % ext_enable)
func_body.append('{')
if ext_enable == 'msg_callback_get_proc_addr':
func_body.append(" layer_data *my_data = get_my_data_ptr(get_dispatch_key(instance), layer_data_map);\n"
" return debug_report_get_instance_proc_addr(my_data->report_data, name);")
else:
func_body.append(" VkLayerInstanceDispatchTable* pTable = get_dispatch_table(%s_instance_table_map, instance);" % self.layer_name)
func_body.append(' if (instanceExtMap.size() == 0 || !instanceExtMap[pTable].%s)' % ext_enable)
func_body.append(' return nullptr;\n')
for ext_name in ext_list:
if wsi_name(ext_name):
func_body.append('%s' % wsi_ifdef(ext_name))
if wsi_sub_enables[wsi_name(ext_name)]:
func_body.append(' if ((instanceExtMap[pTable].%s == true) && !strcmp("%s", name))\n'
' return reinterpret_cast<PFN_vkVoidFunction>(%s);' % (wsi_sub_enables[wsi_name(ext_name)], ext_name, ext_name[2:]))
else:
func_body.append(' if (!strcmp("%s", name))\n'
' return reinterpret_cast<PFN_vkVoidFunction>(%s);' % (ext_name, ext_name[2:]))
if wsi_name(ext_name):
func_body.append('%s' % wsi_endif(ext_name))
func_body.append('\n return nullptr;')
func_body.append('}\n')
func_body.append("VKAPI_ATTR PFN_vkVoidFunction VKAPI_CALL GetInstanceProcAddr(VkInstance instance, const char* funcName)\n"
"{\n"
" PFN_vkVoidFunction addr;\n"
" addr = intercept_core_instance_command(funcName);\n"
" if (!addr) {\n"
" addr = intercept_core_device_command(funcName);\n"
" }")
for ext_enable, _ in extensions:
func_body.append(" if (!addr) {\n"
" addr = intercept_%s_command(funcName, VkDevice(VK_NULL_HANDLE));\n"
" }" % ext_enable)
func_body.append(" if (addr) {\n"
" return addr;\n"
" }\n"
" assert(instance);\n"
)
for ext_enable, _ in instance_extensions:
func_body.append(' addr = intercept_%s_command(funcName, instance);' % ext_enable)
func_body.append(' if (addr)\n'
' return addr;\n')
func_body.append(" if (get_dispatch_table(%s_instance_table_map, instance)->GetInstanceProcAddr == NULL) {\n"
" return NULL;\n"
" }\n"
" return get_dispatch_table(%s_instance_table_map, instance)->GetInstanceProcAddr(instance, funcName);\n"
"}\n" % (self.layer_name, self.layer_name))
return "\n".join(func_body)
else:
func_body.append('%s' % self.lineinfo.get())
func_body.append("VKAPI_ATTR PFN_vkVoidFunction VKAPI_CALL GetDeviceProcAddr(VkDevice device, const char* funcName)\n"
"{\n"
" PFN_vkVoidFunction addr;\n")
func_body.append("\n"
" loader_platform_thread_once(&initOnce, init%s);\n\n"
" addr = intercept_core_device_command(funcName);\n"
" if (addr)\n"
" return addr;" % self.layer_name)
func_body.append(" assert(device);\n")
func_body.append('')
func_body.append(' VkLayerDispatchTable *pDisp = device_dispatch_table(device);')
if 0 != len(extensions):
extra_space = ""
for (ext_enable, ext_list) in extensions:
if 0 != len(ext_enable):
func_body.append(' if (deviceExtMap.size() != 0 && deviceExtMap[pDisp].%s)' % ext_enable)
func_body.append(' {')
extra_space = " "
for ext_name in ext_list:
func_body.append(' %sif (!strcmp("%s", funcName))\n'
' return reinterpret_cast<PFN_vkVoidFunction>(%s);' % (extra_space, ext_name, ext_name))
if 0 != len(ext_enable):
func_body.append(' }')
func_body.append('%s' % self.lineinfo.get())
func_body.append(" {\n"
" if (pDisp->GetDeviceProcAddr == NULL)\n"
" return NULL;\n"
" return pDisp->GetDeviceProcAddr(device, funcName);\n"
" }\n"
"}\n")
func_body.append('%s' % self.lineinfo.get())
func_body.append("VKAPI_ATTR PFN_vkVoidFunction VKAPI_CALL GetInstanceProcAddr(VkInstance instance, const char* funcName)\n"
"{\n"
" PFN_vkVoidFunction addr;\n"
)
func_body.append(
" loader_platform_thread_once(&initOnce, init%s);\n\n"
" addr = intercept_core_instance_command(funcName);\n"
" if (addr)\n"
" return addr;" % self.layer_name)
func_body.append(" assert(instance);\n")
func_body.append("")
func_body.append(" VkLayerInstanceDispatchTable* pTable = instance_dispatch_table(instance);\n")
if 0 != len(instance_extensions):
extra_space = ""
for (ext_enable, ext_list) in instance_extensions:
if 0 != len(ext_enable):
if ext_enable == 'msg_callback_get_proc_addr':
func_body.append(" layer_data *my_data = get_my_data_ptr(get_dispatch_key(instance), layer_data_map);\n"
" addr = debug_report_get_instance_proc_addr(my_data->report_data, funcName);\n"
" if (addr) {\n"
" return addr;\n"
" }\n")
else:
func_body.append(' if (instanceExtMap.size() != 0 && instanceExtMap[pTable].%s)' % ext_enable)
func_body.append(' {')
extra_space = " "
for ext_name in ext_list:
if wsi_name(ext_name):
func_body.append('%s' % wsi_ifdef(ext_name))
func_body.append(' %sif (!strcmp("%s", funcName))\n'
' return reinterpret_cast<PFN_vkVoidFunction>(%s);' % (extra_space, ext_name, ext_name))
if wsi_name(ext_name):
func_body.append('%s' % wsi_endif(ext_name))
if 0 != len(ext_enable):
func_body.append(' }\n')
func_body.append(" if (pTable->GetInstanceProcAddr == NULL)\n"
" return NULL;\n"
" return pTable->GetInstanceProcAddr(instance, funcName);\n"
"}\n")
return "\n".join(func_body)
def _generate_layer_initialization(self, init_opts=False, prefix='vk', lockname=None, condname=None):
func_body = ["#include \"vk_dispatch_table_helper.h\""]
func_body.append('%s' % self.lineinfo.get())
func_body.append('static void init_%s(layer_data *my_data, const VkAllocationCallbacks *pAllocator)\n'
'{\n' % self.layer_name)
if init_opts:
func_body.append('%s' % self.lineinfo.get())
func_body.append('')
func_body.append(' layer_debug_actions(my_data->report_data, my_data->logging_callback, pAllocator, "lunarg_%s");' % self.layer_name)
func_body.append('')
if lockname is not None:
func_body.append('%s' % self.lineinfo.get())
func_body.append(" if (!%sLockInitialized)" % lockname)
func_body.append(" {")
func_body.append(" // TODO/TBD: Need to delete this mutex sometime. How???")
func_body.append(" loader_platform_thread_create_mutex(&%sLock);" % lockname)
if condname is not None:
func_body.append(" loader_platform_thread_init_cond(&%sCond);" % condname)
func_body.append(" %sLockInitialized = 1;" % lockname)
func_body.append(" }")
func_body.append("}\n")
func_body.append('')
return "\n".join(func_body)
class UniqueObjectsSubcommand(Subcommand):
def generate_header(self):
header_txt = []
header_txt.append('%s' % self.lineinfo.get())
header_txt.append('#include "unique_objects.h"')
return "\n".join(header_txt)
# Generate UniqueObjects code for given struct_uses dict of objects that need to be unwrapped
# vector_name_set is used to make sure we don't replicate vector names
# first_level_param indicates if elements are passed directly into the function else they're below a ptr/struct
# TODO : Comment this code
def _gen_obj_code(self, struct_uses, param_type, indent, prefix, array_index, vector_name_set, first_level_param):
decls = ''
pre_code = ''
post_code = ''
for obj in sorted(struct_uses):
name = obj
array = ''
if '[' in obj:
(name, array) = obj.split('[')
array = array.strip(']')
ptr_type = False
if 'p' == obj[0] and obj[1] != obj[1].lower(): # TODO : Not ideal way to determine ptr
ptr_type = True
if isinstance(struct_uses[obj], dict):
local_prefix = ''
name = '%s%s' % (prefix, name)
if ptr_type:
if first_level_param and name in param_type:
pre_code += '%sif (%s) {\n' % (indent, name)
else: # shadow ptr will have been initialized at this point so check it vs. source ptr
pre_code += '%sif (local_%s) {\n' % (indent, name)
indent += ' '
if array != '':
if 'p' == array[0] and array[1] != array[1].lower(): # TODO : Not ideal way to determine ptr
count_prefix = '*'
else:
count_prefix = ''
idx = 'idx%s' % str(array_index)
array_index += 1
if first_level_param and name in param_type:
pre_code += '%slocal_%s = new safe_%s[%s%s];\n' % (indent, name, param_type[name].strip('*'), count_prefix, array)
post_code += ' if (local_%s)\n' % (name)
post_code += ' delete[] local_%s;\n' % (name)
pre_code += '%sfor (uint32_t %s=0; %s<%s%s%s; ++%s) {\n' % (indent, idx, idx, count_prefix, prefix, array, idx)
indent += ' '
if first_level_param:
pre_code += '%slocal_%s[%s].initialize(&%s[%s]);\n' % (indent, name, idx, name, idx)
local_prefix = '%s[%s].' % (name, idx)
elif ptr_type:
if first_level_param and name in param_type:
pre_code += '%slocal_%s = new safe_%s(%s);\n' % (indent, name, param_type[name].strip('*'), name)
post_code += ' if (local_%s)\n' % (name)
post_code += ' delete local_%s;\n' % (name)
local_prefix = '%s->' % (name)
else:
local_prefix = '%s.' % (name)
assert isinstance(decls, object)
(tmp_decl, tmp_pre, tmp_post) = self._gen_obj_code(struct_uses[obj], param_type, indent, local_prefix, array_index, vector_name_set, False)
decls += tmp_decl
pre_code += tmp_pre
post_code += tmp_post
if array != '':
indent = indent[4:]
pre_code += '%s}\n' % (indent)
if ptr_type:
indent = indent[4:]
pre_code += '%s}\n' % (indent)
else:
if (array_index > 0) or array != '': # TODO : This is not ideal, really want to know if we're anywhere under an array
if first_level_param:
decls += '%s%s* local_%s = NULL;\n' % (indent, struct_uses[obj], name)
if array != '' and not first_level_param: # ptrs under structs will have been initialized so use local_*
pre_code += '%sif (local_%s%s) {\n' %(indent, prefix, name)
else:
pre_code += '%sif (%s%s) {\n' %(indent, prefix, name)
indent += ' '
if array != '':
idx = 'idx%s' % str(array_index)
array_index += 1
if first_level_param:
pre_code += '%slocal_%s = new %s[%s];\n' % (indent, name, struct_uses[obj], array)
post_code += ' if (local_%s)\n' % (name)
post_code += ' delete[] local_%s;\n' % (name)
pre_code += '%sfor (uint32_t %s=0; %s<%s%s; ++%s) {\n' % (indent, idx, idx, prefix, array, idx)
indent += ' '
name = '%s[%s]' % (name, idx)
if name not in vector_name_set:
vector_name_set.add(name)
pre_code += '%slocal_%s%s = (%s)my_map_data->unique_id_mapping[reinterpret_cast<const uint64_t &>(%s%s)];\n' % (indent, prefix, name, struct_uses[obj], prefix, name)
if array != '':
indent = indent[4:]
pre_code += '%s}\n' % (indent)
indent = indent[4:]
pre_code += '%s}\n' % (indent)
else:
pre_code += '%s\n' % (self.lineinfo.get())
if '->' in prefix: # need to update local struct
pre_code += '%slocal_%s%s = (%s)my_map_data->unique_id_mapping[reinterpret_cast<const uint64_t &>(%s%s)];\n' % (indent, prefix, name, struct_uses[obj], prefix, name)
else:
pre_code += '%s%s = (%s)my_map_data->unique_id_mapping[reinterpret_cast<uint64_t &>(%s)];\n' % (indent, name, struct_uses[obj], name)
return decls, pre_code, post_code
def generate_intercept(self, proto, qual):
create_func = False
destroy_func = False
last_param_index = None #typcially we look at all params for ndos
pre_call_txt = '' # code prior to calling down chain such as unwrap uses of ndos
post_call_txt = '' # code following call down chain such to wrap newly created ndos, or destroy local wrap struct
funcs = []
indent = ' ' # indent level for generated code
decl = proto.c_func(attr="VKAPI")
# A few API cases that are manual code
# TODO : Special case Create*Pipelines funcs to handle creating multiple unique objects
explicit_unique_objects_functions = ['GetSwapchainImagesKHR',
'CreateSwapchainKHR',
'CreateInstance',
'DestroyInstance',
'CreateDevice',
'DestroyDevice',
'AllocateMemory',
'CreateComputePipelines',
'CreateGraphicsPipelines',
'GetPhysicalDeviceDisplayPropertiesKHR',
'GetDisplayPlaneSupportedDisplaysKHR',
'GetDisplayModePropertiesKHR'
]
# TODO : This is hacky, need to make this a more general-purpose solution for all layers
ifdef_dict = {'CreateXcbSurfaceKHR': 'VK_USE_PLATFORM_XCB_KHR',
'CreateAndroidSurfaceKHR': 'VK_USE_PLATFORM_ANDROID_KHR',
'CreateWin32SurfaceKHR': 'VK_USE_PLATFORM_WIN32_KHR',
'CreateXlibSurfaceKHR': 'VK_USE_PLATFORM_XLIB_KHR',
'CreateWaylandSurfaceKHR': 'VK_USE_PLATFORM_WAYLAND_KHR',
'CreateMirSurfaceKHR': 'VK_USE_PLATFORM_MIR_KHR'}
# Give special treatment to create functions that return multiple new objects
# This dict stores array name and size of array
custom_create_dict = {'pDescriptorSets' : 'pAllocateInfo->descriptorSetCount'}
pre_call_txt += '%s\n' % (self.lineinfo.get())
if proto.name in explicit_unique_objects_functions:
funcs.append('%s%s\n'
'{\n'
' return explicit_%s;\n'
'}' % (qual, decl, proto.c_call()))
return "".join(funcs)
if True in [create_txt in proto.name for create_txt in ['Create', 'Allocate']]:
create_func = True
last_param_index = -1 # For create funcs don't care if last param is ndo
if True in [destroy_txt in proto.name for destroy_txt in ['Destroy', 'Free']]:
destroy_obj_type = proto.params[-2].ty
if destroy_obj_type in vulkan.object_non_dispatch_list:
destroy_func = True
# First thing we need to do is gather uses of non-dispatchable-objects (ndos)
(struct_uses, local_decls) = get_object_uses(vulkan.object_non_dispatch_list, proto.params[1:last_param_index])
dispatch_param = proto.params[0].name
if 'CreateInstance' in proto.name:
dispatch_param = '*' + proto.params[1].name
pre_call_txt += '%slayer_data *my_map_data = get_my_data_ptr(get_dispatch_key(%s), layer_data_map);\n' % (indent, dispatch_param)
if len(struct_uses) > 0:
pre_call_txt += '// STRUCT USES:%s\n' % sorted(struct_uses)
if len(local_decls) > 0:
pre_call_txt += '//LOCAL DECLS:%s\n' % sorted(local_decls)
if destroy_func: # only one object
pre_call_txt += '%sstd::unique_lock<std::mutex> lock(global_lock);\n' % (indent)
for del_obj in sorted(struct_uses):
pre_call_txt += '%suint64_t local_%s = reinterpret_cast<uint64_t &>(%s);\n' % (indent, del_obj, del_obj)
pre_call_txt += '%s%s = (%s)my_map_data->unique_id_mapping[local_%s];\n' % (indent, del_obj, struct_uses[del_obj], del_obj)
pre_call_txt += '%smy_map_data->unique_id_mapping.erase(local_%s);\n' % (indent, proto.params[-2].name)
pre_call_txt += '%slock.unlock();\n' % (indent)
(pre_decl, pre_code, post_code) = ('', '', '')
else:
(pre_decl, pre_code, post_code) = self._gen_obj_code(struct_uses, local_decls, ' ', '', 0, set(), True)
# This is a bit hacky but works for now. Need to decl local versions of top-level structs
for ld in sorted(local_decls):
init_null_txt = 'NULL';
if '*' not in local_decls[ld]:
init_null_txt = '{}';
if local_decls[ld].strip('*') not in vulkan.object_non_dispatch_list:
pre_decl += ' safe_%s local_%s = %s;\n' % (local_decls[ld], ld, init_null_txt)
if pre_code != '': # lock around map uses
pre_code = '%s{\n%sstd::lock_guard<std::mutex> lock(global_lock);\n%s%s}\n' % (indent, indent, pre_code, indent)
pre_call_txt += '%s%s' % (pre_decl, pre_code)
post_call_txt += '%s' % (post_code)
elif create_func:
base_type = proto.params[-1].ty.replace('const ', '').strip('*')
if base_type not in vulkan.object_non_dispatch_list:
return None
else:
return None
ret_val = ''
ret_stmt = ''
if proto.ret != "void":
ret_val = "%s result = " % proto.ret
ret_stmt = " return result;\n"
if create_func:
obj_type = proto.params[-1].ty.strip('*')
obj_name = proto.params[-1].name
if obj_type in vulkan.object_non_dispatch_list:
local_name = "unique%s" % obj_type[2:]
post_call_txt += '%sif (VK_SUCCESS == result) {\n' % (indent)
indent += ' '
post_call_txt += '%sstd::lock_guard<std::mutex> lock(global_lock);\n' % (indent)
if obj_name in custom_create_dict:
post_call_txt += '%s\n' % (self.lineinfo.get())
local_name = '%ss' % (local_name) # add 's' to end for vector of many
post_call_txt += '%sfor (uint32_t i=0; i<%s; ++i) {\n' % (indent, custom_create_dict[obj_name])
indent += ' '
post_call_txt += '%suint64_t unique_id = global_unique_id++;\n' % (indent)
post_call_txt += '%smy_map_data->unique_id_mapping[unique_id] = reinterpret_cast<uint64_t &>(%s[i]);\n' % (indent, obj_name)
post_call_txt += '%s%s[i] = reinterpret_cast<%s&>(unique_id);\n' % (indent, obj_name, obj_type)
indent = indent[4:]
post_call_txt += '%s}\n' % (indent)
else:
post_call_txt += '%s\n' % (self.lineinfo.get())
post_call_txt += '%suint64_t unique_id = global_unique_id++;\n' % (indent)
post_call_txt += '%smy_map_data->unique_id_mapping[unique_id] = reinterpret_cast<uint64_t &>(*%s);\n' % (indent, obj_name)
post_call_txt += '%s*%s = reinterpret_cast<%s&>(unique_id);\n' % (indent, obj_name, obj_type)
indent = indent[4:]
post_call_txt += '%s}\n' % (indent)
call_sig = proto.c_call()
# Replace default params with any custom local params
for ld in local_decls:
const_qualifier = ''
for p in proto.params:
if ld == p.name and 'const' in p.ty:
const_qualifier = 'const'
call_sig = call_sig.replace(ld, '(%s %s)local_%s' % (const_qualifier, local_decls[ld], ld))
if proto_is_global(proto):
table_type = "instance"
else:
table_type = "device"
pre_call_txt += '%s\n' % (self.lineinfo.get())
open_ifdef = ''
close_ifdef = ''
if proto.name in ifdef_dict:
open_ifdef = '#ifdef %s\n' % (ifdef_dict[proto.name])
close_ifdef = '#endif\n'
funcs.append('%s'
'%s%s\n'
'{\n'
'%s'
' %sget_dispatch_table(unique_objects_%s_table_map, %s)->%s;\n'
'%s'
'%s'
'}\n'
'%s' % (open_ifdef, qual, decl, pre_call_txt, ret_val, table_type, dispatch_param, call_sig, post_call_txt, ret_stmt, close_ifdef))
return "\n\n".join(funcs)
def generate_body(self):
self.layer_name = "unique_objects"
extensions=[('wsi_enabled',
['vkCreateSwapchainKHR',
'vkDestroySwapchainKHR', 'vkGetSwapchainImagesKHR',
'vkAcquireNextImageKHR', 'vkQueuePresentKHR'])]
surface_wsi_instance_exts = [
'vkDestroySurfaceKHR',
'vkGetPhysicalDeviceSurfaceSupportKHR',
'vkGetPhysicalDeviceSurfaceCapabilitiesKHR',
'vkGetPhysicalDeviceSurfaceFormatsKHR',
'vkGetPhysicalDeviceSurfacePresentModesKHR']
display_wsi_instance_exts = [
'vkGetPhysicalDeviceDisplayPropertiesKHR',
'vkGetPhysicalDeviceDisplayPlanePropertiesKHR',
'vkGetDisplayPlaneSupportedDisplaysKHR',
'vkGetDisplayModePropertiesKHR',
'vkCreateDisplayModeKHR',
'vkGetDisplayPlaneCapabilitiesKHR',
'vkCreateDisplayPlaneSurfaceKHR']
if self.wsi == 'Win32':
instance_extensions=[('wsi_enabled', surface_wsi_instance_exts),
('display_enabled', display_wsi_instance_exts),
('win32_enabled', ['vkCreateWin32SurfaceKHR'])]
elif self.wsi == 'Android':
instance_extensions=[('wsi_enabled', surface_wsi_instance_exts),
('android_enabled', ['vkCreateAndroidSurfaceKHR'])]
elif self.wsi == 'Xcb' or self.wsi == 'Xlib' or self.wsi == 'Wayland' or self.wsi == 'Mir':
instance_extensions=[('wsi_enabled', surface_wsi_instance_exts),
('display_enabled', display_wsi_instance_exts),
('xcb_enabled', ['vkCreateXcbSurfaceKHR']),
('xlib_enabled', ['vkCreateXlibSurfaceKHR']),
('wayland_enabled', ['vkCreateWaylandSurfaceKHR']),
('mir_enabled', ['vkCreateMirSurfaceKHR'])]
elif self.wsi == 'Display':
instance_extensions=[('wsi_enabled', surface_wsi_instance_exts),
('display_enabled', display_wsi_instance_exts)]
else:
print('Error: Undefined DisplayServer')
instance_extensions=[]
body = ["namespace %s {" % self.layer_name,
self._generate_dispatch_entrypoints(),
self._generate_layer_introspection_function(),
self._generate_layer_gpa_function(extensions,
instance_extensions),
"} // namespace %s" % self.layer_name,
self._gen_layer_interface_v0_functions()]
return "\n\n".join(body)
def main():
wsi = {
"Win32",
"Android",
"Xcb",
"Xlib",
"Wayland",
"Mir",
"Display",
}
subcommands = {
"unique_objects" : UniqueObjectsSubcommand,
}
if len(sys.argv) < 4 or sys.argv[1] not in wsi or sys.argv[2] not in subcommands or not os.path.exists(sys.argv[3]):
print("Usage: %s <wsi> <subcommand> <input_header> [outdir]" % sys.argv[0])
print
print("Available subcommands are: %s" % " ".join(subcommands))
exit(1)
hfp = vk_helper.HeaderFileParser(sys.argv[3])
hfp.parse()
vk_helper.enum_val_dict = hfp.get_enum_val_dict()
vk_helper.enum_type_dict = hfp.get_enum_type_dict()
vk_helper.struct_dict = hfp.get_struct_dict()
vk_helper.typedef_fwd_dict = hfp.get_typedef_fwd_dict()
vk_helper.typedef_rev_dict = hfp.get_typedef_rev_dict()
vk_helper.types_dict = hfp.get_types_dict()
outfile = None
if len(sys.argv) >= 5:
outfile = sys.argv[4]
subcmd = subcommands[sys.argv[2]](outfile)
subcmd.run()
if __name__ == "__main__":
main()