Gitiles
Code Review Sign In
gerrit-public.fairphone.software / platform / external / vulkan-validation-layers / cc899fe56f2a88b49b5dc1311e16692f998b6742 / . / vulkan.py
blob: 97976c4d31981ad63073ba0a089121fed13cec99 [file] [log] [blame]
"""VK API description"""
# Copyright (C) 2014 LunarG, Inc.
#
# 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.
class Param(object):
"""A function parameter."""
def __init__(self, ty, name):
self.ty = ty
self.name = name
def c(self):
"""Return the parameter in C."""
idx = self.ty.find("[")
# arrays have a different syntax
if idx >= 0:
return "%s %s%s" % (self.ty[:idx], self.name, self.ty[idx:])
else:
return "%s %s" % (self.ty, self.name)
def indirection_level(self):
"""Return the level of indirection."""
return self.ty.count("*") + self.ty.count("[")
def dereferenced_type(self, level=0):
"""Return the type after dereferencing."""
if not level:
level = self.indirection_level()
deref = self.ty if level else ""
while level > 0:
idx = deref.rfind("[")
if idx < 0:
idx = deref.rfind("*")
if idx < 0:
deref = ""
break
deref = deref[:idx]
level -= 1;
return deref.rstrip()
def __repr__(self):
return "Param(\"%s\", \"%s\")" % (self.ty, self.name)
class Proto(object):
"""A function prototype."""
def __init__(self, ret, name, params=[]):
# the proto has only a param
if not isinstance(params, list):
params = [params]
self.ret = ret
self.name = name
self.params = params
def c_params(self, need_type=True, need_name=True):
"""Return the parameter list in C."""
if self.params and (need_type or need_name):
if need_type and need_name:
return ", ".join([param.c() for param in self.params])
elif need_type:
return ", ".join([param.ty for param in self.params])
else:
return ", ".join([param.name for param in self.params])
else:
return "void" if need_type else ""
def c_decl(self, name, attr="", typed=False, need_param_names=True):
"""Return a named declaration in C."""
format_vals = (self.ret,
attr + " " if attr else "",
name,
self.c_params(need_name=need_param_names))
if typed:
return "%s (%s*%s)(%s)" % format_vals
else:
return "%s %s%s(%s)" % format_vals
def c_pretty_decl(self, name, attr=""):
"""Return a named declaration in C, with vulkan.h formatting."""
plist = []
for param in self.params:
idx = param.ty.find("[")
if idx < 0:
idx = len(param.ty)
pad = 44 - idx
if pad <= 0:
pad = 1
plist.append(" %s%s%s%s" % (param.ty[:idx],
" " * pad, param.name, param.ty[idx:]))
return "%s %s%s(\n%s)" % (self.ret,
attr + " " if attr else "",
name,
",\n".join(plist))
def c_typedef(self, suffix="", attr=""):
"""Return the typedef for the prototype in C."""
return self.c_decl(self.name + suffix, attr=attr, typed=True)
def c_func(self, prefix="", attr=""):
"""Return the prototype in C."""
return self.c_decl(prefix + self.name, attr=attr, typed=False)
def c_call(self):
"""Return a call to the prototype in C."""
return "%s(%s)" % (self.name, self.c_params(need_type=False))
def object_in_params(self):
"""Return the params that are simple VK objects and are inputs."""
return [param for param in self.params if param.ty in objects]
def object_out_params(self):
"""Return the params that are simple VK objects and are outputs."""
return [param for param in self.params
if param.dereferenced_type() in objects]
def __repr__(self):
param_strs = []
for param in self.params:
param_strs.append(str(param))
param_str = " [%s]" % (",\n ".join(param_strs))
return "Proto(\"%s\", \"%s\",\n%s)" % \
(self.ret, self.name, param_str)
class Extension(object):
def __init__(self, name, headers, objects, protos):
self.name = name
self.headers = headers
self.objects = objects
self.protos = protos
def __repr__(self):
lines = []
lines.append("Extension(")
lines.append(" name=\"%s\"," % self.name)
lines.append(" headers=[\"%s\"]," %
"\", \"".join(self.headers))
lines.append(" objects=[")
for obj in self.objects:
lines.append(" \"%s\"," % obj)
lines.append(" ],")
lines.append(" protos=[")
for proto in self.protos:
param_lines = str(proto).splitlines()
param_lines[-1] += ",\n" if proto != self.protos[-1] else ","
for p in param_lines:
lines.append(" " + p)
lines.append(" ],")
lines.append(")")
return "\n".join(lines)
# VK core API
core = Extension(
name="VK_CORE",
headers=["vulkan.h", "vk_debug_report_lunarg.h"],
objects=[
"VkInstance",
"VkPhysicalDevice",
"VkDevice",
"VkQueue",
"VkDeviceMemory",
"VkObject",
"VkBuffer",
"VkBufferView",
"VkImage",
"VkImageView",
"VkColorAttachmentView",
"VkDepthStencilView",
"VkShader",
"VkPipeline",
"VkSampler",
"VkDescriptorSet",
"VkDescriptorSetLayout",
"VkPipelineLayout",
"VkDescriptorPool",
"VkDynamicStateObject",
"VkDynamicVpState",
"VkDynamicRsState",
"VkDynamicCbState",
"VkDynamicDsState",
"VkCmdBuffer",
"VkFence",
"VkSemaphore",
"VkEvent",
"VkQueryPool",
"VkFramebuffer",
"VkRenderPass",
],
protos=[
Proto("VkResult", "CreateInstance",
[Param("const VkInstanceCreateInfo*", "pCreateInfo"),
Param("VkInstance*", "pInstance")]),
Proto("VkResult", "DestroyInstance",
[Param("VkInstance", "instance")]),
Proto("VkResult", "EnumeratePhysicalDevices",
[Param("VkInstance", "instance"),
Param("uint32_t*", "pPhysicalDeviceCount"),
Param("VkPhysicalDevice*", "pPhysicalDevices")]),
Proto("VkResult", "GetPhysicalDeviceInfo",
[Param("VkPhysicalDevice", "gpu"),
Param("VkPhysicalDeviceInfoType", "infoType"),
Param("size_t*", "pDataSize"),
Param("void*", "pData")]),
Proto("void*", "GetInstanceProcAddr",
[Param("VkInstance", "instance"),
Param("const char*", "pName")]),
Proto("void*", "GetDeviceProcAddr",
[Param("VkDevice", "device"),
Param("const char*", "pName")]),
Proto("VkResult", "CreateDevice",
[Param("VkPhysicalDevice", "gpu"),
Param("const VkDeviceCreateInfo*", "pCreateInfo"),
Param("VkDevice*", "pDevice")]),
Proto("VkResult", "DestroyDevice",
[Param("VkDevice", "device")]),
Proto("VkResult", "GetGlobalExtensionInfo",
[Param("VkExtensionInfoType", "infoType"),
Param("uint32_t", "extensionIndex"),
Param("size_t*", "pDataSize"),
Param("void*", "pData")]),
Proto("VkResult", "GetPhysicalDeviceExtensionInfo",
[Param("VkPhysicalDevice", "gpu"),
Param("VkExtensionInfoType", "infoType"),
Param("uint32_t", "extensionIndex"),
Param("size_t*", "pDataSize"),
Param("void*", "pData")]),
Proto("VkResult", "GetDeviceQueue",
[Param("VkDevice", "device"),
Param("uint32_t", "queueNodeIndex"),
Param("uint32_t", "queueIndex"),
Param("VkQueue*", "pQueue")]),
Proto("VkResult", "QueueSubmit",
[Param("VkQueue", "queue"),
Param("uint32_t", "cmdBufferCount"),
Param("const VkCmdBuffer*", "pCmdBuffers"),
Param("VkFence", "fence")]),
Proto("VkResult", "QueueWaitIdle",
[Param("VkQueue", "queue")]),
Proto("VkResult", "DeviceWaitIdle",
[Param("VkDevice", "device")]),
Proto("VkResult", "AllocMemory",
[Param("VkDevice", "device"),
Param("const VkMemoryAllocInfo*", "pAllocInfo"),
Param("VkDeviceMemory*", "pMem")]),
Proto("VkResult", "FreeMemory",
[Param("VkDevice", "device"),
Param("VkDeviceMemory", "mem")]),
Proto("VkResult", "SetMemoryPriority",
[Param("VkDevice", "device"),
Param("VkDeviceMemory", "mem"),
Param("VkMemoryPriority", "priority")]),
Proto("VkResult", "MapMemory",
[Param("VkDevice", "device"),
Param("VkDeviceMemory", "mem"),
Param("VkDeviceSize", "offset"),
Param("VkDeviceSize", "size"),
Param("VkFlags", "flags"),
Param("void**", "ppData")]),
Proto("VkResult", "UnmapMemory",
[Param("VkDevice", "device"),
Param("VkDeviceMemory", "mem")]),
Proto("VkResult", "FlushMappedMemoryRanges",
[Param("VkDevice", "device"),
Param("uint32_t", "memRangeCount"),
Param("const VkMappedMemoryRange*", "pMemRanges")]),
Proto("VkResult", "InvalidateMappedMemoryRanges",
[Param("VkDevice", "device"),
Param("uint32_t", "memRangeCount"),
Param("const VkMappedMemoryRange*", "pMemRanges")]),
Proto("VkResult", "PinSystemMemory",
[Param("VkDevice", "device"),
Param("const void*", "pSysMem"),
Param("size_t", "memSize"),
Param("VkDeviceMemory*", "pMem")]),
Proto("VkResult", "GetMultiDeviceCompatibility",
[Param("VkPhysicalDevice", "gpu0"),
Param("VkPhysicalDevice", "gpu1"),
Param("VkPhysicalDeviceCompatibilityInfo*", "pInfo")]),
Proto("VkResult", "OpenSharedMemory",
[Param("VkDevice", "device"),
Param("const VkMemoryOpenInfo*", "pOpenInfo"),
Param("VkDeviceMemory*", "pMem")]),
Proto("VkResult", "OpenSharedSemaphore",
[Param("VkDevice", "device"),
Param("const VkSemaphoreOpenInfo*", "pOpenInfo"),
Param("VkSemaphore*", "pSemaphore")]),
Proto("VkResult", "OpenPeerMemory",
[Param("VkDevice", "device"),
Param("const VkPeerMemoryOpenInfo*", "pOpenInfo"),
Param("VkDeviceMemory*", "pMem")]),
Proto("VkResult", "OpenPeerImage",
[Param("VkDevice", "device"),
Param("const VkPeerImageOpenInfo*", "pOpenInfo"),
Param("VkImage*", "pImage"),
Param("VkDeviceMemory*", "pMem")]),
Proto("VkResult", "DestroyObject",
[Param("VkDevice", "device"),
Param("VkObjectType", "objType"),
Param("VkObject", "object")]),
Proto("VkResult", "GetObjectInfo",
[Param("VkDevice", "device"),
Param("VkObjectType", "objType"),
Param("VkObject", "object"),
Param("VkObjectInfoType", "infoType"),
Param("size_t*", "pDataSize"),
Param("void*", "pData")]),
Proto("VkResult", "BindObjectMemory",
[Param("VkDevice", "device"),
Param("VkObjectType", "objType"),
Param("VkObject", "object"),
Param("VkDeviceMemory", "mem"),
Param("VkDeviceSize", "offset")]),
Proto("VkResult", "QueueBindSparseBufferMemory",
[Param("VkQueue", "queue"),
Param("VkBuffer", "buffer"),
Param("VkDeviceSize", "rangeOffset"),
Param("VkDeviceSize", "rangeSize"),
Param("VkDeviceMemory", "mem"),
Param("VkDeviceSize", "memOffset")]),
Proto("VkResult", "QueueBindSparseImageMemory",
[Param("VkQueue", "queue"),
Param("VkImage", "image"),
Param("const VkImageMemoryBindInfo*", "pBindInfo"),
Param("VkDeviceMemory", "mem"),
Param("VkDeviceSize", "memOffset")]),
Proto("VkResult", "CreateFence",
[Param("VkDevice", "device"),
Param("const VkFenceCreateInfo*", "pCreateInfo"),
Param("VkFence*", "pFence")]),
Proto("VkResult", "ResetFences",
[Param("VkDevice", "device"),
Param("uint32_t", "fenceCount"),
Param("VkFence*", "pFences")]),
Proto("VkResult", "GetFenceStatus",
[Param("VkDevice", "device"),
Param("VkFence", "fence")]),
Proto("VkResult", "WaitForFences",
[Param("VkDevice", "device"),
Param("uint32_t", "fenceCount"),
Param("const VkFence*", "pFences"),
Param("bool32_t", "waitAll"),
Param("uint64_t", "timeout")]),
Proto("VkResult", "CreateSemaphore",
[Param("VkDevice", "device"),
Param("const VkSemaphoreCreateInfo*", "pCreateInfo"),
Param("VkSemaphore*", "pSemaphore")]),
Proto("VkResult", "QueueSignalSemaphore",
[Param("VkQueue", "queue"),
Param("VkSemaphore", "semaphore")]),
Proto("VkResult", "QueueWaitSemaphore",
[Param("VkQueue", "queue"),
Param("VkSemaphore", "semaphore")]),
Proto("VkResult", "CreateEvent",
[Param("VkDevice", "device"),
Param("const VkEventCreateInfo*", "pCreateInfo"),
Param("VkEvent*", "pEvent")]),
Proto("VkResult", "GetEventStatus",
[Param("VkDevice", "device"),
Param("VkEvent", "event")]),
Proto("VkResult", "SetEvent",
[Param("VkDevice", "device"),
Param("VkEvent", "event")]),
Proto("VkResult", "ResetEvent",
[Param("VkDevice", "device"),
Param("VkEvent", "event")]),
Proto("VkResult", "CreateQueryPool",
[Param("VkDevice", "device"),
Param("const VkQueryPoolCreateInfo*", "pCreateInfo"),
Param("VkQueryPool*", "pQueryPool")]),
Proto("VkResult", "GetQueryPoolResults",
[Param("VkDevice", "device"),
Param("VkQueryPool", "queryPool"),
Param("uint32_t", "startQuery"),
Param("uint32_t", "queryCount"),
Param("size_t*", "pDataSize"),
Param("void*", "pData"),
Param("VkQueryResultFlags", "flags")]),
Proto("VkResult", "GetFormatInfo",
[Param("VkDevice", "device"),
Param("VkFormat", "format"),
Param("VkFormatInfoType", "infoType"),
Param("size_t*", "pDataSize"),
Param("void*", "pData")]),
Proto("VkResult", "CreateBuffer",
[Param("VkDevice", "device"),
Param("const VkBufferCreateInfo*", "pCreateInfo"),
Param("VkBuffer*", "pBuffer")]),
Proto("VkResult", "CreateBufferView",
[Param("VkDevice", "device"),
Param("const VkBufferViewCreateInfo*", "pCreateInfo"),
Param("VkBufferView*", "pView")]),
Proto("VkResult", "CreateImage",
[Param("VkDevice", "device"),
Param("const VkImageCreateInfo*", "pCreateInfo"),
Param("VkImage*", "pImage")]),
Proto("VkResult", "GetImageSubresourceInfo",
[Param("VkDevice", "device"),
Param("VkImage", "image"),
Param("const VkImageSubresource*", "pSubresource"),
Param("VkSubresourceInfoType", "infoType"),
Param("size_t*", "pDataSize"),
Param("void*", "pData")]),
Proto("VkResult", "CreateImageView",
[Param("VkDevice", "device"),
Param("const VkImageViewCreateInfo*", "pCreateInfo"),
Param("VkImageView*", "pView")]),
Proto("VkResult", "CreateColorAttachmentView",
[Param("VkDevice", "device"),
Param("const VkColorAttachmentViewCreateInfo*", "pCreateInfo"),
Param("VkColorAttachmentView*", "pView")]),
Proto("VkResult", "CreateDepthStencilView",
[Param("VkDevice", "device"),
Param("const VkDepthStencilViewCreateInfo*", "pCreateInfo"),
Param("VkDepthStencilView*", "pView")]),
Proto("VkResult", "CreateShader",
[Param("VkDevice", "device"),
Param("const VkShaderCreateInfo*", "pCreateInfo"),
Param("VkShader*", "pShader")]),
Proto("VkResult", "CreateGraphicsPipeline",
[Param("VkDevice", "device"),
Param("const VkGraphicsPipelineCreateInfo*", "pCreateInfo"),
Param("VkPipeline*", "pPipeline")]),
Proto("VkResult", "CreateGraphicsPipelineDerivative",
[Param("VkDevice", "device"),
Param("const VkGraphicsPipelineCreateInfo*", "pCreateInfo"),
Param("VkPipeline", "basePipeline"),
Param("VkPipeline*", "pPipeline")]),
Proto("VkResult", "CreateComputePipeline",
[Param("VkDevice", "device"),
Param("const VkComputePipelineCreateInfo*", "pCreateInfo"),
Param("VkPipeline*", "pPipeline")]),
Proto("VkResult", "StorePipeline",
[Param("VkDevice", "device"),
Param("VkPipeline", "pipeline"),
Param("size_t*", "pDataSize"),
Param("void*", "pData")]),
Proto("VkResult", "LoadPipeline",
[Param("VkDevice", "device"),
Param("size_t", "dataSize"),
Param("const void*", "pData"),
Param("VkPipeline*", "pPipeline")]),
Proto("VkResult", "LoadPipelineDerivative",
[Param("VkDevice", "device"),
Param("size_t", "dataSize"),
Param("const void*", "pData"),
Param("VkPipeline", "basePipeline"),
Param("VkPipeline*", "pPipeline")]),
Proto("VkResult", "CreatePipelineLayout",
[Param("VkDevice", "device"),
Param("const VkPipelineLayoutCreateInfo*", "pCreateInfo"),
Param("VkPipelineLayout*", "pPipelineLayout")]),
Proto("VkResult", "CreateSampler",
[Param("VkDevice", "device"),
Param("const VkSamplerCreateInfo*", "pCreateInfo"),
Param("VkSampler*", "pSampler")]),
Proto("VkResult", "CreateDescriptorSetLayout",
[Param("VkDevice", "device"),
Param("const VkDescriptorSetLayoutCreateInfo*", "pCreateInfo"),
Param("VkDescriptorSetLayout*", "pSetLayout")]),
Proto("VkResult", "CreateDescriptorPool",
[Param("VkDevice", "device"),
Param("VkDescriptorPoolUsage", "poolUsage"),
Param("uint32_t", "maxSets"),
Param("const VkDescriptorPoolCreateInfo*", "pCreateInfo"),
Param("VkDescriptorPool*", "pDescriptorPool")]),
Proto("VkResult", "ResetDescriptorPool",
[Param("VkDevice", "device"),
Param("VkDescriptorPool", "descriptorPool")]),
Proto("VkResult", "AllocDescriptorSets",
[Param("VkDevice", "device"),
Param("VkDescriptorPool", "descriptorPool"),
Param("VkDescriptorSetUsage", "setUsage"),
Param("uint32_t", "count"),
Param("const VkDescriptorSetLayout*", "pSetLayouts"),
Param("VkDescriptorSet*", "pDescriptorSets"),
Param("uint32_t*", "pCount")]),
Proto("void", "ClearDescriptorSets",
[Param("VkDevice", "device"),
Param("VkDescriptorPool", "descriptorPool"),
Param("uint32_t", "count"),
Param("const VkDescriptorSet*", "pDescriptorSets")]),
Proto("VkResult", "UpdateDescriptorSets",
[Param("VkDevice", "device"),
Param("uint32_t", "writeCount"),
Param("const VkWriteDescriptorSet*", "pDescriptorWrites"),
Param("uint32_t", "copyCount"),
Param("const VkCopyDescriptorSet*", "pDescriptorCopies")]),
Proto("VkResult", "CreateDynamicViewportState",
[Param("VkDevice", "device"),
Param("const VkDynamicVpStateCreateInfo*", "pCreateInfo"),
Param("VkDynamicVpState*", "pState")]),
Proto("VkResult", "CreateDynamicRasterState",
[Param("VkDevice", "device"),
Param("const VkDynamicRsStateCreateInfo*", "pCreateInfo"),
Param("VkDynamicRsState*", "pState")]),
Proto("VkResult", "CreateDynamicColorBlendState",
[Param("VkDevice", "device"),
Param("const VkDynamicCbStateCreateInfo*", "pCreateInfo"),
Param("VkDynamicCbState*", "pState")]),
Proto("VkResult", "CreateDynamicDepthStencilState",
[Param("VkDevice", "device"),
Param("const VkDynamicDsStateCreateInfo*", "pCreateInfo"),
Param("VkDynamicDsState*", "pState")]),
Proto("VkResult", "CreateCommandBuffer",
[Param("VkDevice", "device"),
Param("const VkCmdBufferCreateInfo*", "pCreateInfo"),
Param("VkCmdBuffer*", "pCmdBuffer")]),
Proto("VkResult", "BeginCommandBuffer",
[Param("VkCmdBuffer", "cmdBuffer"),
Param("const VkCmdBufferBeginInfo*", "pBeginInfo")]),
Proto("VkResult", "EndCommandBuffer",
[Param("VkCmdBuffer", "cmdBuffer")]),
Proto("VkResult", "ResetCommandBuffer",
[Param("VkCmdBuffer", "cmdBuffer")]),
Proto("void", "CmdBindPipeline",
[Param("VkCmdBuffer", "cmdBuffer"),
Param("VkPipelineBindPoint", "pipelineBindPoint"),
Param("VkPipeline", "pipeline")]),
Proto("void", "CmdBindDynamicStateObject",
[Param("VkCmdBuffer", "cmdBuffer"),
Param("VkStateBindPoint", "stateBindPoint"),
Param("VkDynamicStateObject", "state")]),
Proto("void", "CmdBindDescriptorSets",
[Param("VkCmdBuffer", "cmdBuffer"),
Param("VkPipelineBindPoint", "pipelineBindPoint"),
Param("uint32_t", "firstSet"),
Param("uint32_t", "setCount"),
Param("const VkDescriptorSet*", "pDescriptorSets"),
Param("uint32_t", "dynamicOffsetCount"),
Param("const uint32_t*", "pDynamicOffsets")]),
Proto("void", "CmdBindVertexBuffers",
[Param("VkCmdBuffer", "cmdBuffer"),
Param("uint32_t", "startBinding"),
Param("uint32_t", "bindingCount"),
Param("const VkBuffer*", "pBuffers"),
Param("const VkDeviceSize*", "pOffsets")]),
Proto("void", "CmdBindIndexBuffer",
[Param("VkCmdBuffer", "cmdBuffer"),
Param("VkBuffer", "buffer"),
Param("VkDeviceSize", "offset"),
Param("VkIndexType", "indexType")]),
Proto("void", "CmdDraw",
[Param("VkCmdBuffer", "cmdBuffer"),
Param("uint32_t", "firstVertex"),
Param("uint32_t", "vertexCount"),
Param("uint32_t", "firstInstance"),
Param("uint32_t", "instanceCount")]),
Proto("void", "CmdDrawIndexed",
[Param("VkCmdBuffer", "cmdBuffer"),
Param("uint32_t", "firstIndex"),
Param("uint32_t", "indexCount"),
Param("int32_t", "vertexOffset"),
Param("uint32_t", "firstInstance"),
Param("uint32_t", "instanceCount")]),
Proto("void", "CmdDrawIndirect",
[Param("VkCmdBuffer", "cmdBuffer"),
Param("VkBuffer", "buffer"),
Param("VkDeviceSize", "offset"),
Param("uint32_t", "count"),
Param("uint32_t", "stride")]),
Proto("void", "CmdDrawIndexedIndirect",
[Param("VkCmdBuffer", "cmdBuffer"),
Param("VkBuffer", "buffer"),
Param("VkDeviceSize", "offset"),
Param("uint32_t", "count"),
Param("uint32_t", "stride")]),
Proto("void", "CmdDispatch",
[Param("VkCmdBuffer", "cmdBuffer"),
Param("uint32_t", "x"),
Param("uint32_t", "y"),
Param("uint32_t", "z")]),
Proto("void", "CmdDispatchIndirect",
[Param("VkCmdBuffer", "cmdBuffer"),
Param("VkBuffer", "buffer"),
Param("VkDeviceSize", "offset")]),
Proto("void", "CmdCopyBuffer",
[Param("VkCmdBuffer", "cmdBuffer"),
Param("VkBuffer", "srcBuffer"),
Param("VkBuffer", "destBuffer"),
Param("uint32_t", "regionCount"),
Param("const VkBufferCopy*", "pRegions")]),
Proto("void", "CmdCopyImage",
[Param("VkCmdBuffer", "cmdBuffer"),
Param("VkImage", "srcImage"),
Param("VkImageLayout", "srcImageLayout"),
Param("VkImage", "destImage"),
Param("VkImageLayout", "destImageLayout"),
Param("uint32_t", "regionCount"),
Param("const VkImageCopy*", "pRegions")]),
Proto("void", "CmdBlitImage",
[Param("VkCmdBuffer", "cmdBuffer"),
Param("VkImage", "srcImage"),
Param("VkImageLayout", "srcImageLayout"),
Param("VkImage", "destImage"),
Param("VkImageLayout", "destImageLayout"),
Param("uint32_t", "regionCount"),
Param("const VkImageBlit*", "pRegions"),
Param("VkTexFilter", "filter")]),
Proto("void", "CmdCopyBufferToImage",
[Param("VkCmdBuffer", "cmdBuffer"),
Param("VkBuffer", "srcBuffer"),
Param("VkImage", "destImage"),
Param("VkImageLayout", "destImageLayout"),
Param("uint32_t", "regionCount"),
Param("const VkBufferImageCopy*", "pRegions")]),
Proto("void", "CmdCopyImageToBuffer",
[Param("VkCmdBuffer", "cmdBuffer"),
Param("VkImage", "srcImage"),
Param("VkImageLayout", "srcImageLayout"),
Param("VkBuffer", "destBuffer"),
Param("uint32_t", "regionCount"),
Param("const VkBufferImageCopy*", "pRegions")]),
Proto("void", "CmdUpdateBuffer",
[Param("VkCmdBuffer", "cmdBuffer"),
Param("VkBuffer", "destBuffer"),
Param("VkDeviceSize", "destOffset"),
Param("VkDeviceSize", "dataSize"),
Param("const uint32_t*", "pData")]),
Proto("void", "CmdFillBuffer",
[Param("VkCmdBuffer", "cmdBuffer"),
Param("VkBuffer", "destBuffer"),
Param("VkDeviceSize", "destOffset"),
Param("VkDeviceSize", "fillSize"),
Param("uint32_t", "data")]),
Proto("void", "CmdClearColorImage",
[Param("VkCmdBuffer", "cmdBuffer"),
Param("VkImage", "image"),
Param("VkImageLayout", "imageLayout"),
Param("const VkClearColor*", "pColor"),
Param("uint32_t", "rangeCount"),
Param("const VkImageSubresourceRange*", "pRanges")]),
Proto("void", "CmdClearDepthStencil",
[Param("VkCmdBuffer", "cmdBuffer"),
Param("VkImage", "image"),
Param("VkImageLayout", "imageLayout"),
Param("float", "depth"),
Param("uint32_t", "stencil"),
Param("uint32_t", "rangeCount"),
Param("const VkImageSubresourceRange*", "pRanges")]),
Proto("void", "CmdResolveImage",
[Param("VkCmdBuffer", "cmdBuffer"),
Param("VkImage", "srcImage"),
Param("VkImageLayout", "srcImageLayout"),
Param("VkImage", "destImage"),
Param("VkImageLayout", "destImageLayout"),
Param("uint32_t", "regionCount"),
Param("const VkImageResolve*", "pRegions")]),
Proto("void", "CmdSetEvent",
[Param("VkCmdBuffer", "cmdBuffer"),
Param("VkEvent", "event"),
Param("VkPipeEvent", "pipeEvent")]),
Proto("void", "CmdResetEvent",
[Param("VkCmdBuffer", "cmdBuffer"),
Param("VkEvent", "event"),
Param("VkPipeEvent", "pipeEvent")]),
Proto("void", "CmdWaitEvents",
[Param("VkCmdBuffer", "cmdBuffer"),
Param("VkWaitEvent", "waitEvent"),
Param("uint32_t", "eventCount"),
Param("const VkEvent*", "pEvents"),
Param("uint32_t", "memBarrierCount"),
Param("const void**", "ppMemBarriers")]),
Proto("void", "CmdPipelineBarrier",
[Param("VkCmdBuffer", "cmdBuffer"),
Param("VkWaitEvent", "waitEvent"),
Param("uint32_t", "pipeEventCount"),
Param("const VkPipeEvent*", "pPipeEvents"),
Param("uint32_t", "memBarrierCount"),
Param("const void**", "ppMemBarriers")]),
Proto("void", "CmdBeginQuery",
[Param("VkCmdBuffer", "cmdBuffer"),
Param("VkQueryPool", "queryPool"),
Param("uint32_t", "slot"),
Param("VkFlags", "flags")]),
Proto("void", "CmdEndQuery",
[Param("VkCmdBuffer", "cmdBuffer"),
Param("VkQueryPool", "queryPool"),
Param("uint32_t", "slot")]),
Proto("void", "CmdResetQueryPool",
[Param("VkCmdBuffer", "cmdBuffer"),
Param("VkQueryPool", "queryPool"),
Param("uint32_t", "startQuery"),
Param("uint32_t", "queryCount")]),
Proto("void", "CmdWriteTimestamp",
[Param("VkCmdBuffer", "cmdBuffer"),
Param("VkTimestampType", "timestampType"),
Param("VkBuffer", "destBuffer"),
Param("VkDeviceSize", "destOffset")]),
Proto("void", "CmdCopyQueryPoolResults",
[Param("VkCmdBuffer", "cmdBuffer"),
Param("VkQueryPool", "queryPool"),
Param("uint32_t", "startQuery"),
Param("uint32_t", "queryCount"),
Param("VkBuffer", "destBuffer"),
Param("VkDeviceSize", "destOffset"),
Param("VkDeviceSize", "destStride"),
Param("VkFlags", "flags")]),
Proto("void", "CmdInitAtomicCounters",
[Param("VkCmdBuffer", "cmdBuffer"),
Param("VkPipelineBindPoint", "pipelineBindPoint"),
Param("uint32_t", "startCounter"),
Param("uint32_t", "counterCount"),
Param("const uint32_t*", "pData")]),
Proto("void", "CmdLoadAtomicCounters",
[Param("VkCmdBuffer", "cmdBuffer"),
Param("VkPipelineBindPoint", "pipelineBindPoint"),
Param("uint32_t", "startCounter"),
Param("uint32_t", "counterCount"),
Param("VkBuffer", "srcBuffer"),
Param("VkDeviceSize", "srcOffset")]),
Proto("void", "CmdSaveAtomicCounters",
[Param("VkCmdBuffer", "cmdBuffer"),
Param("VkPipelineBindPoint", "pipelineBindPoint"),
Param("uint32_t", "startCounter"),
Param("uint32_t", "counterCount"),
Param("VkBuffer", "destBuffer"),
Param("VkDeviceSize", "destOffset")]),
Proto("VkResult", "CreateFramebuffer",
[Param("VkDevice", "device"),
Param("const VkFramebufferCreateInfo*", "pCreateInfo"),
Param("VkFramebuffer*", "pFramebuffer")]),
Proto("VkResult", "CreateRenderPass",
[Param("VkDevice", "device"),
Param("const VkRenderPassCreateInfo*", "pCreateInfo"),
Param("VkRenderPass*", "pRenderPass")]),
Proto("void", "CmdBeginRenderPass",
[Param("VkCmdBuffer", "cmdBuffer"),
Param("const VkRenderPassBegin*", "pRenderPassBegin")]),
Proto("void", "CmdEndRenderPass",
[Param("VkCmdBuffer", "cmdBuffer"),
Param("VkRenderPass", "renderPass")]),
],
)
wsi_lunarg = Extension(
name="VK_WSI_LunarG",
headers=["vk_wsi_lunarg.h"],
objects=[
"VkDisplayWSI",
"VkSwapChainWSI",
"VkDbgMsgCallback",
],
protos=[
Proto("VkResult", "GetDisplayInfoWSI",
[Param("VkDisplayWSI", "display"),
Param("VkDisplayInfoTypeWSI", "infoType"),
Param("size_t*", "pDataSize"),
Param("void*", "pData")]),
Proto("VkResult", "CreateSwapChainWSI",
[Param("VkDevice", "device"),
Param("const VkSwapChainCreateInfoWSI*", "pCreateInfo"),
Param("VkSwapChainWSI*", "pSwapChain")]),
Proto("VkResult", "DestroySwapChainWSI",
[Param("VkSwapChainWSI", "swapChain")]),
Proto("VkResult", "GetSwapChainInfoWSI",
[Param("VkSwapChainWSI", "swapChain"),
Param("VkSwapChainInfoTypeWSI", "infoType"),
Param("size_t*", "pDataSize"),
Param("void*", "pData")]),
Proto("VkResult", "QueuePresentWSI",
[Param("VkQueue", "queue"),
Param("const VkPresentInfoWSI*", "pPresentInfo")]),
# Proto("VkResult", "DbgCreateMsgCallback",
# [Param("VkInstance", "instance"),
# Param("VkFlags", "msgFlags"),
# Param("PFN_vkDbgMsgCallback", "pfnMsgCallback"),
# Param("void*", "pUserData"),
# Param("VkDbgMsgCallback*", "pMsgCallback")]),
],
)
extensions = [core, wsi_lunarg]
object_root_list = [
"VkInstance",
"VkPhysicalDevice",
"VkDisplayWSI",
"VkSwapChainWSI",
]
object_base_list = [
"VkDevice",
"VkQueue",
"VkDeviceMemory",
"VkObject"
]
object_list = [
"VkBuffer",
"VkBufferView",
"VkImage",
"VkImageView",
"VkColorAttachmentView",
"VkDepthStencilView",
"VkShader",
"VkPipeline",
"VkPipelineLayout",
"VkSampler",
"VkDescriptorSet",
"VkDescriptorSetLayout",
"VkDescriptorPool",
"VkDynamicStateObject",
"VkCmdBuffer",
"VkFence",
"VkSemaphore",
"VkEvent",
"VkQueryPool",
"VkFramebuffer",
"VkRenderPass"
]
object_dynamic_state_list = [
"VkDynamicVpState",
"VkDynamicRsState",
"VkDynamicCbState",
"VkDynamicDsState"
]
object_type_list = object_root_list + object_base_list + object_list + object_dynamic_state_list
object_parent_list = ["VkObject", "VkDynamicStateObject"]
headers = []
objects = []
protos = []
for ext in extensions:
headers.extend(ext.headers)
objects.extend(ext.objects)
protos.extend(ext.protos)
proto_names = [proto.name for proto in protos]
def parse_vk_h(filename):
# read object and protoype typedefs
object_lines = []
proto_lines = []
with open(filename, "r") as fp:
for line in fp:
line = line.strip()
if line.startswith("VK_DEFINE"):
begin = line.find("(") + 1
end = line.find(",")
# extract the object type
object_lines.append(line[begin:end])
if line.startswith("typedef") and line.endswith(");"):
# drop leading "typedef " and trailing ");"
proto_lines.append(line[8:-2])
# parse proto_lines to protos
protos = []
for line in proto_lines:
first, rest = line.split(" (VKAPI *PFN_vk")
second, third = rest.split(")(")
# get the return type, no space before "*"
proto_ret = "*".join([t.rstrip() for t in first.split("*")])
# get the name
proto_name = second.strip()
# get the list of params
param_strs = third.split(", ")
params = []
for s in param_strs:
ty, name = s.rsplit(" ", 1)
# no space before "*"
ty = "*".join([t.rstrip() for t in ty.split("*")])
# attach [] to ty
idx = name.rfind("[")
if idx >= 0:
ty += name[idx:]
name = name[:idx]
params.append(Param(ty, name))
protos.append(Proto(proto_ret, proto_name, params))
# make them an extension and print
ext = Extension("VK_CORE",
headers=["vulkan.h", "vk_debug_report_lunarg.h"],
objects=object_lines,
protos=protos)
print("core =", str(ext))
print("")
print("typedef struct VkLayerDispatchTable_")
print("{")
for proto in ext.protos:
print(" vk%sType %s;" % (proto.name, proto.name))
print("} VkLayerDispatchTable;")
if __name__ == "__main__":
parse_vk_h("include/vulkan.h")