quakeforge/libs/video/renderer/vulkan/vkparse.plist

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search = (
VkDebugUtilsMessageSeverityFlagBitsEXT,
VkPresentModeKHR,
VkSpecializationInfo,
VkPipelineShaderStageCreateInfo,
VkPipelineVertexInputStateCreateInfo,
VkPipelineInputAssemblyStateCreateInfo,
VkPipelineViewportStateCreateInfo,
VkPipelineRasterizationStateCreateInfo,
VkPipelineMultisampleStateCreateInfo,
VkPipelineDepthStencilStateCreateInfo,
VkPipelineColorBlendStateCreateInfo,
VkPipelineDynamicStateCreateInfo,
VkDescriptorSetLayoutBinding,
VkClearValue,
VkPhysicalDeviceLimits,
VkRenderPassMultiviewCreateInfo,
qfv_output_t,
qfv_descriptorsetlayoutinfo_t,
qfv_imageinfo_t,
qfv_imageviewinfo_t,
qfv_bufferinfo_t,
qfv_bufferviewinfo_t,
qfv_dependencyinfo_t,
qfv_attachmentinfo_t,
qfv_attachmentrefinfo_t,
qfv_attachmentsetinfo_t,
qfv_taskinfo_t,
qfv_pushconstantinfo_t,
qfv_pushconstantrangeinfo_t,
qfv_layoutinfo_t,
qfv_pipelineinfo_t,
qfv_subpassinfo_t,
qfv_framebufferinfo_t,
qfv_renderpassinfo_t,
qfv_renderinfo_t,
qfv_computeinfo_t,
qfv_processinfo_t,
qfv_stepinfo_t,
qfv_jobinfo_t,
qfv_samplercreateinfo_t,
qfv_samplerinfo_t,
);
parse = {
VkPhysicalDeviceLimits = readonly;
VkSpecializationInfo = {
mapEntries = {
type = (array, VkSpecializationMapEntry);
size = mapEntryCount;
values = pMapEntries;
};
data = {
type = (custom, (QFBinary, QFString),
parse_specialization_data);
fields = (dataSize, pData);
};
};
VkPipelineShaderStageCreateInfo = {
//flags = auto; reserved for future use (Bits enum does not exist)
stage = auto;
name = {
type = string;
string = pName;
};
module = {
type = (custom, QFString, parse_VkShaderModule);
fields = (module);
};
specializationInfo = {
type = (single, VkSpecializationInfo);
value = pSpecializationInfo;
};
};
VkShaderModuleCreateInfo = skip;
VkDescriptorSetLayoutBinding = {
binding = auto;
descriptorType = auto;
descriptorCount = auto;
stageFlags = auto;
// skip pImmutableSamplers (default to 0) until I know how it works
};
VkPipelineVertexInputStateCreateInfo = {
//flags = auto; reserved for future use (Bits enum does not exist)
bindings = {
type = (array, VkVertexInputBindingDescription);
size = vertexBindingDescriptionCount;
values = pVertexBindingDescriptions;
};
attributes = {
type = (array, VkVertexInputAttributeDescription);
size = vertexAttributeDescriptionCount;
values = pVertexAttributeDescriptions;
};
};
VkPipelineInputAssemblyStateCreateInfo = {
//flags = auto; reserved for future use (Bits enum does not exist)
topology = auto;
primitiveRestartEnable = auto;
};
VkPipelineViewportStateCreateInfo = {
//flags = auto; reserved for future use (Bits enum does not exist)
//FIXME redo as one array
viewports = {
type = (array, VkViewport);
size = viewportCount;
values = pViewports;
};
scissors = {
type = (array, VkRect2D);
size = scissorCount;
values = pScissors;
};
};
VkPipelineRasterizationStateCreateInfo = {
//flags = auto; reserved for future use (Bits enum does not exist)
depthClampEnable = auto;
rasterizerDiscardEnable = auto;
polygonMode = auto;
cullMode = auto;
frontFace = auto;
depthBiasEnable = auto;
depthBiasConstantFactor = auto;
depthBiasClamp = auto;
depthBiasSlopeFactor = auto;
lineWidth = auto;
};
VkPipelineMultisampleStateCreateInfo = {
//flags = auto; reserved for future use (Bits enum does not exist)
rasterizationSamples = auto;
sampleShadingEnable = auto;
minSampleShading = auto;
//pSampleMask = auto; FIXME disabled until correct size is known
alphaToCoverageEnable = auto;
alphaToOneEnable = auto;
};
VkPipelineDepthStencilStateCreateInfo = {
//flags = auto; reserved for future use (Bits enum does not exist)
depthTestEnable = auto;
depthWriteEnable = auto;
depthCompareOp = auto;
depthBoundsTestEnable = auto;
stencilTestEnable = auto;
front = auto;
back = auto;
minDepthBounds = auto;
maxDepthBounds = auto;
};
VkPipelineColorBlendStateCreateInfo = {
//flags = auto; reserved for future use (Bits enum does not exist)
logicOpEnable = auto;
logicOp = auto;
attachments = {
type = (array, VkPipelineColorBlendAttachmentState);
size = attachmentCount;
values = pAttachments;
};
blendConstants = {
type = (custom, QFString, parse_RGBA);
fields = (blendConstants);
};
};
VkPipelineDynamicStateCreateInfo = {
//flags = auto; reserved for future use (Bits enum does not exist)
dynamicState = {
type = (array, VkDynamicState);
size = dynamicStateCount;
values = pDynamicStates;
};
};
VkPipelineTessellationStateCreateInfo = {
//flags = auto; reserved for future use (Bits enum does not exist)
patchControlPoints = auto;
};
VkClearColorValue = skip;
VkClearValue = {
color = {
type = (custom, QFString, parse_RGBA);
fields = (color);
};
depthStencil = auto;
};
VkRenderPassMultiviewCreateInfo = {
viewMasks = {
type = (array, uint32_t);
size = subpassCount;
values = pViewMasks;
};
viewOffsets = {
type = (array, int32_t);
size = dependencyCount;
values = pViewOffsets;
};
correlationMasks = {
type = (array, uint32_t);
size = correlationMaskCount;
values = pCorrelationMasks;
};
};
qfv_output_s = {
.name = qfv_output_t;
extent = auto;
image = ignore;
view = ignore;
/* image = {
type = (readonly, VkImage);
value = image;
};
view = {
type = (readonly, VkImageView);
value = view;
};*/
format = auto;
frames = auto;
finalLayout = auto;
};
qfv_taskinfo_s = {
.name = qfv_taskinfo_t;
func = {
type = (custom, QFString, parse_task_function);
fields = (func, params, param_data);
};
params = {
type = (custom, QFArray, parse_task_params);
fields = (func, params, param_data);
};
};
qfv_attachmentrefinfo_s = {
.name = qfv_attachmentrefinfo_t;
.type = (QFString, QFDictionary);
.string = {
name = $name;
line = $item.line;
layout = $auto;
blend = "(VkPipelineColorBlendAttachmentState) { .colorWriteMask = VK_COLOR_COMPONENT_R_BIT | VK_COLOR_COMPONENT_G_BIT | VK_COLOR_COMPONENT_B_BIT | VK_COLOR_COMPONENT_A_BIT }"
};
.dictionary = {
.parse = auto;
name = $name;
line = $item.line;
};
layout = auto;
blend = auto;
};
qfv_attachmentsetinfo_s = {
.name = qfv_attachmentsetinfo_t;
input = {
type = (labeledarray, qfv_attachmentrefinfo_t, name);
size = num_input;
values = input;
};
color = {
type = (labeledarray, qfv_attachmentrefinfo_t, name);
size = num_color;
values = color;
};
resolve = {
type = (labeledarray, qfv_attachmentrefinfo_t, name);
values = resolve;
matchSize = color;
};
depth = {
type = (labeledsingle, qfv_attachmentrefinfo_t, name);
value = depth;
};
preserve = {
type = (array, qfv_reference_t);
size = num_preserve;
values = preserve;
};
};
qfv_pushconstantinfo_s = {
.name = qfv_pushconstantinfo_t;
.type = (QFString, QFDictionary);
.dictionary = {
offset = -1;
size = -1;
.parse = auto;
name = $name;
line = $item.line;
};
.string = {
offset = -1;
size = -1;
name = $name;
line = $item.line;
type = $auto;
};
type = auto;
//stageFlags = auto;
offset = auto;
size = auto;
};
qfv_pushconstantrangeinfo_s = {
.name = qfv_pushconstantrangeinfo_t;
.type = (QFDictionary);
.dictionary = {
.parse = {
type = (labeledarray, qfv_pushconstantinfo_t, name);
size = num_pushconstants;
values = pushconstants;
};
stageFlags = $name.auto;
};
stageFlags = auto;
};
qfv_layoutinfo_s = {
.name = qfv_layoutinfo_t;
descriptorSets = {
type = (array, qfv_reference_t);
size = num_sets;
values = sets;
};
pushConstants = {
type = (labeledarray, qfv_pushconstantrangeinfo_t, stageFlags);
size = num_pushconstantranges;
values = pushconstantranges;
};
};
qfv_pipelineinfo_s = {
.name = qfv_pipelineinfo_t;
color = auto;
name = {
type = string;
string = name;
};
disabled = auto;
tasks = {
type = (array, qfv_taskinfo_t);
size = num_tasks;
values = tasks;
};
flags = auto;
stages = {
type = (array, VkPipelineShaderStageCreateInfo);
size = num_graph_stages;
values = graph_stages;
};
stage = {
type = (single, VkPipelineShaderStageCreateInfo);
value = compute_stage;
};
dispatch = auto;
vertexInput = {
type = (single, VkPipelineVertexInputStateCreateInfo);
value = vertexInput;
};
inputAssembly = {
type = (single, VkPipelineInputAssemblyStateCreateInfo);
value = inputAssembly;
};
tessellation = {
type = (single, VkPipelineTessellationStateCreateInfo);
value = tessellation;
};
viewport = {
type = (single, VkPipelineViewportStateCreateInfo);
value = viewport;
};
rasterization = {
type = (single, VkPipelineRasterizationStateCreateInfo);
value = rasterization;
};
multisample = {
type = (single, VkPipelineMultisampleStateCreateInfo);
value = multisample;
};
depthStencil = {
type = (single, VkPipelineDepthStencilStateCreateInfo);
value = depthStencil;
};
colorBlend = {
type = (single, VkPipelineColorBlendStateCreateInfo);
value = colorBlend;
};
dynamic = {
type = (single, VkPipelineDynamicStateCreateInfo);
value = dynamic;
};
layout = auto;
};
qfv_subpassinfo_s = {
.name = qfv_subpassinfo_t;
name = {
type = string;
string = name;
};
color = auto;
dependencies = {
type = (labeledarray, qfv_dependencyinfo_t, name);
size = num_dependencies;
values = dependencies;
};
attachments = {
type = (single, qfv_attachmentsetinfo_t);
value = attachments;
};
pipelines = {
type = (labeledarray, qfv_pipelineinfo_t, name);
size = num_pipelines;
values = pipelines;
};
base_pipeline = {
//type = (labeledsingle, qfv_pipelineinfo_t, name);
type = (single, qfv_pipelineinfo_t, name);
value = base_pipeline;
};
};
qfv_attachmentinfo_s = {
.name = qfv_attachmentinfo_t;
.type = (QFString, QFDictionary);
.string = {
name = $name;
line = $item.line;
external = $item.string;
};
.dictionary = {
.parse = auto;
name = $name;
line = $item.line;
};
flags = auto;
format = auto;
samples = auto;
loadOp = auto;
storeOp = auto;
stencilLoadOp = auto;
stencilStoreOp = auto;
initialLayout = auto;
finalLayout = auto;
clearValue = auto;
view = auto;
};
qfv_framebufferinfo_s = {
.name = qfv_framebufferinfo_t;
width = auto;
height = auto;
layers = auto;
attachments = {
type = (labeledarray, qfv_attachmentinfo_t, name);
size = num_attachments;
values = attachments;
};
};
qfv_reference_s = {
.name = qfv_reference_t;
.type = QFString;
.string = {
name = $item.string;
line = $item.line;
};
};
qfv_renderpassinfo_s = {
.name = qfv_renderpassinfo_t;
color = auto;
framebuffer = auto;
subpasses = {
type = (labeledarray, qfv_subpassinfo_t, name);
size = num_subpasses;
values = subpasses;
};
output = auto;
};
qfv_descriptorsetlayoutinfo_s = {
.name = qfv_descriptorsetlayoutinfo_t;
flags = auto;
bindings = {
type = (array, VkDescriptorSetLayoutBinding);
size = num_bindings;
values = bindings;
};
};
qfv_bufferviewinfo_s = {
.name = qfv_bufferviewinfo_t;
buffer = auto;
format = auto;
offset = auto;
range = auto;
};
qfv_computeinfo_s = {
.name = qfv_computeinfo_t;
color = auto;
pipelines = {
type = (labeledarray, qfv_pipelineinfo_t, name);
size = num_pipelines;
values = pipelines;
};
};
qfv_renderinfo_s = {
.name = qfv_renderinfo_t;
color = auto;
renderpasses = {
type = (labeledarray, qfv_renderpassinfo_t, name);
size = num_renderpasses;
values = renderpasses;
};
};
qfv_processinfo_s = {
.name = qfv_processinfo_t;
color = auto;
tasks = {
type = (array, qfv_taskinfo_t);
size = num_tasks;
values = tasks;
};
};
qfv_stepinfo_s = {
.name = qfv_stepinfo_t;
color = auto;
dependencies = {
type = (array, qfv_reference_t);
size = num_dependencies;
values = dependencies;
};
render = {
type = (single, qfv_renderinfo_t, name);
value = render;
};
compute = {
type = (single, qfv_computeinfo_t, name);
value = compute;
};
process = {
type = (single, qfv_processinfo_t, name);
value = process;
};
};
qfv_jobinfo_s = {
.name = qfv_jobinfo_t;
properties = ignore;
output = ignore;
images = ignore;
views = ignore;
renderpasses = ignore;
images = {
type = (labeledarray, qfv_imageinfo_t, name);
size = num_images;
values = images;
};
imageviews = {
type = (labeledarray, qfv_imageviewinfo_t, name);
size = num_imageviews;
values = imageviews;
};
buffers = {
type = (labeledarray, qfv_bufferinfo_t, name);
size = num_buffers;
values = buffers;
};
bufferviews = {
type = (labeledarray, qfv_bufferviewinfo_t, name);
size = num_bufferviews;
values = bufferviews;
};
steps = {
type = (labeledarray, qfv_stepinfo_t, name);
size = num_steps;
values = steps;
};
descriptorSetLayouts = {
type = (labeledarray, qfv_descriptorsetlayoutinfo_t, name);
size = num_dslayouts;
values = dslayouts;
};
plitem = ignore;
};
qfv_samplercreateinfo_s = {
.name = qfv_samplercreateinfo_t;
flags = auto;
magFilter = auto;
minFilter = auto;
mipmapMode = auto;
addressModeU = auto;
addressModeV = auto;
addressModeW = auto;
mipLodBias = auto;
anisotropyEnable = auto;
maxAnisotropy = auto;
compareEnable = auto;
compareOp = auto;
minLod = auto;
maxLod = auto;
borderColor = auto;
unnormalizedCoordinates = auto;
sampler = ignore;
};
qfv_samplerinfo_s = {
.name = qfv_samplerinfo_t;
samplers = {
type = (labeledarray, qfv_samplercreateinfo_t, name);
size = num_samplers;
values = samplers;
};
plitem = ignore;
};
};