#!/usr/bin/python3 -i
#
# Copyright 2023 The Khronos Group Inc.
# Copyright 2023 Valve Corporation
# Copyright 2023 LunarG, Inc.
#
# SPDX-License-Identifier: Apache-2.0
import os
from generators.vulkan_object import (Format)
from generators.base_generator import BaseGenerator
# Make C name friendly class name
def getClassName(className: str) -> str:
return className.replace('-', '').replace(' ', '_').upper()
def formatHasDepth(format: Format) -> bool:
return any(x.type == 'D' for x in format.components)
def formatHasStencil(format: Format) -> bool:
return any(x.type == 'S' for x in format.components)
def formatHasEqualBitsize(format: Format, bitsize: str) -> bool:
return all(x.bits == bitsize for x in format.components)
# True if all components are same numericFormat
def formatHasNumericFormat(format: Format, numericFormat: str) -> bool:
return all(x.numericFormat == numericFormat for x in format.components)
class FormatUtilsOutputGenerator(BaseGenerator):
def __init__(self):
BaseGenerator.__init__(self)
self.maxPlaneCount = 1
self.maxComponentCount = 1
self.compressedFormats = dict()
self.depthFormats = dict()
self.stencilFormats = dict()
self.numericFormats = set()
# Lots of switch statements share same ending
self.commonBoolSwitch = ''' return true;
default:
return false;
}
}
'''
#
# Called at beginning of processing as file is opened
def generate(self):
self.maxPlaneCount = max([len(format.planes) for format in self.vk.formats.values()])
self.maxComponentCount = max([len(format.components) for format in self.vk.formats.values()])
for format in [x for x in self.vk.formats.values() if x.compressed]:
compressed = format.compressed.replace(' ', '_')
if compressed not in self.compressedFormats:
# create list if first time
self.compressedFormats[compressed] = []
self.compressedFormats[compressed].append(format.name)
for format in self.vk.formats.values():
for component in format.components:
if component.type == 'D':
self.depthFormats[format.name] = component
elif component.type == 'S':
self.stencilFormats[format.name] = component
self.numericFormats.add(component.numericFormat)
out = []
out.append(f'''// *** THIS FILE IS GENERATED - DO NOT EDIT ***
// See {os.path.basename(__file__)} for modifications
// Copyright 2023 The Khronos Group Inc.
// Copyright 2023 Valve Corporation
// Copyright 2023 LunarG, Inc.
//
// SPDX-License-Identifier: Apache-2.0
''')
out.append('''
#pragma once
// clang-format off
#ifdef __cplusplus
extern "C" {
#endif
#include <vulkan/vulkan.h>
#include <stdbool.h>
''')
out.append('#define VKU_FORMAT_INVALID_INDEX 0xFFFFFFFF\n')
out.append(f'#define VKU_FORMAT_MAX_PLANES {self.maxPlaneCount}\n')
out.append(f'#define VKU_FORMAT_MAX_COMPONENTS {self.maxComponentCount}\n')
out.append('\n')
out.append('enum VKU_FORMAT_NUMERICAL_TYPE {\n')
out.append(' VKU_FORMAT_NUMERICAL_TYPE_NONE = 0,\n')
for index, numericFormat in enumerate(sorted(self.numericFormats), start=1):
out.append(f' VKU_FORMAT_NUMERICAL_TYPE_{numericFormat}')
out.append(',\n')
out.append('};\n')
out.append('\n')
out.append('enum VKU_FORMAT_COMPATIBILITY_CLASS {\n')
out.append(' VKU_FORMAT_COMPATIBILITY_CLASS_NONE = 0,\n')
classNames = set()
for f in self.vk.formats.values():
classNames.add(getClassName(f.className))
for className in sorted(classNames):
out.append(f' VKU_FORMAT_COMPATIBILITY_CLASS_{className}')
out.append(',\n')
out.append('};\n')
out.append('// Return the plane index of a given VkImageAspectFlagBits.\n')
out.append('// VK_IMAGE_ASPECT_PLANE_0_BIT -> 0\n')
out.append('// VK_IMAGE_ASPECT_PLANE_1_BIT -> 1\n')
out.append('// VK_IMAGE_ASPECT_PLANE_2_BIT -> 2\n')
out.append('// <any other value> -> VKU_FORMAT_INVALID_INDEX\n')
out.append('inline uint32_t vkuGetPlaneIndex(VkImageAspectFlagBits aspect);\n\n')
for numericFormat in sorted(self.numericFormats):
out.append(f'// Returns whether a VkFormat is of the numerical format {numericFormat}\n')
out.append('// Format must only contain one numerical format, so formats like D16_UNORM_S8_UINT always return false\n')
out.append(f'inline bool vkuFormatIs{numericFormat}(VkFormat format);\n\n')
out.append('''// Returns whether the type of a VkFormat is a OpTypeInt (SPIR-V) from "Interpretation of Numeric Format" table
inline bool vkuFormatIsSampledInt(VkFormat format);
// Returns whether the type of a VkFormat is a OpTypeFloat (SPIR-V) from "Interpretation of Numeric Format" table
inline bool vkuFormatIsSampledFloat(VkFormat format);
''')
for key in sorted(self.compressedFormats.keys()):
out.append(f'// Returns whether a VkFormat is a compressed format of type {key}\n')
out.append(f'inline bool vkuFormatIsCompressed_{key}(VkFormat format);\n\n')
out.append('// Returns whether a VkFormat is of any compressed format type\n')
out.append('inline bool vkuFormatIsCompressed(VkFormat format);\n')
out.append('''
// Returns whether a VkFormat is either a depth or stencil format
inline bool vkuFormatIsDepthOrStencil(VkFormat format);
// Returns whether a VkFormat is a depth and stencil format
inline bool vkuFormatIsDepthAndStencil(VkFormat format);
// Returns whether a VkFormat is a depth only format
inline bool vkuFormatIsDepthOnly(VkFormat format);
// Returns whether a VkFormat is a stencil only format
inline bool vkuFormatIsStencilOnly(VkFormat format);
// Returns whether a VkFormat has a depth component
inline bool vkuFormatHasDepth(VkFormat format) { return (vkuFormatIsDepthOnly(format) || vkuFormatIsDepthAndStencil(format)); }
// Returns whether a VkFormat has a stencil component
inline bool vkuFormatHasStencil(VkFormat format) { return (vkuFormatIsStencilOnly(format) || vkuFormatIsDepthAndStencil(format)); }
// Returns the size of the depth component in bits if it has one. Otherwise it returns 0
inline uint32_t vkuFormatDepthSize(VkFormat format);
// Returns the size of the stencil component in bits if it has one. Otherwise it returns 0
inline uint32_t vkuFormatStencilSize(VkFormat format);
// Returns the numerical type of the depth component if it has one. Otherwise it returns VKU_FORMAT_NUMERICAL_TYPE_NONE
inline enum VKU_FORMAT_NUMERICAL_TYPE vkuFormatDepthNumericalType(VkFormat format);
// Returns the numerical type of the stencil component if it has one. Otherwise it returns VKU_FORMAT_NUMERICAL_TYPE_NONE
inline enum VKU_FORMAT_NUMERICAL_TYPE vkuFormatStencilNumericalType(VkFormat format);
// Returns whether a VkFormat is packed
inline bool vkuFormatIsPacked(VkFormat format);
// Returns whether a VkFormat is YCbCr
// This corresponds to formats with _444, _422, or _420 in their name
inline bool vkuFormatRequiresYcbcrConversion(VkFormat format);
// Returns whether a VkFormat is XChromaSubsampled
// This corresponds to formats with _422 or 420 in their name
inline bool vkuFormatIsXChromaSubsampled(VkFormat format);
// Returns whether a VkFormat is YChromaSubsampled
// This corresponds to formats with _420 in their name
inline bool vkuFormatIsYChromaSubsampled(VkFormat format);
// Returns whether a VkFormat is Multiplane
// Single-plane "_422" formats are treated as 2x1 compressed (for copies)
inline bool vkuFormatIsSinglePlane_422(VkFormat format);
// Returns number of planes in format (which is 1 by default)
inline uint32_t vkuFormatPlaneCount(VkFormat format);
// Returns whether a VkFormat is multiplane
inline bool vkuFormatIsMultiplane(VkFormat format) { return ((vkuFormatPlaneCount(format)) > 1u); }
// Returns a VkFormat that is compatible with a given plane of a multiplane format
// Will return VK_FORMAT_UNDEFINED if given a plane aspect that doesn't exist for the format
inline VkFormat vkuFindMultiplaneCompatibleFormat(VkFormat mp_fmt, VkImageAspectFlagBits plane_aspect);
// Returns the extent divisors of a multiplane format given a plane
// Will return {1, 1} if given a plane aspect that doesn't exist for the VkFormat
inline VkExtent2D vkuFindMultiplaneExtentDivisors(VkFormat mp_fmt, VkImageAspectFlagBits plane_aspect);
// Returns the count of components in a VkFormat
inline uint32_t vkuFormatComponentCount(VkFormat format);
// Returns the texel block extent of a VkFormat
inline VkExtent3D vkuFormatTexelBlockExtent(VkFormat format);
// Returns the Compatibility Class of a VkFormat as defined by the spec
inline enum VKU_FORMAT_COMPATIBILITY_CLASS vkuFormatCompatibilityClass(VkFormat format);
// Return true if a VkFormat is 'normal', with one texel per format element
inline bool vkuFormatElementIsTexel(VkFormat format);
// Return size, in bytes, of one element of a VkFormat
// Format must not be a depth, stencil, or multiplane format
inline uint32_t vkuFormatElementSize(VkFormat format);
// Return the size in bytes of one texel of a VkFormat
// For compressed or multi-plane, this may be a fractional number
inline uint32_t vkuFormatElementSizeWithAspect(VkFormat format, VkImageAspectFlagBits aspectMask);
// Return the size in bytes of one texel of a VkFormat
// Format must not be a depth, stencil, or multiplane format
inline double vkuFormatTexelSize(VkFormat format);
// Return the size in bytes of one texel of a VkFormat
// For compressed or multi-plane, this may be a fractional number
inline double vkuFormatTexelSizeWithAspect(VkFormat format, VkImageAspectFlagBits aspectMask);
''')
for bits in ['8', '16', '32', '64']:
out.append(f'// Returns whether a VkFormat contains only {bits}-bit sized components\n')
out.append(f'inline bool vkuFormatIs{bits}bit(VkFormat format);\n\n')
out.append('''// Returns whether a VkFormat has a component of a given size
inline bool vkuFormatHasComponentSize(VkFormat format, uint32_t size);
// Returns whether a VkFormat has a Red color component
inline bool vkuFormatHasRed(VkFormat format);
// Returns whether a VkFormat has a Green color component
inline bool vkuFormatHasGreen(VkFormat format);
// Returns whether a VkFormat has a Blue color component
inline bool vkuFormatHasBlue(VkFormat format);
// Returns whether a VkFormat has a Alpha color component
inline bool vkuFormatHasAlpha(VkFormat format);
// Returns whether a VkFormat is equal to VK_FORMAT_UNDEFINED
inline bool vkuFormatIsUndefined(VkFormat format) { return (format == VK_FORMAT_UNDEFINED); }
// Returns whether a VkFormat is a "blocked image" as defined in the spec (vkspec.html#blocked-image)
inline bool vkuFormatIsBlockedImage(VkFormat format) {
return (vkuFormatIsCompressed(format) || vkuFormatIsSinglePlane_422(format));
}
// Returns whether a VkFormat is a "color format'. Because there is no official specification definition of
// "color format", it is defined here as anything that isn't a depth/stencil format, multiplane format, or the undefined format.
inline bool vkuFormatIsColor(VkFormat format) {
return !(vkuFormatIsUndefined(format) || vkuFormatIsDepthOrStencil(format) || vkuFormatIsMultiplane(format));
}
enum VKU_FORMAT_COMPONENT_TYPE {
VKU_FORMAT_COMPONENT_TYPE_NONE,
VKU_FORMAT_COMPONENT_TYPE_R,
VKU_FORMAT_COMPONENT_TYPE_G,
VKU_FORMAT_COMPONENT_TYPE_B,
VKU_FORMAT_COMPONENT_TYPE_A,
VKU_FORMAT_COMPONENT_TYPE_D,
VKU_FORMAT_COMPONENT_TYPE_S,
};
// Compressed formats don't have a defined component size
const uint32_t VKU_FORMAT_COMPRESSED_COMPONENT = 0xFFFFFFFF;
struct VKU_FORMAT_COMPONENT_INFO {
enum VKU_FORMAT_COMPONENT_TYPE type;
uint32_t size; // bits
};
// Generic information for all formats
struct VKU_FORMAT_INFO {
enum VKU_FORMAT_COMPATIBILITY_CLASS compatibility;
uint32_t block_size; // bytes
uint32_t texel_per_block;
VkExtent3D block_extent;
uint32_t component_count;
struct VKU_FORMAT_COMPONENT_INFO components[VKU_FORMAT_MAX_COMPONENTS];
};
''')
out.append('inline const struct VKU_FORMAT_INFO vkuGetFormatInfo(VkFormat format) {\n')
out.append(' switch (format) {\n')
for f in self.vk.formats.values():
className = getClassName(f.className)
blockExtent = ', '.join(f.blockExtent) if f.blockExtent is not None else '1, 1, 1'
out.extend(f' case {f.name}: {{\n')
out.extend(f' struct VKU_FORMAT_INFO out = {{VKU_FORMAT_COMPATIBILITY_CLASS_{className}, {f.blockSize}, {f.texelsPerBlock}, {{{blockExtent}}}, {len(f.components)}, {{')
for index, component in enumerate(f.components):
bits = 'VKU_FORMAT_COMPRESSED_COMPONENT' if component.bits == 'compressed' else component.bits
out.append(f'{{VKU_FORMAT_COMPONENT_TYPE_{component.type}, {bits}}}')
if index + 1 != len(f.components):
out.append(', ')
out.append('}};\n')
out.append(' return out; }\n')
out.append('''
default: {
// return values for VK_FORMAT_UNDEFINED
struct VKU_FORMAT_INFO out = { VKU_FORMAT_COMPATIBILITY_CLASS_NONE, 0, 0, {0, 0, 0}, 0, {{VKU_FORMAT_COMPONENT_TYPE_NONE, 0}, {VKU_FORMAT_COMPONENT_TYPE_NONE, 0}, {VKU_FORMAT_COMPONENT_TYPE_NONE, 0}, {VKU_FORMAT_COMPONENT_TYPE_NONE, 0}} };
return out;
}
};
}
struct VKU_FORMAT_PER_PLANE_COMPATIBILITY {
uint32_t width_divisor;
uint32_t height_divisor;
VkFormat compatible_format;
};
// Information for multiplanar formats
struct VKU_FORMAT_MULTIPLANE_COMPATIBILITY {
struct VKU_FORMAT_PER_PLANE_COMPATIBILITY per_plane[VKU_FORMAT_MAX_PLANES];
};
''')
out.append('// Source: Vulkan spec Table 47. Plane Format Compatibility Table\n')
out.append('inline const struct VKU_FORMAT_MULTIPLANE_COMPATIBILITY vkuGetFormatCompatibility(VkFormat format) {\n')
out.append(' switch (format) {\n')
for format in [x for x in self.vk.formats.values() if x.planes]:
out.extend(f' case {format.name}: {{\n')
out.append(' struct VKU_FORMAT_MULTIPLANE_COMPATIBILITY out = {{')
for index, plane in enumerate(format.planes):
if (index != plane.index):
self.logMsg('error', 'index of planes were not added in order')
out.append(f'{{{plane.widthDivisor}, {plane.heightDivisor}, {plane.compatible} }}')
if index + 1 != self.maxPlaneCount:
out.append(', ')
# pad any 'empty' elements
if len(format.planes) < self.maxPlaneCount:
for index in range(len(format.planes), self.maxPlaneCount):
out.append('{1, 1, VK_FORMAT_UNDEFINED }')
if index + 1 != self.maxPlaneCount:
out.append(', ')
out.append('}};\n')
out.append(' return out; }\n')
out.append(' default: {\n')
out.append(' struct VKU_FORMAT_MULTIPLANE_COMPATIBILITY out = {{{1, 1, VK_FORMAT_UNDEFINED}, {1, 1, VK_FORMAT_UNDEFINED}, {1, 1, VK_FORMAT_UNDEFINED}}};\n')
out.append(' return out; }\n')
out.append(' };\n')
out.append('}\n')
for numericFormat in sorted(self.numericFormats):
out.append(f'\n// Return true if all components in a format are an {numericFormat}\n')
out.append(f'bool vkuFormatIs{numericFormat}(VkFormat format) {{\n')
out.append(' switch (format) {\n')
out.extend([f' case {f.name}:\n' for f in self.vk.formats.values() if formatHasNumericFormat(f, numericFormat)])
out.append(self.commonBoolSwitch)
out.append('''
inline bool vkuFormatIsSampledInt(VkFormat format) { return (vkuFormatIsSINT(format) || vkuFormatIsUINT(format)); }
inline bool vkuFormatIsSampledFloat(VkFormat format) {
return (vkuFormatIsUNORM(format) || vkuFormatIsSNORM(format) ||
vkuFormatIsUSCALED(format) || vkuFormatIsSSCALED(format) ||
vkuFormatIsUFLOAT(format) || vkuFormatIsSFLOAT(format) ||
vkuFormatIsSRGB(format));
}
''')
for key in sorted(self.compressedFormats.keys()):
out.append(f'\n// Return true if a format is a {key} compressed image format\n')
out.append(f'bool vkuFormatIsCompressed_{key}(VkFormat format) {{\n')
out.append(' switch (format) {\n')
for f in sorted(self.compressedFormats[key]):
out.append(f' case {f}:\n')
out.append(self.commonBoolSwitch)
out.append('// Return true if a format is any compressed image format\n')
out.append('bool vkuFormatIsCompressed(VkFormat format) {\n')
out.append(' return\n')
for index, key in enumerate(sorted(self.compressedFormats.keys())):
out.append(f' vkuFormatIsCompressed_{key}(format)')
if (index !=len(self.compressedFormats.keys()) - 1):
out.append(' ||\n')
out.append(';\n')
out.append('}\n')
out.append('\n// Return true if format is a depth OR stencil format\n')
out.append('bool vkuFormatIsDepthOrStencil(VkFormat format) {\n')
out.append(' switch (format) {\n')
out.extend([f' case {f.name}:\n' for f in self.vk.formats.values() if formatHasDepth(f) or formatHasStencil(f)])
out.append(self.commonBoolSwitch)
out.append('\n// Return true if format is a depth AND stencil format\n')
out.append('bool vkuFormatIsDepthAndStencil(VkFormat format) {\n')
out.append(' switch (format) {\n')
out.extend([f' case {f.name}:\n' for f in self.vk.formats.values() if formatHasDepth(f) and formatHasStencil(f)])
out.append(self.commonBoolSwitch)
out.append('\n// Return true if format is a depth ONLY format\n')
out.append('bool vkuFormatIsDepthOnly(VkFormat format) {\n')
out.append(' switch (format) {\n')
out.extend([f' case {f.name}:\n' for f in self.vk.formats.values() if formatHasDepth(f) and not formatHasStencil(f)])
out.append(self.commonBoolSwitch)
out.append('\n// Return true if format is a stencil ONLY format\n')
out.append('bool vkuFormatIsStencilOnly(VkFormat format) {\n')
out.append(' switch (format) {\n')
out.extend([f' case {f.name}:\n' for f in self.vk.formats.values() if formatHasStencil(f) and not formatHasDepth(f)])
out.append(self.commonBoolSwitch)
out.append('\n// Returns size of depth component in bits')
out.append('\n// Returns zero if no depth component\n')
out.append('uint32_t vkuFormatDepthSize(VkFormat format) {\n')
out.append(' switch (format) {\n')
# sorts case statments together with same return value
used = []
for key, value in sorted(self.depthFormats.items()):
if key not in used:
for key_dup, value_dup in sorted(self.depthFormats.items()):
if value_dup.bits == value.bits:
used.append(key_dup)
out.append(f' case {key_dup}:\n')
out.append(f' return {value.bits};\n')
out.append(' default:\n')
out.append(' return 0;\n')
out.append(' }\n')
out.append('}\n')
out.append('\n// Returns size of stencil component in bits')
out.append('\n// Returns zero if no stencil component\n')
out.append('uint32_t vkuFormatStencilSize(VkFormat format) {\n')
out.append(' switch (format) {\n')
# sorts case statments together with same return value
used = []
for key, value in sorted(self.stencilFormats.items()):
if key not in used:
for key_dup, value_dup in sorted(self.stencilFormats.items()):
if value_dup.bits == value.bits:
used.append(key_dup)
out.append(f' case {key_dup}:\n')
out.append(f' return {value.bits};\n')
out.append(' default:\n')
out.append(' return 0;\n')
out.append(' }\n')
out.append('}\n')
out.append('\n// Returns NONE if no depth component\n')
out.append('enum VKU_FORMAT_NUMERICAL_TYPE vkuFormatDepthNumericalType(VkFormat format) {\n')
out.append(' switch (format) {\n')
# sorts case statments together with same return value
used = []
for key, value in sorted(self.depthFormats.items()):
if key not in used:
for key_dup, value_dup in sorted(self.depthFormats.items()):
if value_dup.numericFormat == value.numericFormat:
used.append(key_dup)
out.append(f' case {key_dup}:\n')
out.append(f' return VKU_FORMAT_NUMERICAL_TYPE_{value.numericFormat};\n')
out.append(' default:\n')
out.append(' return VKU_FORMAT_NUMERICAL_TYPE_NONE;\n')
out.append(' }\n')
out.append('}\n')
out.append('\n// Returns NONE if no stencil component\n')
out.append('enum VKU_FORMAT_NUMERICAL_TYPE vkuFormatStencilNumericalType(VkFormat format) {\n')
out.append(' switch (format) {\n')
# sorts case statments together with same return value
used = []
for key, value in sorted(self.stencilFormats.items()):
if key not in used:
for key_dup, value_dup in sorted(self.stencilFormats.items()):
if value_dup.numericFormat == value.numericFormat:
used.append(key_dup)
out.append(f' case {key_dup}:\n')
out.append(f' return VKU_FORMAT_NUMERICAL_TYPE_{value.numericFormat};\n')
out.append(' default:\n')
out.append(' return VKU_FORMAT_NUMERICAL_TYPE_NONE;\n')
out.append(' }\n')
out.append('}\n')
out.append('\n// Return true if format is a packed format\n')
out.append('bool vkuFormatIsPacked(VkFormat format) {\n')
out.append(' switch (format) {\n')
for name in [x.name for x in self.vk.formats.values() if x.packed]:
out.append(f' case {name}:\n')
out.append(self.commonBoolSwitch)
out.append('\n// Return true if format requires sampler YCBCR conversion\n')
out.append('// for VK_IMAGE_ASPECT_COLOR_BIT image views\n')
out.append('// Table found in spec\n')
out.append('bool vkuFormatRequiresYcbcrConversion(VkFormat format) {\n')
out.append(' switch (format) {\n')
for name in [x.name for x in self.vk.formats.values() if x.chroma]:
out.append(f' case {name}:\n')
out.append(self.commonBoolSwitch)
out.append('\nbool vkuFormatIsXChromaSubsampled(VkFormat format) {\n')
out.append(' switch (format) {\n')
for name in [x.name for x in self.vk.formats.values() if x.chroma == '420' or x.chroma == '422']:
out.append(f' case {name}:\n')
out.append(self.commonBoolSwitch)
out.append('\nbool vkuFormatIsYChromaSubsampled(VkFormat format) {\n')
out.append(' switch (format) {\n')
for name in [x.name for x in self.vk.formats.values() if x.chroma == '420']:
out.append(f' case {name}:\n')
out.append(self.commonBoolSwitch)
out.append('\nbool vkuFormatIsSinglePlane_422(VkFormat format) {\n')
out.append(' switch (format) {\n')
for name in [x.name for x in self.vk.formats.values() if x.chroma == '422' and not x.planes]:
out.append(f' case {name}:\n')
out.append(self.commonBoolSwitch)
out.append('\n// Returns number of planes in format (which is 1 by default)\n')
out.append('uint32_t vkuFormatPlaneCount(VkFormat format) {\n')
out.append(' switch (format) {\n')
# Use range to sort formats together
for i in range(2, self.maxPlaneCount + 1):
out.extend([f' case {f.name}:\n' for f in self.vk.formats.values() if len(f.planes) == i])
out.append(f' return {i};\n')
out.append(' default:\n')
out.append(' return 1;\n')
out.append(' }\n')
out.append('}\n')
out.append('''
// Will return VK_FORMAT_UNDEFINED if given a plane aspect that doesn't exist for the format
inline VkFormat vkuFindMultiplaneCompatibleFormat(VkFormat mp_fmt, VkImageAspectFlagBits plane_aspect) {
const uint32_t plane_idx = vkuGetPlaneIndex(plane_aspect);
const struct VKU_FORMAT_MULTIPLANE_COMPATIBILITY multiplane_compatibility = vkuGetFormatCompatibility(mp_fmt);
if ((multiplane_compatibility.per_plane[0].compatible_format == VK_FORMAT_UNDEFINED) || (plane_idx >= VKU_FORMAT_MAX_PLANES)) {
return VK_FORMAT_UNDEFINED;
}
return multiplane_compatibility.per_plane[plane_idx].compatible_format;
}
inline VkExtent2D vkuFindMultiplaneExtentDivisors(VkFormat mp_fmt, VkImageAspectFlagBits plane_aspect) {
VkExtent2D divisors = {1, 1};
const uint32_t plane_idx = vkuGetPlaneIndex(plane_aspect);
const struct VKU_FORMAT_MULTIPLANE_COMPATIBILITY multiplane_compatibility = vkuGetFormatCompatibility(mp_fmt);
if ((multiplane_compatibility.per_plane[0].compatible_format == VK_FORMAT_UNDEFINED) || (plane_idx >= VKU_FORMAT_MAX_PLANES)) {
return divisors;
}
divisors.width = multiplane_compatibility.per_plane[plane_idx].width_divisor;
divisors.height = multiplane_compatibility.per_plane[plane_idx].height_divisor;
return divisors;
}
inline uint32_t vkuFormatComponentCount(VkFormat format) { return vkuGetFormatInfo(format).component_count; }
inline VkExtent3D vkuFormatTexelBlockExtent(VkFormat format) { return vkuGetFormatInfo(format).block_extent; }
inline enum VKU_FORMAT_COMPATIBILITY_CLASS vkuFormatCompatibilityClass(VkFormat format) { return vkuGetFormatInfo(format).compatibility; }
inline bool vkuFormatElementIsTexel(VkFormat format) {
if (vkuFormatIsPacked(format) || vkuFormatIsCompressed(format) || vkuFormatIsSinglePlane_422(format) || vkuFormatIsMultiplane(format)) {
return false;
} else {
return true;
}
}
inline uint32_t vkuFormatElementSize(VkFormat format) {
return vkuFormatElementSizeWithAspect(format, VK_IMAGE_ASPECT_COLOR_BIT);
}
inline uint32_t vkuFormatElementSizeWithAspect(VkFormat format, VkImageAspectFlagBits aspectMask) {
// Depth/Stencil aspect have separate helper functions
if (aspectMask & VK_IMAGE_ASPECT_STENCIL_BIT) {
return vkuFormatStencilSize(format) / 8;
} else if (aspectMask & VK_IMAGE_ASPECT_DEPTH_BIT) {
return vkuFormatDepthSize(format) / 8;
} else if (vkuFormatIsMultiplane(format)) {
// Element of entire multiplane format is not useful,
// Want to get just a single plane as the lookup format
format = vkuFindMultiplaneCompatibleFormat(format, aspectMask);
}
return vkuGetFormatInfo(format).block_size;
}
inline double vkuFormatTexelSize(VkFormat format) {
return vkuFormatTexelSizeWithAspect(format, VK_IMAGE_ASPECT_COLOR_BIT);
}
inline double vkuFormatTexelSizeWithAspect(VkFormat format, VkImageAspectFlagBits aspectMask) {
double texel_size = (double)(vkuFormatElementSizeWithAspect(format, aspectMask));
VkExtent3D block_extent = vkuFormatTexelBlockExtent(format);
uint32_t texels_per_block = block_extent.width * block_extent.height * block_extent.depth;
if (1 < texels_per_block) {
texel_size /= (double)(texels_per_block);
}
return texel_size;
}
''')
# Could loop the components, but faster to just list these
for bits in ['8', '16', '32', '64']:
out.append(f'inline bool vkuFormatIs{bits}bit(VkFormat format) {{\n')
out.append(' switch (format) {\n')
out.extend([f' case {f.name}:\n' for f in self.vk.formats.values() if formatHasEqualBitsize(f, bits)])
out.append(self.commonBoolSwitch)
out.append('''
inline bool vkuFormatHasComponentSize(VkFormat format, uint32_t size) {
const struct VKU_FORMAT_INFO format_info = vkuGetFormatInfo(format);
bool equal_component_size = false;
for (size_t i = 0; i < VKU_FORMAT_MAX_COMPONENTS; i++) {
equal_component_size |= format_info.components[i].size == size;
}
return equal_component_size;
}
inline bool vkuFormatHasComponentType(VkFormat format, enum VKU_FORMAT_COMPONENT_TYPE component) {
const struct VKU_FORMAT_INFO format_info = vkuGetFormatInfo(format);
bool equal_component_type = false;
for (size_t i = 0; i < VKU_FORMAT_MAX_COMPONENTS; i++) {
equal_component_type |= format_info.components[i].type == component;
}
return equal_component_type;
}
inline bool vkuFormatHasRed(VkFormat format) { return vkuFormatHasComponentType(format, VKU_FORMAT_COMPONENT_TYPE_R); }
inline bool vkuFormatHasGreen(VkFormat format) { return vkuFormatHasComponentType(format, VKU_FORMAT_COMPONENT_TYPE_G); }
inline bool vkuFormatHasBlue(VkFormat format) { return vkuFormatHasComponentType(format, VKU_FORMAT_COMPONENT_TYPE_B); }
inline bool vkuFormatHasAlpha(VkFormat format) { return vkuFormatHasComponentType(format, VKU_FORMAT_COMPONENT_TYPE_A); }
inline uint32_t vkuGetPlaneIndex(VkImageAspectFlagBits aspect) {
switch (aspect) {
case VK_IMAGE_ASPECT_PLANE_0_BIT:
return 0;
case VK_IMAGE_ASPECT_PLANE_1_BIT:
return 1;
case VK_IMAGE_ASPECT_PLANE_2_BIT:
return 2;
default:
return VKU_FORMAT_INVALID_INDEX;
}
}
#ifdef __cplusplus
}
#endif
// clang-format off''')
self.write("".join(out))