glslang/SPIRV/doc.cpp

2379 lines
107 KiB
C++
Executable File

//
//Copyright (C) 2014-2015 LunarG, Inc.
//
//All rights reserved.
//
//Redistribution and use in source and binary forms, with or without
//modification, are permitted provided that the following conditions
//are met:
//
// Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
//
// Redistributions in binary form must reproduce the above
// copyright notice, this list of conditions and the following
// disclaimer in the documentation and/or other materials provided
// with the distribution.
//
// Neither the name of 3Dlabs Inc. Ltd. nor the names of its
// contributors may be used to endorse or promote products derived
// from this software without specific prior written permission.
//
//THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
//"AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
//LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
//FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
//COPYRIGHT HOLDERS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
//INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
//BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
//LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
//CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
//LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN
//ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
//POSSIBILITY OF SUCH DAMAGE.
//
// Author: John Kessenich, LunarG
//
//
// 1) Programatically fill in instruction/operand information.
// This can be used for disassembly, printing documentation, etc.
//
// 2) Print documentation from this parameterization.
//
#include "doc.h"
#include <stdio.h>
#include <string.h>
#include <algorithm>
namespace spv {
//
// Whole set of functions that translate enumerants to their text strings for
// the specification (or their sanitized versions for auto-generating the
// spirv headers.
//
// Also, the ceilings are declared next to these, to help keep them in sync.
// Ceilings should be
// - one more than the maximum value an enumerant takes on, for non-mask enumerants
// (for non-sparse enums, this is the number of enumurants)
// - the number of bits consumed by the set of masks
// (for non-sparse mask enums, this is the number of enumurants)
//
const int SourceLanguageCeiling = 4;
const char* SourceString(int source)
{
switch (source) {
case 0: return "Unknown";
case 1: return "ESSL";
case 2: return "GLSL";
case 3: return "OpenCL";
case SourceLanguageCeiling:
default: return "Bad";
}
}
const int ExecutionModelCeiling = 7;
const char* ExecutionModelString(int model)
{
switch (model) {
case 0: return "Vertex";
case 1: return "TessellationControl";
case 2: return "TessellationEvaluation";
case 3: return "Geometry";
case 4: return "Fragment";
case 5: return "GLCompute";
case 6: return "Kernel";
case ExecutionModelCeiling:
default: return "Bad";
}
}
const int AddressingModelCeiling = 3;
const char* AddressingString(int addr)
{
switch (addr) {
case 0: return "Logical";
case 1: return "Physical32";
case 2: return "Physical64";
case AddressingModelCeiling:
default: return "Bad";
}
}
const int MemoryModelCeiling = 3;
const char* MemoryString(int mem)
{
switch (mem) {
case 0: return "Simple";
case 1: return "GLSL450";
case 2: return "OpenCL";
case MemoryModelCeiling:
default: return "Bad";
}
}
const int ExecutionModeCeiling = 32;
const char* ExecutionModeString(int mode)
{
switch (mode) {
case 0: return "Invocations";
case 1: return "SpacingEqual";
case 2: return "SpacingFractionalEven";
case 3: return "SpacingFractionalOdd";
case 4: return "VertexOrderCw";
case 5: return "VertexOrderCcw";
case 6: return "PixelCenterInteger";
case 7: return "OriginUpperLeft";
case 8: return "OriginLowerLeft";
case 9: return "EarlyFragmentTests";
case 10: return "PointMode";
case 11: return "Xfb";
case 12: return "DepthReplacing";
case 13: return "DepthAny";
case 14: return "DepthGreater";
case 15: return "DepthLess";
case 16: return "DepthUnchanged";
case 17: return "LocalSize";
case 18: return "LocalSizeHint";
case 19: return "InputPoints";
case 20: return "InputLines";
case 21: return "InputLinesAdjacency";
case 22: return "InputTriangles";
case 23: return "InputTrianglesAdjacency";
case 24: return "InputQuads";
case 25: return "InputIsolines";
case 26: return "OutputVertices";
case 27: return "OutputPoints";
case 28: return "OutputLineStrip";
case 29: return "OutputTriangleStrip";
case 30: return "VecTypeHint";
case 31: return "ContractionOff";
case ExecutionModeCeiling:
default: return "Bad";
}
}
const int StorageClassCeiling = 12;
const char* StorageClassString(int StorageClass)
{
switch (StorageClass) {
case 0: return "UniformConstant";
case 1: return "Input";
case 2: return "Uniform";
case 3: return "Output";
case 4: return "WorkgroupLocal";
case 5: return "WorkgroupGlobal";
case 6: return "PrivateGlobal";
case 7: return "Function";
case 8: return "Generic";
case 9: return "Bad";
case 10: return "AtomicCounter";
case 11: return "Image";
case StorageClassCeiling:
default: return "Bad";
}
}
const int DecorationCeiling = 42;
const char* DecorationString(int decoration)
{
switch (decoration) {
case 0: return "RelaxedPrecision";
case 1: return "SpecId";
case 2: return "Block";
case 3: return "BufferBlock";
case 4: return "RowMajor";
case 5: return "ColMajor";
case 6: return "ArrayStride";
case 7: return "MatrixStride";
case 8: return "GLSLShared";
case 9: return "GLSLPacked";
case 10: return "CPacked";
case 11: return "BuiltIn";
case 12: return "Smooth";
case 13: return "Noperspective";
case 14: return "Flat";
case 15: return "Patch";
case 16: return "Centroid";
case 17: return "Sample";
case 18: return "Invariant";
case 19: return "Restrict";
case 20: return "Aliased";
case 21: return "Volatile";
case 22: return "Constant";
case 23: return "Coherent";
case 24: return "Nonwritable";
case 25: return "Nonreadable";
case 26: return "Uniform";
case 27: return "NoStaticUse";
case 28: return "SaturatedConversion";
case 29: return "Stream";
case 30: return "Location";
case 31: return "Component";
case 32: return "Index";
case 33: return "Binding";
case 34: return "DescriptorSet";
case 35: return "Offset";
case 36: return "XfbBuffer";
case 37: return "XfbStride";
case 38: return "FuncParamAttr";
case 39: return "FP Rounding Mode";
case 40: return "FP Fast Math Mode";
case 41: return "Linkage Attributes";
case DecorationCeiling:
default: return "Bad";
}
}
const int BuiltInCeiling = 42;
const char* BuiltInString(int builtIn)
{
switch (builtIn) {
case 0: return "Position";
case 1: return "PointSize";
case 2: return "Bad";
case 3: return "ClipDistance";
case 4: return "CullDistance";
case 5: return "VertexId";
case 6: return "InstanceId";
case 7: return "PrimitiveId";
case 8: return "InvocationId";
case 9: return "Layer";
case 10: return "ViewportIndex";
case 11: return "TessLevelOuter";
case 12: return "TessLevelInner";
case 13: return "TessCoord";
case 14: return "PatchVertices";
case 15: return "FragCoord";
case 16: return "PointCoord";
case 17: return "FrontFacing";
case 18: return "SampleId";
case 19: return "SamplePosition";
case 20: return "SampleMask";
case 21: return "FragColor";
case 22: return "FragDepth";
case 23: return "HelperInvocation";
case 24: return "NumWorkgroups";
case 25: return "WorkgroupSize";
case 26: return "WorkgroupId";
case 27: return "LocalInvocationId";
case 28: return "GlobalInvocationId";
case 29: return "LocalInvocationIndex";
case 30: return "WorkDim";
case 31: return "GlobalSize";
case 32: return "EnqueuedWorkgroupSize";
case 33: return "GlobalOffset";
case 34: return "GlobalLinearId";
case 35: return "WorkgroupLinearId";
case 36: return "SubgroupSize";
case 37: return "SubgroupMaxSize";
case 38: return "NumSubgroups";
case 39: return "NumEnqueuedSubgroups";
case 40: return "SubgroupId";
case 41: return "SubgroupLocalInvocationId";
case BuiltInCeiling:
default: return "Bad";
}
}
const int DimensionCeiling = 6;
const char* DimensionString(int dim)
{
switch (dim) {
case 0: return "1D";
case 1: return "2D";
case 2: return "3D";
case 3: return "Cube";
case 4: return "Rect";
case 5: return "Buffer";
case DimensionCeiling:
default: return "Bad";
}
}
const int SamplerAddressingModeCeiling = 5;
const char* SamplerAddressingModeString(int mode)
{
switch (mode) {
case 0: return "None";
case 1: return "ClampToEdge";
case 2: return "Clamp";
case 3: return "Repeat";
case 4: return "RepeatMirrored";
case SamplerAddressingModeCeiling:
default: return "Bad";
}
}
const int SamplerFilterModeCeiling = 2;
const char* SamplerFilterModeString(int mode)
{
switch (mode) {
case 0: return "Nearest";
case 1: return "Linear";
case SamplerFilterModeCeiling:
default: return "Bad";
}
}
const int ImageFormatCeiling = 40;
const char* ImageFormatString(int format)
{
switch (format) {
case 0: return "Unknown";
// ES/Desktop float
case 1: return "Rgba32f";
case 2: return "Rgba16f";
case 3: return "R32f";
case 4: return "Rgba8";
case 5: return "Rgba8Snorm";
// Desktop float
case 6: return "Rg32f";
case 7: return "Rg16f";
case 8: return "R11fG11fB10f";
case 9: return "R16f";
case 10: return "Rgba16";
case 11: return "Rgb10A2";
case 12: return "Rg16";
case 13: return "Rg8";
case 14: return "R16";
case 15: return "R8";
case 16: return "Rgba16Snorm";
case 17: return "Rg16Snorm";
case 18: return "Rg8Snorm";
case 19: return "R16Snorm";
case 20: return "R8Snorm";
// ES/Desktop int
case 21: return "Rgba32i";
case 22: return "Rgba16i";
case 23: return "Rgba8i";
case 24: return "R32i";
// Desktop int
case 25: return "Rg32i";
case 26: return "Rg16i";
case 27: return "Rg8i";
case 28: return "R16i";
case 29: return "R8i";
// ES/Desktop uint
case 30: return "Rgba32ui";
case 31: return "Rgba16ui";
case 32: return "Rgba8ui";
case 33: return "R32ui";
// Desktop uint
case 34: return "Rgb10a2ui";
case 35: return "Rg32ui";
case 36: return "Rg16ui";
case 37: return "Rg8ui";
case 38: return "R16ui";
case 39: return "R8ui";
case ImageFormatCeiling:
default:
return "Bad";
}
}
const int ImageChannelOrderCeiling = 19;
const char* ImageChannelOrderString(int format)
{
switch (format) {
case 0: return "R";
case 1: return "A";
case 2: return "RG";
case 3: return "RA";
case 4: return "RGB";
case 5: return "RGBA";
case 6: return "BGRA";
case 7: return "ARGB";
case 8: return "Intensity";
case 9: return "Luminance";
case 10: return "Rx";
case 11: return "RGx";
case 12: return "RGBx";
case 13: return "Depth";
case 14: return "DepthStencil";
case 15: return "sRGB";
case 16: return "sRGBx";
case 17: return "sRGBA";
case 18: return "sBGRA";
case ImageChannelOrderCeiling:
default:
return "Bad";
}
}
const int ImageChannelDataTypeCeiling = 16;
const char* ImageChannelDataTypeString(int type)
{
switch (type)
{
case 0: return "SnormInt8";
case 1: return "SnormInt16";
case 2: return "UnormInt8";
case 3: return "UnormInt16";
case 4: return "UnormShort565";
case 5: return "UnormShort555";
case 6: return "UnormInt101010";
case 7: return "SignedInt8";
case 8: return "SignedInt16";
case 9: return "SignedInt32";
case 10: return "UnsignedInt8";
case 11: return "UnsignedInt16";
case 12: return "UnsignedInt32";
case 13: return "HalfFloat";
case 14: return "Float";
case 15: return "UnormInt24";
case ImageChannelDataTypeCeiling:
default:
return "Bad";
}
}
const int ImageOperandsCeiling = 7;
const char* ImageOperandsString(int format)
{
switch (format) {
case 0: return "Bias";
case 1: return "Lod";
case 2: return "Grad";
case 3: return "ConstOffset";
case 4: return "Offset";
case 5: return "ConstOffsets";
case 6: return "Sample";
case ImageOperandsCeiling:
default:
return "Bad";
}
}
const int FPFastMathCeiling = 5;
const char* FPFastMathString(int mode)
{
switch (mode) {
case 0: return "NotNaN";
case 1: return "NotInf";
case 2: return "NSZ";
case 3: return "AllowRecip";
case 4: return "Fast";
case FPFastMathCeiling:
default: return "Bad";
}
}
const int FPRoundingModeCeiling = 4;
const char* FPRoundingModeString(int mode)
{
switch (mode) {
case 0: return "RTE";
case 1: return "RTZ";
case 2: return "RTP";
case 3: return "RTN";
case FPRoundingModeCeiling:
default: return "Bad";
}
}
const int LinkageTypeCeiling = 2;
const char* LinkageTypeString(int type)
{
switch (type) {
case 0: return "Export";
case 1: return "Import";
case LinkageTypeCeiling:
default: return "Bad";
}
}
const int FuncParamAttrCeiling = 8;
const char* FuncParamAttrString(int attr)
{
switch (attr) {
case 0: return "Zext";
case 1: return "Sext";
case 2: return "ByVal";
case 3: return "Sret";
case 4: return "NoAlias";
case 5: return "NoCapture";
case 6: return "NoWrite";
case 7: return "NoReadWrite";
case FuncParamAttrCeiling:
default: return "Bad";
}
}
const int AccessQualifierCeiling = 3;
const char* AccessQualifierString(int attr)
{
switch (attr) {
case 0: return "ReadOnly";
case 1: return "WriteOnly";
case 2: return "ReadWrite";
case AccessQualifierCeiling:
default: return "Bad";
}
}
const int SelectControlCeiling = 2;
const char* SelectControlString(int cont)
{
switch (cont) {
case 0: return "Flatten";
case 1: return "DontFlatten";
case SelectControlCeiling:
default: return "Bad";
}
}
const int LoopControlCeiling = 2;
const char* LoopControlString(int cont)
{
switch (cont) {
case 0: return "Unroll";
case 1: return "DontUnroll";
case LoopControlCeiling:
default: return "Bad";
}
}
const int FunctionControlCeiling = 4;
const char* FunctionControlString(int cont)
{
switch (cont) {
case 0: return "Inline";
case 1: return "DontInline";
case 2: return "Pure";
case 3: return "Const";
case FunctionControlCeiling:
default: return "Bad";
}
}
const int MemorySemanticsCeiling = 10;
const char* MemorySemanticsString(int mem)
{
switch (mem) {
case 0: return "Relaxed";
case 1: return "SequentiallyConsistent";
case 2: return "Acquire";
case 3: return "Release";
case 4: return "UniformMemory";
case 5: return "SubgroupMemory";
case 6: return "WorkgroupLocalMemory";
case 7: return "WorkgroupGlobalMemory";
case 8: return "AtomicCounterMemory";
case 9: return "ImageMemory";
case MemorySemanticsCeiling:
default: return "Bad";
}
}
const int MemoryAccessCeiling = 2;
const char* MemoryAccessString(int mem)
{
switch (mem) {
case 0: return "Volatile";
case 1: return "Aligned";
case MemoryAccessCeiling:
default: return "Bad";
}
}
const int ScopeCeiling = 5;
const char* ScopeString(int mem)
{
switch (mem) {
case 0: return "CrossDevice";
case 1: return "Device";
case 2: return "Workgroup";
case 3: return "Subgroup";
case 4: return "Invocation";
case ScopeCeiling:
default: return "Bad";
}
}
const int GroupOperationCeiling = 3;
const char* GroupOperationString(int gop)
{
switch (gop)
{
case 0: return "Reduce";
case 1: return "InclusiveScan";
case 2: return "ExclusiveScan";
case GroupOperationCeiling:
default: return "Bad";
}
}
const int KernelEnqueueFlagsCeiling = 3;
const char* KernelEnqueueFlagsString(int flag)
{
switch (flag)
{
case 0: return "NoWait";
case 1: return "WaitKernel";
case 2: return "WaitWorkGroup";
case KernelEnqueueFlagsCeiling:
default: return "Bad";
}
}
const int KernelProfilingInfoCeiling = 1;
const char* KernelProfilingInfoString(int info)
{
switch (info)
{
case 0: return "CmdExecTime";
case KernelProfilingInfoCeiling:
default: return "Bad";
}
}
const int CapabilityCeiling = 36;
const char* CapabilityString(int info)
{
switch (info)
{
case 0: return "Matrix";
case 1: return "Shader";
case 2: return "Geometry";
case 3: return "Tessellation";
case 4: return "Addresses";
case 5: return "Linkage";
case 6: return "Kernel";
case 7: return "Vector16";
case 8: return "Float16Buffer";
case 9: return "Float16";
case 10: return "Float64";
case 11: return "Int64";
case 12: return "Int64Atomics";
case 13: return "ImageBasic";
case 14: return "ImageReadWrite";
case 15: return "ImageMipmap";
case 16: return "ImageSRGBWrite";
case 17: return "Pipes";
case 18: return "Groups";
case 19: return "DeviceEnqueue";
case 20: return "LiteralSampler";
case 21: return "AtomicStorage";
case 22: return "Int16";
case 23: return "TessellationPointSize";
case 24: return "GeometryPointSize";
case 25: return "ImageGatherExtended";
case 26: return "StorageImageExtendedFormats";
case 27: return "StorageImageMultisample";
case 28: return "UniformBufferArrayDynamicIndexing";
case 29: return "SampledImageArrayDynamicIndexing";
case 30: return "StorageBufferArrayDynamicIndexing";
case 31: return "StorageImageArrayDynamicIndexing";
case 32: return "ClipDistance";
case 33: return "CullDistance";
case 34: return "ImageCubeArray";
case 35: return "SampleRateShading";
case CapabilityCeiling:
default: return "Bad";
}
}
const char* OpcodeString(int op)
{
switch (op) {
case 0: return "OpNop";
case 1: return "OpUndef";
case 2: return "Bad";
case 3: return "OpSource";
case 4: return "OpSourceExtension";
case 5: return "OpName";
case 6: return "OpMemberName";
case 7: return "OpString";
case 8: return "OpLine";
case 9: return "Bad";
case 10: return "OpExtension";
case 11: return "OpExtInstImport";
case 12: return "OpExtInst";
case 13: return "Bad";
case 14: return "OpMemoryModel";
case 15: return "OpEntryPoint";
case 16: return "OpExecutionMode";
case 17: return "OpCapability";
case 18: return "Bad";
case 19: return "OpTypeVoid";
case 20: return "OpTypeBool";
case 21: return "OpTypeInt";
case 22: return "OpTypeFloat";
case 23: return "OpTypeVector";
case 24: return "OpTypeMatrix";
case 25: return "OpTypeImage";
case 26: return "OpTypeSampler";
case 27: return "OpTypeSampledImage";
case 28: return "OpTypeArray";
case 29: return "OpTypeRuntimeArray";
case 30: return "OpTypeStruct";
case 31: return "OpTypeOpaque";
case 32: return "OpTypePointer";
case 33: return "OpTypeFunction";
case 34: return "OpTypeEvent";
case 35: return "OpTypeDeviceEvent";
case 36: return "OpTypeReserveId";
case 37: return "OpTypeQueue";
case 38: return "OpTypePipe";
case 39: return "Bad";
case 40: return "Bad";
case 41: return "OpConstantTrue";
case 42: return "OpConstantFalse";
case 43: return "OpConstant";
case 44: return "OpConstantComposite";
case 45: return "OpConstantSampler";
case 46: return "OpConstantNull";
case 47: return "Bad";
case 48: return "OpSpecConstantTrue";
case 49: return "OpSpecConstantFalse";
case 50: return "OpSpecConstant";
case 51: return "OpSpecConstantComposite";
case 52: return "OpSpecConstantOp";
case 53: return "Bad";
case 54: return "OpFunction";
case 55: return "OpFunctionParameter";
case 56: return "OpFunctionEnd";
case 57: return "OpFunctionCall";
case 58: return "Bad";
case 59: return "OpVariable";
case 60: return "OpImageTexelPointer";
case 61: return "OpLoad";
case 62: return "OpStore";
case 63: return "OpCopyMemory";
case 64: return "OpCopyMemorySized";
case 65: return "OpAccessChain";
case 66: return "OpInBoundsAccessChain";
case 67: return "OpPtrAccessChain";
case 68: return "OpArrayLength";
case 69: return "OpGenericPtrMemSemantics";
case 70: return "Bad";
case 71: return "OpDecorate";
case 72: return "OpMemberDecorate";
case 73: return "OpDecorationGroup";
case 74: return "OpGroupDecorate";
case 75: return "OpGroupMemberDecorate";
case 76: return "Bad";
case 77: return "OpVectorExtractDynamic";
case 78: return "OpVectorInsertDynamic";
case 79: return "OpVectorShuffle";
case 80: return "OpCompositeConstruct";
case 81: return "OpCompositeExtract";
case 82: return "OpCompositeInsert";
case 83: return "OpCopyObject";
case 84: return "OpTranspose";
case 85: return "Bad";
case 86: return "OpSampledImage";
case 87: return "OpImageSampleImplicitLod";
case 88: return "OpImageSampleExplicitLod";
case 89: return "OpImageSampleDrefImplicitLod";
case 90: return "OpImageSampleDrefExplicitLod";
case 91: return "OpImageSampleProjImplicitLod";
case 92: return "OpImageSampleProjExplicitLod";
case 93: return "OpImageSampleProjDrefImplicitLod";
case 94: return "OpImageSampleProjDrefExplicitLod";
case 95: return "OpImageFetch";
case 96: return "OpImageGather";
case 97: return "OpImageDrefGather";
case 98: return "OpImageRead";
case 99: return "OpImageWrite";
case 100: return "OpImageQueryDim";
case 101: return "OpImageQueryFormat";
case 102: return "OpImageQueryOrder";
case 103: return "OpImageQuerySizeLod";
case 104: return "OpImageQuerySize";
case 105: return "OpImageQueryLod";
case 106: return "OpImageQueryLevels";
case 107: return "OpImageQuerySamples";
case 108: return "Bad";
case 109: return "OpConvertFToU";
case 110: return "OpConvertFToS";
case 111: return "OpConvertSToF";
case 112: return "OpConvertUToF";
case 113: return "OpUConvert";
case 114: return "OpSConvert";
case 115: return "OpFConvert";
case 116: return "OpQuantizeToF16";
case 117: return "OpConvertPtrToU";
case 118: return "OpSatConvertSToU";
case 119: return "OpSatConvertUToS";
case 120: return "OpConvertUToPtr";
case 121: return "OpPtrCastToGeneric";
case 122: return "OpGenericCastToPtr";
case 123: return "OpGenericCastToPtrExplicit";
case 124: return "OpBitcast";
case 125: return "Bad";
case 126: return "OpSNegate";
case 127: return "OpFNegate";
case 128: return "OpIAdd";
case 129: return "OpFAdd";
case 130: return "OpISub";
case 131: return "OpFSub";
case 132: return "OpIMul";
case 133: return "OpFMul";
case 134: return "OpUDiv";
case 135: return "OpSDiv";
case 136: return "OpFDiv";
case 137: return "OpUMod";
case 138: return "OpSRem";
case 139: return "OpSMod";
case 140: return "OpFRem";
case 141: return "OpFMod";
case 142: return "OpVectorTimesScalar";
case 143: return "OpMatrixTimesScalar";
case 144: return "OpVectorTimesMatrix";
case 145: return "OpMatrixTimesVector";
case 146: return "OpMatrixTimesMatrix";
case 147: return "OpOuterProduct";
case 148: return "OpDot";
case 149: return "OpIAddCarry";
case 150: return "OpISubBorrow";
case 151: return "OpIMulExtended";
case 152: return "Bad";
case 153: return "Bad";
case 154: return "OpAny";
case 155: return "OpAll";
case 156: return "OpIsNan";
case 157: return "OpIsInf";
case 158: return "OpIsFinite";
case 159: return "OpIsNormal";
case 160: return "OpSignBitSet";
case 161: return "OpLessOrGreater";
case 162: return "OpOrdered";
case 163: return "OpUnordered";
case 164: return "OpLogicalEqual";
case 165: return "OpLogicalNotEqual";
case 166: return "OpLogicalOr";
case 167: return "OpLogicalAnd";
case 168: return "OpLogicalNot";
case 169: return "OpSelect";
case 170: return "OpIEqual";
case 171: return "OpINotEqual";
case 172: return "OpUGreaterThan";
case 173: return "OpSGreaterThan";
case 174: return "OpUGreaterThanEqual";
case 175: return "OpSGreaterThanEqual";
case 176: return "OpULessThan";
case 177: return "OpSLessThan";
case 178: return "OpULessThanEqual";
case 179: return "OpSLessThanEqual";
case 180: return "OpFOrdEqual";
case 181: return "OpFUnordEqual";
case 182: return "OpFOrdNotEqual";
case 183: return "OpFUnordNotEqual";
case 184: return "OpFOrdLessThan";
case 185: return "OpFUnordLessThan";
case 186: return "OpFOrdGreaterThan";
case 187: return "OpFUnordGreaterThan";
case 188: return "OpFOrdLessThanEqual";
case 189: return "OpFUnordLessThanEqual";
case 190: return "OpFOrdGreaterThanEqual";
case 191: return "OpFUnordGreaterThanEqual";
case 192: return "Bad";
case 193: return "Bad";
case 194: return "OpShiftRightLogical";
case 195: return "OpShiftRightArithmetic";
case 196: return "OpShiftLeftLogical";
case 197: return "OpBitwiseOr";
case 198: return "OpBitwiseXor";
case 199: return "OpBitwiseAnd";
case 200: return "OpNot";
case 201: return "OpBitFieldInsert";
case 202: return "OpBitFieldSExtract";
case 203: return "OpBitFieldUExtract";
case 204: return "OpBitReverse";
case 205: return "OpBitCount";
case 206: return "Bad";
case 207: return "OpDPdx";
case 208: return "OpDPdy";
case 209: return "OpFwidth";
case 210: return "OpDPdxFine";
case 211: return "OpDPdyFine";
case 212: return "OpFwidthFine";
case 213: return "OpDPdxCoarse";
case 214: return "OpDPdyCoarse";
case 215: return "OpFwidthCoarse";
case 216: return "Bad";
case 217: return "Bad";
case 218: return "OpEmitVertex";
case 219: return "OpEndPrimitive";
case 220: return "OpEmitStreamVertex";
case 221: return "OpEndStreamPrimitive";
case 222: return "Bad";
case 223: return "Bad";
case 224: return "OpControlBarrier";
case 225: return "OpMemoryBarrier";
case 226: return "Bad";
case 227: return "OpAtomicLoad";
case 228: return "OpAtomicStore";
case 229: return "OpAtomicExchange";
case 230: return "OpAtomicCompareExchange";
case 231: return "OpAtomicCompareExchangeWeak";
case 232: return "OpAtomicIIncrement";
case 233: return "OpAtomicIDecrement";
case 234: return "OpAtomicIAdd";
case 235: return "OpAtomicISub";
case 236: return "OpAtomicSMin";
case 237: return "OpAtomicUMin";
case 238: return "OpAtomicSMax";
case 239: return "OpAtomicUMax";
case 240: return "OpAtomicAnd";
case 241: return "OpAtomicOr";
case 242: return "OpAtomicXor";
case 243: return "Bad";
case 244: return "Bad";
case 245: return "OpPhi";
case 246: return "OpLoopMerge";
case 247: return "OpSelectionMerge";
case 248: return "OpLabel";
case 249: return "OpBranch";
case 250: return "OpBranchConditional";
case 251: return "OpSwitch";
case 252: return "OpKill";
case 253: return "OpReturn";
case 254: return "OpReturnValue";
case 255: return "OpUnreachable";
case 256: return "OpLifetimeStart";
case 257: return "OpLifetimeStop";
case 258: return "Bad";
case 259: return "OpAsyncGroupCopy";
case 260: return "OpWaitGroupEvents";
case 261: return "OpGroupAll";
case 262: return "OpGroupAny";
case 263: return "OpGroupBroadcast";
case 264: return "OpGroupIAdd";
case 265: return "OpGroupFAdd";
case 266: return "OpGroupFMin";
case 267: return "OpGroupUMin";
case 268: return "OpGroupSMin";
case 269: return "OpGroupFMax";
case 270: return "OpGroupUMax";
case 271: return "OpGroupSMax";
case 272: return "Bad";
case 273: return "Bad";
case 274: return "OpReadPipe";
case 275: return "OpWritePipe";
case 276: return "OpReservedReadPipe";
case 277: return "OpReservedWritePipe";
case 278: return "OpReserveReadPipePackets";
case 279: return "OpReserveWritePipePackets";
case 280: return "OpCommitReadPipe";
case 281: return "OpCommitWritePipe";
case 282: return "OpIsValidReserveId";
case 283: return "OpGetNumPipePackets";
case 284: return "OpGetMaxPipePackets";
case 285: return "OpGroupReserveReadPipePackets";
case 286: return "OpGroupReserveWritePipePackets";
case 287: return "OpGroupCommitReadPipe";
case 288: return "OpGroupCommitWritePipe";
case 289: return "Bad";
case 290: return "Bad";
case 291: return "OpEnqueueMarker";
case 292: return "OpEnqueueKernel";
case 293: return "OpGetKernelNDrangeSubGroupCount";
case 294: return "OpGetKernelNDrangeMaxSubGroupSize";
case 295: return "OpGetKernelWorkGroupSize";
case 296: return "OpGetKernelPreferredWorkGroupSizeMultiple";
case 297: return "OpRetainEvent";
case 298: return "OpReleaseEvent";
case 299: return "OpCreateUserEvent";
case 300: return "OpIsValidEvent";
case 301: return "OpSetUserEventStatus";
case 302: return "OpCaptureEventProfilingInfo";
case 303: return "OpGetDefaultQueue";
case 304: return "OpBuildNDRange";
case OpcodeCeiling:
default:
return "Bad";
}
}
// The set of objects that hold all the instruction/operand
// parameterization information.
InstructionParameters InstructionDesc[OpcodeCeiling];
OperandParameters ExecutionModeOperands[ExecutionModeCeiling];
OperandParameters DecorationOperands[DecorationCeiling];
EnumDefinition OperandClassParams[OperandCount];
EnumParameters ExecutionModelParams[ExecutionModelCeiling];
EnumParameters AddressingParams[AddressingModelCeiling];
EnumParameters MemoryParams[MemoryModelCeiling];
EnumParameters ExecutionModeParams[ExecutionModeCeiling];
EnumParameters StorageParams[StorageClassCeiling];
EnumParameters SamplerAddressingModeParams[SamplerAddressingModeCeiling];
EnumParameters SamplerFilterModeParams[SamplerFilterModeCeiling];
EnumParameters ImageFormatParams[ImageFormatCeiling];
EnumParameters ImageChannelOrderParams[ImageChannelOrderCeiling];
EnumParameters ImageChannelDataTypeParams[ImageChannelDataTypeCeiling];
EnumParameters ImageOperandsParams[ImageOperandsCeiling];
EnumParameters FPFastMathParams[FPFastMathCeiling];
EnumParameters FPRoundingModeParams[FPRoundingModeCeiling];
EnumParameters LinkageTypeParams[LinkageTypeCeiling];
EnumParameters DecorationParams[DecorationCeiling];
EnumParameters BuiltInParams[BuiltInCeiling];
EnumParameters DimensionalityParams[DimensionCeiling];
EnumParameters FuncParamAttrParams[FuncParamAttrCeiling];
EnumParameters AccessQualifierParams[AccessQualifierCeiling];
EnumParameters GroupOperationParams[GroupOperationCeiling];
EnumParameters LoopControlParams[FunctionControlCeiling];
EnumParameters SelectionControlParams[SelectControlCeiling];
EnumParameters FunctionControlParams[FunctionControlCeiling];
EnumParameters MemorySemanticsParams[MemorySemanticsCeiling];
EnumParameters MemoryAccessParams[MemoryAccessCeiling];
EnumParameters ScopeParams[ScopeCeiling];
EnumParameters KernelEnqueueFlagsParams[KernelEnqueueFlagsCeiling];
EnumParameters KernelProfilingInfoParams[KernelProfilingInfoCeiling];
EnumParameters CapabilityParams[CapabilityCeiling];
// Set up all the parameterizing descriptions of the opcodes, operands, etc.
void Parameterize()
{
// only do this once.
static bool initialized = false;
if (initialized)
return;
initialized = true;
// Exceptions to having a result <id> and a resulting type <id>.
// (Everything is initialized to have both).
InstructionDesc[OpNop].setResultAndType(false, false);
InstructionDesc[OpSource].setResultAndType(false, false);
InstructionDesc[OpSourceExtension].setResultAndType(false, false);
InstructionDesc[OpExtension].setResultAndType(false, false);
InstructionDesc[OpExtInstImport].setResultAndType(true, false);
InstructionDesc[OpCapability].setResultAndType(false, false);
InstructionDesc[OpMemoryModel].setResultAndType(false, false);
InstructionDesc[OpEntryPoint].setResultAndType(false, false);
InstructionDesc[OpExecutionMode].setResultAndType(false, false);
InstructionDesc[OpTypeVoid].setResultAndType(true, false);
InstructionDesc[OpTypeBool].setResultAndType(true, false);
InstructionDesc[OpTypeInt].setResultAndType(true, false);
InstructionDesc[OpTypeFloat].setResultAndType(true, false);
InstructionDesc[OpTypeVector].setResultAndType(true, false);
InstructionDesc[OpTypeMatrix].setResultAndType(true, false);
InstructionDesc[OpTypeImage].setResultAndType(true, false);
InstructionDesc[OpTypeSampler].setResultAndType(true, false);
InstructionDesc[OpTypeSampledImage].setResultAndType(true, false);
InstructionDesc[OpTypeArray].setResultAndType(true, false);
InstructionDesc[OpTypeRuntimeArray].setResultAndType(true, false);
InstructionDesc[OpTypeStruct].setResultAndType(true, false);
InstructionDesc[OpTypeOpaque].setResultAndType(true, false);
InstructionDesc[OpTypePointer].setResultAndType(true, false);
InstructionDesc[OpTypeFunction].setResultAndType(true, false);
InstructionDesc[OpTypeEvent].setResultAndType(true, false);
InstructionDesc[OpTypeDeviceEvent].setResultAndType(true, false);
InstructionDesc[OpTypeReserveId].setResultAndType(true, false);
InstructionDesc[OpTypeQueue].setResultAndType(true, false);
InstructionDesc[OpTypePipe].setResultAndType(true, false);
InstructionDesc[OpFunctionEnd].setResultAndType(false, false);
InstructionDesc[OpStore].setResultAndType(false, false);
InstructionDesc[OpImageWrite].setResultAndType(false, false);
InstructionDesc[OpDecorationGroup].setResultAndType(true, false);
InstructionDesc[OpDecorate].setResultAndType(false, false);
InstructionDesc[OpMemberDecorate].setResultAndType(false, false);
InstructionDesc[OpGroupDecorate].setResultAndType(false, false);
InstructionDesc[OpGroupMemberDecorate].setResultAndType(false, false);
InstructionDesc[OpName].setResultAndType(false, false);
InstructionDesc[OpMemberName].setResultAndType(false, false);
InstructionDesc[OpString].setResultAndType(true, false);
InstructionDesc[OpLine].setResultAndType(false, false);
InstructionDesc[OpCopyMemory].setResultAndType(false, false);
InstructionDesc[OpCopyMemorySized].setResultAndType(false, false);
InstructionDesc[OpEmitVertex].setResultAndType(false, false);
InstructionDesc[OpEndPrimitive].setResultAndType(false, false);
InstructionDesc[OpEmitStreamVertex].setResultAndType(false, false);
InstructionDesc[OpEndStreamPrimitive].setResultAndType(false, false);
InstructionDesc[OpControlBarrier].setResultAndType(false, false);
InstructionDesc[OpMemoryBarrier].setResultAndType(false, false);
InstructionDesc[OpAtomicStore].setResultAndType(false, false);
InstructionDesc[OpLoopMerge].setResultAndType(false, false);
InstructionDesc[OpSelectionMerge].setResultAndType(false, false);
InstructionDesc[OpLabel].setResultAndType(true, false);
InstructionDesc[OpBranch].setResultAndType(false, false);
InstructionDesc[OpBranchConditional].setResultAndType(false, false);
InstructionDesc[OpSwitch].setResultAndType(false, false);
InstructionDesc[OpKill].setResultAndType(false, false);
InstructionDesc[OpReturn].setResultAndType(false, false);
InstructionDesc[OpReturnValue].setResultAndType(false, false);
InstructionDesc[OpUnreachable].setResultAndType(false, false);
InstructionDesc[OpLifetimeStart].setResultAndType(false, false);
InstructionDesc[OpLifetimeStop].setResultAndType(false, false);
InstructionDesc[OpCommitReadPipe].setResultAndType(false, false);
InstructionDesc[OpCommitWritePipe].setResultAndType(false, false);
InstructionDesc[OpGroupCommitWritePipe].setResultAndType(false, false);
InstructionDesc[OpGroupCommitReadPipe].setResultAndType(false, false);
InstructionDesc[OpCaptureEventProfilingInfo].setResultAndType(false, false);
InstructionDesc[OpSetUserEventStatus].setResultAndType(false, false);
InstructionDesc[OpRetainEvent].setResultAndType(false, false);
InstructionDesc[OpReleaseEvent].setResultAndType(false, false);
InstructionDesc[OpWaitGroupEvents].setResultAndType(false, false);
// Specific additional context-dependent operands
ExecutionModeOperands[ExecutionModeInvocations].push(OperandLiteralNumber, "Number of <<Invocation,invocations>>");
ExecutionModeOperands[ExecutionModeLocalSize].push(OperandLiteralNumber, "'x size'");
ExecutionModeOperands[ExecutionModeLocalSize].push(OperandLiteralNumber, "'y size'");
ExecutionModeOperands[ExecutionModeLocalSize].push(OperandLiteralNumber, "'z size'");
ExecutionModeOperands[ExecutionModeLocalSizeHint].push(OperandLiteralNumber, "'x size'");
ExecutionModeOperands[ExecutionModeLocalSizeHint].push(OperandLiteralNumber, "'y size'");
ExecutionModeOperands[ExecutionModeLocalSizeHint].push(OperandLiteralNumber, "'z size'");
ExecutionModeOperands[ExecutionModeOutputVertices].push(OperandLiteralNumber, "'Vertex count'");
ExecutionModeOperands[ExecutionModeVecTypeHint].push(OperandLiteralNumber, "'Vector type'");
DecorationOperands[DecorationStream].push(OperandLiteralNumber, "Stream number");
DecorationOperands[DecorationLocation].push(OperandLiteralNumber, "Location");
DecorationOperands[DecorationComponent].push(OperandLiteralNumber, "Component within a vector");
DecorationOperands[DecorationIndex].push(OperandLiteralNumber, "Index");
DecorationOperands[DecorationBinding].push(OperandLiteralNumber, "Binding point");
DecorationOperands[DecorationDescriptorSet].push(OperandLiteralNumber, "Descriptor set");
DecorationOperands[DecorationOffset].push(OperandLiteralNumber, "Byte offset");
DecorationOperands[DecorationXfbBuffer].push(OperandLiteralNumber, "XFB buffer number");
DecorationOperands[DecorationXfbStride].push(OperandLiteralNumber, "XFB stride");
DecorationOperands[DecorationArrayStride].push(OperandLiteralNumber, "Array stride");
DecorationOperands[DecorationMatrixStride].push(OperandLiteralNumber, "Matrix stride");
DecorationOperands[DecorationBuiltIn].push(OperandLiteralNumber, "See <<BuiltIn,*BuiltIn*>>");
DecorationOperands[DecorationFPRoundingMode].push(OperandFPRoundingMode, "floating-point rounding mode");
DecorationOperands[DecorationFPFastMathMode].push(OperandFPFastMath, "fast-math mode");
DecorationOperands[DecorationLinkageAttributes].push(OperandLiteralString, "name");
DecorationOperands[DecorationLinkageAttributes].push(OperandLinkageType, "linkage type");
DecorationOperands[DecorationFuncParamAttr].push(OperandFuncParamAttr, "function parameter attribute");
DecorationOperands[DecorationSpecId].push(OperandLiteralNumber, "Specialization Constant ID");
OperandClassParams[OperandSource].set(SourceLanguageCeiling, SourceString, 0);
OperandClassParams[OperandExecutionModel].set(ExecutionModelCeiling, ExecutionModelString, ExecutionModelParams);
OperandClassParams[OperandAddressing].set(AddressingModelCeiling, AddressingString, AddressingParams);
OperandClassParams[OperandMemory].set(MemoryModelCeiling, MemoryString, MemoryParams);
OperandClassParams[OperandExecutionMode].set(ExecutionModeCeiling, ExecutionModeString, ExecutionModeParams);
OperandClassParams[OperandExecutionMode].setOperands(ExecutionModeOperands);
OperandClassParams[OperandStorage].set(StorageClassCeiling, StorageClassString, StorageParams);
OperandClassParams[OperandDimensionality].set(DimensionCeiling, DimensionString, DimensionalityParams);
OperandClassParams[OperandSamplerAddressingMode].set(SamplerAddressingModeCeiling, SamplerAddressingModeString, SamplerAddressingModeParams);
OperandClassParams[OperandSamplerFilterMode].set(SamplerFilterModeCeiling, SamplerFilterModeString, SamplerFilterModeParams);
OperandClassParams[OperandSamplerImageFormat].set(ImageFormatCeiling, ImageFormatString, ImageFormatParams);
OperandClassParams[OperandImageChannelOrder].set(ImageChannelOrderCeiling, ImageChannelOrderString, ImageChannelOrderParams);
OperandClassParams[OperandImageChannelDataType].set(ImageChannelDataTypeCeiling, ImageChannelDataTypeString, ImageChannelDataTypeParams);
OperandClassParams[OperandImageOperands].set(ImageOperandsCeiling, ImageOperandsString, ImageOperandsParams, true);
OperandClassParams[OperandFPFastMath].set(FPFastMathCeiling, FPFastMathString, FPFastMathParams, true);
OperandClassParams[OperandFPRoundingMode].set(FPRoundingModeCeiling, FPRoundingModeString, FPRoundingModeParams);
OperandClassParams[OperandLinkageType].set(LinkageTypeCeiling, LinkageTypeString, LinkageTypeParams);
OperandClassParams[OperandFuncParamAttr].set(FuncParamAttrCeiling, FuncParamAttrString, FuncParamAttrParams);
OperandClassParams[OperandAccessQualifier].set(AccessQualifierCeiling, AccessQualifierString, AccessQualifierParams);
OperandClassParams[OperandDecoration].set(DecorationCeiling, DecorationString, DecorationParams);
OperandClassParams[OperandDecoration].setOperands(DecorationOperands);
OperandClassParams[OperandBuiltIn].set(BuiltInCeiling, BuiltInString, BuiltInParams);
OperandClassParams[OperandSelect].set(SelectControlCeiling, SelectControlString, SelectionControlParams, true);
OperandClassParams[OperandLoop].set(LoopControlCeiling, LoopControlString, LoopControlParams, true);
OperandClassParams[OperandFunction].set(FunctionControlCeiling, FunctionControlString, FunctionControlParams, true);
OperandClassParams[OperandMemorySemantics].set(MemorySemanticsCeiling, MemorySemanticsString, MemorySemanticsParams, true);
OperandClassParams[OperandMemoryAccess].set(MemoryAccessCeiling, MemoryAccessString, MemoryAccessParams, true);
OperandClassParams[OperandScope].set(ScopeCeiling, ScopeString, ScopeParams);
OperandClassParams[OperandGroupOperation].set(GroupOperationCeiling, GroupOperationString, GroupOperationParams);
OperandClassParams[OperandKernelEnqueueFlags].set(KernelEnqueueFlagsCeiling, KernelEnqueueFlagsString, KernelEnqueueFlagsParams);
OperandClassParams[OperandKernelProfilingInfo].set(KernelProfilingInfoCeiling, KernelProfilingInfoString, KernelProfilingInfoParams, true);
OperandClassParams[OperandCapability].set(CapabilityCeiling, CapabilityString, CapabilityParams);
OperandClassParams[OperandOpcode].set(OpcodeCeiling, OpcodeString, 0);
AddressingParams[AddressingModelPhysical32].caps.push_back(CapabilityAddresses);
AddressingParams[AddressingModelPhysical64].caps.push_back(CapabilityAddresses);
MemoryParams[MemoryModelSimple].caps.push_back(CapabilityShader);
MemoryParams[MemoryModelGLSL450].caps.push_back(CapabilityShader);
MemoryParams[MemoryModelOpenCL].caps.push_back(CapabilityKernel);
ExecutionModelParams[ExecutionModelVertex].caps.push_back(CapabilityShader);
ExecutionModelParams[ExecutionModelTessellationControl].caps.push_back(CapabilityTessellation);
ExecutionModelParams[ExecutionModelTessellationEvaluation].caps.push_back(CapabilityTessellation);
ExecutionModelParams[ExecutionModelGeometry].caps.push_back(CapabilityGeometry);
ExecutionModelParams[ExecutionModelFragment].caps.push_back(CapabilityShader);
ExecutionModelParams[ExecutionModelGLCompute].caps.push_back(CapabilityShader);
ExecutionModelParams[ExecutionModelKernel].caps.push_back(CapabilityKernel);
// Storage capabilites
StorageParams[StorageClassInput].caps.push_back(CapabilityShader);
StorageParams[StorageClassUniform].caps.push_back(CapabilityShader);
StorageParams[StorageClassOutput].caps.push_back(CapabilityShader);
StorageParams[StorageClassPrivateGlobal].caps.push_back(CapabilityShader);
StorageParams[StorageClassGeneric].caps.push_back(CapabilityKernel);
StorageParams[StorageClassAtomicCounter].caps.push_back(CapabilityAtomicStorage);
// Sampler Filter & Addressing mode capabilities
SamplerAddressingModeParams[SamplerAddressingModeNone].caps.push_back(CapabilityKernel);
SamplerAddressingModeParams[SamplerAddressingModeClampToEdge].caps.push_back(CapabilityKernel);
SamplerAddressingModeParams[SamplerAddressingModeClamp].caps.push_back(CapabilityKernel);
SamplerAddressingModeParams[SamplerAddressingModeRepeat].caps.push_back(CapabilityKernel);
SamplerAddressingModeParams[SamplerAddressingModeRepeatMirrored].caps.push_back(CapabilityKernel);
SamplerFilterModeParams[SamplerFilterModeNearest].caps.push_back(CapabilityKernel);
SamplerFilterModeParams[SamplerFilterModeLinear].caps.push_back(CapabilityKernel);
// image format capabilities
for (int i = 0; i < ImageFormatCeiling; ++i) {
ImageFormatParams[i].caps.push_back(CapabilityShader);
}
// image channel order capabilities
for (int i = 0; i < ImageChannelOrderCeiling; ++i) {
ImageChannelOrderParams[i].caps.push_back(CapabilityKernel);
}
// image channel type capabilities
for (int i = 0; i < ImageChannelDataTypeCeiling; ++i) {
ImageChannelDataTypeParams[i].caps.push_back(CapabilityKernel);
}
// image lookup operands
ImageOperandsParams[ImageOperandsBiasShift].caps.push_back(CapabilityShader);
ImageOperandsParams[ImageOperandsOffsetShift].caps.push_back(CapabilityImageGatherExtended);
// fast math flags capabilities
for (int i = 0; i < FPFastMathCeiling; ++i) {
FPFastMathParams[i].caps.push_back(CapabilityKernel);
}
// fp rounding mode capabilities
for (int i = 0; i < FPRoundingModeCeiling; ++i) {
FPRoundingModeParams[i].caps.push_back(CapabilityKernel);
}
// linkage types
for (int i = 0; i < LinkageTypeCeiling; ++i) {
LinkageTypeParams[i].caps.push_back(CapabilityLinkage);
}
// function argument types
for (int i = 0; i < FuncParamAttrCeiling; ++i) {
FuncParamAttrParams[i].caps.push_back(CapabilityKernel);
}
// function argument types
for (int i = 0; i < AccessQualifierCeiling; ++i) {
AccessQualifierParams[i].caps.push_back(CapabilityKernel);
}
ExecutionModeParams[ExecutionModeInvocations].caps.push_back(CapabilityGeometry);
ExecutionModeParams[ExecutionModeSpacingEqual].caps.push_back(CapabilityTessellation);
ExecutionModeParams[ExecutionModeSpacingFractionalEven].caps.push_back(CapabilityTessellation);
ExecutionModeParams[ExecutionModeSpacingFractionalOdd].caps.push_back(CapabilityTessellation);
ExecutionModeParams[ExecutionModeVertexOrderCw].caps.push_back(CapabilityTessellation);
ExecutionModeParams[ExecutionModeVertexOrderCcw].caps.push_back(CapabilityTessellation);
ExecutionModeParams[ExecutionModePixelCenterInteger].caps.push_back(CapabilityShader);
ExecutionModeParams[ExecutionModeOriginUpperLeft].caps.push_back(CapabilityShader);
ExecutionModeParams[ExecutionModeOriginLowerLeft].caps.push_back(CapabilityShader);
ExecutionModeParams[ExecutionModeEarlyFragmentTests].caps.push_back(CapabilityShader);
ExecutionModeParams[ExecutionModePointMode].caps.push_back(CapabilityTessellation);
ExecutionModeParams[ExecutionModeXfb].caps.push_back(CapabilityShader);
ExecutionModeParams[ExecutionModeDepthReplacing].caps.push_back(CapabilityShader);
ExecutionModeParams[ExecutionModeDepthAny].caps.push_back(CapabilityShader);
ExecutionModeParams[ExecutionModeDepthGreater].caps.push_back(CapabilityShader);
ExecutionModeParams[ExecutionModeDepthLess].caps.push_back(CapabilityShader);
ExecutionModeParams[ExecutionModeDepthUnchanged].caps.push_back(CapabilityShader);
ExecutionModeParams[ExecutionModeLocalSizeHint].caps.push_back(CapabilityKernel);
ExecutionModeParams[ExecutionModeInputPoints].caps.push_back(CapabilityGeometry);
ExecutionModeParams[ExecutionModeInputLines].caps.push_back(CapabilityGeometry);
ExecutionModeParams[ExecutionModeInputLinesAdjacency].caps.push_back(CapabilityGeometry);
ExecutionModeParams[ExecutionModeInputTriangles].caps.push_back(CapabilityGeometry);
ExecutionModeParams[ExecutionModeInputTriangles].caps.push_back(CapabilityTessellation);
ExecutionModeParams[ExecutionModeInputTrianglesAdjacency].caps.push_back(CapabilityGeometry);
ExecutionModeParams[ExecutionModeInputQuads].caps.push_back(CapabilityTessellation);
ExecutionModeParams[ExecutionModeInputIsolines].caps.push_back(CapabilityTessellation);
ExecutionModeParams[ExecutionModeOutputVertices].caps.push_back(CapabilityGeometry);
ExecutionModeParams[ExecutionModeOutputVertices].caps.push_back(CapabilityTessellation);
ExecutionModeParams[ExecutionModeOutputPoints].caps.push_back(CapabilityGeometry);
ExecutionModeParams[ExecutionModeOutputLineStrip].caps.push_back(CapabilityGeometry);
ExecutionModeParams[ExecutionModeOutputTriangleStrip].caps.push_back(CapabilityGeometry);
ExecutionModeParams[ExecutionModeVecTypeHint].caps.push_back(CapabilityKernel);
ExecutionModeParams[ExecutionModeContractionOff].caps.push_back(CapabilityKernel);
DecorationParams[DecorationRelaxedPrecision].caps.push_back(CapabilityShader);
DecorationParams[DecorationBlock].caps.push_back(CapabilityShader);
DecorationParams[DecorationBufferBlock].caps.push_back(CapabilityShader);
DecorationParams[DecorationRowMajor].caps.push_back(CapabilityMatrix);
DecorationParams[DecorationColMajor].caps.push_back(CapabilityMatrix);
DecorationParams[DecorationGLSLShared].caps.push_back(CapabilityShader);
DecorationParams[DecorationGLSLPacked].caps.push_back(CapabilityShader);
DecorationParams[DecorationSmooth].caps.push_back(CapabilityShader);
DecorationParams[DecorationNoperspective].caps.push_back(CapabilityShader);
DecorationParams[DecorationFlat].caps.push_back(CapabilityShader);
DecorationParams[DecorationPatch].caps.push_back(CapabilityTessellation);
DecorationParams[DecorationCentroid].caps.push_back(CapabilityShader);
DecorationParams[DecorationSample].caps.push_back(CapabilityShader);
DecorationParams[DecorationInvariant].caps.push_back(CapabilityShader);
DecorationParams[DecorationConstant].caps.push_back(CapabilityKernel);
DecorationParams[DecorationUniform].caps.push_back(CapabilityShader);
DecorationParams[DecorationCPacked].caps.push_back(CapabilityKernel);
DecorationParams[DecorationSaturatedConversion].caps.push_back(CapabilityKernel);
DecorationParams[DecorationStream].caps.push_back(CapabilityGeometry);
DecorationParams[DecorationLocation].caps.push_back(CapabilityShader);
DecorationParams[DecorationComponent].caps.push_back(CapabilityShader);
DecorationParams[DecorationIndex].caps.push_back(CapabilityShader);
DecorationParams[DecorationBinding].caps.push_back(CapabilityShader);
DecorationParams[DecorationDescriptorSet].caps.push_back(CapabilityShader);
DecorationParams[DecorationXfbBuffer].caps.push_back(CapabilityShader);
DecorationParams[DecorationXfbStride].caps.push_back(CapabilityShader);
DecorationParams[DecorationArrayStride].caps.push_back(CapabilityShader);
DecorationParams[DecorationMatrixStride].caps.push_back(CapabilityShader);
DecorationParams[DecorationBuiltIn].caps.push_back(CapabilityShader);
DecorationParams[DecorationFuncParamAttr].caps.push_back(CapabilityKernel);
DecorationParams[DecorationFPRoundingMode].caps.push_back(CapabilityKernel);
DecorationParams[DecorationFPFastMathMode].caps.push_back(CapabilityKernel);
DecorationParams[DecorationLinkageAttributes].caps.push_back(CapabilityLinkage);
DecorationParams[DecorationSpecId].caps.push_back(CapabilityShader);
BuiltInParams[BuiltInPosition].caps.push_back(CapabilityShader);
BuiltInParams[BuiltInPointSize].caps.push_back(CapabilityShader);
BuiltInParams[BuiltInClipDistance].caps.push_back(CapabilityShader);
BuiltInParams[BuiltInCullDistance].caps.push_back(CapabilityShader);
BuiltInParams[BuiltInVertexId].caps.push_back(CapabilityShader);
BuiltInParams[BuiltInInstanceId].caps.push_back(CapabilityShader);
BuiltInParams[BuiltInPrimitiveId].caps.push_back(CapabilityGeometry);
BuiltInParams[BuiltInPrimitiveId].caps.push_back(CapabilityTessellation);
BuiltInParams[BuiltInInvocationId].caps.push_back(CapabilityGeometry);
BuiltInParams[BuiltInInvocationId].caps.push_back(CapabilityTessellation);
BuiltInParams[BuiltInLayer].caps.push_back(CapabilityGeometry);
BuiltInParams[BuiltInViewportIndex].caps.push_back(CapabilityGeometry);
BuiltInParams[BuiltInTessLevelOuter].caps.push_back(CapabilityTessellation);
BuiltInParams[BuiltInTessLevelInner].caps.push_back(CapabilityTessellation);
BuiltInParams[BuiltInTessCoord].caps.push_back(CapabilityTessellation);
BuiltInParams[BuiltInPatchVertices].caps.push_back(CapabilityTessellation);
BuiltInParams[BuiltInFragCoord].caps.push_back(CapabilityShader);
BuiltInParams[BuiltInPointCoord].caps.push_back(CapabilityShader);
BuiltInParams[BuiltInFrontFacing].caps.push_back(CapabilityShader);
BuiltInParams[BuiltInSampleId].caps.push_back(CapabilityShader);
BuiltInParams[BuiltInSamplePosition].caps.push_back(CapabilityShader);
BuiltInParams[BuiltInSampleMask].caps.push_back(CapabilityShader);
BuiltInParams[BuiltInFragColor].caps.push_back(CapabilityShader);
BuiltInParams[BuiltInFragDepth].caps.push_back(CapabilityShader);
BuiltInParams[BuiltInHelperInvocation].caps.push_back(CapabilityShader);
BuiltInParams[BuiltInLocalInvocationIndex].caps.push_back(CapabilityShader);
BuiltInParams[BuiltInWorkDim].caps.push_back(CapabilityKernel);
BuiltInParams[BuiltInGlobalSize].caps.push_back(CapabilityKernel);
BuiltInParams[BuiltInEnqueuedWorkgroupSize].caps.push_back(CapabilityKernel);
BuiltInParams[BuiltInGlobalOffset].caps.push_back(CapabilityKernel);
BuiltInParams[BuiltInGlobalLinearId].caps.push_back(CapabilityKernel);
BuiltInParams[BuiltInWorkgroupLinearId].caps.push_back(CapabilityKernel);
BuiltInParams[BuiltInSubgroupSize].caps.push_back(CapabilityKernel);
BuiltInParams[BuiltInSubgroupMaxSize].caps.push_back(CapabilityKernel);
BuiltInParams[BuiltInNumSubgroups].caps.push_back(CapabilityKernel);
BuiltInParams[BuiltInNumEnqueuedSubgroups].caps.push_back(CapabilityKernel);
BuiltInParams[BuiltInSubgroupId].caps.push_back(CapabilityKernel);
BuiltInParams[BuiltInSubgroupLocalInvocationId].caps.push_back(CapabilityKernel);
DimensionalityParams[DimCube].caps.push_back(CapabilityShader);
DimensionalityParams[DimRect].caps.push_back(CapabilityShader);
// Group Operations
for (int i = 0; i < GroupOperationCeiling; ++i) {
GroupOperationParams[i].caps.push_back(CapabilityKernel);
}
// Enqueue flags
for (int i = 0; i < KernelEnqueueFlagsCeiling; ++i) {
KernelEnqueueFlagsParams[i].caps.push_back(CapabilityKernel);
}
// Profiling info
KernelProfilingInfoParams[0].caps.push_back(CapabilityKernel);
// set name of operator, an initial set of <id> style operands, and the description
InstructionDesc[OpSource].operands.push(OperandSource, "");
InstructionDesc[OpSource].operands.push(OperandLiteralNumber, "'Version'");
InstructionDesc[OpSourceExtension].operands.push(OperandLiteralString, "'Extension'");
InstructionDesc[OpName].operands.push(OperandId, "'Target'");
InstructionDesc[OpName].operands.push(OperandLiteralString, "'Name'");
InstructionDesc[OpMemberName].operands.push(OperandId, "'Type'");
InstructionDesc[OpMemberName].operands.push(OperandLiteralNumber, "'Member'");
InstructionDesc[OpMemberName].operands.push(OperandLiteralString, "'Name'");
InstructionDesc[OpString].operands.push(OperandLiteralString, "'String'");
InstructionDesc[OpLine].operands.push(OperandId, "'Target'");
InstructionDesc[OpLine].operands.push(OperandId, "'File'");
InstructionDesc[OpLine].operands.push(OperandLiteralNumber, "'Line'");
InstructionDesc[OpLine].operands.push(OperandLiteralNumber, "'Column'");
InstructionDesc[OpExtension].operands.push(OperandLiteralString, "'Name'");
InstructionDesc[OpExtInstImport].operands.push(OperandLiteralString, "'Name'");
InstructionDesc[OpCapability].operands.push(OperandCapability, "'Capability'");
InstructionDesc[OpMemoryModel].operands.push(OperandAddressing, "");
InstructionDesc[OpMemoryModel].operands.push(OperandMemory, "");
InstructionDesc[OpEntryPoint].operands.push(OperandExecutionModel, "");
InstructionDesc[OpEntryPoint].operands.push(OperandId, "'Entry Point'");
InstructionDesc[OpEntryPoint].operands.push(OperandLiteralString, "'Name'");
InstructionDesc[OpExecutionMode].operands.push(OperandId, "'Entry Point'");
InstructionDesc[OpExecutionMode].operands.push(OperandExecutionMode, "'Mode'");
InstructionDesc[OpExecutionMode].operands.push(OperandOptionalLiteral, "See <<Execution Mode,Execution Mode>>");
InstructionDesc[OpTypeInt].operands.push(OperandLiteralNumber, "'Width'");
InstructionDesc[OpTypeInt].operands.push(OperandLiteralNumber, "'Signedness'");
InstructionDesc[OpTypeFloat].operands.push(OperandLiteralNumber, "'Width'");
InstructionDesc[OpTypeVector].operands.push(OperandId, "'Component Type'");
InstructionDesc[OpTypeVector].operands.push(OperandLiteralNumber, "'Component Count'");
InstructionDesc[OpTypeMatrix].capabilities.push_back(CapabilityMatrix);
InstructionDesc[OpTypeMatrix].operands.push(OperandId, "'Column Type'");
InstructionDesc[OpTypeMatrix].operands.push(OperandLiteralNumber, "'Column Count'");
InstructionDesc[OpTypeImage].operands.push(OperandId, "'Sampled Type'");
InstructionDesc[OpTypeImage].operands.push(OperandDimensionality, "");
InstructionDesc[OpTypeImage].operands.push(OperandLiteralNumber, "'Depth'");
InstructionDesc[OpTypeImage].operands.push(OperandLiteralNumber, "'Arrayed'");
InstructionDesc[OpTypeImage].operands.push(OperandLiteralNumber, "'MS'");
InstructionDesc[OpTypeImage].operands.push(OperandLiteralNumber, "'Sampled'");
InstructionDesc[OpTypeImage].operands.push(OperandSamplerImageFormat, "");
InstructionDesc[OpTypeImage].operands.push(OperandOptionalLiteral, "'Access Qualifier'");
InstructionDesc[OpTypeSampledImage].operands.push(OperandId, "'Image Type'");
InstructionDesc[OpTypeArray].operands.push(OperandId, "'Element Type'");
InstructionDesc[OpTypeArray].operands.push(OperandId, "'Length'");
InstructionDesc[OpTypeRuntimeArray].capabilities.push_back(CapabilityShader);
InstructionDesc[OpTypeRuntimeArray].operands.push(OperandId, "'Element Type'");
InstructionDesc[OpTypeStruct].operands.push(OperandVariableIds, "'Member 0 type', +\n'member 1 type', +\n...");
InstructionDesc[OpTypeOpaque].capabilities.push_back(CapabilityKernel);
InstructionDesc[OpTypeOpaque].operands.push(OperandLiteralString, "The name of the opaque type.");
InstructionDesc[OpTypePointer].operands.push(OperandStorage, "");
InstructionDesc[OpTypePointer].operands.push(OperandId, "'Type'");
InstructionDesc[OpTypeEvent].capabilities.push_back(CapabilityKernel);
InstructionDesc[OpTypeDeviceEvent].capabilities.push_back(CapabilityKernel);
InstructionDesc[OpTypeReserveId].capabilities.push_back(CapabilityPipes);
InstructionDesc[OpTypeQueue].capabilities.push_back(CapabilityKernel);
InstructionDesc[OpTypePipe].operands.push(OperandId, "'Type'");
InstructionDesc[OpTypePipe].operands.push(OperandAccessQualifier, "'Qualifier'");
InstructionDesc[OpTypePipe].capabilities.push_back(CapabilityPipes);
InstructionDesc[OpTypeFunction].operands.push(OperandId, "'Return Type'");
InstructionDesc[OpTypeFunction].operands.push(OperandVariableIds, "'Parameter 0 Type', +\n'Parameter 1 Type', +\n...");
InstructionDesc[OpConstant].operands.push(OperandVariableLiterals, "'Value'");
InstructionDesc[OpConstantComposite].operands.push(OperandVariableIds, "'Constituents'");
InstructionDesc[OpConstantSampler].capabilities.push_back(CapabilityLiteralSampler);
InstructionDesc[OpConstantSampler].operands.push(OperandSamplerAddressingMode, "");
InstructionDesc[OpConstantSampler].operands.push(OperandLiteralNumber, "'Param'");
InstructionDesc[OpConstantSampler].operands.push(OperandSamplerFilterMode, "");
InstructionDesc[OpSpecConstant].operands.push(OperandVariableLiterals, "'Value'");
InstructionDesc[OpSpecConstantComposite].operands.push(OperandVariableIds, "'Constituents'");
InstructionDesc[OpSpecConstantOp].operands.push(OperandLiteralNumber, "'Opcode'");
InstructionDesc[OpSpecConstantOp].operands.push(OperandVariableIds, "'Operands'");
InstructionDesc[OpVariable].operands.push(OperandStorage, "");
InstructionDesc[OpVariable].operands.push(OperandOptionalId, "'Initializer'");
InstructionDesc[OpFunction].operands.push(OperandFunction, "");
InstructionDesc[OpFunction].operands.push(OperandId, "'Function Type'");
InstructionDesc[OpFunctionCall].operands.push(OperandId, "'Function'");
InstructionDesc[OpFunctionCall].operands.push(OperandVariableIds, "'Argument 0', +\n'Argument 1', +\n...");
InstructionDesc[OpExtInst].operands.push(OperandId, "'Set'");
InstructionDesc[OpExtInst].operands.push(OperandLiteralNumber, "'Instruction'");
InstructionDesc[OpExtInst].operands.push(OperandVariableIds, "'Operand 1', +\n'Operand 2', +\n...");
InstructionDesc[OpLoad].operands.push(OperandId, "'Pointer'");
InstructionDesc[OpLoad].operands.push(OperandOptionalLiteral, "'Memory Access'");
InstructionDesc[OpStore].operands.push(OperandId, "'Pointer'");
InstructionDesc[OpStore].operands.push(OperandId, "'Object'");
InstructionDesc[OpStore].operands.push(OperandOptionalLiteral, "'Memory Access'");
InstructionDesc[OpPhi].operands.push(OperandVariableIds, "'Variable, Parent, ...'");
InstructionDesc[OpDecorate].operands.push(OperandId, "'Target'");
InstructionDesc[OpDecorate].operands.push(OperandDecoration, "");
InstructionDesc[OpDecorate].operands.push(OperandVariableLiterals, "See <<Decoration,'Decoration'>>.");
InstructionDesc[OpMemberDecorate].operands.push(OperandId, "'Structure Type'");
InstructionDesc[OpMemberDecorate].operands.push(OperandLiteralNumber, "'Member'");
InstructionDesc[OpMemberDecorate].operands.push(OperandDecoration, "");
InstructionDesc[OpMemberDecorate].operands.push(OperandVariableLiterals, "See <<Decoration,'Decoration'>>.");
InstructionDesc[OpGroupDecorate].operands.push(OperandId, "'Decoration Group'");
InstructionDesc[OpGroupDecorate].operands.push(OperandVariableIds, "'Targets'");
InstructionDesc[OpGroupMemberDecorate].operands.push(OperandId, "'Decoration Group'");
InstructionDesc[OpGroupMemberDecorate].operands.push(OperandVariableIdLiteral, "'Targets'");
InstructionDesc[OpVectorExtractDynamic].operands.push(OperandId, "'Vector'");
InstructionDesc[OpVectorExtractDynamic].operands.push(OperandId, "'Index'");
InstructionDesc[OpVectorInsertDynamic].operands.push(OperandId, "'Vector'");
InstructionDesc[OpVectorInsertDynamic].operands.push(OperandId, "'Component'");
InstructionDesc[OpVectorInsertDynamic].operands.push(OperandId, "'Index'");
InstructionDesc[OpVectorShuffle].operands.push(OperandId, "'Vector 1'");
InstructionDesc[OpVectorShuffle].operands.push(OperandId, "'Vector 2'");
InstructionDesc[OpVectorShuffle].operands.push(OperandVariableLiterals, "'Components'");
InstructionDesc[OpCompositeConstruct].operands.push(OperandVariableIds, "'Constituents'");
InstructionDesc[OpCompositeExtract].operands.push(OperandId, "'Composite'");
InstructionDesc[OpCompositeExtract].operands.push(OperandVariableLiterals, "'Indexes'");
InstructionDesc[OpCompositeInsert].operands.push(OperandId, "'Object'");
InstructionDesc[OpCompositeInsert].operands.push(OperandId, "'Composite'");
InstructionDesc[OpCompositeInsert].operands.push(OperandVariableLiterals, "'Indexes'");
InstructionDesc[OpCopyObject].operands.push(OperandId, "'Operand'");
InstructionDesc[OpCopyMemory].operands.push(OperandId, "'Target'");
InstructionDesc[OpCopyMemory].operands.push(OperandId, "'Source'");
InstructionDesc[OpCopyMemory].operands.push(OperandOptionalLiteral, "'Memory Access'");
InstructionDesc[OpCopyMemorySized].operands.push(OperandId, "'Target'");
InstructionDesc[OpCopyMemorySized].operands.push(OperandId, "'Source'");
InstructionDesc[OpCopyMemorySized].operands.push(OperandId, "'Size'");
InstructionDesc[OpCopyMemorySized].operands.push(OperandOptionalLiteral, "'Memory Access'");
InstructionDesc[OpCopyMemorySized].capabilities.push_back(CapabilityAddresses);
InstructionDesc[OpSampledImage].operands.push(OperandId, "'Image'");
InstructionDesc[OpSampledImage].operands.push(OperandId, "'Sampler'");
InstructionDesc[OpImageRead].operands.push(OperandId, "'Image'");
InstructionDesc[OpImageRead].operands.push(OperandId, "'Coordinate'");
InstructionDesc[OpImageRead].operands.push(OperandOptionalImage, "");
InstructionDesc[OpImageWrite].operands.push(OperandId, "'Image'");
InstructionDesc[OpImageWrite].operands.push(OperandId, "'Coordinate'");
InstructionDesc[OpImageWrite].operands.push(OperandId, "'Texel'");
InstructionDesc[OpImageWrite].operands.push(OperandOptionalImage, "");
InstructionDesc[OpImageSampleImplicitLod].operands.push(OperandId, "'Sampled Image'");
InstructionDesc[OpImageSampleImplicitLod].operands.push(OperandId, "'Coordinate'");
InstructionDesc[OpImageSampleImplicitLod].operands.push(OperandOptionalImage, "");
InstructionDesc[OpImageSampleImplicitLod].capabilities.push_back(CapabilityShader);
InstructionDesc[OpImageSampleExplicitLod].operands.push(OperandId, "'Sampled Image'");
InstructionDesc[OpImageSampleExplicitLod].operands.push(OperandId, "'Coordinate'");
InstructionDesc[OpImageSampleExplicitLod].operands.push(OperandOptionalImage, "");
InstructionDesc[OpImageSampleDrefImplicitLod].operands.push(OperandId, "'Sampled Image'");
InstructionDesc[OpImageSampleDrefImplicitLod].operands.push(OperandId, "'Coordinate'");
InstructionDesc[OpImageSampleDrefImplicitLod].operands.push(OperandId, "'D~ref~'");
InstructionDesc[OpImageSampleDrefImplicitLod].operands.push(OperandOptionalImage, "");
InstructionDesc[OpImageSampleDrefImplicitLod].capabilities.push_back(CapabilityShader);
InstructionDesc[OpImageSampleDrefExplicitLod].operands.push(OperandId, "'Sampled Image'");
InstructionDesc[OpImageSampleDrefExplicitLod].operands.push(OperandId, "'Coordinate'");
InstructionDesc[OpImageSampleDrefExplicitLod].operands.push(OperandId, "'D~ref~'");
InstructionDesc[OpImageSampleDrefExplicitLod].operands.push(OperandOptionalImage, "");
InstructionDesc[OpImageSampleDrefExplicitLod].capabilities.push_back(CapabilityShader);
InstructionDesc[OpImageSampleProjImplicitLod].operands.push(OperandId, "'Sampled Image'");
InstructionDesc[OpImageSampleProjImplicitLod].operands.push(OperandId, "'Coordinate'");
InstructionDesc[OpImageSampleProjImplicitLod].operands.push(OperandOptionalImage, "");
InstructionDesc[OpImageSampleProjImplicitLod].capabilities.push_back(CapabilityShader);
InstructionDesc[OpImageSampleProjExplicitLod].operands.push(OperandId, "'Sampled Image'");
InstructionDesc[OpImageSampleProjExplicitLod].operands.push(OperandId, "'Coordinate'");
InstructionDesc[OpImageSampleProjExplicitLod].operands.push(OperandOptionalImage, "");
InstructionDesc[OpImageSampleProjExplicitLod].capabilities.push_back(CapabilityShader);
InstructionDesc[OpImageSampleProjDrefImplicitLod].operands.push(OperandId, "'Sampled Image'");
InstructionDesc[OpImageSampleProjDrefImplicitLod].operands.push(OperandId, "'Coordinate'");
InstructionDesc[OpImageSampleProjDrefImplicitLod].operands.push(OperandId, "'D~ref~'");
InstructionDesc[OpImageSampleProjDrefImplicitLod].operands.push(OperandOptionalImage, "");
InstructionDesc[OpImageSampleProjDrefImplicitLod].capabilities.push_back(CapabilityShader);
InstructionDesc[OpImageSampleProjDrefExplicitLod].operands.push(OperandId, "'Sampled Image'");
InstructionDesc[OpImageSampleProjDrefExplicitLod].operands.push(OperandId, "'Coordinate'");
InstructionDesc[OpImageSampleProjDrefExplicitLod].operands.push(OperandId, "'D~ref~'");
InstructionDesc[OpImageSampleProjDrefExplicitLod].operands.push(OperandOptionalImage, "");
InstructionDesc[OpImageSampleProjDrefExplicitLod].capabilities.push_back(CapabilityShader);
InstructionDesc[OpImageFetch].operands.push(OperandId, "'Sampled Image'");
InstructionDesc[OpImageFetch].operands.push(OperandId, "'Coordinate'");
InstructionDesc[OpImageFetch].operands.push(OperandOptionalImage, "");
InstructionDesc[OpImageGather].operands.push(OperandId, "'Sampled Image'");
InstructionDesc[OpImageGather].operands.push(OperandId, "'Coordinate'");
InstructionDesc[OpImageGather].operands.push(OperandId, "'Component'");
InstructionDesc[OpImageGather].operands.push(OperandOptionalImage, "");
InstructionDesc[OpImageGather].capabilities.push_back(CapabilityShader);
InstructionDesc[OpImageDrefGather].operands.push(OperandId, "'Sampled Image'");
InstructionDesc[OpImageDrefGather].operands.push(OperandId, "'Coordinate'");
InstructionDesc[OpImageDrefGather].operands.push(OperandId, "'D~ref~'");
InstructionDesc[OpImageDrefGather].operands.push(OperandOptionalImage, "");
InstructionDesc[OpImageDrefGather].capabilities.push_back(CapabilityShader);
InstructionDesc[OpImageQuerySizeLod].operands.push(OperandId, "'Image'");
InstructionDesc[OpImageQuerySizeLod].operands.push(OperandId, "'Level of Detail'");
InstructionDesc[OpImageQuerySize].operands.push(OperandId, "'Image'");
InstructionDesc[OpImageQueryLod].operands.push(OperandId, "'Image'");
InstructionDesc[OpImageQueryLod].operands.push(OperandId, "'Coordinate'");
InstructionDesc[OpImageQueryLod].capabilities.push_back(CapabilityShader);
InstructionDesc[OpImageQueryLevels].operands.push(OperandId, "'Image'");
InstructionDesc[OpImageQueryLevels].capabilities.push_back(CapabilityShader);
InstructionDesc[OpImageQuerySamples].operands.push(OperandId, "'Image'");
InstructionDesc[OpImageQuerySamples].capabilities.push_back(CapabilityShader);
InstructionDesc[OpImageQueryDim].operands.push(OperandId, "'Image'");
InstructionDesc[OpImageQueryDim].capabilities.push_back(CapabilityKernel);
InstructionDesc[OpImageQueryFormat].operands.push(OperandId, "'Image'");
InstructionDesc[OpImageQueryFormat].capabilities.push_back(CapabilityKernel);
InstructionDesc[OpImageQueryOrder].operands.push(OperandId, "'Image'");
InstructionDesc[OpImageQueryOrder].capabilities.push_back(CapabilityKernel);
InstructionDesc[OpAccessChain].operands.push(OperandId, "'Base'");
InstructionDesc[OpAccessChain].operands.push(OperandVariableIds, "'Indexes'");
InstructionDesc[OpInBoundsAccessChain].operands.push(OperandId, "'Base'");
InstructionDesc[OpInBoundsAccessChain].operands.push(OperandVariableIds, "'Indexes'");
InstructionDesc[OpPtrAccessChain].operands.push(OperandId, "'Base'");
InstructionDesc[OpPtrAccessChain].operands.push(OperandId, "'Element'");
InstructionDesc[OpPtrAccessChain].operands.push(OperandVariableIds, "'Indexes'");
InstructionDesc[OpPtrAccessChain].capabilities.push_back(CapabilityAddresses);
InstructionDesc[OpSNegate].operands.push(OperandId, "'Operand'");
InstructionDesc[OpFNegate].operands.push(OperandId, "'Operand'");
InstructionDesc[OpNot].operands.push(OperandId, "'Operand'");
InstructionDesc[OpAny].operands.push(OperandId, "'Vector'");
InstructionDesc[OpAll].operands.push(OperandId, "'Vector'");
InstructionDesc[OpConvertFToU].operands.push(OperandId, "'Float Value'");
InstructionDesc[OpConvertFToS].operands.push(OperandId, "'Float Value'");
InstructionDesc[OpConvertSToF].operands.push(OperandId, "'Signed Value'");
InstructionDesc[OpConvertUToF].operands.push(OperandId, "'Unsigned Value'");
InstructionDesc[OpUConvert].operands.push(OperandId, "'Unsigned Value'");
InstructionDesc[OpSConvert].operands.push(OperandId, "'Signed Value'");
InstructionDesc[OpFConvert].operands.push(OperandId, "'Float Value'");
InstructionDesc[OpSatConvertSToU].operands.push(OperandId, "'Signed Value'");
InstructionDesc[OpSatConvertSToU].capabilities.push_back(CapabilityKernel);
InstructionDesc[OpSatConvertUToS].operands.push(OperandId, "'Unsigned Value'");
InstructionDesc[OpSatConvertUToS].capabilities.push_back(CapabilityKernel);
InstructionDesc[OpConvertPtrToU].operands.push(OperandId, "'Pointer'");
InstructionDesc[OpConvertPtrToU].capabilities.push_back(CapabilityAddresses);
InstructionDesc[OpConvertUToPtr].operands.push(OperandId, "'Integer Value'");
InstructionDesc[OpConvertUToPtr].capabilities.push_back(CapabilityAddresses);
InstructionDesc[OpPtrCastToGeneric].operands.push(OperandId, "'Pointer'");
InstructionDesc[OpPtrCastToGeneric].capabilities.push_back(CapabilityKernel);
InstructionDesc[OpGenericCastToPtr].operands.push(OperandId, "'Pointer'");
InstructionDesc[OpGenericCastToPtr].capabilities.push_back(CapabilityKernel);
InstructionDesc[OpGenericCastToPtrExplicit].operands.push(OperandId, "'Pointer'");
InstructionDesc[OpGenericCastToPtrExplicit].operands.push(OperandStorage, "'Storage'");
InstructionDesc[OpGenericCastToPtrExplicit].capabilities.push_back(CapabilityKernel);
InstructionDesc[OpGenericPtrMemSemantics].operands.push(OperandId, "'Pointer'");
InstructionDesc[OpGenericPtrMemSemantics].capabilities.push_back(CapabilityKernel);
InstructionDesc[OpBitcast].operands.push(OperandId, "'Operand'");
InstructionDesc[OpQuantizeToF16].operands.push(OperandId, "'Value'");
InstructionDesc[OpTranspose].capabilities.push_back(CapabilityMatrix);
InstructionDesc[OpTranspose].operands.push(OperandId, "'Matrix'");
InstructionDesc[OpIsNan].operands.push(OperandId, "'x'");
InstructionDesc[OpIsInf].operands.push(OperandId, "'x'");
InstructionDesc[OpIsFinite].capabilities.push_back(CapabilityKernel);
InstructionDesc[OpIsFinite].operands.push(OperandId, "'x'");
InstructionDesc[OpIsNormal].capabilities.push_back(CapabilityKernel);
InstructionDesc[OpIsNormal].operands.push(OperandId, "'x'");
InstructionDesc[OpSignBitSet].capabilities.push_back(CapabilityKernel);
InstructionDesc[OpSignBitSet].operands.push(OperandId, "'x'");
InstructionDesc[OpLessOrGreater].capabilities.push_back(CapabilityKernel);
InstructionDesc[OpLessOrGreater].operands.push(OperandId, "'x'");
InstructionDesc[OpLessOrGreater].operands.push(OperandId, "'y'");
InstructionDesc[OpOrdered].capabilities.push_back(CapabilityKernel);
InstructionDesc[OpOrdered].operands.push(OperandId, "'x'");
InstructionDesc[OpOrdered].operands.push(OperandId, "'y'");
InstructionDesc[OpUnordered].capabilities.push_back(CapabilityKernel);
InstructionDesc[OpUnordered].operands.push(OperandId, "'x'");
InstructionDesc[OpUnordered].operands.push(OperandId, "'y'");
InstructionDesc[OpArrayLength].operands.push(OperandId, "'Structure'");
InstructionDesc[OpArrayLength].operands.push(OperandLiteralNumber, "'Array member'");
InstructionDesc[OpArrayLength].capabilities.push_back(CapabilityShader);
InstructionDesc[OpIAdd].operands.push(OperandId, "'Operand 1'");
InstructionDesc[OpIAdd].operands.push(OperandId, "'Operand 2'");
InstructionDesc[OpFAdd].operands.push(OperandId, "'Operand 1'");
InstructionDesc[OpFAdd].operands.push(OperandId, "'Operand 2'");
InstructionDesc[OpISub].operands.push(OperandId, "'Operand 1'");
InstructionDesc[OpISub].operands.push(OperandId, "'Operand 2'");
InstructionDesc[OpFSub].operands.push(OperandId, "'Operand 1'");
InstructionDesc[OpFSub].operands.push(OperandId, "'Operand 2'");
InstructionDesc[OpIMul].operands.push(OperandId, "'Operand 1'");
InstructionDesc[OpIMul].operands.push(OperandId, "'Operand 2'");
InstructionDesc[OpFMul].operands.push(OperandId, "'Operand 1'");
InstructionDesc[OpFMul].operands.push(OperandId, "'Operand 2'");
InstructionDesc[OpUDiv].operands.push(OperandId, "'Operand 1'");
InstructionDesc[OpUDiv].operands.push(OperandId, "'Operand 2'");
InstructionDesc[OpSDiv].operands.push(OperandId, "'Operand 1'");
InstructionDesc[OpSDiv].operands.push(OperandId, "'Operand 2'");
InstructionDesc[OpFDiv].operands.push(OperandId, "'Operand 1'");
InstructionDesc[OpFDiv].operands.push(OperandId, "'Operand 2'");
InstructionDesc[OpUMod].operands.push(OperandId, "'Operand 1'");
InstructionDesc[OpUMod].operands.push(OperandId, "'Operand 2'");
InstructionDesc[OpSRem].operands.push(OperandId, "'Operand 1'");
InstructionDesc[OpSRem].operands.push(OperandId, "'Operand 2'");
InstructionDesc[OpSMod].operands.push(OperandId, "'Operand 1'");
InstructionDesc[OpSMod].operands.push(OperandId, "'Operand 2'");
InstructionDesc[OpFRem].operands.push(OperandId, "'Operand 1'");
InstructionDesc[OpFRem].operands.push(OperandId, "'Operand 2'");
InstructionDesc[OpFMod].operands.push(OperandId, "'Operand 1'");
InstructionDesc[OpFMod].operands.push(OperandId, "'Operand 2'");
InstructionDesc[OpVectorTimesScalar].operands.push(OperandId, "'Vector'");
InstructionDesc[OpVectorTimesScalar].operands.push(OperandId, "'Scalar'");
InstructionDesc[OpMatrixTimesScalar].capabilities.push_back(CapabilityMatrix);
InstructionDesc[OpMatrixTimesScalar].operands.push(OperandId, "'Matrix'");
InstructionDesc[OpMatrixTimesScalar].operands.push(OperandId, "'Scalar'");
InstructionDesc[OpVectorTimesMatrix].capabilities.push_back(CapabilityMatrix);
InstructionDesc[OpVectorTimesMatrix].operands.push(OperandId, "'Vector'");
InstructionDesc[OpVectorTimesMatrix].operands.push(OperandId, "'Matrix'");
InstructionDesc[OpMatrixTimesVector].capabilities.push_back(CapabilityMatrix);
InstructionDesc[OpMatrixTimesVector].operands.push(OperandId, "'Matrix'");
InstructionDesc[OpMatrixTimesVector].operands.push(OperandId, "'Vector'");
InstructionDesc[OpMatrixTimesMatrix].capabilities.push_back(CapabilityMatrix);
InstructionDesc[OpMatrixTimesMatrix].operands.push(OperandId, "'LeftMatrix'");
InstructionDesc[OpMatrixTimesMatrix].operands.push(OperandId, "'RightMatrix'");
InstructionDesc[OpOuterProduct].capabilities.push_back(CapabilityMatrix);
InstructionDesc[OpOuterProduct].operands.push(OperandId, "'Vector 1'");
InstructionDesc[OpOuterProduct].operands.push(OperandId, "'Vector 2'");
InstructionDesc[OpDot].operands.push(OperandId, "'Vector 1'");
InstructionDesc[OpDot].operands.push(OperandId, "'Vector 2'");
InstructionDesc[OpShiftRightLogical].operands.push(OperandId, "'Base'");
InstructionDesc[OpShiftRightLogical].operands.push(OperandId, "'Shift'");
InstructionDesc[OpShiftRightArithmetic].operands.push(OperandId, "'Base'");
InstructionDesc[OpShiftRightArithmetic].operands.push(OperandId, "'Shift'");
InstructionDesc[OpShiftLeftLogical].operands.push(OperandId, "'Base'");
InstructionDesc[OpShiftLeftLogical].operands.push(OperandId, "'Shift'");
InstructionDesc[OpLogicalOr].operands.push(OperandId, "'Operand 1'");
InstructionDesc[OpLogicalOr].operands.push(OperandId, "'Operand 2'");
InstructionDesc[OpLogicalAnd].operands.push(OperandId, "'Operand 1'");
InstructionDesc[OpLogicalAnd].operands.push(OperandId, "'Operand 2'");
InstructionDesc[OpLogicalEqual].operands.push(OperandId, "'Operand 1'");
InstructionDesc[OpLogicalEqual].operands.push(OperandId, "'Operand 2'");
InstructionDesc[OpLogicalNotEqual].operands.push(OperandId, "'Operand 1'");
InstructionDesc[OpLogicalNotEqual].operands.push(OperandId, "'Operand 2'");
InstructionDesc[OpLogicalNot].operands.push(OperandId, "'Operand'");
InstructionDesc[OpBitwiseOr].operands.push(OperandId, "'Operand 1'");
InstructionDesc[OpBitwiseOr].operands.push(OperandId, "'Operand 2'");
InstructionDesc[OpBitwiseXor].operands.push(OperandId, "'Operand 1'");
InstructionDesc[OpBitwiseXor].operands.push(OperandId, "'Operand 2'");
InstructionDesc[OpBitwiseAnd].operands.push(OperandId, "'Operand 1'");
InstructionDesc[OpBitwiseAnd].operands.push(OperandId, "'Operand 2'");
InstructionDesc[OpBitFieldInsert].capabilities.push_back(CapabilityShader);
InstructionDesc[OpBitFieldInsert].operands.push(OperandId, "'Base'");
InstructionDesc[OpBitFieldInsert].operands.push(OperandId, "'Insert'");
InstructionDesc[OpBitFieldInsert].operands.push(OperandId, "'Offset'");
InstructionDesc[OpBitFieldInsert].operands.push(OperandId, "'Count'");
InstructionDesc[OpBitFieldSExtract].capabilities.push_back(CapabilityShader);
InstructionDesc[OpBitFieldSExtract].operands.push(OperandId, "'Base'");
InstructionDesc[OpBitFieldSExtract].operands.push(OperandId, "'Offset'");
InstructionDesc[OpBitFieldSExtract].operands.push(OperandId, "'Count'");
InstructionDesc[OpBitFieldUExtract].capabilities.push_back(CapabilityShader);
InstructionDesc[OpBitFieldUExtract].operands.push(OperandId, "'Base'");
InstructionDesc[OpBitFieldUExtract].operands.push(OperandId, "'Offset'");
InstructionDesc[OpBitFieldUExtract].operands.push(OperandId, "'Count'");
InstructionDesc[OpBitReverse].capabilities.push_back(CapabilityShader);
InstructionDesc[OpBitReverse].operands.push(OperandId, "'Base'");
InstructionDesc[OpBitCount].operands.push(OperandId, "'Base'");
InstructionDesc[OpSelect].operands.push(OperandId, "'Condition'");
InstructionDesc[OpSelect].operands.push(OperandId, "'Object 1'");
InstructionDesc[OpSelect].operands.push(OperandId, "'Object 2'");
InstructionDesc[OpIEqual].operands.push(OperandId, "'Operand 1'");
InstructionDesc[OpIEqual].operands.push(OperandId, "'Operand 2'");
InstructionDesc[OpFOrdEqual].operands.push(OperandId, "'Operand 1'");
InstructionDesc[OpFOrdEqual].operands.push(OperandId, "'Operand 2'");
InstructionDesc[OpFUnordEqual].operands.push(OperandId, "'Operand 1'");
InstructionDesc[OpFUnordEqual].operands.push(OperandId, "'Operand 2'");
InstructionDesc[OpINotEqual].operands.push(OperandId, "'Operand 1'");
InstructionDesc[OpINotEqual].operands.push(OperandId, "'Operand 2'");
InstructionDesc[OpFOrdNotEqual].operands.push(OperandId, "'Operand 1'");
InstructionDesc[OpFOrdNotEqual].operands.push(OperandId, "'Operand 2'");
InstructionDesc[OpFUnordNotEqual].operands.push(OperandId, "'Operand 1'");
InstructionDesc[OpFUnordNotEqual].operands.push(OperandId, "'Operand 2'");
InstructionDesc[OpULessThan].operands.push(OperandId, "'Operand 1'");
InstructionDesc[OpULessThan].operands.push(OperandId, "'Operand 2'");
InstructionDesc[OpSLessThan].operands.push(OperandId, "'Operand 1'");
InstructionDesc[OpSLessThan].operands.push(OperandId, "'Operand 2'");
InstructionDesc[OpFOrdLessThan].operands.push(OperandId, "'Operand 1'");
InstructionDesc[OpFOrdLessThan].operands.push(OperandId, "'Operand 2'");
InstructionDesc[OpFUnordLessThan].operands.push(OperandId, "'Operand 1'");
InstructionDesc[OpFUnordLessThan].operands.push(OperandId, "'Operand 2'");
InstructionDesc[OpUGreaterThan].operands.push(OperandId, "'Operand 1'");
InstructionDesc[OpUGreaterThan].operands.push(OperandId, "'Operand 2'");
InstructionDesc[OpSGreaterThan].operands.push(OperandId, "'Operand 1'");
InstructionDesc[OpSGreaterThan].operands.push(OperandId, "'Operand 2'");
InstructionDesc[OpFOrdGreaterThan].operands.push(OperandId, "'Operand 1'");
InstructionDesc[OpFOrdGreaterThan].operands.push(OperandId, "'Operand 2'");
InstructionDesc[OpFUnordGreaterThan].operands.push(OperandId, "'Operand 1'");
InstructionDesc[OpFUnordGreaterThan].operands.push(OperandId, "'Operand 2'");
InstructionDesc[OpULessThanEqual].operands.push(OperandId, "'Operand 1'");
InstructionDesc[OpULessThanEqual].operands.push(OperandId, "'Operand 2'");
InstructionDesc[OpSLessThanEqual].operands.push(OperandId, "'Operand 1'");
InstructionDesc[OpSLessThanEqual].operands.push(OperandId, "'Operand 2'");
InstructionDesc[OpFOrdLessThanEqual].operands.push(OperandId, "'Operand 1'");
InstructionDesc[OpFOrdLessThanEqual].operands.push(OperandId, "'Operand 2'");
InstructionDesc[OpFUnordLessThanEqual].operands.push(OperandId, "'Operand 1'");
InstructionDesc[OpFUnordLessThanEqual].operands.push(OperandId, "'Operand 2'");
InstructionDesc[OpUGreaterThanEqual].operands.push(OperandId, "'Operand 1'");
InstructionDesc[OpUGreaterThanEqual].operands.push(OperandId, "'Operand 2'");
InstructionDesc[OpSGreaterThanEqual].operands.push(OperandId, "'Operand 1'");
InstructionDesc[OpSGreaterThanEqual].operands.push(OperandId, "'Operand 2'");
InstructionDesc[OpFOrdGreaterThanEqual].operands.push(OperandId, "'Operand 1'");
InstructionDesc[OpFOrdGreaterThanEqual].operands.push(OperandId, "'Operand 2'");
InstructionDesc[OpFUnordGreaterThanEqual].operands.push(OperandId, "'Operand 1'");
InstructionDesc[OpFUnordGreaterThanEqual].operands.push(OperandId, "'Operand 2'");
InstructionDesc[OpDPdx].capabilities.push_back(CapabilityShader);
InstructionDesc[OpDPdx].operands.push(OperandId, "'P'");
InstructionDesc[OpDPdy].capabilities.push_back(CapabilityShader);
InstructionDesc[OpDPdy].operands.push(OperandId, "'P'");
InstructionDesc[OpFwidth].capabilities.push_back(CapabilityShader);
InstructionDesc[OpFwidth].operands.push(OperandId, "'P'");
InstructionDesc[OpDPdxFine].capabilities.push_back(CapabilityShader);
InstructionDesc[OpDPdxFine].operands.push(OperandId, "'P'");
InstructionDesc[OpDPdyFine].capabilities.push_back(CapabilityShader);
InstructionDesc[OpDPdyFine].operands.push(OperandId, "'P'");
InstructionDesc[OpFwidthFine].capabilities.push_back(CapabilityShader);
InstructionDesc[OpFwidthFine].operands.push(OperandId, "'P'");
InstructionDesc[OpDPdxCoarse].capabilities.push_back(CapabilityShader);
InstructionDesc[OpDPdxCoarse].operands.push(OperandId, "'P'");
InstructionDesc[OpDPdyCoarse].capabilities.push_back(CapabilityShader);
InstructionDesc[OpDPdyCoarse].operands.push(OperandId, "'P'");
InstructionDesc[OpFwidthCoarse].capabilities.push_back(CapabilityShader);
InstructionDesc[OpFwidthCoarse].operands.push(OperandId, "'P'");
InstructionDesc[OpEmitVertex].capabilities.push_back(CapabilityGeometry);
InstructionDesc[OpEndPrimitive].capabilities.push_back(CapabilityGeometry);
InstructionDesc[OpEmitStreamVertex].operands.push(OperandId, "'Stream'");
InstructionDesc[OpEmitStreamVertex].capabilities.push_back(CapabilityGeometry);
InstructionDesc[OpEndStreamPrimitive].operands.push(OperandId, "'Stream'");
InstructionDesc[OpEndStreamPrimitive].capabilities.push_back(CapabilityGeometry);
InstructionDesc[OpControlBarrier].operands.push(OperandScope, "'Execution'");
InstructionDesc[OpControlBarrier].operands.push(OperandScope, "'Memory'");
InstructionDesc[OpControlBarrier].operands.push(OperandMemorySemantics, "'Semantics'");
InstructionDesc[OpMemoryBarrier].operands.push(OperandScope, "'Memory'");
InstructionDesc[OpMemoryBarrier].operands.push(OperandMemorySemantics, "'Semantics'");
InstructionDesc[OpImageTexelPointer].operands.push(OperandId, "'Image'");
InstructionDesc[OpImageTexelPointer].operands.push(OperandId, "'Coordinate'");
InstructionDesc[OpImageTexelPointer].operands.push(OperandId, "'Sample'");
InstructionDesc[OpAtomicLoad].operands.push(OperandId, "'Pointer'");
InstructionDesc[OpAtomicLoad].operands.push(OperandScope, "'Scope'");
InstructionDesc[OpAtomicLoad].operands.push(OperandMemorySemantics, "'Semantics'");
InstructionDesc[OpAtomicStore].operands.push(OperandId, "'Pointer'");
InstructionDesc[OpAtomicStore].operands.push(OperandScope, "'Scope'");
InstructionDesc[OpAtomicStore].operands.push(OperandMemorySemantics, "'Semantics'");
InstructionDesc[OpAtomicStore].operands.push(OperandId, "'Value'");
InstructionDesc[OpAtomicExchange].operands.push(OperandId, "'Pointer'");
InstructionDesc[OpAtomicExchange].operands.push(OperandScope, "'Scope'");
InstructionDesc[OpAtomicExchange].operands.push(OperandMemorySemantics, "'Semantics'");
InstructionDesc[OpAtomicExchange].operands.push(OperandId, "'Value'");
InstructionDesc[OpAtomicCompareExchange].operands.push(OperandId, "'Pointer'");
InstructionDesc[OpAtomicCompareExchange].operands.push(OperandScope, "'Scope'");
InstructionDesc[OpAtomicCompareExchange].operands.push(OperandMemorySemantics, "'Equal'");
InstructionDesc[OpAtomicCompareExchange].operands.push(OperandMemorySemantics, "'Unequal'");
InstructionDesc[OpAtomicCompareExchange].operands.push(OperandId, "'Value'");
InstructionDesc[OpAtomicCompareExchange].operands.push(OperandId, "'Comparator'");
InstructionDesc[OpAtomicCompareExchangeWeak].operands.push(OperandId, "'Pointer'");
InstructionDesc[OpAtomicCompareExchangeWeak].operands.push(OperandScope, "'Scope'");
InstructionDesc[OpAtomicCompareExchangeWeak].operands.push(OperandMemorySemantics, "'Equal'");
InstructionDesc[OpAtomicCompareExchangeWeak].operands.push(OperandMemorySemantics, "'Unequal'");
InstructionDesc[OpAtomicCompareExchangeWeak].operands.push(OperandId, "'Value'");
InstructionDesc[OpAtomicCompareExchangeWeak].operands.push(OperandId, "'Comparator'");
InstructionDesc[OpAtomicCompareExchangeWeak].capabilities.push_back(CapabilityKernel);
InstructionDesc[OpAtomicIIncrement].operands.push(OperandId, "'Pointer'");
InstructionDesc[OpAtomicIIncrement].operands.push(OperandScope, "'Scope'");
InstructionDesc[OpAtomicIIncrement].operands.push(OperandMemorySemantics, "'Semantics'");
InstructionDesc[OpAtomicIDecrement].operands.push(OperandId, "'Pointer'");
InstructionDesc[OpAtomicIDecrement].operands.push(OperandScope, "'Scope'");
InstructionDesc[OpAtomicIDecrement].operands.push(OperandMemorySemantics, "'Semantics'");
InstructionDesc[OpAtomicIAdd].operands.push(OperandId, "'Pointer'");
InstructionDesc[OpAtomicIAdd].operands.push(OperandScope, "'Scope'");
InstructionDesc[OpAtomicIAdd].operands.push(OperandMemorySemantics, "'Semantics'");
InstructionDesc[OpAtomicIAdd].operands.push(OperandId, "'Value'");
InstructionDesc[OpAtomicISub].operands.push(OperandId, "'Pointer'");
InstructionDesc[OpAtomicISub].operands.push(OperandScope, "'Scope'");
InstructionDesc[OpAtomicISub].operands.push(OperandMemorySemantics, "'Semantics'");
InstructionDesc[OpAtomicISub].operands.push(OperandId, "'Value'");
InstructionDesc[OpAtomicUMin].operands.push(OperandId, "'Pointer'");
InstructionDesc[OpAtomicUMin].operands.push(OperandScope, "'Scope'");
InstructionDesc[OpAtomicUMin].operands.push(OperandMemorySemantics, "'Semantics'");
InstructionDesc[OpAtomicUMin].operands.push(OperandId, "'Value'");
InstructionDesc[OpAtomicUMax].operands.push(OperandId, "'Pointer'");
InstructionDesc[OpAtomicUMax].operands.push(OperandScope, "'Scope'");
InstructionDesc[OpAtomicUMax].operands.push(OperandMemorySemantics, "'Semantics'");
InstructionDesc[OpAtomicUMax].operands.push(OperandId, "'Value'");
InstructionDesc[OpAtomicSMin].operands.push(OperandId, "'Pointer'");
InstructionDesc[OpAtomicSMin].operands.push(OperandScope, "'Scope'");
InstructionDesc[OpAtomicSMin].operands.push(OperandMemorySemantics, "'Semantics'");
InstructionDesc[OpAtomicSMin].operands.push(OperandId, "'Value'");
InstructionDesc[OpAtomicSMax].operands.push(OperandId, "'Pointer'");
InstructionDesc[OpAtomicSMax].operands.push(OperandScope, "'Scope'");
InstructionDesc[OpAtomicSMax].operands.push(OperandMemorySemantics, "'Semantics'");
InstructionDesc[OpAtomicSMax].operands.push(OperandId, "'Value'");
InstructionDesc[OpAtomicAnd].operands.push(OperandId, "'Pointer'");
InstructionDesc[OpAtomicAnd].operands.push(OperandScope, "'Scope'");
InstructionDesc[OpAtomicAnd].operands.push(OperandMemorySemantics, "'Semantics'");
InstructionDesc[OpAtomicAnd].operands.push(OperandId, "'Value'");
InstructionDesc[OpAtomicOr].operands.push(OperandId, "'Pointer'");
InstructionDesc[OpAtomicOr].operands.push(OperandScope, "'Scope'");
InstructionDesc[OpAtomicOr].operands.push(OperandMemorySemantics, "'Semantics'");
InstructionDesc[OpAtomicOr].operands.push(OperandId, "'Value'");
InstructionDesc[OpAtomicXor].operands.push(OperandId, "'Pointer'");
InstructionDesc[OpAtomicXor].operands.push(OperandScope, "'Scope'");
InstructionDesc[OpAtomicXor].operands.push(OperandMemorySemantics, "'Semantics'");
InstructionDesc[OpAtomicXor].operands.push(OperandId, "'Value'");
InstructionDesc[OpLoopMerge].operands.push(OperandId, "'Merge Block'");
InstructionDesc[OpLoopMerge].operands.push(OperandLoop, "");
InstructionDesc[OpSelectionMerge].operands.push(OperandId, "'Merge Block'");
InstructionDesc[OpSelectionMerge].operands.push(OperandSelect, "");
InstructionDesc[OpBranch].operands.push(OperandId, "'Target Label'");
InstructionDesc[OpBranchConditional].operands.push(OperandId, "'Condition'");
InstructionDesc[OpBranchConditional].operands.push(OperandId, "'True Label'");
InstructionDesc[OpBranchConditional].operands.push(OperandId, "'False Label'");
InstructionDesc[OpBranchConditional].operands.push(OperandVariableLiterals, "'Branch weights'");
InstructionDesc[OpSwitch].operands.push(OperandId, "'Selector'");
InstructionDesc[OpSwitch].operands.push(OperandId, "'Default'");
InstructionDesc[OpSwitch].operands.push(OperandVariableLiteralId, "'Target'");
InstructionDesc[OpKill].capabilities.push_back(CapabilityShader);
InstructionDesc[OpReturnValue].operands.push(OperandId, "'Value'");
InstructionDesc[OpLifetimeStart].operands.push(OperandId, "'Pointer'");
InstructionDesc[OpLifetimeStart].operands.push(OperandLiteralNumber, "'Size'");
InstructionDesc[OpLifetimeStop].operands.push(OperandId, "'Pointer'");
InstructionDesc[OpLifetimeStop].operands.push(OperandLiteralNumber, "'Size'");
InstructionDesc[OpAsyncGroupCopy].capabilities.push_back(CapabilityKernel);
InstructionDesc[OpAsyncGroupCopy].operands.push(OperandScope, "'Execution'");
InstructionDesc[OpAsyncGroupCopy].operands.push(OperandId, "'Destination'");
InstructionDesc[OpAsyncGroupCopy].operands.push(OperandId, "'Source'");
InstructionDesc[OpAsyncGroupCopy].operands.push(OperandId, "'Num Elements'");
InstructionDesc[OpAsyncGroupCopy].operands.push(OperandId, "'Stride'");
InstructionDesc[OpAsyncGroupCopy].operands.push(OperandId, "'Event'");
InstructionDesc[OpWaitGroupEvents].capabilities.push_back(CapabilityKernel);
InstructionDesc[OpWaitGroupEvents].operands.push(OperandScope, "'Execution'");
InstructionDesc[OpWaitGroupEvents].operands.push(OperandId, "'Num Events'");
InstructionDesc[OpWaitGroupEvents].operands.push(OperandId, "'Events List'");
InstructionDesc[OpGroupAll].capabilities.push_back(CapabilityGroups);
InstructionDesc[OpGroupAll].operands.push(OperandScope, "'Execution'");
InstructionDesc[OpGroupAll].operands.push(OperandId, "'Predicate'");
InstructionDesc[OpGroupAny].capabilities.push_back(CapabilityGroups);
InstructionDesc[OpGroupAny].operands.push(OperandScope, "'Execution'");
InstructionDesc[OpGroupAny].operands.push(OperandId, "'Predicate'");
InstructionDesc[OpGroupBroadcast].capabilities.push_back(CapabilityGroups);
InstructionDesc[OpGroupBroadcast].operands.push(OperandScope, "'Execution'");
InstructionDesc[OpGroupBroadcast].operands.push(OperandId, "'Value'");
InstructionDesc[OpGroupBroadcast].operands.push(OperandId, "'LocalId'");
InstructionDesc[OpGroupIAdd].capabilities.push_back(CapabilityGroups);
InstructionDesc[OpGroupIAdd].operands.push(OperandScope, "'Execution'");
InstructionDesc[OpGroupIAdd].operands.push(OperandGroupOperation, "'Operation'");
InstructionDesc[OpGroupIAdd].operands.push(OperandId, "'X'");
InstructionDesc[OpGroupFAdd].capabilities.push_back(CapabilityGroups);
InstructionDesc[OpGroupFAdd].operands.push(OperandScope, "'Execution'");
InstructionDesc[OpGroupFAdd].operands.push(OperandGroupOperation, "'Operation'");
InstructionDesc[OpGroupFAdd].operands.push(OperandId, "'X'");
InstructionDesc[OpGroupUMin].capabilities.push_back(CapabilityGroups);
InstructionDesc[OpGroupUMin].operands.push(OperandScope, "'Execution'");
InstructionDesc[OpGroupUMin].operands.push(OperandGroupOperation, "'Operation'");
InstructionDesc[OpGroupUMin].operands.push(OperandId, "'X'");
InstructionDesc[OpGroupSMin].capabilities.push_back(CapabilityGroups);
InstructionDesc[OpGroupSMin].operands.push(OperandScope, "'Execution'");
InstructionDesc[OpGroupSMin].operands.push(OperandGroupOperation, "'Operation'");
InstructionDesc[OpGroupSMin].operands.push(OperandId, "X");
InstructionDesc[OpGroupFMin].capabilities.push_back(CapabilityGroups);
InstructionDesc[OpGroupFMin].operands.push(OperandScope, "'Execution'");
InstructionDesc[OpGroupFMin].operands.push(OperandGroupOperation, "'Operation'");
InstructionDesc[OpGroupFMin].operands.push(OperandId, "X");
InstructionDesc[OpGroupUMax].capabilities.push_back(CapabilityGroups);
InstructionDesc[OpGroupUMax].operands.push(OperandScope, "'Execution'");
InstructionDesc[OpGroupUMax].operands.push(OperandGroupOperation, "'Operation'");
InstructionDesc[OpGroupUMax].operands.push(OperandId, "X");
InstructionDesc[OpGroupSMax].capabilities.push_back(CapabilityGroups);
InstructionDesc[OpGroupSMax].operands.push(OperandScope, "'Execution'");
InstructionDesc[OpGroupSMax].operands.push(OperandGroupOperation, "'Operation'");
InstructionDesc[OpGroupSMax].operands.push(OperandId, "X");
InstructionDesc[OpGroupFMax].capabilities.push_back(CapabilityGroups);
InstructionDesc[OpGroupFMax].operands.push(OperandScope, "'Execution'");
InstructionDesc[OpGroupFMax].operands.push(OperandGroupOperation, "'Operation'");
InstructionDesc[OpGroupFMax].operands.push(OperandId, "X");
InstructionDesc[OpReadPipe].capabilities.push_back(CapabilityPipes);
InstructionDesc[OpReadPipe].operands.push(OperandId, "'Pipe'");
InstructionDesc[OpReadPipe].operands.push(OperandId, "'Pointer'");
InstructionDesc[OpWritePipe].capabilities.push_back(CapabilityPipes);
InstructionDesc[OpWritePipe].operands.push(OperandId, "'Pipe'");
InstructionDesc[OpWritePipe].operands.push(OperandId, "'Pointer'");
InstructionDesc[OpReservedReadPipe].capabilities.push_back(CapabilityPipes);
InstructionDesc[OpReservedReadPipe].operands.push(OperandId, "'Pipe'");
InstructionDesc[OpReservedReadPipe].operands.push(OperandId, "'Reserve Id'");
InstructionDesc[OpReservedReadPipe].operands.push(OperandId, "'Index'");
InstructionDesc[OpReservedReadPipe].operands.push(OperandId, "'Pointer'");
InstructionDesc[OpReservedWritePipe].capabilities.push_back(CapabilityPipes);
InstructionDesc[OpReservedWritePipe].operands.push(OperandId, "'Pipe'");
InstructionDesc[OpReservedWritePipe].operands.push(OperandId, "'Reserve Id'");
InstructionDesc[OpReservedWritePipe].operands.push(OperandId, "'Index'");
InstructionDesc[OpReservedWritePipe].operands.push(OperandId, "'Pointer'");
InstructionDesc[OpReserveReadPipePackets].capabilities.push_back(CapabilityPipes);
InstructionDesc[OpReserveReadPipePackets].operands.push(OperandId, "'Pipe'");
InstructionDesc[OpReserveReadPipePackets].operands.push(OperandId, "'Num Packets'");
InstructionDesc[OpReserveWritePipePackets].capabilities.push_back(CapabilityPipes);
InstructionDesc[OpReserveWritePipePackets].operands.push(OperandId, "'Pipe'");
InstructionDesc[OpReserveWritePipePackets].operands.push(OperandId, "'Num Packets'");
InstructionDesc[OpCommitReadPipe].capabilities.push_back(CapabilityPipes);
InstructionDesc[OpCommitReadPipe].operands.push(OperandId, "'Pipe'");
InstructionDesc[OpCommitReadPipe].operands.push(OperandId, "'Reserve Id'");
InstructionDesc[OpCommitWritePipe].capabilities.push_back(CapabilityPipes);
InstructionDesc[OpCommitWritePipe].operands.push(OperandId, "'Pipe'");
InstructionDesc[OpCommitWritePipe].operands.push(OperandId, "'Reserve Id'");
InstructionDesc[OpIsValidReserveId].capabilities.push_back(CapabilityPipes);
InstructionDesc[OpIsValidReserveId].operands.push(OperandId, "'Reserve Id'");
InstructionDesc[OpGetNumPipePackets].capabilities.push_back(CapabilityPipes);
InstructionDesc[OpGetNumPipePackets].operands.push(OperandId, "'Pipe'");
InstructionDesc[OpGetMaxPipePackets].capabilities.push_back(CapabilityPipes);
InstructionDesc[OpGetMaxPipePackets].operands.push(OperandId, "'Pipe'");
InstructionDesc[OpGroupReserveReadPipePackets].capabilities.push_back(CapabilityPipes);
InstructionDesc[OpGroupReserveReadPipePackets].operands.push(OperandScope, "'Execution'");
InstructionDesc[OpGroupReserveReadPipePackets].operands.push(OperandId, "'Pipe'");
InstructionDesc[OpGroupReserveReadPipePackets].operands.push(OperandId, "'Num Packets'");
InstructionDesc[OpGroupReserveWritePipePackets].capabilities.push_back(CapabilityPipes);
InstructionDesc[OpGroupReserveWritePipePackets].operands.push(OperandScope, "'Execution'");
InstructionDesc[OpGroupReserveWritePipePackets].operands.push(OperandId, "'Pipe'");
InstructionDesc[OpGroupReserveWritePipePackets].operands.push(OperandId, "'Num Packets'");
InstructionDesc[OpGroupCommitReadPipe].capabilities.push_back(CapabilityPipes);
InstructionDesc[OpGroupCommitReadPipe].operands.push(OperandScope, "'Execution'");
InstructionDesc[OpGroupCommitReadPipe].operands.push(OperandId, "'Pipe'");
InstructionDesc[OpGroupCommitReadPipe].operands.push(OperandId, "'Reserve Id'");
InstructionDesc[OpGroupCommitWritePipe].capabilities.push_back(CapabilityPipes);
InstructionDesc[OpGroupCommitWritePipe].operands.push(OperandScope, "'Execution'");
InstructionDesc[OpGroupCommitWritePipe].operands.push(OperandId, "'Pipe'");
InstructionDesc[OpGroupCommitWritePipe].operands.push(OperandId, "'Reserve Id'");
InstructionDesc[OpBuildNDRange].capabilities.push_back(CapabilityDeviceEnqueue);
InstructionDesc[OpBuildNDRange].operands.push(OperandId, "'GlobalWorkSize'");
InstructionDesc[OpBuildNDRange].operands.push(OperandId, "'LocalWorkSize'");
InstructionDesc[OpBuildNDRange].operands.push(OperandId, "'GlobalWorkOffset'");
InstructionDesc[OpGetDefaultQueue].capabilities.push_back(CapabilityDeviceEnqueue);
InstructionDesc[OpCaptureEventProfilingInfo].capabilities.push_back(CapabilityDeviceEnqueue);
InstructionDesc[OpCaptureEventProfilingInfo].operands.push(OperandId, "'Event'");
InstructionDesc[OpCaptureEventProfilingInfo].operands.push(OperandId, "'Profiling Info'");
InstructionDesc[OpCaptureEventProfilingInfo].operands.push(OperandId, "'Value'");
InstructionDesc[OpSetUserEventStatus].capabilities.push_back(CapabilityDeviceEnqueue);
InstructionDesc[OpSetUserEventStatus].operands.push(OperandId, "'Event'");
InstructionDesc[OpSetUserEventStatus].operands.push(OperandId, "'Status'");
InstructionDesc[OpIsValidEvent].capabilities.push_back(CapabilityDeviceEnqueue);
InstructionDesc[OpIsValidEvent].operands.push(OperandId, "'Event'");
InstructionDesc[OpCreateUserEvent].capabilities.push_back(CapabilityDeviceEnqueue);
InstructionDesc[OpRetainEvent].capabilities.push_back(CapabilityDeviceEnqueue);
InstructionDesc[OpRetainEvent].operands.push(OperandId, "'Event'");
InstructionDesc[OpReleaseEvent].capabilities.push_back(CapabilityDeviceEnqueue);
InstructionDesc[OpReleaseEvent].operands.push(OperandId, "'Event'");
InstructionDesc[OpGetKernelWorkGroupSize].capabilities.push_back(CapabilityDeviceEnqueue);
InstructionDesc[OpGetKernelWorkGroupSize].operands.push(OperandId, "'Invoke'");
InstructionDesc[OpGetKernelWorkGroupSize].operands.push(OperandId, "'Param'");
InstructionDesc[OpGetKernelWorkGroupSize].operands.push(OperandId, "'Param Size'");
InstructionDesc[OpGetKernelWorkGroupSize].operands.push(OperandId, "'Param Align'");
InstructionDesc[OpGetKernelPreferredWorkGroupSizeMultiple].capabilities.push_back(CapabilityDeviceEnqueue);
InstructionDesc[OpGetKernelPreferredWorkGroupSizeMultiple].operands.push(OperandId, "'Invoke'");
InstructionDesc[OpGetKernelPreferredWorkGroupSizeMultiple].operands.push(OperandId, "'Param'");
InstructionDesc[OpGetKernelPreferredWorkGroupSizeMultiple].operands.push(OperandId, "'Param Size'");
InstructionDesc[OpGetKernelPreferredWorkGroupSizeMultiple].operands.push(OperandId, "'Param Align'");
InstructionDesc[OpGetKernelNDrangeSubGroupCount].capabilities.push_back(CapabilityDeviceEnqueue);
InstructionDesc[OpGetKernelNDrangeSubGroupCount].operands.push(OperandId, "'ND Range'");
InstructionDesc[OpGetKernelNDrangeSubGroupCount].operands.push(OperandId, "'Invoke'");
InstructionDesc[OpGetKernelNDrangeSubGroupCount].operands.push(OperandId, "'Param'");
InstructionDesc[OpGetKernelNDrangeSubGroupCount].operands.push(OperandId, "'Param Size'");
InstructionDesc[OpGetKernelNDrangeSubGroupCount].operands.push(OperandId, "'Param Align'");
InstructionDesc[OpGetKernelNDrangeMaxSubGroupSize].capabilities.push_back(CapabilityDeviceEnqueue);
InstructionDesc[OpGetKernelNDrangeMaxSubGroupSize].operands.push(OperandId, "'ND Range'");
InstructionDesc[OpGetKernelNDrangeMaxSubGroupSize].operands.push(OperandId, "'Invoke'");
InstructionDesc[OpGetKernelNDrangeMaxSubGroupSize].operands.push(OperandId, "'Param'");
InstructionDesc[OpGetKernelNDrangeMaxSubGroupSize].operands.push(OperandId, "'Param Size'");
InstructionDesc[OpGetKernelNDrangeMaxSubGroupSize].operands.push(OperandId, "'Param Align'");
InstructionDesc[OpEnqueueKernel].capabilities.push_back(CapabilityDeviceEnqueue);
InstructionDesc[OpEnqueueKernel].operands.push(OperandId, "'Queue'");
InstructionDesc[OpEnqueueKernel].operands.push(OperandId, "'Flags'");
InstructionDesc[OpEnqueueKernel].operands.push(OperandId, "'ND Range'");
InstructionDesc[OpEnqueueKernel].operands.push(OperandId, "'Num Events'");
InstructionDesc[OpEnqueueKernel].operands.push(OperandId, "'Wait Events'");
InstructionDesc[OpEnqueueKernel].operands.push(OperandId, "'Ret Event'");
InstructionDesc[OpEnqueueKernel].operands.push(OperandId, "'Invoke'");
InstructionDesc[OpEnqueueKernel].operands.push(OperandId, "'Param'");
InstructionDesc[OpEnqueueKernel].operands.push(OperandId, "'Param Size'");
InstructionDesc[OpEnqueueKernel].operands.push(OperandId, "'Param Align'");
InstructionDesc[OpEnqueueKernel].operands.push(OperandVariableIds, "'Local Size'");
InstructionDesc[OpEnqueueMarker].capabilities.push_back(CapabilityDeviceEnqueue);
InstructionDesc[OpEnqueueMarker].operands.push(OperandId, "'Queue'");
InstructionDesc[OpEnqueueMarker].operands.push(OperandId, "'Num Events'");
InstructionDesc[OpEnqueueMarker].operands.push(OperandId, "'Wait Events'");
InstructionDesc[OpEnqueueMarker].operands.push(OperandId, "'Ret Event'");
}
}; // end spv namespace