mirror of
https://github.com/KhronosGroup/SPIRV-Tools
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14b93e49ed
The high 16-bits are a registered generator tool. These are registered at https://www.khronos.org/registry/spir-v/api/spir-v.xml The low 16-bits are tool-specific. It might be a version number, for example, but is not constrained by the spec or by the registration process. The disassembler prints the tool name when we know it. If we don't, print "Unknown" and then the numeric tool number in parentheses. In all cases, the disassembler prints lower 16-bit number on the same line but after the tool name. Also add newly registered generators: 6: Khronos LLVM/SPIR-V Translator 7: Khronos SPIR-V Tools Assembler
663 lines
22 KiB
C++
663 lines
22 KiB
C++
// Copyright (c) 2015 The Khronos Group Inc.
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//
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// Permission is hereby granted, free of charge, to any person obtaining a
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// copy of this software and/or associated documentation files (the
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// "Materials"), to deal in the Materials without restriction, including
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// without limitation the rights to use, copy, modify, merge, publish,
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// distribute, sublicense, and/or sell copies of the Materials, and to
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// permit persons to whom the Materials are furnished to do so, subject to
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// the following conditions:
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//
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// The above copyright notice and this permission notice shall be included
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// in all copies or substantial portions of the Materials.
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//
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// MODIFICATIONS TO THIS FILE MAY MEAN IT NO LONGER ACCURATELY REFLECTS
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// KHRONOS STANDARDS. THE UNMODIFIED, NORMATIVE VERSIONS OF KHRONOS
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// SPECIFICATIONS AND HEADER INFORMATION ARE LOCATED AT
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// https://www.khronos.org/registry/
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//
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// THE MATERIALS ARE PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
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// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
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// MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
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// IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY
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// CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,
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// TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
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// MATERIALS OR THE USE OR OTHER DEALINGS IN THE MATERIALS.
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#include "opcode.h"
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#include <assert.h>
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#include <string.h>
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#include <cstdlib>
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#include "endian.h"
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#include "instruction.h"
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#include "libspirv/libspirv.h"
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#include "spirv_constant.h"
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#include "spirv_operands.h"
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namespace {
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// Descriptions of each opcode. Each entry describes the format of the
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// instruction that follows a particular opcode.
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//
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// Most fields are initialized statically by including an automatically
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// generated file.
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// The operandTypes fields are initialized during spvOpcodeInitialize().
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//
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// TODO(dneto): Some of the macros are quite unreadable. We could make
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// good use of constexpr functions, but some compilers don't support that yet.
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const spv_opcode_desc_t opcodeTableEntries[] = {
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#define EmptyList \
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{}
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#define List(...) \
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{ __VA_ARGS__ }
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#define Capability(X) SPV_CAPABILITY_AS_MASK(SpvCapability##X)
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#define Capability2(X, Y) Capability(X) | Capability(Y)
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#define SpvCapabilityNone \
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0 // Needed so Capability(None) still expands to valid syntax.
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#define Instruction(Name, HasResult, HasType, NumLogicalOperands, \
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NumCapabilities, CapabilityRequired, IsVariable, \
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LogicalArgsList) \
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{#Name, SpvOp##Name, (NumCapabilities) ? (CapabilityRequired) : 0, \
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0, {}, /* Filled in later. Operand list, including \
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result id and type id, if needed */ \
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HasResult, HasType, LogicalArgsList},
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#include "opcode.inc"
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#undef EmptyList
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#undef List
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#undef Capability
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#undef Capability2
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#undef CapabilityNone
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#undef Instruction
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};
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// Opcode API
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// Converts the given operand class enum (from the SPIR-V document generation
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// logic) to the operand type required by the parser. The SPV_OPERAND_TYPE_NONE
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// value indicates there is no current operand and no further operands.
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// This only applies to logical operands.
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spv_operand_type_t convertOperandClassToType(SpvOp opcode,
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OperandClass operandClass) {
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// The spec document generator uses OptionalOperandLiteral for several kinds
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// of repeating values. Our parser needs more specific information about
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// what is being repeated.
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if (operandClass == OperandOptionalLiteral) {
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switch (opcode) {
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case SpvOpLoad:
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case SpvOpStore:
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case SpvOpCopyMemory:
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case SpvOpCopyMemorySized:
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// Expect an optional mask. When the Aligned bit is set in the mask,
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// we will later add the expectation of a literal number operand.
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return SPV_OPERAND_TYPE_OPTIONAL_MEMORY_ACCESS;
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case SpvOpExecutionMode:
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return SPV_OPERAND_TYPE_VARIABLE_EXECUTION_MODE;
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default:
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break;
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}
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} else if (operandClass == OperandVariableLiterals) {
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if (opcode == SpvOpConstant || opcode == SpvOpSpecConstant) {
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// The number type is determined by the type Id operand.
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return SPV_OPERAND_TYPE_TYPED_LITERAL_NUMBER;
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}
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}
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switch (operandClass) {
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case OperandNone:
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return SPV_OPERAND_TYPE_NONE;
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case OperandId:
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return SPV_OPERAND_TYPE_ID;
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case OperandOptionalId:
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return SPV_OPERAND_TYPE_OPTIONAL_ID;
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case OperandOptionalImage:
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return SPV_OPERAND_TYPE_OPTIONAL_IMAGE;
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case OperandVariableIds:
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if (opcode == SpvOpSpecConstantOp) {
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// These are the operands to the specialization constant opcode.
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// The assembler and binary parser set up the extra Id and literal
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// arguments when processing the opcode operand. So don't add
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// an operand type for them here.
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return SPV_OPERAND_TYPE_NONE;
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}
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return SPV_OPERAND_TYPE_VARIABLE_ID;
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// The spec only uses OptionalLiteral for an optional literal number.
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case OperandOptionalLiteral:
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return SPV_OPERAND_TYPE_OPTIONAL_LITERAL_INTEGER;
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case OperandOptionalLiteralString:
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return SPV_OPERAND_TYPE_OPTIONAL_LITERAL_STRING;
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// This is only used for sequences of literal numbers.
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case OperandVariableLiterals:
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return SPV_OPERAND_TYPE_VARIABLE_LITERAL_INTEGER;
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case OperandLiteralNumber:
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if (opcode == SpvOpExtInst) {
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// We use a special operand type for the extension instruction number.
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// For now, we assume there is only one LiteraNumber argument to
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// OpExtInst, and it is the extension instruction argument.
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// See the ExtInst entry in opcode.inc
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// TODO(dneto): Use a function to confirm the assumption, and to verify
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// that the index into the operandClass is 1, as expected.
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return SPV_OPERAND_TYPE_EXTENSION_INSTRUCTION_NUMBER;
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} else if (opcode == SpvOpSpecConstantOp) {
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// Use a special operand type for the opcode operand, so we can
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// use mnemonic names instead of the numbers. For example, the
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// assembler should accept "IAdd" instead of the numeric value of
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// SpvOpIAdd.
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return SPV_OPERAND_TYPE_SPEC_CONSTANT_OP_NUMBER;
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}
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return SPV_OPERAND_TYPE_LITERAL_INTEGER;
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case OperandLiteralString:
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return SPV_OPERAND_TYPE_LITERAL_STRING;
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case OperandSource:
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return SPV_OPERAND_TYPE_SOURCE_LANGUAGE;
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case OperandExecutionModel:
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return SPV_OPERAND_TYPE_EXECUTION_MODEL;
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case OperandAddressing:
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return SPV_OPERAND_TYPE_ADDRESSING_MODEL;
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case OperandMemory:
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return SPV_OPERAND_TYPE_MEMORY_MODEL;
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case OperandExecutionMode:
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return SPV_OPERAND_TYPE_EXECUTION_MODE;
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case OperandStorage:
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return SPV_OPERAND_TYPE_STORAGE_CLASS;
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case OperandDimensionality:
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return SPV_OPERAND_TYPE_DIMENSIONALITY;
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case OperandSamplerAddressingMode:
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return SPV_OPERAND_TYPE_SAMPLER_ADDRESSING_MODE;
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case OperandSamplerFilterMode:
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return SPV_OPERAND_TYPE_SAMPLER_FILTER_MODE;
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case OperandSamplerImageFormat:
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return SPV_OPERAND_TYPE_SAMPLER_IMAGE_FORMAT;
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case OperandImageChannelOrder:
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// This is only used to describe the value generated by OpImageQueryOrder.
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// It is not used as an operand.
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break;
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case OperandImageChannelDataType:
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// This is only used to describe the value generated by
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// OpImageQueryFormat. It is not used as an operand.
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break;
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case OperandImageOperands:
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// This is not used in opcode.inc. It only exists to generate the
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// corresponding spec section. In parsing, image operands meld into the
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// OperandOptionalImage case.
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break;
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case OperandFPFastMath:
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return SPV_OPERAND_TYPE_FP_FAST_MATH_MODE;
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case OperandFPRoundingMode:
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return SPV_OPERAND_TYPE_FP_ROUNDING_MODE;
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case OperandLinkageType:
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return SPV_OPERAND_TYPE_LINKAGE_TYPE;
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case OperandAccessQualifier:
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return SPV_OPERAND_TYPE_ACCESS_QUALIFIER;
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case OperandFuncParamAttr:
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return SPV_OPERAND_TYPE_FUNCTION_PARAMETER_ATTRIBUTE;
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case OperandDecoration:
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return SPV_OPERAND_TYPE_DECORATION;
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case OperandBuiltIn:
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return SPV_OPERAND_TYPE_BUILT_IN;
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case OperandSelect:
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return SPV_OPERAND_TYPE_SELECTION_CONTROL;
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case OperandLoop:
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return SPV_OPERAND_TYPE_LOOP_CONTROL;
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case OperandFunction:
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return SPV_OPERAND_TYPE_FUNCTION_CONTROL;
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case OperandMemorySemantics:
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return SPV_OPERAND_TYPE_MEMORY_SEMANTICS;
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case OperandMemoryAccess:
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// This case does not occur in the table for SPIR-V 0.99 Rev 32.
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// We expect that it will become SPV_OPERAND_TYPE_OPTIONAL_MEMORY_ACCESS,
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// and we can remove the special casing above for memory operation
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// instructions.
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break;
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case OperandScope:
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return SPV_OPERAND_TYPE_EXECUTION_SCOPE;
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case OperandGroupOperation:
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return SPV_OPERAND_TYPE_GROUP_OPERATION;
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case OperandKernelEnqueueFlags:
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return SPV_OPERAND_TYPE_KERNEL_ENQ_FLAGS;
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case OperandKernelProfilingInfo:
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return SPV_OPERAND_TYPE_KERNEL_PROFILING_INFO;
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case OperandCapability:
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return SPV_OPERAND_TYPE_CAPABILITY;
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// Used by GroupMemberDecorate
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case OperandVariableIdLiteral:
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return SPV_OPERAND_TYPE_VARIABLE_ID_LITERAL_INTEGER;
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// Used by Switch
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case OperandVariableLiteralId:
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return SPV_OPERAND_TYPE_VARIABLE_LITERAL_INTEGER_ID;
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// These exceptional cases shouldn't occur.
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case OperandCount:
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default:
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break;
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}
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assert(0 && "Unexpected operand class");
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return SPV_OPERAND_TYPE_NONE;
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}
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} // anonymous namespace
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// Finish populating the opcodeTableEntries array.
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void spvOpcodeTableInitialize(spv_opcode_desc_t* entries,
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uint32_t num_entries) {
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// Compute the operandTypes field for each entry.
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for (uint32_t i = 0; i < num_entries; ++i) {
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spv_opcode_desc_t& opcode = entries[i];
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opcode.numTypes = 0;
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// Type ID always comes first, if present.
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if (opcode.hasType)
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opcode.operandTypes[opcode.numTypes++] = SPV_OPERAND_TYPE_TYPE_ID;
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// Result ID always comes next, if present
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if (opcode.hasResult)
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opcode.operandTypes[opcode.numTypes++] = SPV_OPERAND_TYPE_RESULT_ID;
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const uint16_t maxNumOperands =
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sizeof(opcode.operandTypes) / sizeof(opcode.operandTypes[0]);
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const uint16_t maxNumClasses =
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sizeof(opcode.operandClass) / sizeof(opcode.operandClass[0]);
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for (uint16_t classIndex = 0;
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opcode.numTypes < maxNumOperands && classIndex < maxNumClasses;
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classIndex++) {
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const OperandClass operandClass = opcode.operandClass[classIndex];
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const auto operandType =
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convertOperandClassToType(opcode.opcode, operandClass);
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opcode.operandTypes[opcode.numTypes++] = operandType;
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// The OperandNone value is not explicitly represented in the .inc file.
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// However, it is the zero value, and is created via implicit value
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// initialization. It converts to SPV_OPERAND_TYPE_NONE.
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// The SPV_OPERAND_TYPE_NONE operand type indicates no current or futher
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// operands.
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if (operandType == SPV_OPERAND_TYPE_NONE) {
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opcode.numTypes--;
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break;
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}
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}
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// We should have written the terminating SPV_OPERAND_TYPE_NONE entry, but
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// also without overflowing.
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assert((opcode.numTypes < maxNumOperands) &&
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"Operand class list is too long. Expand "
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"spv_opcode_desc_t.operandClass");
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}
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}
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const char* spvGeneratorStr(uint32_t generator) {
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switch (generator) {
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case SPV_GENERATOR_KHRONOS:
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return "Khronos";
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case SPV_GENERATOR_LUNARG:
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return "LunarG";
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case SPV_GENERATOR_VALVE:
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return "Valve";
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case SPV_GENERATOR_CODEPLAY:
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return "Codeplay Software Ltd.";
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case SPV_GENERATOR_NVIDIA:
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return "NVIDIA";
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case SPV_GENERATOR_ARM:
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return "ARM";
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case SPV_GENERATOR_KHRONOS_LLVM_TRANSLATOR:
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return "Khronos LLVM/SPIR-V Translator";
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case SPV_GENERATOR_KHRONOS_ASSEMBLER:
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return "Khronos SPIR-V Tools Assembler";
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default:
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return "Unknown";
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}
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}
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uint32_t spvOpcodeMake(uint16_t wordCount, SpvOp opcode) {
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return ((uint32_t)opcode) | (((uint32_t)wordCount) << 16);
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}
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void spvOpcodeSplit(const uint32_t word, uint16_t* pWordCount, SpvOp* pOpcode) {
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if (pWordCount) {
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*pWordCount = (uint16_t)((0xffff0000 & word) >> 16);
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}
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if (pOpcode) {
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*pOpcode = (SpvOp)(0x0000ffff & word);
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}
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}
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spv_result_t spvOpcodeTableGet(spv_opcode_table* pInstTable) {
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if (!pInstTable) return SPV_ERROR_INVALID_POINTER;
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const uint32_t size = sizeof(opcodeTableEntries);
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spv_opcode_desc_t* copied_entries =
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static_cast<spv_opcode_desc_t*>(::malloc(size));
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if (!copied_entries) return SPV_ERROR_OUT_OF_MEMORY;
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::memcpy(copied_entries, opcodeTableEntries, size);
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const uint32_t count = sizeof(opcodeTableEntries) / sizeof(spv_opcode_desc_t);
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spv_opcode_table_t* table = new spv_opcode_table_t{count, copied_entries};
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spvOpcodeTableInitialize(copied_entries, count);
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*pInstTable = table;
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return SPV_SUCCESS;
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}
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spv_result_t spvOpcodeTableNameLookup(const spv_opcode_table table,
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const char* name,
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spv_opcode_desc* pEntry) {
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if (!name || !pEntry) return SPV_ERROR_INVALID_POINTER;
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if (!table) return SPV_ERROR_INVALID_TABLE;
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// TODO: This lookup of the Opcode table is suboptimal! Binary sort would be
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// preferable but the table requires sorting on the Opcode name, but it's
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// static
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// const initialized and matches the order of the spec.
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const size_t nameLength = strlen(name);
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for (uint64_t opcodeIndex = 0; opcodeIndex < table->count; ++opcodeIndex) {
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if (nameLength == strlen(table->entries[opcodeIndex].name) &&
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!strncmp(name, table->entries[opcodeIndex].name, nameLength)) {
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// NOTE: Found out Opcode!
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*pEntry = &table->entries[opcodeIndex];
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return SPV_SUCCESS;
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}
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}
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return SPV_ERROR_INVALID_LOOKUP;
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}
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spv_result_t spvOpcodeTableValueLookup(const spv_opcode_table table,
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const SpvOp opcode,
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spv_opcode_desc* pEntry) {
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if (!table) return SPV_ERROR_INVALID_TABLE;
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if (!pEntry) return SPV_ERROR_INVALID_POINTER;
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// TODO: As above this lookup is not optimal.
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for (uint64_t opcodeIndex = 0; opcodeIndex < table->count; ++opcodeIndex) {
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if (opcode == table->entries[opcodeIndex].opcode) {
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// NOTE: Found the Opcode!
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*pEntry = &table->entries[opcodeIndex];
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return SPV_SUCCESS;
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}
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}
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return SPV_ERROR_INVALID_LOOKUP;
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}
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int32_t spvOpcodeRequiresCapabilities(spv_opcode_desc entry) {
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return entry->capabilities != 0;
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}
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void spvInstructionCopy(const uint32_t* words, const SpvOp opcode,
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const uint16_t wordCount, const spv_endianness_t endian,
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spv_instruction_t* pInst) {
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pInst->opcode = opcode;
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pInst->words.resize(wordCount);
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for (uint16_t wordIndex = 0; wordIndex < wordCount; ++wordIndex) {
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pInst->words[wordIndex] = spvFixWord(words[wordIndex], endian);
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if (!wordIndex) {
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uint16_t thisWordCount;
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SpvOp thisOpcode;
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spvOpcodeSplit(pInst->words[wordIndex], &thisWordCount, &thisOpcode);
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assert(opcode == thisOpcode && wordCount == thisWordCount &&
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"Endianness failed!");
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}
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}
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}
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const char* spvOpcodeString(const SpvOp opcode) {
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// Use the syntax table so it's sure to be complete.
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#define Instruction(Name, ...) \
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case SpvOp##Name: \
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return #Name;
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switch (opcode) {
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#include "opcode.inc"
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default:
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assert(0 && "Unreachable!");
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}
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return "unknown";
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#undef Instruction
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}
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int32_t spvOpcodeIsScalarType(const SpvOp opcode) {
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switch (opcode) {
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case SpvOpTypeInt:
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case SpvOpTypeFloat:
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return true;
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default:
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return false;
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}
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}
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int32_t spvOpcodeIsConstant(const SpvOp opcode) {
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switch (opcode) {
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case SpvOpConstantTrue:
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case SpvOpConstantFalse:
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case SpvOpConstant:
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case SpvOpConstantComposite:
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case SpvOpConstantSampler:
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// case SpvOpConstantNull:
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case SpvOpConstantNull:
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case SpvOpSpecConstantTrue:
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case SpvOpSpecConstantFalse:
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case SpvOpSpecConstant:
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case SpvOpSpecConstantComposite:
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// case SpvOpSpecConstantOp:
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return true;
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default:
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return false;
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}
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}
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int32_t spvOpcodeIsComposite(const SpvOp opcode) {
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switch (opcode) {
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case SpvOpTypeVector:
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case SpvOpTypeMatrix:
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|
case SpvOpTypeArray:
|
|
case SpvOpTypeStruct:
|
|
return true;
|
|
default:
|
|
return false;
|
|
}
|
|
}
|
|
|
|
int32_t spvOpcodeAreTypesEqual(const spv_instruction_t* pTypeInst0,
|
|
const spv_instruction_t* pTypeInst1) {
|
|
if (pTypeInst0->opcode != pTypeInst1->opcode) return false;
|
|
if (pTypeInst0->words[1] != pTypeInst1->words[1]) return false;
|
|
return true;
|
|
}
|
|
|
|
int32_t spvOpcodeIsPointer(const SpvOp opcode) {
|
|
switch (opcode) {
|
|
case SpvOpVariable:
|
|
case SpvOpAccessChain:
|
|
case SpvOpInBoundsAccessChain:
|
|
case SpvOpFunctionParameter:
|
|
return true;
|
|
default:
|
|
return false;
|
|
}
|
|
}
|
|
|
|
int32_t spvOpcodeIsObject(const SpvOp opcode) {
|
|
switch (opcode) {
|
|
case SpvOpConstantTrue:
|
|
case SpvOpConstantFalse:
|
|
case SpvOpConstant:
|
|
case SpvOpConstantComposite:
|
|
// TODO: case SpvOpConstantSampler:
|
|
case SpvOpConstantNull:
|
|
case SpvOpSpecConstantTrue:
|
|
case SpvOpSpecConstantFalse:
|
|
case SpvOpSpecConstant:
|
|
case SpvOpSpecConstantComposite:
|
|
// TODO: case SpvOpSpecConstantOp:
|
|
case SpvOpVariable:
|
|
case SpvOpAccessChain:
|
|
case SpvOpInBoundsAccessChain:
|
|
case SpvOpConvertFToU:
|
|
case SpvOpConvertFToS:
|
|
case SpvOpConvertSToF:
|
|
case SpvOpConvertUToF:
|
|
case SpvOpUConvert:
|
|
case SpvOpSConvert:
|
|
case SpvOpFConvert:
|
|
case SpvOpConvertPtrToU:
|
|
// TODO: case SpvOpConvertUToPtr:
|
|
case SpvOpPtrCastToGeneric:
|
|
// TODO: case SpvOpGenericCastToPtr:
|
|
case SpvOpBitcast:
|
|
// TODO: case SpvOpGenericCastToPtrExplicit:
|
|
case SpvOpSatConvertSToU:
|
|
case SpvOpSatConvertUToS:
|
|
case SpvOpVectorExtractDynamic:
|
|
case SpvOpCompositeConstruct:
|
|
case SpvOpCompositeExtract:
|
|
case SpvOpCopyObject:
|
|
case SpvOpTranspose:
|
|
case SpvOpSNegate:
|
|
case SpvOpFNegate:
|
|
case SpvOpNot:
|
|
case SpvOpIAdd:
|
|
case SpvOpFAdd:
|
|
case SpvOpISub:
|
|
case SpvOpFSub:
|
|
case SpvOpIMul:
|
|
case SpvOpFMul:
|
|
case SpvOpUDiv:
|
|
case SpvOpSDiv:
|
|
case SpvOpFDiv:
|
|
case SpvOpUMod:
|
|
case SpvOpSRem:
|
|
case SpvOpSMod:
|
|
case SpvOpVectorTimesScalar:
|
|
case SpvOpMatrixTimesScalar:
|
|
case SpvOpVectorTimesMatrix:
|
|
case SpvOpMatrixTimesVector:
|
|
case SpvOpMatrixTimesMatrix:
|
|
case SpvOpOuterProduct:
|
|
case SpvOpDot:
|
|
case SpvOpShiftRightLogical:
|
|
case SpvOpShiftRightArithmetic:
|
|
case SpvOpShiftLeftLogical:
|
|
case SpvOpBitwiseOr:
|
|
case SpvOpBitwiseXor:
|
|
case SpvOpBitwiseAnd:
|
|
case SpvOpAny:
|
|
case SpvOpAll:
|
|
case SpvOpIsNan:
|
|
case SpvOpIsInf:
|
|
case SpvOpIsFinite:
|
|
case SpvOpIsNormal:
|
|
case SpvOpSignBitSet:
|
|
case SpvOpLessOrGreater:
|
|
case SpvOpOrdered:
|
|
case SpvOpUnordered:
|
|
case SpvOpLogicalOr:
|
|
case SpvOpLogicalAnd:
|
|
case SpvOpSelect:
|
|
case SpvOpIEqual:
|
|
case SpvOpFOrdEqual:
|
|
case SpvOpFUnordEqual:
|
|
case SpvOpINotEqual:
|
|
case SpvOpFOrdNotEqual:
|
|
case SpvOpFUnordNotEqual:
|
|
case SpvOpULessThan:
|
|
case SpvOpSLessThan:
|
|
case SpvOpFOrdLessThan:
|
|
case SpvOpFUnordLessThan:
|
|
case SpvOpUGreaterThan:
|
|
case SpvOpSGreaterThan:
|
|
case SpvOpFOrdGreaterThan:
|
|
case SpvOpFUnordGreaterThan:
|
|
case SpvOpULessThanEqual:
|
|
case SpvOpSLessThanEqual:
|
|
case SpvOpFOrdLessThanEqual:
|
|
case SpvOpFUnordLessThanEqual:
|
|
case SpvOpUGreaterThanEqual:
|
|
case SpvOpSGreaterThanEqual:
|
|
case SpvOpFOrdGreaterThanEqual:
|
|
case SpvOpFUnordGreaterThanEqual:
|
|
case SpvOpDPdx:
|
|
case SpvOpDPdy:
|
|
case SpvOpFwidth:
|
|
case SpvOpDPdxFine:
|
|
case SpvOpDPdyFine:
|
|
case SpvOpFwidthFine:
|
|
case SpvOpDPdxCoarse:
|
|
case SpvOpDPdyCoarse:
|
|
case SpvOpFwidthCoarse:
|
|
case SpvOpReturnValue:
|
|
return true;
|
|
default:
|
|
return false;
|
|
}
|
|
}
|
|
|
|
int32_t spvOpcodeIsBasicTypeNullable(SpvOp opcode) {
|
|
switch (opcode) {
|
|
case SpvOpTypeBool:
|
|
case SpvOpTypeInt:
|
|
case SpvOpTypeFloat:
|
|
case SpvOpTypePointer:
|
|
case SpvOpTypeEvent:
|
|
case SpvOpTypeDeviceEvent:
|
|
case SpvOpTypeReserveId:
|
|
case SpvOpTypeQueue:
|
|
return true;
|
|
default:
|
|
return false;
|
|
}
|
|
}
|
|
|
|
int32_t spvInstructionIsInBasicBlock(const spv_instruction_t* pFirstInst,
|
|
const spv_instruction_t* pInst) {
|
|
while (pFirstInst != pInst) {
|
|
if (SpvOpFunction == pInst->opcode) break;
|
|
pInst--;
|
|
}
|
|
if (SpvOpFunction != pInst->opcode) return false;
|
|
return true;
|
|
}
|
|
|
|
int32_t spvOpcodeIsValue(SpvOp opcode) {
|
|
if (spvOpcodeIsPointer(opcode)) return true;
|
|
if (spvOpcodeIsConstant(opcode)) return true;
|
|
switch (opcode) {
|
|
case SpvOpLoad:
|
|
// TODO: Other Opcode's resulting in a value
|
|
return true;
|
|
default:
|
|
return false;
|
|
}
|
|
}
|
|
|
|
int32_t spvOpcodeGeneratesType(SpvOp op) {
|
|
switch (op) {
|
|
case SpvOpTypeVoid:
|
|
case SpvOpTypeBool:
|
|
case SpvOpTypeInt:
|
|
case SpvOpTypeFloat:
|
|
case SpvOpTypeVector:
|
|
case SpvOpTypeMatrix:
|
|
case SpvOpTypeImage:
|
|
case SpvOpTypeSampler:
|
|
case SpvOpTypeSampledImage:
|
|
case SpvOpTypeArray:
|
|
case SpvOpTypeRuntimeArray:
|
|
case SpvOpTypeStruct:
|
|
case SpvOpTypeOpaque:
|
|
case SpvOpTypePointer:
|
|
case SpvOpTypeFunction:
|
|
case SpvOpTypeEvent:
|
|
case SpvOpTypeDeviceEvent:
|
|
case SpvOpTypeReserveId:
|
|
case SpvOpTypeQueue:
|
|
case SpvOpTypePipe:
|
|
return true;
|
|
default:
|
|
// In particular, OpTypeForwardPointer does not generate a type,
|
|
// but declares a storage class for a pointer type generated
|
|
// by a different instruction.
|
|
break;
|
|
}
|
|
return 0;
|
|
}
|