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SPIRV-Tools/test/ValidateID.cpp
David Neto 78c3b43774 Use opcode operand definitions from SPIR-V specification generator. 
The assembler and disassembler now use a dynamically adjusted
sequence of expected operand types.  (Internally, it is a deque,
for readability.)  Both parsers repeatedly pull an expected operand
type from the left of this pattern list, and try to match the next
input token against it.

The expected pattern is adjusted during the parse to accommodate:
- an extended instruction's expected operands, depending on the
  extended instruction's index.
- when an operand itself has operands
- to handle sequences of zero or more operands, or pairs of
  operands.  These are expanded lazily during the parse.

Adds spv::OperandClass from the SPIR-V specification generator.

Modifies spv_operand_desc_t:
 - adds hasResult, hasType, and operandClass array to the opcode
description type.
 - "wordCount" is replaced with "numTypes", which counts the number
   of entries in operandTypes.  And each of those describes a
   *logical* operand, including the type id for the instruction,
   and the result id for the instruction.  A logical operand could be
   variable-width, such as a literal string.

Adds opcode.inc, an automatically-generated table of operation
descriptions, with one line to describe each core instruction.
Externally, we have modified the SPIR-V spec doc generator to
emit this file.
(We have hacked this copy to use the old semantics for OpLine.)

Inside the assembler, parsing an operand may fail with new
error code SPV_FAIL_MATCH.  For an optional operand, this is not
fatal, but should trigger backtracking at a higher level.

The spvTextIsStartOfNewInst checks the case of the third letter
of what might be an opcode.  So now, "OpenCL" does not look like
an opcode name.

In assembly, the EntryPoint name field is mandatory, but can be
an empty string.

Adjust tests for changes to:
- OpSampedImage
- OpTypeSampler
2015-10-26 12:52:01 -04:00

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// Copyright (c) 2015 The Khronos Group Inc.
//
// Permission is hereby granted, free of charge, to any person obtaining a
// copy of this software and/or associated documentation files (the
// "Materials"), to deal in the Materials without restriction, including
// without limitation the rights to use, copy, modify, merge, publish,
// distribute, sublicense, and/or sell copies of the Materials, and to
// permit persons to whom the Materials are furnished to do so, subject to
// the following conditions:
//
// The above copyright notice and this permission notice shall be included
// in all copies or substantial portions of the Materials.
//
// MODIFICATIONS TO THIS FILE MAY MEAN IT NO LONGER ACCURATELY REFLECTS
// KHRONOS STANDARDS. THE UNMODIFIED, NORMATIVE VERSIONS OF KHRONOS
// SPECIFICATIONS AND HEADER INFORMATION ARE LOCATED AT
// https://www.khronos.org/registry/
//
// THE MATERIALS ARE PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
// MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
// IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY
// CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,
// TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
// MATERIALS OR THE USE OR OTHER DEALINGS IN THE MATERIALS.
#include "UnitSPIRV.h"
// NOTE: The tests in this file are ONLY testing ID usage, there for the input
// SPIR-V does not follow the logical layout rules from the spec in all cases in
// order to makes the tests smaller. Validation of the whole module is handled
// in stages, ID validation is only one of these stages. All validation stages
// are stand alone.
namespace {
class ValidateID : public ::testing::Test {
public:
ValidateID() : opcodeTable(nullptr), operandTable(nullptr), binary() {}
virtual void SetUp() {
ASSERT_EQ(SPV_SUCCESS, spvOpcodeTableGet(&opcodeTable));
ASSERT_EQ(SPV_SUCCESS, spvOperandTableGet(&operandTable));
ASSERT_EQ(SPV_SUCCESS, spvExtInstTableGet(&extInstTable));
}
virtual void TearDown() { spvBinaryDestroy(binary); }
spv_opcode_table opcodeTable;
spv_operand_table operandTable;
spv_ext_inst_table extInstTable;
spv_binary binary;
};
#define CHECK(str, expected) \
spv_text_t text = {str, strlen(str)}; \
spv_diagnostic diagnostic; \
spv_result_t error = spvTextToBinary(&text, opcodeTable, operandTable, \
extInstTable, &binary, &diagnostic); \
if (error) { \
spvDiagnosticPrint(diagnostic); \
spvDiagnosticDestroy(diagnostic); \
ASSERT_EQ(SPV_SUCCESS, error); \
} \
spv_result_t result = \
spvValidate(binary, opcodeTable, operandTable, extInstTable, \
SPV_VALIDATE_ID_BIT, &diagnostic); \
if (SPV_SUCCESS != result) { \
spvDiagnosticPrint(diagnostic); \
spvDiagnosticDestroy(diagnostic); \
} \
ASSERT_EQ(expected, result);
// TODO: OpUndef
TEST_F(ValidateID, OpName) {
const char *spirv = R"(
OpName %2 "name"
%1 = OpTypeInt 32 0
%2 = OpTypePointer UniformConstant %1
%3 = OpVariable %2 UniformConstant)";
CHECK(spirv, SPV_SUCCESS);
}
TEST_F(ValidateID, OpMemberNameGood) {
const char *spirv = R"(
OpMemberName %2 0 "foo"
%1 = OpTypeInt 32 0
%2 = OpTypeStruct %1)";
CHECK(spirv, SPV_SUCCESS);
}
TEST_F(ValidateID, OpMemberNameTypeBad) {
const char *spirv = R"(
OpMemberName %1 0 "foo"
%1 = OpTypeInt 32 0)";
CHECK(spirv, SPV_ERROR_INVALID_ID);
}
TEST_F(ValidateID, OpMemberNameMemberBad) {
const char *spirv = R"(
OpMemberName %2 1 "foo"
%1 = OpTypeInt 32 0
%2 = OpTypeStruct %1)";
CHECK(spirv, SPV_ERROR_INVALID_ID);
}
TEST_F(ValidateID, OpLineGood) {
// TODO(dneto): OpLine changed after Rev31. It no longer has a first argument.
// The following is the Rev31 form.
const char *spirv = R"(
%1 = OpString "/path/to/source.file"
OpLine %4 %1 0 0
%2 = OpTypeInt 32 0
%3 = OpTypePointer Generic %2
%4 = OpVariable %3 Generic)";
CHECK(spirv, SPV_SUCCESS);
}
TEST_F(ValidateID, OpLineFileBad) {
// TODO(dneto): OpLine changed after Rev31. It no longer has a first argument.
// The following is the Rev31 form.
const char *spirv = R"(
OpLine %4 %2 0 0
%2 = OpTypeInt 32 0
%3 = OpTypePointer Generic %2
%4 = OpVariable %3 Generic)";
CHECK(spirv, SPV_ERROR_INVALID_ID);
}
TEST_F(ValidateID, OpDecorateGood) {
const char *spirv = R"(
OpDecorate %2 GLSLShared
%1 = OpTypeInt 64 0
%2 = OpTypeStruct %1 %1)";
CHECK(spirv, SPV_SUCCESS);
}
TEST_F(ValidateID, OpDecorateBad) {
const char *spirv = R"(
OpDecorate %1 GLSLShared)";
CHECK(spirv, SPV_ERROR_INVALID_ID);
}
TEST_F(ValidateID, OpMemberDecorateGood) {
const char *spirv = R"(
OpMemberDecorate %2 0 Uniform
%1 = OpTypeInt 32 0
%2 = OpTypeStruct %1 %1)";
CHECK(spirv, SPV_SUCCESS);
}
TEST_F(ValidateID, OpMemberDecorateBad) {
const char *spirv = R"(
OpMemberDecorate %1 0 Uniform
%1 = OpTypeInt 32 0)";
CHECK(spirv, SPV_ERROR_INVALID_ID);
}
TEST_F(ValidateID, OpMemberDecorateMemberBad) {
const char *spirv = R"(
OpMemberDecorate %2 3 Uniform
%1 = OpTypeInt 32 0
%2 = OpTypeStruct %1 %1)";
CHECK(spirv, SPV_ERROR_INVALID_ID);
}
TEST_F(ValidateID, OpGroupDecorateGood) {
const char *spirv = R"(
%1 = OpDecorationGroup
OpDecorate %1 Uniform
OpDecorate %1 GLSLShared
OpGroupDecorate %1 %3 %4
%2 = OpTypeInt 32 0
%3 = OpConstant %2 42
%4 = OpConstant %2 23)";
CHECK(spirv, SPV_SUCCESS);
}
TEST_F(ValidateID, OpGroupDecorateDecorationGroupBad) {
const char *spirv = R"(
OpGroupDecorate %2 %3 %4
%2 = OpTypeInt 32 0
%3 = OpConstant %2 42
%4 = OpConstant %2 23)";
CHECK(spirv, SPV_ERROR_INVALID_ID);
}
TEST_F(ValidateID, OpGroupDecorateTargetBad) {
const char *spirv = R"(
%1 = OpDecorationGroup
OpDecorate %1 Uniform
OpDecorate %1 GLSLShared
OpGroupDecorate %1 %3
%2 = OpTypeInt 32 0)";
CHECK(spirv, SPV_ERROR_INVALID_ID);
}
// TODO: OpGroupMemberDecorate
// TODO: OpExtInst
TEST_F(ValidateID, OpEntryPointGood) {
const char *spirv = R"(
OpEntryPoint GLCompute %3 ""
%1 = OpTypeVoid
%2 = OpTypeFunction %1
%3 = OpFunction %1 None %2
%4 = OpLabel
OpReturn
OpFunctionEnd
)";
CHECK(spirv, SPV_SUCCESS);
}
TEST_F(ValidateID, OpEntryPointFunctionBad) {
const char *spirv = R"(
OpEntryPoint GLCompute %1 ""
%1 = OpTypeVoid)";
CHECK(spirv, SPV_ERROR_INVALID_ID);
}
TEST_F(ValidateID, OpEntryPointParameterCountBad) {
const char *spirv = R"(
OpEntryPoint GLCompute %3 ""
%1 = OpTypeVoid
%2 = OpTypeFunction %1 %1
%3 = OpFunction %1 None %2
%4 = OpLabel
OpReturn
OpFunctionEnd)";
CHECK(spirv, SPV_ERROR_INVALID_ID);
}
TEST_F(ValidateID, OpEntryPointReturnTypeBad) {
const char *spirv = R"(
OpEntryPoint GLCompute %3 ""
%1 = OpTypeInt 32 0
%2 = OpTypeFunction %1
%3 = OpFunction %1 None %2
%4 = OpLabel
OpReturn
OpFunctionEnd)";
CHECK(spirv, SPV_ERROR_INVALID_ID);
}
TEST_F(ValidateID, OpExecutionModeGood) {
const char *spirv = R"(
OpEntryPoint GLCompute %3 ""
OpExecutionMode %3 LocalSize 1 1 1
%1 = OpTypeVoid
%2 = OpTypeFunction %1
%3 = OpFunction %1 None %2
%4 = OpLabel
OpReturn
OpFunctionEnd)";
CHECK(spirv, SPV_SUCCESS);
}
TEST_F(ValidateID, OpExecutionModeEntryPointBad) {
const char *spirv = R"(
OpExecutionMode %3 LocalSize 1 1 1
%1 = OpTypeVoid
%2 = OpTypeFunction %1
%3 = OpFunction %1 None %2
%4 = OpLabel
OpReturn
OpFunctionEnd)";
CHECK(spirv, SPV_ERROR_INVALID_ID);
}
TEST_F(ValidateID, OpTypeVectorGood) {
const char *spirv = R"(
%1 = OpTypeFloat 32
%2 = OpTypeVector %1 4)";
CHECK(spirv, SPV_SUCCESS);
}
TEST_F(ValidateID, OpTypeVectorComponentTypeBad) {
const char *spirv = R"(
%1 = OpTypeFloat 32
%2 = OpTypePointer UniformConstant %1
%3 = OpTypeVector %2 4)";
CHECK(spirv, SPV_ERROR_INVALID_ID);
}
TEST_F(ValidateID, OpTypeMatrixGood) {
const char *spirv = R"(
%1 = OpTypeInt 32 0
%2 = OpTypeVector %1 2
%3 = OpTypeMatrix %2 3)";
CHECK(spirv, SPV_SUCCESS);
}
TEST_F(ValidateID, OpTypeMatrixColumnTypeBad) {
const char *spirv = R"(
%1 = OpTypeInt 32 0
%2 = OpTypeMatrix %1 3)";
CHECK(spirv, SPV_ERROR_INVALID_ID);
}
TEST_F(ValidateID, OpTypeSamplerGood) {
// In Rev31, OpTypeSampler takes no arguments.
const char *spirv = R"(
%s = OpTypeSampler)";
CHECK(spirv, SPV_SUCCESS);
}
TEST_F(ValidateID, OpTypeArrayGood) {
const char *spirv = R"(
%1 = OpTypeInt 32 0
%2 = OpConstant %1 1
%3 = OpTypeArray %1 %2)";
CHECK(spirv, SPV_SUCCESS);
}
TEST_F(ValidateID, OpTypeArrayElementTypeBad) {
const char *spirv = R"(
%1 = OpTypeInt 32 0
%2 = OpConstant %1 1
%3 = OpTypeArray %2 %2)";
CHECK(spirv, SPV_ERROR_INVALID_ID);
}
TEST_F(ValidateID, OpTypeArrayLengthBad) {
const char *spirv = R"(
%1 = OpTypeInt 32 0
%2 = OpConstant %1 0
%3 = OpTypeArray %1 %2)";
CHECK(spirv, SPV_ERROR_INVALID_ID);
}
TEST_F(ValidateID, OpTypeRuntimeArrayGood) {
const char *spirv = R"(
%1 = OpTypeInt 32 0
%2 = OpTypeRuntimeArray %1)";
CHECK(spirv, SPV_SUCCESS);
}
TEST_F(ValidateID, OpTypeRuntimeArrayBad) {
const char *spirv = R"(
%1 = OpTypeInt 32 0
%2 = OpConstant %1 0
%3 = OpTypeRuntimeArray %2)";
CHECK(spirv, SPV_ERROR_INVALID_ID);
}
// TODO: Object of this type can only be created with OpVariable using the
// Unifrom Storage Class
TEST_F(ValidateID, OpTypeStructGood) {
const char *spirv = R"(
%1 = OpTypeInt 32 0
%2 = OpTypeFloat 64
%3 = OpTypePointer Generic %1
%4 = OpTypeStruct %1 %2 %3)";
CHECK(spirv, SPV_SUCCESS);
}
TEST_F(ValidateID, OpTypeStructMemberTypeBad) {
const char *spirv = R"(
%1 = OpTypeInt 32 0
%2 = OpTypeFloat 64
%3 = OpConstant %2 0.0
%4 = OpTypeStruct %1 %2 %3)";
CHECK(spirv, SPV_ERROR_INVALID_ID);
}
TEST_F(ValidateID, OpTypePointerGood) {
const char *spirv = R"(
%1 = OpTypeInt 32 0
%2 = OpTypePointer Generic %1)";
CHECK(spirv, SPV_SUCCESS);
}
TEST_F(ValidateID, OpTypePointerBad) {
const char *spirv = R"(
%1 = OpTypeInt 32 0
%2 = OpConstant %1 0
%3 = OpTypePointer Generic %2)";
CHECK(spirv, SPV_ERROR_INVALID_ID);
}
TEST_F(ValidateID, OpTypeFunctionGood) {
const char *spirv = R"(
%1 = OpTypeVoid
%2 = OpTypeFunction %1)";
CHECK(spirv, SPV_SUCCESS);
}
TEST_F(ValidateID, OpTypeFunctionReturnTypeBad) {
const char *spirv = R"(
%1 = OpTypeInt 32 0
%2 = OpConstant %1 0
%3 = OpTypeFunction %2)";
CHECK(spirv, SPV_ERROR_INVALID_ID);
}
TEST_F(ValidateID, OpTypeFunctionParameterBad) {
const char *spirv = R"(
%1 = OpTypeVoid
%2 = OpTypeInt 32 0
%3 = OpConstant %2 0
%4 = OpTypeFunction %1 %2 %3)";
CHECK(spirv, SPV_ERROR_INVALID_ID);
}
TEST_F(ValidateID, OpTypePipeGood) {
const char *spirv = R"(
%1 = OpTypeFloat 32
%2 = OpTypeVector %1 16
%3 = OpTypePipe %2 ReadOnly)";
CHECK(spirv, SPV_SUCCESS);
}
TEST_F(ValidateID, OpTypePipeBad) {
const char *spirv = R"(
%1 = OpTypeFloat 32
%2 = OpConstant %1 0
%3 = OpTypePipe %2 ReadOnly)";
CHECK(spirv, SPV_ERROR_INVALID_ID);
}
TEST_F(ValidateID, OpConstantTrueGood) {
const char *spirv = R"(
%1 = OpTypeBool
%2 = OpConstantTrue %1)";
CHECK(spirv, SPV_SUCCESS);
}
TEST_F(ValidateID, OpConstantTrueBad) {
const char *spirv = R"(
%1 = OpTypeVoid
%2 = OpConstantTrue %1)";
CHECK(spirv, SPV_ERROR_INVALID_ID);
}
TEST_F(ValidateID, OpConstantFalseGood) {
const char *spirv = R"(
OpTypeBool %1
%2 = OpConstantTrue %1)";
CHECK(spirv, SPV_SUCCESS);
}
TEST_F(ValidateID, OpConstantFalseBad) {
const char *spirv = R"(
%1 = OpTypeVoid
%2 = OpConstantFalse %1)";
CHECK(spirv, SPV_ERROR_INVALID_ID);
}
TEST_F(ValidateID, OpConstantGood) {
const char *spirv = R"(
%1 = OpTypeInt 32 0
%2 = OpConstant %1 1)";
CHECK(spirv, SPV_SUCCESS);
}
TEST_F(ValidateID, OpConstantBad) {
const char *spirv = R"(
%1 = OpTypeVoid
%2 = OpConstant %1 0)";
CHECK(spirv, SPV_ERROR_INVALID_ID);
}
TEST_F(ValidateID, OpConstantCompositeVectorGood) {
const char *spirv = R"(
%1 = OpTypeFloat 32
%2 = OpTypeVector %1 4
%3 = OpConstant %1 3.14
%4 = OpConstantComposite %2 %3 %3 %3 %3)";
CHECK(spirv, SPV_SUCCESS);
}
TEST_F(ValidateID, OpConstantCompositeVectorResultTypeBad) {
const char *spirv = R"(
%1 = OpTypeFloat 32
%2 = OpTypeVector %1 4
%3 = OpConstant %1 3.14
%4 = OpConstantComposite %1 %3 %3 %3 %3)";
CHECK(spirv, SPV_ERROR_INVALID_ID);
}
TEST_F(ValidateID, OpConstantCompositeVectorConstituentBad) {
const char *spirv = R"(
%1 = OpTypeFloat 32
%2 = OpTypeVector %1 4
%4 = OpTypeInt 32 0
%3 = OpConstant %1 3.14
%5 = OpConstant %4 42
%6 = OpConstantComposite %2 %3 %5 %3 %3)";
CHECK(spirv, SPV_ERROR_INVALID_ID);
}
TEST_F(ValidateID, OpConstantCompositeMatrixGood) {
const char *spirv = R"(
%1 = OpTypeFloat 32
%2 = OpTypeVector %1 4
%3 = OpTypeMatrix %2 4
%4 = OpConstant %1 1.0
%5 = OpConstant %1 0.0
%6 = OpConstantComposite %2 %4 %5 %5 %5
%7 = OpConstantComposite %2 %5 %4 %5 %5
%8 = OpConstantComposite %2 %5 %5 %4 %5
%9 = OpConstantComposite %2 %5 %5 %5 %4
%10 = OpConstantComposite %3 %6 %7 %8 %9)";
CHECK(spirv, SPV_SUCCESS);
}
TEST_F(ValidateID, OpConstantCompositeMatrixConstituentBad) {
const char *spirv = R"(
%1 = OpTypeFloat 32
%2 = OpTypeVector %1 4
%11 = OpTypeVector %1 3
%3 = OpTypeMatrix %2 4
%4 = OpConstant %1 1.0
%5 = OpConstant %1 0.0
%6 = OpConstantComposite %2 %4 %5 %5 %5
%7 = OpConstantComposite %2 %5 %4 %5 %5
%8 = OpConstantComposite %2 %5 %5 %4 %5
%9 = OpConstantComposite %11 %5 %5 %5
%10 = OpConstantComposite %3 %6 %7 %8 %9)";
CHECK(spirv, SPV_ERROR_INVALID_ID);
}
TEST_F(ValidateID, OpConstantCompositeMatrixColumnTypeBad) {
const char *spirv = R"(
%1 = OpTypeInt 32 0
%2 = OpTypeFloat 32
%3 = OpTypeVector %1 2
%4 = OpTypeVector %3 2
%5 = OpTypeMatrix %2 2
%6 = OpConstant %1 42
%7 = OpConstant %2 3.14
%8 = OpConstantComposite %3 %6 %6
%9 = OpConstantComposite %4 %7 %7
%10 = OpConstantComposite %5 %8 %9)";
CHECK(spirv, SPV_ERROR_INVALID_ID);
}
TEST_F(ValidateID, OpConstantCompositeArrayGood) {
const char *spirv = R"(
%1 = OpTypeInt 32 0
%2 = OpConstant %1 4
%3 = OpTypeArray %1 %2
%4 = OpConstantComposite %3 %2 %2 %2 %2)";
CHECK(spirv, SPV_SUCCESS);
}
TEST_F(ValidateID, OpConstantCompositeArrayConstConstituentBad) {
const char *spirv = R"(
%1 = OpTypeInt 32 0
%2 = OpConstant %1 4
%3 = OpTypeArray %1 %2
%4 = OpConstantComposite %3 %2 %2 %2 %1)";
CHECK(spirv, SPV_ERROR_INVALID_ID);
}
TEST_F(ValidateID, OpConstantCompositeArrayConstituentBad) {
const char *spirv = R"(
%1 = OpTypeInt 32 0
%2 = OpConstant %1 4
%3 = OpTypeArray %1 %2
%5 = OpTypeFloat 32
%6 = OpConstant %5 3.14
%4 = OpConstantComposite %3 %2 %2 %2 %6)";
CHECK(spirv, SPV_ERROR_INVALID_ID);
}
TEST_F(ValidateID, OpConstantCompositeStructGood) {
const char *spirv = R"(
%1 = OpTypeInt 32 0
%2 = OpTypeInt 64 1
%3 = OpTypeStruct %1 %1 %2
%4 = OpConstant %1 42
%5 = OpConstant %2 4300000000
%6 = OpConstantComposite %3 %4 %4 %5)";
CHECK(spirv, SPV_SUCCESS);
}
TEST_F(ValidateID, OpConstantCompositeStructMemberBad) {
const char *spirv = R"(
%1 = OpTypeInt 32 0
%2 = OpTypeInt 64 1
%3 = OpTypeStruct %1 %1 %2
%4 = OpConstant %1 42
%5 = OpConstant %2 4300000000
%6 = OpConstantComposite %3 %4 %5 %4)";
CHECK(spirv, SPV_ERROR_INVALID_ID);
}
TEST_F(ValidateID, OpConstantSamplerGood) {
const char *spirv = R"(
%float = OpTypeFloat 32
%samplerType = OpTypeSampler
%3 = OpConstantSampler %samplerType ClampToEdge 0 Nearest)";
CHECK(spirv, SPV_SUCCESS);
}
TEST_F(ValidateID, OpConstantSamplerResultTypeBad) {
const char *spirv = R"(
%1 = OpTypeFloat 32
%2 = OpConstantSampler %1 Clamp 0 Nearest)";
CHECK(spirv, SPV_ERROR_INVALID_ID);
}
TEST_F(ValidateID, OpConstantNullGood) {
const char *spirv = R"(
%1 = OpTypeBool
%2 = OpConstantNull %1
%3 = OpTypeInt 32 0
%4 = OpConstantNull %3
%5 = OpTypeFloat 32
%6 = OpConstantNull %5
%7 = OpTypePointer UniformConstant %3
%8 = OpConstantNull %7
%9 = OpTypeEvent
%10 = OpConstantNull %9
%11 = OpTypeDeviceEvent
%12 = OpConstantNull %11
%13 = OpTypeReserveId
%14 = OpConstantNull %13
%15 = OpTypeQueue
%16 = OpConstantNull %15
%17 = OpTypeVector %3 2
%18 = OpConstantNull %17
%19 = OpTypeMatrix %17 2
%20 = OpConstantNull %19
%25 = OpConstant %3 8
%21 = OpTypeArray %3 %25
%22 = OpConstantNull %21
%23 = OpTypeStruct %3 %5 %1
%24 = OpConstantNull %23
)";
CHECK(spirv, SPV_SUCCESS);
}
TEST_F(ValidateID, OpConstantNullBasicBad) {
const char *spirv = R"(
%1 = OpTypeVoid
%2 = OpConstantNull %1)";
CHECK(spirv, SPV_ERROR_INVALID_ID);
}
TEST_F(ValidateID, OpConstantNullArrayBad) {
const char *spirv = R"(
%2 = OpTypeInt 32 0
%3 = OpTypeSampler
%4 = OpConstant %2 4
%5 = OpTypeArray %3 %4
%6 = OpConstantNull %5)";
CHECK(spirv, SPV_ERROR_INVALID_ID);
}
TEST_F(ValidateID, OpConstantNullStructBad) {
const char *spirv = R"(
%2 = OpTypeSampler
%3 = OpTypeStruct %2 %2
%4 = OpConstantNull %3)";
CHECK(spirv, SPV_ERROR_INVALID_ID);
}
TEST_F(ValidateID, OpSpecConstantTrueGood) {
const char *spirv = R"(
%1 = OpTypeBool
%2 = OpSpecConstantTrue %1)";
CHECK(spirv, SPV_SUCCESS);
}
TEST_F(ValidateID, OpSpecConstantTrueBad) {
const char *spirv = R"(
%1 = OpTypeVoid
%2 = OpSpecConstantTrue %1)";
CHECK(spirv, SPV_ERROR_INVALID_ID);
}
TEST_F(ValidateID, OpSpecConstantFalseGood) {
const char *spirv = R"(
%1 = OpTypeBool
%2 = OpSpecConstantFalse %1)";
CHECK(spirv, SPV_SUCCESS);
}
TEST_F(ValidateID, OpSpecConstantFalseBad) {
const char *spirv = R"(
%1 = OpTypeVoid
%2 = OpSpecConstantFalse %1)";
CHECK(spirv, SPV_ERROR_INVALID_ID);
}
TEST_F(ValidateID, OpSpecConstantGood) {
const char *spirv = R"(
%1 = OpTypeFloat 32
%2 = OpSpecConstant %1 42)";
CHECK(spirv, SPV_SUCCESS);
}
TEST_F(ValidateID, OpSpecConstantBad) {
const char *spirv = R"(
%1 = OpTypeVoid
%2 = OpSpecConstant %1 3.14)";
CHECK(spirv, SPV_ERROR_INVALID_ID);
}
// TODO: OpSpecConstantComposite
// TODO: OpSpecConstantOp
TEST_F(ValidateID, OpVariableGood) {
const char *spirv = R"(
%1 = OpTypeInt 32 1
%2 = OpTypePointer Generic %1
%3 = OpVariable %2 Generic)";
CHECK(spirv, SPV_SUCCESS);
}
TEST_F(ValidateID, OpVariableInitializerGood) {
const char *spirv = R"(
%1 = OpTypeInt 32 1
%2 = OpTypePointer Generic %1
%3 = OpConstant %1 42
%4 = OpVariable %2 Generic %3)";
CHECK(spirv, SPV_SUCCESS);
}
// TODO: Positive test OpVariable with OpConstantNull of OpTypePointer
TEST_F(ValidateID, OpVariableResultTypeBad) {
const char *spirv = R"(
%1 = OpTypeInt 32 1
%2 = OpVariable %1 Generic)";
CHECK(spirv, SPV_ERROR_INVALID_ID);
}
TEST_F(ValidateID, OpVariableInitializerBad) {
const char *spirv = R"(
%1 = OpTypeInt 32 1
%2 = OpTypePointer Generic %1
%3 = OpVariable %2 Generic %2)";
CHECK(spirv, SPV_ERROR_INVALID_ID);
}
TEST_F(ValidateID, OpLoadGood) {
const char *spirv = R"(
%1 = OpTypeVoid
%2 = OpTypeInt 32 1
%3 = OpTypePointer UniformConstant %2
%4 = OpTypeFunction %1
%5 = OpVariable %3 UniformConstant
%6 = OpFunction %1 None %4
%7 = OpLabel
%8 = OpLoad %3 %5
%9 = OpReturn
%10 = OpFunctionEnd
)";
CHECK(spirv, SPV_SUCCESS);
}
TEST_F(ValidateID, OpLoadResultTypeBad) {
const char *spirv = R"(
%1 = OpTypeVoid
%2 = OpTypeInt 32 1
%3 = OpTypePointer UniformConstant %2
%4 = OpTypeFunction %1
%5 = OpVariable %3 UniformConstant
%6 = OpFunction %1 None %4
%7 = OpLabel
%8 = OpLoad %2 %5
OpReturn
OpFunctionEnd
)";
CHECK(spirv, SPV_ERROR_INVALID_ID);
}
TEST_F(ValidateID, OpLoadPointerBad) {
const char *spirv = R"(
%1 = OpTypeVoid
%2 = OpTypeInt 32 1
%9 = OpTypeFloat 32
%3 = OpTypePointer UniformConstant %2
%4 = OpTypeFunction %1
%6 = OpFunction %1 None %4
%7 = OpLabel
%8 = OpLoad %9 %3
OpReturn
OpFunctionEnd
)";
CHECK(spirv, SPV_ERROR_INVALID_ID);
}
TEST_F(ValidateID, OpStoreGood) {
const char *spirv = R"(
%1 = OpTypeVoid
%2 = OpTypeInt 32 1
%3 = OpTypePointer UniformConstant %2
%4 = OpTypeFunction %1
%5 = OpConstant %2 42
%6 = OpVariable %3 UniformConstant
%7 = OpFunction %1 None %4
%8 = OpLabel
OpStore %6 %5
OpReturn
OpFunctionEnd)";
CHECK(spirv, SPV_SUCCESS);
}
TEST_F(ValidateID, OpStorePointerBad) {
const char *spirv = R"(
%1 = OpTypeVoid
%2 = OpTypeInt 32 1
%3 = OpTypePointer UniformConstant %2
%4 = OpTypeFunction %1
%5 = OpConstant %2 42
%6 = OpVariable %3 UniformConstant
%7 = OpFunction %1 None %4
%8 = OpLabel
OpStore %3 %5
OpReturn
OpFunctionEnd)";
CHECK(spirv, SPV_ERROR_INVALID_ID);
}
TEST_F(ValidateID, OpStoreObjectGood) {
const char *spirv = R"(
%1 = OpTypeVoid
%2 = OpTypeInt 32 1
%3 = OpTypePointer UniformConstant %2
%4 = OpTypeFunction %1
%5 = OpConstant %2 42
%6 = OpVariable %3 UniformConstant
%7 = OpFunction %1 None %4
%8 = OpLabel
OpStore %6 %7
OpReturn
OpFunctionEnd)";
CHECK(spirv, SPV_ERROR_INVALID_ID);
}
TEST_F(ValidateID, OpStoreTypeBad) {
const char *spirv = R"(
%1 = OpTypeVoid
%2 = OpTypeInt 32 1
%9 = OpTypeFloat 32
%3 = OpTypePointer UniformConstant %2
%4 = OpTypeFunction %1
%5 = OpConstant %9 3.14
%6 = OpVariable %3 UniformConstant
%7 = OpFunction %1 None %4
%8 = OpLabel
OpStore %6 %5
OpReturn
OpFunctionEnd)";
CHECK(spirv, SPV_ERROR_INVALID_ID);
}
TEST_F(ValidateID, OpCopyMemoryGood) {
const char *spirv = R"(
%1 = OpTypeVoid
%2 = OpTypeInt 32 0
%3 = OpTypePointer UniformConstant %2
%4 = OpConstant %2 42
%5 = OpVariable %3 UniformConstant %4
%6 = OpTypePointer Function %2
%7 = OpTypeFunction %1
%8 = OpFunction %1 None %7
%9 = OpLabel
%10 = OpVariable %6 Function
OpCopyMemory %10 %5 None
OpReturn
OpFunctionEnd
)";
CHECK(spirv, SPV_SUCCESS);
}
TEST_F(ValidateID, OpCopyMemoryBad) {
const char *spirv = R"(
%1 = OpTypeVoid
%2 = OpTypeInt 32 0
%3 = OpTypePointer UniformConstant %2
%4 = OpConstant %2 42
%5 = OpVariable %3 UniformConstant %4
%11 = OpTypeFloat 32
%6 = OpTypePointer Function %11
%7 = OpTypeFunction %1
%8 = OpFunction %1 None %7
%9 = OpLabel
%10 = OpVariable %6 Function
OpCopyMemory %10 %5 None
OpReturn
OpFunctionEnd
)";
CHECK(spirv, SPV_ERROR_INVALID_ID);
}
// TODO: OpCopyMemorySized
TEST_F(ValidateID, OpCopyMemorySizedGood) {
const char *spirv = R"(
%1 = OpTypeVoid
%2 = OpTypeInt 32 0
%3 = OpTypePointer UniformConstant %2
%4 = OpTypePointer Function %2
%5 = OpConstant %2 4
%6 = OpVariable %3 UniformConstant %5
%7 = OpTypeFunction %1
%8 = OpFunction %1 None %7
%9 = OpLabel
%10 = OpVariable %4 Function
OpCopyMemorySized %10 %6 %5 None
OpReturn
OpFunctionEnd)";
CHECK(spirv, SPV_SUCCESS);
}
TEST_F(ValidateID, OpCopyMemorySizedTargetBad) {
const char *spirv = R"(
%1 = OpTypeVoid
%2 = OpTypeInt 32 0
%3 = OpTypePointer UniformConstant %2
%4 = OpTypePointer Function %2
%5 = OpConstant %2 4
%6 = OpVariable %3 UniformConstant %5
%7 = OpTypeFunction %1
%8 = OpFunction %1 None %7
%9 = OpLabel
OpCopyMemorySized %9 %6 %5 None
OpReturn
OpFunctionEnd)";
CHECK(spirv, SPV_ERROR_INVALID_ID);
}
TEST_F(ValidateID, OpCopyMemorySizedSourceBad) {
const char *spirv = R"(
%1 = OpTypeVoid
%2 = OpTypeInt 32 0
%3 = OpTypePointer UniformConstant %2
%4 = OpTypePointer Function %2
%5 = OpConstant %2 4
%6 = OpTypeFunction %1
%7 = OpFunction %1 None %6
%8 = OpLabel
%9 = OpVariable %4 Function
OpCopyMemorySized %9 %6 %5 None
OpReturn
OpFunctionEnd)";
CHECK(spirv, SPV_ERROR_INVALID_ID);
}
TEST_F(ValidateID, OpCopyMemorySizedSizeBad) {
const char *spirv = R"(
%1 = OpTypeVoid
%2 = OpTypeInt 32 0
%3 = OpTypePointer UniformConstant %2
%4 = OpTypePointer Function %2
%5 = OpConstant %2 4
%6 = OpVariable %3 UniformConstant %5
%7 = OpTypeFunction %1
%8 = OpFunction %1 None %7
%9 = OpLabel
%10 = OpVariable %4 Function
OpCopyMemorySized %10 %6 %6 None
OpReturn
OpFunctionEnd)";
CHECK(spirv, SPV_ERROR_INVALID_ID);
}
TEST_F(ValidateID, OpCopyMemorySizedSizeTypeBad) {
const char *spirv = R"(
%1 = OpTypeVoid
%2 = OpTypeInt 32 0
%3 = OpTypePointer UniformConstant %2
%4 = OpTypePointer Function %2
%5 = OpConstant %2 4
%6 = OpVariable %3 UniformConstant %5
%7 = OpTypeFunction %1
%11 = OpTypeFloat 32
%12 = OpConstant %11 1.0
%8 = OpFunction %1 None %7
%9 = OpLabel
%10 = OpVariable %4 Function
OpCopyMemorySized %10 %6 %12 None
OpReturn
OpFunctionEnd)";
CHECK(spirv, SPV_ERROR_INVALID_ID);
}
// TODO: OpAccessChain
// TODO: OpInBoundsAccessChain
// TODO: OpArrayLength
// TODO: OpImagePointer
// TODO: OpGenericPtrMemSemantics
TEST_F(ValidateID, OpFunctionGood) {
const char *spirv = R"(
%1 = OpTypeVoid
%2 = OpTypeInt 32 1
%3 = OpTypeFunction %1 %2 %2
%4 = OpFunction %1 None %3
OpFunctionEnd)";
CHECK(spirv, SPV_SUCCESS);
}
TEST_F(ValidateID, OpFunctionResultTypeBad) {
const char *spirv = R"(
%1 = OpTypeVoid
%2 = OpTypeInt 32 1
%5 = OpConstant %2 42
%3 = OpTypeFunction %1 %2 %2
%4 = OpFunction %2 None %3
OpFunctionEnd)";
CHECK(spirv, SPV_ERROR_INVALID_ID);
}
TEST_F(ValidateID, OpFunctionFunctionTypeBad) {
const char *spirv = R"(
%1 = OpTypeVoid
%2 = OpTypeInt 32 1
%4 = OpFunction %1 None %2
OpFunctionEnd)";
CHECK(spirv, SPV_ERROR_INVALID_ID);
}
TEST_F(ValidateID, OpFunctionParameterGood) {
const char *spirv = R"(
%1 = OpTypeVoid
%2 = OpTypeInt 32 0
%3 = OpTypeFunction %1 %2
%4 = OpFunction %1 None %3
%5 = OpFunctionParameter %2
%6 = OpLabel
OpReturn
OpFunctionEnd)";
CHECK(spirv, SPV_SUCCESS);
}
TEST_F(ValidateID, OpFunctionParameterResultTypeBad) {
const char *spirv = R"(
%1 = OpTypeVoid
%2 = OpTypeInt 32 0
%3 = OpTypeFunction %1 %2
%4 = OpFunction %1 None %3
%5 = OpFunctionParameter %1
%6 = OpLabel
OpReturn
OpFunctionEnd)";
CHECK(spirv, SPV_ERROR_INVALID_ID);
}
TEST_F(ValidateID, OpFunctionParameterOrderBad) {
const char *spirv = R"(
%1 = OpTypeVoid
%2 = OpTypeInt 32 0
%3 = OpTypeFunction %1 %2
%7 = OpTypePointer Function %2
%4 = OpFunction %1 None %3
%8 = OpVariable %7 Function
%5 = OpFunctionParameter %2
%6 = OpLabel
OpReturn
OpFunctionEnd)";
CHECK(spirv, SPV_ERROR_INVALID_ID);
}
TEST_F(ValidateID, OpFunctionCallGood) {
const char *spirv = R"(
%1 = OpTypeVoid
%2 = OpTypeInt 32 0
%3 = OpTypeFunction %2 %2
%4 = OpTypeFunction %1
%5 = OpConstant %2 42 ;21
%6 = OpFunction %2 None %3
%7 = OpFunctionParameter %2
%8 = OpLabel
%9 = OpLoad %2 %7
OpReturnValue %9
OpFunctionEnd
%10 = OpFunction %1 None %4
%11 = OpLabel
OpReturn
%12 = OpFunctionCall %2 %6 %5
OpFunctionEnd)";
CHECK(spirv, SPV_SUCCESS);
}
TEST_F(ValidateID, OpFunctionCallResultTypeBad) {
const char *spirv = R"(
%1 = OpTypeVoid
%2 = OpTypeInt 32 0
%3 = OpTypeFunction %2 %2
%4 = OpTypeFunction %1
%5 = OpConstant %2 42 ;21
%6 = OpFunction %2 None %3
%7 = OpFunctionParameter %2
%8 = OpLabel
%9 = OpLoad %2 %7
OpReturnValue %9
OpFunctionEnd
%10 = OpFunction %1 None %4
%11 = OpLabel
OpReturn
%12 = OpFunctionCall %1 %6 %5
OpFunctionEnd)";
CHECK(spirv, SPV_ERROR_INVALID_ID);
}
TEST_F(ValidateID, OpFunctionCallFunctionBad) {
const char *spirv = R"(
%1 = OpTypeVoid
%2 = OpTypeInt 32 0
%3 = OpTypeFunction %2 %2
%4 = OpTypeFunction %1
%5 = OpConstant %2 42 ;21
%10 = OpFunction %1 None %4
%11 = OpLabel
OpReturn
%12 = OpFunctionCall %2 %5 %5
OpFunctionEnd)";
CHECK(spirv, SPV_ERROR_INVALID_ID);
}
TEST_F(ValidateID, OpFunctionCallArgumentTypeBad) {
const char *spirv = R"(
%1 = OpTypeVoid
%2 = OpTypeInt 32 0
%3 = OpTypeFunction %2 %2
%4 = OpTypeFunction %1
%5 = OpConstant %2 42
%13 = OpTypeFloat 32
%14 = OpConstant %13 3.14
%6 = OpFunction %2 None %3
%7 = OpFunctionParameter %2
%8 = OpLabel
%9 = OpLoad %2 %7
OpReturnValue %9
OpFunctionEnd
%10 = OpFunction %1 None %4
%11 = OpLabel
OpReturn
%12 = OpFunctionCall %2 %6 %14
OpFunctionEnd)";
CHECK(spirv, SPV_ERROR_INVALID_ID);
}
#if 0
TEST_F(ValidateID, OpFunctionCallArgumentCountBar) {
const char *spirv = R"(
%1 = OpTypeVoid
%2 = OpTypeInt 32 0
%3 = OpTypeFunction %2 %2
%4 = OpTypeFunction %1
%5 = OpConstant %2 42 ;21
%6 = OpFunction %2 None %3
%7 = OpFunctionParameter %2
%8 = OpLabel
%9 = OpLoad %2 %7
OpReturnValue %9
OpFunctionEnd
%10 = OpFunction %1 None %4
%11 = OpLabel
OpReturn
%12 = OpFunctionCall %2 %6 %5
OpFunctionEnd)";
CHECK(spirv, SPV_ERROR_INVALID_ID);
}
#endif
// TODO: OpSampledImage
// TODO: The many things that changed with how images are used.
// TODO: OpTextureSample
// TODO: OpTextureSampleDref
// TODO: OpTextureSampleLod
// TODO: OpTextureSampleProj
// TODO: OpTextureSampleGrad
// TODO: OpTextureSampleOffset
// TODO: OpTextureSampleProjLod
// TODO: OpTextureSampleProjGrad
// TODO: OpTextureSampleLodOffset
// TODO: OpTextureSampleProjOffset
// TODO: OpTextureSampleGradOffset
// TODO: OpTextureSampleProjLodOffset
// TODO: OpTextureSampleProjGradOffset
// TODO: OpTextureFetchTexelLod
// TODO: OpTextureFetchTexelOffset
// TODO: OpTextureFetchSample
// TODO: OpTextureFetchTexel
// TODO: OpTextureGather
// TODO: OpTextureGatherOffset
// TODO: OpTextureGatherOffsets
// TODO: OpTextureQuerySizeLod
// TODO: OpTextureQuerySize
// TODO: OpTextureQueryLevels
// TODO: OpTextureQuerySamples
// TODO: OpConvertUToF
// TODO: OpConvertFToS
// TODO: OpConvertSToF
// TODO: OpConvertUToF
// TODO: OpUConvert
// TODO: OpSConvert
// TODO: OpFConvert
// TODO: OpConvertPtrToU
// TODO: OpConvertUToPtr
// TODO: OpPtrCastToGeneric
// TODO: OpGenericCastToPtr
// TODO: OpBitcast
// TODO: OpGenericCastToPtrExplicit
// TODO: OpSatConvertSToU
// TODO: OpSatConvertUToS
// TODO: OpVectorExtractDynamic
// TODO: OpVectorInsertDynamic
// TODO: OpVectorShuffle
// TODO: OpCompositeConstruct
// TODO: OpCompositeExtract
// TODO: OpCompositeInsert
// TODO: OpCopyObject
// TODO: OpTranspose
// TODO: OpSNegate
// TODO: OpFNegate
// TODO: OpNot
// TODO: OpIAdd
// TODO: OpFAdd
// TODO: OpISub
// TODO: OpFSub
// TODO: OpIMul
// TODO: OpFMul
// TODO: OpUDiv
// TODO: OpSDiv
// TODO: OpFDiv
// TODO: OpUMod
// TODO: OpSRem
// TODO: OpSMod
// TODO: OpFRem
// TODO: OpFMod
// TODO: OpVectorTimesScalar
// TODO: OpMatrixTimesScalar
// TODO: OpVectorTimesMatrix
// TODO: OpMatrixTimesVector
// TODO: OpMatrixTimesMatrix
// TODO: OpOuterProduct
// TODO: OpDot
// TODO: OpShiftRightLogical
// TODO: OpShiftRightArithmetic
// TODO: OpShiftLeftLogical
// TODO: OpBitwiseOr
// TODO: OpBitwiseXor
// TODO: OpBitwiseAnd
// TODO: OpAny
// TODO: OpAll
// TODO: OpIsNan
// TODO: OpIsInf
// TODO: OpIsFinite
// TODO: OpIsNormal
// TODO: OpSignBitSet
// TODO: OpLessOrGreater
// TODO: OpOrdered
// TODO: OpUnordered
// TODO: OpLogicalOr
// TODO: OpLogicalXor
// TODO: OpLogicalAnd
// TODO: OpSelect
// TODO: OpIEqual
// TODO: OpFOrdEqual
// TODO: OpFUnordEqual
// TODO: OpINotEqual
// TODO: OpFOrdNotEqual
// TODO: OpFUnordNotEqual
// TODO: OpULessThan
// TODO: OpSLessThan
// TODO: OpFOrdLessThan
// TODO: OpFUnordLessThan
// TODO: OpUGreaterThan
// TODO: OpSGreaterThan
// TODO: OpFOrdGreaterThan
// TODO: OpFUnordGreaterThan
// TODO: OpULessThanEqual
// TODO: OpSLessThanEqual
// TODO: OpFOrdLessThanEqual
// TODO: OpFUnordLessThanEqual
// TODO: OpUGreaterThanEqual
// TODO: OpSGreaterThanEqual
// TODO: OpFOrdGreaterThanEqual
// TODO: OpFUnordGreaterThanEqual
// TODO: OpDPdx
// TODO: OpDPdy
// TODO: OpFWidth
// TODO: OpDPdxFine
// TODO: OpDPdyFine
// TODO: OpFwidthFine
// TODO: OpDPdxCoarse
// TODO: OpDPdyCoarse
// TODO: OpFwidthCoarse
// TODO: OpPhi
// TODO: OpLoopMerge
// TODO: OpSelectionMerge
// TODO: OpBranch
// TODO: OpBranchConditional
// TODO: OpSwitch
TEST_F(ValidateID, OpReturnValueConstantGood) {
const char *spirv = R"(
%1 = OpTypeVoid
%2 = OpTypeInt 32 0
%3 = OpTypeFunction %2 %2
%4 = OpConstant %2 42
%5 = OpFunction %2 None %3
%6 = OpLabel
OpReturnValue %4
OpFunctionEnd)";
CHECK(spirv, SPV_SUCCESS);
}
TEST_F(ValidateID, OpReturnValueVariableGood) {
const char *spirv = R"(
%1 = OpTypeVoid
%2 = OpTypeInt 32 0 ;10
%3 = OpTypeFunction %2 %2 ;14
%8 = OpTypePointer Function %2 ;18
%4 = OpConstant %2 42 ;22
%5 = OpFunction %2 None %3 ;27
%6 = OpLabel ;29
%7 = OpVariable %8 Function %4 ;34
OpReturnValue %7 ;36
OpFunctionEnd)";
CHECK(spirv, SPV_SUCCESS);
}
TEST_F(ValidateID, OpReturnValueBad) {
const char *spirv = R"(
%1 = OpTypeVoid
%2 = OpTypeInt 32 0
%3 = OpTypeFunction %2 %2
%4 = OpConstant %2 42
%5 = OpFunction %2 None %3
%6 = OpLabel
OpReturnValue %1
OpFunctionEnd)";
CHECK(spirv, SPV_ERROR_INVALID_ID);
}
// TODO: OpLifetimeStart
// TODO: OpLifetimeStop
// TODO: OpAtomicInit
// TODO: OpAtomicLoad
// TODO: OpAtomicStore
// TODO: OpAtomicExchange
// TODO: OpAtomicCompareExchange
// TODO: OpAtomicCompareExchangeWeak
// TODO: OpAtomicIIncrement
// TODO: OpAtomicIDecrement
// TODO: OpAtomicIAdd
// TODO: OpAtomicISub
// TODO: OpAtomicUMin
// TODO: OpAtomicUMax
// TODO: OpAtomicAnd
// TODO: OpAtomicOr
// TODO: OpAtomicXor
// TODO: OpAtomicIMin
// TODO: OpAtomicIMax
// TODO: OpEmitStreamVertex
// TODO: OpEndStreamPrimitive
// TODO: OpAsyncGroupCopy
// TODO: OpWaitGroupEvents
// TODO: OpGroupAll
// TODO: OpGroupAny
// TODO: OpGroupBroadcast
// TODO: OpGroupIAdd
// TODO: OpGroupFAdd
// TODO: OpGroupFMin
// TODO: OpGroupUMin
// TODO: OpGroupSMin
// TODO: OpGroupFMax
// TODO: OpGroupUMax
// TODO: OpGroupSMax
// TODO: OpEnqueueMarker
// TODO: OpEnqueueKernel
// TODO: OpGetKernelNDrangeSubGroupCount
// TODO: OpGetKernelNDrangeMaxSubGroupSize
// TODO: OpGetKernelWorkGroupSize
// TODO: OpGetKernelPreferredWorkGroupSizeMultiple
// TODO: OpRetainEvent
// TODO: OpReleaseEvent
// TODO: OpCreateUserEvent
// TODO: OpIsValidEvent
// TODO: OpSetUserEventStatus
// TODO: OpCaptureEventProfilingInfo
// TODO: OpGetDefaultQueue
// TODO: OpBuildNDRange
// TODO: OpReadPipe
// TODO: OpWritePipe
// TODO: OpReservedReadPipe
// TODO: OpReservedWritePipe
// TODO: OpReserveReadPipePackets
// TODO: OpReserveWritePipePackets
// TODO: OpCommitReadPipe
// TODO: OpCommitWritePipe
// TODO: OpIsValidReserveId
// TODO: OpGetNumPipePackets
// TODO: OpGetMaxPipePackets
// TODO: OpGroupReserveReadPipePackets
// TODO: OpGroupReserveWritePipePackets
// TODO: OpGroupCommitReadPipe
// TODO: OpGroupCommitWritePipe
} // anonymous namespace
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