// Copyright (c) 2017 Google Inc. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. #include #include #include "DebugInfo.h" #include "gmock/gmock.h" #include "source/util/string_utils.h" #include "test/test_fixture.h" #include "test/unit_spirv.h" // This file tests the correctness of encoding and decoding of instructions // involving the DebugInfo extended instruction set. // Semantic correctness should be the responsibility of validator. // // See https://www.khronos.org/registry/spir-v/specs/1.0/DebugInfo.html namespace spvtools { namespace { using spvtest::Concatenate; using spvtest::MakeInstruction; using utils::MakeVector; using testing::Eq; struct InstructionCase { uint32_t opcode; std::string name; std::string operands; std::vector expected_operands; }; using ExtInstDebugInfoRoundTripTest = spvtest::TextToBinaryTestBase<::testing::TestWithParam>; using ExtInstDebugInfoRoundTripTestExplicit = spvtest::TextToBinaryTest; TEST_P(ExtInstDebugInfoRoundTripTest, ParameterizedExtInst) { const std::string input = "%1 = OpExtInstImport \"DebugInfo\"\n" "%3 = OpExtInst %2 %1 " + GetParam().name + GetParam().operands + "\n"; // First make sure it assembles correctly. EXPECT_THAT(CompiledInstructions(input), Eq(Concatenate({MakeInstruction(spv::Op::OpExtInstImport, {1}, MakeVector("DebugInfo")), MakeInstruction(spv::Op::OpExtInst, {2, 3, 1, GetParam().opcode}, GetParam().expected_operands)}))) << input; // Now check the round trip through the disassembler. EXPECT_THAT(EncodeAndDecodeSuccessfully(input), input) << input; } #define CASE_0(Enum) \ { \ uint32_t(DebugInfoDebug##Enum), "Debug" #Enum, "", {} \ } #define CASE_ILL(Enum, L0, L1) \ { \ uint32_t(DebugInfoDebug##Enum), "Debug" #Enum, " %4 " #L0 " " #L1, { \ 4, L0, L1 \ } \ } #define CASE_IL(Enum, L0) \ { \ uint32_t(DebugInfoDebug##Enum), "Debug" #Enum, " %4 " #L0, { 4, L0 } \ } #define CASE_I(Enum) \ { \ uint32_t(DebugInfoDebug##Enum), "Debug" #Enum, " %4", { 4 } \ } #define CASE_II(Enum) \ { \ uint32_t(DebugInfoDebug##Enum), "Debug" #Enum, " %4 %5", { 4, 5 } \ } #define CASE_III(Enum) \ { \ uint32_t(DebugInfoDebug##Enum), "Debug" #Enum, " %4 %5 %6", { 4, 5, 6 } \ } #define CASE_IIII(Enum) \ { \ uint32_t(DebugInfoDebug##Enum), "Debug" #Enum, " %4 %5 %6 %7", { \ 4, 5, 6, 7 \ } \ } #define CASE_IIIII(Enum) \ { \ uint32_t(DebugInfoDebug##Enum), "Debug" #Enum, " %4 %5 %6 %7 %8", { \ 4, 5, 6, 7, 8 \ } \ } #define CASE_IIIIII(Enum) \ { \ uint32_t(DebugInfoDebug##Enum), "Debug" #Enum, " %4 %5 %6 %7 %8 %9", { \ 4, 5, 6, 7, 8, 9 \ } \ } #define CASE_IIIIIII(Enum) \ { \ uint32_t(DebugInfoDebug##Enum), "Debug" #Enum, " %4 %5 %6 %7 %8 %9 %10", { \ 4, 5, 6, 7, 8, 9, 10 \ } \ } #define CASE_IIILLI(Enum, L0, L1) \ { \ uint32_t(DebugInfoDebug##Enum), "Debug" #Enum, \ " %4 %5 %6 " #L0 " " #L1 " %7", { \ 4, 5, 6, L0, L1, 7 \ } \ } #define CASE_IIILLIL(Enum, L0, L1, L2) \ { \ uint32_t(DebugInfoDebug##Enum), "Debug" #Enum, \ " %4 %5 %6 " #L0 " " #L1 " %7 " #L2, { \ 4, 5, 6, L0, L1, 7, L2 \ } \ } #define CASE_IE(Enum, E0) \ { \ uint32_t(DebugInfoDebug##Enum), "Debug" #Enum, " %4 " #E0, { \ 4, uint32_t(DebugInfo##E0) \ } \ } #define CASE_IIE(Enum, E0) \ { \ uint32_t(DebugInfoDebug##Enum), "Debug" #Enum, " %4 %5 " #E0, { \ 4, 5, uint32_t(DebugInfo##E0) \ } \ } #define CASE_ISF(Enum, S0, Fstr, Fnum) \ { \ uint32_t(DebugInfoDebug##Enum), "Debug" #Enum, " %4 " #S0 " " Fstr, { \ 4, uint32_t(spv::StorageClass::S0), Fnum \ } \ } #define CASE_LII(Enum, L0) \ { \ uint32_t(DebugInfoDebug##Enum), "Debug" #Enum, " " #L0 " %4 %5", { \ L0, 4, 5 \ } \ } #define CASE_ILI(Enum, L0) \ { \ uint32_t(DebugInfoDebug##Enum), "Debug" #Enum, " %4 " #L0 " %5", { \ 4, L0, 5 \ } \ } #define CASE_ILII(Enum, L0) \ { \ uint32_t(DebugInfoDebug##Enum), "Debug" #Enum, " %4 " #L0 " %5 %6", { \ 4, L0, 5, 6 \ } \ } #define CASE_ILLII(Enum, L0, L1) \ { \ uint32_t(DebugInfoDebug##Enum), "Debug" #Enum, \ " %4 " #L0 " " #L1 " %5 %6", { \ 4, L0, L1, 5, 6 \ } \ } #define CASE_IIILLIIF(Enum, L0, L1, Fstr, Fnum) \ { \ uint32_t(DebugInfoDebug##Enum), "Debug" #Enum, \ " %4 %5 %6 " #L0 " " #L1 " %7 %8 " Fstr, { \ 4, 5, 6, L0, L1, 7, 8, Fnum \ } \ } #define CASE_IIILLIIFII(Enum, L0, L1, Fstr, Fnum) \ { \ uint32_t(DebugInfoDebug##Enum), "Debug" #Enum, \ " %4 %5 %6 " #L0 " " #L1 " %7 %8 " Fstr " %9 %10", { \ 4, 5, 6, L0, L1, 7, 8, Fnum, 9, 10 \ } \ } #define CASE_IIILLIIFIIII(Enum, L0, L1, Fstr, Fnum) \ { \ uint32_t(DebugInfoDebug##Enum), "Debug" #Enum, \ " %4 %5 %6 " #L0 " " #L1 " %7 %8 " Fstr " %9 %10 %11 %12", { \ 4, 5, 6, L0, L1, 7, 8, Fnum, 9, 10, 11, 12 \ } \ } #define CASE_IIILLIIFIIIIII(Enum, L0, L1, Fstr, Fnum) \ { \ uint32_t(DebugInfoDebug##Enum), "Debug" #Enum, \ " %4 %5 %6 " #L0 " " #L1 " %7 %8 " Fstr " %9 %10 %11 %12 %13 %14", { \ 4, 5, 6, L0, L1, 7, 8, Fnum, 9, 10, 11, 12, 13, 14 \ } \ } #define CASE_IEILLIIF(Enum, E0, L0, L1, Fstr, Fnum) \ { \ uint32_t(DebugInfoDebug##Enum), "Debug" #Enum, \ " %4 " #E0 " %5 " #L0 " " #L1 " %6 %7 " Fstr, { \ 4, uint32_t(DebugInfo##E0), 5, L0, L1, 6, 7, Fnum \ } \ } #define CASE_IEILLIIFI(Enum, E0, L0, L1, Fstr, Fnum) \ { \ uint32_t(DebugInfoDebug##Enum), "Debug" #Enum, \ " %4 " #E0 " %5 " #L0 " " #L1 " %6 %7 " Fstr " %8", { \ 4, uint32_t(DebugInfo##E0), 5, L0, L1, 6, 7, Fnum, 8 \ } \ } #define CASE_IEILLIIFII(Enum, E0, L0, L1, Fstr, Fnum) \ { \ uint32_t(DebugInfoDebug##Enum), "Debug" #Enum, \ " %4 " #E0 " %5 " #L0 " " #L1 " %6 %7 " Fstr " %8 %9", { \ 4, uint32_t(DebugInfo##E0), 5, L0, L1, 6, 7, Fnum, 8, 9 \ } \ } #define CASE_IEILLIIFIII(Enum, E0, L0, L1, Fstr, Fnum) \ { \ uint32_t(DebugInfoDebug##Enum), "Debug" #Enum, \ " %4 " #E0 " %5 " #L0 " " #L1 " %6 %7 " Fstr " %8 %9 %10", { \ 4, uint32_t(DebugInfo##E0), 5, L0, L1, 6, 7, Fnum, 8, 9, 10 \ } \ } #define CASE_IEILLIIFIIII(Enum, E0, L0, L1, Fstr, Fnum) \ { \ uint32_t(DebugInfoDebug##Enum), "Debug" #Enum, \ " %4 " #E0 " %5 " #L0 " " #L1 " %6 %7 " Fstr " %8 %9 %10 %11", { \ 4, uint32_t(DebugInfo##E0), 5, L0, L1, 6, 7, Fnum, 8, 9, 10, 11 \ } \ } #define CASE_IIILLIIIF(Enum, L0, L1, Fstr, Fnum) \ { \ uint32_t(DebugInfoDebug##Enum), "Debug" #Enum, \ " %4 %5 %6 " #L0 " " #L1 " %7 %8 %9 " Fstr, { \ 4, 5, 6, L0, L1, 7, 8, 9, Fnum \ } \ } #define CASE_IIILLIIIFI(Enum, L0, L1, Fstr, Fnum) \ { \ uint32_t(DebugInfoDebug##Enum), "Debug" #Enum, \ " %4 %5 %6 " #L0 " " #L1 " %7 %8 %9 " Fstr " %10", { \ 4, 5, 6, L0, L1, 7, 8, 9, Fnum, 10 \ } \ } #define CASE_IIIIF(Enum, Fstr, Fnum) \ { \ uint32_t(DebugInfoDebug##Enum), "Debug" #Enum, " %4 %5 %6 %7 " Fstr, { \ 4, 5, 6, 7, Fnum \ } \ } #define CASE_IIILL(Enum, L0, L1) \ { \ uint32_t(DebugInfoDebug##Enum), "Debug" #Enum, " %4 %5 %6 " #L0 " " #L1, { \ 4, 5, 6, L0, L1 \ } \ } #define CASE_IIIILL(Enum, L0, L1) \ { \ uint32_t(DebugInfoDebug##Enum), "Debug" #Enum, \ " %4 %5 %6 %7 " #L0 " " #L1, { \ 4, 5, 6, 7, L0, L1 \ } \ } #define CASE_IILLI(Enum, L0, L1) \ { \ uint32_t(DebugInfoDebug##Enum), "Debug" #Enum, \ " %4 %5 " #L0 " " #L1 " %6", { \ 4, 5, L0, L1, 6 \ } \ } #define CASE_IILLII(Enum, L0, L1) \ { \ uint32_t(DebugInfoDebug##Enum), "Debug" #Enum, \ " %4 %5 " #L0 " " #L1 " %6 %7", { \ 4, 5, L0, L1, 6, 7 \ } \ } #define CASE_IILLIII(Enum, L0, L1) \ { \ uint32_t(DebugInfoDebug##Enum), "Debug" #Enum, \ " %4 %5 " #L0 " " #L1 " %6 %7 %8", { \ 4, 5, L0, L1, 6, 7, 8 \ } \ } #define CASE_IILLIIII(Enum, L0, L1) \ { \ uint32_t(DebugInfoDebug##Enum), "Debug" #Enum, \ " %4 %5 " #L0 " " #L1 " %6 %7 %8 %9", { \ 4, 5, L0, L1, 6, 7, 8, 9 \ } \ } #define CASE_IIILLIIFLI(Enum, L0, L1, Fstr, Fnum, L2) \ { \ uint32_t(DebugInfoDebug##Enum), "Debug" #Enum, \ " %4 %5 %6 " #L0 " " #L1 " %7 %8 " Fstr " " #L2 " %9", { \ 4, 5, 6, L0, L1, 7, 8, Fnum, L2, 9 \ } \ } #define CASE_IIILLIIFLII(Enum, L0, L1, Fstr, Fnum, L2) \ { \ uint32_t(DebugInfoDebug##Enum), "Debug" #Enum, \ " %4 %5 %6 " #L0 " " #L1 " %7 %8 " Fstr " " #L2 " %9 %10", { \ 4, 5, 6, L0, L1, 7, 8, Fnum, L2, 9, 10 \ } \ } #define CASE_E(Enum, E0) \ { \ uint32_t(DebugInfoDebug##Enum), "Debug" #Enum, " " #E0, { \ uint32_t(DebugInfo##E0) \ } \ } #define CASE_EL(Enum, E0, L0) \ { \ uint32_t(DebugInfoDebug##Enum), "Debug" #Enum, " " #E0 " " #L0, { \ uint32_t(DebugInfo##E0), L0 \ } \ } #define CASE_ELL(Enum, E0, L0, L1) \ { \ uint32_t(DebugInfoDebug##Enum), "Debug" #Enum, " " #E0 " " #L0 " " #L1, { \ uint32_t(DebugInfo##E0), L0, L1 \ } \ } // DebugInfo 4.1 Absent Debugging Information INSTANTIATE_TEST_SUITE_P(DebugInfoDebugInfoNone, ExtInstDebugInfoRoundTripTest, ::testing::ValuesIn(std::vector({ CASE_0(InfoNone), // enum value 0 }))); // DebugInfo 4.2 Compilation Unit INSTANTIATE_TEST_SUITE_P(DebugInfoDebugCompilationUnit, ExtInstDebugInfoRoundTripTest, ::testing::ValuesIn(std::vector({ CASE_ILL(CompilationUnit, 100, 42), }))); // DebugInfo 4.3 Type instructions INSTANTIATE_TEST_SUITE_P(DebugInfoDebugTypeBasic, ExtInstDebugInfoRoundTripTest, ::testing::ValuesIn(std::vector({ CASE_IIE(TypeBasic, Unspecified), CASE_IIE(TypeBasic, Address), CASE_IIE(TypeBasic, Boolean), CASE_IIE(TypeBasic, Float), CASE_IIE(TypeBasic, Signed), CASE_IIE(TypeBasic, SignedChar), CASE_IIE(TypeBasic, Unsigned), CASE_IIE(TypeBasic, UnsignedChar), }))); // The FlagIsPublic is value is (1 << 0) | (1 << 2) which is the same // as the bitwise-OR of FlagIsProtected and FlagIsPrivate. // The disassembler will emit the compound expression instead. // There is no simple fix for this. This enum is not really a mask // for the bottom two bits. TEST_F(ExtInstDebugInfoRoundTripTestExplicit, FlagIsPublic) { const std::string prefix = "%1 = OpExtInstImport \"DebugInfo\"\n" "%3 = OpExtInst %2 %1 DebugTypePointer %4 Private "; const std::string input = prefix + "FlagIsPublic\n"; const std::string expected = prefix + "FlagIsProtected|FlagIsPrivate\n"; // First make sure it assembles correctly. EXPECT_THAT( CompiledInstructions(input), Eq(Concatenate({MakeInstruction(spv::Op::OpExtInstImport, {1}, MakeVector("DebugInfo")), MakeInstruction(spv::Op::OpExtInst, {2, 3, 1, DebugInfoDebugTypePointer, 4, uint32_t(spv::StorageClass::Private), DebugInfoFlagIsPublic})}))) << input; // Now check the round trip through the disassembler. EXPECT_THAT(EncodeAndDecodeSuccessfully(input), Eq(expected)) << input; } INSTANTIATE_TEST_SUITE_P( DebugInfoDebugTypePointer, ExtInstDebugInfoRoundTripTest, ::testing::ValuesIn(std::vector({ //// Use each flag independently. CASE_ISF(TypePointer, Private, "FlagIsProtected", uint32_t(DebugInfoFlagIsProtected)), CASE_ISF(TypePointer, Private, "FlagIsPrivate", uint32_t(DebugInfoFlagIsPrivate)), // FlagIsPublic is tested above. CASE_ISF(TypePointer, Private, "FlagIsLocal", uint32_t(DebugInfoFlagIsLocal)), CASE_ISF(TypePointer, Private, "FlagIsDefinition", uint32_t(DebugInfoFlagIsDefinition)), CASE_ISF(TypePointer, Private, "FlagFwdDecl", uint32_t(DebugInfoFlagFwdDecl)), CASE_ISF(TypePointer, Private, "FlagArtificial", uint32_t(DebugInfoFlagArtificial)), CASE_ISF(TypePointer, Private, "FlagExplicit", uint32_t(DebugInfoFlagExplicit)), CASE_ISF(TypePointer, Private, "FlagPrototyped", uint32_t(DebugInfoFlagPrototyped)), CASE_ISF(TypePointer, Private, "FlagObjectPointer", uint32_t(DebugInfoFlagObjectPointer)), CASE_ISF(TypePointer, Private, "FlagStaticMember", uint32_t(DebugInfoFlagStaticMember)), CASE_ISF(TypePointer, Private, "FlagIndirectVariable", uint32_t(DebugInfoFlagIndirectVariable)), CASE_ISF(TypePointer, Private, "FlagLValueReference", uint32_t(DebugInfoFlagLValueReference)), CASE_ISF(TypePointer, Private, "FlagIsOptimized", uint32_t(DebugInfoFlagIsOptimized)), //// Use flags in combination, and try different storage classes. CASE_ISF(TypePointer, Function, "FlagIsProtected|FlagIsPrivate", uint32_t(DebugInfoFlagIsProtected) | uint32_t(DebugInfoFlagIsPrivate)), CASE_ISF( TypePointer, Workgroup, "FlagIsPrivate|FlagFwdDecl|FlagIndirectVariable|FlagIsOptimized", uint32_t(DebugInfoFlagIsPrivate) | uint32_t(DebugInfoFlagFwdDecl) | uint32_t(DebugInfoFlagIndirectVariable) | uint32_t(DebugInfoFlagIsOptimized)), }))); INSTANTIATE_TEST_SUITE_P(DebugInfoDebugTypeQualifier, ExtInstDebugInfoRoundTripTest, ::testing::ValuesIn(std::vector({ CASE_IE(TypeQualifier, ConstType), CASE_IE(TypeQualifier, VolatileType), CASE_IE(TypeQualifier, RestrictType), }))); INSTANTIATE_TEST_SUITE_P(DebugInfoDebugTypeArray, ExtInstDebugInfoRoundTripTest, ::testing::ValuesIn(std::vector({ CASE_II(TypeArray), CASE_III(TypeArray), CASE_IIII(TypeArray), CASE_IIIII(TypeArray), }))); INSTANTIATE_TEST_SUITE_P(DebugInfoDebugTypeVector, ExtInstDebugInfoRoundTripTest, ::testing::ValuesIn(std::vector({ CASE_IL(TypeVector, 2), CASE_IL(TypeVector, 3), CASE_IL(TypeVector, 4), CASE_IL(TypeVector, 16), }))); INSTANTIATE_TEST_SUITE_P(DebugInfoDebugTypedef, ExtInstDebugInfoRoundTripTest, ::testing::ValuesIn(std::vector({ CASE_IIILLI(Typedef, 12, 13), CASE_IIILLI(Typedef, 14, 99), }))); INSTANTIATE_TEST_SUITE_P(DebugInfoDebugTypeFunction, ExtInstDebugInfoRoundTripTest, ::testing::ValuesIn(std::vector({ CASE_I(TypeFunction), CASE_II(TypeFunction), CASE_III(TypeFunction), CASE_IIII(TypeFunction), CASE_IIIII(TypeFunction), }))); INSTANTIATE_TEST_SUITE_P( DebugInfoDebugTypeEnum, ExtInstDebugInfoRoundTripTest, ::testing::ValuesIn(std::vector({ CASE_IIILLIIFII( TypeEnum, 12, 13, "FlagIsPrivate|FlagFwdDecl|FlagIndirectVariable|FlagIsOptimized", uint32_t(DebugInfoFlagIsPrivate) | uint32_t(DebugInfoFlagFwdDecl) | uint32_t(DebugInfoFlagIndirectVariable) | uint32_t(DebugInfoFlagIsOptimized)), CASE_IIILLIIFIIII(TypeEnum, 17, 18, "FlagStaticMember", uint32_t(DebugInfoFlagStaticMember)), CASE_IIILLIIFIIIIII(TypeEnum, 99, 1, "FlagStaticMember", uint32_t(DebugInfoFlagStaticMember)), }))); INSTANTIATE_TEST_SUITE_P( DebugInfoDebugTypeComposite, ExtInstDebugInfoRoundTripTest, ::testing::ValuesIn(std::vector({ CASE_IEILLIIF( TypeComposite, Class, 12, 13, "FlagIsPrivate|FlagFwdDecl|FlagIndirectVariable|FlagIsOptimized", uint32_t(DebugInfoFlagIsPrivate) | uint32_t(DebugInfoFlagFwdDecl) | uint32_t(DebugInfoFlagIndirectVariable) | uint32_t(DebugInfoFlagIsOptimized)), // Cover all tag values: Class, Structure, Union CASE_IEILLIIF(TypeComposite, Class, 12, 13, "FlagIsPrivate", uint32_t(DebugInfoFlagIsPrivate)), CASE_IEILLIIF(TypeComposite, Structure, 12, 13, "FlagIsPrivate", uint32_t(DebugInfoFlagIsPrivate)), CASE_IEILLIIF(TypeComposite, Union, 12, 13, "FlagIsPrivate", uint32_t(DebugInfoFlagIsPrivate)), // Now add members CASE_IEILLIIFI(TypeComposite, Class, 9, 10, "FlagIsPrivate", uint32_t(DebugInfoFlagIsPrivate)), CASE_IEILLIIFII(TypeComposite, Class, 9, 10, "FlagIsPrivate", uint32_t(DebugInfoFlagIsPrivate)), CASE_IEILLIIFIII(TypeComposite, Class, 9, 10, "FlagIsPrivate", uint32_t(DebugInfoFlagIsPrivate)), CASE_IEILLIIFIIII(TypeComposite, Class, 9, 10, "FlagIsPrivate", uint32_t(DebugInfoFlagIsPrivate)), }))); INSTANTIATE_TEST_SUITE_P( DebugInfoDebugTypeMember, ExtInstDebugInfoRoundTripTest, ::testing::ValuesIn(std::vector({ CASE_IIILLIIIF(TypeMember, 12, 13, "FlagIsPrivate", uint32_t(DebugInfoFlagIsPrivate)), CASE_IIILLIIIF(TypeMember, 99, 100, "FlagIsPrivate|FlagFwdDecl", uint32_t(DebugInfoFlagIsPrivate) | uint32_t(DebugInfoFlagFwdDecl)), // Add the optional Id argument. CASE_IIILLIIIFI(TypeMember, 12, 13, "FlagIsPrivate", uint32_t(DebugInfoFlagIsPrivate)), }))); INSTANTIATE_TEST_SUITE_P( DebugInfoDebugTypeInheritance, ExtInstDebugInfoRoundTripTest, ::testing::ValuesIn(std::vector({ CASE_IIIIF(TypeInheritance, "FlagIsPrivate", uint32_t(DebugInfoFlagIsPrivate)), CASE_IIIIF(TypeInheritance, "FlagIsPrivate|FlagFwdDecl", uint32_t(DebugInfoFlagIsPrivate) | uint32_t(DebugInfoFlagFwdDecl)), }))); INSTANTIATE_TEST_SUITE_P(DebugInfoDebugTypePtrToMember, ExtInstDebugInfoRoundTripTest, ::testing::ValuesIn(std::vector({ CASE_II(TypePtrToMember), }))); // DebugInfo 4.4 Templates INSTANTIATE_TEST_SUITE_P(DebugInfoDebugTypeTemplate, ExtInstDebugInfoRoundTripTest, ::testing::ValuesIn(std::vector({ CASE_II(TypeTemplate), CASE_III(TypeTemplate), CASE_IIII(TypeTemplate), CASE_IIIII(TypeTemplate), }))); INSTANTIATE_TEST_SUITE_P(DebugInfoDebugTypeTemplateParameter, ExtInstDebugInfoRoundTripTest, ::testing::ValuesIn(std::vector({ CASE_IIIILL(TypeTemplateParameter, 1, 2), CASE_IIIILL(TypeTemplateParameter, 99, 102), CASE_IIIILL(TypeTemplateParameter, 10, 7), }))); INSTANTIATE_TEST_SUITE_P(DebugInfoDebugTypeTemplateTemplateParameter, ExtInstDebugInfoRoundTripTest, ::testing::ValuesIn(std::vector({ CASE_IIILL(TypeTemplateTemplateParameter, 1, 2), CASE_IIILL(TypeTemplateTemplateParameter, 99, 102), CASE_IIILL(TypeTemplateTemplateParameter, 10, 7), }))); INSTANTIATE_TEST_SUITE_P(DebugInfoDebugTypeTemplateParameterPack, ExtInstDebugInfoRoundTripTest, ::testing::ValuesIn(std::vector({ CASE_IILLI(TypeTemplateParameterPack, 1, 2), CASE_IILLII(TypeTemplateParameterPack, 99, 102), CASE_IILLIII(TypeTemplateParameterPack, 10, 7), CASE_IILLIIII(TypeTemplateParameterPack, 10, 7), }))); // DebugInfo 4.5 Global Variables INSTANTIATE_TEST_SUITE_P( DebugInfoDebugGlobalVariable, ExtInstDebugInfoRoundTripTest, ::testing::ValuesIn(std::vector({ CASE_IIILLIIIF(GlobalVariable, 1, 2, "FlagIsOptimized", uint32_t(DebugInfoFlagIsOptimized)), CASE_IIILLIIIF(GlobalVariable, 42, 43, "FlagIsOptimized", uint32_t(DebugInfoFlagIsOptimized)), CASE_IIILLIIIFI(GlobalVariable, 1, 2, "FlagIsOptimized", uint32_t(DebugInfoFlagIsOptimized)), CASE_IIILLIIIFI(GlobalVariable, 42, 43, "FlagIsOptimized", uint32_t(DebugInfoFlagIsOptimized)), }))); // DebugInfo 4.6 Functions INSTANTIATE_TEST_SUITE_P( DebugInfoDebugFunctionDeclaration, ExtInstDebugInfoRoundTripTest, ::testing::ValuesIn(std::vector({ CASE_IIILLIIF(FunctionDeclaration, 1, 2, "FlagIsOptimized", uint32_t(DebugInfoFlagIsOptimized)), CASE_IIILLIIF(FunctionDeclaration, 42, 43, "FlagFwdDecl", uint32_t(DebugInfoFlagFwdDecl)), }))); INSTANTIATE_TEST_SUITE_P( DebugInfoDebugFunction, ExtInstDebugInfoRoundTripTest, ::testing::ValuesIn(std::vector({ CASE_IIILLIIFLI(Function, 1, 2, "FlagIsOptimized", uint32_t(DebugInfoFlagIsOptimized), 3), CASE_IIILLIIFLI(Function, 42, 43, "FlagFwdDecl", uint32_t(DebugInfoFlagFwdDecl), 44), // Add the optional declaration Id. CASE_IIILLIIFLII(Function, 1, 2, "FlagIsOptimized", uint32_t(DebugInfoFlagIsOptimized), 3), CASE_IIILLIIFLII(Function, 42, 43, "FlagFwdDecl", uint32_t(DebugInfoFlagFwdDecl), 44), }))); // DebugInfo 4.7 Local Information INSTANTIATE_TEST_SUITE_P(DebugInfoDebugLexicalBlock, ExtInstDebugInfoRoundTripTest, ::testing::ValuesIn(std::vector({ CASE_ILLII(LexicalBlock, 1, 2), CASE_ILLII(LexicalBlock, 42, 43), }))); INSTANTIATE_TEST_SUITE_P(DebugInfoDebugLexicalBlockDiscriminator, ExtInstDebugInfoRoundTripTest, ::testing::ValuesIn(std::vector({ CASE_ILI(LexicalBlockDiscriminator, 1), CASE_ILI(LexicalBlockDiscriminator, 42), }))); INSTANTIATE_TEST_SUITE_P(DebugInfoDebugScope, ExtInstDebugInfoRoundTripTest, ::testing::ValuesIn(std::vector({ CASE_I(Scope), CASE_II(Scope), }))); INSTANTIATE_TEST_SUITE_P(DebugInfoDebugNoScope, ExtInstDebugInfoRoundTripTest, ::testing::ValuesIn(std::vector({ CASE_0(NoScope), }))); INSTANTIATE_TEST_SUITE_P(DebugInfoDebugInlinedAt, ExtInstDebugInfoRoundTripTest, ::testing::ValuesIn(std::vector({ CASE_LII(InlinedAt, 1), CASE_LII(InlinedAt, 42), }))); // DebugInfo 4.8 Local Variables INSTANTIATE_TEST_SUITE_P(DebugInfoDebugLocalVariable, ExtInstDebugInfoRoundTripTest, ::testing::ValuesIn(std::vector({ CASE_IIILLI(LocalVariable, 1, 2), CASE_IIILLI(LocalVariable, 42, 43), CASE_IIILLIL(LocalVariable, 1, 2, 3), CASE_IIILLIL(LocalVariable, 42, 43, 44), }))); INSTANTIATE_TEST_SUITE_P(DebugInfoDebugInlinedVariable, ExtInstDebugInfoRoundTripTest, ::testing::ValuesIn(std::vector({ CASE_II(InlinedVariable), }))); INSTANTIATE_TEST_SUITE_P(DebugInfoDebugDebugDeclare, ExtInstDebugInfoRoundTripTest, ::testing::ValuesIn(std::vector({ CASE_III(Declare), }))); INSTANTIATE_TEST_SUITE_P( DebugInfoDebugDebugValue, ExtInstDebugInfoRoundTripTest, ::testing::ValuesIn(std::vector({ CASE_III(Value), CASE_IIII(Value), CASE_IIIII(Value), CASE_IIIIII(Value), // Test up to 4 id parameters. We can always try more. CASE_IIIIIII(Value), }))); INSTANTIATE_TEST_SUITE_P(DebugInfoDebugDebugOperation, ExtInstDebugInfoRoundTripTest, ::testing::ValuesIn(std::vector({ CASE_E(Operation, Deref), CASE_E(Operation, Plus), CASE_E(Operation, Minus), CASE_EL(Operation, PlusUconst, 1), CASE_EL(Operation, PlusUconst, 42), CASE_ELL(Operation, BitPiece, 1, 2), CASE_ELL(Operation, BitPiece, 4, 5), CASE_E(Operation, Swap), CASE_E(Operation, Xderef), CASE_E(Operation, StackValue), CASE_EL(Operation, Constu, 1), CASE_EL(Operation, Constu, 42), }))); INSTANTIATE_TEST_SUITE_P(DebugInfoDebugDebugExpression, ExtInstDebugInfoRoundTripTest, ::testing::ValuesIn(std::vector({ CASE_0(Expression), CASE_I(Expression), CASE_II(Expression), CASE_III(Expression), CASE_IIII(Expression), CASE_IIIII(Expression), CASE_IIIIII(Expression), CASE_IIIIIII(Expression), }))); // DebugInfo 4.9 Macros INSTANTIATE_TEST_SUITE_P(DebugInfoDebugMacroDef, ExtInstDebugInfoRoundTripTest, ::testing::ValuesIn(std::vector({ CASE_ILI(MacroDef, 1), CASE_ILI(MacroDef, 42), CASE_ILII(MacroDef, 1), CASE_ILII(MacroDef, 42), }))); INSTANTIATE_TEST_SUITE_P(DebugInfoDebugMacroUndef, ExtInstDebugInfoRoundTripTest, ::testing::ValuesIn(std::vector({ CASE_ILI(MacroUndef, 1), CASE_ILI(MacroUndef, 42), }))); #undef CASE_0 #undef CASE_ILL #undef CASE_IL #undef CASE_I #undef CASE_II #undef CASE_III #undef CASE_IIII #undef CASE_IIIII #undef CASE_IIIIII #undef CASE_IIIIIII #undef CASE_IIILLI #undef CASE_IIILLIL #undef CASE_IE #undef CASE_IIE #undef CASE_ISF #undef CASE_LII #undef CASE_ILI #undef CASE_ILII #undef CASE_ILLII #undef CASE_IIILLIIF #undef CASE_IIILLIIFII #undef CASE_IIILLIIFIIII #undef CASE_IIILLIIFIIIIII #undef CASE_IEILLIIF #undef CASE_IEILLIIFI #undef CASE_IEILLIIFII #undef CASE_IEILLIIFIII #undef CASE_IEILLIIFIIII #undef CASE_IIILLIIIF #undef CASE_IIILLIIIFI #undef CASE_IIIIF #undef CASE_IIILL #undef CASE_IIIILL #undef CASE_IILLI #undef CASE_IILLII #undef CASE_IILLIII #undef CASE_IILLIIII #undef CASE_IIILLIIFLI #undef CASE_IIILLIIFLII #undef CASE_E #undef CASE_EL #undef CASE_ELL } // namespace } // namespace spvtools