// Copyright (c) 2019 Google LLC // // 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 "gmock/gmock.h" #include "test/opt/assembly_builder.h" #include "test/opt/pass_fixture.h" #include "test/opt/pass_utils.h" namespace spvtools { namespace opt { namespace { using WrapOpKillTest = PassTest<::testing::Test>; TEST_F(WrapOpKillTest, SingleOpKill) { const std::string text = R"( ; CHECK: OpEntryPoint Fragment [[main:%\w+]] ; CHECK: [[main]] = OpFunction ; CHECK: OpFunctionCall %void [[orig_kill:%\w+]] ; CHECK: [[orig_kill]] = OpFunction ; CHECK-NEXT: OpLabel ; CHECK-NEXT: OpFunctionCall %void [[new_kill:%\w+]] ; CHECK-NEXT: OpReturn ; CHECK: [[new_kill]] = OpFunction ; CHECK-NEXT: OpLabel ; CHECK-NEXT: OpKill ; CHECK-NEXT: OpFunctionEnd OpCapability Shader %1 = OpExtInstImport "GLSL.std.450" OpMemoryModel Logical GLSL450 OpEntryPoint Fragment %main "main" OpExecutionMode %main OriginUpperLeft OpSource GLSL 330 OpName %main "main" %void = OpTypeVoid %5 = OpTypeFunction %void %bool = OpTypeBool %true = OpConstantTrue %bool %main = OpFunction %void None %5 %8 = OpLabel OpBranch %9 %9 = OpLabel OpLoopMerge %10 %11 None OpBranch %12 %12 = OpLabel OpBranchConditional %true %13 %10 %13 = OpLabel OpBranch %11 %11 = OpLabel %14 = OpFunctionCall %void %kill_ OpBranch %9 %10 = OpLabel OpReturn OpFunctionEnd %kill_ = OpFunction %void None %5 %15 = OpLabel OpKill OpFunctionEnd )"; SinglePassRunAndMatch(text, true); } TEST_F(WrapOpKillTest, MultipleOpKillInSameFunc) { const std::string text = R"( ; CHECK: OpEntryPoint Fragment [[main:%\w+]] ; CHECK: [[main]] = OpFunction ; CHECK: OpFunctionCall %void [[orig_kill:%\w+]] ; CHECK: [[orig_kill]] = OpFunction ; CHECK-NEXT: OpLabel ; CHECK-NEXT: OpSelectionMerge ; CHECK-NEXT: OpBranchConditional ; CHECK-NEXT: OpLabel ; CHECK-NEXT: OpFunctionCall %void [[new_kill:%\w+]] ; CHECK-NEXT: OpReturn ; CHECK-NEXT: OpLabel ; CHECK-NEXT: OpFunctionCall %void [[new_kill]] ; CHECK-NEXT: OpReturn ; CHECK: [[new_kill]] = OpFunction ; CHECK-NEXT: OpLabel ; CHECK-NEXT: OpKill ; CHECK-NEXT: OpFunctionEnd OpCapability Shader %1 = OpExtInstImport "GLSL.std.450" OpMemoryModel Logical GLSL450 OpEntryPoint Fragment %main "main" OpExecutionMode %main OriginUpperLeft OpSource GLSL 330 OpName %main "main" %void = OpTypeVoid %5 = OpTypeFunction %void %bool = OpTypeBool %true = OpConstantTrue %bool %main = OpFunction %void None %5 %8 = OpLabel OpBranch %9 %9 = OpLabel OpLoopMerge %10 %11 None OpBranch %12 %12 = OpLabel OpBranchConditional %true %13 %10 %13 = OpLabel OpBranch %11 %11 = OpLabel %14 = OpFunctionCall %void %kill_ OpBranch %9 %10 = OpLabel OpReturn OpFunctionEnd %kill_ = OpFunction %void None %5 %15 = OpLabel OpSelectionMerge %16 None OpBranchConditional %true %17 %18 %17 = OpLabel OpKill %18 = OpLabel OpKill %16 = OpLabel OpReturn OpFunctionEnd )"; SinglePassRunAndMatch(text, true); } TEST_F(WrapOpKillTest, MultipleOpKillInDifferentFunc) { const std::string text = R"( ; CHECK: OpEntryPoint Fragment [[main:%\w+]] ; CHECK: [[main]] = OpFunction ; CHECK: OpFunctionCall %void [[orig_kill1:%\w+]] ; CHECK-NEXT: OpFunctionCall %void [[orig_kill2:%\w+]] ; CHECK: [[orig_kill1]] = OpFunction ; CHECK-NEXT: OpLabel ; CHECK-NEXT: OpFunctionCall %void [[new_kill:%\w+]] ; CHECK-NEXT: OpReturn ; CHECK: [[orig_kill2]] = OpFunction ; CHECK-NEXT: OpLabel ; CHECK-NEXT: OpFunctionCall %void [[new_kill]] ; CHECK-NEXT: OpReturn ; CHECK: [[new_kill]] = OpFunction ; CHECK-NEXT: OpLabel ; CHECK-NEXT: OpKill ; CHECK-NEXT: OpFunctionEnd OpCapability Shader %1 = OpExtInstImport "GLSL.std.450" OpMemoryModel Logical GLSL450 OpEntryPoint Fragment %main "main" OpExecutionMode %main OriginUpperLeft OpSource GLSL 330 OpName %main "main" %void = OpTypeVoid %4 = OpTypeFunction %void %bool = OpTypeBool %true = OpConstantTrue %bool %main = OpFunction %void None %4 %7 = OpLabel OpBranch %8 %8 = OpLabel OpLoopMerge %9 %10 None OpBranch %11 %11 = OpLabel OpBranchConditional %true %12 %9 %12 = OpLabel OpBranch %10 %10 = OpLabel %13 = OpFunctionCall %void %14 %15 = OpFunctionCall %void %16 OpBranch %8 %9 = OpLabel OpReturn OpFunctionEnd %14 = OpFunction %void None %4 %17 = OpLabel OpKill OpFunctionEnd %16 = OpFunction %void None %4 %18 = OpLabel OpKill OpFunctionEnd )"; SinglePassRunAndMatch(text, true); } TEST_F(WrapOpKillTest, SingleOpTerminateInvocation) { const std::string text = R"( ; CHECK: OpEntryPoint Fragment [[main:%\w+]] ; CHECK: [[main]] = OpFunction ; CHECK: OpFunctionCall %void [[orig_kill:%\w+]] ; CHECK: [[orig_kill]] = OpFunction ; CHECK-NEXT: OpLabel ; CHECK-NEXT: OpFunctionCall %void [[new_kill:%\w+]] ; CHECK-NEXT: OpReturn ; CHECK: [[new_kill]] = OpFunction ; CHECK-NEXT: OpLabel ; CHECK-NEXT: OpTerminateInvocation ; CHECK-NEXT: OpFunctionEnd OpCapability Shader OpExtension "SPV_KHR_terminate_invocation" %1 = OpExtInstImport "GLSL.std.450" OpMemoryModel Logical GLSL450 OpEntryPoint Fragment %main "main" OpExecutionMode %main OriginUpperLeft OpSource GLSL 330 OpName %main "main" %void = OpTypeVoid %5 = OpTypeFunction %void %bool = OpTypeBool %true = OpConstantTrue %bool %main = OpFunction %void None %5 %8 = OpLabel OpBranch %9 %9 = OpLabel OpLoopMerge %10 %11 None OpBranch %12 %12 = OpLabel OpBranchConditional %true %13 %10 %13 = OpLabel OpBranch %11 %11 = OpLabel %14 = OpFunctionCall %void %kill_ OpBranch %9 %10 = OpLabel OpReturn OpFunctionEnd %kill_ = OpFunction %void None %5 %15 = OpLabel OpTerminateInvocation OpFunctionEnd )"; SinglePassRunAndMatch(text, true); } TEST_F(WrapOpKillTest, MultipleTerminateInvocationInSameFunc) { const std::string text = R"( ; CHECK: OpEntryPoint Fragment [[main:%\w+]] ; CHECK: [[main]] = OpFunction ; CHECK: OpFunctionCall %void [[orig_kill:%\w+]] ; CHECK: [[orig_kill]] = OpFunction ; CHECK-NEXT: OpLabel ; CHECK-NEXT: OpSelectionMerge ; CHECK-NEXT: OpBranchConditional ; CHECK-NEXT: OpLabel ; CHECK-NEXT: OpFunctionCall %void [[new_kill:%\w+]] ; CHECK-NEXT: OpReturn ; CHECK-NEXT: OpLabel ; CHECK-NEXT: OpFunctionCall %void [[new_kill]] ; CHECK-NEXT: OpReturn ; CHECK: [[new_kill]] = OpFunction ; CHECK-NEXT: OpLabel ; CHECK-NEXT: OpTerminateInvocation ; CHECK-NEXT: OpFunctionEnd OpCapability Shader OpExtension "SPV_KHR_terminate_invocation" %1 = OpExtInstImport "GLSL.std.450" OpMemoryModel Logical GLSL450 OpEntryPoint Fragment %main "main" OpExecutionMode %main OriginUpperLeft OpSource GLSL 330 OpName %main "main" %void = OpTypeVoid %5 = OpTypeFunction %void %bool = OpTypeBool %true = OpConstantTrue %bool %main = OpFunction %void None %5 %8 = OpLabel OpBranch %9 %9 = OpLabel OpLoopMerge %10 %11 None OpBranch %12 %12 = OpLabel OpBranchConditional %true %13 %10 %13 = OpLabel OpBranch %11 %11 = OpLabel %14 = OpFunctionCall %void %kill_ OpBranch %9 %10 = OpLabel OpReturn OpFunctionEnd %kill_ = OpFunction %void None %5 %15 = OpLabel OpSelectionMerge %16 None OpBranchConditional %true %17 %18 %17 = OpLabel OpTerminateInvocation %18 = OpLabel OpTerminateInvocation %16 = OpLabel OpReturn OpFunctionEnd )"; SinglePassRunAndMatch(text, true); } TEST_F(WrapOpKillTest, MultipleOpTerminateInvocationDifferentFunc) { const std::string text = R"( ; CHECK: OpEntryPoint Fragment [[main:%\w+]] ; CHECK: [[main]] = OpFunction ; CHECK: OpFunctionCall %void [[orig_kill1:%\w+]] ; CHECK-NEXT: OpFunctionCall %void [[orig_kill2:%\w+]] ; CHECK: [[orig_kill1]] = OpFunction ; CHECK-NEXT: OpLabel ; CHECK-NEXT: OpFunctionCall %void [[new_kill:%\w+]] ; CHECK-NEXT: OpReturn ; CHECK: [[orig_kill2]] = OpFunction ; CHECK-NEXT: OpLabel ; CHECK-NEXT: OpFunctionCall %void [[new_kill]] ; CHECK-NEXT: OpReturn ; CHECK: [[new_kill]] = OpFunction ; CHECK-NEXT: OpLabel ; CHECK-NEXT: OpTerminateInvocation ; CHECK-NEXT: OpFunctionEnd OpCapability Shader OpExtension "SPV_KHR_terminate_invocation" %1 = OpExtInstImport "GLSL.std.450" OpMemoryModel Logical GLSL450 OpEntryPoint Fragment %main "main" OpExecutionMode %main OriginUpperLeft OpSource GLSL 330 OpName %main "main" %void = OpTypeVoid %4 = OpTypeFunction %void %bool = OpTypeBool %true = OpConstantTrue %bool %main = OpFunction %void None %4 %7 = OpLabel OpBranch %8 %8 = OpLabel OpLoopMerge %9 %10 None OpBranch %11 %11 = OpLabel OpBranchConditional %true %12 %9 %12 = OpLabel OpBranch %10 %10 = OpLabel %13 = OpFunctionCall %void %14 %15 = OpFunctionCall %void %16 OpBranch %8 %9 = OpLabel OpReturn OpFunctionEnd %14 = OpFunction %void None %4 %17 = OpLabel OpTerminateInvocation OpFunctionEnd %16 = OpFunction %void None %4 %18 = OpLabel OpTerminateInvocation OpFunctionEnd )"; SinglePassRunAndMatch(text, true); } TEST_F(WrapOpKillTest, KillAndTerminateInvocationSameFunc) { const std::string text = R"( ; CHECK: OpEntryPoint Fragment [[main:%\w+]] ; CHECK: [[main]] = OpFunction ; CHECK: OpFunctionCall %void [[orig_kill:%\w+]] ; CHECK: [[orig_kill]] = OpFunction ; CHECK-NEXT: OpLabel ; CHECK-NEXT: OpSelectionMerge ; CHECK-NEXT: OpBranchConditional ; CHECK-NEXT: OpLabel ; CHECK-NEXT: OpFunctionCall %void [[new_kill:%\w+]] ; CHECK-NEXT: OpReturn ; CHECK-NEXT: OpLabel ; CHECK-NEXT: OpFunctionCall %void [[new_terminate:%\w+]] ; CHECK-NEXT: OpReturn ; CHECK: [[new_kill]] = OpFunction ; CHECK-NEXT: OpLabel ; CHECK-NEXT: OpKill ; CHECK-NEXT: OpFunctionEnd ; CHECK-NEXT: [[new_terminate]] = OpFunction ; CHECK-NEXT: OpLabel ; CHECK-NEXT: OpTerminateInvocation ; CHECK-NEXT: OpFunctionEnd OpCapability Shader OpExtension "SPV_KHR_terminate_invocation" %1 = OpExtInstImport "GLSL.std.450" OpMemoryModel Logical GLSL450 OpEntryPoint Fragment %main "main" OpExecutionMode %main OriginUpperLeft OpSource GLSL 330 OpName %main "main" %void = OpTypeVoid %5 = OpTypeFunction %void %bool = OpTypeBool %true = OpConstantTrue %bool %main = OpFunction %void None %5 %8 = OpLabel OpBranch %9 %9 = OpLabel OpLoopMerge %10 %11 None OpBranch %12 %12 = OpLabel OpBranchConditional %true %13 %10 %13 = OpLabel OpBranch %11 %11 = OpLabel %14 = OpFunctionCall %void %kill_ OpBranch %9 %10 = OpLabel OpReturn OpFunctionEnd %kill_ = OpFunction %void None %5 %15 = OpLabel OpSelectionMerge %16 None OpBranchConditional %true %17 %18 %17 = OpLabel OpKill %18 = OpLabel OpTerminateInvocation %16 = OpLabel OpReturn OpFunctionEnd )"; SinglePassRunAndMatch(text, true); } TEST_F(WrapOpKillTest, KillAndTerminateInvocationDifferentFunc) { const std::string text = R"( ; CHECK: OpEntryPoint Fragment [[main:%\w+]] ; CHECK: [[main]] = OpFunction ; CHECK: OpFunctionCall %void [[orig_kill1:%\w+]] ; CHECK-NEXT: OpFunctionCall %void [[orig_kill2:%\w+]] ; CHECK: [[orig_kill1]] = OpFunction ; CHECK-NEXT: OpLabel ; CHECK-NEXT: OpFunctionCall %void [[new_terminate:%\w+]] ; CHECK-NEXT: OpReturn ; CHECK: [[orig_kill2]] = OpFunction ; CHECK-NEXT: OpLabel ; CHECK-NEXT: OpFunctionCall %void [[new_kill:%\w+]] ; CHECK-NEXT: OpReturn ; CHECK: [[new_kill]] = OpFunction ; CHECK-NEXT: OpLabel ; CHECK-NEXT: OpKill ; CHECK-NEXT: OpFunctionEnd ; CHECK-NEXT: [[new_terminate]] = OpFunction ; CHECK-NEXT: OpLabel ; CHECK-NEXT: OpTerminateInvocation ; CHECK-NEXT: OpFunctionEnd OpCapability Shader OpExtension "SPV_KHR_terminate_invocation" %1 = OpExtInstImport "GLSL.std.450" OpMemoryModel Logical GLSL450 OpEntryPoint Fragment %main "main" OpExecutionMode %main OriginUpperLeft OpSource GLSL 330 OpName %main "main" %void = OpTypeVoid %4 = OpTypeFunction %void %bool = OpTypeBool %true = OpConstantTrue %bool %main = OpFunction %void None %4 %7 = OpLabel OpBranch %8 %8 = OpLabel OpLoopMerge %9 %10 None OpBranch %11 %11 = OpLabel OpBranchConditional %true %12 %9 %12 = OpLabel OpBranch %10 %10 = OpLabel %13 = OpFunctionCall %void %14 %15 = OpFunctionCall %void %16 OpBranch %8 %9 = OpLabel OpReturn OpFunctionEnd %14 = OpFunction %void None %4 %17 = OpLabel OpTerminateInvocation OpFunctionEnd %16 = OpFunction %void None %4 %18 = OpLabel OpKill OpFunctionEnd )"; SinglePassRunAndMatch(text, true); } TEST_F(WrapOpKillTest, FuncWithReturnValue) { const std::string text = R"( ; CHECK: OpEntryPoint Fragment [[main:%\w+]] ; CHECK: [[main]] = OpFunction ; CHECK: OpFunctionCall %int [[orig_kill:%\w+]] ; CHECK: [[orig_kill]] = OpFunction ; CHECK-NEXT: OpLabel ; CHECK-NEXT: OpFunctionCall %void [[new_kill:%\w+]] ; CHECK-NEXT: [[undef:%\w+]] = OpUndef %int ; CHECK-NEXT: OpReturnValue [[undef]] ; CHECK: [[new_kill]] = OpFunction ; CHECK-NEXT: OpLabel ; CHECK-NEXT: OpKill ; CHECK-NEXT: OpFunctionEnd OpCapability Shader %1 = OpExtInstImport "GLSL.std.450" OpMemoryModel Logical GLSL450 OpEntryPoint Fragment %main "main" OpExecutionMode %main OriginUpperLeft OpSource GLSL 330 OpName %main "main" %void = OpTypeVoid %5 = OpTypeFunction %void %int = OpTypeInt 32 1 %func_type = OpTypeFunction %int %bool = OpTypeBool %true = OpConstantTrue %bool %main = OpFunction %void None %5 %8 = OpLabel OpBranch %9 %9 = OpLabel OpLoopMerge %10 %11 None OpBranch %12 %12 = OpLabel OpBranchConditional %true %13 %10 %13 = OpLabel OpBranch %11 %11 = OpLabel %14 = OpFunctionCall %int %kill_ OpBranch %9 %10 = OpLabel OpReturn OpFunctionEnd %kill_ = OpFunction %int None %func_type %15 = OpLabel OpKill OpFunctionEnd )"; SinglePassRunAndMatch(text, true); } TEST_F(WrapOpKillTest, IdBoundOverflow1) { const std::string text = R"( OpCapability GeometryStreams OpMemoryModel Logical GLSL450 OpEntryPoint Fragment %main "main" OpExecutionMode %main OriginUpperLeft %2 = OpTypeVoid %3 = OpTypeFunction %2 %bool = OpTypeBool %true = OpConstantTrue %bool %main = OpFunction %2 None %3 %8 = OpLabel OpBranch %9 %9 = OpLabel OpLoopMerge %10 %11 None OpBranch %12 %12 = OpLabel OpBranchConditional %true %13 %10 %13 = OpLabel OpBranch %11 %11 = OpLabel %14 = OpFunctionCall %void %kill_ OpBranch %9 %10 = OpLabel OpReturn OpFunctionEnd %kill_ = OpFunction %2 Pure|Const %3 %4194302 = OpLabel OpKill OpFunctionEnd )"; SetAssembleOptions(SPV_TEXT_TO_BINARY_OPTION_PRESERVE_NUMERIC_IDS); std::vector messages = { {SPV_MSG_ERROR, "", 0, 0, "ID overflow. Try running compact-ids."}}; SetMessageConsumer(GetTestMessageConsumer(messages)); auto result = SinglePassRunToBinary(text, true); EXPECT_EQ(Pass::Status::Failure, std::get<1>(result)); } TEST_F(WrapOpKillTest, IdBoundOverflow2) { const std::string text = R"( OpCapability GeometryStreams OpMemoryModel Logical GLSL450 OpEntryPoint Fragment %main "main" OpExecutionMode %main OriginUpperLeft %2 = OpTypeVoid %3 = OpTypeFunction %2 %bool = OpTypeBool %true = OpConstantTrue %bool %main = OpFunction %2 None %3 %8 = OpLabel OpBranch %9 %9 = OpLabel OpLoopMerge %10 %11 None OpBranch %12 %12 = OpLabel OpBranchConditional %true %13 %10 %13 = OpLabel OpBranch %11 %11 = OpLabel %14 = OpFunctionCall %void %kill_ OpBranch %9 %10 = OpLabel OpReturn OpFunctionEnd %kill_ = OpFunction %2 Pure|Const %3 %4194301 = OpLabel OpKill OpFunctionEnd )"; SetAssembleOptions(SPV_TEXT_TO_BINARY_OPTION_PRESERVE_NUMERIC_IDS); std::vector messages = { {SPV_MSG_ERROR, "", 0, 0, "ID overflow. Try running compact-ids."}}; SetMessageConsumer(GetTestMessageConsumer(messages)); auto result = SinglePassRunToBinary(text, true); EXPECT_EQ(Pass::Status::Failure, std::get<1>(result)); } TEST_F(WrapOpKillTest, IdBoundOverflow3) { const std::string text = R"( OpCapability GeometryStreams OpMemoryModel Logical GLSL450 OpEntryPoint Fragment %main "main" OpExecutionMode %main OriginUpperLeft %2 = OpTypeVoid %3 = OpTypeFunction %2 %bool = OpTypeBool %true = OpConstantTrue %bool %main = OpFunction %2 None %3 %8 = OpLabel OpBranch %9 %9 = OpLabel OpLoopMerge %10 %11 None OpBranch %12 %12 = OpLabel OpBranchConditional %true %13 %10 %13 = OpLabel OpBranch %11 %11 = OpLabel %14 = OpFunctionCall %void %kill_ OpBranch %9 %10 = OpLabel OpReturn OpFunctionEnd %kill_ = OpFunction %2 Pure|Const %3 %4194300 = OpLabel OpKill OpFunctionEnd )"; SetAssembleOptions(SPV_TEXT_TO_BINARY_OPTION_PRESERVE_NUMERIC_IDS); std::vector messages = { {SPV_MSG_ERROR, "", 0, 0, "ID overflow. Try running compact-ids."}}; SetMessageConsumer(GetTestMessageConsumer(messages)); auto result = SinglePassRunToBinary(text, true); EXPECT_EQ(Pass::Status::Failure, std::get<1>(result)); } TEST_F(WrapOpKillTest, IdBoundOverflow4) { const std::string text = R"( OpCapability DerivativeControl OpMemoryModel Logical GLSL450 OpEntryPoint Fragment %main "main" OpExecutionMode %main OriginUpperLeft OpDecorate %2 Location 539091968 %2 = OpTypeVoid %3 = OpTypeFunction %2 %bool = OpTypeBool %true = OpConstantTrue %bool %main = OpFunction %2 None %3 %8 = OpLabel OpBranch %9 %9 = OpLabel OpLoopMerge %10 %11 None OpBranch %12 %12 = OpLabel OpBranchConditional %true %13 %10 %13 = OpLabel OpBranch %11 %11 = OpLabel %14 = OpFunctionCall %void %kill_ OpBranch %9 %10 = OpLabel OpReturn OpFunctionEnd %kill_ = OpFunction %2 Inline|Pure|Const %3 %4194302 = OpLabel OpKill OpFunctionEnd )"; SetAssembleOptions(SPV_TEXT_TO_BINARY_OPTION_PRESERVE_NUMERIC_IDS); std::vector messages = { {SPV_MSG_ERROR, "", 0, 0, "ID overflow. Try running compact-ids."}}; SetMessageConsumer(GetTestMessageConsumer(messages)); auto result = SinglePassRunToBinary(text, true); EXPECT_EQ(Pass::Status::Failure, std::get<1>(result)); } TEST_F(WrapOpKillTest, IdBoundOverflow5) { const std::string text = R"( OpCapability Shader OpMemoryModel Logical GLSL450 OpEntryPoint Fragment %1 "main" OpExecutionMode %1 OriginUpperLeft OpDecorate %void Location 539091968 %void = OpTypeVoid %3 = OpTypeFunction %void %float = OpTypeFloat 32 %_struct_5 = OpTypeStruct %float %float %_struct_6 = OpTypeStruct %_struct_5 %_ptr_Function__struct_6 = OpTypePointer Function %_struct_6 %_ptr_Output_float = OpTypePointer Output %float %9 = OpTypeFunction %_struct_5 %_ptr_Function__struct_6 %bool = OpTypeBool %true = OpConstantTrue %bool %1 = OpFunction %void None %3 %12 = OpLabel %13 = OpVariable %_ptr_Function__struct_6 Function OpBranch %14 %14 = OpLabel OpLoopMerge %15 %16 None OpBranch %17 %17 = OpLabel OpBranchConditional %true %18 %15 %18 = OpLabel OpBranch %16 %16 = OpLabel %19 = OpFunctionCall %void %20 %21 = OpFunctionCall %_struct_5 %22 %13 OpBranch %14 %15 = OpLabel OpReturn OpFunctionEnd %20 = OpFunction %void Inline|Pure|Const %3 %23 = OpLabel %24 = OpVariable %_ptr_Function__struct_6 Function %25 = OpFunctionCall %_struct_5 %26 %24 OpKill OpFunctionEnd %26 = OpFunction %_struct_5 None %9 %27 = OpLabel OpUnreachable OpFunctionEnd %22 = OpFunction %_struct_5 Inline %9 %4194295 = OpLabel OpKill OpFunctionEnd )"; SetAssembleOptions(SPV_TEXT_TO_BINARY_OPTION_PRESERVE_NUMERIC_IDS); std::vector messages = { {SPV_MSG_ERROR, "", 0, 0, "ID overflow. Try running compact-ids."}}; SetMessageConsumer(GetTestMessageConsumer(messages)); auto result = SinglePassRunToBinary(text, true); EXPECT_EQ(Pass::Status::Failure, std::get<1>(result)); } TEST_F(WrapOpKillTest, SkipEntryPoint) { const std::string text = R"( OpCapability GeometryStreams OpMemoryModel Logical GLSL450 OpEntryPoint Fragment %4 "main" OpExecutionMode %4 OriginUpperLeft %2 = OpTypeVoid %3 = OpTypeFunction %2 %4 = OpFunction %2 Pure|Const %3 %5 = OpLabel OpKill OpFunctionEnd )"; auto result = SinglePassRunToBinary(text, true); EXPECT_EQ(Pass::Status::SuccessWithoutChange, std::get<1>(result)); } TEST_F(WrapOpKillTest, SkipFunctionNotInContinue) { const std::string text = R"( OpCapability GeometryStreams OpMemoryModel Logical GLSL450 OpEntryPoint Fragment %main "main" OpExecutionMode %main OriginUpperLeft %2 = OpTypeVoid %3 = OpTypeFunction %2 %bool = OpTypeBool %true = OpConstantTrue %bool %main = OpFunction %2 None %3 %6 = OpLabel %7 = OpFunctionCall %void %4 OpReturn OpFunctionEnd %4 = OpFunction %2 Pure|Const %3 %5 = OpLabel OpKill OpFunctionEnd )"; auto result = SinglePassRunToBinary(text, true); EXPECT_EQ(Pass::Status::SuccessWithoutChange, std::get<1>(result)); } TEST_F(WrapOpKillTest, SetParentBlock) { const std::string text = R"( OpCapability Shader OpMemoryModel Logical GLSL450 OpEntryPoint Fragment %main "main" OpExecutionMode %main OriginUpperLeft %void = OpTypeVoid %bool = OpTypeBool %undef = OpUndef %bool %void_fn = OpTypeFunction %void %main = OpFunction %void None %void_fn %entry = OpLabel OpBranch %loop %loop = OpLabel OpLoopMerge %merge %continue None OpBranchConditional %undef %merge %continue %continue = OpLabel %call = OpFunctionCall %void %kill_func OpBranch %loop %merge = OpLabel OpReturn OpFunctionEnd %kill_func = OpFunction %void None %void_fn %kill_entry = OpLabel OpKill OpFunctionEnd )"; auto result = SinglePassRunToBinary(text, true); EXPECT_EQ(Pass::Status::SuccessWithChange, std::get<1>(result)); result = SinglePassRunToBinary(text, true); EXPECT_EQ(Pass::Status::SuccessWithChange, std::get<1>(result)); } TEST_F(WrapOpKillTest, KillInSingleBlockLoop) { const std::string text = R"( ; CHECK: OpFunction %void ; CHECK: OpFunction %void ; CHECK-NOT: OpKill ; CHECK: OpFunctionCall %void [[new_kill:%\w+]] ; CHECK-NOT: OpKill ; CHECK: [[new_kill]] = OpFunction ; CHECK-NEXT: OpLabel ; CHECK-NEXT: OpKill ; CHECK-NEXT: OpFunctionEnd OpCapability Shader OpCapability Linkage OpMemoryModel Logical GLSL450 %void = OpTypeVoid %bool = OpTypeBool %undef = OpUndef %bool %void_fn = OpTypeFunction %void %main = OpFunction %void None %void_fn %main_entry = OpLabel OpBranch %loop %loop = OpLabel %call = OpFunctionCall %void %sub OpLoopMerge %exit %loop None OpBranchConditional %undef %loop %exit %exit = OpLabel OpReturn OpFunctionEnd %sub = OpFunction %void None %void_fn %sub_entry = OpLabel OpSelectionMerge %ret None OpBranchConditional %undef %kill %ret %kill = OpLabel OpKill %ret = OpLabel OpReturn OpFunctionEnd )"; SinglePassRunAndMatch(text, true); } TEST_F(WrapOpKillTest, DebugInfoSimple) { const std::string text = R"( ; CHECK: OpEntryPoint Fragment [[main:%\w+]] ; CHECK: [[main]] = OpFunction ; CHECK: OpFunctionCall %void [[orig_kill:%\w+]] ; CHECK: [[orig_kill]] = OpFunction ; CHECK-NEXT: OpLabel ; CHECK-NEXT: {{%\d+}} = OpExtInst %void [[ext:%\d+]] DebugScope ; CHECK-NEXT: OpLine [[file:%\d+]] 100 200 ; CHECK-NEXT: OpFunctionCall %void [[new_kill:%\w+]] ; CHECK: {{%\d+}} = OpExtInst %void [[ext]] DebugNoScope ; CHECK-NEXT: OpReturn ; CHECK: [[new_kill]] = OpFunction ; CHECK-NEXT: OpLabel ; CHECK-NEXT: OpKill ; CHECK-NEXT: OpFunctionEnd OpCapability Shader %1 = OpExtInstImport "OpenCL.DebugInfo.100" OpMemoryModel Logical GLSL450 OpEntryPoint Fragment %main "main" OpExecutionMode %main OriginUpperLeft %2 = OpString "File name" OpSource GLSL 330 OpName %main "main" %void = OpTypeVoid %5 = OpTypeFunction %void %bool = OpTypeBool %true = OpConstantTrue %bool %3 = OpExtInst %void %1 DebugSource %2 %4 = OpExtInst %void %1 DebugCompilationUnit 0 0 %3 GLSL %main = OpFunction %void None %5 %8 = OpLabel OpBranch %9 %9 = OpLabel OpLoopMerge %10 %11 None OpBranch %12 %12 = OpLabel OpBranchConditional %true %13 %10 %13 = OpLabel OpBranch %11 %11 = OpLabel %14 = OpFunctionCall %void %kill_ OpBranch %9 %10 = OpLabel OpReturn OpFunctionEnd %kill_ = OpFunction %void None %5 %15 = OpLabel %16 = OpExtInst %void %1 DebugScope %4 OpLine %2 100 200 OpKill OpFunctionEnd )"; SinglePassRunAndMatch(text, true); } } // namespace } // namespace opt } // namespace spvtools