mirror of
https://github.com/KhronosGroup/SPIRV-Tools
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d35a78db57
Fixes #4960 * Switches to using enum classes with an underlying type to avoid undefined behaviour
288 lines
9.5 KiB
C++
288 lines
9.5 KiB
C++
// Copyright (c) 2016 Google Inc.
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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// Basic tests for the ValidationState_t datastructure.
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#include <string>
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#include "gmock/gmock.h"
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#include "source/spirv_validator_options.h"
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#include "test/unit_spirv.h"
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#include "test/val/val_fixtures.h"
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namespace spvtools {
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namespace val {
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namespace {
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using ::testing::HasSubstr;
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using ValidationStateTest = spvtest::ValidateBase<bool>;
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const char kHeader[] =
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" OpCapability Shader"
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" OpCapability Linkage"
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" OpMemoryModel Logical GLSL450 ";
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const char kVulkanMemoryHeader[] =
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" OpCapability Shader"
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" OpCapability VulkanMemoryModelKHR"
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" OpExtension \"SPV_KHR_vulkan_memory_model\""
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" OpMemoryModel Logical VulkanKHR ";
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const char kVoidFVoid[] =
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" %void = OpTypeVoid"
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" %void_f = OpTypeFunction %void"
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" %func = OpFunction %void None %void_f"
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" %label = OpLabel"
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" OpReturn"
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" OpFunctionEnd ";
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// k*RecursiveBody examples originally from test/opt/function_test.cpp
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const char* kNonRecursiveBody = R"(
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OpEntryPoint Fragment %1 "main"
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OpExecutionMode %1 OriginUpperLeft
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%void = OpTypeVoid
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%4 = OpTypeFunction %void
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%float = OpTypeFloat 32
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%_struct_6 = OpTypeStruct %float %float
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%null = OpConstantNull %_struct_6
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%7 = OpTypeFunction %_struct_6
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%12 = OpFunction %_struct_6 None %7
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%13 = OpLabel
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OpReturnValue %null
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OpFunctionEnd
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%9 = OpFunction %_struct_6 None %7
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%10 = OpLabel
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%11 = OpFunctionCall %_struct_6 %12
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OpReturnValue %null
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OpFunctionEnd
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%1 = OpFunction %void Pure|Const %4
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%8 = OpLabel
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%2 = OpFunctionCall %_struct_6 %9
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OpKill
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OpFunctionEnd
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)";
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const char* kDirectlyRecursiveBody = R"(
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OpEntryPoint Fragment %1 "main"
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OpExecutionMode %1 OriginUpperLeft
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%void = OpTypeVoid
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%4 = OpTypeFunction %void
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%float = OpTypeFloat 32
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%_struct_6 = OpTypeStruct %float %float
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%7 = OpTypeFunction %_struct_6
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%9 = OpFunction %_struct_6 None %7
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%10 = OpLabel
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%11 = OpFunctionCall %_struct_6 %9
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OpKill
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OpFunctionEnd
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%1 = OpFunction %void Pure|Const %4
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%8 = OpLabel
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%2 = OpFunctionCall %_struct_6 %9
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OpReturn
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OpFunctionEnd
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)";
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const char* kIndirectlyRecursiveBody = R"(
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OpEntryPoint Fragment %1 "main"
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OpExecutionMode %1 OriginUpperLeft
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%void = OpTypeVoid
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%4 = OpTypeFunction %void
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%float = OpTypeFloat 32
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%_struct_6 = OpTypeStruct %float %float
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%null = OpConstantNull %_struct_6
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%7 = OpTypeFunction %_struct_6
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%9 = OpFunction %_struct_6 None %7
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%10 = OpLabel
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%11 = OpFunctionCall %_struct_6 %12
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OpReturnValue %null
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OpFunctionEnd
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%12 = OpFunction %_struct_6 None %7
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%13 = OpLabel
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%14 = OpFunctionCall %_struct_6 %9
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OpReturnValue %null
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OpFunctionEnd
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%1 = OpFunction %void Pure|Const %4
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%8 = OpLabel
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%2 = OpFunctionCall %_struct_6 %9
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OpKill
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OpFunctionEnd
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)";
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// Tests that the instruction count in ValidationState is correct.
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TEST_F(ValidationStateTest, CheckNumInstructions) {
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std::string spirv = std::string(kHeader) + "%int = OpTypeInt 32 0";
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CompileSuccessfully(spirv);
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EXPECT_EQ(SPV_SUCCESS, ValidateAndRetrieveValidationState());
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EXPECT_EQ(size_t(4), vstate_->ordered_instructions().size());
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}
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// Tests that the number of global variables in ValidationState is correct.
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TEST_F(ValidationStateTest, CheckNumGlobalVars) {
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std::string spirv = std::string(kHeader) + R"(
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%int = OpTypeInt 32 0
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%_ptr_int = OpTypePointer Input %int
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%var_1 = OpVariable %_ptr_int Input
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%var_2 = OpVariable %_ptr_int Input
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)";
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CompileSuccessfully(spirv);
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EXPECT_EQ(SPV_SUCCESS, ValidateAndRetrieveValidationState());
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EXPECT_EQ(unsigned(2), vstate_->num_global_vars());
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}
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// Tests that the number of local variables in ValidationState is correct.
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TEST_F(ValidationStateTest, CheckNumLocalVars) {
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std::string spirv = std::string(kHeader) + R"(
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%int = OpTypeInt 32 0
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%_ptr_int = OpTypePointer Function %int
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%voidt = OpTypeVoid
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%funct = OpTypeFunction %voidt
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%main = OpFunction %voidt None %funct
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%entry = OpLabel
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%var_1 = OpVariable %_ptr_int Function
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%var_2 = OpVariable %_ptr_int Function
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%var_3 = OpVariable %_ptr_int Function
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OpReturn
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OpFunctionEnd
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)";
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CompileSuccessfully(spirv);
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EXPECT_EQ(SPV_SUCCESS, ValidateAndRetrieveValidationState());
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EXPECT_EQ(unsigned(3), vstate_->num_local_vars());
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}
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// Tests that the "id bound" in ValidationState is correct.
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TEST_F(ValidationStateTest, CheckIdBound) {
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std::string spirv = std::string(kHeader) + R"(
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%int = OpTypeInt 32 0
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%voidt = OpTypeVoid
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)";
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CompileSuccessfully(spirv);
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EXPECT_EQ(SPV_SUCCESS, ValidateAndRetrieveValidationState());
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EXPECT_EQ(unsigned(3), vstate_->getIdBound());
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}
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// Tests that the entry_points in ValidationState is correct.
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TEST_F(ValidationStateTest, CheckEntryPoints) {
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std::string spirv = std::string(kHeader) +
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" OpEntryPoint Vertex %func \"shader\"" +
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std::string(kVoidFVoid);
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CompileSuccessfully(spirv);
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EXPECT_EQ(SPV_SUCCESS, ValidateAndRetrieveValidationState());
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EXPECT_EQ(size_t(1), vstate_->entry_points().size());
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EXPECT_EQ(spv::Op::OpFunction,
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vstate_->FindDef(vstate_->entry_points()[0])->opcode());
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}
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TEST_F(ValidationStateTest, CheckStructMemberLimitOption) {
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spvValidatorOptionsSetUniversalLimit(
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options_, spv_validator_limit_max_struct_members, 32000u);
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EXPECT_EQ(32000u, options_->universal_limits_.max_struct_members);
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}
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TEST_F(ValidationStateTest, CheckNumGlobalVarsLimitOption) {
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spvValidatorOptionsSetUniversalLimit(
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options_, spv_validator_limit_max_global_variables, 100u);
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EXPECT_EQ(100u, options_->universal_limits_.max_global_variables);
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}
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TEST_F(ValidationStateTest, CheckNumLocalVarsLimitOption) {
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spvValidatorOptionsSetUniversalLimit(
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options_, spv_validator_limit_max_local_variables, 100u);
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EXPECT_EQ(100u, options_->universal_limits_.max_local_variables);
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}
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TEST_F(ValidationStateTest, CheckStructDepthLimitOption) {
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spvValidatorOptionsSetUniversalLimit(
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options_, spv_validator_limit_max_struct_depth, 100u);
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EXPECT_EQ(100u, options_->universal_limits_.max_struct_depth);
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}
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TEST_F(ValidationStateTest, CheckSwitchBranchesLimitOption) {
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spvValidatorOptionsSetUniversalLimit(
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options_, spv_validator_limit_max_switch_branches, 100u);
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EXPECT_EQ(100u, options_->universal_limits_.max_switch_branches);
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}
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TEST_F(ValidationStateTest, CheckFunctionArgsLimitOption) {
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spvValidatorOptionsSetUniversalLimit(
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options_, spv_validator_limit_max_function_args, 100u);
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EXPECT_EQ(100u, options_->universal_limits_.max_function_args);
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}
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TEST_F(ValidationStateTest, CheckCFGDepthLimitOption) {
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spvValidatorOptionsSetUniversalLimit(
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options_, spv_validator_limit_max_control_flow_nesting_depth, 100u);
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EXPECT_EQ(100u, options_->universal_limits_.max_control_flow_nesting_depth);
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}
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TEST_F(ValidationStateTest, CheckAccessChainIndexesLimitOption) {
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spvValidatorOptionsSetUniversalLimit(
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options_, spv_validator_limit_max_access_chain_indexes, 100u);
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EXPECT_EQ(100u, options_->universal_limits_.max_access_chain_indexes);
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}
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TEST_F(ValidationStateTest, CheckNonRecursiveBodyGood) {
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std::string spirv = std::string(kHeader) + kNonRecursiveBody;
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CompileSuccessfully(spirv);
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EXPECT_EQ(SPV_SUCCESS, ValidateAndRetrieveValidationState());
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}
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TEST_F(ValidationStateTest, CheckVulkanNonRecursiveBodyGood) {
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std::string spirv = std::string(kVulkanMemoryHeader) + kNonRecursiveBody;
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CompileSuccessfully(spirv, SPV_ENV_VULKAN_1_1);
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EXPECT_EQ(SPV_SUCCESS,
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ValidateAndRetrieveValidationState(SPV_ENV_VULKAN_1_1));
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}
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TEST_F(ValidationStateTest, CheckDirectlyRecursiveBodyGood) {
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std::string spirv = std::string(kHeader) + kDirectlyRecursiveBody;
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CompileSuccessfully(spirv);
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EXPECT_EQ(SPV_SUCCESS, ValidateAndRetrieveValidationState());
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}
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TEST_F(ValidationStateTest, CheckVulkanDirectlyRecursiveBodyBad) {
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std::string spirv = std::string(kVulkanMemoryHeader) + kDirectlyRecursiveBody;
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CompileSuccessfully(spirv, SPV_ENV_VULKAN_1_1);
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EXPECT_EQ(SPV_ERROR_INVALID_BINARY,
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ValidateAndRetrieveValidationState(SPV_ENV_VULKAN_1_1));
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EXPECT_THAT(getDiagnosticString(),
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AnyVUID("VUID-StandaloneSpirv-None-04634"));
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EXPECT_THAT(getDiagnosticString(),
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HasSubstr("Entry points may not have a call graph with cycles.\n "
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" %1 = OpFunction %void Pure|Const %3\n"));
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}
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TEST_F(ValidationStateTest, CheckIndirectlyRecursiveBodyGood) {
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std::string spirv = std::string(kHeader) + kIndirectlyRecursiveBody;
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CompileSuccessfully(spirv);
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EXPECT_EQ(SPV_SUCCESS, ValidateAndRetrieveValidationState());
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}
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TEST_F(ValidationStateTest, CheckVulkanIndirectlyRecursiveBodyBad) {
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std::string spirv =
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std::string(kVulkanMemoryHeader) + kIndirectlyRecursiveBody;
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CompileSuccessfully(spirv, SPV_ENV_VULKAN_1_1);
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EXPECT_EQ(SPV_ERROR_INVALID_BINARY,
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ValidateAndRetrieveValidationState(SPV_ENV_VULKAN_1_1));
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EXPECT_THAT(getDiagnosticString(),
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AnyVUID("VUID-StandaloneSpirv-None-04634"));
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EXPECT_THAT(getDiagnosticString(),
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HasSubstr("Entry points may not have a call graph with cycles.\n "
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" %1 = OpFunction %void Pure|Const %3\n"));
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}
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} // namespace
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} // namespace val
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} // namespace spvtools
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