mirror of
https://github.com/KhronosGroup/SPIRV-Tools
synced 2024-11-23 04:00:05 +00:00
a77bb2e54b
* Check rules from Execution Mode tables, 2.16.2 and the Vulkan environment spec * Allows MeshNV execution model with the following execution modes * LocalSize, LocalSizeId, OutputPoints and OutputVertices * Done to not break their validation
322 lines
11 KiB
C++
322 lines
11 KiB
C++
// Copyright (c) 2017 LunarG 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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#include <sstream>
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#include <string>
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#include "gmock/gmock.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 ::testing::Not;
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using ValidatePrimitives = spvtest::ValidateBase<bool>;
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std::string GenerateShaderCode(
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const std::string& body,
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const std::string& capabilities_and_extensions =
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"OpCapability GeometryStreams",
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const std::string& execution_model = "Geometry") {
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std::ostringstream ss;
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ss << capabilities_and_extensions << "\n";
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ss << "OpMemoryModel Logical GLSL450\n";
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ss << "OpEntryPoint " << execution_model << " %main \"main\"\n";
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if (execution_model == "Geometry") {
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ss << "OpExecutionMode %main InputPoints\n";
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ss << "OpExecutionMode %main OutputPoints\n";
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}
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ss << R"(
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%void = OpTypeVoid
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%func = OpTypeFunction %void
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%f32 = OpTypeFloat 32
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%u32 = OpTypeInt 32 0
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%u32vec4 = OpTypeVector %u32 4
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%f32_0 = OpConstant %f32 0
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%u32_0 = OpConstant %u32 0
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%u32_1 = OpConstant %u32 1
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%u32_2 = OpConstant %u32 2
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%u32_3 = OpConstant %u32 3
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%u32vec4_0123 = OpConstantComposite %u32vec4 %u32_0 %u32_1 %u32_2 %u32_3
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%main = OpFunction %void None %func
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%main_entry = OpLabel
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)";
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ss << body;
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ss << R"(
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OpReturn
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OpFunctionEnd)";
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return ss.str();
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}
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// Returns SPIR-V assembly fragment representing a function call,
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// the end of the callee body, and the preamble and body of the called
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// function with the given body, but missing the final return and
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// function-end. The result is of the form where it can be used in the
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// |body| argument to GenerateShaderCode.
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std::string CallAndCallee(const std::string& body) {
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std::ostringstream ss;
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ss << R"(
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%dummy = OpFunctionCall %void %foo
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OpReturn
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OpFunctionEnd
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%foo = OpFunction %void None %func
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%foo_entry = OpLabel
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)";
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ss << body;
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return ss.str();
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}
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// OpEmitVertex doesn't have any parameters, so other validation
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// is handled by the binary parser, and generic dominance checks.
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TEST_F(ValidatePrimitives, EmitVertexSuccess) {
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CompileSuccessfully(
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GenerateShaderCode("OpEmitVertex", "OpCapability Geometry"));
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EXPECT_EQ(SPV_SUCCESS, ValidateInstructions());
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}
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TEST_F(ValidatePrimitives, EmitVertexFailMissingCapability) {
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CompileSuccessfully(
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GenerateShaderCode("OpEmitVertex", "OpCapability Shader", "Vertex"));
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EXPECT_EQ(SPV_ERROR_INVALID_CAPABILITY, ValidateInstructions());
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EXPECT_THAT(
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getDiagnosticString(),
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HasSubstr(
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"Opcode EmitVertex requires one of these capabilities: Geometry"));
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}
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TEST_F(ValidatePrimitives, EmitVertexFailWrongExecutionMode) {
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CompileSuccessfully(
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GenerateShaderCode("OpEmitVertex", "OpCapability Geometry", "Vertex"));
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EXPECT_EQ(SPV_ERROR_INVALID_ID, ValidateInstructions());
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EXPECT_THAT(
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getDiagnosticString(),
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HasSubstr("EmitVertex instructions require Geometry execution model"));
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}
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TEST_F(ValidatePrimitives, EmitVertexFailWrongExecutionModeNestedFunction) {
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CompileSuccessfully(GenerateShaderCode(CallAndCallee("OpEmitVertex"),
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"OpCapability Geometry", "Vertex"));
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EXPECT_EQ(SPV_ERROR_INVALID_ID, ValidateInstructions());
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EXPECT_THAT(
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getDiagnosticString(),
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HasSubstr("EmitVertex instructions require Geometry execution model"));
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}
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// OpEndPrimitive doesn't have any parameters, so other validation
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// is handled by the binary parser, and generic dominance checks.
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TEST_F(ValidatePrimitives, EndPrimitiveSuccess) {
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CompileSuccessfully(
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GenerateShaderCode("OpEndPrimitive", "OpCapability Geometry"));
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EXPECT_EQ(SPV_SUCCESS, ValidateInstructions());
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}
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TEST_F(ValidatePrimitives, EndPrimitiveFailMissingCapability) {
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CompileSuccessfully(
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GenerateShaderCode("OpEndPrimitive", "OpCapability Shader", "Vertex"));
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EXPECT_EQ(SPV_ERROR_INVALID_CAPABILITY, ValidateInstructions());
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EXPECT_THAT(
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getDiagnosticString(),
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HasSubstr(
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"Opcode EndPrimitive requires one of these capabilities: Geometry"));
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}
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TEST_F(ValidatePrimitives, EndPrimitiveFailWrongExecutionMode) {
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CompileSuccessfully(
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GenerateShaderCode("OpEndPrimitive", "OpCapability Geometry", "Vertex"));
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EXPECT_EQ(SPV_ERROR_INVALID_ID, ValidateInstructions());
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EXPECT_THAT(
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getDiagnosticString(),
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HasSubstr("EndPrimitive instructions require Geometry execution model"));
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}
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TEST_F(ValidatePrimitives, EndPrimitiveFailWrongExecutionModeNestedFunction) {
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CompileSuccessfully(GenerateShaderCode(CallAndCallee("OpEndPrimitive"),
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"OpCapability Geometry", "Vertex"));
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EXPECT_EQ(SPV_ERROR_INVALID_ID, ValidateInstructions());
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EXPECT_THAT(
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getDiagnosticString(),
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HasSubstr("EndPrimitive instructions require Geometry execution model"));
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}
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TEST_F(ValidatePrimitives, EmitStreamVertexSuccess) {
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const std::string body = R"(
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OpEmitStreamVertex %u32_0
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)";
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CompileSuccessfully(GenerateShaderCode(body));
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EXPECT_EQ(SPV_SUCCESS, ValidateInstructions());
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}
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TEST_F(ValidatePrimitives, EmitStreamVertexFailMissingCapability) {
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CompileSuccessfully(GenerateShaderCode("OpEmitStreamVertex %u32_0",
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"OpCapability Shader", "Vertex"));
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EXPECT_EQ(SPV_ERROR_INVALID_CAPABILITY, ValidateInstructions());
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EXPECT_THAT(getDiagnosticString(),
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HasSubstr("Opcode EmitStreamVertex requires one of these "
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"capabilities: GeometryStreams"));
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}
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TEST_F(ValidatePrimitives, EmitStreamVertexFailWrongExecutionMode) {
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CompileSuccessfully(GenerateShaderCode(
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"OpEmitStreamVertex %u32_0", "OpCapability GeometryStreams", "Vertex"));
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EXPECT_EQ(SPV_ERROR_INVALID_ID, ValidateInstructions());
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EXPECT_THAT(
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getDiagnosticString(),
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HasSubstr(
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"EmitStreamVertex instructions require Geometry execution model"));
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}
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TEST_F(ValidatePrimitives,
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EmitStreamVertexFailWrongExecutionModeNestedFunction) {
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CompileSuccessfully(
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GenerateShaderCode(CallAndCallee("OpEmitStreamVertex %u32_0"),
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"OpCapability GeometryStreams", "Vertex"));
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EXPECT_EQ(SPV_ERROR_INVALID_ID, ValidateInstructions());
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EXPECT_THAT(
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getDiagnosticString(),
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HasSubstr(
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"EmitStreamVertex instructions require Geometry execution model"));
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}
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TEST_F(ValidatePrimitives, EmitStreamVertexNonInt) {
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const std::string body = R"(
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OpEmitStreamVertex %f32_0
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)";
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CompileSuccessfully(GenerateShaderCode(body));
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EXPECT_EQ(SPV_ERROR_INVALID_DATA, ValidateInstructions());
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EXPECT_THAT(getDiagnosticString(),
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HasSubstr("EmitStreamVertex: "
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"expected Stream to be int scalar"));
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}
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TEST_F(ValidatePrimitives, EmitStreamVertexNonScalar) {
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const std::string body = R"(
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OpEmitStreamVertex %u32vec4_0123
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)";
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CompileSuccessfully(GenerateShaderCode(body));
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EXPECT_EQ(SPV_ERROR_INVALID_DATA, ValidateInstructions());
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EXPECT_THAT(getDiagnosticString(),
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HasSubstr("EmitStreamVertex: "
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"expected Stream to be int scalar"));
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}
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TEST_F(ValidatePrimitives, EmitStreamVertexNonConstant) {
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const std::string body = R"(
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%val1 = OpIAdd %u32 %u32_0 %u32_1
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OpEmitStreamVertex %val1
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)";
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CompileSuccessfully(GenerateShaderCode(body));
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EXPECT_EQ(SPV_ERROR_INVALID_DATA, ValidateInstructions());
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EXPECT_THAT(getDiagnosticString(),
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HasSubstr("EmitStreamVertex: "
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"expected Stream to be constant instruction"));
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}
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TEST_F(ValidatePrimitives, EndStreamPrimitiveSuccess) {
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const std::string body = R"(
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OpEndStreamPrimitive %u32_0
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)";
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CompileSuccessfully(GenerateShaderCode(body));
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EXPECT_EQ(SPV_SUCCESS, ValidateInstructions());
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}
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TEST_F(ValidatePrimitives, EndStreamPrimitiveFailMissingCapability) {
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CompileSuccessfully(GenerateShaderCode("OpEndStreamPrimitive %u32_0",
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"OpCapability Shader", "Vertex"));
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EXPECT_EQ(SPV_ERROR_INVALID_CAPABILITY, ValidateInstructions());
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EXPECT_THAT(getDiagnosticString(),
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HasSubstr("Opcode EndStreamPrimitive requires one of these "
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"capabilities: GeometryStreams"));
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}
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TEST_F(ValidatePrimitives, EndStreamPrimitiveFailWrongExecutionMode) {
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CompileSuccessfully(GenerateShaderCode(
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"OpEndStreamPrimitive %u32_0", "OpCapability GeometryStreams", "Vertex"));
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EXPECT_EQ(SPV_ERROR_INVALID_ID, ValidateInstructions());
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EXPECT_THAT(
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getDiagnosticString(),
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HasSubstr(
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"EndStreamPrimitive instructions require Geometry execution model"));
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}
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TEST_F(ValidatePrimitives,
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EndStreamPrimitiveFailWrongExecutionModeNestedFunction) {
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CompileSuccessfully(
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GenerateShaderCode(CallAndCallee("OpEndStreamPrimitive %u32_0"),
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"OpCapability GeometryStreams", "Vertex"));
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EXPECT_EQ(SPV_ERROR_INVALID_ID, ValidateInstructions());
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EXPECT_THAT(
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getDiagnosticString(),
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HasSubstr(
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"EndStreamPrimitive instructions require Geometry execution model"));
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}
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TEST_F(ValidatePrimitives, EndStreamPrimitiveNonInt) {
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const std::string body = R"(
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OpEndStreamPrimitive %f32_0
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)";
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CompileSuccessfully(GenerateShaderCode(body));
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EXPECT_EQ(SPV_ERROR_INVALID_DATA, ValidateInstructions());
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EXPECT_THAT(getDiagnosticString(),
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HasSubstr("EndStreamPrimitive: "
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"expected Stream to be int scalar"));
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}
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TEST_F(ValidatePrimitives, EndStreamPrimitiveNonScalar) {
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const std::string body = R"(
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OpEndStreamPrimitive %u32vec4_0123
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)";
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CompileSuccessfully(GenerateShaderCode(body));
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EXPECT_EQ(SPV_ERROR_INVALID_DATA, ValidateInstructions());
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EXPECT_THAT(getDiagnosticString(),
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HasSubstr("EndStreamPrimitive: "
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"expected Stream to be int scalar"));
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}
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TEST_F(ValidatePrimitives, EndStreamPrimitiveNonConstant) {
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const std::string body = R"(
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%val1 = OpIAdd %u32 %u32_0 %u32_1
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OpEndStreamPrimitive %val1
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)";
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CompileSuccessfully(GenerateShaderCode(body));
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EXPECT_EQ(SPV_ERROR_INVALID_DATA, ValidateInstructions());
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EXPECT_THAT(getDiagnosticString(),
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HasSubstr("EndStreamPrimitive: "
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"expected Stream to be constant instruction"));
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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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