blob: a98b1d5a0a02804de99d4c8f8621c0026a93ba13 [file] [log] [blame]
/*
* Copyright 2021 Google LLC
*
* Use of this source code is governed by a BSD-style license that can be
* found in the LICENSE file.
*/
#include "include/core/SkBitmap.h"
#include "include/core/SkCanvas.h"
#include "include/core/SkColor.h"
#include "include/core/SkData.h"
#include "include/core/SkImageInfo.h"
#include "include/core/SkPaint.h"
#include "include/core/SkRect.h"
#include "include/core/SkRefCnt.h"
#include "include/core/SkShader.h"
#include "include/core/SkSpan.h"
#include "include/core/SkString.h"
#include "include/core/SkSurface.h"
#include "include/core/SkTypes.h"
#include "include/effects/SkRuntimeEffect.h"
#include "include/gpu/GpuTypes.h"
#include "include/gpu/GrDirectContext.h"
#include "include/private/SkSLProgramElement.h"
#include "include/private/SkSLProgramKind.h"
#include "include/private/base/SkTArray.h"
#include "include/sksl/DSLCore.h"
#include "include/sksl/SkSLVersion.h"
#include "src/base/SkArenaAlloc.h"
#include "src/core/SkRasterPipeline.h"
#include "src/core/SkRasterPipelineOpContexts.h"
#include "src/core/SkRasterPipelineOpList.h"
#include "src/core/SkRuntimeEffectPriv.h"
#include "src/gpu/ganesh/GrCaps.h"
#include "src/gpu/ganesh/GrDirectContextPriv.h"
#include "src/gpu/ganesh/GrShaderCaps.h"
#include "src/sksl/SkSLCompiler.h"
#include "src/sksl/SkSLProgramSettings.h"
#include "src/sksl/SkSLUtil.h"
#include "src/sksl/codegen/SkSLRasterPipelineBuilder.h"
#include "src/sksl/codegen/SkSLRasterPipelineCodeGenerator.h"
#include "src/sksl/ir/SkSLFunctionDeclaration.h"
#include "src/sksl/ir/SkSLProgram.h"
#include "src/sksl/tracing/SkRPDebugTrace.h"
#include "tests/CtsEnforcement.h"
#include "tests/Test.h"
#include "tools/Resources.h"
#include <cstdint>
#include <memory>
#include <string>
#include <string_view>
#include <vector>
// This debugging toggle enables extra logging in `test_raster_pipeline`.
//#define DUMP_RP_PROGRAMS 1
struct GrContextOptions;
static constexpr int kWidth = 2;
static constexpr int kHeight = 2;
namespace SkSLTestFlags {
/** VM tests must pass on the SkVM backend. */
static constexpr int VM = 1 << 0;
/** RP tests must pass on SkRasterPipeline backend. */
static constexpr int RP = 1 << 1;
/** GPU tests must pass on all GPU backends. */
static constexpr int GPU = 1 << 2;
/** GPU_ES3 tests must pass on ES3-compatible GPUs when "enforce ES2 restrictions" is off. */
static constexpr int GPU_ES3 = 1 << 4;
/**
* UsesNaN tests rely on NaN values, so they are only expected to pass on GPUs that generate
* them (which is not a requirement, even with ES3).
*/
static constexpr int UsesNaN = 1 << 8;
}
static constexpr bool is_skvm(int flags) {
return flags & SkSLTestFlags::VM;
}
static constexpr bool is_gpu(int flags) {
return flags & (SkSLTestFlags::GPU | SkSLTestFlags::GPU_ES3);
}
static constexpr bool is_strict_es2(int flags) {
return !(flags & (SkSLTestFlags::GPU_ES3 | SkSLTestFlags::RP));
}
struct UniformData {
std::string_view name;
SkSpan<const float> span;
};
static constexpr float kUniformColorBlack[] = {0.0f, 0.0f, 0.0f, 1.0f};
static constexpr float kUniformColorRed [] = {1.0f, 0.0f, 0.0f, 1.0f};
static constexpr float kUniformColorGreen[] = {0.0f, 1.0f, 0.0f, 1.0f};
static constexpr float kUniformColorBlue [] = {0.0f, 0.0f, 1.0f, 1.0f};
static constexpr float kUniformColorWhite[] = {1.0f, 1.0f, 1.0f, 1.0f};
static constexpr float kUniformTestInputs[] = {-1.25f, 0.0f, 0.75f, 2.25f};
static constexpr float kUniformUnknownInput[] = {1.0f};
static constexpr float kUniformTestMatrix2x2[] = {1.0f, 2.0f,
3.0f, 4.0f};
static constexpr float kUniformTestMatrix3x3[] = {1.0f, 2.0f, 3.0f,
4.0f, 5.0f, 6.0f,
7.0f, 8.0f, 9.0f};
static constexpr float kUniformTestMatrix4x4[] = {1.0f, 2.0f, 3.0f, 4.0f,
5.0f, 6.0f, 7.0f, 8.0f,
9.0f, 10.0f, 11.0f, 12.0f,
13.0f, 14.0f, 15.0f, 16.0f};
static constexpr float kUniformTestArray[] = {1, 2, 3, 4, 5};
static constexpr float kUniformTestArrayNegative[] = {-1, -2, -3, -4, -5};
static constexpr UniformData kUniformData[] = {
{"colorBlack", kUniformColorBlack},
{"colorRed", kUniformColorRed},
{"colorGreen", kUniformColorGreen},
{"colorBlue", kUniformColorBlue},
{"colorWhite", kUniformColorWhite},
{"testInputs", kUniformTestInputs},
{"unknownInput", kUniformUnknownInput},
{"testMatrix2x2", kUniformTestMatrix2x2},
{"testMatrix3x3", kUniformTestMatrix3x3},
{"testMatrix4x4", kUniformTestMatrix4x4},
{"testArray", kUniformTestArray},
{"testArrayNegative", kUniformTestArrayNegative},
};
static SkBitmap bitmap_from_shader(skiatest::Reporter* r,
SkSurface* surface,
sk_sp<SkRuntimeEffect> effect) {
SkRuntimeShaderBuilder builder(effect);
for (const UniformData& data : kUniformData) {
SkRuntimeShaderBuilder::BuilderUniform uniform = builder.uniform(data.name);
if (uniform.fVar) {
uniform.set(data.span.data(), data.span.size());
}
}
sk_sp<SkShader> shader = builder.makeShader();
if (!shader) {
return SkBitmap{};
}
surface->getCanvas()->clear(SK_ColorBLACK);
SkPaint paintShader;
paintShader.setShader(shader);
surface->getCanvas()->drawRect(SkRect::MakeWH(kWidth, kHeight), paintShader);
SkBitmap bitmap;
REPORTER_ASSERT(r, bitmap.tryAllocPixels(surface->imageInfo()));
REPORTER_ASSERT(r, surface->readPixels(bitmap, /*srcX=*/0, /*srcY=*/0));
return bitmap;
}
static bool gpu_generates_nan(skiatest::Reporter* r, GrDirectContext* ctx) {
#if defined(SK_BUILD_FOR_MAC) || defined(SK_BUILD_FOR_IOS)
// The Metal shader compiler (which is also used under-the-hood for some GL/GLES contexts on
// these platforms) enables fast-math by default. That prevents NaN-based tests from passing:
// https://developer.apple.com/documentation/metal/mtlcompileoptions/1515914-fastmathenabled
return false;
#else
// If we don't have infinity support, we definitely won't generate NaNs
if (!ctx->priv().caps()->shaderCaps()->fInfinitySupport) {
return false;
}
auto effect = SkRuntimeEffect::MakeForShader(SkString(R"(
#version 300
uniform half4 colorGreen, colorRed;
half4 main(float2 xy) {
return isnan(colorGreen.r / colorGreen.b) ? colorGreen : colorRed;
}
)")).effect;
REPORTER_ASSERT(r, effect);
const SkImageInfo info = SkImageInfo::MakeN32Premul(kWidth, kHeight);
sk_sp<SkSurface> surface(SkSurface::MakeRenderTarget(ctx, skgpu::Budgeted::kNo, info));
SkBitmap bitmap = bitmap_from_shader(r, surface.get(), effect);
REPORTER_ASSERT(r, !bitmap.empty());
SkColor color = bitmap.getColor(0, 0);
REPORTER_ASSERT(r, color == SK_ColorGREEN || color == SK_ColorRED);
return color == SK_ColorGREEN;
#endif
}
static SkString load_source(skiatest::Reporter* r,
const char* testFile,
const char* permutationSuffix) {
SkString resourcePath = SkStringPrintf("sksl/%s", testFile);
sk_sp<SkData> shaderData = GetResourceAsData(resourcePath.c_str());
if (!shaderData) {
ERRORF(r, "%s%s: Unable to load file", testFile, permutationSuffix);
return SkString("");
}
return SkString{reinterpret_cast<const char*>(shaderData->bytes()), shaderData->size()};
}
static void test_one_permutation(skiatest::Reporter* r,
SkSurface* surface,
const char* testFile,
const char* permutationSuffix,
const SkRuntimeEffect::Options& options) {
SkString shaderString = load_source(r, testFile, permutationSuffix);
if (shaderString.isEmpty()) {
return;
}
SkRuntimeEffect::Result result = SkRuntimeEffect::MakeForShader(shaderString, options);
if (!result.effect) {
ERRORF(r, "%s%s: %s", testFile, permutationSuffix, result.errorText.c_str());
return;
}
SkBitmap bitmap = bitmap_from_shader(r, surface, result.effect);
if (bitmap.empty()) {
ERRORF(r, "%s%s: Unable to build shader", testFile, permutationSuffix);
return;
}
bool success = true;
SkColor color[kHeight][kWidth];
for (int y = 0; y < kHeight; ++y) {
for (int x = 0; x < kWidth; ++x) {
color[y][x] = bitmap.getColor(x, y);
if (color[y][x] != SK_ColorGREEN) {
success = false;
}
}
}
if (!success) {
static_assert(kWidth == 2);
static_assert(kHeight == 2);
ERRORF(r, "Expected%s: solid green. Actual:\n"
"RRGGBBAA RRGGBBAA\n"
"%02X%02X%02X%02X %02X%02X%02X%02X\n"
"%02X%02X%02X%02X %02X%02X%02X%02X",
permutationSuffix,
SkColorGetR(color[0][0]), SkColorGetG(color[0][0]),
SkColorGetB(color[0][0]), SkColorGetA(color[0][0]),
SkColorGetR(color[0][1]), SkColorGetG(color[0][1]),
SkColorGetB(color[0][1]), SkColorGetA(color[0][1]),
SkColorGetR(color[1][0]), SkColorGetG(color[1][0]),
SkColorGetB(color[1][0]), SkColorGetA(color[1][0]),
SkColorGetR(color[1][1]), SkColorGetG(color[1][1]),
SkColorGetB(color[1][1]), SkColorGetA(color[1][1]));
}
}
static void test_permutations(skiatest::Reporter* r,
SkSurface* surface,
const char* testFile,
bool strictES2) {
SkRuntimeEffect::Options options =
strictES2 ? SkRuntimeEffect::Options{} : SkRuntimeEffectPriv::ES3Options();
options.forceUnoptimized = false;
test_one_permutation(r, surface, testFile, "", options);
options.forceUnoptimized = true;
test_one_permutation(r, surface, testFile, " (Unoptimized)", options);
}
static void test_skvm(skiatest::Reporter* r, const char* testFile, int flags) {
SkASSERT(flags & SkSLTestFlags::VM);
// Create a raster-backed surface.
const SkImageInfo info = SkImageInfo::MakeN32Premul(kWidth, kHeight);
sk_sp<SkSurface> surface(SkSurface::MakeRaster(info));
test_permutations(r, surface.get(), testFile, /*strictES2=*/true);
}
static void test_gpu(skiatest::Reporter* r, GrDirectContext* ctx, const char* testFile, int flags) {
// If this is an ES3-only test on a GPU which doesn't support SkSL ES3, return immediately.
bool shouldRunGPU = (flags & SkSLTestFlags::GPU);
bool shouldRunGPU_ES3 =
(flags & SkSLTestFlags::GPU_ES3) &&
(ctx->priv().caps()->shaderCaps()->supportedSkSLVerion() >= SkSL::Version::k300);
if (!shouldRunGPU && !shouldRunGPU_ES3) {
return;
}
// If this is a test that requires the GPU to generate NaN values, check for that first.
if (flags & SkSLTestFlags::UsesNaN) {
if (!gpu_generates_nan(r, ctx)) {
return;
}
}
// Create a GPU-backed surface.
const SkImageInfo info = SkImageInfo::MakeN32Premul(kWidth, kHeight);
sk_sp<SkSurface> surface(SkSurface::MakeRenderTarget(ctx, skgpu::Budgeted::kNo, info));
if (shouldRunGPU) {
test_permutations(r, surface.get(), testFile, /*strictES2=*/true);
}
if (shouldRunGPU_ES3) {
test_permutations(r, surface.get(), testFile, /*strictES2=*/false);
}
}
static void test_clone(skiatest::Reporter* r, const char* testFile, int flags) {
SkString shaderString = load_source(r, testFile, "");
if (shaderString.isEmpty()) {
return;
}
SkSL::ProgramSettings settings;
settings.fAllowVarDeclarationCloneForTesting = true;
// TODO(skia:11209): Can we just put the correct #version in the source files that need this?
settings.fMaxVersionAllowed = is_strict_es2(flags) ? SkSL::Version::k100 : SkSL::Version::k300;
SkSL::Compiler compiler(SkSL::ShaderCapsFactory::Standalone());
std::unique_ptr<SkSL::Program> program = compiler.convertProgram(
SkSL::ProgramKind::kRuntimeShader, shaderString.c_str(), settings);
if (!program) {
ERRORF(r, "%s", compiler.errorText().c_str());
return;
}
// Starting DSL allows us to get access to the ThreadContext::Settings
SkSL::dsl::Start(&compiler, SkSL::ProgramKind::kFragment, settings);
for (const std::unique_ptr<SkSL::ProgramElement>& element : program->fOwnedElements) {
std::string original = element->description();
std::string cloned = element->clone()->description();
REPORTER_ASSERT(r, original == cloned,
"Mismatch after clone!\nOriginal: %s\nCloned: %s\n", original.c_str(),
cloned.c_str());
}
SkSL::dsl::End();
}
#if defined(DUMP_RP_PROGRAMS)
#include "src/core/SkStreamPriv.h"
#endif
static void report_rp_pass(skiatest::Reporter* r, const char* testFile, int flags) {
if (!(flags & SkSLTestFlags::RP)) {
ERRORF(r, "NEW: %s", testFile);
}
}
static void report_rp_fail(skiatest::Reporter* r,
const char* testFile,
int flags,
const char* reason) {
if (flags & SkSLTestFlags::RP) {
ERRORF(r, "%s: %s", testFile, reason);
}
}
static void test_raster_pipeline(skiatest::Reporter* r, const char* testFile, int flags) {
SkString shaderString = load_source(r, testFile, "");
if (shaderString.isEmpty()) {
return;
}
// In Raster Pipeline, we can compile and run test shaders directly, without involving a surface
// at all.
SkSL::Compiler compiler(SkSL::ShaderCapsFactory::Default());
SkSL::ProgramSettings settings;
settings.fMaxVersionAllowed = SkSL::Version::k300;
std::unique_ptr<SkSL::Program> program = compiler.convertProgram(
SkSL::ProgramKind::kRuntimeShader, shaderString.c_str(), settings);
if (!program) {
ERRORF(r, "%s: Unexpected compilation error\n%s", testFile, compiler.errorText().c_str());
return;
}
const SkSL::FunctionDeclaration* main = program->getFunction("main");
if (!main) {
ERRORF(r, "%s: Program must have a 'main' function", testFile);
return;
}
// Match up uniforms from the program against our list of test uniforms, and build up a data
// buffer of uniform floats. TODO: this approach doesn't work for complex types (arrays and
// structs), but the RP backend doesn't support those yet regardless.
std::unique_ptr<SkSL::UniformInfo> uniformInfo = program->getUniformInfo();
SkTArray<float> uniformValues;
for (const SkSL::UniformInfo::Uniform& programUniform : uniformInfo->fUniforms) {
bool foundMatch = false;
for (const UniformData& data : kUniformData) {
if (data.name == programUniform.fName) {
SkASSERT((int)data.span.size() == programUniform.fColumns * programUniform.fRows);
foundMatch = true;
uniformValues.push_back_n(data.span.size(), data.span.data());
break;
}
}
if (!foundMatch) {
report_rp_fail(r, testFile, flags, "unsupported uniform");
return;
}
}
// Compile our program.
SkArenaAlloc alloc(/*firstHeapAllocation=*/1000);
SkRasterPipeline pipeline(&alloc);
SkSL::SkRPDebugTrace debugTrace;
std::unique_ptr<SkSL::RP::Program> rasterProg =
SkSL::MakeRasterPipelineProgram(*program,
*main->definition(),
&debugTrace);
if (!rasterProg) {
report_rp_fail(r, testFile, flags, "code is not supported");
return;
}
#if defined(DUMP_RP_PROGRAMS)
// Dump the program instructions via SkDebugf.
SkDebugf("----- %s -----\n\n", testFile);
SkDebugfStream stream;
rasterProg->dump(&stream);
SkDebugf("\n-----\n\n");
#endif
// Append the SkSL program to the raster pipeline.
pipeline.append_constant_color(&alloc, SkColors::kTransparent);
rasterProg->appendStages(&pipeline, &alloc, /*callbacks=*/nullptr, SkSpan(uniformValues));
// Move the float values from RGBA into an 8888 memory buffer.
uint32_t out[SkRasterPipeline_kMaxStride_highp] = {};
SkRasterPipeline_MemoryCtx outCtx{/*pixels=*/out, /*stride=*/SkRasterPipeline_kMaxStride_highp};
pipeline.append(SkRasterPipelineOp::store_8888, &outCtx);
pipeline.run(0, 0, 1, 1);
// Make sure the first pixel (exclusively) of `out` is green. If the program compiled
// successfully, we expect it to run without error, and will assert if it doesn't.
uint32_t expected = 0xFF00FF00;
if (out[0] != expected) {
ERRORF(r, "%s: Raster Pipeline failed. Expected solid green, got ARGB:%02X%02X%02X%02X",
testFile,
(out[0] >> 24) & 0xFF,
(out[0] >> 16) & 0xFF,
(out[0] >> 8) & 0xFF,
out[0] & 0xFF);
return;
}
// Success!
report_rp_pass(r, testFile, flags);
}
#undef DUMP_RP_PROGRAMS
#undef REPORT_RP_PASS_FAIL
#define SKSL_TEST(flags, ctsEnforcement, name, path) \
DEF_CONDITIONAL_TEST(SkSL##name##_CPU, r, is_skvm(flags)) { test_skvm(r, path, flags); } \
DEF_CONDITIONAL_GANESH_TEST_FOR_RENDERING_CONTEXTS( \
SkSL##name##_GPU, r, ctxInfo, is_gpu(flags), ctsEnforcement) { \
test_gpu(r, ctxInfo.directContext(), path, flags); \
} \
DEF_TEST(SkSL##name##_Clone, r) { test_clone(r, path, flags); } \
DEF_TEST(SkSL##name##_RP, r) { test_raster_pipeline(r, path, flags); }
/**
* Test flags:
* - CPU: this test should pass on the CPU backend
* - GPU: this test should pass on the Ganesh GPU backends
* - GPU_ES3: this test should pass on an ES3-compatible GPU when "enforce ES2 restrictions" is off
*
* CtsEnforcement:
* Android CTS (go/wtf/cts) enforces that devices must pass this test at the given API level.
* CTS and Android SkQP builds should only run tests on devices greater than the provided API
* level, but other test binaries (dm/fm) should run every test, regardless of this value.
*/
// clang-format off
using namespace SkSLTestFlags;
constexpr auto kApiLevel_T = CtsEnforcement::kApiLevel_T;
constexpr auto kApiLevel_U = CtsEnforcement::kApiLevel_U;
constexpr auto kNever = CtsEnforcement::kNever;
[[maybe_unused]] constexpr auto kNextRelease = CtsEnforcement::kNextRelease;
SKSL_TEST(RP + GPU_ES3, kApiLevel_T, ArrayFolding, "folding/ArrayFolding.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, ArraySizeFolding, "folding/ArraySizeFolding.rts")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, AssignmentOps, "folding/AssignmentOps.rts")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, BoolFolding, "folding/BoolFolding.rts")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, CastFolding, "folding/CastFolding.rts")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, IntFoldingES2, "folding/IntFoldingES2.rts")
SKSL_TEST(RP + GPU_ES3, kNever, IntFoldingES3, "folding/IntFoldingES3.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, FloatFolding, "folding/FloatFolding.rts")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, MatrixFoldingES2, "folding/MatrixFoldingES2.rts")
SKSL_TEST(RP + GPU_ES3, kNever, MatrixFoldingES3, "folding/MatrixFoldingES3.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, MatrixNoOpFolding, "folding/MatrixNoOpFolding.rts")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, MatrixScalarNoOpFolding, "folding/MatrixScalarNoOpFolding.rts")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, MatrixVectorNoOpFolding, "folding/MatrixVectorNoOpFolding.rts")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, Negation, "folding/Negation.rts")
// TODO(skia:13035): This test fails on Nvidia GPUs on OpenGL but passes Vulkan. Re-enable the test
// on Vulkan when granular GPU backend selection is supported.
SKSL_TEST(RP + VM, kApiLevel_T, PreserveSideEffects, "folding/PreserveSideEffects.rts")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, SelfAssignment, "folding/SelfAssignment.rts")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, ShortCircuitBoolFolding, "folding/ShortCircuitBoolFolding.rts")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, StructFieldFolding, "folding/StructFieldFolding.rts")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, StructFieldNoFolding, "folding/StructFieldNoFolding.rts")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, SwitchCaseFolding, "folding/SwitchCaseFolding.rts")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, SwizzleFolding, "folding/SwizzleFolding.rts")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, TernaryFolding, "folding/TernaryFolding.rts")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, VectorScalarFolding, "folding/VectorScalarFolding.rts")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, VectorVectorFolding, "folding/VectorVectorFolding.rts")
SKSL_TEST(RP + GPU_ES3, kNever, DoWhileBodyMustBeInlinedIntoAScope, "inliner/DoWhileBodyMustBeInlinedIntoAScope.sksl")
SKSL_TEST(RP + GPU_ES3, kNever, DoWhileTestCannotBeInlined, "inliner/DoWhileTestCannotBeInlined.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, ForBodyMustBeInlinedIntoAScope, "inliner/ForBodyMustBeInlinedIntoAScope.sksl")
SKSL_TEST(RP + GPU_ES3, kNever, ForInitializerExpressionsCanBeInlined, "inliner/ForInitializerExpressionsCanBeInlined.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, ForWithoutReturnInsideCanBeInlined, "inliner/ForWithoutReturnInsideCanBeInlined.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, ForWithReturnInsideCannotBeInlined, "inliner/ForWithReturnInsideCannotBeInlined.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, IfBodyMustBeInlinedIntoAScope, "inliner/IfBodyMustBeInlinedIntoAScope.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, IfElseBodyMustBeInlinedIntoAScope, "inliner/IfElseBodyMustBeInlinedIntoAScope.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, IfElseChainWithReturnsCanBeInlined, "inliner/IfElseChainWithReturnsCanBeInlined.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, IfTestCanBeInlined, "inliner/IfTestCanBeInlined.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, IfWithReturnsCanBeInlined, "inliner/IfWithReturnsCanBeInlined.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, InlineKeywordOverridesThreshold, "inliner/InlineKeywordOverridesThreshold.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, InlinerAvoidsVariableNameOverlap, "inliner/InlinerAvoidsVariableNameOverlap.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, InlinerElidesTempVarForReturnsInsideBlock, "inliner/InlinerElidesTempVarForReturnsInsideBlock.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, InlinerUsesTempVarForMultipleReturns, "inliner/InlinerUsesTempVarForMultipleReturns.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, InlinerUsesTempVarForReturnsInsideBlockWithVar, "inliner/InlinerUsesTempVarForReturnsInsideBlockWithVar.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, InlineThreshold, "inliner/InlineThreshold.sksl")
SKSL_TEST(RP + GPU_ES3, kApiLevel_T, InlineUnscopedVariable, "inliner/InlineUnscopedVariable.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, InlineWithModifiedArgument, "inliner/InlineWithModifiedArgument.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, InlineWithNestedBigCalls, "inliner/InlineWithNestedBigCalls.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, InlineWithUnmodifiedArgument, "inliner/InlineWithUnmodifiedArgument.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, InlineWithUnnecessaryBlocks, "inliner/InlineWithUnnecessaryBlocks.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, NoInline, "inliner/NoInline.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, ShortCircuitEvaluationsCannotInlineRightHandSide, "inliner/ShortCircuitEvaluationsCannotInlineRightHandSide.sksl")
SKSL_TEST(RP + GPU_ES3, kNever, StaticSwitchInline, "inliner/StaticSwitch.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, StructsCanBeInlinedSafely, "inliner/StructsCanBeInlinedSafely.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, SwizzleCanBeInlinedDirectly, "inliner/SwizzleCanBeInlinedDirectly.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, TernaryResultsCannotBeInlined, "inliner/TernaryResultsCannotBeInlined.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, TernaryTestCanBeInlined, "inliner/TernaryTestCanBeInlined.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, TrivialArgumentsInlineDirectly, "inliner/TrivialArgumentsInlineDirectly.sksl")
SKSL_TEST(RP + GPU_ES3, kNever, TrivialArgumentsInlineDirectlyES3, "inliner/TrivialArgumentsInlineDirectlyES3.sksl")
SKSL_TEST(RP + GPU_ES3, kNever, WhileBodyMustBeInlinedIntoAScope, "inliner/WhileBodyMustBeInlinedIntoAScope.sksl")
SKSL_TEST(RP + GPU_ES3, kNever, WhileTestCannotBeInlined, "inliner/WhileTestCannotBeInlined.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, IntrinsicAbsFloat, "intrinsics/AbsFloat.sksl")
SKSL_TEST(RP + GPU_ES3, kNever, IntrinsicAbsInt, "intrinsics/AbsInt.sksl")
SKSL_TEST(RP + VM + GPU, kNever, IntrinsicAny, "intrinsics/Any.sksl")
SKSL_TEST(RP + VM + GPU, kNever, IntrinsicAll, "intrinsics/All.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, IntrinsicCeil, "intrinsics/Ceil.sksl")
SKSL_TEST(RP + GPU_ES3, kNever, IntrinsicClampInt, "intrinsics/ClampInt.sksl")
SKSL_TEST(RP + GPU_ES3, kNever, IntrinsicClampUInt, "intrinsics/ClampUInt.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, IntrinsicClampFloat, "intrinsics/ClampFloat.sksl")
SKSL_TEST(RP + VM + GPU, kNever, IntrinsicCross, "intrinsics/Cross.sksl")
SKSL_TEST(RP + VM + GPU, kNever, IntrinsicDegrees, "intrinsics/Degrees.sksl")
SKSL_TEST(GPU_ES3, kNever, IntrinsicDeterminant, "intrinsics/Determinant.sksl")
SKSL_TEST(GPU_ES3, kNever, IntrinsicDFdx, "intrinsics/DFdx.sksl")
SKSL_TEST(GPU_ES3, kNever, IntrinsicDFdy, "intrinsics/DFdy.sksl")
SKSL_TEST(RP + VM + GPU, kNever, IntrinsicDot, "intrinsics/Dot.sksl")
SKSL_TEST(RP + VM + GPU, kNever, IntrinsicFract, "intrinsics/Fract.sksl")
SKSL_TEST(RP + GPU_ES3, kNever, IntrinsicFloatBitsToInt, "intrinsics/FloatBitsToInt.sksl")
SKSL_TEST(RP + GPU_ES3, kNever, IntrinsicFloatBitsToUint, "intrinsics/FloatBitsToUint.sksl")
SKSL_TEST(RP + VM + GPU, kNever, IntrinsicFloor, "intrinsics/Floor.sksl")
SKSL_TEST(GPU_ES3, kNever, IntrinsicFwidth, "intrinsics/Fwidth.sksl")
SKSL_TEST(RP + GPU_ES3, kNever, IntrinsicIntBitsToFloat, "intrinsics/IntBitsToFloat.sksl")
SKSL_TEST(GPU_ES3, kNever, IntrinsicIsInf, "intrinsics/IsInf.sksl")
SKSL_TEST(RP + VM + GPU, kNever, IntrinsicLength, "intrinsics/Length.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, IntrinsicMatrixCompMultES2, "intrinsics/MatrixCompMultES2.sksl")
SKSL_TEST(RP + GPU_ES3, kNever, IntrinsicMatrixCompMultES3, "intrinsics/MatrixCompMultES3.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, IntrinsicMaxFloat, "intrinsics/MaxFloat.sksl")
SKSL_TEST(RP + GPU_ES3, kNever, IntrinsicMaxInt, "intrinsics/MaxInt.sksl")
SKSL_TEST(RP + GPU_ES3, kNever, IntrinsicMaxUint, "intrinsics/MaxUint.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, IntrinsicMinFloat, "intrinsics/MinFloat.sksl")
SKSL_TEST(RP + GPU_ES3, kNever, IntrinsicMinInt, "intrinsics/MinInt.sksl")
SKSL_TEST(RP + GPU_ES3, kNever, IntrinsicMinUint, "intrinsics/MinUint.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, IntrinsicMixFloatES2, "intrinsics/MixFloatES2.sksl")
SKSL_TEST(RP + GPU_ES3, kNever, IntrinsicMixFloatES3, "intrinsics/MixFloatES3.sksl")
SKSL_TEST(GPU_ES3, kNever, IntrinsicModf, "intrinsics/Modf.sksl")
SKSL_TEST(RP + VM + GPU, kNever, IntrinsicNot, "intrinsics/Not.sksl")
SKSL_TEST(GPU_ES3, kNever, IntrinsicOuterProduct, "intrinsics/OuterProduct.sksl")
// Fails on Mac OpenGL + Radeon 5300M (skia:12434)
// SKSL_TEST(GPU_ES3, kNever, IntrinsicPackUnorm2x16, "intrinsics/PackUnorm2x16.sksl")
SKSL_TEST(RP + VM + GPU, kNever, IntrinsicRadians, "intrinsics/Radians.sksl")
SKSL_TEST(GPU_ES3, kNever, IntrinsicRound, "intrinsics/Round.sksl")
SKSL_TEST(GPU_ES3, kNever, IntrinsicRoundEven, "intrinsics/RoundEven.sksl")
SKSL_TEST(RP + VM + GPU, kNever, IntrinsicSaturate, "intrinsics/Saturate.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, IntrinsicSignFloat, "intrinsics/SignFloat.sksl")
SKSL_TEST(RP + GPU_ES3, kNever, IntrinsicSignInt, "intrinsics/SignInt.sksl")
SKSL_TEST(RP + VM + GPU, kNever, IntrinsicSqrt, "intrinsics/Sqrt.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, IntrinsicStep, "intrinsics/Step.sksl")
SKSL_TEST(RP + GPU_ES3, kNever, IntrinsicTrunc, "intrinsics/Trunc.sksl")
SKSL_TEST(RP + GPU_ES3, kNever, IntrinsicTranspose, "intrinsics/Transpose.sksl")
SKSL_TEST(RP + GPU_ES3, kNever, IntrinsicUintBitsToFloat, "intrinsics/UintBitsToFloat.sksl")
SKSL_TEST(RP + GPU_ES3, kNever, ArrayNarrowingConversions, "runtime/ArrayNarrowingConversions.rts")
SKSL_TEST(RP + GPU_ES3, kNever, Commutative, "runtime/Commutative.rts")
SKSL_TEST(RP, kNever, DivideByZero, "runtime/DivideByZero.rts")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, LoopFloat, "runtime/LoopFloat.rts")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, LoopInt, "runtime/LoopInt.rts")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, Ossfuzz52603, "runtime/Ossfuzz52603.rts")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, QualifierOrder, "runtime/QualifierOrder.rts")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, PrecisionQualifiers, "runtime/PrecisionQualifiers.rts")
SKSL_TEST(RP + GPU_ES3 + UsesNaN, kNever, RecursiveComparison_Arrays, "runtime/RecursiveComparison_Arrays.rts")
SKSL_TEST(RP + GPU_ES3 + UsesNaN, kNever, RecursiveComparison_Structs, "runtime/RecursiveComparison_Structs.rts")
SKSL_TEST(RP + GPU_ES3 + UsesNaN, kNever, RecursiveComparison_Types, "runtime/RecursiveComparison_Types.rts")
SKSL_TEST(RP + GPU_ES3 + UsesNaN, kNever, RecursiveComparison_Vectors, "runtime/RecursiveComparison_Vectors.rts")
SKSL_TEST(RP + GPU_ES3, kNever, ArrayCast, "shared/ArrayCast.sksl")
SKSL_TEST(GPU_ES3, kNever, ArrayComparison, "shared/ArrayComparison.sksl")
SKSL_TEST(RP + GPU_ES3, kNever, ArrayConstructors, "shared/ArrayConstructors.sksl")
SKSL_TEST(RP + VM + GPU_ES3, kNever, ArrayFollowedByScalar, "shared/ArrayFollowedByScalar.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, ArrayTypes, "shared/ArrayTypes.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, Assignment, "shared/Assignment.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, CastsRoundTowardZero, "shared/CastsRoundTowardZero.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, CommaMixedTypes, "shared/CommaMixedTypes.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, CommaSideEffects, "shared/CommaSideEffects.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, CompileTimeConstantVariables, "shared/CompileTimeConstantVariables.sksl")
SKSL_TEST(GPU_ES3, kNever, ConstantCompositeAccessViaConstantIndex, "shared/ConstantCompositeAccessViaConstantIndex.sksl")
SKSL_TEST(RP + GPU_ES3, kNever, ConstantCompositeAccessViaDynamicIndex, "shared/ConstantCompositeAccessViaDynamicIndex.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, ConstantIf, "shared/ConstantIf.sksl")
SKSL_TEST(RP + GPU_ES3, kNever, ConstArray, "shared/ConstArray.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, ConstVariableComparison, "shared/ConstVariableComparison.sksl")
SKSL_TEST(RP + VM + GPU, kNever, DeadGlobals, "shared/DeadGlobals.sksl")
SKSL_TEST(RP + GPU_ES3, kNever, DeadLoopVariable, "shared/DeadLoopVariable.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, DeadIfStatement, "shared/DeadIfStatement.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, DeadReturn, "shared/DeadReturn.sksl")
// TODO(skia:12012): some Radeons crash when compiling this code; disable them.
SKSL_TEST(RP /* +GPU_ES3 */, kNever, SkSLDeadReturnES3, "shared/DeadReturnES3.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, DeadStripFunctions, "shared/DeadStripFunctions.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, DependentInitializers, "shared/DependentInitializers.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, DoubleNegation, "shared/DoubleNegation.sksl")
SKSL_TEST(RP + GPU_ES3, kNever, DoWhileControlFlow, "shared/DoWhileControlFlow.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, EmptyBlocksES2, "shared/EmptyBlocksES2.sksl")
SKSL_TEST(RP + GPU_ES3, kNever, EmptyBlocksES3, "shared/EmptyBlocksES3.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, ForLoopControlFlow, "shared/ForLoopControlFlow.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, FunctionAnonymousParameters, "shared/FunctionAnonymousParameters.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, FunctionArgTypeMatch, "shared/FunctionArgTypeMatch.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, FunctionReturnTypeMatch, "shared/FunctionReturnTypeMatch.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, Functions, "shared/Functions.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, FunctionPrototype, "shared/FunctionPrototype.sksl")
SKSL_TEST(VM + GPU, kApiLevel_T, GeometricIntrinsics, "shared/GeometricIntrinsics.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, HelloWorld, "shared/HelloWorld.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, Hex, "shared/Hex.sksl")
SKSL_TEST(RP + GPU_ES3, kNever, HexUnsigned, "shared/HexUnsigned.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, InoutParameters, "shared/InoutParameters.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, InoutParamsAreDistinct, "shared/InoutParamsAreDistinct.sksl")
SKSL_TEST(RP + GPU_ES3, kApiLevel_T, IntegerDivisionES3, "shared/IntegerDivisionES3.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_U, LogicalAndShortCircuit, "shared/LogicalAndShortCircuit.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_U, LogicalOrShortCircuit, "shared/LogicalOrShortCircuit.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, Matrices, "shared/Matrices.sksl")
SKSL_TEST(RP + GPU_ES3, kNever, MatricesNonsquare, "shared/MatricesNonsquare.sksl")
// TODO(skia:12443) The MatrixConstructors tests actually don't work on MANY devices. The GLSL SkQP
// suite does a terrible job of enforcing this rule. We still test the ES2 variant on CPU.
SKSL_TEST(RP + VM, kNever, MatrixConstructorsES2, "shared/MatrixConstructorsES2.sksl")
SKSL_TEST(RP, kNever, MatrixConstructorsES3, "shared/MatrixConstructorsES3.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, MatrixEquality, "shared/MatrixEquality.sksl")
SKSL_TEST(RP + VM + GPU, kNextRelease,MatrixIndexLookup, "shared/MatrixIndexLookup.sksl")
SKSL_TEST(RP + VM + GPU, kNextRelease,MatrixIndexStore, "shared/MatrixIndexStore.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_U, MatrixOpEqualsES2, "shared/MatrixOpEqualsES2.sksl")
SKSL_TEST(RP + GPU_ES3, kApiLevel_U, MatrixOpEqualsES3, "shared/MatrixOpEqualsES3.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, MatrixScalarMath, "shared/MatrixScalarMath.sksl")
SKSL_TEST(VM + GPU, kNextRelease,MatrixSwizzleStore, "shared/MatrixSwizzleStore.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, MatrixToVectorCast, "shared/MatrixToVectorCast.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, MultipleAssignments, "shared/MultipleAssignments.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, NumberCasts, "shared/NumberCasts.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, OperatorsES2, "shared/OperatorsES2.sksl")
SKSL_TEST(GPU_ES3, kNever, OperatorsES3, "shared/OperatorsES3.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, Ossfuzz36852, "shared/Ossfuzz36852.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, OutParams, "shared/OutParams.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, OutParamsAreDistinct, "shared/OutParamsAreDistinct.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, OutParamsAreDistinctFromGlobal, "shared/OutParamsAreDistinctFromGlobal.sksl")
SKSL_TEST(RP, kNever, OutParamsFunctionCallInArgument, "shared/OutParamsFunctionCallInArgument.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, OutParamsTricky, "shared/OutParamsTricky.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, ResizeMatrix, "shared/ResizeMatrix.sksl")
SKSL_TEST(RP + GPU_ES3, kNever, ResizeMatrixNonsquare, "shared/ResizeMatrixNonsquare.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, ReturnsValueOnEveryPathES2, "shared/ReturnsValueOnEveryPathES2.sksl")
SKSL_TEST(RP + GPU_ES3, kNever, ReturnsValueOnEveryPathES3, "shared/ReturnsValueOnEveryPathES3.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, ScalarConversionConstructorsES2, "shared/ScalarConversionConstructorsES2.sksl")
SKSL_TEST(RP + GPU_ES3, kNever, ScalarConversionConstructorsES3, "shared/ScalarConversionConstructorsES3.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, ScopedSymbol, "shared/ScopedSymbol.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, StackingVectorCasts, "shared/StackingVectorCasts.sksl")
SKSL_TEST(RP + VM + GPU_ES3, kNever, StaticSwitch, "shared/StaticSwitch.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, StructArrayFollowedByScalar, "shared/StructArrayFollowedByScalar.sksl")
SKSL_TEST(RP + VM + GPU, kNextRelease,StructIndexLookup, "shared/StructIndexLookup.sksl")
SKSL_TEST(RP + VM + GPU, kNextRelease,StructIndexStore, "shared/StructIndexStore.sksl")
// TODO(skia:13920): StructComparison currently exposes a bug in SPIR-V codegen.
// SKSL_TEST(RP /* +GPU_ES3 */, kNever, StructComparison, "shared/StructComparison.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, StructsInFunctions, "shared/StructsInFunctions.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, Switch, "shared/Switch.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, SwitchDefaultOnly, "shared/SwitchDefaultOnly.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, SwitchWithFallthrough, "shared/SwitchWithFallthrough.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, SwitchWithLoops, "shared/SwitchWithLoops.sksl")
SKSL_TEST(RP + GPU_ES3, kNever, SwitchWithLoopsES3, "shared/SwitchWithLoopsES3.sksl")
SKSL_TEST(RP + VM + GPU, kNever, SwizzleAsLValue, "shared/SwizzleAsLValue.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, SwizzleBoolConstants, "shared/SwizzleBoolConstants.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, SwizzleByConstantIndex, "shared/SwizzleByConstantIndex.sksl")
SKSL_TEST(RP + GPU_ES3, kNever, SwizzleByIndex, "shared/SwizzleByIndex.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, SwizzleConstants, "shared/SwizzleConstants.sksl")
SKSL_TEST(RP + VM + GPU, kNextRelease,SwizzleIndexLookup, "shared/SwizzleIndexLookup.sksl")
SKSL_TEST(RP + VM + GPU, kNextRelease,SwizzleIndexStore, "shared/SwizzleIndexStore.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, SwizzleLTRB, "shared/SwizzleLTRB.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, SwizzleOpt, "shared/SwizzleOpt.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, SwizzleScalar, "shared/SwizzleScalar.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, SwizzleScalarBool, "shared/SwizzleScalarBool.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, SwizzleScalarInt, "shared/SwizzleScalarInt.sksl")
SKSL_TEST(RP + VM + GPU, kNextRelease,TemporaryIndexLookup, "shared/TemporaryIndexLookup.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, TernaryAsLValueEntirelyFoldable, "shared/TernaryAsLValueEntirelyFoldable.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, TernaryAsLValueFoldableTest, "shared/TernaryAsLValueFoldableTest.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, TernaryExpression, "shared/TernaryExpression.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_U, TernarySideEffects, "shared/TernarySideEffects.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, UnaryPositiveNegative, "shared/UnaryPositiveNegative.sksl")
SKSL_TEST(VM + GPU, kApiLevel_T, UniformArray, "shared/UniformArray.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, UniformMatrixResize, "shared/UniformMatrixResize.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, UnusedVariables, "shared/UnusedVariables.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, VectorConstructors, "shared/VectorConstructors.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, VectorToMatrixCast, "shared/VectorToMatrixCast.sksl")
SKSL_TEST(RP + VM + GPU, kApiLevel_T, VectorScalarMath, "shared/VectorScalarMath.sksl")
SKSL_TEST(RP + GPU_ES3, kNever, WhileLoopControlFlow, "shared/WhileLoopControlFlow.sksl")