243 lines
8.7 KiB
C++
243 lines
8.7 KiB
C++
//===- SerializeToLLVMBitcode.cpp -------------------------------*- C++ -*-===//
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//
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// This file is licensed under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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#include "mlir/Dialect/GPU/IR/GPUDialect.h"
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#include "mlir/IR/BuiltinDialect.h"
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#include "mlir/IR/BuiltinOps.h"
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#include "mlir/IR/MLIRContext.h"
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#include "mlir/Parser/Parser.h"
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#include "mlir/Target/LLVM/ModuleToObject.h"
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#include "mlir/Target/LLVMIR/Dialect/Builtin/BuiltinToLLVMIRTranslation.h"
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#include "mlir/Target/LLVMIR/Dialect/LLVMIR/LLVMToLLVMIRTranslation.h"
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#include "llvm/IRReader/IRReader.h"
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#include "llvm/Support/MemoryBufferRef.h"
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#include "llvm/Support/TargetSelect.h"
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#include "llvm/Support/raw_ostream.h"
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#include "llvm/TargetParser/Host.h"
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#include "gmock/gmock.h"
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using namespace mlir;
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// Skip the test if the native target was not built.
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#if LLVM_NATIVE_TARGET_TEST_ENABLED == 0
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#define SKIP_WITHOUT_NATIVE(x) DISABLED_##x
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#else
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#define SKIP_WITHOUT_NATIVE(x) x
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#endif
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namespace {
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// Dummy interface for testing.
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class TargetAttrImpl
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: public gpu::TargetAttrInterface::FallbackModel<TargetAttrImpl> {
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public:
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std::optional<SmallVector<char, 0>>
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serializeToObject(Attribute attribute, Operation *module,
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const gpu::TargetOptions &options) const;
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Attribute createObject(Attribute attribute, Operation *module,
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const SmallVector<char, 0> &object,
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const gpu::TargetOptions &options) const;
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};
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} // namespace
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class MLIRTargetLLVM : public ::testing::Test {
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protected:
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void SetUp() override {
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llvm::InitializeNativeTarget();
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llvm::InitializeNativeTargetAsmPrinter();
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registry.addExtension(+[](MLIRContext *ctx, BuiltinDialect *dialect) {
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IntegerAttr::attachInterface<TargetAttrImpl>(*ctx);
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});
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registerBuiltinDialectTranslation(registry);
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registerLLVMDialectTranslation(registry);
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registry.insert<gpu::GPUDialect>();
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}
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// Dialect registry.
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DialectRegistry registry;
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// MLIR module used for the tests.
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std::string moduleStr = R"mlir(
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llvm.func @foo(%arg0 : i32) {
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llvm.return
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}
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)mlir";
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};
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TEST_F(MLIRTargetLLVM, SKIP_WITHOUT_NATIVE(SerializeToLLVMBitcode)) {
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MLIRContext context(registry);
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OwningOpRef<ModuleOp> module =
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parseSourceString<ModuleOp>(moduleStr, &context);
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ASSERT_TRUE(!!module);
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// Serialize the module.
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std::string targetTriple = llvm::sys::getProcessTriple();
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LLVM::ModuleToObject serializer(*(module->getOperation()), targetTriple, "",
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"");
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std::optional<SmallVector<char, 0>> serializedModule = serializer.run();
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ASSERT_TRUE(!!serializedModule);
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ASSERT_TRUE(!serializedModule->empty());
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// Read the serialized module.
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llvm::MemoryBufferRef buffer(
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StringRef(serializedModule->data(), serializedModule->size()), "module");
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llvm::LLVMContext llvmContext;
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llvm::Expected<std::unique_ptr<llvm::Module>> llvmModule =
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llvm::getLazyBitcodeModule(buffer, llvmContext);
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ASSERT_TRUE(!!llvmModule);
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ASSERT_TRUE(!!*llvmModule);
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// Check that it has a function named `foo`.
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ASSERT_TRUE((*llvmModule)->getFunction("foo") != nullptr);
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}
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std::optional<SmallVector<char, 0>>
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TargetAttrImpl::serializeToObject(Attribute attribute, Operation *module,
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const gpu::TargetOptions &options) const {
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// Set a dummy attr to be retrieved by `createObject`.
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module->setAttr("serialize_attr", UnitAttr::get(module->getContext()));
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std::string targetTriple = llvm::sys::getProcessTriple();
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LLVM::ModuleToObject serializer(
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*module, targetTriple, "", "", 3, options.getInitialLlvmIRCallback(),
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options.getLinkedLlvmIRCallback(), options.getOptimizedLlvmIRCallback());
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return serializer.run();
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}
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Attribute
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TargetAttrImpl::createObject(Attribute attribute, Operation *module,
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const SmallVector<char, 0> &object,
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const gpu::TargetOptions &options) const {
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// Create a GPU object with the GPU module dictionary as the object
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// properties.
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return gpu::ObjectAttr::get(
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module->getContext(), attribute, gpu::CompilationTarget::Offload,
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StringAttr::get(module->getContext(),
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StringRef(object.data(), object.size())),
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module->getAttrDictionary(), /*kernels=*/nullptr);
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}
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// This test checks the correct functioning of `TargetAttrInterface` as an API.
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// In particular, it shows how `TargetAttrInterface::createObject` can leverage
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// the `module` operation argument to retrieve information from the module.
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TEST_F(MLIRTargetLLVM, SKIP_WITHOUT_NATIVE(TargetAttrAPI)) {
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MLIRContext context(registry);
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context.loadAllAvailableDialects();
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OwningOpRef<ModuleOp> module =
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parseSourceString<ModuleOp>(moduleStr, &context);
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ASSERT_TRUE(!!module);
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Builder builder(&context);
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IntegerAttr target = builder.getI32IntegerAttr(0);
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auto targetAttr = dyn_cast<gpu::TargetAttrInterface>(target);
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// Check the attribute holds the interface.
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ASSERT_TRUE(!!targetAttr);
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gpu::TargetOptions opts;
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std::optional<SmallVector<char, 0>> serializedBinary =
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targetAttr.serializeToObject(*module, opts);
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// Check the serialized string.
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ASSERT_TRUE(!!serializedBinary);
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ASSERT_TRUE(!serializedBinary->empty());
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// Create the object attribute.
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auto object = cast<gpu::ObjectAttr>(
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targetAttr.createObject(*module, *serializedBinary, opts));
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// Check the object has properties.
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DictionaryAttr properties = object.getProperties();
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ASSERT_TRUE(!!properties);
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// Check that it contains the attribute added to the module in
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// `serializeToObject`.
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ASSERT_TRUE(properties.contains("serialize_attr"));
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}
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// Test callback function invoked with initial LLVM IR
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TEST_F(MLIRTargetLLVM, SKIP_WITHOUT_NATIVE(CallbackInvokedWithInitialLLVMIR)) {
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MLIRContext context(registry);
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OwningOpRef<ModuleOp> module =
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parseSourceString<ModuleOp>(moduleStr, &context);
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ASSERT_TRUE(!!module);
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Builder builder(&context);
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IntegerAttr target = builder.getI32IntegerAttr(0);
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auto targetAttr = dyn_cast<gpu::TargetAttrInterface>(target);
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std::string initialLLVMIR;
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auto initialCallback = [&initialLLVMIR](llvm::Module &module) {
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llvm::raw_string_ostream ros(initialLLVMIR);
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module.print(ros, nullptr);
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};
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gpu::TargetOptions opts(
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{}, {}, {}, {}, mlir::gpu::TargetOptions::getDefaultCompilationTarget(),
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{}, initialCallback);
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std::optional<SmallVector<char, 0>> serializedBinary =
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targetAttr.serializeToObject(*module, opts);
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ASSERT_TRUE(serializedBinary != std::nullopt);
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ASSERT_TRUE(!serializedBinary->empty());
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ASSERT_TRUE(!initialLLVMIR.empty());
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}
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// Test callback function invoked with linked LLVM IR
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TEST_F(MLIRTargetLLVM, SKIP_WITHOUT_NATIVE(CallbackInvokedWithLinkedLLVMIR)) {
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MLIRContext context(registry);
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OwningOpRef<ModuleOp> module =
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parseSourceString<ModuleOp>(moduleStr, &context);
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ASSERT_TRUE(!!module);
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Builder builder(&context);
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IntegerAttr target = builder.getI32IntegerAttr(0);
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auto targetAttr = dyn_cast<gpu::TargetAttrInterface>(target);
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std::string linkedLLVMIR;
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auto linkedCallback = [&linkedLLVMIR](llvm::Module &module) {
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llvm::raw_string_ostream ros(linkedLLVMIR);
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module.print(ros, nullptr);
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};
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gpu::TargetOptions opts(
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{}, {}, {}, {}, mlir::gpu::TargetOptions::getDefaultCompilationTarget(),
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{}, {}, linkedCallback);
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std::optional<SmallVector<char, 0>> serializedBinary =
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targetAttr.serializeToObject(*module, opts);
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ASSERT_TRUE(serializedBinary != std::nullopt);
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ASSERT_TRUE(!serializedBinary->empty());
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ASSERT_TRUE(!linkedLLVMIR.empty());
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}
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// Test callback function invoked with optimized LLVM IR
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TEST_F(MLIRTargetLLVM,
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SKIP_WITHOUT_NATIVE(CallbackInvokedWithOptimizedLLVMIR)) {
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MLIRContext context(registry);
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OwningOpRef<ModuleOp> module =
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parseSourceString<ModuleOp>(moduleStr, &context);
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ASSERT_TRUE(!!module);
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Builder builder(&context);
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IntegerAttr target = builder.getI32IntegerAttr(0);
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auto targetAttr = dyn_cast<gpu::TargetAttrInterface>(target);
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std::string optimizedLLVMIR;
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auto optimizedCallback = [&optimizedLLVMIR](llvm::Module &module) {
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llvm::raw_string_ostream ros(optimizedLLVMIR);
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module.print(ros, nullptr);
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};
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gpu::TargetOptions opts(
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{}, {}, {}, {}, mlir::gpu::TargetOptions::getDefaultCompilationTarget(),
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{}, {}, {}, optimizedCallback);
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std::optional<SmallVector<char, 0>> serializedBinary =
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targetAttr.serializeToObject(*module, opts);
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ASSERT_TRUE(serializedBinary != std::nullopt);
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ASSERT_TRUE(!serializedBinary->empty());
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ASSERT_TRUE(!optimizedLLVMIR.empty());
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}
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