This PR massively reorganizes the Test dialect's source files. It moves manually-written op hooks into `TestOpDefs.cpp`, moves format custom directive parsers and printers into `TestFormatUtils`, adds missing comment blocks, and moves around where generated source files are included for types, attributes, enums, etc. into their own source file. This will hopefully help navigate the test dialect source code, but also speeds up compile time of the test dialect by putting generated source files into separate compilation units. This also sets up the test dialect to shard its op definitions, done in the next PR.
253 lines
9.6 KiB
C++
253 lines
9.6 KiB
C++
//===- TestPassManager.cpp - Test pass manager functionality --------------===//
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//
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// Part of the LLVM Project, 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 "TestDialect.h"
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#include "TestOps.h"
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#include "mlir/Dialect/Func/IR/FuncOps.h"
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#include "mlir/IR/BuiltinOps.h"
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#include "mlir/Pass/Pass.h"
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#include "mlir/Pass/PassManager.h"
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using namespace mlir;
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namespace {
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struct TestModulePass
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: public PassWrapper<TestModulePass, OperationPass<ModuleOp>> {
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MLIR_DEFINE_EXPLICIT_INTERNAL_INLINE_TYPE_ID(TestModulePass)
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void runOnOperation() final {}
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StringRef getArgument() const final { return "test-module-pass"; }
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StringRef getDescription() const final {
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return "Test a module pass in the pass manager";
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}
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};
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struct TestFunctionPass
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: public PassWrapper<TestFunctionPass, OperationPass<func::FuncOp>> {
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MLIR_DEFINE_EXPLICIT_INTERNAL_INLINE_TYPE_ID(TestFunctionPass)
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void runOnOperation() final {}
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StringRef getArgument() const final { return "test-function-pass"; }
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StringRef getDescription() const final {
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return "Test a function pass in the pass manager";
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}
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};
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struct TestInterfacePass
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: public PassWrapper<TestInterfacePass,
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InterfacePass<FunctionOpInterface>> {
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MLIR_DEFINE_EXPLICIT_INTERNAL_INLINE_TYPE_ID(TestInterfacePass)
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void runOnOperation() final {
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getOperation()->emitRemark() << "Executing interface pass on operation";
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}
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StringRef getArgument() const final { return "test-interface-pass"; }
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StringRef getDescription() const final {
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return "Test an interface pass (running on FunctionOpInterface) in the "
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"pass manager";
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}
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};
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struct TestOptionsPass
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: public PassWrapper<TestOptionsPass, OperationPass<func::FuncOp>> {
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MLIR_DEFINE_EXPLICIT_INTERNAL_INLINE_TYPE_ID(TestOptionsPass)
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enum Enum { One, Two };
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struct Options : public PassPipelineOptions<Options> {
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ListOption<int> listOption{*this, "list",
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llvm::cl::desc("Example list option")};
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ListOption<std::string> stringListOption{
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*this, "string-list", llvm::cl::desc("Example string list option")};
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Option<std::string> stringOption{*this, "string",
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llvm::cl::desc("Example string option")};
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Option<Enum> enumOption{
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*this, "enum", llvm::cl::desc("Example enum option"),
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llvm::cl::values(clEnumValN(0, "zero", "Example zero value"),
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clEnumValN(1, "one", "Example one value"))};
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};
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TestOptionsPass() = default;
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TestOptionsPass(const TestOptionsPass &) : PassWrapper() {}
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TestOptionsPass(const Options &options) {
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listOption = options.listOption;
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stringOption = options.stringOption;
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stringListOption = options.stringListOption;
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enumOption = options.enumOption;
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}
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void runOnOperation() final {}
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StringRef getArgument() const final { return "test-options-pass"; }
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StringRef getDescription() const final {
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return "Test options parsing capabilities";
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}
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ListOption<int> listOption{*this, "list",
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llvm::cl::desc("Example list option")};
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ListOption<std::string> stringListOption{
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*this, "string-list", llvm::cl::desc("Example string list option")};
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Option<std::string> stringOption{*this, "string",
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llvm::cl::desc("Example string option")};
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Option<Enum> enumOption{
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*this, "enum", llvm::cl::desc("Example enum option"),
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llvm::cl::values(clEnumValN(0, "zero", "Example zero value"),
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clEnumValN(1, "one", "Example one value"))};
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};
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/// A test pass that always aborts to enable testing the crash recovery
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/// mechanism of the pass manager.
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struct TestCrashRecoveryPass
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: public PassWrapper<TestCrashRecoveryPass, OperationPass<>> {
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MLIR_DEFINE_EXPLICIT_INTERNAL_INLINE_TYPE_ID(TestCrashRecoveryPass)
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void runOnOperation() final { abort(); }
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StringRef getArgument() const final { return "test-pass-crash"; }
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StringRef getDescription() const final {
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return "Test a pass in the pass manager that always crashes";
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}
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};
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/// A test pass that always fails to enable testing the failure recovery
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/// mechanisms of the pass manager.
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struct TestFailurePass : public PassWrapper<TestFailurePass, OperationPass<>> {
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MLIR_DEFINE_EXPLICIT_INTERNAL_INLINE_TYPE_ID(TestFailurePass)
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void runOnOperation() final { signalPassFailure(); }
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StringRef getArgument() const final { return "test-pass-failure"; }
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StringRef getDescription() const final {
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return "Test a pass in the pass manager that always fails";
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}
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};
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/// A test pass that creates an invalid operation in a function body.
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struct TestInvalidIRPass
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: public PassWrapper<TestInvalidIRPass,
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InterfacePass<FunctionOpInterface>> {
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MLIR_DEFINE_EXPLICIT_INTERNAL_INLINE_TYPE_ID(TestInvalidIRPass)
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TestInvalidIRPass() = default;
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TestInvalidIRPass(const TestInvalidIRPass &other) : PassWrapper(other) {}
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StringRef getArgument() const final { return "test-pass-create-invalid-ir"; }
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StringRef getDescription() const final {
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return "Test pass that adds an invalid operation in a function body";
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}
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void getDependentDialects(DialectRegistry ®istry) const final {
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registry.insert<test::TestDialect>();
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}
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void runOnOperation() final {
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if (signalFailure)
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signalPassFailure();
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if (!emitInvalidIR)
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return;
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OpBuilder b(getOperation().getFunctionBody());
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OperationState state(b.getUnknownLoc(), "test.any_attr_of_i32_str");
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b.create(state);
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}
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Option<bool> signalFailure{*this, "signal-pass-failure",
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llvm::cl::desc("Trigger a pass failure")};
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Option<bool> emitInvalidIR{*this, "emit-invalid-ir", llvm::cl::init(true),
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llvm::cl::desc("Emit invalid IR")};
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};
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/// A test pass that always fails to enable testing the failure recovery
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/// mechanisms of the pass manager.
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struct TestInvalidParentPass
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: public PassWrapper<TestInvalidParentPass,
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InterfacePass<FunctionOpInterface>> {
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MLIR_DEFINE_EXPLICIT_INTERNAL_INLINE_TYPE_ID(TestInvalidParentPass)
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StringRef getArgument() const final { return "test-pass-invalid-parent"; }
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StringRef getDescription() const final {
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return "Test a pass in the pass manager that makes the parent operation "
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"invalid";
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}
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void getDependentDialects(DialectRegistry ®istry) const final {
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registry.insert<test::TestDialect>();
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}
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void runOnOperation() final {
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FunctionOpInterface op = getOperation();
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OpBuilder b(op.getFunctionBody());
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b.create<test::TestCallOp>(op.getLoc(), TypeRange(), "some_unknown_func",
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ValueRange());
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}
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};
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/// A test pass that contains a statistic.
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struct TestStatisticPass
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: public PassWrapper<TestStatisticPass, OperationPass<>> {
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MLIR_DEFINE_EXPLICIT_INTERNAL_INLINE_TYPE_ID(TestStatisticPass)
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TestStatisticPass() = default;
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TestStatisticPass(const TestStatisticPass &) : PassWrapper() {}
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StringRef getArgument() const final { return "test-stats-pass"; }
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StringRef getDescription() const final { return "Test pass statistics"; }
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// Use a couple of statistics to verify their ordering
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// in the print out. The statistics are registered in the order
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// of construction, so put "num-ops2" before "num-ops" and
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// make sure that the order is reversed.
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Statistic opCountDuplicate{this, "num-ops2",
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"Number of operations counted one more time"};
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Statistic opCount{this, "num-ops", "Number of operations counted"};
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void runOnOperation() final {
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getOperation()->walk([&](Operation *) { ++opCount; });
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getOperation()->walk([&](Operation *) { ++opCountDuplicate; });
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}
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};
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} // namespace
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static void testNestedPipeline(OpPassManager &pm) {
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// Nest a module pipeline that contains:
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/// A module pass.
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auto &modulePM = pm.nest<ModuleOp>();
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modulePM.addPass(std::make_unique<TestModulePass>());
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/// A nested function pass.
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auto &nestedFunctionPM = modulePM.nest<func::FuncOp>();
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nestedFunctionPM.addPass(std::make_unique<TestFunctionPass>());
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// Nest a function pipeline that contains a single pass.
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auto &functionPM = pm.nest<func::FuncOp>();
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functionPM.addPass(std::make_unique<TestFunctionPass>());
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}
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static void testNestedPipelineTextual(OpPassManager &pm) {
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(void)parsePassPipeline("test-pm-nested-pipeline", pm);
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}
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namespace mlir {
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void registerPassManagerTestPass() {
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PassRegistration<TestOptionsPass>();
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PassRegistration<TestModulePass>();
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PassRegistration<TestFunctionPass>();
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PassRegistration<TestInterfacePass>();
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PassRegistration<TestCrashRecoveryPass>();
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PassRegistration<TestFailurePass>();
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PassRegistration<TestInvalidIRPass>();
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PassRegistration<TestInvalidParentPass>();
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PassRegistration<TestStatisticPass>();
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PassPipelineRegistration<>("test-pm-nested-pipeline",
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"Test a nested pipeline in the pass manager",
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testNestedPipeline);
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PassPipelineRegistration<>("test-textual-pm-nested-pipeline",
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"Test a nested pipeline in the pass manager",
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testNestedPipelineTextual);
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PassPipelineRegistration<TestOptionsPass::Options>
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registerOptionsPassPipeline(
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"test-options-pass-pipeline",
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"Parses options using pass pipeline registration",
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[](OpPassManager &pm, const TestOptionsPass::Options &options) {
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pm.addPass(std::make_unique<TestOptionsPass>(options));
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});
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}
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} // namespace mlir
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