5e50dd048e
This commit restructures how TypeID is implemented to ideally avoid the current problems related to shared libraries. This is done by changing the "implicit" fallback path to use the name of the type, instead of using a static template variable (which breaks shared libraries). The major downside to this is that it adds some additional initialization costs for the implicit path. Given the use of type names for uniqueness in the fallback, we also no longer allow types defined in anonymous namespaces to have an implicit TypeID. To simplify defining an ID for these classes, a new `MLIR_DEFINE_EXPLICIT_INTERNAL_INLINE_TYPE_ID` macro was added to allow for explicitly defining a TypeID directly on an internal class. To help identify when types are using the fallback, `-debug-only=typeid` can be used to log which types are using implicit ids. This change generally only requires changes to the test passes, which are all defined in anonymous namespaces, and thus can't use the fallback any longer. Differential Revision: https://reviews.llvm.org/D122775
167 lines
6.2 KiB
C++
167 lines
6.2 KiB
C++
//===- TestFunc.cpp - Pass to test helpers on function utilities ----------===//
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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 "mlir/IR/BuiltinOps.h"
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#include "mlir/IR/FunctionInterfaces.h"
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#include "mlir/Pass/Pass.h"
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using namespace mlir;
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namespace {
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/// This is a test pass for verifying FunctionOpInterface's insertArgument
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/// method.
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struct TestFuncInsertArg
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: public PassWrapper<TestFuncInsertArg, OperationPass<ModuleOp>> {
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MLIR_DEFINE_EXPLICIT_INTERNAL_INLINE_TYPE_ID(TestFuncInsertArg)
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StringRef getArgument() const final { return "test-func-insert-arg"; }
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StringRef getDescription() const final { return "Test inserting func args."; }
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void runOnOperation() override {
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auto module = getOperation();
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UnknownLoc unknownLoc = UnknownLoc::get(module.getContext());
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for (auto func : module.getOps<FunctionOpInterface>()) {
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auto inserts = func->getAttrOfType<ArrayAttr>("test.insert_args");
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if (!inserts || inserts.empty())
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continue;
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SmallVector<unsigned, 4> indicesToInsert;
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SmallVector<Type, 4> typesToInsert;
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SmallVector<DictionaryAttr, 4> attrsToInsert;
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SmallVector<Location, 4> locsToInsert;
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for (auto insert : inserts.getAsRange<ArrayAttr>()) {
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indicesToInsert.push_back(
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insert[0].cast<IntegerAttr>().getValue().getZExtValue());
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typesToInsert.push_back(insert[1].cast<TypeAttr>().getValue());
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attrsToInsert.push_back(insert.size() > 2
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? insert[2].cast<DictionaryAttr>()
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: DictionaryAttr::get(&getContext()));
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locsToInsert.push_back(insert.size() > 3
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? Location(insert[3].cast<LocationAttr>())
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: unknownLoc);
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}
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func->removeAttr("test.insert_args");
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func.insertArguments(indicesToInsert, typesToInsert, attrsToInsert,
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locsToInsert);
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}
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}
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};
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/// This is a test pass for verifying FunctionOpInterface's insertResult method.
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struct TestFuncInsertResult
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: public PassWrapper<TestFuncInsertResult, OperationPass<ModuleOp>> {
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MLIR_DEFINE_EXPLICIT_INTERNAL_INLINE_TYPE_ID(TestFuncInsertResult)
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StringRef getArgument() const final { return "test-func-insert-result"; }
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StringRef getDescription() const final {
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return "Test inserting func results.";
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}
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void runOnOperation() override {
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auto module = getOperation();
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for (auto func : module.getOps<FunctionOpInterface>()) {
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auto inserts = func->getAttrOfType<ArrayAttr>("test.insert_results");
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if (!inserts || inserts.empty())
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continue;
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SmallVector<unsigned, 4> indicesToInsert;
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SmallVector<Type, 4> typesToInsert;
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SmallVector<DictionaryAttr, 4> attrsToInsert;
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for (auto insert : inserts.getAsRange<ArrayAttr>()) {
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indicesToInsert.push_back(
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insert[0].cast<IntegerAttr>().getValue().getZExtValue());
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typesToInsert.push_back(insert[1].cast<TypeAttr>().getValue());
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attrsToInsert.push_back(insert.size() > 2
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? insert[2].cast<DictionaryAttr>()
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: DictionaryAttr::get(&getContext()));
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}
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func->removeAttr("test.insert_results");
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func.insertResults(indicesToInsert, typesToInsert, attrsToInsert);
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}
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}
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};
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/// This is a test pass for verifying FunctionOpInterface's eraseArgument
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/// method.
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struct TestFuncEraseArg
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: public PassWrapper<TestFuncEraseArg, OperationPass<ModuleOp>> {
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MLIR_DEFINE_EXPLICIT_INTERNAL_INLINE_TYPE_ID(TestFuncEraseArg)
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StringRef getArgument() const final { return "test-func-erase-arg"; }
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StringRef getDescription() const final { return "Test erasing func args."; }
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void runOnOperation() override {
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auto module = getOperation();
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for (auto func : module.getOps<FunctionOpInterface>()) {
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BitVector indicesToErase(func.getNumArguments());
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for (auto argIndex : llvm::seq<int>(0, func.getNumArguments()))
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if (func.getArgAttr(argIndex, "test.erase_this_arg"))
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indicesToErase.set(argIndex);
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func.eraseArguments(indicesToErase);
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}
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}
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};
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/// This is a test pass for verifying FunctionOpInterface's eraseResult method.
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struct TestFuncEraseResult
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: public PassWrapper<TestFuncEraseResult, OperationPass<ModuleOp>> {
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MLIR_DEFINE_EXPLICIT_INTERNAL_INLINE_TYPE_ID(TestFuncEraseResult)
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StringRef getArgument() const final { return "test-func-erase-result"; }
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StringRef getDescription() const final {
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return "Test erasing func results.";
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}
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void runOnOperation() override {
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auto module = getOperation();
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for (auto func : module.getOps<FunctionOpInterface>()) {
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BitVector indicesToErase(func.getNumResults());
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for (auto resultIndex : llvm::seq<int>(0, func.getNumResults()))
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if (func.getResultAttr(resultIndex, "test.erase_this_result"))
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indicesToErase.set(resultIndex);
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func.eraseResults(indicesToErase);
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}
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}
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};
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/// This is a test pass for verifying FunctionOpInterface's setType method.
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struct TestFuncSetType
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: public PassWrapper<TestFuncSetType, OperationPass<ModuleOp>> {
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MLIR_DEFINE_EXPLICIT_INTERNAL_INLINE_TYPE_ID(TestFuncSetType)
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StringRef getArgument() const final { return "test-func-set-type"; }
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StringRef getDescription() const final {
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return "Test FunctionOpInterface::setType.";
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}
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void runOnOperation() override {
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auto module = getOperation();
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SymbolTable symbolTable(module);
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for (auto func : module.getOps<FunctionOpInterface>()) {
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auto sym = func->getAttrOfType<FlatSymbolRefAttr>("test.set_type_from");
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if (!sym)
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continue;
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func.setType(symbolTable.lookup<FunctionOpInterface>(sym.getValue())
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.getFunctionType());
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}
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}
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};
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} // namespace
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namespace mlir {
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void registerTestFunc() {
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PassRegistration<TestFuncInsertArg>();
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PassRegistration<TestFuncInsertResult>();
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PassRegistration<TestFuncEraseArg>();
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PassRegistration<TestFuncEraseResult>();
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PassRegistration<TestFuncSetType>();
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}
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} // namespace mlir
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