//===- Dialect.cpp - Dialect implementation -------------------------------===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// #include "mlir/IR/Dialect.h" #include "mlir/IR/BuiltinDialect.h" #include "mlir/IR/Diagnostics.h" #include "mlir/IR/DialectImplementation.h" #include "mlir/IR/DialectInterface.h" #include "mlir/IR/MLIRContext.h" #include "mlir/IR/Operation.h" #include "llvm/ADT/MapVector.h" #include "llvm/ADT/Twine.h" #include "llvm/Support/Debug.h" #include "llvm/Support/ManagedStatic.h" #include "llvm/Support/Regex.h" #define DEBUG_TYPE "dialect" using namespace mlir; using namespace detail; //===----------------------------------------------------------------------===// // Dialect //===----------------------------------------------------------------------===// Dialect::Dialect(StringRef name, MLIRContext *context, TypeID id) : name(name), dialectID(id), context(context) { assert(isValidNamespace(name) && "invalid dialect namespace"); } Dialect::~Dialect() = default; /// Verify an attribute from this dialect on the argument at 'argIndex' for /// the region at 'regionIndex' on the given operation. Returns failure if /// the verification failed, success otherwise. This hook may optionally be /// invoked from any operation containing a region. LogicalResult Dialect::verifyRegionArgAttribute(Operation *, unsigned, unsigned, NamedAttribute) { return success(); } /// Verify an attribute from this dialect on the result at 'resultIndex' for /// the region at 'regionIndex' on the given operation. Returns failure if /// the verification failed, success otherwise. This hook may optionally be /// invoked from any operation containing a region. LogicalResult Dialect::verifyRegionResultAttribute(Operation *, unsigned, unsigned, NamedAttribute) { return success(); } /// Parse an attribute registered to this dialect. Attribute Dialect::parseAttribute(DialectAsmParser &parser, Type type) const { parser.emitError(parser.getNameLoc()) << "dialect '" << getNamespace() << "' provides no attribute parsing hook"; return Attribute(); } /// Parse a type registered to this dialect. Type Dialect::parseType(DialectAsmParser &parser) const { // If this dialect allows unknown types, then represent this with OpaqueType. if (allowsUnknownTypes()) { StringAttr ns = StringAttr::get(getContext(), getNamespace()); return OpaqueType::get(ns, parser.getFullSymbolSpec()); } parser.emitError(parser.getNameLoc()) << "dialect '" << getNamespace() << "' provides no type parsing hook"; return Type(); } Optional Dialect::getParseOperationHook(StringRef opName) const { return None; } llvm::unique_function Dialect::getOperationPrinter(Operation *op) const { assert(op->getDialect() == this && "Dialect hook invoked on non-dialect owned operation"); return nullptr; } /// Utility function that returns if the given string is a valid dialect /// namespace bool Dialect::isValidNamespace(StringRef str) { llvm::Regex dialectNameRegex("^[a-zA-Z_][a-zA-Z_0-9\\$]*$"); return dialectNameRegex.match(str); } /// Register a set of dialect interfaces with this dialect instance. void Dialect::addInterface(std::unique_ptr interface) { auto it = registeredInterfaces.try_emplace(interface->getID(), std::move(interface)); (void)it; LLVM_DEBUG({ if (!it.second) { llvm::dbgs() << "[" DEBUG_TYPE "] repeated interface registration for dialect " << getNamespace(); } }); } //===----------------------------------------------------------------------===// // Dialect Interface //===----------------------------------------------------------------------===// DialectInterface::~DialectInterface() = default; DialectInterfaceCollectionBase::DialectInterfaceCollectionBase( MLIRContext *ctx, TypeID interfaceKind) { for (auto *dialect : ctx->getLoadedDialects()) { if (auto *interface = dialect->getRegisteredInterface(interfaceKind)) { interfaces.insert(interface); orderedInterfaces.push_back(interface); } } } DialectInterfaceCollectionBase::~DialectInterfaceCollectionBase() = default; /// Get the interface for the dialect of given operation, or null if one /// is not registered. const DialectInterface * DialectInterfaceCollectionBase::getInterfaceFor(Operation *op) const { return getInterfaceFor(op->getDialect()); } //===----------------------------------------------------------------------===// // DialectExtension //===----------------------------------------------------------------------===// DialectExtensionBase::~DialectExtensionBase() = default; //===----------------------------------------------------------------------===// // DialectRegistry //===----------------------------------------------------------------------===// DialectRegistry::DialectRegistry() { insert(); } DialectAllocatorFunctionRef DialectRegistry::getDialectAllocator(StringRef name) const { auto it = registry.find(name.str()); if (it == registry.end()) return nullptr; return it->second.second; } void DialectRegistry::insert(TypeID typeID, StringRef name, const DialectAllocatorFunction &ctor) { auto inserted = registry.insert( std::make_pair(std::string(name), std::make_pair(typeID, ctor))); if (!inserted.second && inserted.first->second.first != typeID) { llvm::report_fatal_error( "Trying to register different dialects for the same namespace: " + name); } } void DialectRegistry::applyExtensions(Dialect *dialect) const { MLIRContext *ctx = dialect->getContext(); StringRef dialectName = dialect->getNamespace(); // Functor used to try to apply the given extension. auto applyExtension = [&](const DialectExtensionBase &extension) { ArrayRef dialectNames = extension.getRequiredDialects(); // Handle the simple case of a single dialect name. In this case, the // required dialect should be the current dialect. if (dialectNames.size() == 1) { if (dialectNames.front() == dialectName) extension.apply(ctx, dialect); return; } // Otherwise, check to see if this extension requires this dialect. const StringRef *nameIt = llvm::find(dialectNames, dialectName); if (nameIt == dialectNames.end()) return; // If it does, ensure that all of the other required dialects have been // loaded. SmallVector requiredDialects; requiredDialects.reserve(dialectNames.size()); for (auto it = dialectNames.begin(), e = dialectNames.end(); it != e; ++it) { // The current dialect is known to be loaded. if (it == nameIt) { requiredDialects.push_back(dialect); continue; } // Otherwise, check if it is loaded. Dialect *loadedDialect = ctx->getLoadedDialect(*it); if (!loadedDialect) return; requiredDialects.push_back(loadedDialect); } extension.apply(ctx, requiredDialects); }; for (const auto &extension : extensions) applyExtension(*extension); } void DialectRegistry::applyExtensions(MLIRContext *ctx) const { // Functor used to try to apply the given extension. auto applyExtension = [&](const DialectExtensionBase &extension) { ArrayRef dialectNames = extension.getRequiredDialects(); // Check to see if all of the dialects for this extension are loaded. SmallVector requiredDialects; requiredDialects.reserve(dialectNames.size()); for (StringRef dialectName : dialectNames) { Dialect *loadedDialect = ctx->getLoadedDialect(dialectName); if (!loadedDialect) return; requiredDialects.push_back(loadedDialect); } extension.apply(ctx, requiredDialects); }; for (const auto &extension : extensions) applyExtension(*extension); } bool DialectRegistry::isSubsetOf(const DialectRegistry &rhs) const { // Treat any extensions conservatively. if (!extensions.empty()) return false; // Check that the current dialects fully overlap with the dialects in 'rhs'. return llvm::all_of( registry, [&](const auto &it) { return rhs.registry.count(it.first); }); }