llvm-project/mlir/lib/Dialect/Transform/IR/TransformDialect.cpp
Alex Zinenko 94d608d410 [mlir] move PDL-related transform ops into an extension
The initial bring-up of the Transform dialect relied on PDL to provide
the default handle type (`!pdl.operation`) and the matching capability.
Both are now provided natively by the Transform dialect removing the
reason to have a hard dependency on the PDL dialect and its interpreter.
Move PDL-related transform operations into a separate extension.

This requires us to introduce a dialect state extension mechanism into
the Transform dialect so it no longer needs to know about PDL constraint
functions that may be injected by extensions similarly to operations and
types. This mechanism will be reused to connect pattern application
drivers and the Transform dialect.

This completes the restructuring of the Transform dialect to remove
overrilance on PDL.

Note to downstreams: flow that are using `!pdl.operation` with Transform
dialect operations will now require `transform::PDLExtension` to be
applied to the transform dialect in order to provide the transform
handle type interface for `!pdl.operation`.

Reviewed By: springerm

Differential Revision: https://reviews.llvm.org/D151104
2023-05-24 12:25:06 +00:00

160 lines
6.1 KiB
C++

//===- TransformDialect.cpp - Transform Dialect Definition ----------------===//
//
// 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/Dialect/Transform/IR/TransformDialect.h"
#include "mlir/Analysis/CallGraph.h"
#include "mlir/Dialect/Transform/IR/TransformInterfaces.h"
#include "mlir/Dialect/Transform/IR/TransformOps.h"
#include "mlir/Dialect/Transform/IR/TransformTypes.h"
#include "mlir/IR/DialectImplementation.h"
#include "llvm/ADT/SCCIterator.h"
using namespace mlir;
#include "mlir/Dialect/Transform/IR/TransformDialect.cpp.inc"
#ifndef NDEBUG
void transform::detail::checkImplementsTransformOpInterface(
StringRef name, MLIRContext *context) {
// Since the operation is being inserted into the Transform dialect and the
// dialect does not implement the interface fallback, only check for the op
// itself having the interface implementation.
RegisteredOperationName opName =
*RegisteredOperationName::lookup(name, context);
assert((opName.hasInterface<TransformOpInterface>() ||
opName.hasTrait<OpTrait::IsTerminator>()) &&
"non-terminator ops injected into the transform dialect must "
"implement TransformOpInterface");
assert(opName.hasInterface<MemoryEffectOpInterface>() &&
"ops injected into the transform dialect must implement "
"MemoryEffectsOpInterface");
}
void transform::detail::checkImplementsTransformHandleTypeInterface(
TypeID typeID, MLIRContext *context) {
const auto &abstractType = AbstractType::lookup(typeID, context);
assert((abstractType.hasInterface(
TransformHandleTypeInterface::getInterfaceID()) ||
abstractType.hasInterface(
TransformParamTypeInterface::getInterfaceID()) ||
abstractType.hasInterface(
TransformValueHandleTypeInterface::getInterfaceID())) &&
"expected Transform dialect type to implement one of the three "
"interfaces");
}
#endif // NDEBUG
void transform::TransformDialect::initialize() {
// Using the checked versions to enable the same assertions as for the ops
// from extensions.
addOperationsChecked<
#define GET_OP_LIST
#include "mlir/Dialect/Transform/IR/TransformOps.cpp.inc"
>();
initializeTypes();
}
Type transform::TransformDialect::parseType(DialectAsmParser &parser) const {
StringRef keyword;
SMLoc loc = parser.getCurrentLocation();
if (failed(parser.parseKeyword(&keyword)))
return nullptr;
auto it = typeParsingHooks.find(keyword);
if (it == typeParsingHooks.end()) {
parser.emitError(loc) << "unknown type mnemonic: " << keyword;
return nullptr;
}
return it->getValue()(parser);
}
void transform::TransformDialect::printType(Type type,
DialectAsmPrinter &printer) const {
auto it = typePrintingHooks.find(type.getTypeID());
assert(it != typePrintingHooks.end() && "printing unknown type");
it->getSecond()(type, printer);
}
void transform::TransformDialect::reportDuplicateTypeRegistration(
StringRef mnemonic) {
std::string buffer;
llvm::raw_string_ostream msg(buffer);
msg << "extensible dialect type '" << mnemonic
<< "' is already registered with a different implementation";
msg.flush();
llvm::report_fatal_error(StringRef(buffer));
}
void transform::TransformDialect::reportDuplicateOpRegistration(
StringRef opName) {
std::string buffer;
llvm::raw_string_ostream msg(buffer);
msg << "extensible dialect operation '" << opName
<< "' is already registered with a mismatching TypeID";
msg.flush();
llvm::report_fatal_error(StringRef(buffer));
}
LogicalResult transform::TransformDialect::verifyOperationAttribute(
Operation *op, NamedAttribute attribute) {
if (attribute.getName().getValue() == kWithNamedSequenceAttrName) {
if (!op->hasTrait<OpTrait::SymbolTable>()) {
return emitError(op->getLoc()) << attribute.getName()
<< " attribute can only be attached to "
"operations with symbol tables";
}
const mlir::CallGraph callgraph(op);
for (auto scc = llvm::scc_begin(&callgraph); !scc.isAtEnd(); ++scc) {
if (!scc.hasCycle())
continue;
// Need to check this here additionally because this verification may run
// before we check the nested operations.
if ((*scc->begin())->isExternal())
return op->emitOpError() << "contains a call to an external operation, "
"which is not allowed";
Operation *first = (*scc->begin())->getCallableRegion()->getParentOp();
InFlightDiagnostic diag = emitError(first->getLoc())
<< "recursion not allowed in named sequences";
for (auto it = std::next(scc->begin()); it != scc->end(); ++it) {
// Need to check this here additionally because this verification may
// run before we check the nested operations.
if ((*it)->isExternal()) {
return op->emitOpError() << "contains a call to an external "
"operation, which is not allowed";
}
Operation *current = (*it)->getCallableRegion()->getParentOp();
diag.attachNote(current->getLoc()) << "operation on recursion stack";
}
return diag;
}
return success();
}
if (attribute.getName().getValue() == kTargetTagAttrName) {
if (!llvm::isa<StringAttr>(attribute.getValue())) {
return op->emitError()
<< attribute.getName() << " attribute must be a string";
}
return success();
}
if (attribute.getName().getValue() == kArgConsumedAttrName ||
attribute.getName().getValue() == kArgReadOnlyAttrName) {
if (!llvm::isa<UnitAttr>(attribute.getValue())) {
return op->emitError()
<< attribute.getName() << " must be a unit attribute";
}
return success();
}
return emitError(op->getLoc())
<< "unknown attribute: " << attribute.getName();
}