doxygen/Evaluator_8cpp_source.html

//===- Evaluator.cpp - Object Model dialect evaluator ---------------------===//

//

// 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

//

//===----------------------------------------------------------------------===//

//

// This file implements the Object Model dialect Evaluator.

//

//===----------------------------------------------------------------------===//


#include "circt/Dialect/OM/Evaluator/Evaluator.h"

#include "mlir/IR/BuiltinAttributeInterfaces.h"

#include "mlir/IR/Location.h"

#include "mlir/IR/SymbolTable.h"

#include "llvm/ADT/TypeSwitch.h"

#include "llvm/Support/Debug.h"


#define DEBUG_TYPE "om-evaluator"


using namespace mlir;

using namespace circt::om;


/// Construct an Evaluator with an IR module.

circt::om::Evaluator::Evaluator(ModuleOp mod) : symbolTable(mod) {}


/// Get the Module this Evaluator is built from.


ModuleOp circt::om::Evaluator::getModule() {

  return cast<ModuleOp>(symbolTable.getOp());

}

ModuleOp circt::om::Evaluator::getModule() {…}


SmallVector<evaluator::EvaluatorValuePtr>


circt::om::getEvaluatorValuesFromAttributes(MLIRContext *context,

                                            ArrayRef<Attribute> attributes) {

  SmallVector<evaluator::EvaluatorValuePtr> values;

  values.reserve(attributes.size());

  for (auto attr : attributes)

    values.push_back(std::make_shared<evaluator::AttributeValue>(attr));

  return values;

}

circt::om::getEvaluatorValuesFromAttributes(MLIRContext *context, {…}


LogicalResult circt::om::evaluator::EvaluatorValue::finalize() {

  using namespace evaluator;

  // Early return if already finalized.

  if (finalized)

    return success();

  // Enable the flag to avoid infinite recursions.

  finalized = true;

  assert(isFullyEvaluated());

  return llvm::TypeSwitch<EvaluatorValue *, LogicalResult>(this)

      .Case<AttributeValue, ObjectValue, ListValue, MapValue, ReferenceValue,

            TupleValue, BasePathValue, PathValue>(

          [](auto v) { return v->finalizeImpl(); });

}

LogicalResult circt::om::evaluator::EvaluatorValue::finalize() {…}


Type circt::om::evaluator::EvaluatorValue::getType() const {

  return llvm::TypeSwitch<const EvaluatorValue *, Type>(this)

      .Case<AttributeValue>([](auto *attr) -> Type { return attr->getType(); })

      .Case<ObjectValue>([](auto *object) { return object->getObjectType(); })

      .Case<ListValue>([](auto *list) { return list->getListType(); })

      .Case<MapValue>([](auto *map) { return map->getMapType(); })

      .Case<ReferenceValue>([](auto *ref) { return ref->getValueType(); })

      .Case<TupleValue>([](auto *tuple) { return tuple->getTupleType(); })

      .Case<BasePathValue>(

          [this](auto *tuple) { return FrozenBasePathType::get(ctx); })

      .Case<PathValue>(

          [this](auto *tuple) { return FrozenPathType::get(ctx); });

}

Type circt::om::evaluator::EvaluatorValue::getType() const  {…}


FailureOr<evaluator::EvaluatorValuePtr>


circt::om::Evaluator::getPartiallyEvaluatedValue(Type type, Location loc) {

  using namespace circt::om::evaluator;


  return TypeSwitch<mlir::Type, FailureOr<evaluator::EvaluatorValuePtr>>(type)

      .Case([&](circt::om::MapType type) {

        evaluator::EvaluatorValuePtr result =

            std::make_shared<evaluator::MapValue>(type, loc);

        return success(result);

      })

      .Case([&](circt::om::ListType type) {

        evaluator::EvaluatorValuePtr result =

            std::make_shared<evaluator::ListValue>(type, loc);

        return success(result);

      })

      .Case([&](mlir::TupleType type) {

        evaluator::EvaluatorValuePtr result =

            std::make_shared<evaluator::TupleValue>(type, loc);

        return success(result);

      })


      .Case([&](circt::om::ClassType type)

                -> FailureOr<evaluator::EvaluatorValuePtr> {

        ClassOp cls =

            symbolTable.lookup<ClassOp>(type.getClassName().getValue());

        if (!cls)

          return symbolTable.getOp()->emitError("unknown class name ")

                 << type.getClassName();


        evaluator::EvaluatorValuePtr result =

            std::make_shared<evaluator::ObjectValue>(cls, loc);


        return success(result);

      })

      .Default([&](auto type) { return failure(); });

}

circt::om::Evaluator::getPartiallyEvaluatedValue(Type type, Location loc) {…}


FailureOr<evaluator::EvaluatorValuePtr> circt::om::Evaluator::getOrCreateValue(

    Value value, ActualParameters actualParams, Location loc) {

  auto it = objects.find({value, actualParams});

  if (it != objects.end()) {

    auto evalVal = it->second;

    evalVal->setLocIfUnknown(loc);

    return evalVal;

  }


  FailureOr<evaluator::EvaluatorValuePtr> result =

      TypeSwitch<Value, FailureOr<evaluator::EvaluatorValuePtr>>(value)

          .Case([&](BlockArgument arg) {

            auto val = (*actualParams)[arg.getArgNumber()];

            val->setLoc(loc);

            return val;

          })

          .Case([&](OpResult result) {

            return TypeSwitch<Operation *,

                              FailureOr<evaluator::EvaluatorValuePtr>>(

                       result.getDefiningOp())

                .Case([&](ConstantOp op) {

                  return evaluateConstant(op, actualParams, loc);

                })

                .Case([&](IntegerBinaryArithmeticOp op) {

                  // Create a partially evaluated AttributeValue of

                  // om::IntegerType in case we need to delay evaluation.

                  evaluator::EvaluatorValuePtr result =

                      std::make_shared<evaluator::AttributeValue>(

                          op.getResult().getType(), loc);

                  return success(result);

                })

                .Case<ObjectFieldOp>([&](auto op) {

                  // Create a reference value since the value pointed by object

                  // field op is not created yet.

                  evaluator::EvaluatorValuePtr result =

                      std::make_shared<evaluator::ReferenceValue>(

                          value.getType(), loc);

                  return success(result);

                })

                .Case<AnyCastOp>([&](AnyCastOp op) {

                  return getOrCreateValue(op.getInput(), actualParams, loc);

                })

                .Case<FrozenBasePathCreateOp>([&](FrozenBasePathCreateOp op) {

                  evaluator::EvaluatorValuePtr result =

                      std::make_shared<evaluator::BasePathValue>(

                          op.getPathAttr(), loc);

                  return success(result);

                })

                .Case<FrozenPathCreateOp>([&](FrozenPathCreateOp op) {

                  evaluator::EvaluatorValuePtr result =

                      std::make_shared<evaluator::PathValue>(

                          op.getTargetKindAttr(), op.getPathAttr(),

                          op.getModuleAttr(), op.getRefAttr(),

                          op.getFieldAttr(), loc);

                  return success(result);

                })

                .Case<FrozenEmptyPathOp>([&](FrozenEmptyPathOp op) {

                  evaluator::EvaluatorValuePtr result =

                      std::make_shared<evaluator::PathValue>(

                          evaluator::PathValue::getEmptyPath(loc));

                  return success(result);

                })

                .Case<ListCreateOp, ListConcatOp, TupleCreateOp, MapCreateOp,

                      ObjectFieldOp>([&](auto op) {

                  return getPartiallyEvaluatedValue(op.getType(), loc);

                })

                .Case<TupleGetOp>([&](auto op) {

                  return evaluateTupleGet(op, actualParams, loc);

                })

                .Case<ObjectOp>([&](auto op) {

                  return getPartiallyEvaluatedValue(op.getType(), op.getLoc());

                })

                .Default([&](Operation *op) {

                  auto error = op->emitError("unable to evaluate value");

                  error.attachNote() << "value: " << value;

                  return error;

                });

          });

  if (failed(result))

    return result;


  objects[{value, actualParams}] = result.value();

  return result;

}

FailureOr<evaluator::EvaluatorValuePtr> circt::om::Evaluator::getOrCreateValue( {…}


FailureOr<evaluator::EvaluatorValuePtr>


circt::om::Evaluator::evaluateObjectInstance(StringAttr className,

                                             ActualParameters actualParams,

                                             Location loc,

                                             ObjectKey instanceKey) {

  ClassOp cls = symbolTable.lookup<ClassOp>(className);

  if (!cls)

    return symbolTable.getOp()->emitError("unknown class name ") << className;


  auto formalParamNames = cls.getFormalParamNames().getAsRange<StringAttr>();

  auto formalParamTypes = cls.getBodyBlock()->getArgumentTypes();


  // Verify the actual parameters are the right size and types for this class.

  if (actualParams->size() != formalParamTypes.size()) {

    auto error = cls.emitError("actual parameter list length (")

                 << actualParams->size() << ") does not match formal "

                 << "parameter list length (" << formalParamTypes.size() << ")";

    auto &diag = error.attachNote() << "actual parameters: ";

    // FIXME: `diag << actualParams` doesn't work for some reason.

    bool isFirst = true;

    for (const auto &param : *actualParams) {

      if (isFirst)

        isFirst = false;

      else

        diag << ", ";

      diag << param;

    }

    error.attachNote(cls.getLoc()) << "formal parameters: " << formalParamTypes;

    return error;

  }


  // Verify the actual parameter types match.

  for (auto [actualParam, formalParamName, formalParamType] :

       llvm::zip(*actualParams, formalParamNames, formalParamTypes)) {

    if (!actualParam || !actualParam.get())

      return cls.emitError("actual parameter for ")

             << formalParamName << " is null";


    // Subtyping: if formal param is any type, any actual param may be passed.

    if (isa<AnyType>(formalParamType))

      continue;


    Type actualParamType = actualParam->getType();


    assert(actualParamType && "actualParamType must be non-null!");


    if (actualParamType != formalParamType) {

      auto error = cls.emitError("actual parameter for ")

                   << formalParamName << " has invalid type";

      error.attachNote() << "actual parameter: " << *actualParam;

      error.attachNote() << "format parameter type: " << formalParamType;

      return error;

    }

  }


  // Instantiate the fields.

  evaluator::ObjectFields fields;


  auto *context = cls.getContext();

  for (auto &op : cls.getOps())

    for (auto result : op.getResults()) {

      // Allocate the value, with unknown loc. It will be later set when

      // evaluating the fields.

      if (failed(

              getOrCreateValue(result, actualParams, UnknownLoc::get(context))))

        return failure();

      // Add to the worklist.

      worklist.push({result, actualParams});

    }


  auto fieldNames = cls.getFieldNames();

  auto operands = cls.getFieldsOp()->getOperands();

  for (size_t i = 0; i < fieldNames.size(); ++i) {

    auto name = fieldNames[i];

    auto value = operands[i];

    auto fieldLoc = cls.getFieldLocByIndex(i);

    FailureOr<evaluator::EvaluatorValuePtr> result =

        evaluateValue(value, actualParams, fieldLoc);

    if (failed(result))

      return result;


    fields[cast<StringAttr>(name)] = result.value();

  }


  // If the there is an instance, we must update the object value.

  if (instanceKey.first) {

    auto result =

        getOrCreateValue(instanceKey.first, instanceKey.second, loc).value();

    auto *object = llvm::cast<evaluator::ObjectValue>(result.get());

    object->setFields(std::move(fields));

    return result;

  }


  // If it's external call, just allocate new ObjectValue.

  evaluator::EvaluatorValuePtr result =

      std::make_shared<evaluator::ObjectValue>(cls, fields, loc);

  return result;

}

circt::om::Evaluator::evaluateObjectInstance(StringAttr className, {…}


/// Instantiate an Object with its class name and actual parameters.

FailureOr<std::shared_ptr<evaluator::EvaluatorValue>>


circt::om::Evaluator::instantiate(

    StringAttr className, ArrayRef<evaluator::EvaluatorValuePtr> actualParams) {

  ClassOp cls = symbolTable.lookup<ClassOp>(className);

  if (!cls)

    return symbolTable.getOp()->emitError("unknown class name ") << className;


  auto parameters =

      std::make_unique<SmallVector<std::shared_ptr<evaluator::EvaluatorValue>>>(

          actualParams);


  actualParametersBuffers.push_back(std::move(parameters));


  auto loc = cls.getLoc();

  auto result = evaluateObjectInstance(

      className, actualParametersBuffers.back().get(), loc);


  if (failed(result))

    return failure();


  // `evaluateObjectInstance` has populated the worklist. Continue evaluations

  // unless there is a partially evaluated value.

  while (!worklist.empty()) {

    auto [value, args] = worklist.front();

    worklist.pop();


    auto result = evaluateValue(value, args, loc);


    if (failed(result))

      return failure();


    // It's possible that the value is not fully evaluated.

    if (!result.value()->isFullyEvaluated())

      worklist.push({value, args});

  }


  auto &object = result.value();

  // Finalize the value. This will eliminate intermidiate ReferenceValue used as

  // a placeholder in the initialization.

  if (failed(object->finalize()))

    return cls.emitError() << "failed to finalize evaluation. Probably the "

                              "class contains a dataflow cycle";

  return object;

}

circt::om::Evaluator::instantiate( {…}


FailureOr<evaluator::EvaluatorValuePtr>


circt::om::Evaluator::evaluateValue(Value value, ActualParameters actualParams,

                                    Location loc) {

  auto evaluatorValue = getOrCreateValue(value, actualParams, loc).value();


  // Return if the value is already evaluated.

  if (evaluatorValue->isFullyEvaluated())

    return evaluatorValue;


  return llvm::TypeSwitch<Value, FailureOr<evaluator::EvaluatorValuePtr>>(value)

      .Case([&](BlockArgument arg) {

        return evaluateParameter(arg, actualParams, loc);

      })

      .Case([&](OpResult result) {

        return TypeSwitch<Operation *, FailureOr<evaluator::EvaluatorValuePtr>>(

                   result.getDefiningOp())

            .Case([&](ConstantOp op) {

              return evaluateConstant(op, actualParams, loc);

            })

            .Case([&](IntegerBinaryArithmeticOp op) {

              return evaluateIntegerBinaryArithmetic(op, actualParams, loc);

            })

            .Case([&](ObjectOp op) {

              return evaluateObjectInstance(op, actualParams);

            })

            .Case([&](ObjectFieldOp op) {

              return evaluateObjectField(op, actualParams, loc);

            })

            .Case([&](ListCreateOp op) {

              return evaluateListCreate(op, actualParams, loc);

            })

            .Case([&](ListConcatOp op) {

              return evaluateListConcat(op, actualParams, loc);

            })

            .Case([&](TupleCreateOp op) {

              return evaluateTupleCreate(op, actualParams, loc);

            })

            .Case([&](TupleGetOp op) {

              return evaluateTupleGet(op, actualParams, loc);

            })

            .Case([&](AnyCastOp op) {

              return evaluateValue(op.getInput(), actualParams, loc);

            })

            .Case([&](MapCreateOp op) {

              return evaluateMapCreate(op, actualParams, loc);

            })

            .Case([&](FrozenBasePathCreateOp op) {

              return evaluateBasePathCreate(op, actualParams, loc);

            })

            .Case([&](FrozenPathCreateOp op) {

              return evaluatePathCreate(op, actualParams, loc);

            })

            .Case([&](FrozenEmptyPathOp op) {

              return evaluateEmptyPath(op, actualParams, loc);

            })

            .Default([&](Operation *op) {

              auto error = op->emitError("unable to evaluate value");

              error.attachNote() << "value: " << value;

              return error;

            });

      });

}

circt::om::Evaluator::evaluateValue(Value value, ActualParameters actualParams, {…}


/// Evaluator dispatch function for parameters.


FailureOr<evaluator::EvaluatorValuePtr> circt::om::Evaluator::evaluateParameter(

    BlockArgument formalParam, ActualParameters actualParams, Location loc) {

  auto val = (*actualParams)[formalParam.getArgNumber()];

  val->setLoc(loc);

  return success(val);

}

FailureOr<evaluator::EvaluatorValuePtr> circt::om::Evaluator::evaluateParameter( {…}


/// Evaluator dispatch function for constants.

FailureOr<circt::om::evaluator::EvaluatorValuePtr>


circt::om::Evaluator::evaluateConstant(ConstantOp op,

                                       ActualParameters actualParams,

                                       Location loc) {

  return success(std::make_shared<circt::om::evaluator::AttributeValue>(

      op.getValue(), loc));

}

circt::om::Evaluator::evaluateConstant(ConstantOp op, {…}


// Evaluator dispatch function for integer binary arithmetic.

FailureOr<EvaluatorValuePtr>


circt::om::Evaluator::evaluateIntegerBinaryArithmetic(

    IntegerBinaryArithmeticOp op, ActualParameters actualParams, Location loc) {

  // Get the op's EvaluatorValue handle, in case it hasn't been evaluated yet.

  auto handle = getOrCreateValue(op.getResult(), actualParams, loc);


  // If it's fully evaluated, we can return it.

  if (handle.value()->isFullyEvaluated())

    return handle;


  // Evaluate operands if necessary, and return the partially evaluated value if

  // they aren't ready.

  auto lhsResult = evaluateValue(op.getLhs(), actualParams, loc);

  if (failed(lhsResult))

    return lhsResult;

  if (!lhsResult.value()->isFullyEvaluated())

    return handle;


  auto rhsResult = evaluateValue(op.getRhs(), actualParams, loc);

  if (failed(rhsResult))

    return rhsResult;

  if (!rhsResult.value()->isFullyEvaluated())

    return handle;


  // Extract the integer attributes.

  auto extractAttr = [](evaluator::EvaluatorValue *value) {

    return std::move(

        llvm::TypeSwitch<evaluator::EvaluatorValue *, om::IntegerAttr>(value)

            .Case([](evaluator::AttributeValue *val) {

              return val->getAs<om::IntegerAttr>();

            })

            .Case([](evaluator::ReferenceValue *val) {

              return cast<evaluator::AttributeValue>(

                         val->getStrippedValue()->get())

                  ->getAs<om::IntegerAttr>();

            }));

  };


  om::IntegerAttr lhs = extractAttr(lhsResult.value().get());

  om::IntegerAttr rhs = extractAttr(rhsResult.value().get());

  assert(lhs && rhs &&

         "expected om::IntegerAttr for IntegerBinaryArithmeticOp operands");


  // Extend values if necessary to match bitwidth. Most interesting arithmetic

  // on APSInt asserts that both operands are the same bitwidth, but the

  // IntegerAttrs we are working with may have used the smallest necessary

  // bitwidth to represent the number they hold, and won't necessarily match.

  APSInt lhsVal = lhs.getValue().getAPSInt();

  APSInt rhsVal = rhs.getValue().getAPSInt();

  if (lhsVal.getBitWidth() > rhsVal.getBitWidth())

    rhsVal = rhsVal.extend(lhsVal.getBitWidth());

  else if (rhsVal.getBitWidth() > lhsVal.getBitWidth())

    lhsVal = lhsVal.extend(rhsVal.getBitWidth());


  // Perform arbitrary precision signed integer binary arithmetic.

  FailureOr<APSInt> result = op.evaluateIntegerOperation(lhsVal, rhsVal);


  if (failed(result))

    return op->emitError("failed to evaluate integer operation");


  // Package the result as a new om::IntegerAttr.

  MLIRContext *ctx = op->getContext();

  auto resultAttr =

      om::IntegerAttr::get(ctx, mlir::IntegerAttr::get(ctx, result.value()));


  // Finalize the op result value.

  auto *handleValue = cast<evaluator::AttributeValue>(handle.value().get());

  auto resultStatus = handleValue->setAttr(resultAttr);

  if (failed(resultStatus))

    return resultStatus;


  auto finalizeStatus = handleValue->finalize();

  if (failed(finalizeStatus))

    return finalizeStatus;


  return handle;

}

circt::om::Evaluator::evaluateIntegerBinaryArithmetic( {…}


/// Evaluator dispatch function for Object instances.

FailureOr<circt::om::Evaluator::ActualParameters>


circt::om::Evaluator::createParametersFromOperands(

    ValueRange range, ActualParameters actualParams, Location loc) {

  // Create an unique storage to store parameters.

  auto parameters = std::make_unique<

      SmallVector<std::shared_ptr<evaluator::EvaluatorValue>>>();


  // Collect operands' evaluator values in the current instantiation context.

  for (auto input : range) {

    auto inputResult = getOrCreateValue(input, actualParams, loc);

    if (failed(inputResult))

      return failure();

    parameters->push_back(inputResult.value());

  }


  actualParametersBuffers.push_back(std::move(parameters));

  return actualParametersBuffers.back().get();

}

circt::om::Evaluator::createParametersFromOperands( {…}


/// Evaluator dispatch function for Object instances.

FailureOr<evaluator::EvaluatorValuePtr>


circt::om::Evaluator::evaluateObjectInstance(ObjectOp op,

                                             ActualParameters actualParams) {

  auto loc = op.getLoc();

  if (isFullyEvaluated({op, actualParams}))

    return getOrCreateValue(op, actualParams, loc);


  auto params =

      createParametersFromOperands(op.getOperands(), actualParams, loc);

  if (failed(params))

    return failure();

  return evaluateObjectInstance(op.getClassNameAttr(), params.value(), loc,

                                {op, actualParams});

}

circt::om::Evaluator::evaluateObjectInstance(ObjectOp op, {…}


/// Evaluator dispatch function for Object fields.

FailureOr<evaluator::EvaluatorValuePtr>


circt::om::Evaluator::evaluateObjectField(ObjectFieldOp op,

                                          ActualParameters actualParams,

                                          Location loc) {

  // Evaluate the Object itself, in case it hasn't been evaluated yet.

  FailureOr<evaluator::EvaluatorValuePtr> currentObjectResult =

      evaluateValue(op.getObject(), actualParams, loc);

  if (failed(currentObjectResult))

    return currentObjectResult;


  auto *currentObject =

      llvm::cast<evaluator::ObjectValue>(currentObjectResult.value().get());


  auto objectFieldValue = getOrCreateValue(op, actualParams, loc).value();


  // Iteratively access nested fields through the path until we reach the final

  // field in the path.

  evaluator::EvaluatorValuePtr finalField;

  for (auto field : op.getFieldPath().getAsRange<FlatSymbolRefAttr>()) {

    // `currentObject` might no be fully evaluated.

    if (!currentObject->getFields().contains(field.getAttr()))

      return objectFieldValue;


    auto currentField = currentObject->getField(field.getAttr());

    finalField = currentField.value();

    if (auto *nextObject =

            llvm::dyn_cast<evaluator::ObjectValue>(finalField.get()))

      currentObject = nextObject;

  }


  // Update the reference.

  llvm::cast<evaluator::ReferenceValue>(objectFieldValue.get())

      ->setValue(finalField);


  // Return the field being accessed.

  return objectFieldValue;

}

circt::om::Evaluator::evaluateObjectField(ObjectFieldOp op, {…}


/// Evaluator dispatch function for List creation.

FailureOr<evaluator::EvaluatorValuePtr>


circt::om::Evaluator::evaluateListCreate(ListCreateOp op,

                                         ActualParameters actualParams,

                                         Location loc) {

  // Evaluate the Object itself, in case it hasn't been evaluated yet.

  SmallVector<evaluator::EvaluatorValuePtr> values;

  auto list = getOrCreateValue(op, actualParams, loc);

  for (auto operand : op.getOperands()) {

    auto result = evaluateValue(operand, actualParams, loc);

    if (failed(result))

      return result;

    if (!result.value()->isFullyEvaluated())

      return list;

    values.push_back(result.value());

  }


  // Return the list.

  llvm::cast<evaluator::ListValue>(list.value().get())

      ->setElements(std::move(values));

  return list;

}

circt::om::Evaluator::evaluateListCreate(ListCreateOp op, {…}


/// Evaluator dispatch function for List concatenation.

FailureOr<evaluator::EvaluatorValuePtr>


circt::om::Evaluator::evaluateListConcat(ListConcatOp op,

                                         ActualParameters actualParams,

                                         Location loc) {

  // Evaluate the List concat op itself, in case it hasn't been evaluated yet.

  SmallVector<evaluator::EvaluatorValuePtr> values;

  auto list = getOrCreateValue(op, actualParams, loc);


  // Extract the ListValue, either directly or through an object reference.

  auto extractList = [](evaluator::EvaluatorValue *value) {

    return std::move(

        llvm::TypeSwitch<evaluator::EvaluatorValue *, evaluator::ListValue *>(

            value)

            .Case([](evaluator::ListValue *val) { return val; })

            .Case([](evaluator::ReferenceValue *val) {

              return cast<evaluator::ListValue>(val->getStrippedValue()->get());

            }));

  };


  for (auto operand : op.getOperands()) {

    auto result = evaluateValue(operand, actualParams, loc);

    if (failed(result))

      return result;

    if (!result.value()->isFullyEvaluated())

      return list;


    // Extract this sublist and ensure it's done evaluating.

    evaluator::ListValue *subList = extractList(result.value().get());

    if (!subList->isFullyEvaluated())

      return list;


    // Append each EvaluatorValue from the sublist.

    for (auto subValue : subList->getElements())

      values.push_back(subValue);

  }


  // Return the concatenated list.

  llvm::cast<evaluator::ListValue>(list.value().get())

      ->setElements(std::move(values));

  return list;

}

circt::om::Evaluator::evaluateListConcat(ListConcatOp op, {…}


/// Evaluator dispatch function for Tuple creation.

FailureOr<evaluator::EvaluatorValuePtr>


circt::om::Evaluator::evaluateTupleCreate(TupleCreateOp op,

                                          ActualParameters actualParams,

                                          Location loc) {

  SmallVector<evaluator::EvaluatorValuePtr> values;

  for (auto operand : op.getOperands()) {

    auto result = evaluateValue(operand, actualParams, loc);

    if (failed(result))

      return result;

    values.push_back(result.value());

  }


  // Return the tuple.

  auto val = getOrCreateValue(op, actualParams, loc);

  llvm::cast<evaluator::TupleValue>(val.value().get())

      ->setElements(std::move(values));

  return val;

}

circt::om::Evaluator::evaluateTupleCreate(TupleCreateOp op, {…}


/// Evaluator dispatch function for List creation.


FailureOr<evaluator::EvaluatorValuePtr> circt::om::Evaluator::evaluateTupleGet(

    TupleGetOp op, ActualParameters actualParams, Location loc) {

  auto tuple = evaluateValue(op.getInput(), actualParams, loc);

  if (failed(tuple))

    return tuple;

  evaluator::EvaluatorValuePtr result =

      cast<evaluator::TupleValue>(tuple.value().get())

          ->getElements()[op.getIndex()];

  return result;

}

FailureOr<evaluator::EvaluatorValuePtr> circt::om::Evaluator::evaluateTupleGet( {…}


/// Evaluator dispatch function for Map creation.


FailureOr<evaluator::EvaluatorValuePtr> circt::om::Evaluator::evaluateMapCreate(

    MapCreateOp op, ActualParameters actualParams, Location loc) {

  // Evaluate the Object itself, in case it hasn't been evaluated yet.

  DenseMap<Attribute, evaluator::EvaluatorValuePtr> elements;

  auto valueResult = getOrCreateValue(op, actualParams, loc).value();

  for (auto operand : op.getOperands()) {

    auto result = evaluateValue(operand, actualParams, loc);

    if (failed(result))

      return result;

    // The result is a tuple.

    auto &value = result.value();

    if (!value->isFullyEvaluated())

      return valueResult;

    const auto &element =

        llvm::cast<evaluator::TupleValue>(value.get())->getElements();

    assert(element.size() == 2);

    auto attr =

        llvm::cast<evaluator::AttributeValue>(element[0].get())->getAttr();

    if (!elements.insert({attr, element[1]}).second)

      return op.emitError() << "map contains duplicated keys";

  }


  // Return the Map.

  llvm::cast<evaluator::MapValue>(valueResult.get())

      ->setElements(std::move(elements));

  return valueResult;

}

FailureOr<evaluator::EvaluatorValuePtr> circt::om::Evaluator::evaluateMapCreate( {…}


FailureOr<evaluator::EvaluatorValuePtr>


circt::om::Evaluator::evaluateBasePathCreate(FrozenBasePathCreateOp op,

                                             ActualParameters actualParams,

                                             Location loc) {

  // Evaluate the Object itself, in case it hasn't been evaluated yet.

  auto valueResult = getOrCreateValue(op, actualParams, loc).value();

  auto *path = llvm::cast<evaluator::BasePathValue>(valueResult.get());

  auto result = evaluateValue(op.getBasePath(), actualParams, loc);

  if (failed(result))

    return result;

  auto &value = result.value();

  if (!value->isFullyEvaluated())

    return valueResult;

  path->setBasepath(*llvm::cast<evaluator::BasePathValue>(value.get()));

  return valueResult;

}

circt::om::Evaluator::evaluateBasePathCreate(FrozenBasePathCreateOp op, {…}


FailureOr<evaluator::EvaluatorValuePtr>


circt::om::Evaluator::evaluatePathCreate(FrozenPathCreateOp op,

                                         ActualParameters actualParams,

                                         Location loc) {

  // Evaluate the Object itself, in case it hasn't been evaluated yet.

  auto valueResult = getOrCreateValue(op, actualParams, loc).value();

  auto *path = llvm::cast<evaluator::PathValue>(valueResult.get());

  auto result = evaluateValue(op.getBasePath(), actualParams, loc);

  if (failed(result))

    return result;

  auto &value = result.value();

  if (!value->isFullyEvaluated())

    return valueResult;

  path->setBasepath(*llvm::cast<evaluator::BasePathValue>(value.get()));

  return valueResult;

}

circt::om::Evaluator::evaluatePathCreate(FrozenPathCreateOp op, {…}


FailureOr<evaluator::EvaluatorValuePtr> circt::om::Evaluator::evaluateEmptyPath(

    FrozenEmptyPathOp op, ActualParameters actualParams, Location loc) {

  auto valueResult = getOrCreateValue(op, actualParams, loc).value();

  return valueResult;

}

FailureOr<evaluator::EvaluatorValuePtr> circt::om::Evaluator::evaluateEmptyPath( {…}


//===----------------------------------------------------------------------===//

// ObjectValue

//===----------------------------------------------------------------------===//


/// Get a field of the Object by name.

FailureOr<EvaluatorValuePtr>


circt::om::evaluator::ObjectValue::getField(StringAttr name) {

  auto field = fields.find(name);

  if (field == fields.end())

    return cls.emitError("field ") << name << " does not exist";

  return success(fields[name]);

}

circt::om::evaluator::ObjectValue::getField(StringAttr name) {…}


/// Get an ArrayAttr with the names of the fields in the Object. Sort the fields

/// so there is always a stable order.


ArrayAttr circt::om::Object::getFieldNames() {

  SmallVector<Attribute> fieldNames;

  for (auto &f : fields)

    fieldNames.push_back(f.first);


  llvm::sort(fieldNames, [](Attribute a, Attribute b) {

    return cast<StringAttr>(a).getValue() < cast<StringAttr>(b).getValue();

  });


  return ArrayAttr::get(cls.getContext(), fieldNames);

}

ArrayAttr circt::om::Object::getFieldNames() {…}


LogicalResult circt::om::evaluator::ObjectValue::finalizeImpl() {

  for (auto &&[e, value] : fields)

    if (failed(finalizeEvaluatorValue(value)))

      return failure();


  return success();

}

LogicalResult circt::om::evaluator::ObjectValue::finalizeImpl() {…}


//===----------------------------------------------------------------------===//

// MapValue

//===----------------------------------------------------------------------===//


/// Return an array of keys in the ascending order.


ArrayAttr circt::om::evaluator::MapValue::getKeys() {

  SmallVector<Attribute> attrs;

  for (auto &[key, _] : elements)

    attrs.push_back(key);


  std::sort(attrs.begin(), attrs.end(), [](Attribute l, Attribute r) {

    if (auto lInt = dyn_cast<mlir::IntegerAttr>(l))

      if (auto rInt = dyn_cast<mlir::IntegerAttr>(r))

        return lInt.getValue().ult(rInt.getValue());


    assert(isa<StringAttr>(l) && isa<StringAttr>(r) &&

           "key type should be integer or string");

    return cast<StringAttr>(l).getValue() < cast<StringAttr>(r).getValue();

  });


  return ArrayAttr::get(type.getContext(), attrs);

}

ArrayAttr circt::om::evaluator::MapValue::getKeys() {…}


LogicalResult circt::om::evaluator::MapValue::finalizeImpl() {

  for (auto &&[e, value] : elements)

    if (failed(finalizeEvaluatorValue(value)))

      return failure();

  return success();

}

LogicalResult circt::om::evaluator::MapValue::finalizeImpl() {…}


//===----------------------------------------------------------------------===//

// ReferenceValue

//===----------------------------------------------------------------------===//


LogicalResult circt::om::evaluator::ReferenceValue::finalizeImpl() {

  auto result = getStrippedValue();

  if (failed(result))

    return result;

  value = std::move(result.value());

  // the stripped value also needs to be finalized

  if (failed(finalizeEvaluatorValue(value)))

    return failure();


  return success();

}

LogicalResult circt::om::evaluator::ReferenceValue::finalizeImpl() {…}


//===----------------------------------------------------------------------===//

// ListValue

//===----------------------------------------------------------------------===//


LogicalResult circt::om::evaluator::ListValue::finalizeImpl() {

  for (auto &value : elements) {

    if (failed(finalizeEvaluatorValue(value)))

      return failure();

  }

  return success();

}

LogicalResult circt::om::evaluator::ListValue::finalizeImpl() {…}


//===----------------------------------------------------------------------===//

// BasePathValue

//===----------------------------------------------------------------------===//


evaluator::BasePathValue::BasePathValue(MLIRContext *context)

    : EvaluatorValue(context, Kind::BasePath, UnknownLoc::get(context)),

      path(PathAttr::get(context, {})) {

  markFullyEvaluated();

}

evaluator::BasePathValue::BasePathValue(MLIRContext *context) {…}


evaluator::BasePathValue::BasePathValue(PathAttr path, Location loc)

    : EvaluatorValue(path.getContext(), Kind::BasePath, loc), path(path) {}


PathAttr evaluator::BasePathValue::getPath() const {

  assert(isFullyEvaluated());

  return path;

}

PathAttr evaluator::BasePathValue::getPath() const  {…}


void evaluator::BasePathValue::setBasepath(const BasePathValue &basepath) {

  assert(!isFullyEvaluated());

  auto newPath = llvm::to_vector(basepath.path.getPath());

  auto oldPath = path.getPath();

  newPath.append(oldPath.begin(), oldPath.end());

  path = PathAttr::get(path.getContext(), newPath);

  markFullyEvaluated();

}

void evaluator::BasePathValue::setBasepath(const BasePathValue &basepath) {…}


//===----------------------------------------------------------------------===//

// PathValue

//===----------------------------------------------------------------------===//


evaluator::PathValue::PathValue(TargetKindAttr targetKind, PathAttr path,

                                StringAttr module, StringAttr ref,

                                StringAttr field, Location loc)

    : EvaluatorValue(loc.getContext(), Kind::Path, loc), targetKind(targetKind),

      path(path), module(module), ref(ref), field(field) {}

evaluator::PathValue::PathValue(TargetKindAttr targetKind, PathAttr path, {…}


evaluator::PathValue evaluator::PathValue::getEmptyPath(Location loc) {

  PathValue path(nullptr, nullptr, nullptr, nullptr, nullptr, loc);

  path.markFullyEvaluated();

  return path;

}

evaluator::PathValue evaluator::PathValue::getEmptyPath(Location loc) {…}


StringAttr evaluator::PathValue::getAsString() const {

  // If the module is null, then this is a path to a deleted object.

  if (!targetKind)

    return StringAttr::get(getContext(), "OMDeleted:");

  SmallString<64> result;

  switch (targetKind.getValue()) {

  case TargetKind::DontTouch:

    result += "OMDontTouchedReferenceTarget";

    break;

  case TargetKind::Instance:

    result += "OMInstanceTarget";

    break;

  case TargetKind::MemberInstance:

    result += "OMMemberInstanceTarget";

    break;

  case TargetKind::MemberReference:

    result += "OMMemberReferenceTarget";

    break;

  case TargetKind::Reference:

    result += "OMReferenceTarget";

    break;

  }

  result += ":~";

  if (!path.getPath().empty())

    result += path.getPath().front().module;

  else

    result += module.getValue();

  result += '|';

  for (const auto &elt : path) {

    result += elt.module.getValue();

    result += '/';

    result += elt.instance.getValue();

    result += ':';

  }

  if (!module.getValue().empty())

    result += module.getValue();

  if (!ref.getValue().empty()) {

    result += '>';

    result += ref.getValue();

  }

  if (!field.getValue().empty())

    result += field.getValue();

  return StringAttr::get(field.getContext(), result);

}

StringAttr evaluator::PathValue::getAsString() const  {…}


void evaluator::PathValue::setBasepath(const BasePathValue &basepath) {

  assert(!isFullyEvaluated());

  auto newPath = llvm::to_vector(basepath.getPath().getPath());

  auto oldPath = path.getPath();

  newPath.append(oldPath.begin(), oldPath.end());

  path = PathAttr::get(path.getContext(), newPath);

  markFullyEvaluated();

}

void evaluator::PathValue::setBasepath(const BasePathValue &basepath) {…}


//===----------------------------------------------------------------------===//

// AttributeValue

//===----------------------------------------------------------------------===//


LogicalResult circt::om::evaluator::AttributeValue::setAttr(Attribute attr) {

  if (cast<TypedAttr>(attr).getType() != this->type)

    return mlir::emitError(getLoc(), "cannot set AttributeValue of type ")

           << this->type << " to Attribute " << attr;

  if (isFullyEvaluated())

    return mlir::emitError(

        getLoc(),

        "cannot set AttributeValue that has already been fully evaluated");

  this->attr = attr;

  markFullyEvaluated();

  return success();

}

LogicalResult circt::om::evaluator::AttributeValue::setAttr(Attribute attr) {…}


LogicalResult circt::om::evaluator::AttributeValue::finalizeImpl() {

  if (!isFullyEvaluated())

    return mlir::emitError(

        getLoc(), "cannot finalize AttributeValue that is not fully evaluated");

  return success();

}

LogicalResult circt::om::evaluator::AttributeValue::finalizeImpl() {…}

assert
assert(baseType &&"element must be base type")

Evaluator.h

getLoc
static Location getLoc(DefSlot slot)
Definition Mem2Reg.cpp:212

llvm::SmallDenseMap
Definition LLVM.h:77

circt::om::evaluator
Definition Evaluator.h:33

circt::om::evaluator::EvaluatorValuePtr
std::shared_ptr< EvaluatorValue > EvaluatorValuePtr
A value of an object in memory.
Definition Evaluator.h:38

circt::om
Definition Evaluator.h:31

circt::om::getEvaluatorValuesFromAttributes
SmallVector< EvaluatorValuePtr > getEvaluatorValuesFromAttributes(MLIRContext *context, ArrayRef< Attribute > attributes)
Definition Evaluator.cpp:34

mlir
Definition DebugAnalysis.h:16

circt::om::Evaluator::evaluateBasePathCreate
FailureOr< evaluator::EvaluatorValuePtr > evaluateBasePathCreate(FrozenBasePathCreateOp op, ActualParameters actualParams, Location loc)
Definition Evaluator.cpp:700

circt::om::Evaluator::evaluateEmptyPath
FailureOr< evaluator::EvaluatorValuePtr > evaluateEmptyPath(FrozenEmptyPathOp op, ActualParameters actualParams, Location loc)
Definition Evaluator.cpp:733

circt::om::Evaluator::getPartiallyEvaluatedValue
FailureOr< evaluator::EvaluatorValuePtr > getPartiallyEvaluatedValue(Type type, Location loc)
Definition Evaluator.cpp:72

circt::om::Evaluator::evaluateValue
FailureOr< EvaluatorValuePtr > evaluateValue(Value value, ActualParameters actualParams, Location loc)
Evaluate a Value in a Class body according to the small expression grammar described in the rationale...
Definition Evaluator.cpp:339

circt::om::Evaluator::evaluateConstant
FailureOr< EvaluatorValuePtr > evaluateConstant(ConstantOp op, ActualParameters actualParams, Location loc)
Evaluator dispatch function for constants.
Definition Evaluator.cpp:411

circt::om::Evaluator::evaluateIntegerBinaryArithmetic
FailureOr< EvaluatorValuePtr > evaluateIntegerBinaryArithmetic(IntegerBinaryArithmeticOp op, ActualParameters actualParams, Location loc)
Definition Evaluator.cpp:420

circt::om::Evaluator::getModule
mlir::ModuleOp getModule()
Get the Module this Evaluator is built from.
Definition Evaluator.cpp:29

circt::om::Evaluator::evaluateObjectField
FailureOr< EvaluatorValuePtr > evaluateObjectField(ObjectFieldOp op, ActualParameters actualParams, Location loc)
Evaluator dispatch function for Object fields.
Definition Evaluator.cpp:535

circt::om::Evaluator::Evaluator
Evaluator(ModuleOp mod)
Construct an Evaluator with an IR module.
Definition Evaluator.cpp:26

circt::om::Evaluator::evaluateMapCreate
FailureOr< evaluator::EvaluatorValuePtr > evaluateMapCreate(MapCreateOp op, ActualParameters actualParams, Location loc)
Evaluator dispatch function for Map creation.
Definition Evaluator.cpp:671

circt::om::Evaluator::instantiate
FailureOr< evaluator::EvaluatorValuePtr > instantiate(StringAttr className, ArrayRef< EvaluatorValuePtr > actualParams)
Instantiate an Object with its class name and actual parameters.
Definition Evaluator.cpp:294

circt::om::Evaluator::getOrCreateValue
FailureOr< EvaluatorValuePtr > getOrCreateValue(Value value, ActualParameters actualParams, Location loc)
Definition Evaluator.cpp:108

circt::om::Evaluator::ActualParameters
SmallVectorImpl< std::shared_ptr< evaluator::EvaluatorValue > > * ActualParameters
Definition Evaluator.h:435

circt::om::Evaluator::evaluateListCreate
FailureOr< EvaluatorValuePtr > evaluateListCreate(ListCreateOp op, ActualParameters actualParams, Location loc)
Evaluator dispatch function for List creation.
Definition Evaluator.cpp:574

circt::om::Evaluator::evaluateListConcat
FailureOr< EvaluatorValuePtr > evaluateListConcat(ListConcatOp op, ActualParameters actualParams, Location loc)
Evaluator dispatch function for List concatenation.
Definition Evaluator.cpp:597

circt::om::Evaluator::ObjectKey
std::pair< Value, ActualParameters > ObjectKey
Definition Evaluator.h:437

circt::om::Evaluator::evaluateParameter
FailureOr< EvaluatorValuePtr > evaluateParameter(BlockArgument formalParam, ActualParameters actualParams, Location loc)
Evaluator dispatch functions for the small expression grammar.
Definition Evaluator.cpp:402

circt::om::Evaluator::evaluateObjectInstance
FailureOr< EvaluatorValuePtr > evaluateObjectInstance(StringAttr className, ActualParameters actualParams, Location loc, ObjectKey instanceKey={})
Instantiate an Object with its class name and actual parameters.
Definition Evaluator.cpp:194

circt::om::Evaluator::evaluateTupleGet
FailureOr< EvaluatorValuePtr > evaluateTupleGet(TupleGetOp op, ActualParameters actualParams, Location loc)
Evaluator dispatch function for List creation.
Definition Evaluator.cpp:659

circt::om::Evaluator::evaluateTupleCreate
FailureOr< EvaluatorValuePtr > evaluateTupleCreate(TupleCreateOp op, ActualParameters actualParams, Location loc)
Evaluator dispatch function for Tuple creation.
Definition Evaluator.cpp:640

circt::om::Evaluator::evaluatePathCreate
FailureOr< evaluator::EvaluatorValuePtr > evaluatePathCreate(FrozenPathCreateOp op, ActualParameters actualParams, Location loc)
Definition Evaluator.cpp:717

circt::om::Evaluator::createParametersFromOperands
FailureOr< ActualParameters > createParametersFromOperands(ValueRange range, ActualParameters actualParams, Location loc)
Evaluator dispatch function for Object instances.
Definition Evaluator.cpp:499

circt::om::evaluator::AttributeValue
Values which can be directly representable by MLIR attributes.
Definition Evaluator.h:132

circt::om::evaluator::AttributeValue::setAttr
LogicalResult setAttr(Attribute attr)
Definition Evaluator.cpp:933

circt::om::evaluator::AttributeValue::finalizeImpl
LogicalResult finalizeImpl()
Definition Evaluator.cpp:946

circt::om::evaluator::AttributeValue::getAs
AttrTy getAs() const
Definition Evaluator.h:149

circt::om::evaluator::BasePathValue
A Basepath value.
Definition Evaluator.h:348

circt::om::evaluator::BasePathValue::BasePathValue
BasePathValue(MLIRContext *context)
Definition Evaluator.cpp:836

circt::om::evaluator::BasePathValue::path
om::PathAttr path
Definition Evaluator.h:368

circt::om::evaluator::BasePathValue::setBasepath
void setBasepath(const BasePathValue &basepath)
Set the basepath which this path is relative to.
Definition Evaluator.cpp:850

circt::om::evaluator::BasePathValue::getPath
om::PathAttr getPath() const
Definition Evaluator.cpp:845

circt::om::evaluator::EvaluatorValue
Base class for evaluator runtime values.
Definition Evaluator.h:48

circt::om::evaluator::EvaluatorValue::isFullyEvaluated
bool isFullyEvaluated() const
Definition Evaluator.h:57

circt::om::evaluator::EvaluatorValue::markFullyEvaluated
void markFullyEvaluated()
Definition Evaluator.h:58

circt::om::evaluator::EvaluatorValue::finalize
LogicalResult finalize()
Definition Evaluator.cpp:43

circt::om::evaluator::EvaluatorValue::Kind
Kind
Definition Evaluator.h:50

circt::om::evaluator::EvaluatorValue::getType
Type getType() const
Definition Evaluator.cpp:57

circt::om::evaluator::ListValue
A List which contains variadic length of elements with the same type.
Definition Evaluator.h:183

circt::om::evaluator::ListValue::getElements
const auto & getElements() const
Definition Evaluator.h:203

circt::om::evaluator::ListValue::finalizeImpl
LogicalResult finalizeImpl()
Definition Evaluator.cpp:824

circt::om::evaluator::MapValue
A Map value.
Definition Evaluator.h:219

circt::om::evaluator::MapValue::getKeys
ArrayAttr getKeys()
Return an array of keys in the ascending order.
Definition Evaluator.cpp:779

circt::om::evaluator::MapValue::finalizeImpl
LogicalResult finalizeImpl()
Definition Evaluator.cpp:797

circt::om::evaluator::ObjectValue
A composite Object, which has a type and fields.
Definition Evaluator.h:257

circt::om::evaluator::ObjectValue::finalizeImpl
LogicalResult finalizeImpl()
Definition Evaluator.cpp:766

circt::om::evaluator::ObjectValue::getField
FailureOr< EvaluatorValuePtr > getField(StringAttr field)
Get a field of the Object by name.
Definition Evaluator.cpp:745

circt::om::evaluator::ObjectValue::getFieldNames
ArrayAttr getFieldNames()
Get all the field names of the Object.
Definition Evaluator.cpp:754

circt::om::evaluator::PathValue
A Path value.
Definition Evaluator.h:372

circt::om::evaluator::PathValue::getAsString
StringAttr getAsString() const
Definition Evaluator.cpp:875

circt::om::evaluator::PathValue::setBasepath
void setBasepath(const BasePathValue &basepath)
Definition Evaluator.cpp:920

circt::om::evaluator::PathValue::PathValue
PathValue(om::TargetKindAttr targetKind, om::PathAttr path, StringAttr module, StringAttr ref, StringAttr field, Location loc)
Create a path value representing a regular path.
Definition Evaluator.cpp:863

circt::om::evaluator::PathValue::getEmptyPath
static PathValue getEmptyPath(Location loc)
Definition Evaluator.cpp:869

circt::om::evaluator::ReferenceValue
Values which can be used as pointers to different values.
Definition Evaluator.h:93

circt::om::evaluator::ReferenceValue::finalizeImpl
LogicalResult finalizeImpl()
Definition Evaluator.cpp:808

circt::om::evaluator::TupleValue
Tuple values.
Definition Evaluator.h:308