lib/IR/Operation.cpp - platform/external/tensorflow - Gitiles

 //===- Operation.cpp - MLIR Operation Class -------------------------------===//
 //
 // Copyright 2019 The MLIR Authors.
 //
 // Licensed under the Apache License, Version 2.0 (the "License");
 // you may not use this file except in compliance with the License.
 // You may obtain a copy of the License at
 //
 //   http://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS,
 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 // See the License for the specific language governing permissions and
 // limitations under the License.
 // =============================================================================

 #include "mlir/IR/Operation.h"
 #include "AttributeListStorage.h"
 #include "mlir/IR/Instructions.h"
 #include "mlir/IR/MLIRContext.h"
 #include "mlir/IR/Statements.h"
 using namespace mlir;

 Operation::Operation(Identifier name, bool isInstruction,
                      ArrayRef<NamedAttribute> attrs, MLIRContext *context)
     : nameAndIsInstruction(name, isInstruction) {
   this->attrs = AttributeListStorage::get(attrs, context);

 #ifndef NDEBUG
   for (auto elt : attrs)
     assert(elt.second != nullptr && "Attributes cannot have null entries");
 #endif
 }

 Operation::~Operation() {}

 /// Return the context this operation is associated with.
 MLIRContext *Operation::getContext() const {
   if (auto *inst = dyn_cast<OperationInst>(this))
     return inst->getContext();
   return cast<OperationStmt>(this)->getContext();
 }

 /// Return the number of operands this operation has.
 unsigned Operation::getNumOperands() const {
   if (auto *inst = dyn_cast<OperationInst>(this)) {
     return inst->getNumOperands();
   } else {
     return cast<OperationStmt>(this)->getNumOperands();
   }
 }

 SSAValue *Operation::getOperand(unsigned idx) {
   if (auto *inst = dyn_cast<OperationInst>(this)) {
     return inst->getOperand(idx);
   } else {
     auto *stmt = cast<OperationStmt>(this);
     return stmt->getOperand(idx);
   }
 }

 void Operation::setOperand(unsigned idx, SSAValue *value) {
   if (auto *inst = dyn_cast<OperationInst>(this)) {
     inst->setOperand(idx, cast<CFGValue>(value));
   } else {
     auto *stmt = cast<OperationStmt>(this);
     stmt->setOperand(idx, cast<MLValue>(value));
   }
 }

 /// Return the number of results this operation has.
 unsigned Operation::getNumResults() const {
   if (auto *inst = dyn_cast<OperationInst>(this)) {
     return inst->getNumResults();
   } else {
     auto *stmt = cast<OperationStmt>(this);
     return stmt->getNumResults();
   }
 }

 /// Return the indicated result.
 SSAValue *Operation::getResult(unsigned idx) {
   if (auto *inst = dyn_cast<OperationInst>(this)) {
     return inst->getResult(idx);
   } else {
     auto *stmt = cast<OperationStmt>(this);
     return stmt->getResult(idx);
   }
 }

 ArrayRef<NamedAttribute> Operation::getAttrs() const {
   if (!attrs)
     return {};
   return attrs->getElements();
 }

 /// If an attribute exists with the specified name, change it to the new
 /// value.  Otherwise, add a new attribute with the specified name/value.
 void Operation::setAttr(Identifier name, Attribute *value,
                         MLIRContext *context) {
   assert(value && "attributes may never be null");
   auto origAttrs = getAttrs();

   SmallVector<NamedAttribute, 8> newAttrs(origAttrs.begin(), origAttrs.end());

   // If we already have this attribute, replace it.
   for (auto &elt : newAttrs)
     if (elt.first == name) {
       elt.second = value;
       attrs = AttributeListStorage::get(newAttrs, context);
       return;
     }

   // Otherwise, add it.
   newAttrs.push_back({name, value});
   attrs = AttributeListStorage::get(newAttrs, context);
 }

 /// Remove the attribute with the specified name if it exists.  The return
 /// value indicates whether the attribute was present or not.
 auto Operation::removeAttr(Identifier name, MLIRContext *context)
     -> RemoveResult {
   auto origAttrs = getAttrs();
   for (unsigned i = 0, e = origAttrs.size(); i != e; ++i) {
     if (origAttrs[i].first == name) {
       SmallVector<NamedAttribute, 8> newAttrs;
       newAttrs.reserve(origAttrs.size() - 1);
       newAttrs.append(origAttrs.begin(), origAttrs.begin() + i);
       newAttrs.append(origAttrs.begin() + i + 1, origAttrs.end());
       attrs = AttributeListStorage::get(newAttrs, context);
       return RemoveResult::Removed;
     }
   }
   return RemoveResult::NotFound;
 }

 /// Emit a warning about this operation, reporting up to any diagnostic
 /// handlers that may be listening.
 void Operation::emitWarning(const Twine &message) const {
   // Get the location information for this operation.
   auto *loc = getAttr("location");

   // If that fails, fall back to the internal location which is used in
   // testcases.
   if (!loc)
     loc = getAttr(":location");

   auto *context = getContext();
   context->emitDiagnostic(loc, message, /*isError=*/false);
 }

 /// Emit an error about fatal conditions with this operation, reporting up to
 /// any diagnostic handlers that may be listening.  NOTE: This may terminate
 /// the containing application, only use when the IR is in an inconsistent
 /// state.
 void Operation::emitError(const Twine &message) const {
   // Get the location information for this operation.
   auto *loc = getAttr("location");

   // If that fails, fall back to the internal location which is used in
   // testcases.
   if (!loc)
     loc = getAttr(":location");

   auto *context = getContext();
   context->emitDiagnostic(loc, message, /*isError=*/true);
 }
	//===- Operation.cpp - MLIR Operation Class -------------------------------===//
	//
	// Copyright 2019 The MLIR Authors.
	//
	// Licensed under the Apache License, Version 2.0 (the "License");
	// you may not use this file except in compliance with the License.
	// You may obtain a copy of the License at
	//
	// http://www.apache.org/licenses/LICENSE-2.0
	//
	// Unless required by applicable law or agreed to in writing, software
	// distributed under the License is distributed on an "AS IS" BASIS,
	// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	// See the License for the specific language governing permissions and
	// limitations under the License.
	// =============================================================================

	#include "mlir/IR/Operation.h"
	#include "AttributeListStorage.h"
	#include "mlir/IR/Instructions.h"
	#include "mlir/IR/MLIRContext.h"
	#include "mlir/IR/Statements.h"
	using namespace mlir;

	Operation::Operation(Identifier name, bool isInstruction,
	ArrayRef<NamedAttribute> attrs, MLIRContext *context)
	: nameAndIsInstruction(name, isInstruction) {
	this->attrs = AttributeListStorage::get(attrs, context);

	#ifndef NDEBUG
	for (auto elt : attrs)
	assert(elt.second != nullptr && "Attributes cannot have null entries");
	#endif
	}

	Operation::~Operation() {}

	/// Return the context this operation is associated with.
	MLIRContext *Operation::getContext() const {
	if (auto *inst = dyn_cast<OperationInst>(this))
	return inst->getContext();
	return cast<OperationStmt>(this)->getContext();
	}

	/// Return the number of operands this operation has.
	unsigned Operation::getNumOperands() const {
	if (auto *inst = dyn_cast<OperationInst>(this)) {
	return inst->getNumOperands();
	} else {
	return cast<OperationStmt>(this)->getNumOperands();
	}
	}

	SSAValue *Operation::getOperand(unsigned idx) {
	if (auto *inst = dyn_cast<OperationInst>(this)) {
	return inst->getOperand(idx);
	} else {
	auto *stmt = cast<OperationStmt>(this);
	return stmt->getOperand(idx);
	}
	}

	void Operation::setOperand(unsigned idx, SSAValue *value) {
	if (auto *inst = dyn_cast<OperationInst>(this)) {
	inst->setOperand(idx, cast<CFGValue>(value));
	} else {
	auto *stmt = cast<OperationStmt>(this);
	stmt->setOperand(idx, cast<MLValue>(value));
	}
	}

	/// Return the number of results this operation has.
	unsigned Operation::getNumResults() const {
	if (auto *inst = dyn_cast<OperationInst>(this)) {
	return inst->getNumResults();
	} else {
	auto *stmt = cast<OperationStmt>(this);
	return stmt->getNumResults();
	}
	}

	/// Return the indicated result.
	SSAValue *Operation::getResult(unsigned idx) {
	if (auto *inst = dyn_cast<OperationInst>(this)) {
	return inst->getResult(idx);
	} else {
	auto *stmt = cast<OperationStmt>(this);
	return stmt->getResult(idx);
	}
	}

	ArrayRef<NamedAttribute> Operation::getAttrs() const {
	if (!attrs)
	return {};
	return attrs->getElements();
	}

	/// If an attribute exists with the specified name, change it to the new
	/// value. Otherwise, add a new attribute with the specified name/value.
	void Operation::setAttr(Identifier name, Attribute *value,
	MLIRContext *context) {
	assert(value && "attributes may never be null");
	auto origAttrs = getAttrs();

	SmallVector<NamedAttribute, 8> newAttrs(origAttrs.begin(), origAttrs.end());

	// If we already have this attribute, replace it.
	for (auto &elt : newAttrs)
	if (elt.first == name) {
	elt.second = value;
	attrs = AttributeListStorage::get(newAttrs, context);
	return;
	}

	// Otherwise, add it.
	newAttrs.push_back({name, value});
	attrs = AttributeListStorage::get(newAttrs, context);
	}

	/// Remove the attribute with the specified name if it exists. The return
	/// value indicates whether the attribute was present or not.
	auto Operation::removeAttr(Identifier name, MLIRContext *context)
	-> RemoveResult {
	auto origAttrs = getAttrs();
	for (unsigned i = 0, e = origAttrs.size(); i != e; ++i) {
	if (origAttrs[i].first == name) {
	SmallVector<NamedAttribute, 8> newAttrs;
	newAttrs.reserve(origAttrs.size() - 1);
	newAttrs.append(origAttrs.begin(), origAttrs.begin() + i);
	newAttrs.append(origAttrs.begin() + i + 1, origAttrs.end());
	attrs = AttributeListStorage::get(newAttrs, context);
	return RemoveResult::Removed;
	}
	}
	return RemoveResult::NotFound;
	}

	/// Emit a warning about this operation, reporting up to any diagnostic
	/// handlers that may be listening.
	void Operation::emitWarning(const Twine &message) const {
	// Get the location information for this operation.
	auto *loc = getAttr("location");

	// If that fails, fall back to the internal location which is used in
	// testcases.
	if (!loc)
	loc = getAttr(":location");

	auto *context = getContext();
	context->emitDiagnostic(loc, message, /isError=/false);
	}

	/// Emit an error about fatal conditions with this operation, reporting up to
	/// any diagnostic handlers that may be listening. NOTE: This may terminate
	/// the containing application, only use when the IR is in an inconsistent
	/// state.
	void Operation::emitError(const Twine &message) const {
	// Get the location information for this operation.
	auto *loc = getAttr("location");

	// If that fails, fall back to the internal location which is used in
	// testcases.
	if (!loc)
	loc = getAttr(":location");

	auto *context = getContext();
	context->emitDiagnostic(loc, message, /isError=/true);
	}