path: root/Solvers/VIATRA-Solver/hu.bme.mit.inf.dslreasoner.viatrasolver.partialinterpretationlanguage/src/hu/bme/mit/inf/dslreasoner/viatrasolver/partialinterpretationlanguage/neighbourhood/Descriptor.xtend

package hu.bme.mit.inf.dslreasoner.viatrasolver.partialinterpretationlanguage.neighbourhood

import java.util.HashMap
import java.util.Map
import java.util.Set
import org.eclipse.xtend.lib.annotations.Data

@Data abstract class AbstractNodeDescriptor {
	long dataHash
	
//	@Pure
//	@Override
//	override public boolean equals(Object obj) {
//		if (this === obj)
//			return true;
//		if (obj === null)
//			return false;
//		if (getClass() != obj.getClass())
//			return false;
//		val AbstractNodeDescriptor other = obj as AbstractNodeDescriptor;
//		if (other.dataHash != this.dataHash)
//			return false;
//		return true;
//	}
}

@Data class LocalNodeDescriptor extends AbstractNodeDescriptor{
	Set<String> types
	String id;
	new(String id, Set<String> types) {
		super(calcualteDataHash(id,types))
		this.types = types
		this.id = id
	}
	
	def private static calcualteDataHash(String id, Set<String> types) {
		val int prime = 31;
		var result = 0
	    if(id !== null)
	   		result = id.hashCode();
	   	if(types !== null) { 
	   		result = prime * result + types.hashCode
	   	}
	   	return result
	}
	
	override hashCode() {
		return this.dataHash.hashCode
	}
	
	override toString() {
		return class.name + this.dataHash
	}
	
//	@Pure
//	@Override
//	override public boolean equals(Object obj) {
//		if (this === obj)
//			return true;
//		if (obj === null)
//			return false;
//		if (getClass() != obj.getClass())
//			return false;
//		val AbstractNodeDescriptor other = obj as AbstractNodeDescriptor;
//		if (other.dataHash != this.dataHash)
//			return false;
//		return true;
//	}
	
//	@Pure
//	override public boolean equals(Object obj) {
//		if (this === obj)
//			return true;
//		if (obj === null)
//			return false;
//		if (getClass() != obj.getClass())
//			return false;
//		if (!super.equals(obj))
//			return false;
//		val LocalNodeDescriptor other = obj as LocalNodeDescriptor;
//		if (this.clazz === null) {
//			if (other.clazz != null)
//				return false;
//		} else if (!this.clazz.equals(other.clazz))
//			return false;
//		return true;
//	}
}

@Data class IncomingRelation<FROM> {
	FROM from
	String type
}

@Data class OutgoingRelation<TO> {
	TO to
	String type
}

@Data class FurtherNodeDescriptor<NodeRep> extends AbstractNodeDescriptor{
	
	 NodeRep previousRepresentation
	 Map<IncomingRelation<NodeRep>,Integer> incomingEdges
	 Map<OutgoingRelation<NodeRep>,Integer> outgoingEdges
	 
	 new(
	 	NodeRep previousRepresentation,
	 	Map<IncomingRelation<NodeRep>,Integer> incomingEdges,
		Map<OutgoingRelation<NodeRep>,Integer> outgoingEdges)
	{
	 	super(calculateDataHash(previousRepresentation,incomingEdges,outgoingEdges))
	 	this.previousRepresentation = previousRepresentation
	 	this.incomingEdges = new HashMap(incomingEdges)
	 	this.outgoingEdges = new HashMap(outgoingEdges)
	 }
	 
	static def private <NodeRep> int calculateDataHash(
	 	NodeRep previousRepresentation,
	 	Map<IncomingRelation<NodeRep>,Integer> incomingEdges,
		Map<OutgoingRelation<NodeRep>,Integer> outgoingEdges)
	{
	    val int prime = 31;
	    var int result = previousRepresentation.hashCode;
	    if(incomingEdges !== null)
	   		result = prime * result + incomingEdges.hashCode();
	   	if(outgoingEdges !== null) 
	   		result = prime * result + outgoingEdges.hashCode();
	    return result;
  	}
  	
  	override hashCode() {
		return this.dataHash.hashCode 
	}
	
	override toString() {
		return class.name + dataHash
//		return '''[«previousRepresentation»,(«FOR
//			in: incomingEdges.entrySet»(«in.key.type.name»=«in.key.from»,«in.value»)«ENDFOR»),(«FOR
//			out: outgoingEdges.entrySet»(«out.key.type.name»=«out.key.to»,«out.value»)«ENDFOR»),«FOR
//			att: attributeValues»(«att.type.name»=«att.value»)«ENDFOR»]'''
	}
	
//	@Pure
//	@Override
//	override public boolean equals(Object obj) {
//		if (this === obj)
//			return true;
//		if (obj === null)
//			return false;
//		if (getClass() != obj.getClass())
//			return false;
//		val AbstractNodeDescriptor other = obj as AbstractNodeDescriptor;
//		if (other.dataHash != this.dataHash)
//			return false;
//		return true;
//	}
	
//	@Pure
//	override public boolean equals(Object obj) {
//		if (this === obj)
//			return true;
//		if (obj === null)
//			return false;
//		if (getClass() != obj.getClass())
//			return false;
//		if (!super.equals(obj))
//			return false;
//		val FurtherNodeDescriptor<?> other = obj as FurtherNodeDescriptor<?>;
//		if (this.previousRepresentation === null) {
//			if (other.previousRepresentation != null)
//				return false;
//			
//		}
////		} else if (!this.previousRepresentation.equals(other.previousRepresentation))
////			return false;
//		if (this.incomingEdges === null) {
//			if (other.incomingEdges != null)
//				return false;
//		} else if (!this.incomingEdges.equals(other.incomingEdges))
//			return false;
//		if (this.outgoingEdges === null) {
//			if (other.outgoingEdges != null)
//				return false;
//		} else if (!this.outgoingEdges.equals(other.outgoingEdges))
//			return false;
//		if (this.attributeValues === null) {
//			if (other.attributeValues != null)
//				return false;
//		} else if (!this.attributeValues.equals(other.attributeValues))
//			return false;
//		return true;
//	}
}

/*
@Data
class ModelDescriptor {
	int dataHash
	int unknownElements
	Map<? extends AbstractNodeDescriptor,Integer> knownElements
	
	public new(Map<? extends AbstractNodeDescriptor,Integer> knownElements, int unknownElements) {
		this.dataHash = calculateDataHash(knownElements,unknownElements)
		this.unknownElements = unknownElements
		this.knownElements = knownElements
	}
	
	def private static calculateDataHash(Map<? extends AbstractNodeDescriptor,Integer> knownElements, int unknownElements)
	{
		val int prime = 31;
		return knownElements.hashCode * prime + unknownElements.hashCode 
	}
}
*/