internal override IEnumerable <LiteralVertexPair <T_Identifier> > GetSuccessors(
Vertex vertex)
{
LiteralVertexPair <T_Identifier>[] literalVertexPairArray = new LiteralVertexPair <T_Identifier> [2];
Vertex child1 = vertex.Children[0];
Vertex child2 = vertex.Children[1];
this.InitializeInverseVariableMap();
Literal <T_Identifier> literal1 = new Literal <T_Identifier>(this._inverseVariableMap[vertex.Variable], true);
literalVertexPairArray[0] = new LiteralVertexPair <T_Identifier>(child1, literal1);
Literal <T_Identifier> literal2 = literal1.MakeNegated();
literalVertexPairArray[1] = new LiteralVertexPair <T_Identifier>(child2, literal2);
return((IEnumerable <LiteralVertexPair <T_Identifier> >)literalVertexPairArray);
}
internal override IEnumerable<LiteralVertexPair<T_Identifier>> GetSuccessors(Vertex vertex)
{
var successors = new LiteralVertexPair<T_Identifier>[2];
Debug.Assert(2 == vertex.Children.Length);
var then = vertex.Children[0];
var @else = vertex.Children[1];
// get corresponding term expression
InitializeInverseVariableMap();
var term = _inverseVariableMap[vertex.Variable];
// add positive successor (then)
var literal = new Literal<T_Identifier>(term, true);
successors[0] = new LiteralVertexPair<T_Identifier>(then, literal);
// add negative successor (else)
literal = literal.MakeNegated();
successors[1] = new LiteralVertexPair<T_Identifier>(@else, literal);
return successors;
}
