////
//// Constructs the coverage relationship amongst all figure components
////
//private static void HandleAllFigureIntrinsicFacts(List<GroundedClause> figure)
//{
// for (int f1 = 0; f1 < figure.Count; f1++)
// {
// for (int f2 = 0; f2 < figure.Count; f2++)
// {
// if (f1 != f2)
// {
// if (figure[f1].Covers(figure[f2])) figure[f1].AddComponent(figure[f2].clauseId);
// }
// }
// }
//}
//
// Preprocess the given clauses
//
private static void HandleAllGivens(List <GroundedClause> figure, List <GroundedClause> givens)
{
////
//// Link the boolean facts to the intrinsic facts through coverage (implication)
////
//foreach (GroundedClause given in givens)
//{
// foreach (GroundedClause component in figure)
// {
// if (given.Covers(component))
// {
// given.AddComponent(component.clauseId);
// given.AddComponentList(component.figureComponents);
// }
// }
//}
//
// Are any of the givens congruent relationships?
//
foreach (GroundedClause clause in givens)
{
if (clause is CongruentTriangles)
{
CongruentTriangles conTris = clause as CongruentTriangles;
if (conTris.VerifyCongruentTriangles())
{
// indicate that these triangles are congruent to prevent future 'reproving' congruent
conTris.ProcessGivens();
}
// This is not a valid congruence.
else
{
// Remove?
}
}
//else if (clause is SimilarTriangles)
//{
// SimilarTriangles simTris = clause as SimilarTriangles;
// if (simTris.VerifyCongruentTriangles())
// {
// // indicate that these triangles are congruent to prevent future 'reproving' congruent
// simTris.ProcessGivens();
// }
// // This is not a valid similarity.
// else
// {
// // Remove?
// }
//}
}
}