public static bool IsSameImputs(double[] newinputs, double[,] historicalinput)
{
var oldinputs = OnlineGPupdating.MatrixtoRow(historicalinput);
bool sameinput = true;
for (int i = 0; i < newinputs.Length; i++)
{
var testnewdata = newinputs[i] + 10e-15;// incase is zero
var testolddata = oldinputs[i] + 10e-15;
if (Math.Abs((testnewdata - testolddata) / testolddata) < 0.05)
{
continue;
}
else
{
sameinput = false;
break;
}
}
return(sameinput);
}
public static void EvaluateSubFirstThreeTime(SubAssembly sub, List <Component> refnodes, List <Component> movingnodes,
double olpdis, out double totaltime, out double totalSD, out double securetime, out double securesd)
{
var inputunitscaler = Program.MeshMagnifier / 1000;//magnifier translate unit to cm
var movingsolids = new List <TessellatedSolid>();
var referencesolids = new List <TessellatedSolid>();
var movingvertex = new List <Vertex>();
var counter = 10e6;
///////
///moving
///////
foreach (var n in movingnodes)
{
movingsolids.Add(Program.Solids[n.name][0]); //cheange bbbbb class
}
foreach (var v in sub.Install.Moving.CVXHull.Vertices)
{
movingvertex.Add(v);
}
var movingOBB = OBB.BuildUsingPoints(movingvertex);
// var movingOBB = OBB.BuildUsingPoints(movingvertex);
var lengths = new double[]
{
StarMath.norm1(movingOBB.CornerVertices[0].Position.subtract(movingOBB.CornerVertices[1].Position)),
StarMath.norm1(movingOBB.CornerVertices[2].Position.subtract(movingOBB.CornerVertices[1].Position)),
StarMath.norm1(movingOBB.CornerVertices[0].Position.subtract(movingOBB.CornerVertices[4].Position)),
};
var lmax = lengths.Max() / inputunitscaler; //mm
var lmin = lengths.Min() / inputunitscaler; //mm
double lmid = lengths.Average() / inputunitscaler * 3 - lmax - lmin;
var movingweight = Math.Log(sub.Install.Moving.Mass / inputunitscaler / Math.Pow(inputunitscaler, 3)); //in g ???????????
var OBBvolue = Math.Log(movingOBB.Volume / 1000 / Math.Pow(inputunitscaler, 3)); //cm^3
var OBBmaxsurface = Math.Log(lmax * lmid / 1000);
var OBBminsurface = Math.Log(lmin * lmid / 1000);
/////
/// distance TBD
var movingdistance = 50;//cm
var movingdis = Math.Log(movingdistance);
var movinginput = new double[5] {
movingweight, OBBvolue, OBBmaxsurface, OBBminsurface, movingdis
};
sub.MoveRoateModelInputs = OnlineGPupdating.RowtoMatrix(movinginput);
// Log ( weight, OOBvol OBB, maxf OBB, minf moving, distance )all in mmgs unit system
double movingtime = 0.0;
double movingSD = 0.0;
CalculateAssemblyTimeAndSD.GetTimeAndSD(sub, movinginput, "moving", out movingtime, out movingSD);
// Program.allmtime.Add(movingtime);
///////
///install
///////
var allolpfs = BlockingDetermination.OverlappingSurfaces.FindAll(
s =>
(movingnodes.Any(n => n.name.Equals(s.Solid1.Name))) &&
(refnodes.Any(n => n.name.Equals(s.Solid2.Name)))
||
(movingnodes.Any(n => n.name.Equals(s.Solid2.Name))) &&
(refnodes.Any(n => n.name.Equals(s.Solid1.Name)))
);
double olpfeatures = 0.0;
for (int i = 0; i < allolpfs.Count; i++)
{
olpfeatures += allolpfs[i].Overlappings.Count; ////no alignment features for now;
}
if (olpfeatures == 0)
{
olpfeatures = 0.3;
}
var logOverlappingDist = Math.Log(olpdis / inputunitscaler);
if (double.IsInfinity(logOverlappingDist))
{
logOverlappingDist = 1e-6;
}
var installinput = new double[6] {
movingweight, OBBvolue, OBBmaxsurface, OBBminsurface, logOverlappingDist, Math.Log(olpfeatures)
};
sub.InstallModelInputs = OnlineGPupdating.RowtoMatrix(installinput);
double installtime = 0;
double instalSD = 0;
CalculateAssemblyTimeAndSD.GetTimeAndSD(sub, installinput, "install", out installtime, out instalSD);
//Program.allitime.Add(installtime);
///////
///secure
///////
securetime = 0.0;
securesd = 0.0;
if (sub.Secure.Fasteners != null)
{
foreach (var f in sub.Secure.Fasteners)
{
double eachseucretime = 0;
double eachsecureSD = 0;
var secureinput = new double[6];
if (f.SecureModelInputs == null)
{
var OBBmax = (f.Diameter / inputunitscaler) * (f.OverallLength / inputunitscaler);
var OBBmin = (f.Diameter / inputunitscaler) * (f.Diameter / inputunitscaler);
var numberofthreads = f.NumberOfThreads;
if (numberofthreads == 0)
{
numberofthreads = 10;
}
var insertdistance = f.EngagedLength / inputunitscaler * 0.5;
if (insertdistance == 0)
{
insertdistance = numberofthreads * 0.25;
}
var nut = 1;
var tool = 2;
if (f.Nuts != null)
{
nut = 2;
}
secureinput = new double[6] {
Math.Log(OBBmax / 1000), Math.Log(OBBmin / 1000), Math.Log(numberofthreads), Math.Log(insertdistance), nut, tool
};
f.SecureModelInputs = OnlineGPupdating.RowtoMatrix(secureinput);
}
else
{
secureinput = OnlineGPupdating.MatrixtoRow(f.SecureModelInputs);
}
CalculateAssemblyTimeAndSD.GetTimeAndSD(sub, secureinput, "s", out eachseucretime, out eachsecureSD);
securetime += eachseucretime;
securesd += eachsecureSD;
f.Time = eachseucretime;
f.TimeSD = eachsecureSD;
// if (eachseucretime > 30)
// {
// var sssss = 1;
// }
//// if (securetime != 0)
// // Bridge.gpsecuretime.Add(eachseucretime);
}
}
if (installtime < 0)
{
installtime = 0.5;
}
if (movingtime < 0)
{
movingtime = 0.5;
}
sub.MoveRoate.Time = movingtime;
sub.MoveRoate.TimeSD = movingSD;
totalSD = instalSD + movingSD;
sub.Install.Time = installtime;
sub.Install.TimeSD = totalSD;
sub.Secure.Time = securetime;
sub.Secure.TimeSD = securesd;
totaltime = installtime + movingtime;
if (movingtime > 2.9 && movingtime < 3.01)
{
var sss = 1;
}
if (installtime > 2.9 && installtime < 3.01)
{
var sss = 1;
}
// Bridge.gpinstalltime.Add(installtime);
// Bridge.gpmovingtime.Add(movingtime);
}
