public void Move(ref SimPoint position, ref SimPoint velocity, SimPoint acceleration, double deltaT)
{
if (!((acceleration.X == 0.0) && (acceleration.Y == 0.0)))
{
// Apply linear acceleration during the time interval
double newVelocityX = velocity.X + (acceleration.X * deltaT);
position.X += (velocity.X + newVelocityX) / 2 * deltaT;
velocity.X = newVelocityX;
double newVelocityY = velocity.Y + (acceleration.Y * deltaT);
position.Y += (velocity.Y + newVelocityY) / 2 * deltaT;
velocity.Y = newVelocityY;
}
}
public void Accelerate(SimPoint position, ref SimPoint acceleration)
{
double rX = -position.X;
double rY = -position.Y;
double rSquared = (rX * rX) + (rY * rY);
// rSquared = Math.Max(rSquared, MinimumSeparationSquared); // enforce minimum value of r -- unnecessary with orbital scenarios
double r = Math.Sqrt(rSquared);
// F = m1 * a, g = G * m1 * m2 / rSquared, m1's cancel out so a = G * m2 / rSquared
double a = BigG * CentralBodyMass / rSquared;
acceleration.X = a * rX / r;
acceleration.Y = a * rY / r;
}
public void MoveWithPrecisionCheck(ref SimPoint position, ref SimPoint velocity, SimPoint acceleration, double deltaT)
{
if (!((acceleration.X == 0.0) && (acceleration.Y == 0.0)))
{
// Apply linear acceleration during the time interval
double deltaVX = acceleration.X * deltaT;
if (FloatingPointUtil.CheckAdditionPrecision(velocity.X, deltaVX))
{
DisplayPrecisionIssue(velocity.X, deltaVX, "Adding DeltaV to VX", 0);
}
double newVelocityX = velocity.X + deltaVX;
double deltaPX = (velocity.X + newVelocityX) / 2 * deltaT;
if (FloatingPointUtil.CheckAdditionPrecision(position.X, deltaPX))
{
DisplayPrecisionIssue(position.X, deltaPX, "Adding to Position.X", 0);
}
position.X += deltaPX;
velocity.X = newVelocityX;
double deltaVY = acceleration.Y * deltaT;
if (FloatingPointUtil.CheckAdditionPrecision(velocity.Y, deltaVY))
{
DisplayPrecisionIssue(velocity.Y, deltaVY, "Adding DeltaV to VY", 0);
}
double newVelocityY = velocity.Y + deltaVY;
double deltaPY = (velocity.Y + newVelocityY) / 2 * deltaT;
if (FloatingPointUtil.CheckAdditionPrecision(position.Y, deltaPY))
{
DisplayPrecisionIssue(position.Y, deltaPY, "Adding to Position.Y", 0);
}
position.Y += deltaPY;
velocity.Y = newVelocityY;
}
}
