예제 #1
0
Vector Vector::ProjectInto(hEntity wrkpl) {
    EntityBase *w = SK.GetEntity(wrkpl);
    Vector p0 = w->WorkplaneGetOffset();

    Vector f = this->Minus(p0);

    return p0.Plus(f.ProjectVectorInto(wrkpl));
}
예제 #2
0
Vector EntityBase::PointGetNum(void) {
    Vector p;
    switch(type) {
        case POINT_IN_3D:
            p = Vector::From(param[0], param[1], param[2]);
            break;

        case POINT_IN_2D: {
            EntityBase *c = SK.GetEntity(workplane);
            Vector u = c->Normal()->NormalU();
            Vector v = c->Normal()->NormalV();
            p =        u.ScaledBy(SK.GetParam(param[0])->val);
            p = p.Plus(v.ScaledBy(SK.GetParam(param[1])->val));
            p = p.Plus(c->WorkplaneGetOffset());
            break;
        }

        case POINT_N_TRANS: {
            Vector trans = Vector::From(param[0], param[1], param[2]);
            p = numPoint.Plus(trans.ScaledBy(timesApplied));
            break;
        }

        case POINT_N_ROT_TRANS: {
            Vector offset = Vector::From(param[0], param[1], param[2]);
            Quaternion q = PointGetQuaternion();
            p = q.Rotate(numPoint);
            p = p.Plus(offset);
            break;
        }

        case POINT_N_ROT_AA: {
            Vector offset = Vector::From(param[0], param[1], param[2]);
            Quaternion q = PointGetQuaternion();
            p = numPoint.Minus(offset);
            p = q.Rotate(p);
            p = p.Plus(offset);
            break;
        }

        case POINT_N_COPY:
            p = numPoint;
            break;

        default: oops();
    }
    return p;
}
예제 #3
0
void EntityBase::PointForceTo(Vector p) {
    switch(type) {
        case POINT_IN_3D:
            SK.GetParam(param[0])->val = p.x;
            SK.GetParam(param[1])->val = p.y;
            SK.GetParam(param[2])->val = p.z;
            break;

        case POINT_IN_2D: {
            EntityBase *c = SK.GetEntity(workplane);
            p = p.Minus(c->WorkplaneGetOffset());
            SK.GetParam(param[0])->val = p.Dot(c->Normal()->NormalU());
            SK.GetParam(param[1])->val = p.Dot(c->Normal()->NormalV());
            break;
        }

        case POINT_N_TRANS: {
            if(timesApplied == 0) break;
            Vector trans = (p.Minus(numPoint)).ScaledBy(1.0/timesApplied);
            SK.GetParam(param[0])->val = trans.x;
            SK.GetParam(param[1])->val = trans.y;
            SK.GetParam(param[2])->val = trans.z;
            break;
        }

        case POINT_N_ROT_TRANS: {
            // Force only the translation; leave the rotation unchanged. But
            // remember that we're working with respect to the rotated
            // point.
            Vector trans = p.Minus(PointGetQuaternion().Rotate(numPoint));
            SK.GetParam(param[0])->val = trans.x;
            SK.GetParam(param[1])->val = trans.y;
            SK.GetParam(param[2])->val = trans.z;
            break;
        }

        case POINT_N_ROT_AA: {
            // Force only the angle; the axis and center of rotation stay
            Vector offset = Vector::From(param[0], param[1], param[2]);
            Vector normal = Vector::From(param[4], param[5], param[6]);
            Vector u = normal.Normal(0), v = normal.Normal(1);
            Vector po = p.Minus(offset), numo = numPoint.Minus(offset);
            double thetap = atan2(v.Dot(po), u.Dot(po));
            double thetan = atan2(v.Dot(numo), u.Dot(numo));
            double thetaf = (thetap - thetan);
            double thetai = (SK.GetParam(param[3])->val)*timesApplied*2;
            double dtheta = thetaf - thetai;
            // Take the smallest possible change in the actual step angle,
            // in order to avoid jumps when you cross from +pi to -pi
            while(dtheta < -PI) dtheta += 2*PI;
            while(dtheta > PI) dtheta -= 2*PI;
            SK.GetParam(param[3])->val = (thetai + dtheta)/(timesApplied*2);
            break;
        }

        case POINT_N_COPY:
            // Nothing to do; it's a static copy
            break;

        default: oops();
    }
}