This is what metatables and metamethods are for. You should have a read in the documentation.

Basically, they let you redefine what operators (and some other things) do on your values. What you want right now is to define the `__sub`

metamethod, which defines how to handle the `-`

operator. I guess in the future you'll want to redefine the other metamethods as well.

First, define a subtraction function in your `Vector3`

"class" that takes two vectors:

```
function Vector3.subtract(u,v)
return Vector3.new(u.x - v.x, u.y - v.y, u.z - v.z)
end
```

Then create let `Vector3`

know the metatable it should give all vectors:

```
Vector3.mt = {__sub = Vector3.subtract}
```

And when you create a new vector:

```
new = function (x1, y1, z1)
local vec = {x = x1, y = y1, z = z1}
setmetatable(vec, Vector3.mt)
return vec
end
```

You could also make the metatable (`mt`

) a local variable inside your `new`

function - that would prevent external code from messing with the metatable (as it would be only accessible by your `new`

function). However, having it inside `Vector3`

allows you to check against usages like `v - "string"`

:

```
function Vector3.subtract(u,v)
if getmetatable(u) ~= Vector3.mt or
getmetatable(v) ~= Vector3.mt then
error("Only vectors can be subtracted from vectors", 2)
end
return Vector3.new(u.x - v.x, u.y - v.y, u.z - v.z)
end
```