As Dahk says, the Room table you define is the one you also return as the "new" Room object.
Room:method(...)
is a syntax shorthand for Room.method(Room, ...)
The self
variable provided by Lua contains a reference to Room when you use the shorthand, so when you type Room:new(5, 6, 3, 3)
what Lua reads is Room.new(Room, 5, 6, 3, 3)
with self = Room
. When we then let self.width = 5
what happens is Room.width = 5
and that's not what we wanted to happen.
To solve this we need to create a new object every time Room:new
is called. We create a new table, called obj and then store the values in that.
function Room:new(width, height, x, y)
local obj = {
Width = width,
Height = height,
X = x,
Y = y,
Left = x,
Right = x + width,
Top = y,
Bottom = y + height,
}
return obj
end
This works well, we now can create rooms. But when we try to do room1:Intersects(other)
we get an error: method Intersects not defined
. We might have defined a new room, but this room is nothing more than a simple table. This is where metatables come in. Simply put, a metatable defines the behaviour of a table. In our case we want this to contain a for Lua to look when it can't find a value or method in the original list. (See chapter 13 for more info on metatables.)
Let's look at an example:
If the floor in each room would be the same, we could either copy this floor to every child, or we let Room.floor = "Carpet"
and go back to this when someone asks us what the floor in a certain room is. To go back to this we use metatables and the __index
method. This method is that place Lua will look for values it can't find.
function Room:new(width, height, x, y)
local obj = {
...
}
setmetatable(obj, self) -- self here is equal to Room
self.__index = self
return obj
end
Again we create the object with all the values we want to store for each room separately. Second, we let Room
be the metatable for obj
. The third line tells us that the Room table should be used when any methods can't be found.
The use of self.__index = self
during the creation of an object would be the same as writing Room.__index = Room
when defining Room itself, but helps when you just copy the same/similar code every time :)
In case we have defined that Room.floor = "Carpet"
, the result of print(room1.floor)
will be Carpet as expected. The value of room1.floor
is nil
, then Lua will look for an __index
in the metatable of room1, where it finds that Room might contain what it was looking for. And indeed, Room.floor
is defined, so that is what Lua sees as the answer.
Summary
You can also set a metable and use the __index
method to define an object as you wished to do. I think it might also be more memory effiecient as you do not define each function seperately for each object of the same class.
Also, in case you want to have Room:Intersects
give false when you do something like room1:intersects(room1)
, just add self ~= other
. That only succeeds if self
and other
are exactly the same table, even if all the values of the room are the same, they will not be equal and intersect each other.