A metatable is a table that helps in modifying the behavior of a table it is attached to with the help of a key set and related meta methods. These meta methods are powerful Lua functionality that enables features like −
Changing/adding functionalities to operators on tables.
Looking up metatables when the key is not available in the table using __index in metatable.
There are two important methods that are used in handling metatables which includes −
setmetatable(table,metatable) − This method is used to set metatable for a table.
getmetatable(table) − This method is used to get metatable of a table.
Let's first look at how to set one table as metatable of another. It is shown below.
mytable = {} mymetatable = {} setmetatable(mytable,mymetatable)
The above code can be represented in a single line as shown below.
mytable = setmetatable({},{})
A simple example of metatable for looking up the meta table when it's not available in table is shown below.
mytable = setmetatable({key1 = "value1"}, { __index = function(mytable, key) if key == "key2" then return "metatablevalue" else return mytable[key] end end }) print(mytable.key1,mytable.key2)
When we run the above program, we will get the following output.
value1 metatablevalue
Let us explain what happened in the above example in steps.
The table mytable here is {key1 = "value1"}.
Metatable is set for mytable that contains a function for __index, which we call as a metamethod.
The metamethod does a simple job of looking up for an index "key2", if it's found, it returns "metatablevalue", otherwise returns mytable's value for corresponding index.
We can have a simplified version of the above program as shown below.
mytable = setmetatable({key1 = "value1"}, { __index = { key2 = "metatablevalue" } }) print(mytable.key1,mytable.key2)
When we add __newindex to metatable, if keys are not available in the table, the behavior of new keys will be defined by meta methods. A simple example where metatable's index is set when index is not available in the main table is given below.
mymetatable = {} mytable = setmetatable({key1 = "value1"}, { __newindex = mymetatable }) print(mytable.key1) mytable.newkey = "new value 2" print(mytable.newkey,mymetatable.newkey) mytable.key1 = "new value 1" print(mytable.key1,mymetatable.newkey1)
When you run the above program, you get the following output.
value1 nil new value 2 new value 1 nil
You can see in the above program, if a key exists in the main table, it just updates it. When a key is not available in the maintable, it adds that key to the metatable.
Another example that updates the same table using rawset function is shown below.
mytable = setmetatable({key1 = "value1"}, { __newindex = function(mytable, key, value) rawset(mytable, key, "\""..value.."\"") end }) mytable.key1 = "new value" mytable.key2 = 4 print(mytable.key1,mytable.key2)
When we run the above program we will get the following output.
new value "4"
rawset sets value without using __newindex of metatable. Similarly there is rawget that gets value without using __index.
A simple example to combine two tables using + operator is shown below −
mytable = setmetatable({ 1, 2, 3 }, { __add = function(mytable, newtable) for i = 1, table.maxn(newtable) do table.insert(mytable, table.maxn(mytable)+1,newtable[i]) end return mytable end }) secondtable = {4,5,6} mytable = mytable + secondtable for k,v in ipairs(mytable) do print(k,v) end
When we run the above program, we will get the following output.
1 1 2 2 3 3 4 4 5 5 6 6
The __add key is included in the metatable to add behavior of operator +. The table of keys and corresponding operator is shown below.
Sr.No. | Mode & Description |
---|---|
1 | __add Changes the behavior of operator '+'. |
2 | __sub Changes the behavior of operator '-'. |
3 | __mul Changes the behavior of operator '*'. |
4 | __div Changes the behavior of operator '/'. |
5 | __mod Changes the behavior of operator '%'. |
6 | __unm Changes the behavior of operator '-'. |
7 | __concat Changes the behavior of operator '..'. |
8 | __eq Changes the behavior of operator '=='. |
9 | __lt Changes the behavior of operator '<'. |
10 | __le Changes the behavior of operator '<='. |
Adding behavior of method call is done using __call statement. A simple example that returns the sum of values in main table with the passed table.
mytable = setmetatable({10}, { __call = function(mytable, newtable) sum = 0 for i = 1, table.maxn(mytable) do sum = sum + mytable[i] end for i = 1, table.maxn(newtable) do sum = sum + newtable[i] end return sum end }) newtable = {10,20,30} print(mytable(newtable))
When we run the above program, we will get the following output.
70
To change the behavior of the print statement, we can use the __tostring metamethod. A simple example is shown below.
mytable = setmetatable({ 10, 20, 30 }, { __tostring = function(mytable) sum = 0 for k, v in pairs(mytable) do sum = sum + v end return "The sum of values in the table is " .. sum end }) print(mytable)
When we run the above program, we will get the following output.
The sum of values in the table is 60
If you know the capabilities of meta table fully, you can really perform a lot of operations that would be very complex without using it. So, try to work more on using metatables with different options available in meta tables as explained in the samples and also create your own samples.