މޮޑިއުލް:Middleclass
Middleclass is an object-oriented library for Lua, written by Enrique García Cota (kikito) and maintained at GitHub.
If you are familiar with Object Orientation in other languages (C++, Java, Ruby … ) then you will probably find this library very easy to use.
The code is reasonably commented, so you might want to employ some time in reading through it, in order to gain insight of Lua’s amazing flexibility.
Quick Example
[އުނިއިތުރު ގެންނަވާ]local class = require('Module:Middleclass').class
Person = class('Person') --this is the same as class('Person', Object) or Object:subclass('Person')
function Person:initialize(name)
self.name = name
end
function Person:speak()
return 'Hi, I am ' .. self.name ..'.'
end
AgedPerson = class('AgedPerson', Person) -- or Person:subclass('AgedPerson')
AgedPerson.static.ADULT_AGE = 18 --this is a class variable
function AgedPerson:initialize(name, age)
Person.initialize(self, name) -- this calls the parent's constructor (Person.initialize) on self
self.age = age
end
function AgedPerson:speak()
local hi = Person.speak(self) -- "Hi, I am xx."
if self.age < AgedPerson.ADULT_AGE then -- accessing a class variable from an instance method
return hi .. '\nI am underaged.'
else
return hi .. '\nI am an adult.'
end
end
local p1 = AgedPerson:new('Billy the Kid', 13) -- this is equivalent to AgedPerson('Billy the Kid', 13) - the :new part is implicit
local p2 = AgedPerson:new('Luke Skywalker', 21)
mw.log(p1:speak())
mw.log(p2:speak())
Output:
Hi, I'm Billy the Kid. I am underaged. Hi, I'm Luke Skywalker. I am an adult.
Comparing classes and objects
[އުނިއިތުރު ގެންނަވާ]You can compare classes and objects with the built-in methods isInstanceOf
, isSubclassOf
, and includes
.
obj:isInstanceOf(MyClass)
aClass:isSubclassOf(Object)
aClass:includes(aMixin)
Caution: this code will throw an error if obj is not an object, or if aClass is not a class (since they will not implement isInstanceOf, isSubclassOf or includes). If you are unsure of whether obj and aClass are an object or a class, you can use the methods in Object. This is a special object that can be obtained from the class object.
It is possible to get a special object Object from the class function.
local middleclass = require('Module:Middleclass')
local class = middleclass.class
local Object = class.Object
print(Object) -- prints 'class Object'
The methods in Object are prepared to work with random types, not just classes and instances:
Object.isInstanceOf(obj, MyClass)
Object.isSubclassOf(aClass, Object)
Object.includes(aClass, aMixin)
Metamethods
[އުނިއިތުރު ގެންނަވާ]Metamethods can do funky stuff like allowing additions in our instances.
Let’s make an example with __tostring
Point = class('Point')
function Point:initialize(x,y)
self.x = x
self.y = y
end
function Point:__tostring()
return 'Point: [' .. tostring(self.x) .. ', ' .. tostring(self.y) .. ']'
end
p1 = Point(100, 200)
p2 = Point(35, -10)
mw.log(p1)
mw.log(p2)
Output:
Point: [100, 200] Point: [35, -10]
The complete list of supported methods can be seen on middleclass’ source code:
'__add', '__call', '__concat', '__div', '__le', '__lt', '__mod', '__mul', '__pow', '__sub', '__tostring', '__unm'
You may notice that __index
is missing. That metamethod is reserved for the lib and can’t be used. On middleclass 1.x there was a way around this (via a mixin) but for now I don’t recommend using this metamethod with classes. You will probably be better off using a pure Lua table instead, if you need that.
Note about Lua 5.2: This new version of Lua adds support for 3 new metamethods __len
, __pairs
& __ipairs
. These methods are now also included in middleclass. But you will need to be running Lua 5.2 (or Luajit compiled with the DLUAJIT_ENABLE_LUA52COMPAT
flag) in order to be able to use them.
Mixins
[އުނިއިތުރު ގެންނަވާ]Mixins can be used for sharing methods between classes, without requiring them to inherit from the same father.
local class = require 'middleclass'
HasWings = { -- HasWings is a module, not a class. It can be "included" into classes
fly = function(self)
return 'flap flap flap I am a ' .. self.class.name
end
}
Animal = class('Animal')
Insect = class('Insect', Animal) -- or Animal:subclass('Insect')
Worm = class('Worm', Insect) -- worms don't have wings
Bee = class('Bee', Insect)
Bee:include(HasWings) --Bees have wings. This adds fly() to Bee
Mammal = class('Mammal', Animal)
Fox = class('Fox', Mammal) -- foxes don't have wings, but are mammals
Bat = class('Bat', Mammal)
Bat:include(HasWings) --Bats have wings, too.
local bee = Bee() -- or Bee:new()
local bat = Bat() -- or Bat:new()
mw.log(bee:fly())
mw.log(bat:fly())
Output:
flap flap flap I am a Bee flap flap flap I am a Bat
Included
[އުނިއިތުރު ގެންނަވާ]Mixins can provide a special function called 'included'. This function will be invoked when the mixin is included on a class, allowing the programmer to do actions. The only two parameters are the mixin (normally implicit) and the class.
local class = require('Module:Middleclass').class
DrinksCoffee = {}
-- This is another valid way of declaring functions on a mixin.
-- Note that we are using the : operator, so there's an implicit self parameter
function DrinksCoffee:drink(drinkTime)
if(drinkTime~=self.class.coffeeTime) then
return self.name .. ': It is not the time to drink coffee!'
else
return self.name .. ': Mmm I love coffee at ' .. drinkTime
end
end
-- the included method is invoked every time DrinksCoffee is included on a class
-- notice that paramters can be passed around
function DrinksCoffee:included(klass)
mw.log(klass.name .. ' drinks coffee at ' .. klass.coffeeTime)
end
EnglishMan = class('EnglishMan')
EnglishMan.static.coffeeTime = 5
EnglishMan:include(DrinksCoffee)
function EnglishMan:initialize(name)
self.name = name
end
Spaniard = class('Spaniard')
Spaniard.static.coffeeTime = 6
Spaniard:include(DrinksCoffee)
function Spaniard:initialize(name)
self.name = name
end
tom = EnglishMan:new('tom')
juan = Spaniard:new('juan')
mw.log(tom:drink(5))
mw.log(juan:drink(5))
mw.log(juan:drink(6))
Output:
EnglishMan drinks coffee at 5 Spaniard drinks coffee at 6 tom: Mmm I love coffee at 5 juan: It is not the time to drink coffee! juan: Mmm I love coffee at 6
Naming Conventions
[އުނިއިތުރު ގެންނަވާ]What follows is a set of recommendations used for naming objects with MiddleClass. These are completely optional, but will be used in all the modules directly dependent on MiddleClass (such as middleclass-extras or PÄSSION)
Classes and packages
[އުނިއިތުރު ގެންނަވާ]- Package names should be lowercased and separated by underscores: package_name
- Class names & mixin names should begin with Uppercase, and use camelCase notation: MyClass, MyMixin
- One exception to this rule is when classes are declared inside packages in that case, they can be declared as follows:
MyClass = class('package.MyClass')
- Another exception is for internal classes (classed declared inside classes)
MyClass = class('package.MyClass')
MyClass.InternalClass = class('package.MyClass.InternalClass')
Attributes, instances and constants
[އުނިއިތުރު ގެންނަވާ]- Attributes begin with lowercase, and use camelCase: MyClass.attributeOne, MyClass.attributeTwo
- An underscore can precede the initial lowercase if the attribute is supposed to be private: MyClass._privateAttribute
- Variables pointing to instances of classes should start with lowercase and be camelCased: myInstance = MyClass:new()
- Constants should be ALL_UPPERCASED, and use underscores for word separations: MyClass.MY_CONSTANT
- Private attributes should be preceded with an underscore: _myPrivateAttribute
Methods
[އުނިއިތުރު ގެންނަވާ]- Methods should begin with lowercase, and use camelCase: MyClass.myMethod
- When possible, methods should use explicit verbs: getX() instead of x()
- Instance methods should be declared using the colons, so they have an implicit ‘self’ parameter:
function MyClass:setX(x)
self.x = x
end
- Class methods should use the special property ‘static’ for being defined:
function MyClass.static:classMethod()
return 'I am the ' .. self.name .. ' class. I am awesome'
end
- Private methods should be preceded with an underscore:
_myPrivateMethod
File names
[އުނިއިތުރު ގެންނަވާ]- In general, filenames will be named using semicolons and lowercase letters: my-file-name.lua
- Folders containing a package should be called the same way as the package itself: my_package should be stored under a folder called /my-package/
- If a file only defines a class, it should be named like the class, including lowercase/uppercase: a class named MyClass should be defined on a file named MyClass.lua
- Same happens with Mixins: the file defining MyMixin should be called MyMixin.lua
- If a class is so big it needs to be split on several files, precede all the files defining this class with the class name, followed by an underscore and an explanation of what the file defines:
Game.lua Game_MainMenu.lua Game_OptionsMenu.lua Game_Play.lua
Private members
[އުނިއިތުރު ގެންނަވާ]There are several ways you can make private parameters with middleclass.
Underscoring
[އުނިއިތުރު ގެންނަވާ]The simplest one is just to precede your attributes with underscores. This is actually written on the Lua 5.1 reference, section 2.1, “Lexical conversions”, as a way to say “this is here, but please don’t use it”.
local class = require('middleclass')
MyClass = class('MyClass')
function MyClass:initialize()
self._internalStuff = 1
self.publicStuff = 2
end
However, this isn’t really making the properties “hidden”.
Private class attributes
[އުނިއިތުރު ގެންނަވާ]In general, the way of “really” getting hidden functions or variables consists on using Lua’s scoping rules. The simplest way of using this is creating each of your classes on separate files, and then declaring any private variable or functions as local, on the “root” scope of the file.
Example:
-- File 'MyClass2.lua'
local class = require('middleclass')
MyClass2 = class('MyClass2')
local _internalClassCounter = 0
function MyClass2:initialize()
_internalClassCounter = _internalClassCounter + 1
self.publicStuff = 2
end
function MyClass2:getCount()
return(_internalClassCounter)
end
The scope of local declarations on a lua file is the file itself. If you declare something “local” in one file it is not available on others, even if they “require” that file.
-- File 'main.lua'
require('MyClass2')
-- Try to change internal member...
_internalClassCounter = 4 -- Attempt to modify the _internalClassCounter variable
mw.log(MyClass2:getCount()) -- prints "0"
Let me explain what happens here. The _internalClassCounter = 4 line is, in reality, creating a new global variable called internalClassCounter, and assigning it 4. The “really internal” one is “out of reach” on main.lua (unless someone does really tricky stuff with the environments). So getCount() works as expected.
Private instance methods
[އުނިއިތުރު ގެންނަވާ]It is also possible to declare private methods. The trick here is not to “include” them on the class definition. On the following example, we will not declare it on Class3:secretMethod
; instead we’ll create a local function. Since we’re not using the : operator any more, we have to make the “self” parameter explicit. Also, since we have to make it local, we have to deviate from the “usual” way of declaring Lua functions (the “usual” way of declaring functions makes them global):
-- File 'MyClass3.lua'
local class = require('middleclass')
MyClass3 = class('MyClass3')
local _secretMethod = function(self) -- notice the 'local' at the beginning, the = function and explicit self parameter
return 'My name is ' .. self.name .. ' and I have a secret.'
end
function MyClass3:initialize(name)
self.name = name
end
function MyClass3:shout()
return _secretMethod(self) .. ' You will never know it!'
end
-- File 'Main.lua'
require('MyClass3')
peter = MyClass3:new('peter')
mw.log(peter:shout()) -- My name is peter and I have a secret. You will never know it!
mw.log(_secretMethod(peter)) -- throws an error - _secretMethod is nil here.
This technique also allows the creation of private class methods. In MiddleClass, there’s really no difference between class methods and instance methods; the difference comes from what you pass to their ‘self’ parameter. So if you invoke _secretMethod like this: _secretMethod(MyClass3) it will be a class method.
A slightly more efficient way of creating a class method would be getting rid of the ‘self’ parameter and use MyClass3 directly on the method’s body:
MyClass3 = class('MyClass3')
local _secretClassMethod = function() -- self parameter out
return 'My name is ' .. MyClass3.name .. ' and I have a secret.' -- use MyClass3 directly.
end
-- Note that this alternative is only recommended for private class methods. Public class methods should follow the convention of adding one explicit 'class' parameter:
MyClass3 = class('MyClass3')
function MyClass3.classMethod(theClass)
return( 'Being a public class named ' .. theClass.name .. ' is not a bad thing.' )
end
This gives a bit more of flexibility when overriding public class methods on subclasses.
Finally, a subtle point regarding recursive private methods. If you need to create a private method that calls himself, you will need to declare the variable first, and then (on the next line) initialize it with the function value. Otherwise the variable will not be available when the function is created
MyClass3 = class('MyClass3')
local _secretRecursiveMethod -- variable declared here
_secretRecursiveMethod= function(self, n) -- and initialized here
if(n<=0) then
return 'Last recursion'
else
print ( 'Recursion level ' .. n )
_secretRecursiveMethod(self, n-1)
end
end
function MyClass3:recurseOver(n)
_secretRecursiveMethod(self, n)
end
m = MyClass3:new()
m:recurseOver(5)
Output:
Recursion level 5 Recursion level 4 Recursion level 3 Recursion level 2 Recursion level 1 Last recursion
Private Instance attributes
[އުނިއިތުރު ގެންނަވާ]Instance attributes are a little bit trickier to implement, since we only have one scope to “hide stuff in”, and it has to cope with multiple instances.
One way to do this is using one private class variable as a ‘stash’. If you use one table instead of just a number, you can and hide there all the private information you may need. One problem with this approach is that you need to come out with a ‘key’ per ‘instance’.
Fortunately this is a very simple thing to do, since in lua you can use nearly any type of object as a key – So you can use the instances themselves as keys. In other words, we use ‘self’ as a key.
One problem with this approach is that instances might not be liberated by the garbage collector once they are not used any more (since there’s a reference to them on the ‘stash’ keys). In order to avoid this, we can make the ‘stash’ a weak table.
On the following example, the name attribute is public, but age and gender are private.
Our ‘secret stash’ in the following example will be called _private.
-By the way, the following example also shows how you can do “read-only-ish attributes”: you make them private, and make getters for them, but not setters.
-- File 'MyClass4.lua'
local class = require('middleclass')
MyClass4 = class('MyClass4')
local _private = setmetatable({}, {__mode = "k"}) -- weak table storing all private attributes
function MyClass4:initialize(name, age, gender)
self.name = name
_private[self] = {
age = age,
gender = gender
}
end
function MyClass4:getName() -- shorter equivalent: MyClass4:getter('name')
return self.name
end
function MyClass4:getAge()
return _private[self].age
end
function MyClass4:getGender()
return _private[self].gender
end
-- File 'main.lua'
require('MyClass4')
stewie = MyClass4:new('stewie', 2, 'male')
mw.log(stewie:getName()) -- stewie
stewie.name = 'ann'
mw.log(stewie.name) -- ann
mw.log(stewie:getAge()) -- 2
stewie.age = 14 -- this isn't really modifying the age... it is creating a new public attribute called 'age'
-- the internal age is still unaltered
mw.log(stewie:getAge()) -- 2
-- the newly created external age is also available.
mw.log(stewie.age) -- 14
-- same goes with gender:
mw.log(stewie:getGender()) -- 'male'
stewie.gender = 'female'
mw.log(stewie:getGender()) -- 'male'
mw.log(stewie.gender) -- 'female'
Private members on the same file
[އުނިއިތުރު ގެންނަވާ]There’s also a way of creating private members that other classes/methods on the same file can’t access, if you ever had the need.
Just create an artificial scope with do … end, and declare private members as ‘local’ inside that block. Only the methods inside that block will have access to them:
-- File 'MyClass3.lua'
local class = require('middleclass')
MyClass3 = class('MyClass3')
function MyClass3:initialize(name)
self.name = name
end
do
local secretMethod = function(self) -- notice the explicit self parameter here.
return 'My name is ' .. self.name .. ' and I have a secret.'
end
function MyClass3:shout()
return secretMethod(self) .. ' You will never know it!'
end
end
-- functions outside the do-end will not 'see' secretMethod, but they will see MyClass3.shout (because they see MyClass3)
MIT License
[އުނިއިތުރު ގެންނަވާ]Copyright (c) 2011 Enrique García Cota
Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
The above documentation is transcluded from މޮޑިއުލް:Middleclass/doc. (edit | history) Editors can experiment in this module's sandbox (create | mirror) and testcases (create) pages. Subpages of this module. |
local middleclass = {
_VERSION = 'middleclass v3.0.1',
_DESCRIPTION = 'Object Orientation for Lua',
_URL = 'https://github.com/kikito/middleclass',
_LICENSE = [[
MIT LICENSE
Copyright (c) 2011 Enrique García Cota
Permission is hereby granted, free of charge, to any person obtaining a
copy of this software and associated documentation files (the
"Software"), to deal in the Software without restriction, including
without limitation the rights to use, copy, modify, merge, publish,
distribute, sublicense, and/or sell copies of the Software, and to
permit persons to whom the Software is furnished to do so, subject to
the following conditions:
The above copyright notice and this permission notice shall be included
in all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY
CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,
TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
]]
}
local function _setClassDictionariesMetatables(aClass)
local dict = aClass.__instanceDict
dict.__index = dict
local super = aClass.super
if super then
local superStatic = super.static
setmetatable(dict, super.__instanceDict)
setmetatable(aClass.static, { __index = function(_,k) return dict[k] or superStatic[k] end })
else
setmetatable(aClass.static, { __index = function(_,k) return dict[k] end })
end
end
local function _setClassMetatable(aClass)
setmetatable(aClass, {
__tostring = function() return "class " .. aClass.name end,
__index = aClass.static,
__newindex = aClass.__instanceDict,
__call = function(self, ...) return self:new(...) end
})
end
local function _createClass(name, super)
local aClass = { name = name, super = super, static = {}, __mixins = {}, __instanceDict={} }
aClass.subclasses = setmetatable({}, {__mode = "k"})
_setClassDictionariesMetatables(aClass)
_setClassMetatable(aClass)
return aClass
end
local function _createLookupMetamethod(aClass, name)
return function(...)
local method = aClass.super[name]
assert( type(method)=='function', tostring(aClass) .. " doesn't implement metamethod '" .. name .. "'" )
return method(...)
end
end
local function _setClassMetamethods(aClass)
for _,m in ipairs(aClass.__metamethods) do
aClass[m]= _createLookupMetamethod(aClass, m)
end
end
local function _setDefaultInitializeMethod(aClass, super)
aClass.initialize = function(instance, ...)
return super.initialize(instance, ...)
end
end
local function _includeMixin(aClass, mixin)
assert(type(mixin)=='table', "mixin must be a table")
for name,method in pairs(mixin) do
if name ~= "included" and name ~= "static" then aClass[name] = method end
end
if mixin.static then
for name,method in pairs(mixin.static) do
aClass.static[name] = method
end
end
if type(mixin.included)=="function" then mixin:included(aClass) end
aClass.__mixins[mixin] = true
end
local Object = _createClass("Object", nil)
Object.static.__metamethods = { '__add', '__call', '__concat', '__div', '__ipairs', '__le',
'__len', '__lt', '__mod', '__mul', '__pairs', '__pow', '__sub',
'__tostring', '__unm'}
function Object.static:allocate()
assert(type(self) == 'table', "Make sure that you are using 'Class:allocate' instead of 'Class.allocate'")
return setmetatable({ class = self }, self.__instanceDict)
end
function Object.static:new(...)
local instance = self:allocate()
instance:initialize(...)
return instance
end
function Object.static:subclass(name)
assert(type(self) == 'table', "Make sure that you are using 'Class:subclass' instead of 'Class.subclass'")
assert(type(name) == "string", "You must provide a name(string) for your class")
local subclass = _createClass(name, self)
_setClassMetamethods(subclass)
_setDefaultInitializeMethod(subclass, self)
self.subclasses[subclass] = true
self:subclassed(subclass)
return subclass
end
function Object.static:subclassed(other) end
function Object.static:isSubclassOf(other)
return type(other) == 'table' and
type(self) == 'table' and
type(self.super) == 'table' and
( self.super == other or
type(self.super.isSubclassOf) == 'function' and
self.super:isSubclassOf(other)
)
end
function Object.static:include( ... )
assert(type(self) == 'table', "Make sure you that you are using 'Class:include' instead of 'Class.include'")
for _,mixin in ipairs({...}) do _includeMixin(self, mixin) end
return self
end
function Object.static:includes(mixin)
return type(mixin) == 'table' and
type(self) == 'table' and
type(self.__mixins) == 'table' and
( self.__mixins[mixin] or
type(self.super) == 'table' and
type(self.super.includes) == 'function' and
self.super:includes(mixin)
)
end
function Object:initialize() end
function Object:__tostring() return "instance of " .. tostring(self.class) end
function Object:isInstanceOf(aClass)
return type(self) == 'table' and
type(self.class) == 'table' and
type(aClass) == 'table' and
( aClass == self.class or
type(aClass.isSubclassOf) == 'function' and
self.class:isSubclassOf(aClass)
)
end
function middleclass.class(name, super, ...)
super = super or Object
return super:subclass(name, ...)
end
middleclass.Object = Object
setmetatable(middleclass, { __call = function(_, ...) return middleclass.class(...) end })
return middleclass