Difference between revisions of "Classes in Gideros"

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'''PREV.''': [[Introduction to Lua]]<br/>
 
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'''NEXT''': [[Scene Management]]
 
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{{GIDEROS IMPORTANT LINKS}}

Latest revision as of 22:14, 18 November 2023

The Ultimate Guide to Gideros Studio

Classes in Gideros

Lua does not support classes the way languages like C++, Java or ActionScript do. Lua is a multi-paradigm language and inherits from prototype-based languages.

In Lua, each object can define its own behavior through metatables, therefore, it is possible to emulate OO programming and classes.

Note: for a detailed discussion of object-oriented programming in Lua, please refer to http://www.lua.org/pil/16.html

Gideros follows the same paradigm in its API design. Each instance created by Gideros API is a Lua table with a metatable attached.

Creating instances

Instances in Gideros are created through the .new function. Consider the following examples:

local sprite = Sprite.new()
local texture = Texture.new("image.png")
local bitmap = Bitmap.new(texture)
local timer = Timer.new(1000, 0)

Inheritance

The Core.class function is used to create your own classes through inheritance (older versions of Gideros used the gideros.class function -- this function has been deprecated).

You can inherit from Gideros API's classes e.g. EventDispatcher, Sprite, etc, or from your own classes. For example, you can create your own class that inherits from EventDispatcher class like so:

MyEventDispatcher = Core.class(EventDispatcher)

You can also create a new class by using Core.class with no arguments:

MyOwnClass = Core.class()

By using Inheritance, you design and implement the visual elements of your game separately:

-- create your own start button class
StartButton = Core.class(Sprite)
-- create your own menu class
Menu = Core.class(Sprite)
-- create your own player class
Player = Core.class(Sprite)
function Player:walk()
	-- walk logic
end
function Player:jump()
	-- jump logic
end
-- create and add a player instance to the stage
stage:addChild(Player.new())

When an instance is created, the init function is called first:

Player = Core.class(Sprite)
function Player:init()
   -- do the initialization of Player instance
   self.health = 100
   self.speed = 3
end
-- after Player instance is created, init function is called
local player = Player.new()

Whether to use inheritance or not is related to your programming taste. It is possible to implement a whole game without creating classes. You can refer to "Jumping Ball" and "Jumping Balls" examples in Gideros Studio, to see the difference between designing your code with classes or not.

Using classes makes it easier to reuse code.

Inheriting From Classes With Constructor Arguments

If you inherit from a class that takes a constructor argument, your new class has to pass in the arguments that the base class expects as its first argument. You can then pass in any additional arguments:

MyBitmap = Core.class(Bitmap)
function MyBitmap:init(texture, additional args)
	....
end

Here's a very simple example:

A = Core.class()
function A:init(msg1)
	print("A:init("..msg1..")")
end
B = Core.class(A)
function B:init(msg1, msg2)
	print("B:init("..msg1..","..msg2..")")
end
B.new("hello","world")

This example produces:

A:init(hello)
B:init(hello,world)

Adding Explicit Dependencies for Inherited Classes

You can put class definitions in different files, but if it doesn't work, it may be because the files are being loaded in the wrong order. You can specify file dependencies in the IDE. To do so, select a file, right click, then select "Code Dependencies".

For example, if class A (in classA.lua) inherits from class B (in classB.lua) and you're getting a message like "attempt to index global 'B' (a nil value)" during the initialization process, select "classA.lua" and add a dependency on classB.lua.

Dependencies.jpg

Gideros 2020.5 introduces file dependency by code instead of Gideros project setting:

--!NEEDS:your_file.lua

See Loading Order of Lua Files.

Accessing Overridden Functions

If you inherit from a class and override one of its functions, you have to call the overridden function using syntax like "BaseClassName.function(self)". Here's an example:

-- --------------------------------------
A = Core.class()
function A:init(msg1)
	self.text = "I am an A"
end
function A:method()
	print(self.text .. " in A:method()")
end
-- --------------------------------------
B = Core.class(A)
function B:init(msg1, msg2)
	self.text = "I am a B"
end
function B:method(arg1)
	print(self.text .. " in B:method()")
	--A:method()       <--- NOT THIS
	A.method(self)   
end
-- --------------------------------------
b = B.new("hello","world")
b:method()

This will produce:

I am a B in B:method()
I am a B in A:method()

If you try to use "A:method()" in "B:method()" you'll get an error about a nil value for the 'text' field. That is because you are using the "A" instance that was created in the "A = Core.class()" line (equivalent to "A.method(A)").

If you try to use "self:method()", you'll be recursively calling "B:method()".


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