----------------------------------------------------------------------------------------------------------------------- -- middleclass.lua - v2.0 (2011-08) -- Enrique Garcia Cota - enrique.garcia.cota [AT] gmail [DOT] com -- Based on YaciCode, from Julien Patte and LuaObject, from Sebastien Rocca-Serra ----------------------------------------------------------------------------------------------------------------------- local _classes = setmetatable({}, {__mode = "k"}) local function _setClassDictionariesMetatables(klass) local dict = klass.__instanceDict local super = klass.super dict.__index = dict if super then local superStatic = super.static setmetatable(dict, super.__instanceDict) setmetatable(klass.static, { __index = function(_,k) return dict[k] or superStatic[k] end }) else setmetatable(klass.static, { __index = function(_,k) return dict[k] end }) end end local function _setClassMetatable(klass) setmetatable(klass, { __tostring = function() return "class " .. klass.name end, __index = klass.static, __newindex = klass.__instanceDict, __call = function(self, ...) return self:new(...) end }) end local function _createClass(name, super) local klass = { name = name, super = super, static = {}, __mixins = {}, __instanceDict={} } _setClassDictionariesMetatables(klass) _setClassMetatable(klass) _classes[klass] = true return klass end local function _createLookupMetamethod(klass, methodName) return function(...) local method = klass.super[methodName] assert( type(method)=='function', tostring(klass) .. " doesn't implement metamethod '" .. methodName .. "'" ) return method(...) end end local function _setClassMetamethods(klass) for _,m in ipairs(klass.__metamethods) do klass[m]= _createLookupMetamethod(klass, m) end end local function _setDefaultInitializeMethod(klass, super) klass.initialize = function(instance, ...) return super.initialize(instance, ...) end end Object = _createClass("Object", nil) Object.static.__metamethods = { '__add', '__call', '__concat', '__div', '__le', '__lt', '__mod', '__mul', '__pow', '__sub', '__tostring', '__unm' } function Object.static:allocate() assert(_classes[self], "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(_classes[self], "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) return subclass end function Object:initialize() end function Object:__tostring() return "instance of " .. tostring(self.class) end --[[ -- creates a subclass function Object.subclass(klass, name) klass:subclassed(thesubclass) -- hook method. By default it does nothing return thesubclass end -- Mixin extension function - simulates very basically ruby's include. Receives a table table, probably with functions. -- Its contents are copied to klass, with one exception: the included() method will be called instead of copied function Object.include(klass, mixin, ... ) assert(_classes[klass], "Use class:include instead of class.include") assert(type(mixin)=='table', "mixin must be a table") for methodName,method in pairs(mixin) do if methodName ~="included" then klass[methodName] = method end end if type(mixin.included)=="function" then mixin:included(klass, ... ) end klass.__mixins[mixin] = mixin return klass end -- Returns true if the mixin has already been included on a class (or a super) function includes(mixin, aClass) if not _classes[aClass] then return false end if aClass.__mixins[mixin]==mixin then return true end return includes(mixin, aClass.super) end ]] function class(name, super, ...) super = super or Object return super:subclass(name, ...) end function instanceOf(aClass, obj) if not _classes[aClass] or type(obj) ~= 'table' or not _classes[obj.class] then return false end if obj.class == aClass then return true end return subclassOf(aClass, obj.class) end function subclassOf(other, aClass) if not _classes[aClass] or not _classes[other] or aClass.super == nil then return false end return aClass.super == other or subclassOf(other, aClass.super) end