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@ -0,0 +1,409 @@
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--------------------------------------------------------------------------------
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-- Lua CHEATSHEET (中文速查表) - by weizhixiangcoder (created on 2020/06/20)
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-- Version: 1
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-- https://github.com/skywind3000/awesome-cheatsheets
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--------------------------------------------------------------------------------
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---------------------------------------------------------------------------------
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--[[
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Lua 特性:
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轻量级:源码2.5万行左右C代码, 方便嵌入进宿主语言(C/C++)
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可扩展:提供了易于使用的扩展接口和机制, 使用宿主语言提供的功能
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高效性:运行最快的脚本语言之一
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可移植:跨平台
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入门书籍《lua程序设计》
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推荐:云风翻译的《Lua 5.3参考手册》
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http://cloudwu.github.io/lua53doc/manual.html
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源码:
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http://www.lua.org/ftp/
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--]]
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---------------------------------------------------------------------------------
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---------------------------------------------------------------------------------
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--[[
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变量: 作为动态类型语言,变量本身没有类型, 赋值决定某一时刻变量的类型。私有静态
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变量带local, 公有静态变量不带local。
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数据类型:
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nil 为空,无效值,在条件判断中表示false
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boolean 包含两个值:false和true
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number 表示双精度类型的实浮点数
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string 字符串由一对双引号或单引号来表示
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function 由 C 或 Lua 编写的函数
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table Lua 中的表(table)其实是一个"关联数组"(associative
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arrays),数组的索引可以是数字、字符串或表类型
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thread 协程
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userdata 存储在变量中的C数据结构
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--]]
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---------------------------------------------------------------------------------
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print(type(signal)) --nil
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signal = true
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print(type(signal)) --boolean
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signal = 1454
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print(type(signal)) --number
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signal = "UnionTech"
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print(type(signal)) --string
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signal = function()
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print(type(signal))
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end
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print(type(signal)) --function
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signal = {}
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print(type(signal)) --table
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signal = coroutine.create(function()
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print(type(signal))
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end)
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print(type(signal)) --coroutine
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---------------------------------------------------------------------------------
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--[[
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流程控制:if...elseif...else、 while、 for
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--]]
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---------------------------------------------------------------------------------
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--if...else
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ty_signal = type(signal)
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if ty_signal == "coroutine" then
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print("signal type is coroutine")
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elseif ty_signal == "table" then
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print("signal type is table")
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else
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print("signal type is other")
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end
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--while
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ut_companys = {"beijing company", "shanghai company", "nanjing company", "wuxi company", "guangzhou company", "yunfu company", "wuhan company", "chengdu company", "xian company"}
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count = 0
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while count <= #ut_companys
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do
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count = count + 1
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print("ut_companys[", count, "] is ", ut_companys[count])
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end
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--for
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for i=#ut_companys, 1, -2 do --以2为步长反向遍历
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print("num: ", i, "company: ", ut_companys[i])
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end
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---------------------------------------------------------------------------------
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--[[
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table: 表作为Lua唯一自带的数据结构, 使用简单方便, 兼具数组和Map作为容器的
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功能,通过表可以很容易组成常见的数据结构, 如栈、队列、链表、集合,用for循环
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很容易迭代遍历表数据。
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--]]
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---------------------------------------------------------------------------------
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--table当数组用,下标从1开始
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for i, c in ipairs(ut_companys) do
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print(string.format("1 UnionTech company: %d %s", i, c))
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end
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table.sort(ut_companys)
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for i=#ut_companys, 1, -1 do
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print(string.format("2 UnionTech company: %d %s", i, ut_companys[i]))
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end
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--table当hash map用
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ut_cptypes = {}
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ut_cptypes["adapter"] = {"beijing company", "wuhan company", "guangzhou company"}
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ut_cptypes["developer"] = {"beijing company", "wuhan company", "nanjing company", "chengdu company", "xian company", "guangzhou company"}
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ut_cptypes["general"] = {"beijing company"}
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for ty, cps in pairs(ut_cptypes) do
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for i, cp in ipairs(cps) do
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print(string.format("3 UnionTech companys: type:%s identifier:%s company:%s", ty, i, cp))
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end
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end
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---------------------------------------------------------------------------------
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--[[
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函数:在Lua中函数也是第一类型值, 可赋值给变量, 也可以在函数体内定义并使用函数,或者
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是直接使用匿名匿名函数。
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--]]
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---------------------------------------------------------------------------------
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--多重返回值
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ut_types = {"adapter", "developer", "general"}
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function company_types(cp, cptypes)
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local adpt, dvlp, genl = nil, nil, nil
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for i, ty in ipairs(ut_types) do
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for _, _cp in ipairs(cptypes[ty]) do
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if _cp == cp then
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if i == 1 then
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adpt = true
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elseif i == 2 then
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dvlp = true
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elseif i == 3 then
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genl = true
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end
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break
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end
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end
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end
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return adpt, dvlp, genl
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end
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cp = "wuhan company"
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types = {company_types(cp, ut_cptypes)}
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for i, ty in ipairs(types) do
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if ty then
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print(string.format("%s is %s", cp, ut_types[i]))
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end
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end
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--变参
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function printf(str, ...)
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print(string.format(str, ...))
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end
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function add_companys(...)
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local newcps = {...}
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local num = #newcps
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for _, cp in ipairs(newcps) do
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table.insert(ut_companys, cp)
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end
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return ut_companys, num
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end
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_, _ = add_companys("changsha company", "zhengzhou company", "hefei company")
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for i=1, #ut_companys do
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--print(string.format("4 UnionTech company: %d %s", i, ut_companys[i]))
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printf("4 UnionTech company: %d %s", i, ut_companys[i])
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end
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--闭包
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function all_companys(cps)
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local companys, n = {}, 0
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for _, v in ipairs(cps) do
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table.insert(companys, v)
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end
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return function()
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n = n + 1
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if n > #companys then
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return ""
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else
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return companys[n]
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end
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end
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end
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get_company = all_companys(ut_companys)
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while true
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do
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cp = get_company()
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if cp == "" then
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break
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else
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printf("get company: %s", cp)
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end
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end
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---------------------------------------------------------------------------------
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--[[
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协程(coroutine):Lua协同程序(coroutine)与线程比较类似:拥有独立的堆栈,独立的局
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部变量,独立的指令指针,同时又与其它协同程序共享全局变量和其它大部分东西。
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--]]
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---------------------------------------------------------------------------------
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function foo (a)
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print("foo 函数输出", a)
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return coroutine.yield(2 * a) -- 返回 2*a 的值
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end
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co = coroutine.create(function (a , b)
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print("第一次协同程序执行输出", a, b) -- co-body 1 10
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local r = foo(a + 1)
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print("第二次协同程序执行输出", r)
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local r, s = coroutine.yield(a + b, a - b) -- a,b的值为第一次调用协同程序时传入
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print("第三次协同程序执行输出", r, s)
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return b, "结束协同程序" -- b的值为第二次调用协同程序时传入
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end)
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print("main", coroutine.resume(co, 1, 10)) -- true, 4
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print("main", coroutine.resume(co, "r")) -- true 11 -9
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print("main", coroutine.resume(co, "x", "y")) -- true 10 end
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print("main", coroutine.resume(co, "x", "y")) -- cannot resume dead coroutine
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--resume将主协程数据传入次协程, yield将次协程中数据传回主协程
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---------------------------------------------------------------------------------
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--[[
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元表(Metatable):本质上来说就是存放元方法的表结构, 通过元表实现对表中数据和行为
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的改变。
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Lua 查找一个表元素时的规则,其实就是如下 3 个步骤:
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1.在表中查找,如果找到,返回该元素,找不到则继续
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2.判断该表是否有元表,如果没有元表,返回 nil,有元表则继续。
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3.判断元表有没有 __index 方法,如果 __index 方法为 nil,则返回 nil;如果
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__index 方法是一个表,则重复 1、2、3;如果 __index 方法是一个函数,则返
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回该函数的返回值
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--]]
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---------------------------------------------------------------------------------
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father = {
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colourofskin = "yellow",
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weight = 70,
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work = "programming",
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otherwork = function()
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print "do housework"
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end
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}
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father.__index = father
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son = {
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weight = 50,
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like = "basketball"
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}
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setmetatable(son, father)
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printf("weight:%d like:%s work:%s colourofskin:%s ", son.weight, son.like, son.work, son.colourofskin)
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son.otherwork()
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---------------------------------------------------------------------------------
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--[[
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面向对象:因为lua本身不是面向对象的语言, 在lua中, 通过table和function来模拟一个对象,
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用metatable来模拟面向对象中的继承,但是在使用的时候需要考虑lua作为脚本语言, 变量的类型随
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所赋值类型而改变。
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--]]
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---------------------------------------------------------------------------------
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--父类
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rect = {
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area = 0,
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length = 0,
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width = 0,
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}
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function rect:getArea()
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if self.area == 0 then
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self.area = self.length * self.width
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end
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return self.area
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end
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function rect:getLength()
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return self.length
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end
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function rect:new(leng, wid)
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self.length = leng
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self.width = wid
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return self
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end
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--子类
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cuboid = {
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volume = 0,
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height = 0,
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}
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function cuboid:getVolume()
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if self.volume == 0 then
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self.volume = self.height * self:getArea()
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end
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return self.volume
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end
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function cuboid:new(_rect, _height)
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setmetatable(self, _rect)
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_rect.__index = _rect
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self.height = _height
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return self
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end
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rect1 = rect:new(5, 10)
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print("rect1 rectangle:", rect1:getArea())
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cuboid1 = cuboid:new(rect1, 2)
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print("cuboid1 volume: ", cuboid1:getVolume())
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print("cuboid1 rectangle: ", cuboid1:getArea()) --子类调用父类方法getArea
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print("cuboid1 length function: ", cuboid1:getLength()) --子类调用父类方法getLength
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print("cuboid1 length variable: ", cuboid1.length) --子类使用父类变量length
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--重写子类接口getArea, lua中没有重载
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function cuboid:getArea()
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return 2 * (self.height * self.length + self.height * self.width + self.length * self.width)
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end
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cuboid2 = cuboid:new(rect1, 2)
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print("cuboid2 function: getArea: ", cuboid2:getArea()) --调用子类重写的方法getArea
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print("cuboid2 base function: getArea: ", getmetatable(cuboid2):getArea()) --显示调用父类方法getArea
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---------------------------------------------------------------------------------
|
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--[[
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模块与C包: 模块类似封装库, 有利于代码复用, 降低耦合, 提供被调用的API。
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|
----------------------------------------------------------------------
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-- 文件名为 module.lua, 定义一个名为 module 的模块
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module = {}
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|
module.constant = "这是一个常量"
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|
|
function module.func1()
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|
io.write("这是一个公有函数!\n")
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|
end
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|
local function func2()
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|
print("这是一个私有函数!")
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|
end
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|
|
function module.func3()
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|
|
func2()
|
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|
|
end
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|
return module
|
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|
|
在其他模块中调用module模块:
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|
|
local m = require("module")
|
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|
|
|
print(m.constant)
|
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|
|
|
----------------------------------------------------------------------
|
|
|
|
|
与Lua中写包不同,C包在使用以前必须首先加载并连接,在大多数系统中最容易的实现方式
|
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|
|
是通过动态连接库机制。Lua在一个叫loadlib的函数内提供了所有的动态连接的功能。
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|
|
|
|
|
|
----------------------------------------------------------------------
|
|
|
|
|
--]]
|
|
|
|
|
---------------------------------------------------------------------------------
|
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|
|
|
|
---------------------------------------------------------------------------------
|
|
|
|
|
--[[
|
|
|
|
|
lua标准库: 标准库中接口可直接使用不需要require
|
|
|
|
|
常用标准库:
|
|
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|
|
math 数学计算
|
|
|
|
|
table 表结构数据处理
|
|
|
|
|
string 字符串处理
|
|
|
|
|
os 系统库函数
|
|
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|
|
io 文件读写
|
|
|
|
|
coroutine 协程库
|
|
|
|
|
debug 调式器
|
|
|
|
|
--]]
|
|
|
|
|
---------------------------------------------------------------------------------
|
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|
|
|
|
|
|
|
---------------------------------------------------------------------------------
|
|
|
|
|
--[[
|
|
|
|
|
lua虚拟机:脚本语言没有像编译型语言那样直接编译为机器能识别的机器代码,这意味着
|
|
|
|
|
解释性脚本语言与编译型语言的区别:由于每个脚本语言都有自己的一套字节码,与具体的
|
|
|
|
|
硬件平台无关,所以无需修改脚本代码,就能运行在各个平台上。硬件、软件平台的差异都
|
|
|
|
|
由语言自身的虚拟机解决。由于脚本语言的字节码需要由虚拟机执行,而不像机器代码那样
|
|
|
|
|
能够直接执行,所以运行速度比编译型语言差不少。有了虚拟机这个中间层,同样的代码可
|
|
|
|
|
以不经修改就运行在不同的操作系统、硬件平台上。Java、Python都是基于虚拟机的编程语
|
|
|
|
|
言,Lua同样也是这样。
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
--]]
|
|
|
|
|
---------------------------------------------------------------------------------
|
|
|
|
|
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|
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|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
--可在命令行lua lua.lua运行本脚本
|