Here is the IO-Project cheat sheet to quickly learn the "Lua" programming language
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| README.md | ||
cheat-sheet-lua
Here is the IO-Project cheat sheet to quickly learn the "Lua" programming language
Table of contents
Use this table of contents to travel more easily through this cheat sheet.
The basics
Code comments
-- Two dashes start a one-line comment.
--[[
by adding two "[" opening and two "]" closing,
you define a multi-line commentary. ;-)
--]]
Variables and flow control
Introduction to variables, basic conditions, some loops (examples available here) and the equivalent of the ternary operator.
num = 42 -- All numbers are doubles.
-- Don't freak out, 64-bit doubles have 52 bits for
-- storing exact int values; machine precision is
-- not a problem for ints that need < 52 bits.
s = 'walternate' -- Immutable strings like in Python.
t = "double-quotes are also fine"
u = [[ Double brackets
start and end
multi-line strings]]
t = nil -- Undefines t; Lua has garbage collection.
-- Blocks are denoted with keywords like do/end:
while num < 50 do
num = num + 1 -- No ++ or += type operators.
end
-- If clauses:
if num > 40 then
print('over 40')
elseif s ~= 'walternate' then -- ~= is not equals.
-- Equality check is ==; ok for strs.
io.write('not over 40\n') -- Defaults to stdout.
else
-- Variables are global by default.
thisIsGlobal = 5 -- Camel case is common.
-- How to make a variable local:
local line = io.read() -- Reads next stdin line.
-- String concatenation uses the .. operator:
print('Winter is coming, ' .. line)
end
-- Undefined variables return nil.
-- This is not an error:
foo = anUnknownVariable -- Now foo = nil.
aBoolValue = false
-- Only nil and false are false; 0 and '' are true.
if not aBoolValue then print('that was false') end
-- 'or' and 'and' are short-circuited.
-- This is similar to the a?b:c operator in C/js:
ans = aBoolValue and 'yes' or 'no' --> 'no'
karlSum = 0
for i = 1, 100 do -- The range includes both ends.
karlSum = karlSum + i
end
-- Use "100, 1, -1" as the range to count down:
fredSum = 0
for j = 100, 1, -1 do fredSum = fredSum + j end
-- In general, the range is begin, end[, step].
-- Another loop construct:
repeat
print('the way of the future')
num = num - 1
until num == 0
Functions
Abordons la définition de fonctions plus complètes, la récurcivité, les closures. Découverte de l'asignation d'une suite de valeur a une suite de variable.
-- The famous Fibonacci sequence.
function fib(n)
if n < 2 then return 1 end
return fib(n - 2) + fib(n - 1)
end
-- Closures and anonymous functions are ok:
function adder(x)
-- The returned function is created when adder is
-- called, and remembers the value of x:
return function (y) return x + y end
end
a1 = adder(9)
a2 = adder(36)
print(a1(16)) --> 25
print(a2(64)) --> 100
-- Returns, func calls, and assignments all work
-- with lists that may be mismatched in length.
-- Unmatched receivers are nil;
-- unmatched senders are discarded.
x, y, z = 1, 2, 3, 4
-- Now x = 1, y = 2, z = 3, and 4 is thrown away.
function bar(a, b, c)
print(a, b, c)
return 4, 8, 15, 16, 23, 42
end
x, y = bar('zaphod') --> prints "zaphod nil nil"
-- Now x = 4, y = 8, values 15..42 are discarded.
-- Functions are first-class, may be local/global.
-- (global) These are the same:
function f(x) return x * x end
f = function (x) return x * x end -- same of javascript definition
-- (local) And so are these:
local function g(x) return math.sin(x) end
local g; g = function (x) return math.sin(x) end
-- the 'local g' decl makes g-self-references ok.
-- Trig funcs work in radians, by the way.
-- Calls with one string param don't need parens:
print 'hello' -- Works fine.
Advanced
Tables/array
Metatables and metamethods