Logitech G-Hub的最新更新中缺少数学库



局部延迟=数学随机(25,50(

[string"LuaVM"]:5:尝试索引零值(全局"math"(

我不能再使用math.random了有办法解决这个问题吗?

如果缺少math库,可以在脚本的开头插入以下代码块
它不会修复整个math库,只修复一些最常用的函数(包括math.random(
它还将修复以下错误:

错误的参数#1到"睡眠"(数字没有整数表示(

尝试调用零值(字段"getn"(

do
local state_8, state_45, cached_bits, cached_bits_qty = 2, 0, 0, 0
local prev_width, prev_bits_in_factor, prev_k = 0
for c in GetDate():gmatch"." do
state_45 = state_45 % 65537 * 23456 + c:byte()
end
local function get_53_random_bits()
local value53 = 0
for shift = 26, 27 do
local p = 2^shift
state_45 = (state_45 * 233 + 7161722017421) % 35184372088832
repeat state_8 = state_8 * 76 % 257 until state_8 ~= 1
local r = state_8 % 32
local n = state_45 / 2^(13 - (state_8 - r) / 32)
n = (n - n%1) % 2^32 / 2^r
value53 = value53 * p + ((n%1 * 2^32) + (n - n%1)) % p
end
return value53
end

for j = 1, 10 do get_53_random_bits() end
local function get_random_bits(number_of_bits)
local pwr_number_of_bits = 2^number_of_bits
local result
if number_of_bits <= cached_bits_qty then
result = cached_bits % pwr_number_of_bits
cached_bits = (cached_bits - result) / pwr_number_of_bits
else
local new_bits = get_53_random_bits()
result = new_bits % pwr_number_of_bits
cached_bits = (new_bits - result) / pwr_number_of_bits * 2^cached_bits_qty + cached_bits
cached_bits_qty = 53 + cached_bits_qty
end
cached_bits_qty = cached_bits_qty - number_of_bits
return result
end
table = table or {}
table.getn = table.getn or function(x) return #x end
math = math or {}
math.huge  = math.huge  or 1/0
math.abs   = math.abs   or function(x)    return x < 0 and -x or x end
math.floor = math.floor or function(x)    return x - x%1           end
math.ceil  = math.ceil  or function(x)    return x + (-x)%1        end
math.min   = math.min   or function(x, y) return x < y and x or y  end 
math.max   = math.max   or function(x, y) return x > y and x or y  end
math.sqrt  = math.sqrt  or function(x)    return x^0.5             end
math.pow   = math.pow   or function(x, y) return x^y               end
math.frexp = math.frexp or
function(x)
local e = 0
if x == 0 then
return x, e
end
local sign = x < 0 and -1 or 1
x = x * sign
while x >= 1 do
x = x / 2
e = e + 1
end
while x < 0.5 do
x = x * 2
e = e - 1
end
return x * sign, e
end
math.exp = math.exp or 
function(x)
local e, t, k, p = 0, 1, 1
repeat e, t, k, p = e + t, t * x / k, k + 1, e
until e == p
return e
end
math.log = math.log or
function(x)
assert(x > 0)
local a, b, c, d, e, f = x < 1 and x or 1/x, 0, 0, 1, 1
repeat
repeat
c, d, e, f = c + d, b * d / e, e + 1, c
until c == f
b, c, d, e, f = b + 1 - a * c, 0, 1, 1, b
until b <= f
return a == x and -f or f
end
math.log10 = math.log10 or
function(x)
return math.log(x) / 2.3025850929940459
end
math.random = math.random or
function(m, n)
if m then
if not n then
m, n = 1, m
end
local k = n - m + 1
if k < 1 or k > 2^53 then
error("Invalid arguments for function 'random()'", 2)
end
local width, bits_in_factor, modk
if k == prev_k then
width, bits_in_factor = prev_width, prev_bits_in_factor
else
local pwr_prev_width = 2^prev_width
if k > pwr_prev_width / 2 and k <= pwr_prev_width then
width = prev_width
else
width = 53
local width_low = -1
repeat
local w = (width_low + width) / 2
w = w - w%1
if k <= 2^w then
width = w
else
width_low = w
end
until width - width_low == 1
prev_width = width
end
bits_in_factor = 0
local bits_in_factor_high = width + 1
while bits_in_factor_high - bits_in_factor > 1 do
local bits_in_new_factor = (bits_in_factor + bits_in_factor_high) / 2
bits_in_new_factor = bits_in_new_factor - bits_in_new_factor%1
if k % 2^bits_in_new_factor == 0 then
bits_in_factor = bits_in_new_factor
else
bits_in_factor_high = bits_in_new_factor
end
end
prev_k, prev_bits_in_factor = k, bits_in_factor
end
local factor, saved_bits, saved_bits_qty, pwr_saved_bits_qty = 2^bits_in_factor, 0, 0, 2^0
k = k / factor
width = width - bits_in_factor
local pwr_width = 2^width
local gap = pwr_width - k
repeat
modk = get_random_bits(width - saved_bits_qty) * pwr_saved_bits_qty + saved_bits
local modk_in_range = modk < k
if not modk_in_range then
local interval = gap
saved_bits = modk - k
saved_bits_qty = width - 1
pwr_saved_bits_qty = pwr_width / 2
repeat
saved_bits_qty = saved_bits_qty - 1
pwr_saved_bits_qty = pwr_saved_bits_qty / 2
if pwr_saved_bits_qty <= interval then
if saved_bits < pwr_saved_bits_qty then
interval = nil
else
interval = interval - pwr_saved_bits_qty
saved_bits = saved_bits - pwr_saved_bits_qty
end
end
until not interval
end
until modk_in_range
return m + modk * factor + get_random_bits(bits_in_factor)
else
return get_53_random_bits() / 2^53
end
end
local orig_Sleep = Sleep
function Sleep(x)
return orig_Sleep(x - x%1)
end
end

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