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kReg.lua
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kReg.lua
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--[[
nick-h@yandex.ru
https://github.com/nick-nh/qlua
Nadaraya-Watson kernel regression
]]
local logFile = nil
-- logFile = io.open(_G.getWorkingFolder().."\\LuaIndicators\\kReg.txt", "w")
_G.unpack = rawget(table, "unpack") or _G.unpack
local math_pow = function(x, y) return x^y end
local message = _G['message']
local SetValue = _G['SetValue']
local Size = _G['Size']
local CandleExist = _G['CandleExist']
local RGB = _G['RGB']
local TYPE_LINE = _G['TYPE_LINE']
local TYPE_DASHLINE = _G['TYPE_DASHLINE']
local TYPE_BAR = _G['TYPET_BAR']
local TYPE_TRIANGLE_UP = _G['TYPE_TRIANGLE_UP']
local TYPE_TRIANGLE_DOWN = _G['TYPE_TRIANGLE_DOWN']
local isDark = _G.isDarkTheme()
local line_color = isDark and RGB(240, 240, 240) or RGB(0, 0, 0)
local os_time = os.time
local math_abs = math.abs
local math_exp = math.exp
local O = _G['O']
local C = _G['C']
local H = _G['H']
local L = _G['L']
_G.Settings =
{
Name = "*kReg",
['Период'] = 500,
['Окно оценки'] = 8,
['Отклонение1'] = 3.0,
['Отклонение2'] = 0.0,
['Отклонение3'] = 0.0,
['Отклонение4'] = 0.0,
['Вариант расчета ядра'] = 1, -- 1- nw kernel, 2 - Gaussian, 3 quartic_biweight, 4 Epanechnikov
['Сдвиг бар'] = 0,
['Выделять цветом'] = 1,
['Вариант данных'] = 'C' -- C, O, H, L, M, T, W
}
local lines_set =
{
{
Name = "iReg",
Color = line_color,
Type = TYPE_LINE,
Width = 1
},
{
Name = "+iReg1",
Color = RGB(0, 128, 0),
Type = TYPE_LINE,
Width = 1
},
{
Name = "-iReg1",
Color = RGB(192, 0, 0),
Type = TYPE_DASHLINE,
Width = 1
},
{
Name = "+iReg2",
Color = RGB(0, 128, 0),
Type = TYPE_LINE,
Width = 1
},
{
Name = "-iReg2",
Color = RGB(192, 0, 0),
Type = TYPE_DASHLINE,
Width = 1
},
{
Name = "+iReg3",
Color = RGB(0, 128, 0),
Type = TYPE_LINE,
Width = 1
},
{
Name = "-iReg3",
Color = RGB(192, 0, 0),
Type = TYPE_DASHLINE,
Width = 1
},
{
Name = "+iReg4",
Color = RGB(0, 128, 0),
Type = TYPE_LINE,
Width = 1
},
{
Name = "-iReg4",
Color = RGB(192, 0, 0),
Type = TYPE_DASHLINE,
Width = 1
},
--10
{
Name = "RegPredictPoint",
Color = line_color,
Type = _G.TYPE_POINT,
Width = 3
},
--11
{
Name = "change dir up",
Type = TYPE_TRIANGLE_UP,
Width = 3,
Color = RGB(89,213, 107)
},
--12
{
Name = "change dir dw",
Type = TYPE_TRIANGLE_DOWN,
Width = 3,
Color = RGB(255, 58, 0)
},
--13
{
Name = "reg up",
Type = TYPE_BAR,
Width = 1,
Color = RGB(89,213, 107)
},
--14
{
Name = "reg dw",
Type = TYPE_BAR,
Width = 1,
Color = RGB(255, 58, 0)
}
}
----------------------------------------------------------
local lines = #lines_set
local function log_tostring(...)
local n = select('#', ...)
if n == 1 then
return tostring(select(1, ...))
end
local t = {}
for i = 1, n do
t[#t + 1] = tostring((select(i, ...)))
end
return table.concat(t, " ")
end
local function myLog(...)
if logFile==nil then return end
logFile:write(tostring(os.date("%c",os_time())).." "..log_tostring(...).."\n");
logFile:flush();
end
local PlotLines = function(index) return index end
local error_log = {}
----------------------------------------------------------
----------------------------------------------------------
--kernel regression
local k_functor = {}
--nw kernel
k_functor[1] = function(u, h)
local b2h = h*h*2
local k = math_exp(-math_pow(u, 2)/b2h)
return k
end
--gaussian_kernel
k_functor[2] = function(u, h, c, scale)
--2.506628274631000 -- approx sqrt(2*M_PI)
u = u/h
c = c or 0.001
local k = math_exp(-0.5 * math_pow(u, 2))/(2.506628274631000)
if (k < c) then
return 0.0
end
return scale and k/h or k
end
--epanechnikov_kernel
k_functor[3] = function(u, h, scale)
u = u/h
local k = 0.0
if (math_abs(u) < 1) then
k = 0.75 * (1.0 - math_pow(u, 2))
end
return scale and k/h or k
end
--quartic_biweight_kernel
k_functor[4] = function(u, h, scale)
u = u/h
local k = 0.0
if (math_abs(u) < 1) then
k = 0.9375 * math_pow(1.0 - math_pow(u, 2), 2)
end
return scale and k/h or k
end
--data array of x and Y
--[[
data = {
{x = 25, y = 75},
{x = 27, y = 70},
{x = 30, y = 78},
{x = 33, y = 90},
{x = 40, y = 100},
{x = 50, y = 120},
{x = 52, y = 110},
{x = 54, y = 106},
{x = 60, y = 120}
}
]]
local function kernel_regression(data, lookback, k_type)
local kernel_evaluator = k_functor[k_type or 1] or k_functor[1]
if not kernel_evaluator then return end
if not data or #data == 0 then return end
local size = #data
local se = 0
local y = {}
local sum_w, sum_wy
for i = 1, size do
sum_w = 0
sum_wy = 0
for j = 1, size do
local k = kernel_evaluator((data[i].x or i)-(data[j].x or j), lookback)
sum_wy = sum_wy + data[j].y*k
sum_w = sum_w + k
end
y[i] = sum_wy/sum_w
se = se + math_abs(data[i].y - y[i])
end
return y, se/size
end
local function Reg(Fsettings)
Fsettings = (Fsettings or {})
local period = Fsettings['Период'] or 182
local lookback = Fsettings['Окно оценки'] or 50
local kstd1 = Fsettings['Отклонение1'] or 1
local kstd2 = Fsettings['Отклонение2'] or 2
local kstd3 = Fsettings['Отклонение3'] or 3
local kstd4 = Fsettings['Отклонение4'] or 4
local barsshift = Fsettings['Сдвиг бар'] or 0
local data_type = Fsettings['Вариант данных'] or 'C'
local k_type = Fsettings['Вариант расчета ядра'] or 1
local est = {}
local sq = 0
local alpha = 0
local calculated_buffer={}
local predict_index
error_log = {}
local out = {}
local data
local df = {}
df['C'] = function(i) return C(i) end
df['H'] = function(i) return H(i) end
df['L'] = function(i) return L(i) end
df['O'] = function(i) return O(i) end
df['M'] = function(i) return (H(i) + L(i))/2 end
df['T'] = function(i) return (H(i) + L(i) + O(i))/3 end
df['W'] = function(i) return (H(i) + L(i) + O(i) + C(i))/4 end
local trend
local last_cal_bar
local start_index, c_index
local function get_y(index)
return df[data_type](index)
end
return function(index)
local status, res = pcall(function()
if index == 1 then
out = {}
calculated_buffer = {}
est = {}
est[1] = 0
data = {}
last_cal_bar = index
start_index = Size() - barsshift
if barsshift ~= 0 then
predict_index = Size() - barsshift
end
trend = {}
trend[index] = 0
return
end
if index < period then return nil end
if calculated_buffer[index] ~= nil then
return
end
trend[index] = trend[index - 1]
SetValue(index-period-barsshift, 1, nil)
SetValue(index-period-barsshift, 2, nil)
SetValue(index-period-barsshift, 3, nil)
SetValue(index-period-barsshift, 4, nil)
SetValue(index-period-barsshift, 5, nil)
SetValue(index-period-barsshift, 6, nil)
SetValue(index-period-barsshift, 7, nil)
SetValue(index-period-barsshift, 8, nil)
SetValue(index-period-barsshift, 9, nil)
SetValue(index-period-barsshift-1, 1, nil)
SetValue(index-period-barsshift-1, 2, nil)
SetValue(index-period-barsshift-1, 3, nil)
SetValue(index-period-barsshift-1, 4, nil)
SetValue(index-period-barsshift-1, 5, nil)
SetValue(index-period-barsshift-1, 6, nil)
SetValue(index-period-barsshift-1, 7, nil)
SetValue(index-period-barsshift-1, 8, nil)
SetValue(index-period-barsshift-1, 9, nil)
--Calc
out = {}
if not CandleExist(index) or index <= period then
return
end
c_index = index-1
if index < start_index or last_cal_bar == c_index then return nil end
if not predict_index or index <= predict_index then
if not data[1] then
local i = 0
local j = period
while not data[1] and i < c_index do
data[j] = {y = get_y(c_index-i)}
i = i + 1
if data[j].y then
j = j - 1
end
end
end
if last_cal_bar ~= c_index and data[1] then
for kk = last_cal_bar + 1, c_index do
table.remove(data, 1)
data[period] = {y = get_y(kk)}
end
end
last_cal_bar = c_index
est, sq = kernel_regression(data, lookback, k_type)
alpha = (est[#est] - est[#est-1])/(get_y(c_index-1) - est[#est-1])
if predict_index and index == predict_index-period+1 then
out[10] = est[#est]
end
if index == predict_index then
out[10] = est[#est]
end
local h_index, h_up, h_dw, new_up, old_up, new_dw, old_dw
for n=1, period do
h_index = index+n-period
SetValue(h_index, 1, est[n])
if kstd1 > 0 then
SetValue(h_index, 2, est[n]+sq*kstd1)
SetValue(h_index, 3, est[n]-sq*kstd1)
end
if kstd2 > 0 then
SetValue(h_index, 4, est[n]+sq*kstd2)
SetValue(h_index, 5, est[n]-sq*kstd2)
end
if kstd3 > 0 then
SetValue(h_index, 6, est[n]+sq*kstd3)
SetValue(h_index, 7, est[n]-sq*kstd3)
end
if kstd4 > 0 then
SetValue(h_index, 8, est[n]+sq*kstd4)
SetValue(h_index, 9, est[n]-sq*kstd4)
end
if n>1 then
h_up = est[n-1]+sq*kstd1
h_dw = est[n-1]-sq*kstd1
new_up = C(h_index)
old_up = C(h_index-1)
new_dw = C(h_index)
old_dw = C(h_index-1)
if new_dw < h_dw and old_dw >= h_dw then
SetValue(h_index+1, 11, O(h_index+1))
end
if new_up > h_up and old_up <= h_up then
SetValue(h_index+1, 12, O(h_index+1))
end
end
end
else
est[#est+1] = est[#est] + alpha*(get_y(c_index-1) - est[#est])
-- est[#est+1] = alpha*get_y(c_index) + (1 - alpha)*(est[#est] or 0)
end
out[1] = est[#est]
if kstd1 > 0 then
out[2] = out[1]+sq*kstd1
out[3] = out[1]-sq*kstd1
end
if kstd2 > 0 then
out[4] = out[1]+sq*kstd2
out[5] = out[1]-sq*kstd2
end
if kstd3 > 0 then
out[6] = out[1]+sq*kstd3
out[7] = out[1]-sq*kstd3
end
if kstd4 > 0 then
out[8] = out[1]+sq*kstd4
out[9] = out[1]-sq*kstd4
end
if C(index-1) < out[3] and C(index-2) >= out[3] then
out[11] = O(index) or nil
end
if C(index-1) > out[2] and C(index-2) <= out[2] then
out[12] = O(index) or nil
end
calculated_buffer[index] = true
end)
if not status then
if not error_log[tostring(res)] then
error_log[tostring(res)] = true
myLog(tostring(res))
message(tostring(res))
end
return nil
end
return unpack(out, 1, lines)
end
end
---------------------------- ---------------------------- ----------------------------
---------------------------- ---------------------------- ----------------------------
---------------------------- ---------------------------- ----------------------------
function _G.Init()
_G.Settings.line = {}
for i, line in ipairs(lines_set) do
_G.Settings.line[i] = line
end
lines = #lines_set
PlotLines = Reg(_G.Settings)
return lines
end
function _G.OnChangeSettings()
_G.Init()
end
function _G.OnCalculate(index)
return PlotLines(index)
end