时空隧道// This source code is subject to the terms of the Mozilla Public License 2.0 at mozilla.org
// © LonesomeTheBlue
//@version=4
study("Linear Regression Channel", overlay = true, max_bars_back = 1000, max_lines_count = 300)
src = input(defval = close, title = "Source")
len = input(defval = 100, title = "Length", minval = 10)
devlen = input(defval = 2., title = "Deviation", minval = 0.1, step = 0.1)
extendit = input(defval = true, title = "Extend Lines")
showfibo = input(defval = false, title = "Show Fibonacci Levels")
showbroken = input(defval = true, title = "Show Broken Channel", inline = "brk")
brokencol = input(defval = color.blue, title = "", inline = "brk")
upcol = input(defval = color.lime, title = "Up/Down Trend Colors", inline = "trcols")
dncol = input(defval = color.red, title = "", inline = "trcols")
widt = input(defval = 2, title = "Line Width")
var fibo_ratios = array.new_float(0)
var colors = array.new_color(2)
if barstate.isfirst
array.unshift(colors, upcol)
array.unshift(colors, dncol)
array.push(fibo_ratios, 0.236)
array.push(fibo_ratios, 0.382)
array.push(fibo_ratios, 0.618)
array.push(fibo_ratios, 0.786)
get_channel(src, len)=>
mid = sum(src, len) / len
slope = linreg(src, len, 0) - linreg(src, len, 1)
intercept = mid - slope * floor(len / 2) + ((1 - (len % 2)) / 2) * slope
endy = intercept + slope * (len - 1)
dev = 0.0
for x = 0 to len - 1
dev := dev + pow(src - (slope * (len - x) + intercept), 2)
dev := sqrt(dev/len)
= get_channel(src, len)
outofchannel = (slope > 0 and close < y2_ - dev * devlen) ? 0 : (slope < 0 and close > y2_ + dev * devlen) ? 2 : -1
var reglines = array.new_line(3)
var fibolines = array.new_line(4)
for x = 0 to 2
if not showbroken or outofchannel != x or nz(outofchannel , -1) != -1
line.delete(array.get(reglines, x))
else
line.set_color(array.get(reglines, x), color = brokencol)
line.set_width(array.get(reglines, x), width = 2)
line.set_style(array.get(reglines, x), style = line.style_dotted)
line.set_extend(array.get(reglines, x), extend = extend.none)
array.set(reglines, x,
line.new(x1 = bar_index - (len - 1),
y1 = y1_ + dev * devlen * (x - 1),
x2 = bar_index,
y2 = y2_ + dev * devlen * (x - 1),
color = array.get(colors, round(max(sign(slope), 0))),
style = x % 2 == 1 ? line.style_solid : line.style_dashed,
width = widt,
extend = extendit ? extend.right : extend.none))
if showfibo
for x = 0 to 3
line.delete(array.get(fibolines, x))
array.set(fibolines, x,
line.new(x1 = bar_index - (len - 1),
y1 = y1_ - dev * devlen + dev * devlen * 2 * array.get(fibo_ratios, x),
x2 = bar_index,
y2 = y2_ - dev * devlen + dev * devlen * 2 * array.get(fibo_ratios, x),
color = array.get(colors, round(max(sign(slope), 0))),
style = line.style_dotted,
width = widt,
extend = extendit ? extend.right : extend.none))
var label sidelab = label.new(x = bar_index - (len - 1), y = y1_, text = "S", size = size.large)
txt = slope > 0 ? slope > slope ? "⇑" : "⇗" : slope < 0 ? slope < slope ? "⇓" : "⇘" : "⇒"
stl = slope > 0 ? slope > slope ? label.style_label_up : label.style_label_upper_right : slope < 0 ? slope < slope ? label.style_label_down : label.style_label_lower_right : label.style_label_right
label.set_style(sidelab, stl)
label.set_text(sidelab, txt)
label.set_x(sidelab, bar_index - (len - 1))
label.set_y(sidelab, slope > 0 ? y1_ - dev * devlen : slope < 0 ? y1_ + dev * devlen : y1_)
label.set_color(sidelab, slope > 0 ? upcol : slope < 0 ? dncol : color.blue)
alertcondition(outofchannel, title='Channel Broken', message='Channel Broken')
// direction
trendisup = sign(slope) != sign(slope ) and slope > 0
trendisdown = sign(slope) != sign(slope ) and slope < 0
alertcondition(trendisup, title='Up trend', message='Up trend')
alertcondition(trendisdown, title='Down trend', message='Down trend')