OPEN-SOURCE SCRIPT
Hoon Fib project
//version=6
indicator("Hoon Fib project", shorttitle ="Hoon Fib project" ,overlay = true, max_bars_back = 5000)
// ~~ Tooltips {
var string t1 = "Period:\nNumber of bars used to detect swing highs and swing lows. Larger values give fewer but larger swings. (Works relative to current timeframe)."
var string t2 = "Projection Level:\nFibonacci ratio used to calculate the projected future swing targets (e.g. 61.8%)."
var string t2_b = "Trend Projection Ratio:\nThe secondary Fibonacci ratio used for the furthest extension (default was 1.272)."
var string t3 = "Level 1:\nRatio and Color for the first retracement level (Standard: 0.236)."
var string t4 = "Level 2:\nRatio and Color for the second retracement level (Standard: 0.382)."
var string t5 = "Level 3:\nRatio and Color for the third retracement level (Standard: 0.500)."
var string t6 = "Level 4:\nRatio and Color for the fourth retracement level (Standard: 0.618)."
var string t7 = "Level 5:\nRatio and Color for the fifth retracement level (Standard: 0.786)."
var string t8 = "Fib Line Width:\nThickness of all horizontal Fibonacci retracement lines."
var string t9 = "Fib Labels:\nShow or hide percentage labels at each Fibonacci retracement line."
var string t10 = "Fib Label Text Color:\nText color of Fibonacci retracement labels."
var string t11 = "Fib Label Size:\nFont size of Fibonacci retracement labels."
var string t12 = "Low Line Color:\nColor for the most recent swing low horizontal guide line."
var string t13 = "High Line Color:\nColor for the most recent swing high horizontal guide line."
var string t14 = "Swing Line Width:\nThickness of both swing high and swing low guide lines."
var string t15 = "Fib Volume Profile:\nEnable or disable the main volume profile drawn between the last swing high and low."
var string t16 = "Rows:\nNumber of price rows (bins) used in the Fib volume profile. More rows = finer detail."
var string t17 = "Flip Bull/Bear:\nSwap the horizontal position of bullish and bearish volume bars in the profile."
var string t18 = "Bull Volume Color:\nBase color used for bullish (up-bar) volume in the Fib volume profile."
var string t19 = "Bear Volume Color:\nBase color used for bearish (down-bar) volume in the Fib volume profile."
var string t20 = "Fib Volume Delta:\nEnable or disable the separate volume delta profile between Fibonacci price bands."
var string t21 = "Delta Max Width:\nMaximum horizontal width (in bars) used to scale delta boxes from smallest to largest."
var string t22 = "Bullish Delta Color:\nFill color for bands where bullish volume exceeds bearish volume (positive delta)."
var string t23 = "Bearish Delta Color:\nFill color for bands where bearish volume exceeds bullish volume (negative delta)."
var string t24 = "Bullish Projection Line Color:\nColor of projected segments when price is projected upward."
var string t25 = "Bearish Projection Line Color:\nColor of projected segments when price is projected downward."
var string t26 = "Projection Line Width:\nThickness of projected swing segments."
var string t27 = "Projection Line Style:\nVisual style of projected lines (solid, dashed, dotted, or arrows)."
var string t28 = "Bullish Label Background:\nBackground color for percentage labels on upward projection segments."
var string t29 = "Bearish Label Background:\nBackground color for percentage labels on downward projection segments."
var string t30 = "Projection Label Text Color:\nText color of projection percentage labels."
var string t31 = "Projection Label Size:\nFont size of projection percentage labels."
var string t32 = "Projection Box Background:\nToggle the background fill of projection boxes on or off."
var string t33 = "Projection Box Background Color:\nFill color used for projection boxes (when background is enabled)."
var string t34 = "Projection Box Border:\nToggle drawing a border around projection boxes."
var string t35 = "Projection Box Border Color:\nColor of the border around projection boxes."
var string t36 = "Projection Box Border Width:\nThickness of projection box borders."
var string t37 = "Projection Box Border Style:\nLine style for projection box borders (solid/dashed/dotted)."
var string t38 = "Projection Box Horizontal Align:\nHorizontal alignment of text inside projection boxes (left/center/right)."
var string t39 = "Projection Box Vertical Align:\nVertical alignment of text inside projection boxes (top/center/bottom)."
var string t40 = "Projection Box Text Color:\nText color for the projection level values shown inside the boxes."
var string t41 = "Projection Box Text Size:\nFont size of the projection level values shown inside the boxes."
//~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~}
// ~~ Inputs {
prd = input.int(
100,
"Period",
group = "Fib Settings",
inline = "fibColor",
tooltip = t1
)
lvl = input.float(
0.618,
title = "Projection Level",
group = "Fib Settings",
options = [0.236, 0.382, 0.5, 0.618, 0.786],
tooltip = t2
)
// NEW INPUT FOR CUSTOM FIB
trendFibbRatio = input.float(
1.272,
title = "Trend Projection Ratio",
step = 0.001,
group = "Fib Settings",
tooltip = t2_b
)
// Fib line style inputs (horizontal fib levels)
fibLvl1 = input.float(0.236, "Level 1", group = "Fib Levels Style", inline = "f1", tooltip = t3)
fibColor236 = input.color(#f23645, "", group = "Fib Levels Style", inline = "f1")
fibLvl2 = input.float(0.382, "Level 2", group = "Fib Levels Style", inline = "f2", tooltip = t4)
fibColor382 = input.color(#81c784, "", group = "Fib Levels Style", inline = "f2")
fibLvl3 = input.float(0.500, "Level 3", group = "Fib Levels Style", inline = "f3", tooltip = t5)
fibColor500 = input.color(#4caf50, "", group = "Fib Levels Style", inline = "f3")
fibLvl4 = input.float(0.618, "Level 4", group = "Fib Levels Style", inline = "f4", tooltip = t6)
fibColor618 = input.color(#089981, "", group = "Fib Levels Style", inline = "f4")
fibLvl5 = input.float(0.786, "Level 5", group = "Fib Levels Style", inline = "f5", tooltip = t7)
fibColor786 = input.color(#64b5f6, "", group = "Fib Levels Style", inline = "f5")
fibLineWidth = input.int(
2,
"Fib Line Width",
minval = 1,
maxval = 5,
group = "Fib Levels Style",
inline = "fwidth",
tooltip = t8
)
showlab = input.bool(
false,
title = "Fib Labels",
group = "Fib Levels Style",
inline = "fiblab"
)
fibLabelColor = input.color(
color.white,
"",
group = "Fib Levels Style",
inline = "fiblab"
)
fibLabelSizeStr = input.string(
"Small",
"",
options = ["Tiny","Small","Normal","Large","Huge"],
group = "Fib Levels Style",
inline = "fiblab",
tooltip = t9 + "\n\n" + t10 + "\n\n" + t11
)
fibLabelOffset = 1 // (fixed) x offset for labels
// derived label size
fibLabelSize =
fibLabelSizeStr == "Tiny" ? size.tiny :
fibLabelSizeStr == "Small" ? size.small :
fibLabelSizeStr == "Large" ? size.large :
fibLabelSizeStr == "Huge" ? size.huge :
size.normal
// Swing high/low lines
loLineColor = input.color(
color.new(color.green, 0),
"Low Line",
group = "Swing High/Low Lines Style",
inline = "hi"
)
hiLineColor = input.color(
color.new(color.red, 0),
"High Line",
group = "Swing High/Low Lines Style",
inline = "hi"
)
hiloLineWidth = input.int(
2,
"Width",
1,
5,
group = "Swing High/Low Lines Style",
inline = "hi",
tooltip = t12 + "\n\n" + t13 + "\n\n" + t14
)
// Fib volume profile inputs
showFibProfile = input.bool(
true,
"Fib Volume Profile",
group = "Fib Volume Profile",
inline = "fibprof"
)
rows = input.int(
10,
"Rows",
2,
100,
group = "Fib Volume Profile",
inline = "fibprof"
)
flipOrder = input.bool(
false,
"Flip Bull/Bear",
group = "Fib Volume Profile",
inline = "fibprof",
tooltip = t15 + "\n\n" + t16 + "\n\n" + t17
)
bull_color = input.color(
color.new(color.teal, 30),
"Bull",
group = "Fib Volume Profile",
inline = "volColor"
)
bear_color = input.color(
color.new(color.orange, 30),
"Bear",
group = "Fib Volume Profile",
inline = "volColor",
tooltip = t18 + "\n\n" + t19
)
// Volume Text Settings
showVolText = input.bool(true, "Show Volume Values", group="Fib Volume Profile", inline="vtxt")
volTextSizeStr = input.string("Tiny", "Size", options=["Tiny", "Small", "Normal"], group="Fib Volume Profile", inline="vtxt")
volTextSize =
volTextSizeStr == "Tiny" ? size.tiny :
volTextSizeStr == "Small" ? size.small :
size.normal
// Fib Volume Delta profile
showFibDelta = input.bool(
false,
"Fib Volume Delta",
group = "Fib Volume Delta Profile",
inline = "delta"
)
deltaMaxWidth = input.int(
30,
"Max Width",
minval = 5,
maxval = 200,
group = "Fib Volume Delta Profile",
inline = "delta",
tooltip = t20 + "\n\n" + t21
)
deltaBullColor = input.color(
color.new(color.lime, 80),
"Bullish Delta",
group = "Fib Volume Delta Profile",
inline = "deltaColor"
)
deltaBearColor = input.color(
color.new(color.red, 80),
"Bearish Delta",
group = "Fib Volume Delta Profile",
inline = "deltaColor",
tooltip = t22 + "\n\n" + t23
)
// Projection LINES style
projLineBullColor = input.color(
color.new(color.green, 0),
"Bullish",
group = "Projection Lines Style",
inline = "plc"
)
projLineBearColor = input.color(
color.new(color.red, 0),
"Bearish",
group = "Projection Lines Style",
inline = "plc"
)
projLineWidth = input.int(
2,
"Width",
1,
5,
group = "Projection Lines Style",
inline = "plc"
)
projLineStyleStr = input.string(
"Arrow Right",
"",
options = ["Solid", "Dashed", "Dotted", "Arrow Left", "Arrow Right"],
group = "Projection Lines Style",
inline = "plc",
tooltip = t24 + "\n\n" + t25 + "\n\n" + t26 + "\n\n" + t27
)
projLineStyle =
projLineStyleStr == "Solid" ? line.style_solid :
projLineStyleStr == "Dashed" ? line.style_dashed :
projLineStyleStr == "Dotted" ? line.style_dotted :
projLineStyleStr == "Arrow Left" ? line.style_arrow_left :
line.style_arrow_right
// Projection % LABELS style
projPercBullColor = input.color(
color.new(color.green, 0),
"Bullish Bg",
group = "Projection Labels Style",
inline = "plc"
)
projPercBearColor = input.color(
color.new(color.red, 0),
"Bearish Bg",
group = "Projection Labels Style",
inline = "plc"
)
projPercTextColor = input.color(
color.white,
"Text",
group = "Projection Labels Style",
inline = "plc"
)
projPercLabelSizeStr = input.string(
"Small",
"",
options = ["Tiny","Small","Normal","Large","Huge"],
group = "Projection Labels Style",
inline = "plc",
tooltip = t28 + "\n\n" + t29 + "\n\n" + t30 + "\n\n" + t31
)
projPercLabelSize =
projPercLabelSizeStr == "Tiny" ? size.tiny :
projPercLabelSizeStr == "Small" ? size.small :
projPercLabelSizeStr == "Large" ? size.large :
projPercLabelSizeStr == "Huge" ? size.huge :
size.normal
// Projection box style inputs
projBoxBgOn = input.bool(
true,
"Background",
group = "Projection Box Style",
inline = "pbg"
)
projBoxBgColor = input.color(
color.new(color.blue, 80),
"",
group = "Projection Box Style",
inline = "pbg"
)
projBoxBorderOn = input.bool(
true,
"Border",
group = "Projection Box Style",
inline = "pbg"
)
projBoxBorderCol = input.color(
color.new(color.white, 0),
"",
group = "Projection Box Style",
inline = "pbg"
)
projBoxBorderW = input.int(
1,
"",
minval = 1,
maxval = 5,
group = "Projection Box Style",
inline = "pbg"
)
projBoxBorderStyleStr = input.string(
"Solid",
"",
options = ["Solid", "Dashed", "Dotted"],
group = "Projection Box Style",
inline = "pbg",
tooltip = t32 + "\n\n" + t33 + "\n\n" + t34 + "\n\n" + t35 + "\n\n" + t36 + "\n\n" + t37
)
projBoxTextHAlignStr = input.string(
"Center",
"H Align",
options = ["Left", "Center", "Right"],
group = "Projection Box Style",
inline = "ptxt"
)
projBoxTextVAlignStr = input.string(
"Center",
"V Align",
options = ["Top", "Center", "Bottom"],
group = "Projection Box Style",
inline = "ptxt",
tooltip = t38 + "\n\n" + t39
)
projBoxTextColor = input.color(
color.white,
"Text",
group = "Projection Box Style",
inline = "ptxt2"
)
projBoxTextSizeStr = input.string(
"Normal",
"",
options = ["Tiny","Small","Normal","Large","Huge"],
group = "Projection Box Style",
inline = "ptxt2",
tooltip = t40 + "\n\n" + t41
)
projBoxTextSize =
projBoxTextSizeStr == "Tiny" ? size.tiny :
projBoxTextSizeStr == "Small" ? size.small :
projBoxTextSizeStr == "Large" ? size.large :
projBoxTextSizeStr == "Huge" ? size.huge :
size.normal
// Derived projection box style settings
projBoxBorderStyle =
projBoxBorderStyleStr == "Solid" ? line.style_solid :
projBoxBorderStyleStr == "Dashed" ? line.style_dashed :
line.style_dotted
projBoxTextHAlign =
projBoxTextHAlignStr == "Left" ? "left" :
projBoxTextHAlignStr == "Right" ? "right" :
"center"
projBoxTextVAlign =
projBoxTextVAlignStr == "Top" ? "top" :
projBoxTextVAlignStr == "Bottom" ? "bottom" :
"center"
//~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~}
// ~~ Swing detection {
hi = ta.highest(high, prd)
lo = ta.lowest(low, prd)
isHi = high == hi
isLo = low == lo
HB = ta.barssince(isHi)
LB = ta.barssince(isLo)
// price of last swing high/low
hiPrice = ta.valuewhen(isHi, high, 0)
loPrice = ta.valuewhen(isLo, low, 0)
// bar index of last swing high/low
hiBar = ta.valuewhen(isHi, bar_index, 0)
loBar = ta.valuewhen(isLo, bar_index, 0)
//~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~}
// ~~ Persistent drawings {
var line hiLine = na
var line loLine = na
if barstate.isfirst
hiLine := line.new(na, na, na, na, color = hiLineColor, width = hiloLineWidth)
loLine := line.new(na, na, na, na, color = loLineColor, width = hiloLineWidth)
// arrays to store objects
var array<line> fibbLines = array.new_line()
var array<label> fibbLabels = array.new_label()
var array<line> forecastLines = array.new_line()
var array<box> areas = array.new_box()
var array<label> perc = array.new_label()
var array<box> fibProfileBoxes = array.new_box()
var array<box> fibDeltaBoxes = array.new_box()
var int deltaStartX = na
//~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~}
// ~~ Functions {
// fib level calculator
fibbFunc(v, last, h, l) =>
last ? h - (h - l) * v : l + (h - l) * v
// generic cleaner for drawing-object arrays (lines, boxes, labels)
cleaner(a, idx) =>
if idx >= 0 and idx < array.size(a)
el = array.get(a, idx)
if not na(el)
el.delete()
array.remove(a, idx)
//~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~}
// ~~ Main logic {
if not na(HB) and not na(LB) and not na(hiPrice) and not na(loPrice) and not na(hiBar) and not na(loBar)
// update swing lines
// update swing lines (position + live style)
line.set_xy1(hiLine, hiBar, hiPrice)
line.set_xy2(hiLine, bar_index, hiPrice)
line.set_color(hiLine, hiLineColor)
line.set_width(hiLine, hiloLineWidth)
line.set_xy1(loLine, loBar, loPrice)
line.set_xy2(loLine, bar_index, loPrice)
line.set_color(loLine, loLineColor)
line.set_width(loLine, hiloLineWidth)
bars = math.abs(HB - LB)
// FIB retracement lines
for i = array.size(fibbLines) - 1 to 0
cleaner(fibbLines, i)
for i = array.size(fibbLabels) - 1 to 0
cleaner(fibbLabels, i)
lvls = array.from(fibLvl1, fibLvl2, fibLvl3, fibLvl4, fibLvl5)
cols = array.from(fibColor236, fibColor382, fibColor500, fibColor618, fibColor786)
baseOffset = HB > LB ? LB : HB
xFibStart = bar_index - baseOffset
for [i, e] in lvls
f = fibbFunc(e, HB < LB, hiPrice, loPrice)
x1 = xFibStart
x2 = bar_index
ln = line.new(
chart.point.from_index(x1, f),
chart.point.from_index(x2, f),
color = cols.get(i),
width = fibLineWidth
)
array.push(fibbLines, ln)
// fib label at right of line
if showlab
fibText = str.tostring(e * 100, "#.##") + "%"
lbl = label.new(
chart.point.from_index(x2 + fibLabelOffset, f),
fibText,
textcolor = fibLabelColor,
style = label.style_label_left,
size = fibLabelSize,
color =cols.get(i)
)
array.push(fibbLabels, lbl)
// Projection part
fibb = fibbFunc(lvl, LB > HB, hiPrice, loPrice)
fibb2 = LB < HB ?
fibbFunc(lvl, true, fibb, loPrice) :
fibbFunc(lvl, false, hiPrice, fibb)
trendfibb = LB > HB ?
fibbFunc(trendFibbRatio, true, hiPrice, loPrice) :
fibbFunc(trendFibbRatio, false, hiPrice, loPrice)
forecast = array.from(HB < LB ? hiPrice : loPrice, fibb, fibb2, trendfibb)
segment = math.min(bars, math.floor(500.0 / 4.0))
// clear previous forecast lines, boxes, and labels
for i = array.size(forecastLines) - 1 to 0
cleaner(forecastLines, i)
for i = array.size(areas) - 1 to 0
cleaner(areas, i)
for i = array.size(perc) - 1 to 0
cleaner(perc, i)
deltaStartX := na
future = bar_index
for i = 0 to forecast.size() - 2
x1 = math.min(future, bar_index + 500)
x2 = math.min(future + segment, bar_index + 500)
y1 = forecast.get(i)
y2 = forecast.get(i + 1)
lnForecast = line.new(
x1, y1,
x2, y2,
color = y1 < y2 ? projLineBullColor : projLineBearColor,
width = projLineWidth,
style = projLineStyle
)
array.push(forecastLines, lnForecast)
// area box around the end of segment
midBoxLeft = x2 - math.round((x1 - x2) / 4.0)
midBoxRight = x2 + math.round((x1 - x2) / 4.0)
boxHeight = math.abs(y1 - y2) / 10.0
txtLevel = i == forecast.size() - 2 ?
str.tostring(trendFibbRatio, "#.###") :
str.tostring(lvl * 100, "#.##")
boxBg = projBoxBgOn ? projBoxBgColor : color.new(projBoxBgColor, 100)
boxBord = projBoxBorderOn ? projBoxBorderCol : color.new(projBoxBorderCol, 100)
bx = box.new(
midBoxLeft,
y2 + boxHeight,
midBoxRight,
y2 - boxHeight,
bgcolor = boxBg,
border_color = boxBord,
border_style = projBoxBorderStyle,
border_width = projBoxBorderW,
text = txtLevel,
text_halign = projBoxTextHAlign,
text_valign = projBoxTextVAlign,
text_color = projBoxTextColor,
text_size = projBoxTextSize
)
array.push(areas, bx)
// keep track of the rightmost edge of the last projection box
deltaStartX := na(deltaStartX) ? box.get_right(bx) : math.max(deltaStartX, box.get_right(bx))
// percentage label
change = (y2 - y1) / y1
midX = int(math.avg(x1, x2))
midY = line.get_price(lnForecast, midX)
lb = label.new(
chart.point.from_index(midX, midY),
str.tostring(change * 100, format.percent),
color = change > 0 ? projPercBullColor : projPercBearColor,
style = i == 1 ? label.style_label_lower_right : label.style_label_lower_left,
textcolor = projPercTextColor,
size = projPercLabelSize
)
array.push(perc, lb)
future += segment
// ~~ Fib Volume Profile
if showFibProfile and hiBar != loBar and not na(hiPrice) and not na(loPrice)
for i = array.size(fibProfileBoxes) - 1 to 0
cleaner(fibProfileBoxes, i)
top = math.max(hiPrice, loPrice)
bottom = math.min(hiPrice, loPrice)
if top != bottom
step = (top - bottom) / rows
levels = array.new_float()
for i = 0 to rows
array.push(levels, bottom + step * i)
volUp = array.new_float(rows, 0.0)
volDn = array.new_float(rows, 0.0)
startBar = math.min(hiBar, loBar)
endBar = math.max(hiBar, loBar)
for bi = startBar to endBar
offset = bar_index - bi
// SAFETY CHECK: Prevents crash on low timeframes if swing is > 5000 bars
if offset < 4998
price = hlc3[offset]
vol = nz(volume[offset]) // SAFETY: nz() for no volume data
bull = close[offset] > open[offset]
for r = 0 to rows - 1
dn = array.get(levels, r)
up = array.get(levels, r + 1)
if price >= dn and price < up
if bull
array.set(volUp, r, array.get(volUp, r) + vol)
else
array.set(volDn, r, array.get(volDn, r) + vol)
break
maxTot = 0.0
for r = 0 to rows - 1
tot = array.get(volUp, r) + array.get(volDn, r)
maxTot := math.max(maxTot, tot)
span = endBar - startBar + 1
if maxTot > 0
for r = 0 to rows - 1
upVol = array.get(volUp, r)
dnVol = array.get(volDn, r)
normUp = upVol == 0 ? 0 : int((upVol / maxTot) * span)
normDn = dnVol == 0 ? 0 : int((dnVol / maxTot) * span)
bullRowCol = color.from_gradient(r, 0, rows - 1, color.new(bull_color, 80), color.new(bull_color, 10))
bearRowCol = color.from_gradient(r, 0, rows - 1, color.new(bear_color, 80), color.new(bear_color, 10))
yTop = array.get(levels, r + 1)
yBottom = array.get(levels, r)
leftBull = flipOrder ? startBar : startBar + normDn
rightBull = flipOrder ? startBar + normUp : startBar + normDn + normUp
leftBear = flipOrder ? startBar + normUp : startBar
rightBear = flipOrder ? startBar + normUp + normDn : startBar + normDn
if normUp > 0
bBull = box.new(
leftBull, yTop,
rightBull, yBottom,
bgcolor = bullRowCol,
border_color = color.new(bullRowCol, 0),
border_style = line.style_dotted,
text = showVolText ? str.tostring(upVol, format.volume) : "",
text_color = color.white,
text_size = volTextSize,
text_valign = text.align_center,
text_halign = text.align_center
)
array.push(fibProfileBoxes, bBull)
if normDn > 0
bBear = box.new(
leftBear, yTop,
rightBear, yBottom,
bgcolor = bearRowCol,
border_color = color.new(bearRowCol, 0),
border_style = line.style_dotted,
text = showVolText ? str.tostring(dnVol, format.volume) : "",
text_color = color.white,
text_size = volTextSize,
text_valign = text.align_center,
text_halign = text.align_center
)
array.push(fibProfileBoxes, bBear)
// Fib Volume Delta Profile
if showFibDelta and hiBar != loBar and not na(hiPrice) and not na(loPrice)
for i = array.size(fibDeltaBoxes) - 1 to 0
cleaner(fibDeltaBoxes, i)
// Build fib prices
fibPrices = array.new_float()
array.push(fibPrices, hiPrice)
for e in lvls
lvlPrice = fibbFunc(e, HB < LB, hiPrice, loPrice)
array.push(fibPrices, lvlPrice)
array.push(fibPrices, loPrice)
// Sort prices low→high
fibSorted = array.copy(fibPrices)
array.sort(fibSorted)
bandsCount = array.size(fibSorted) - 1
if bandsCount > 0
bandBull = array.new_float(bandsCount, 0.0)
bandBear = array.new_float(bandsCount, 0.0)
startBar = math.min(hiBar, loBar)
endBar = math.max(hiBar, loBar)
// accumulate bull/bear volume per band
for bi = startBar to endBar
offset = bar_index - bi
// SAFETY CHECK: Prevents crash on low timeframes if swing is > 5000 bars
if offset < 4998
price = hlc3[offset]
vol = nz(volume[offset]) // SAFETY: nz()
bull = close[offset] > open[offset]
for b = 0 to bandsCount - 1
bandLow = array.get(fibSorted, b)
bandHigh = array.get(fibSorted, b + 1)
if price >= bandLow and price < bandHigh
if bull
array.set(bandBull, b, array.get(bandBull, b) + vol)
else
array.set(bandBear, b, array.get(bandBear, b) + vol)
break
// compute delta
maxAbsDelta = 0.0
for b = 0 to bandsCount - 1
delta = array.get(bandBull, b) - array.get(bandBear, b)
maxAbsDelta := math.max(maxAbsDelta, math.abs(delta))
if maxAbsDelta > 0
xStartBase = startBar
for b = 0 to bandsCount - 1
bandLow = array.get(fibSorted, b)
bandHigh = array.get(fibSorted, b + 1)
delta = array.get(bandBull, b) - array.get(bandBear, b)
if delta == 0
continue
absDelta = math.abs(delta)
widthBars = int((absDelta / maxAbsDelta) * deltaMaxWidth)
widthBars := math.max(widthBars, 1)
xEnd = xStartBase
xStart = xStartBase - widthBars
col = delta >= 0 ? deltaBullColor : deltaBearColor
dBox = box.new(
xStart, bandHigh,
xEnd, bandLow,
bgcolor = col,
border_color = color.new(col, 0),
border_style = line.style_solid,
text = "Δ " + str.tostring(delta, format.volume),
text_color = color.white,
text_halign = "center",
text_valign = "center"
)
array.push(fibDeltaBoxes, dBox)
//~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~}
indicator("Hoon Fib project", shorttitle ="Hoon Fib project" ,overlay = true, max_bars_back = 5000)
// ~~ Tooltips {
var string t1 = "Period:\nNumber of bars used to detect swing highs and swing lows. Larger values give fewer but larger swings. (Works relative to current timeframe)."
var string t2 = "Projection Level:\nFibonacci ratio used to calculate the projected future swing targets (e.g. 61.8%)."
var string t2_b = "Trend Projection Ratio:\nThe secondary Fibonacci ratio used for the furthest extension (default was 1.272)."
var string t3 = "Level 1:\nRatio and Color for the first retracement level (Standard: 0.236)."
var string t4 = "Level 2:\nRatio and Color for the second retracement level (Standard: 0.382)."
var string t5 = "Level 3:\nRatio and Color for the third retracement level (Standard: 0.500)."
var string t6 = "Level 4:\nRatio and Color for the fourth retracement level (Standard: 0.618)."
var string t7 = "Level 5:\nRatio and Color for the fifth retracement level (Standard: 0.786)."
var string t8 = "Fib Line Width:\nThickness of all horizontal Fibonacci retracement lines."
var string t9 = "Fib Labels:\nShow or hide percentage labels at each Fibonacci retracement line."
var string t10 = "Fib Label Text Color:\nText color of Fibonacci retracement labels."
var string t11 = "Fib Label Size:\nFont size of Fibonacci retracement labels."
var string t12 = "Low Line Color:\nColor for the most recent swing low horizontal guide line."
var string t13 = "High Line Color:\nColor for the most recent swing high horizontal guide line."
var string t14 = "Swing Line Width:\nThickness of both swing high and swing low guide lines."
var string t15 = "Fib Volume Profile:\nEnable or disable the main volume profile drawn between the last swing high and low."
var string t16 = "Rows:\nNumber of price rows (bins) used in the Fib volume profile. More rows = finer detail."
var string t17 = "Flip Bull/Bear:\nSwap the horizontal position of bullish and bearish volume bars in the profile."
var string t18 = "Bull Volume Color:\nBase color used for bullish (up-bar) volume in the Fib volume profile."
var string t19 = "Bear Volume Color:\nBase color used for bearish (down-bar) volume in the Fib volume profile."
var string t20 = "Fib Volume Delta:\nEnable or disable the separate volume delta profile between Fibonacci price bands."
var string t21 = "Delta Max Width:\nMaximum horizontal width (in bars) used to scale delta boxes from smallest to largest."
var string t22 = "Bullish Delta Color:\nFill color for bands where bullish volume exceeds bearish volume (positive delta)."
var string t23 = "Bearish Delta Color:\nFill color for bands where bearish volume exceeds bullish volume (negative delta)."
var string t24 = "Bullish Projection Line Color:\nColor of projected segments when price is projected upward."
var string t25 = "Bearish Projection Line Color:\nColor of projected segments when price is projected downward."
var string t26 = "Projection Line Width:\nThickness of projected swing segments."
var string t27 = "Projection Line Style:\nVisual style of projected lines (solid, dashed, dotted, or arrows)."
var string t28 = "Bullish Label Background:\nBackground color for percentage labels on upward projection segments."
var string t29 = "Bearish Label Background:\nBackground color for percentage labels on downward projection segments."
var string t30 = "Projection Label Text Color:\nText color of projection percentage labels."
var string t31 = "Projection Label Size:\nFont size of projection percentage labels."
var string t32 = "Projection Box Background:\nToggle the background fill of projection boxes on or off."
var string t33 = "Projection Box Background Color:\nFill color used for projection boxes (when background is enabled)."
var string t34 = "Projection Box Border:\nToggle drawing a border around projection boxes."
var string t35 = "Projection Box Border Color:\nColor of the border around projection boxes."
var string t36 = "Projection Box Border Width:\nThickness of projection box borders."
var string t37 = "Projection Box Border Style:\nLine style for projection box borders (solid/dashed/dotted)."
var string t38 = "Projection Box Horizontal Align:\nHorizontal alignment of text inside projection boxes (left/center/right)."
var string t39 = "Projection Box Vertical Align:\nVertical alignment of text inside projection boxes (top/center/bottom)."
var string t40 = "Projection Box Text Color:\nText color for the projection level values shown inside the boxes."
var string t41 = "Projection Box Text Size:\nFont size of the projection level values shown inside the boxes."
//~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~}
// ~~ Inputs {
prd = input.int(
100,
"Period",
group = "Fib Settings",
inline = "fibColor",
tooltip = t1
)
lvl = input.float(
0.618,
title = "Projection Level",
group = "Fib Settings",
options = [0.236, 0.382, 0.5, 0.618, 0.786],
tooltip = t2
)
// NEW INPUT FOR CUSTOM FIB
trendFibbRatio = input.float(
1.272,
title = "Trend Projection Ratio",
step = 0.001,
group = "Fib Settings",
tooltip = t2_b
)
// Fib line style inputs (horizontal fib levels)
fibLvl1 = input.float(0.236, "Level 1", group = "Fib Levels Style", inline = "f1", tooltip = t3)
fibColor236 = input.color(#f23645, "", group = "Fib Levels Style", inline = "f1")
fibLvl2 = input.float(0.382, "Level 2", group = "Fib Levels Style", inline = "f2", tooltip = t4)
fibColor382 = input.color(#81c784, "", group = "Fib Levels Style", inline = "f2")
fibLvl3 = input.float(0.500, "Level 3", group = "Fib Levels Style", inline = "f3", tooltip = t5)
fibColor500 = input.color(#4caf50, "", group = "Fib Levels Style", inline = "f3")
fibLvl4 = input.float(0.618, "Level 4", group = "Fib Levels Style", inline = "f4", tooltip = t6)
fibColor618 = input.color(#089981, "", group = "Fib Levels Style", inline = "f4")
fibLvl5 = input.float(0.786, "Level 5", group = "Fib Levels Style", inline = "f5", tooltip = t7)
fibColor786 = input.color(#64b5f6, "", group = "Fib Levels Style", inline = "f5")
fibLineWidth = input.int(
2,
"Fib Line Width",
minval = 1,
maxval = 5,
group = "Fib Levels Style",
inline = "fwidth",
tooltip = t8
)
showlab = input.bool(
false,
title = "Fib Labels",
group = "Fib Levels Style",
inline = "fiblab"
)
fibLabelColor = input.color(
color.white,
"",
group = "Fib Levels Style",
inline = "fiblab"
)
fibLabelSizeStr = input.string(
"Small",
"",
options = ["Tiny","Small","Normal","Large","Huge"],
group = "Fib Levels Style",
inline = "fiblab",
tooltip = t9 + "\n\n" + t10 + "\n\n" + t11
)
fibLabelOffset = 1 // (fixed) x offset for labels
// derived label size
fibLabelSize =
fibLabelSizeStr == "Tiny" ? size.tiny :
fibLabelSizeStr == "Small" ? size.small :
fibLabelSizeStr == "Large" ? size.large :
fibLabelSizeStr == "Huge" ? size.huge :
size.normal
// Swing high/low lines
loLineColor = input.color(
color.new(color.green, 0),
"Low Line",
group = "Swing High/Low Lines Style",
inline = "hi"
)
hiLineColor = input.color(
color.new(color.red, 0),
"High Line",
group = "Swing High/Low Lines Style",
inline = "hi"
)
hiloLineWidth = input.int(
2,
"Width",
1,
5,
group = "Swing High/Low Lines Style",
inline = "hi",
tooltip = t12 + "\n\n" + t13 + "\n\n" + t14
)
// Fib volume profile inputs
showFibProfile = input.bool(
true,
"Fib Volume Profile",
group = "Fib Volume Profile",
inline = "fibprof"
)
rows = input.int(
10,
"Rows",
2,
100,
group = "Fib Volume Profile",
inline = "fibprof"
)
flipOrder = input.bool(
false,
"Flip Bull/Bear",
group = "Fib Volume Profile",
inline = "fibprof",
tooltip = t15 + "\n\n" + t16 + "\n\n" + t17
)
bull_color = input.color(
color.new(color.teal, 30),
"Bull",
group = "Fib Volume Profile",
inline = "volColor"
)
bear_color = input.color(
color.new(color.orange, 30),
"Bear",
group = "Fib Volume Profile",
inline = "volColor",
tooltip = t18 + "\n\n" + t19
)
// Volume Text Settings
showVolText = input.bool(true, "Show Volume Values", group="Fib Volume Profile", inline="vtxt")
volTextSizeStr = input.string("Tiny", "Size", options=["Tiny", "Small", "Normal"], group="Fib Volume Profile", inline="vtxt")
volTextSize =
volTextSizeStr == "Tiny" ? size.tiny :
volTextSizeStr == "Small" ? size.small :
size.normal
// Fib Volume Delta profile
showFibDelta = input.bool(
false,
"Fib Volume Delta",
group = "Fib Volume Delta Profile",
inline = "delta"
)
deltaMaxWidth = input.int(
30,
"Max Width",
minval = 5,
maxval = 200,
group = "Fib Volume Delta Profile",
inline = "delta",
tooltip = t20 + "\n\n" + t21
)
deltaBullColor = input.color(
color.new(color.lime, 80),
"Bullish Delta",
group = "Fib Volume Delta Profile",
inline = "deltaColor"
)
deltaBearColor = input.color(
color.new(color.red, 80),
"Bearish Delta",
group = "Fib Volume Delta Profile",
inline = "deltaColor",
tooltip = t22 + "\n\n" + t23
)
// Projection LINES style
projLineBullColor = input.color(
color.new(color.green, 0),
"Bullish",
group = "Projection Lines Style",
inline = "plc"
)
projLineBearColor = input.color(
color.new(color.red, 0),
"Bearish",
group = "Projection Lines Style",
inline = "plc"
)
projLineWidth = input.int(
2,
"Width",
1,
5,
group = "Projection Lines Style",
inline = "plc"
)
projLineStyleStr = input.string(
"Arrow Right",
"",
options = ["Solid", "Dashed", "Dotted", "Arrow Left", "Arrow Right"],
group = "Projection Lines Style",
inline = "plc",
tooltip = t24 + "\n\n" + t25 + "\n\n" + t26 + "\n\n" + t27
)
projLineStyle =
projLineStyleStr == "Solid" ? line.style_solid :
projLineStyleStr == "Dashed" ? line.style_dashed :
projLineStyleStr == "Dotted" ? line.style_dotted :
projLineStyleStr == "Arrow Left" ? line.style_arrow_left :
line.style_arrow_right
// Projection % LABELS style
projPercBullColor = input.color(
color.new(color.green, 0),
"Bullish Bg",
group = "Projection Labels Style",
inline = "plc"
)
projPercBearColor = input.color(
color.new(color.red, 0),
"Bearish Bg",
group = "Projection Labels Style",
inline = "plc"
)
projPercTextColor = input.color(
color.white,
"Text",
group = "Projection Labels Style",
inline = "plc"
)
projPercLabelSizeStr = input.string(
"Small",
"",
options = ["Tiny","Small","Normal","Large","Huge"],
group = "Projection Labels Style",
inline = "plc",
tooltip = t28 + "\n\n" + t29 + "\n\n" + t30 + "\n\n" + t31
)
projPercLabelSize =
projPercLabelSizeStr == "Tiny" ? size.tiny :
projPercLabelSizeStr == "Small" ? size.small :
projPercLabelSizeStr == "Large" ? size.large :
projPercLabelSizeStr == "Huge" ? size.huge :
size.normal
// Projection box style inputs
projBoxBgOn = input.bool(
true,
"Background",
group = "Projection Box Style",
inline = "pbg"
)
projBoxBgColor = input.color(
color.new(color.blue, 80),
"",
group = "Projection Box Style",
inline = "pbg"
)
projBoxBorderOn = input.bool(
true,
"Border",
group = "Projection Box Style",
inline = "pbg"
)
projBoxBorderCol = input.color(
color.new(color.white, 0),
"",
group = "Projection Box Style",
inline = "pbg"
)
projBoxBorderW = input.int(
1,
"",
minval = 1,
maxval = 5,
group = "Projection Box Style",
inline = "pbg"
)
projBoxBorderStyleStr = input.string(
"Solid",
"",
options = ["Solid", "Dashed", "Dotted"],
group = "Projection Box Style",
inline = "pbg",
tooltip = t32 + "\n\n" + t33 + "\n\n" + t34 + "\n\n" + t35 + "\n\n" + t36 + "\n\n" + t37
)
projBoxTextHAlignStr = input.string(
"Center",
"H Align",
options = ["Left", "Center", "Right"],
group = "Projection Box Style",
inline = "ptxt"
)
projBoxTextVAlignStr = input.string(
"Center",
"V Align",
options = ["Top", "Center", "Bottom"],
group = "Projection Box Style",
inline = "ptxt",
tooltip = t38 + "\n\n" + t39
)
projBoxTextColor = input.color(
color.white,
"Text",
group = "Projection Box Style",
inline = "ptxt2"
)
projBoxTextSizeStr = input.string(
"Normal",
"",
options = ["Tiny","Small","Normal","Large","Huge"],
group = "Projection Box Style",
inline = "ptxt2",
tooltip = t40 + "\n\n" + t41
)
projBoxTextSize =
projBoxTextSizeStr == "Tiny" ? size.tiny :
projBoxTextSizeStr == "Small" ? size.small :
projBoxTextSizeStr == "Large" ? size.large :
projBoxTextSizeStr == "Huge" ? size.huge :
size.normal
// Derived projection box style settings
projBoxBorderStyle =
projBoxBorderStyleStr == "Solid" ? line.style_solid :
projBoxBorderStyleStr == "Dashed" ? line.style_dashed :
line.style_dotted
projBoxTextHAlign =
projBoxTextHAlignStr == "Left" ? "left" :
projBoxTextHAlignStr == "Right" ? "right" :
"center"
projBoxTextVAlign =
projBoxTextVAlignStr == "Top" ? "top" :
projBoxTextVAlignStr == "Bottom" ? "bottom" :
"center"
//~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~}
// ~~ Swing detection {
hi = ta.highest(high, prd)
lo = ta.lowest(low, prd)
isHi = high == hi
isLo = low == lo
HB = ta.barssince(isHi)
LB = ta.barssince(isLo)
// price of last swing high/low
hiPrice = ta.valuewhen(isHi, high, 0)
loPrice = ta.valuewhen(isLo, low, 0)
// bar index of last swing high/low
hiBar = ta.valuewhen(isHi, bar_index, 0)
loBar = ta.valuewhen(isLo, bar_index, 0)
//~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~}
// ~~ Persistent drawings {
var line hiLine = na
var line loLine = na
if barstate.isfirst
hiLine := line.new(na, na, na, na, color = hiLineColor, width = hiloLineWidth)
loLine := line.new(na, na, na, na, color = loLineColor, width = hiloLineWidth)
// arrays to store objects
var array<line> fibbLines = array.new_line()
var array<label> fibbLabels = array.new_label()
var array<line> forecastLines = array.new_line()
var array<box> areas = array.new_box()
var array<label> perc = array.new_label()
var array<box> fibProfileBoxes = array.new_box()
var array<box> fibDeltaBoxes = array.new_box()
var int deltaStartX = na
//~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~}
// ~~ Functions {
// fib level calculator
fibbFunc(v, last, h, l) =>
last ? h - (h - l) * v : l + (h - l) * v
// generic cleaner for drawing-object arrays (lines, boxes, labels)
cleaner(a, idx) =>
if idx >= 0 and idx < array.size(a)
el = array.get(a, idx)
if not na(el)
el.delete()
array.remove(a, idx)
//~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~}
// ~~ Main logic {
if not na(HB) and not na(LB) and not na(hiPrice) and not na(loPrice) and not na(hiBar) and not na(loBar)
// update swing lines
// update swing lines (position + live style)
line.set_xy1(hiLine, hiBar, hiPrice)
line.set_xy2(hiLine, bar_index, hiPrice)
line.set_color(hiLine, hiLineColor)
line.set_width(hiLine, hiloLineWidth)
line.set_xy1(loLine, loBar, loPrice)
line.set_xy2(loLine, bar_index, loPrice)
line.set_color(loLine, loLineColor)
line.set_width(loLine, hiloLineWidth)
bars = math.abs(HB - LB)
// FIB retracement lines
for i = array.size(fibbLines) - 1 to 0
cleaner(fibbLines, i)
for i = array.size(fibbLabels) - 1 to 0
cleaner(fibbLabels, i)
lvls = array.from(fibLvl1, fibLvl2, fibLvl3, fibLvl4, fibLvl5)
cols = array.from(fibColor236, fibColor382, fibColor500, fibColor618, fibColor786)
baseOffset = HB > LB ? LB : HB
xFibStart = bar_index - baseOffset
for [i, e] in lvls
f = fibbFunc(e, HB < LB, hiPrice, loPrice)
x1 = xFibStart
x2 = bar_index
ln = line.new(
chart.point.from_index(x1, f),
chart.point.from_index(x2, f),
color = cols.get(i),
width = fibLineWidth
)
array.push(fibbLines, ln)
// fib label at right of line
if showlab
fibText = str.tostring(e * 100, "#.##") + "%"
lbl = label.new(
chart.point.from_index(x2 + fibLabelOffset, f),
fibText,
textcolor = fibLabelColor,
style = label.style_label_left,
size = fibLabelSize,
color =cols.get(i)
)
array.push(fibbLabels, lbl)
// Projection part
fibb = fibbFunc(lvl, LB > HB, hiPrice, loPrice)
fibb2 = LB < HB ?
fibbFunc(lvl, true, fibb, loPrice) :
fibbFunc(lvl, false, hiPrice, fibb)
trendfibb = LB > HB ?
fibbFunc(trendFibbRatio, true, hiPrice, loPrice) :
fibbFunc(trendFibbRatio, false, hiPrice, loPrice)
forecast = array.from(HB < LB ? hiPrice : loPrice, fibb, fibb2, trendfibb)
segment = math.min(bars, math.floor(500.0 / 4.0))
// clear previous forecast lines, boxes, and labels
for i = array.size(forecastLines) - 1 to 0
cleaner(forecastLines, i)
for i = array.size(areas) - 1 to 0
cleaner(areas, i)
for i = array.size(perc) - 1 to 0
cleaner(perc, i)
deltaStartX := na
future = bar_index
for i = 0 to forecast.size() - 2
x1 = math.min(future, bar_index + 500)
x2 = math.min(future + segment, bar_index + 500)
y1 = forecast.get(i)
y2 = forecast.get(i + 1)
lnForecast = line.new(
x1, y1,
x2, y2,
color = y1 < y2 ? projLineBullColor : projLineBearColor,
width = projLineWidth,
style = projLineStyle
)
array.push(forecastLines, lnForecast)
// area box around the end of segment
midBoxLeft = x2 - math.round((x1 - x2) / 4.0)
midBoxRight = x2 + math.round((x1 - x2) / 4.0)
boxHeight = math.abs(y1 - y2) / 10.0
txtLevel = i == forecast.size() - 2 ?
str.tostring(trendFibbRatio, "#.###") :
str.tostring(lvl * 100, "#.##")
boxBg = projBoxBgOn ? projBoxBgColor : color.new(projBoxBgColor, 100)
boxBord = projBoxBorderOn ? projBoxBorderCol : color.new(projBoxBorderCol, 100)
bx = box.new(
midBoxLeft,
y2 + boxHeight,
midBoxRight,
y2 - boxHeight,
bgcolor = boxBg,
border_color = boxBord,
border_style = projBoxBorderStyle,
border_width = projBoxBorderW,
text = txtLevel,
text_halign = projBoxTextHAlign,
text_valign = projBoxTextVAlign,
text_color = projBoxTextColor,
text_size = projBoxTextSize
)
array.push(areas, bx)
// keep track of the rightmost edge of the last projection box
deltaStartX := na(deltaStartX) ? box.get_right(bx) : math.max(deltaStartX, box.get_right(bx))
// percentage label
change = (y2 - y1) / y1
midX = int(math.avg(x1, x2))
midY = line.get_price(lnForecast, midX)
lb = label.new(
chart.point.from_index(midX, midY),
str.tostring(change * 100, format.percent),
color = change > 0 ? projPercBullColor : projPercBearColor,
style = i == 1 ? label.style_label_lower_right : label.style_label_lower_left,
textcolor = projPercTextColor,
size = projPercLabelSize
)
array.push(perc, lb)
future += segment
// ~~ Fib Volume Profile
if showFibProfile and hiBar != loBar and not na(hiPrice) and not na(loPrice)
for i = array.size(fibProfileBoxes) - 1 to 0
cleaner(fibProfileBoxes, i)
top = math.max(hiPrice, loPrice)
bottom = math.min(hiPrice, loPrice)
if top != bottom
step = (top - bottom) / rows
levels = array.new_float()
for i = 0 to rows
array.push(levels, bottom + step * i)
volUp = array.new_float(rows, 0.0)
volDn = array.new_float(rows, 0.0)
startBar = math.min(hiBar, loBar)
endBar = math.max(hiBar, loBar)
for bi = startBar to endBar
offset = bar_index - bi
// SAFETY CHECK: Prevents crash on low timeframes if swing is > 5000 bars
if offset < 4998
price = hlc3[offset]
vol = nz(volume[offset]) // SAFETY: nz() for no volume data
bull = close[offset] > open[offset]
for r = 0 to rows - 1
dn = array.get(levels, r)
up = array.get(levels, r + 1)
if price >= dn and price < up
if bull
array.set(volUp, r, array.get(volUp, r) + vol)
else
array.set(volDn, r, array.get(volDn, r) + vol)
break
maxTot = 0.0
for r = 0 to rows - 1
tot = array.get(volUp, r) + array.get(volDn, r)
maxTot := math.max(maxTot, tot)
span = endBar - startBar + 1
if maxTot > 0
for r = 0 to rows - 1
upVol = array.get(volUp, r)
dnVol = array.get(volDn, r)
normUp = upVol == 0 ? 0 : int((upVol / maxTot) * span)
normDn = dnVol == 0 ? 0 : int((dnVol / maxTot) * span)
bullRowCol = color.from_gradient(r, 0, rows - 1, color.new(bull_color, 80), color.new(bull_color, 10))
bearRowCol = color.from_gradient(r, 0, rows - 1, color.new(bear_color, 80), color.new(bear_color, 10))
yTop = array.get(levels, r + 1)
yBottom = array.get(levels, r)
leftBull = flipOrder ? startBar : startBar + normDn
rightBull = flipOrder ? startBar + normUp : startBar + normDn + normUp
leftBear = flipOrder ? startBar + normUp : startBar
rightBear = flipOrder ? startBar + normUp + normDn : startBar + normDn
if normUp > 0
bBull = box.new(
leftBull, yTop,
rightBull, yBottom,
bgcolor = bullRowCol,
border_color = color.new(bullRowCol, 0),
border_style = line.style_dotted,
text = showVolText ? str.tostring(upVol, format.volume) : "",
text_color = color.white,
text_size = volTextSize,
text_valign = text.align_center,
text_halign = text.align_center
)
array.push(fibProfileBoxes, bBull)
if normDn > 0
bBear = box.new(
leftBear, yTop,
rightBear, yBottom,
bgcolor = bearRowCol,
border_color = color.new(bearRowCol, 0),
border_style = line.style_dotted,
text = showVolText ? str.tostring(dnVol, format.volume) : "",
text_color = color.white,
text_size = volTextSize,
text_valign = text.align_center,
text_halign = text.align_center
)
array.push(fibProfileBoxes, bBear)
// Fib Volume Delta Profile
if showFibDelta and hiBar != loBar and not na(hiPrice) and not na(loPrice)
for i = array.size(fibDeltaBoxes) - 1 to 0
cleaner(fibDeltaBoxes, i)
// Build fib prices
fibPrices = array.new_float()
array.push(fibPrices, hiPrice)
for e in lvls
lvlPrice = fibbFunc(e, HB < LB, hiPrice, loPrice)
array.push(fibPrices, lvlPrice)
array.push(fibPrices, loPrice)
// Sort prices low→high
fibSorted = array.copy(fibPrices)
array.sort(fibSorted)
bandsCount = array.size(fibSorted) - 1
if bandsCount > 0
bandBull = array.new_float(bandsCount, 0.0)
bandBear = array.new_float(bandsCount, 0.0)
startBar = math.min(hiBar, loBar)
endBar = math.max(hiBar, loBar)
// accumulate bull/bear volume per band
for bi = startBar to endBar
offset = bar_index - bi
// SAFETY CHECK: Prevents crash on low timeframes if swing is > 5000 bars
if offset < 4998
price = hlc3[offset]
vol = nz(volume[offset]) // SAFETY: nz()
bull = close[offset] > open[offset]
for b = 0 to bandsCount - 1
bandLow = array.get(fibSorted, b)
bandHigh = array.get(fibSorted, b + 1)
if price >= bandLow and price < bandHigh
if bull
array.set(bandBull, b, array.get(bandBull, b) + vol)
else
array.set(bandBear, b, array.get(bandBear, b) + vol)
break
// compute delta
maxAbsDelta = 0.0
for b = 0 to bandsCount - 1
delta = array.get(bandBull, b) - array.get(bandBear, b)
maxAbsDelta := math.max(maxAbsDelta, math.abs(delta))
if maxAbsDelta > 0
xStartBase = startBar
for b = 0 to bandsCount - 1
bandLow = array.get(fibSorted, b)
bandHigh = array.get(fibSorted, b + 1)
delta = array.get(bandBull, b) - array.get(bandBear, b)
if delta == 0
continue
absDelta = math.abs(delta)
widthBars = int((absDelta / maxAbsDelta) * deltaMaxWidth)
widthBars := math.max(widthBars, 1)
xEnd = xStartBase
xStart = xStartBase - widthBars
col = delta >= 0 ? deltaBullColor : deltaBearColor
dBox = box.new(
xStart, bandHigh,
xEnd, bandLow,
bgcolor = col,
border_color = color.new(col, 0),
border_style = line.style_solid,
text = "Δ " + str.tostring(delta, format.volume),
text_color = color.white,
text_halign = "center",
text_valign = "center"
)
array.push(fibDeltaBoxes, dBox)
//~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~}
Script de código abierto
Fiel al espíritu de TradingView, el creador de este script lo ha convertido en código abierto, para que los traders puedan revisar y verificar su funcionalidad. ¡Enhorabuena al autor! Aunque puede utilizarlo de forma gratuita, recuerde que la republicación del código está sujeta a nuestras Normas internas.
Exención de responsabilidad
La información y las publicaciones no constituyen, ni deben considerarse como asesoramiento o recomendaciones financieras, de inversión, de trading o de otro tipo proporcionadas o respaldadas por TradingView. Más información en Condiciones de uso.
Script de código abierto
Fiel al espíritu de TradingView, el creador de este script lo ha convertido en código abierto, para que los traders puedan revisar y verificar su funcionalidad. ¡Enhorabuena al autor! Aunque puede utilizarlo de forma gratuita, recuerde que la republicación del código está sujeta a nuestras Normas internas.
Exención de responsabilidad
La información y las publicaciones no constituyen, ni deben considerarse como asesoramiento o recomendaciones financieras, de inversión, de trading o de otro tipo proporcionadas o respaldadas por TradingView. Más información en Condiciones de uso.