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Merhaba arkadaşlar. EMA göstergesini değerinin örneğin % 10 yukarısından ya da aşağısından çizdirmenin bir yolu var mıdır?
Teşekkürler...
Şunu denedim ama hata veriyor:
Eski Çalışır Hali:
study(title=" DENEME - EMA *%10", overlay=true)
ma8 = security(tickerid, 'D', ema(close, 8))
plot( ma8, color= blue, style=line, title="dailyMMA8", linewidth=1)
Bunu Denedim Olmadı:
study(title=" DENEME - EMA *%10", overlay=true)
ma8 = (security(tickerid, 'D', ema(close, 8)))*1,1
plot( ma8, color= blue, style=line, title="dailyMMA8", linewidth=1)
Bu da Olmadı:
study(title=" DENEME - EMA *%10", overlay=true)
ma8 = security(tickerid, 'D', ema(close, 8)*1,1)
plot( ma8, color= blue, style=line, title="dailyMMA8", linewidth=1)
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tradingview'de indikatör ismi :CORAL TREND INDICATOR
1-Göstergelerde arama kısmına yazın
2-İlk çıkan indikatöre tıklayın
3-Ayarını 2. ve 3. resimdeki rakamları ve çizgi göstergeyi seçerek ayarlayın
4- Son resimde güzel bir trend indikatörü elde edeceksiniz.
https://i.hizliresim.com/8kxvl29.png
günlük peryotta yeşil üstü tut, kırmızı altı sat,
HİNG LOW BANDS
1-Göstergelerde arama kısmına yazın
2-İlk çıkan indikatöre tıklayın
3-Ayarını 2.resimde yanına yazdığım rakamları yazarak .
https://i.hizliresim.com/3cggzxg.png
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İbrahim bey Tradingview Fibonacci Düzeltmesi ayarlarını aşağıdaki şekilde göstermiş ilgililere duyrulur.
impulsive bir yükselişin sadece %38-%61 ve %76'lık düzeltmelerini dikkate alıyorum.
%50 ve %23 kullanmıyorum.
Neden?
Çünkü onları da kullanınca zaten fiyat mutlaka bir çizgisine denk geliyor, strateji kuramıyorsun, o yüzden en güçlü tepki aldığı bu üç düzeltme seviyesine tepkisini merak ediyorum fiyatın ve kararımı da buna göre veriyorum.
https://i.hizliresim.com/o61qu7j.png
Arkadaşlar, çok önemli bir konu var.
Çoğu kişi bu detayı atlıyor, atlanmaması lazım Eğer işiniz Price Action ise, MUM'lar bu işin en önemli öğesi.
MUM'lar da, bir önceki kapanışına göre değil, sabahki açılışına göre yorumlanmalı.
Çünkü, mesela, dün 100 liradan kapanmış bir MUM, bugün 110 liradan açılıyor ve 102 liraya kadar satılıyorsa, Eğer siz "MUM rengini önceki kapanışa göre renklendir" derseniz, bu MUM YEŞİL olur.
Neden? Çünkü dünkü kapanış 100 liraydı, bugünkü kapanış 102 lira.
Halbuki, 110 liradan açılır açılmaz piyasa o ürünü deli gibi satmış, akşama kadar satmış ve 110 liralık açılışı 102 liraya indirmiş.
Dolayısıyla aslında gün içerisinde ciddi bir satış var.
Bu mumu doğru yorumlayabilmek için bu mumu KIRMIZI görmemiz gerekir.
O yüzden şunu yapın ve böyle olduğunu kontrol edin:
1. tradingview'de grafik ayarlarını açın
2. soldan SEMBOLe girin
3. sağdan "önceki kapanışa göre çubuk rengi" satırının SEÇİLİ OLMADIĞINA emin olun.
Bu konu önemli.
https://i.hizliresim.com/gyp0qqb.png
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Başka başlık olmadığı için buraya yazıyorum : Tradingview'da scam var, tradingviewtoken, namı diğer TRADE scam'dir cüzdanı bağlamayın.
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Most by ceyhun un ayarlarını.yuzde2 ye çekip uygun hareketli ortalamalara bakılabilir ytd
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OTT Collection güncellendi!
📌 Alert fonksiyonlarını eklenmiş. Artık seçtiğiniz sistem üzerinde alarm kurabilirsiniz.
📌 Backtest için gerekli bazı çıktılar da eklendi.
(Not : Backtest Modülünün de kontrolleri bitti, videosunu çekiminide hallederse lingi koyarım)
PHP Code:
// This source code is subject to the terms of the Mozilla Public License 2.0 at https://mozilla.org/MPL/2.0/
// © dg_factor [21.06.2023]
// ╠═══════════════════════════ Anıl Özekşi Library ═══════════════════════════╣
// 1) OTT [31.05.2019] Optimized Trend Tracker
// 2) TOTT [01.05.2020] Twin Ott (Ott Bands)
// 3) OTT CHANNEL [19.03.2021] Ott Channel (Half Channel & Fibonacci Channel)
// 4) RISOTTO [16.04.2021] Rsi-Ott
// 5) SOTT [18.04.2021] Stochastic Ott
// 6) HOTT-LOTT [06.03.2022] Highest-Lowest Ott & Sum Version [07.04.2022]
// 7) ROTT [19.05.2022] Relative Ott
// 8) FT [24.06.2022] "Fırsatçı Trend"
// 9) RTR [26.09.2022] Relative True Range
// "TOTTO" and "OTTO" are not included in the script.
// TOTTO and TOTT have the same calculations, the only difference is the length parameter.
// OTTO has been created by another (K. H. Alpay).
// Special thanks to Kıvanç Özbilgiç for Pine Script design and calculation examples of OTT.
//@version=5
indicator("OTT Collection", precision=2)
// ╠═════════════════════════════════ Inputs ══════════════════════════════════╣
gr_sys = "╠═══════════════ SYSTEM ══════════════╣"
system = input.string(title="System ", defval="OTT", group=gr_sys, options=
["OTT", "TOTT", "OTT CHANNEL", "RISOTTO", "SOTT", "HOTT-LOTT", "ROTT", "FT", "RTR"])
tt_p = "Enable repating signals.\n" +
"(This option allows you to display consecutive signals in the same direction for TOTT & HOTT-LOTT. " +
"It also effects the colour of bars.)"
tt_bars = "Bars option is available for :\nOTT, TOTT, OTT CHANNEL, HOTT-LOTT, FT."
pyr = input.bool(title="Pyramiding", defval=false, group=gr_sys, tooltip=tt_p)
gr_dis = "╠═══════════════ DISPLAY ══════════════╣"
sh_signal = input.bool(title="Signals****", defval=true, group=gr_dis, inline="1")
sh_bar_color = input.bool(title="Barcolor****", defval=true, group=gr_dis, inline="1")
sh_bar = input.bool(title="Bars", defval=true, group=gr_dis, inline="1", tooltip=tt_bars)
col_sup = #00bcd4
col_tar = #ff9800
col_l = #00ff00
col_s = #ff0000
col_n = #333333
// ╔═══════════════════════════════════════════════════════════════════════════╗
// ║ FUNCTIONS ║
// ╚═══════════════════════════════════════════════════════════════════════════╝
// ╠═══════════════════════════════════ VAR ═══════════════════════════════════╣
// Variable Index Dynamic Adaptive Moving Average - Tushar Chande
f_var(series float data, series int length) =>
a = ta.sma(data, length)
b = math.abs(ta.change(data, 9)) // Momentum
c = math.sum(math.abs(ta.change(data)), 9) // Volatility
d = c != 0 ? b / c : 0 // Efficiency Ratio
e = 2 / (length + 1)
r = 0.0, r := length == 1 ? data : na(r[1]) ? a : d * e * (data - nz(r[1])) + nz(r[1]) // Matriks design
// r = 0.0, r := d * e * (data - nz(r[1])) + nz(r[1]) // Output used in previously published versions on Tradingview
//
// ╠═══════════════════════════════════ OTT ═══════════════════════════════════╣
// Optimized Trend Tracker - Anıl Özekşi
f_ott(series float data, series float multiplier) =>
a = multiplier / 100
b = data * a, c = data - b, d = data + b
c := c > nz(c[1]) or data < nz(c[1]) ? c : nz(c[1])
d := d < nz(d[1]) or data > nz(d[1]) ? d : nz(d[1])
e = 0.0, e := data > nz(e[1]) ? c : data < nz(e[1]) ? d : nz(e[1]) // MOST - by Anıl Özekşi :)
f = 1 + a / 2
g = 1 - a / 2
h = data > e ? e * f : e * g
r = nz(h[2])
//
// ╔═══════════════════════════════════════════════════════════════════════════╗
// ║ CALCULATIONS ║
// ╚═══════════════════════════════════════════════════════════════════════════╝
// ╠═══════════════════════════════════ OTT ═══════════════════════════════════╣
// Inputs
string gr_ott = "╠═══════════════ OTT ════════════════╣"
ott_u = input.int(title="Length ", defval=20, step=5, group=gr_ott, tooltip="MA Length [20, 60]")
ott_k = input.float(title="Multiplier ", defval=1.5, step=0.1, group=gr_ott, tooltip="OTT Multiplier")
// Calcs
ott_support = f_var(close, ott_u)
ott_line = f_ott(ott_support, ott_k)
// Signals
ott_long = ott_support > ott_line // ta.crossover(ott_support, ott_line)
ott_short = ott_support < ott_line // ta.crossunder(ott_support, ott_line)
// ╠══════════════════════════════════ TOTT ═══════════════════════════════════╣
// Inputs
string gr_tott = "╠═══════════════ TOTT ═══════════════╣"
tott_u = input.int(title="Length ", defval=35, step=5, group=gr_tott, tooltip="MA Length [15, 45]")
tott_k1 = input.float(title="Multiplier ", defval=0.5, step=0.1, group=gr_tott, tooltip="OTT Multiplier [0.3, 0.6]")
tott_k2 = input.float(title="Band Multiplier ", defval=0.0006, step=0.0001, group=gr_tott, tooltip="[0.0004, 0.0006]")
// Calcs
tott_support = f_var(close, int(tott_u / 2))
tott_up = f_ott(f_var(tott_support, 2), tott_k1) * (1 + tott_k2)
tott_dn = f_ott(f_var(tott_support, 2), tott_k1) * (1 - tott_k2)
// Signals
tott_long = tott_support > tott_up // ta.crossover(tott_support, tott_up)
tott_short = tott_support < tott_dn // ta.crossunder(tott_support, tott_dn)
// ╠═══════════════════════════════ OTT CHANNEL ═══════════════════════════════╣
// Inputs
string gr_ottc = "╠════════════ OTT CHANNEL ════════════╣"
string ottc_t1 = "You can use this parameter to optimize '[Channel] Upper Line' manually."
string ottc_t2 = "You can use this parameter to optimize '[Channel] Lower Line' manually."
string ottc_t3 = "It is recommended to hide the channel levels to see the trends correctly while you're setting the manuel parameter optimization."
ottc_t = input.string(title="Channel Type", defval="Half Channel", options=["Half Channel", "Fibonacci Channel", "Both"], group=gr_ottc)
ottc_u = input.int(title="Length ", defval=2, group=gr_ottc, tooltip="MA Length")
ottc_k1 = input.float(title="Multiplier ", defval=1.4, group=gr_ottc, tooltip="OTT Multiplier")
ottc_k2 = input.float(title="Upper Line Multiplier", defval=0.01, step=0.01, group=gr_ottc, tooltip=ottc_t1)
ottc_k3 = input.float(title="Lower Line Multiplier", defval=0.01, step=0.01, group=gr_ottc, tooltip=ottc_t2)
ottc_h1 = input.bool(title="Hide Upper & Lower Lines", defval=false, group=gr_ottc)
ottc_h2 = input.bool(title="Hide Channel Lines", defval=false, group=gr_ottc, tooltip=ottc_t3)
// Ottc Mid Line
ottc_m = f_ott(f_var(close, ottc_u), ottc_k1)
// Channel Calcs
ottc_1 = ottc_m * (1 + ottc_k2)
ottc_2 = ottc_m * (1 + ottc_k2 * 0.618)
ottc_3 = ottc_m * (1 + ottc_k2 * 0.500)
ottc_4 = ottc_m * (1 + ottc_k2 * 0.382)
ottc_5 = ottc_m * (1 - ottc_k3 * 0.382)
ottc_6 = ottc_m * (1 - ottc_k3 * 0.500)
ottc_7 = ottc_m * (1 - ottc_k3 * 0.618)
ottc_8 = ottc_m * (1 - ottc_k3)
// Signals
// There're no any referenced conditions to generate signals for Ott Channel.
// It is recommended to use Channels as support and resistance levels.
// ╠═════════════════════════════════ RISOTTO ═════════════════════════════════╣
// Inputs
string gr_risotto = "╠═════════════ RISOTTO ═══════════════╣"
risotto_u1 = input.int(title="Length 1", defval=100, group=gr_risotto, tooltip="RSI Length")
risotto_u2 = input.int(title="Length 2", defval=50, group=gr_risotto, tooltip="MA Length")
risotto_k = input.float(title="Multiplier ", defval=0.2, group=gr_risotto, tooltip="OTT Multiplier")
// Calcs
risotto_support = f_var(ta.rsi(close, risotto_u1), risotto_u2) + 1000
risotto_line = f_ott(f_var(risotto_support, 2), risotto_k)
// Signals
risotto_long = risotto_support > risotto_line // ta.crossover(risotto_support, risotto_line)
risotto_short = risotto_support < risotto_line // ta.crossunder(risotto_support, risotto_line)
// ╠══════════════════════════════════ SOTT ═══════════════════════════════════╣
// Inputs
string gr_sott = "╠═══════════════ SOTT ═══════════════╣"
sott_u1 = input.int(title="Length 1", defval=500, group=gr_sott, tooltip="Stochastic %k Length")
sott_u2 = input.int(title="Length 2", defval=200, group=gr_sott, tooltip="Stochastic %d Length")
sott_k = input.float(title="Multiplier ", defval=0.5, group=gr_sott, tooltip="OTT Multiplier")
// Calcs
sott_support = f_var(ta.stoch(close, high, low, sott_u1), sott_u2) + 1000
sott_line = f_ott(f_var(sott_support, 2), sott_k)
// Signals
sott_long = sott_support > sott_line // ta.crossover(sott_support, sott_line)
sott_short = sott_support < sott_line // ta.crossunder(sott_support, sott_line)
// ╠═══════════════════════════════ HOTT & LOTT ═══════════════════════════════╣
// Inputs
string gr_hl = "╠════════════ HOTT & LOTT ═════════════╣"
string hl_t1 = "If you activate this option, signals will be generated according to the confirmation concept for N bars. \n\n" +
"Long : If the 'High' price is higher than Hott for N bars.\n\n" +
"Short : If the 'Low' price is lower than Lott for N bars."
hl_u = input.int(title="Length ", defval=10, step=5, group=gr_hl, tooltip="ta.highest() & ta.lowest() Length\n[10, 30]")
hl_k = input.float(title="Multiplier ", defval=0.6, step=0.1, group=gr_hl, tooltip="OTT Multiplier [0.3, 0.6]")
hl_sum = input.bool(title="Sum N bars", defval=false, group=gr_hl, inline="1")
hl_sum_n = input.int(title="**********", defval=3, group=gr_hl, inline="1", tooltip=hl_t1)
// Calcs
hott = f_ott(f_var(ta.highest(hl_u), 2), hl_k)
lott = f_ott(f_var(ta.lowest(hl_u), 2), hl_k)
// Signals
hl_long = not hl_sum ? high > hott : math.sum(high > hott ? 1 : 0, hl_sum_n) == hl_sum_n // ta.crossover(high, hott)
hl_short = not hl_sum ? low < lott : math.sum(low < lott ? 1 : 0, hl_sum_n) == hl_sum_n // ta.crossunder(low, lott)
// ╠══════════════════════════════════ ROTT ═══════════════════════════════════╣
// Inputs
string gr_rott = "╠═══════════════ ROTT ═══════════════╣"
rott_u = input.int(title="Length ", defval=200, group=gr_rott, tooltip="MA Length [100, 300]")
rott_k = input.float(title="Multiplier ", defval=1.0, group=gr_rott, tooltip="OTT Multiplier")
// Calcs
rott_support = f_var(close, rott_u) * 2
rott_line = f_ott(f_var(rott_support, 2), rott_k)
// Signals
rott_long = rott_support > rott_line // ta.crossover(rott_support, rott_line)
rott_short = rott_support < rott_line // ta.crossunder(rott_support, rott_line)
// ╠═══════════════════════════════════ FT ════════════════════════════════════╣
// Inputs
string gr_ft = "╠════════════════ FT ════════════════╣"
ft_u = input.int(title="Length ", defval=30, step=10, group=gr_ft, tooltip="MA Length [20, 40]")
ft_k1 = input.float(title="Major Multiplier", defval=3.6, group=gr_ft, tooltip="Major OTT Multiplier")
ft_k2 = input.float(title="Minor Multiplier", defval=1.8, group=gr_ft, tooltip="Minor OTT Multiplier")
// Calcs
ft_support = f_var(close, ft_u)
major_trend = f_ott(ft_support, ft_k1)
minor_trend = f_ott(ft_support, ft_k2)
ft_line = (minor_trend + (2 * minor_trend - major_trend)[100]) / 2
// Signals
ft_long = ft_support > ft_line // ta.crossover(ft_support, ft_line)
ft_short = ft_support < ft_line // ta.crossunder(ft_support, ft_line)
// ╠═══════════════════════════════════ RTR ═══════════════════════════════════╣
// Inputs
string gr_rtr = "╠═══════════════ RTR ════════════════╣"
rtr_u1 = input.int(title="Length 1", defval=10, group=gr_rtr, tooltip="ATR Length [10, 20]")
rtr_u2 = input.int(title="Length 2", defval=200, group=gr_rtr, tooltip="MA Length [200, 500]")
// Calcs
rtr_line = close / f_var(close / ta.atr(rtr_u1), rtr_u2)
// Signals
// There're no any referenced conditions to generate signals for Relative True Range.
// It is recommended to use RTR as a volatility indicator.
// ╔═══════════════════════════════════════════════════════════════════════════╗
// ║ RETURN ║
// ╚═══════════════════════════════════════════════════════════════════════════╝
// ╠═════════════════════════════ Support & Lines ═════════════════════════════╣
_support =
system == "OTT" ? ott_support :
system == "TOTT" ? tott_support :
system == "RISOTTO" ? risotto_support :
system == "SOTT" ? sott_support :
system == "ROTT" ? rott_support :
system == "FT" ? ft_support :
na
//
_target =
system == "OTT" ? ott_line :
system == "RISOTTO" ? risotto_line :
system == "SOTT" ? sott_line :
system == "ROTT" ? rott_line :
system == "FT" ? ft_line :
system == "RTR" ? rtr_line :
na
//
_line_up =
system == "TOTT" ? tott_up :
system == "HOTT-LOTT" ? hott :
na
//
_line_dn =
system == "TOTT" ? tott_dn :
system == "HOTT-LOTT" ? lott :
na
//
// ╠═════════════════════════════════ Signals ═════════════════════════════════╣
long =
system == "OTT" ? ott_long :
system == "TOTT" ? tott_long :
system == "RISOTTO" ? risotto_long :
system == "SOTT" ? sott_long :
system == "HOTT-LOTT" ? hl_long :
system == "ROTT" ? rott_long :
system == "FT" ? ft_long :
na
//
short =
system == "OTT" ? ott_short :
system == "TOTT" ? tott_short :
system == "RISOTTO" ? risotto_short :
system == "SOTT" ? sott_short :
system == "HOTT-LOTT" ? hl_short :
system == "ROTT" ? rott_short :
system == "FT" ? ft_short :
na
//
// Fix Signal
var bool l = na
var bool s = na
ls = not s and long
ss = not l and short
if ls
l := false
s := true
if ss
l := true
s := false
int dir = 0
dir := pyr ? long ? 1 : short ? -1 : 0 : ls ? 1 : ss ? -1 : nz(dir[1])
long_signal = pyr ? not long[1] and long : ls
short_signal = pyr ? not short[1] and short : ss
total_signals = ta.cum(long_signal or short_signal ? 1 : 0)
// ╠═══════════════════════════════ Plotshapes ════════════════════════════════╣
plotshape(sh_signal ? long_signal : na, "Long Signal", shape.triangleup, location.bottom, col_l, size=size.tiny)
plotshape(sh_signal ? short_signal : na, "Short Signal", shape.triangledown, location.top, col_s, size=size.tiny)
// ╠══════════════════════════ Plot Support & Lines ═══════════════════════════╣
plot(_support, color=col_sup, title="Support ")
plot(_target, color=col_tar, title="Target")
plot(_line_up, color=#00bb00, title="Upper Line")
plot(_line_dn, color=#fb0000, title="Lower Line")
// ╠══════════════════════════════ Plot Channels ══════════════════════════════╣
bool ottc_none = system != "OTT CHANNEL"
bool ottc_half = ottc_t == "Both" or ottc_t == "Half Channel"
bool ottc_fibo = ottc_t == "Both" or ottc_t == "Fibonacci Channel"
plot(ottc_none or ottc_h1 ? na : ottc_1, color=#00bb00, title="[Channel] Upper Line")
plot(ottc_none or ottc_h2 ? na : ottc_fibo ? ottc_2 : na, color=#8c00ff, title="[Channel] ⮝ 0.618")
plot(ottc_none or ottc_h2 ? na : ottc_half ? ottc_3 : na, color=#00bcd4, title="[Channel] ⮝ Half Line")
plot(ottc_none or ottc_h2 ? na : ottc_fibo ? ottc_4 : na, color=#1848cc, title="[Channel] ⮝ 0.382")
plot(ottc_none or ottc_h2 ? na : ottc_m, color=#787B86, title="[Channel] Mid Line")
plot(ottc_none or ottc_h2 ? na : ottc_fibo ? ottc_5 : na, color=#945100, title="[Channel] ⮟ 0.382")
plot(ottc_none or ottc_h2 ? na : ottc_half ? ottc_6 : na, color=#ff9800, title="[Channel] ⮟ Half Line")
plot(ottc_none or ottc_h2 ? na : ottc_fibo ? ottc_7 : na, color=#a4a600, title="[Channel] ⮟ 0.618")
plot(ottc_none or ottc_h1 ? na : ottc_8, color=#fb0000, title="[Channel] Lower Line")
// ╠════════════════════════════════ Barcolor ═════════════════════════════════╣
no_color = system == "OTT CHANNEL" or system == "RTR"
bar_color =
no_color ? na :
dir == 1 ? col_l : dir == -1 ? col_s : col_n
barcolor(sh_bar_color ? bar_color : na, title="Barcolor")
// ╠═══════════════════════════════ Plotcandle ════════════════════════════════╣
no_bars = system == "RISOTTO" or system == "SOTT" or system == "ROTT" or system == "RTR"
candle_color = close>open ? #08998175 : close<open ? #f2364575 : #33333375
plotshape(barstate.isfirst, title="╠═════ OHLC ═════╣", location=location.bottom, color=#00000000, editable=false)
plotcandle(
no_bars ? na : sh_bar ? open : na,
no_bars ? na : sh_bar ? high : na,
no_bars ? na : sh_bar ? low : na,
no_bars ? na : sh_bar ? close : na,
title="Bars", color=candle_color, bordercolor=candle_color, wickcolor=candle_color)
//
// ╠═══════════════════════════════ Parameters ════════════════════════════════╣
p_ott =
"Length : " + str.tostring(ott_u) + "\n\n" +
"Multiplier : " + str.tostring(ott_k)
p_tott =
"Length : " + str.tostring(tott_u) + "\n\n" +
"Multiplier : " + str.tostring(tott_k1) + "\n\n" +
"Band Multiplier : " + str.tostring(tott_k2)
p_ottc =
"Length : " + str.tostring(ottc_u) + "\n\n" +
"Multiplier : " + str.tostring(ottc_k1) + "\n\n" +
"Upper Line Multiplier : " + str.tostring(ottc_k2) + "\n\n" +
"Lower Line Multiplier : " + str.tostring(ottc_k3)
p_risotto =
"Rsi Length : " + str.tostring(risotto_u1) + "\n\n" +
"Ott Length : " + str.tostring(risotto_u2) + "\n\n" +
"Multplier : " + str.tostring(risotto_k)
p_sott =
"Stochastic %k Length : " + str.tostring(sott_u1) + "\n\n" +
"Stochastic %d Length : " + str.tostring(sott_u2) + "\n\n" +
"Multplier : " + str.tostring(sott_k)
pp_sum =
hl_sum ? "Sum Option : On" + "\n\n" + "Sum N Bars : " + str.tostring(hl_sum_n) : ""
p_hl =
"Length : " + str.tostring(hl_u) + "\n\n" +
"Multiplier : " + str.tostring(hl_k) + "\n\n" +
pp_sum
p_rott =
"Length : " + str.tostring(rott_u)+ "\n\n" +
"Multiplier : " + str.tostring(rott_k)
p_ft =
"Length : " + str.tostring(ft_u) + "\n\n" +
"Major Multiplier : " + str.tostring(ft_k1) + "\n\n" +
"Minor Multiplier : " + str.tostring(ft_k2)
p_rtr =
"Atr Length : " + str.tostring(rtr_u1) + "\n\n" +
"Var Length : " + str.tostring(rtr_u2)
//
parameter =
system == "OTT" ? p_ott :
system == "TOTT" ? p_tott :
system == "OTT CHANNEL" ? p_ottc :
system == "RISOTTO" ? p_risotto :
system == "SOTT" ? p_sott :
system == "HOTT-LOTT" ? p_hl :
system == "ROTT" ? p_rott :
system == "FT" ? p_ft :
system == "RTR" ? p_rtr :
na
//
// ╠══════════════════════════════════ Table ══════════════════════════════════╣
var tb = table.new(position.top_right, 1, 10)
if barstate.islast
table.cell(tb, 0, 0, ottc_none ? "\n\n" + system : "\n\n" + system + "\n\n[" + ottc_t + "]", text_color=color.blue, text_halign=text.align_left)
table.cell(tb, 0, 1, parameter, text_color=#686868, text_halign=text.align_left)
table.cell(tb, 0, 2, "\n\nChart Info", text_color=color.blue, text_halign=text.align_left)
table.cell(tb, 0, 3, "Bars : " + str.tostring(bar_index + 1), text_color=#686868, text_halign=text.align_left)
table.cell(tb, 0, 4, "Signals : " + str.tostring(total_signals), text_color=#686868, text_halign=text.align_left)
//
// ╠═══════════════════════════════════ Out ═══════════════════════════════════╣
// Direction
plot(dir, title="Direction", display=display.data_window, editable=false)
// Entry & Exit
long_entry = dir == 1 and dir[1] != 1
long_exit = dir != 1 and dir[1] == 1
short_entry = dir == -1 and dir[1] != -1
short_exit = dir !=-1 and dir[1] == -1
// Out
plot(long_entry ? 1 : 0, "Long Entry", display=display.data_window, editable=false)
plot(long_exit ? 1 : 0, "Long Exit", display=display.data_window, editable=false)
plot(short_entry ? 1 : 0, "Short Entry", display=display.data_window, editable=false)
plot(short_exit ? 1 : 0, "Short Exit", display=display.data_window, editable=false)
// Alert
freq = alert.freq_once_per_bar_close
if long_entry
alert(system + "\nLong Entry !", freq)
if long_exit
alert(system + "\nLong Exit !", freq)
if short_entry
alert(system + "\nShort Entry !", freq)
if short_exit
alert(system + "\nShort Exit !", freq)
//
// Bitti :)
plotshape(barstate.isfirst, title="@ dg_factor", location=location.bottom, color=#00000000, editable=false)
-
Supertrend ile Rsi göstergelerini kombinlenmiş ve ortaya harika bir gösterge çıkmış isteyen kullansın ..
başarılı bir gösterge oldu mu deneyin görün inanırsanız para kazandırır.
https://tr.tradingview.com/script/lNrgXVTf/
-
Merhaba ... bir sorum var ... Tradingview'den Excel'e anlık veri aktarımı mümkün mü?