Trend, Stoch, Price Action or in short: TSP — Indicator by patrickestarian

trend stochastic price action short tsp patrick estarian

Combining the three most important factors that a trader usually needs in a single indicator.

Red = Trend
Blue = Stoch
Orange = Price Action

Open-source script

In true TradingView spirit, the author of this script has published it open-source, so traders can understand and verify it. Cheers to the author! You may use it for free, but reuse of this code in a publication is governed by House Rules. You can favorite it to use it on a chart.

Disclaimer

The information and publications are not meant to be, and do not constitute, financial, investment, trading, or other types of advice or recommendations supplied or endorsed by TradingView. Read more in the Terms of Use.

Want to use this script on a chart?

study(title="Trend, Stoch, Price Action", shorttitle="TSP")

len1 = input(200)

lenStoch = input(14)
lenK = input(3)

hb = input(75)
lb = input(-75)

len2 = len1 / 4
len3 = len2 / 2
len4 = len3 /2
len5 = len4 / 2
len6 = len5 / 2

hline(lb)
hline(0)
hline(hb)

o = open
h = high
l = low
c = close
m = (l + h) / 2
r = h - l
v = volume

hhll_ = (l-l[1]) / r[1] + (h-h[1]) / r[1]
hhll = (hhll_ > 1) ? 1 : (hhll_ < -1) ? -1 : hhll_
// expand / contract
exct = (c > o) ? abs(r / r[1]) : -abs(r / r[1])
// close vs range
cvsr = (c - m) / r * 2
// close vs open
cvso = (c-o)/r
t1 = (hhll + exct + cvsr + cvso) / 4

plot(sma(t1*50, lenK), color=orange)

ma1 = sma(c, len1)
ma2 = sma(c, len2)
ma3 = ema(c, len3)
ma4 = ema(c, len4)

p1 = (ma1 > ma1[1]) ? 1 : (ma1 < ma1[1]) ? -1 : 0
p2 = (ma2 > ma2[1]) ? 1 : (ma2 < ma2[1]) ? -1 : 0
p3 = (ma3 > ma3[1]) ? 1 : (ma3 < ma3[1]) ? -1 : 0

pma1 = (ma2 > ma1) ? 1 : (ma2 < ma1) ? -1 : 0
pma2 = (ma3 > ma2) ? 1 : (ma3 < ma2) ? -1 : 0

pu1 = (p1 > 0 and l > ma1) ? 1 : (p1 > 0 and c > ma1) ? 0.5 : 0
pd1 = (p1 < 0 and h < ma1) ? -1 : (p1 < 0 and c < ma1) ? -0.5 : 0

pu2 = (p2 > 0 and l > ma2) ? 1 : (p2 > 0 and c > ma2) ? 0.5 : 0
pd2 = (p2 < 0 and h < ma2) ? -1 : (p2 < 0 and c < ma2) ? -0.5 : 0

pu3 = (p3 > 0 and l > ma3) ? 1 : (p3 > 0 and c > ma3) ? 0.5 : 0
pd3 = (p3 < 0 and h < ma3) ? -1 : (p3 < 0 and c < ma3) ? -0.5 : 0

tma1 = p1 + pu1 + pd1
tma2 = p2 + pu2 + pd2
tma3 = p3 + pu3 + pd3

t2 = (tma1 + tma2 + tma3 + pma1 + pma2) / 5

obv = (c > o) ? v : -v
//obv = sum(volpn, len)
vl = lowest(obv, len5)
vh = highest(obv, len5)
t3 = nz((obv-vl) / (vh - vl) * 0.5)

t = t1*2 + t2 + t3*0

ta = ema(ema(t, len5), len6) * 30
talr = linreg(ta, len5, 0)

tclr = (talr > talr[1]) ? green : red 


ll = lowest(l, lenStoch)
hh = highest(h, lenStoch)
st = (c-ll) / (hh - ll) * 200 - 100
k = linreg(sma(st, lenK), lenK, 0)
//k = sma(st, lenK)

//sclr = (k > k[1]) ? green : red
//clr = (talr>talr[1] and lowest(k, len5)<lb) ? green : ((talr<0 and talr[1]>0) or (highest(k, len5)>hb and k<hb)) ? red : white
//plot(0, color=clr, style=circles, linewidth=2)

plot(talr, color=red)
plot(k, color=navy)