def __init__(self):
self.startep = lib.str2epoch("2019-11-27T17:45:00")
self.endep = lib.str2epoch("2019-11-28T00:25:00")
name = "TestHistIndex"
subc = SubChart(name, "USD_JPY", "M5",
startep=self.startep, endep=self.endep)
super(TestHistIndex, self).__init__("TestHistIndex", subc)
super(HistIndex, self).__init__(name, subc)
subc.onTick(TickEvent(self.endep,0,0,0))
(t,_,_,_,_,_) = subc.getPrices(self.startep, self.endep)
self.subc = subc
for epoch in t:
self.calcHist(epoch)
def run(startep, endep,
instrument="USD_JPY", granularity="M5",
peakspan=12*6, peaksize=5):
subc = SubChart("PeakIndex",
instrument,
granularity,
startep=startep,
endep=endep,
nbars=peakspan+peaksize*2,
truncateOld=False)
p = PeakIndex(subc,peaksize, peakspan, deleteOld=False)
tickEvent = TickEvent(endep,0,0,0)
subc.onTick(tickEvent)
p.onTick(tickEvent)
return p.getPlotElements()
class SimpleStopStrategy(Strategy):
def __init__(self, instrument, granularity, profitpips):
self.instrument = instrument
self.granularity = granularity
self.subc = None
self.profit = tradelib.pip2Price(profitpips, instrument)
self.unitsecs = tradelib.getUnitSecs(granularity)
self.pipprice = tradelib.pip2Price(1, instrument)
self.id = -1
self.curr_side = env.SIDE_BUY
self.now = -1
def onTick(self, tickEvent):
if self.subc == None:
self.subc = SubChart("SimpleStop",
self.instrument,
self.granularity,
endep=tickEvent.time)
now = self.subc.onTick(tickEvent)
if now == self.now:
return []
self.now = now
orders = []
#if lib.str2epoch("2019-11-15T00:30:00") == tickEvent.time:
# print(tickEvent.time)
if self.id == -1:
self.curr_side *= -1
if self.curr_side == env.SIDE_BUY:
price = tickEvent.l - self.pipprice * 3
else:
price = tickEvent.h + self.pipprice * 3
order = self.createStopOrder(
tickEvent,
self.instrument,
self.curr_side,
1,
price,
validep=tickEvent.time + self.unitsecs,
takeprofit=price + self.curr_side * self.profit,
stoploss=price - self.curr_side * self.profit)
if order != None:
self.id = order.id
orders.append(order)
return orders
def onSignal(self, signalEvent):
if self.id == signalEvent.id:
if signalEvent.signal in [
env.ESTATUS_ORDER_CLOSED, env.ESTATUS_TRADE_CLOSED
]:
self.id = -1
def run(startep,
endep,
instrument="USD_JPY",
granularity="M5",
peakspan=12 * 3,
peaksize=5,
analspan=12 * 4):
from tools.subchart import SubChart
from event.tick import TickEvent
subc = SubChart("TrendlineIndex",
instrument,
granularity,
startep=startep,
endep=endep,
nbars=peakspan + peaksize * 2,
truncateOld=False)
p = TrendLinesIndex(subc, peaksize, peakspan, analspan, deleteOld=False)
tickEvent = TickEvent(endep, 0, 0, 0)
subc.onTick(tickEvent)
p.onTick(tickEvent)
return p.getPlotElements()
def testNormal(self):
env.run_mode = env.MODE_SIMULATE
st = lib.str2epoch("2019/04/02 09:00", "%Y/%m/%d %H:%M")
ed = lib.str2epoch("2019/04/02 12:00", "%Y/%m/%d %H:%M")
s = SubChart("testNormal", "USD_JPY", "M5", st, ed, 5, 48)
u = s.unitsecs
(t,_,_,_,_,_) = s.getPrices()
self.assertEqual(len(t), len(s.prices[0]))
# 1
i, now = s.getTime(st + 100)
self.assertEqual(i,5)
self.assertEqual(now,1554195600)
# 2
i, now = s.getTime(st + 400)
self.assertEqual(i,6)
self.assertEqual(now,1554195900)
# 3
i, now = s.getTime(ed + 400)
self.assertEqual(i,42)
self.assertEqual(now,1554206700)
# 4
i, now = s.getTime(ed - 500)
self.assertEqual(i,39)
self.assertEqual(now,1554205800)
from event.tick import TickEvent
tickEvent = TickEvent(1554196200+100, 1, 1)
s.onTick(tickEvent)
(t,o,h,l,c,v) = s.getPrices()
self.assertEqual(t[-1], 1554196200)
self.assertEqual(o[-1], 111.372)
self.assertEqual(v[-1], 22)
(t,o,h,l,c,v) = s.getPrices(5)
self.assertEqual(t[0], 1554195600)
self.assertEqual(t[-1], 1554196200)
(t,o,h,l,c,v) = s.getPrices(5,6)
self.assertEqual(t[-1], 1554195900)
ep = ed + u*(48-len(s.prices[0])+48*0.5+1)
tickEvent = TickEvent(ep, 1, 1)
s.onTick(tickEvent)
self.assertEqual(len(s.prices[0]), 48+48*0.5)
(t,_,_,_,_,_) = s.getPrices()
self.assertEqual(t[-1],ep)
ep = t[-1] + u
tickEvent = TickEvent(ep+100, 1, 1)
s.onTick(tickEvent)
self.assertEqual(len(s.prices[0]), 48)
(t,_,_,_,_,_) = s.getPrices()
self.assertEqual(t[-1],ep)
class SimpleMarketStrategy(Strategy):
def __init__(self, instrument, granularity, profitpips):
self.instrument = instrument
self.unitsecs = tradelib.getUnitSecs(granularity)
self.granularity = granularity
self.subc = None
self.profit = tradelib.pip2Price(profitpips, instrument)
self.id = -1
self.curr_side = env.SIDE_BUY
self.now = -1
def onTick(self, tickEvent):
if self.subc == None:
self.subc = SubChart("SimpleMarket",
self.instrument,
self.granularity,
endep=tickEvent.time)
now = self.subc.onTick(tickEvent)
if now == self.now:
return []
self.now = now
orders = []
if self.id == -1:
self.curr_side *= -1
if self.curr_side == env.SIDE_BUY:
price = tickEvent.ask
else:
price = tickEvent.bid
order = self.createMarketOrder(
tickEvent,
self.instrument,
self.curr_side,
1,
price,
takeprofit=price + self.curr_side * self.profit,
stoploss=price - self.curr_side * self.profit)
self.id = order.id
orders.append(order)
return orders
def onSignal(self, signalEvent):
if self.id == signalEvent.id:
if signalEvent.signal in [
env.ESTATUS_ORDER_CLOSED, env.ESTATUS_TRADE_CLOSED
]:
self.id = -1
class CheckIndex(TechnicalIndex):
def __init__(self, instrument, granularity, startep=-1, endep=-1):
super(CheckIndex, self).__init__(instrument, granularity)
self.subc = SubChart(self.__class__.__name__, instrument, granularity,
startep, endep)
self.cntForNext = 0
self.nowidx = -1
self.now = -1
def onTick(self, tickEvent):
i, epoch = self.subc.onTick(tickEvent)
if i == -1:
return False
if self.now == epoch:
return
if self.cntForNext > 0:
self.cntForNext -= (epoch - self.now) / self.unitsecs
if self.cntForNext < 0:
self.cntForNext = 0
self.nowidx = i
self.now = epoch
return True
def isNextOK(self):
if self.cntForNext == 0:
return True
else:
return False
def addForNext(self, cnt):
self.cntForNext += cnt
def getPriceAt(self, j=0):
i = self.nowidx
(t, ol, hl, ll, cl, vl) = self.subc.getPrices()
k = i - j
return (t[k], ol[k], hl[k], ll[k], cl[k], vl[k])
#direction=1: up dow
#direction=-1: down dow
def isDowCandle(self, direction=1):
try:
i = self.nowidx
(_, _, hl, ll, _, _) = self.subc.getPrices()
if direction == 1:
if hl[i] > hl[i - 1] and ll[i] > ll[i - 1]:
return True
else:
return False
elif direction == -1:
if hl[i] < hl[i - 1] and ll[i] < ll[i - 1]:
return True
else:
return False
else:
return False
except IndexError:
lib.printError(
self.now, "index error: i=%d len(hl)=%d len(ll)=%d" %
(i, len(hl), len(ll)))
raise IndexError
def isWindowOpen(self, wsize=0):
i = self.nowidx
(_, _, hl, ll, _, _) = self.subc.getPrices()
if hl[i] + wsize < ll[i - 1] or ll[i] - wsize > hl[i - 1]:
return True
return False
def isHourRange(self, startHour, endHour):
eh = (self.now % (3600 * 24)) / 3600
if eh >= startHour and eh <= endHour:
return True
return False
def isNHoursBeforeWeekend(self, n):
if self.isWeekend():
return False
if math.floor((self.now / (3600 * 24) + 4) % 7) == 5: #Friday
if self.isHourRange(20 - n, 21):
return False
return True
def isNHoursAfterWeekend(self, n):
if self.isWeekend():
return False
dn = math.floor((self.now / (3600 * 24) + 4) % 7)
if dn == 0: #Sunday
if self.isHourRange(22, 22 + n):
return False
elif dn == 1 and n >= 2: # Monday
if self.isHourRange(22, 24) or self.isHourRange(0, n - 2):
return False
return True
# considering summer time, at this funtion
# weekend starts 1 hour earlier on winter
# and ends 1 hour later on summer, to make always the same result
# New York time
def isWeekend(self):
dn = math.floor((self.now / (3600 * 24) + 4) % 7)
if dn == 6: # Saturday
return True
elif dn == 0: # Sunday
if self.isHourRange(0, 22):
return True
elif dn == 5: # Friday
if self.isHourRange(20, 24):
return True
return False
def testCase1(self):
instrument = "USD_JPY"
granularity = "M5"
startep = lib.str2epoch("2019-11-12T12:00:00")
endep = lib.str2epoch("2019-11-12T15:00:00")
peakspan = 48
peaksize = 5
subc = SubChart("PeakIndex%d" % peakspan,
instrument,
granularity,
startep,
endep,
nbars=max(peakspan + peaksize * 2 + 1, peakspan * 2))
p = PeakIndex(subc, peaksize, peakspan, peakspan * 2)
# Just after initialization
self.assertEqual(len(p.tops), 4)
self.assertEqual(len(p.bottoms), 6)
self.assertEqual(p.tops[1573548300], 109.266)
self.assertEqual(p.tops[1573553400], 109.205)
self.assertEqual(p.bottoms[1573545600], 109.21)
self.assertEqual(p.bottoms[1573558200], 109.184)
self.assertEqual(len(p.top_trendlines), 2)
self.assertEqual(len(p.bottom_trendlines), 1)
self.assertEqual("%.8f" % p.top_trendlines[1573550700], '-0.00000593')
self.assertEqual("%.8f" % p.top_trendlines[1573548300], '-0.00001196')
self.assertEqual("%.8f" % p.bottom_trendlines[1573554300],
'0.00000769')
self.assertEqual("%.3f" % p.maxs[1573548300], '109.266')
self.assertEqual("%.3f" % p.mins[1573552500], '109.142')
#After tick
epoch = startep + 60
tickEvent = TickEvent(epoch, 0, 0, 0)
subc.onTick(tickEvent)
self.assertFalse(p.onTick(tickEvent))
epoch = startep + 300
tickEvent = TickEvent(epoch, 0, 0, 0)
subc.onTick(tickEvent)
self.assertTrue(p.onTick(tickEvent))
epoch = lib.str2epoch("2019-11-12T14:00:00")
tickEvent = TickEvent(epoch, 0, 0, 0)
subc.onTick(tickEvent)
self.assertTrue(p.onTick(tickEvent))
self.assertEqual(len(p.tops), 5)
self.assertEqual(len(p.bottoms), 6)
self.assertEqual(len(p.top_trendlines), 1)
self.assertEqual(len(p.bottom_trendlines), 3)
self.assertEqual(p.tops[1573553100], 109.205)
self.assertEqual(p.bottoms[1573552500], 109.142)
epoch = lib.str2epoch("2019-11-12T16:00:00")
tickEvent = TickEvent(epoch, 0, 0, 0)
subc.onTick(tickEvent)
self.assertTrue(p.onTick(tickEvent))
self.assertEqual(len(p.tops), 3)
self.assertEqual(len(p.bottoms), 4)
self.assertEqual(len(p.top_trendlines), 2)
self.assertEqual(len(p.bottom_trendlines), 2)
class PriceActionStrategy(Strategy):
def __init__(self,
instrument,
granularity,
startep=-1,
endep=-1,
peakspan=12 * 6,
peaksize=5,
analspan=12 * 4):
self.instrument = instrument
self.granularity = granularity
self.subc = SubChart("PriceAction",
self.instrument,
self.granularity,
startep=startep,
endep=endep,
nbars=peakspan + peaksize * 2)
self.peaks = PeakIndex(self.subc, peaksize, peakspan)
self.analspan = analspan
self.hist = MultiObjHistory(analspan)
self.candleshapes = CandleShapeIndex(self.subc,
statistics_span=analspan)
self.unitsecs = tradelib.getUnitSecs(granularity)
self.pipprice = tradelib.pip2Price(1, instrument)
self.nowi = -1
self.now = -1
self.linehists = {
const_candles.LINE_TPTREND: {}, # dict of History()
const_candles.LINE_BTTREND: {},
const_candles.LINE_MAX: {},
const_candles.LINE_MIN: {}
}
def updateLineHistory(self, line_id, linehist, line_type, coord, epoch,
pos):
lastepoch, lastpos = linehist.last()
if lastepoch > 0 and abs(lastpos) <= const_candles.LINEDIST_ABOVE_NEAR:
he = HistEvent(line_id, line_type, pos, coord)
self.hist.append(epoch, he)
self.hist.log(epoch)
linehist.append(epoch, pos)
lib.printDebug(
epoch, "id=%s type=%s pos=%s coord=%.3f" %
(line_id, line_type, pos, coord))
def getLineID(self, epoch, line_type):
return "%d_%d" % (line_type, epoch)
def detectLineDist(self):
tprices = self.peaks.getPriceOnTrendlines(self.now, True)
bprices = self.peaks.getPriceOnTrendlines(self.now, False)
maxs = self.peaks.maxs.items()
mins = self.peaks.mins.items()
t, o, h, l, c, _ = self.subc.getPrice()
candlelen = h - l
expiration, _, _, _, _, _ = self.subc.getPrice(self.analspan)
for (baseps, ltype) in [(tprices, const_candles.LINE_TPTREND),
(bprices, const_candles.LINE_BTTREND),
(maxs, const_candles.LINE_MAX),
(mins, const_candles.LINE_MIN)]:
lines = self.linehists[ltype]
for line_id in list(lines.keys()):
(lastep, _) = lines[line_id].last()
if lastep < expiration:
del lines[line_id]
for items in baseps:
if ltype in [
const_candles.LINE_TPTREND, const_candles.LINE_BTTREND
]:
line_epoch, baseprice, coord = items
else:
line_epoch, baseprice = items
coord = baseprice
line_id = self.getLineID(line_epoch, ltype)
if line_id in lines.keys():
linehist = lines[line_id]
else:
linehist = History(self.analspan)
pos = 0
if h < baseprice - candlelen * 0.2:
pos = const_candles.LINEDIST_ABOVE_FAR
elif h < baseprice:
pos = const_candles.LINEDIST_ABOVE_NEAR
elif h >= baseprice and max(o, c) <= baseprice:
pos = const_candles.LINEDIST_ABOVE_TOUCHED
elif max(o, c) > baseprice and min(o, c) < baseprice:
pos = const_candles.LINEDIST_CROSSED
elif min(o, c) >= baseprice and l <= baseprice:
pos = const_candles.LINEDIST_BELOW_TOUCHED
elif l - candlelen * 0.2 < baseprice:
pos = const_candles.LINEDIST_BELOW_NEAR
elif l > baseprice:
pos = const_candles.LINEDIST_BELOW_FAR
#linehist.append(t, pos)
self.updateLineHistory(line_id, linehist, ltype, coord, t, pos)
def onTick(self, tickEvent):
now = self.subc.onTick(tickEvent)
if now == self.now:
return []
self.now = now
self.candleshapes.onTick(tickEvent)
self.peaks.onTick(tickEvent)
self.detectLineDist()
orders = []
#if lib.str2epoch("2019-11-15T00:30:00") == tickEvent.time:
# print(tickEvent.time)
'''
if self.id == -1:
self.curr_side *= -1
if self.curr_side == env.SIDE_BUY:
price = tickEvent.l - self.pipprice*3
else:
price = tickEvent.h + self.pipprice*3
order = self.createStopOrder(
tickEvent, self.instrument, self.curr_side, 1,
price,
validep=tickEvent.time+self.unitsecs,
takeprofit=price+self.curr_side*self.profit,
stoploss=price-self.curr_side*self.profit)
if order != None:
self.id = order.id
orders.append(order)
'''
return orders
def onSignal(self, signalEvent):
if self.id == signalEvent.id:
if signalEvent.signal in [
env.ESTATUS_ORDER_CLOSED, env.ESTATUS_TRADE_CLOSED
]:
self.id = -1