Exemple #1
0
    def plot(self, ax, epochs):
        qued = self.eventqueue.dict
        for k in qued:
            ev = qued[k]
            st = ev.startep
            ed = ev.endep
            if st == ed:
                continue
            if ed < epochs[0] or st > epochs[-1]:
                continue
            sti = -1
            edi = -1
            if ev.side == env.SIDE_BUY:
                color = self.buycolor
            else:
                color = self.sellcolor

            for i in range(len(epochs)):
                if sti == -1 and st <= epochs[i]:
                    sti = i
                if edi == -1 and ed < epochs[i]:
                    edi = i - 1
            if sti != -1:
                ax.scatter(sti,
                           ev.start_price,
                           c=color,
                           marker=">",
                           s=600,
                           alpha=0.7)
                ax.annotate(
                    "  %d\n  %.3f\n  %s\n%s" %
                    (ev.id, ev.start_price,
                     lib.epoch2str(epochs[sti], "%m-%d\n%H:%M"), ev.desc),
                    (sti, ev.start_price),
                    size=30,
                    color=color,
                    horizontalalignment="left",
                    verticalalignment="top")
            if edi != -1:
                if ev.profit > 0:
                    marker = "o"
                else:
                    marker = "x"
                ax.scatter(edi,
                           ev.end_price,
                           c=color,
                           marker=marker,
                           s=600,
                           alpha=0.7)
                ax.annotate("  %d\n  %.3f\n  %s" %
                            (ev.id, ev.end_price,
                             lib.epoch2str(epochs[edi], "%m-%d\n%H:%M")),
                            (edi, ev.end_price),
                            size=30,
                            color=color,
                            horizontalalignment="right",
                            verticalalignment="bottom")
Exemple #2
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def insertMonoPricedata(instrument, granularity, startprice, start, end,
                        direction, pipdiff):
    db = MSSQLDB()
    pricetbl = lib.names.getPriceTable(instrument, granularity)
    priceunit = tradelib.pip2Price(1, instrument)
    unitsecs = tradelib.getUnitSecs(granularity)
    start -= (start % unitsecs)
    end -= (end % unitsecs)

    curr = start
    price = startprice
    cnt = 0
    while curr <= end:
        i = cnt % 3
        if i == 2:
            price -= pipdiff * priceunit * direction
        else:
            price += pipdiff * priceunit * direction
        if direction == 1:
            o = price
            c = price + 2 * pipdiff * priceunit
        else:
            o = price + 2 * pipdiff * priceunit
            c = price
        sql = "insert into %s ([ep],[dt],[o],[h],[l],[c],[v]) \
            values (%d,'%s',%f,%f,%f,%f,%d)" % (
            pricetbl, curr, lib.epoch2str(curr, "%Y-%m-%d %H:%M:%S"), o,
            price + 2 * pipdiff * priceunit, price, c, (i + 1) * 10)
        db.execute(sql)
        curr += unitsecs
        cnt += 1
Exemple #3
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    def getPrice(self, startep, endep):
        errret = ([], [], [], [], [], [])
        price = self.priceToGet
        endep += 1
        candleType = ""
        if price == "M":
            candleType = "mid"
        if price == "B":
            candleType = "bid"
        if price == "A":
            candleType = "ask"

        req = InstrumentsCandles(instrument="USD_JPY",
                                 params={
                                     "granularity":
                                     self.granularity,
                                     "from":
                                     lib.epoch2str(startep,
                                                   "%Y-%m-%dT%H:%M:%SZ"),
                                     "to":
                                     lib.epoch2str(endep,
                                                   "%Y-%m-%dT%H:%M:%SZ"),
                                     "datetime_format":
                                     "UNIX"
                                 })
        self.oandaw.request(req)
        if req.response == None:
            return errret
        cdls = req.response.get('candles')
        count = len(cdls)
        (t, o, h, l, c, v) = self.getIniPriceLists(0, count)
        for i in range(count):
            cdl = cdls[i]
            item = cdl[candleType]
            ti = cdl["time"].split(".")[0]
            t[i] = lib.str2epoch(ti, "%Y-%m-%dT%H:%M:%S")
            v[i] = cdl["volume"]
            o[i] = float(item["o"])
            h[i] = float(item["h"])
            l[i] = float(item["l"])
            c[i] = float(item["c"])

        return t, o, h, l, c, v
Exemple #4
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 def plot(_id, i):
     price = self.peaks.get(_id)
     ax.scatter(i, price, c=self.color, marker="_", s=600)
     ax.annotate(
         "  %.3f\n  %s" %
         (price, lib.epoch2str(self.epochs[_id], "%m-%d\n%H:%M")),
         (i, price),
         size=30,
         color=self.color,
         horizontalalignment="center",
         verticalalignment=verticalalignment)
Exemple #5
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        def plot(ie, i):
            if ie.price >= mdp:
                va = "bottom"
            else:
                va = "top"

            price = ie.price
            ax.scatter(i, price, c=ie.color, marker=ie.marker, s=600)
            ax.annotate("  %.3f\n  %s\n %s" %
                        (price, lib.epoch2str(ie.ep, "%m-%d\n%H:%M"), ie.info),
                        (i, price),
                        size=30,
                        color=ie.color,
                        horizontalalignment="center",
                        verticalalignment=va)
Exemple #6
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 def openOrder(self, tickEvent, orderEvent):
     _id = orderEvent.id
     if not _id in self.orders.keys():
         orderEvent.epoch = tickEvent.time
         orderEvent.status = env.ESTATUS_ORDER_OPENED
         self.orders[_id] = orderEvent
         if orderEvent.validep == 0:
             validstr = ""
         else:
             validstr = "valid=%s" % lib.epoch2str(orderEvent.validep)
         lib.printMsg(
             orderEvent.epoch,
             "[%s] Order %d opened. %f side=%d tp=%f sl=%f %s" %
             (self.name, _id, orderEvent.price, orderEvent.side,
              orderEvent.takeprofit_price, orderEvent.stoploss_price,
              validstr))
     else:
         raise Exception("Order %d already open." % _id)
Exemple #7
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'''
Created on 2019/11/09

@author: kot
'''

import env
import lib
from index.power import PowerIndex

startep = lib.str2epoch("2019-10-17T20:00:00", env.DATE_FORMAT_NORMAL)
endep = lib.str2epoch("2019-10-20T00:00:00", env.DATE_FORMAT_NORMAL)

p = PowerIndex("USD_JPY", "M5", startep, endep, 12)

(t, o, h, l, c, v) = p.subc.prices
for i in range(len(p.epochs)):
    bu = p.bull_totals[i]
    be = p.bear_totals[i]
    print("%s price=%.3f bull_rate=%.3f bull_change=%.3f bear_change=%.3f" %
          (lib.epoch2str(p.epochs[i], env.DATE_FORMAT_NORMAL),
           c[i + p.sumspan], bu / (bu + be), p.bull[i] / bu, p.bear[i] / be))
Exemple #8
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def makeSmallPeriodData(instrument, large_period, small_period):
    reCreatePriceTable(instrument, small_period)
    lus = tradelib.getUnitSecs(large_period)
    sus = tradelib.getUnitSecs(small_period)
    if lus <= sus:
        raise Exception("large_period must be greater than small_period!")
    db = MSSQLDB()
    lpricetbl = lib.names.getPriceTable(instrument, large_period)
    spricetbl = lib.names.getPriceTable(instrument, small_period)
    diffrate = lus / sus

    cnt = db.countTable(lpricetbl)
    if cnt == 0:
        raise Exception("No data in %s" % lpricetbl)

    for (ep, o, h, l, c, v) in db.execute("select ep,o,h,l,c,v from %s;" %
                                          lpricetbl).fetchall():
        bar_size = (h - l) / diffrate
        pdiff = (h - l - bar_size) / diffrate
        if c > o:
            direction = 1
            price = l
        else:
            direction = -1
            price = h

        vs = int(v / diffrate)
        for i in range(int(diffrate)):
            os = price
            if direction == 1:
                hs = price + bar_size
                ls = os
                cs = hs
            else:
                hs = price
                ls = price - bar_size
                cs = ls

            if i >= diffrate - 1:
                if direction == 1:
                    hs = h
                    cs = h
                else:
                    ls = l
                    cs = l

            sql = "insert into %s ([ep],[dt],[o],[h],[l],[c],[v]) \
            values (%d,'%s',%f,%f,%f,%f,%d)" % (
                spricetbl, ep, lib.epoch2str(
                    ep, "%Y-%m-%d %H:%M:%S"), os, hs, ls, cs, vs)
            db.execute(sql)

            shuff = i % 4
            if shuff == 2:
                price -= direction * pdiff
            elif shuff == 3:
                price += direction * pdiff * 2
            else:
                price += direction * pdiff

            ep += sus