Ejemplo n.º 1
0
    def test_processOrder_ask_LIM03(self):
        exchange = Exchange()
        exchange.asks = Orderbook_half('Ask', 1)
        exchange.bids = Orderbook_half('Bid', 100)
        order01 = Order('T02', 'Bid', 13, 1, 1, 0, 'LIM')
        order02 = Order('T01', 'Bid', 14, 3, 1, 0, 'LIM')
        order03 = Order('T03', 'Bid', 15, 2, 1, 0, 'LIM')
        exchange.add_order(order01, False)
        exchange.add_order(order03, False)
        exchange.add_order(order02, False)
        order02 = Order('T01', 'Ask', 6, 10, 1, 0, 'LIM')
        transac, actual = exchange.process_order2(12, order02, False)
        self.assertEqual(exchange.asks.best_qty, 7)
        self.assertEqual(exchange.asks.best_price, 6)

        self.assertEqual(exchange.bids.best_price, 14)
        self.assertEqual(exchange.bids.best_qty, 3)
        self.assertEqual(exchange.asks.n_orders, 1)
        self.assertEqual(exchange.bids.n_orders, 1)

        self.assertEqual(transac[0]['party1'], 'T03')
        self.assertEqual(transac[0]['qty'], 2)
        self.assertEqual(transac[1]['party1'], 'T02')
        self.assertEqual(transac[1]['qty'], 1)
        self.assertEqual(actual, 3)
Ejemplo n.º 2
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 def test_empty_po_025(self):
     exchange = Exchange()
     exchange.asks = Orderbook_half('asks', 1)
     exchange.bids = Orderbook_half('bids', 100)
     order00 = Order('T01', 'Ask', 10, 1, 1, 0, 'LIM')
     order01 = Order('T01', 'Bid', 3, 2, 1, 0, 'MKT')
     exchange.add_order(order00, False)
     exchange.process_order2(3, order01, False)
     self.assertEqual(exchange.bids.lob, collections.OrderedDict())
     self.assertEqual(exchange.asks.lob, collections.OrderedDict())
Ejemplo n.º 3
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 def test_dec_bid(self):
     exchange = Exchange()
     exchange.asks = Orderbook_half('Ask', 1)
     exchange.bids = Orderbook_half('Bid', 100)
     order01 = Order('T01', 'Bid', 3, 5, 1, 0, 'LIM')
     order03 = Order('T02', 'Bid', 5, 2, 1, 0, 'LIM')
     exchange.add_order(order01, False)
     exchange.add_order(order03, False)
     exchange.bids.decrement_order(3, 'T01', 5)
     self.assertEqual(exchange.bids.n_orders, 1)
     self.assertEqual(exchange.bids.best_qty, 2)
Ejemplo n.º 4
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 def test_processOrder_bid_wrong_price(self):
     exchange = Exchange()
     exchange.asks = Orderbook_half('Ask', 1)
     exchange.bids = Orderbook_half('Bid', 100)
     order01 = Order('T02', 'Ask', 13, 1, 1, 0, 'LIM')
     order02 = Order('T01', 'Ask', 14, 3, 1, 0, 'LIM')
     order03 = Order('T03', 'Ask', 15, 2, 1, 0, 'LIM')
     exchange.add_order(order01, False)
     exchange.add_order(order03, False)
     exchange.add_order(order02, False)
     order02 = Order('T01', 'Bid', 10, 6, 1, 0, 'LIM')
     transac, actual = exchange.process_order2(12, order02, False)
     self.assertEqual(len(transac), 0)
Ejemplo n.º 5
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 def test_delete_best_bid03(self):
     exchange = Exchange()
     exchange.asks = Orderbook_half('Ask', 1)
     exchange.bids = Orderbook_half('Bid', 100)
     order01 = Order('T02', 'Bid', 3, 2, 1, 0, 'LIM')
     order03 = Order('T01', 'Bid', 5, 10, 1, 0, 'LIM')
     order02 = Order('T01', 'Ask', 2, 3, 1, 0, 'LIM')
     exchange.add_order(order01, False)
     exchange.add_order(order03, False)
     best_price_counterparty, order_del_qid, del_in_trader, trade_price, quantity_decremented = exchange.bids.delete_best(
         order02.tid, order02.qty)
     self.assertEqual(quantity_decremented, 2)
     self.assertEqual(exchange.bids.n_orders, 1)
     self.assertEqual(trade_price, 3)
Ejemplo n.º 6
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 def test_dec_ask02(self):
     exchange = Exchange()
     exchange.asks = Orderbook_half('Ask', 1)
     exchange.bids = Orderbook_half('Bid', 100)
     order01 = Order('T01', 'Ask', 3, 1, 1, 0, 'LIM')
     order03 = Order('T02', 'Ask', 5, 2, 1, 0, 'LIM')
     exchange.add_order(order01, False)
     exchange.add_order(order03, False)
     exchange.asks.decrement_order(3, 'T01', 1)
     self.assertEqual(exchange.asks.n_orders, 1)
     self.assertEqual(
         exchange.asks.lob,
         collections.OrderedDict([(5, [2, [[1, 2, 'T02', 1]]])]))
     self.assertEqual(exchange.asks.best_qty, 2)
Ejemplo n.º 7
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 def test_adding_exchange_bid(self):
     exchange = Exchange()
     exchange.asks = Orderbook_half('asks', 1)
     exchange.bids = Orderbook_half('bids', 100)
     order01 = Order('T01', 'Bid', 3, 1, 1, 0, 'LIM')
     order03 = Order('T01', 'Bid', 5, 2, 1, 0, 'LIM')
     exchange.bids.book_add(order01)
     exchange.bids.book_add(order03)
     self.assertEqual(exchange.bids.n_orders, 1)
     self.assertEqual(
         exchange.bids.lob,
         collections.OrderedDict([(5, [2, [[1, 2, 'T01', 0]]])]))
     order02 = Order('T01', 'Bid', 6, 3, 1, 0, 'LIM')
     exchange.bids.book_add(order02)
     self.assertEqual(exchange.bids.n_orders, 1)
Ejemplo n.º 8
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 def test_dec_bid(self):
     exchange = Exchange()
     exchange.asks = Orderbook_half('Ask', 1)
     exchange.bids = Orderbook_half('Bid', 100)
     order01 = Order('T01', 'Bid', 3, 5, 1, 0, 'LIM')
     order03 = Order('T02', 'Bid', 5, 10, 1, 0, 'LIM')
     exchange.add_order(order01, False)
     exchange.add_order(order03, False)
     exchange.bids.decrement_order(5, 'T02', 1)
     self.assertEqual(exchange.bids.n_orders, 2)
     self.assertEqual(exchange.bids.best_qty, 9)
     self.assertEqual(
         exchange.bids.lob,
         collections.OrderedDict([(5, [9, [[1, 9, 'T02', 1]]]),
                                  (3, [5, [[1, 5, 'T01', 0]]])]))
Ejemplo n.º 9
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 def test_processOrder_exchange_MKT06(self):
     exchange = Exchange()
     exchange.asks = Orderbook_half('Ask', 1)
     exchange.bids = Orderbook_half('Bid', 100)
     order01 = Order('T01', 'Ask', 3, 3, 1, 0, 'LIM')
     order03 = Order('T02', 'Ask', 5, 2, 1, 0, 'LIM')
     exchange.add_order(order01, False)
     exchange.add_order(order03, False)
     order02 = Order('T03', 'Bid', 6, 2, 1, 0, 'MKT')
     transac, actual = exchange.process_order2(12, order02, False)
     self.assertEqual(exchange.bids.best_qty, 0)
     self.assertEqual(exchange.bids.n_orders, 0)
     self.assertEqual(exchange.asks.n_orders, 2)
     self.assertEqual(transac[0]['party1'], 'T01')
     self.assertEqual(transac[0]['qty'], 2)
     self.assertEqual(actual, 2)
Ejemplo n.º 10
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 def test_delete(self):
     bookhalf = Orderbook_half('Bid', 100)
     order01 = Order('T01', 'Bid', 1, 1, 1, 0, 'LIM')
     bookhalf.book_add(order01)
     bookhalf.book_del(order01)
     self.assertEqual(bookhalf.best_qty, 0)
     self.assertEqual(bookhalf.n_orders, 0)
Ejemplo n.º 11
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 def test_add_and_del_order02(self):
     exchange = Exchange()
     exchange.asks = Orderbook_half('asks', 1)
     exchange.bids = Orderbook_half('bids', 100)
     order01 = Order('T01', 'Bid', 3, 1, 1, 0, 'LIM')
     exchange.add_order(order01, False)
     self.assertEqual(exchange.bids.n_orders, 1)
     exchange.del_order(2, order01, False)
     self.assertEqual(exchange.bids.n_orders, 0)
Ejemplo n.º 12
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 def test_empty_processorder(self):
     exchange = Exchange()
     exchange.asks = Orderbook_half('asks', 1)
     exchange.bids = Orderbook_half('bids', 100)
     order01 = Order('T01', 'Bid', 3, 1, 1, 0, 'MKT')
     transac, qty = exchange.process_order2(3, order01, False)
     self.assertEqual(qty, 0)
     self.assertEqual(exchange.bids.lob, collections.OrderedDict())
     self.assertEqual(exchange.asks.lob, collections.OrderedDict())
Ejemplo n.º 13
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 def test_processOrder_exchange_empty01(self):
     exchange = Exchange()
     exchange.asks = Orderbook_half('Ask', 1)
     exchange.bids = Orderbook_half('Bid', 100)
     order02 = Order('T03', 'Bid', 6, 10, 1, 0, 'LIM')
     transac, actual = exchange.process_order2(12, order02, False)
     self.assertEqual(exchange.bids.best_qty, 10)
     self.assertEqual(exchange.bids.best_price, 6)
     self.assertEqual(exchange.bids.n_orders, 1)
     self.assertEqual(len(transac), 0)
     self.assertEqual(actual, 0)
Ejemplo n.º 14
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    def test_processOrder_bid_wp_mkt(self):
        exchange = Exchange()
        exchange.asks = Orderbook_half('Ask', 1)
        exchange.bids = Orderbook_half('Bid', 100)
        order01 = Order('T02', 'Ask', 13, 1, 1, 0, 'LIM')
        order02 = Order('T01', 'Ask', 14, 3, 1, 0, 'LIM')
        order03 = Order('T03', 'Ask', 15, 2, 1, 0, 'LIM')
        exchange.add_order(order01, False)
        exchange.add_order(order03, False)
        exchange.add_order(order02, False)
        order02 = Order('T04', 'Bid', 5, 10, 1, 0, 'MKT')
        transac, actual = exchange.process_order2(12, order02, False)
        self.assertEqual(exchange.asks.n_orders, 0)
        self.assertEqual(exchange.bids.n_orders, 0)

        self.assertEqual(transac[0]['party1'], 'T02')
        self.assertEqual(transac[0]['qty'], 1)
        self.assertEqual(transac[1]['party1'], 'T01')
        self.assertEqual(transac[1]['qty'], 3)
        self.assertEqual(transac[2]['party1'], 'T03')
        self.assertEqual(transac[2]['qty'], 2)

        self.assertEqual(actual, 6)
Ejemplo n.º 15
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 def test_add(self):
     GVWY = Trader_Giveaway('GVWY', 'T01', 0.00, 0)
     order01 = Order('T01', 'Bid', 1, 1, 1, 0, 'LIM')
     GVWY.add_order(order01, False)
     self.assertEqual(GVWY.orders[0], order01)
def customer_orders_new(time, last_update, traders, trader_stats, os, pending,
                        verbose):
    def sysmin_check(price):
        if price < bse_sys_minprice:
            print('WARNING: price < bse_sys_min -- clipped')
            price = bse_sys_minprice
        return price

    def sysmax_check(price):
        if price > bse_sys_maxprice:
            # todo uncomment line below
            # print('WARNING: price > bse_sys_max -- clipped')
            price = bse_sys_maxprice
        return price

    def getorderprice(i, sched, n, mode, issuetime):
        # does the first schedule range include optional dynamic offset function(s)?
        if len(sched[0]) > 2:
            offsetfn = sched[0][2]
            if callable(offsetfn):
                # same offset for min and max
                offset_min = offsetfn(issuetime)
                offset_max = offset_min
            else:
                sys.exit(
                    'FAIL: 3rd argument of sched in getorderprice() not callable'
                )
            if len(sched[0]) > 3:
                # if second offset function is specfied, that applies only to the max value
                offsetfn = sched[0][3]
                if callable(offsetfn):
                    # this function applies to max
                    offset_max = offsetfn(issuetime)
                else:
                    sys.exit(
                        'FAIL: 4th argument of sched in getorderprice() not callable'
                    )
        else:
            offset_min = 0.0
            offset_max = 0.0

        pmin = sysmin_check(offset_min + min(sched[0][0], sched[0][1]))
        pmax = sysmax_check(offset_max + max(sched[0][0], sched[0][1]))
        prange = pmax - pmin
        stepsize = prange / (n - 1)
        halfstep = round(stepsize / 2.0)

        if mode == 'fixed':
            orderprice = pmin + int(i * stepsize)
        elif mode == 'jittered':
            orderprice = pmin + int(i * stepsize) + random.randint(
                -halfstep, halfstep)
        elif mode == 'random':
            if len(sched) > 1:
                # more than one schedule: choose one equiprobably
                s = random.randint(0, len(sched) - 1)
                pmin = sysmin_check(min(sched[s][0], sched[s][1]))
                pmax = sysmax_check(max(sched[s][0], sched[s][1]))
            orderprice = random.randint(pmin, pmax)
        else:
            sys.exit('FAIL: Unknown mode in schedule')
        orderprice = sysmin_check(sysmax_check(orderprice))
        return orderprice

    def getissuetimes(n_traders, mode, interval, shuffle, fittointerval):
        interval = float(interval)
        if n_traders < 1:
            sys.exit('FAIL: n_traders < 1 in getissuetime()')
        elif n_traders == 1:
            tstep = interval
        else:
            tstep = interval / (n_traders - 1)
        arrtime = 0
        issuetimes = []
        for t in range(n_traders):
            if mode == 'periodic':
                arrtime = interval
            elif mode == 'drip-fixed':
                arrtime = t * tstep
            elif mode == 'drip-jitter':
                arrtime = t * tstep + tstep * random.random()
            elif mode == 'drip-poisson':
                # poisson requires a bit of extra work
                interarrivaltime = random.expovariate(n_traders / interval)
                arrtime += interarrivaltime
            else:
                sys.exit('FAIL: unknown time-mode in getissuetimes()')
            issuetimes.append(arrtime)

            # at this point, arrtime is the last arrival time
        if fittointerval and ((arrtime > interval) or (arrtime < interval)):
            # generated sum of interarrival times longer than the interval
            # squish them back so that last arrival falls at t=interval
            for t in range(n_traders):
                issuetimes[t] = interval * (issuetimes[t] / arrtime)
        # optionally randomly shuffle the times
        if shuffle:
            for t in range(n_traders):
                i = (n_traders - 1) - t
                j = random.randint(0, i)
                tmp = issuetimes[i]
                issuetimes[i] = issuetimes[j]
                issuetimes[j] = tmp
        return issuetimes

    def getschedmode(time, os):
        got_one = False
        for sched in os:
            if (sched['from'] <= time) and (time < sched['to']):
                # within the timezone for this schedule
                schedrange = sched['ranges']
                mode = sched['stepmode']
                got_one = True
                exit  # jump out the loop -- so the first matching timezone has priority over any others
        if not got_one:
            sys.exit('Fail: time=%5.2f not within any timezone in os=%s' %
                     (time, os))
        return (schedrange, mode)

    n_buyers = trader_stats['n_buyers']
    n_sellers = trader_stats['n_sellers']
    mcGagents = [
        'LIQ', 'NOISE', 'MARKET_M', 'MOMENTUM', 'MEAN_R', 'SMS', 'SMB'
    ]
    shuffle_times = True

    cancellations = []

    # true in the beginning
    if len(pending) < 1:
        # list of pending (to-be-issued) customer orders is empty, so generate a new one
        new_pending = []

        # demand side (buyers)
        issuetimes = getissuetimes(n_buyers, os['timemode'], os['interval'],
                                   shuffle_times, True)
        ordertype = 'Bid'
        (sched, mode) = getschedmode(time, os['dem'])
        for t in range(n_buyers):
            tname = 'B%02d' % t
            if traders[tname].ttype not in mcGagents:
                issuetime = time + issuetimes[t]
                orderprice = getorderprice(t, sched, n_buyers, mode, issuetime)
                order = Order(tname, ordertype, orderprice, 1, issuetime,
                              -3.14, 'LIM')
                new_pending.append(order)

        # supply side (sellers)
        issuetimes = getissuetimes(n_sellers, os['timemode'], os['interval'],
                                   shuffle_times, True)
        ordertype = 'Ask'
        (sched, mode) = getschedmode(time, os['sup'])
        for t in range(n_sellers):
            tname = 'S%02d' % t
            if traders[tname].ttype not in mcGagents:
                issuetime = time + issuetimes[t]
                orderprice = getorderprice(t, sched, n_sellers, mode,
                                           issuetime)
                order = Order(tname, ordertype, orderprice, 1, issuetime,
                              -3.14, 'LIM')
                new_pending.append(order)

    # this is when the customer pending from the above from last round is issued
    else:
        # there are pending future orders: issue any whose timestamp is in the past
        new_pending = []
        for order in pending:
            if order.time < time:
                # this order should have been issued by now
                # issue it to the trader
                tname = order.tid
                response = traders[tname].add_order(order, verbose)
                print("ADDED BY CUSTOMER ORDER FUNCTION : " + str(order))
                if verbose: print('Customer order: %s %s' % (response, order))
                if response == 'LOB_Cancel':
                    cancellations.append(tname)
                    if verbose: print('Cancellations: %s' % (cancellations))
                # and then don't add it to new_pending (i.e., delete it)
            else:
                # this order stays on the pending list
                new_pending.append(order)
    return [new_pending, cancellations]
Ejemplo n.º 17
0
 def test_add(self):
     bookhalf = Orderbook_half('Bid', 100)
     order01 = Order('T01', 'Bid', 1, 5, 1, 0, 'LIM')
     bookhalf.book_add(order01)
     self.assertEqual(bookhalf.best_qty, 5)
     self.assertEqual(bookhalf.orders['T01'], order01)