[perso/Immae/Projets/Cryptomonnaies/Cryptoportfolio/Trader.git] / portfolio.py

from ccxt import ExchangeError
import time
from decimal import Decimal as D
# Put your poloniex api key in market.py
from market import market

class Portfolio:
    URL = "https://cryptoportfolio.io/wp-content/uploads/portfolio/json/cryptoportfolio.json"
    liquidities = {}
    data = None

    @classmethod
    def repartition_pertenthousand(cls, liquidity="medium"):
        cls.parse_cryptoportfolio()
        liquidities = cls.liquidities[liquidity]
        cls.last_date = sorted(liquidities.keys())[-1]
        return liquidities[cls.last_date]

    @classmethod
    def get_cryptoportfolio(cls):
        import json
        import urllib3
        urllib3.disable_warnings()
        http = urllib3.PoolManager()

        try:
            r = http.request("GET", cls.URL)
        except Exception:
            return None
        try:
            cls.data = json.loads(r.data,
                    parse_int=D,
                    parse_float=D)
        except json.JSONDecodeError:
            cls.data = None

    @classmethod
    def parse_cryptoportfolio(cls):
        if cls.data is None:
            cls.get_cryptoportfolio()

        def filter_weights(weight_hash):
            if weight_hash[1] == 0:
                return False
            if weight_hash[0] == "_row":
                return False
            return True

        def clean_weights(i):
            def clean_weights_(h):
                if isinstance(h[1][i], str):
                    return [h[0], h[1][i]]
                else:
                    return [h[0], int(h[1][i] * 10000)]
            return clean_weights_

        def parse_weights(portfolio_hash):
            # FIXME: we'll need shorts at some point
            assert all(map(lambda x: x == "long", portfolio_hash["holding"]["direction"]))
            weights_hash = portfolio_hash["weights"]
            weights = {}
            for i in range(len(weights_hash["_row"])):
                weights[weights_hash["_row"][i]] = dict(filter(
                        filter_weights,
                        map(clean_weights(i), weights_hash.items())))
            return weights

        high_liquidity = parse_weights(cls.data["portfolio_1"])
        medium_liquidity = parse_weights(cls.data["portfolio_2"])

        cls.liquidities = {
                "medium": medium_liquidity,
                "high":   high_liquidity,
                }

class Amount:
    def __init__(self, currency, value, linked_to=None, ticker=None, rate=None):
        self.currency = currency
        self.value = D(value)
        self.linked_to = linked_to
        self.ticker = ticker
        self.rate = rate

        self.ticker_cache = {}
        self.ticker_cache_timestamp = time.time()

    def in_currency(self, other_currency, market, rate=None, action=None, compute_value="average"):
        if other_currency == self.currency:
            return self
        if rate is not None:
            return Amount(
                    other_currency,
                    self.value * rate,
                    linked_to=self,
                    rate=rate)
        asset_ticker = Trade.get_ticker(self.currency, other_currency, market)
        if asset_ticker is not None:
            rate = Trade.compute_value(asset_ticker, action, compute_value=compute_value)
            return Amount(
                    other_currency,
                    self.value * rate,
                    linked_to=self,
                    ticker=asset_ticker,
                    rate=rate)
        else:
            raise Exception("This asset is not available in the chosen market")

    def __abs__(self):
        return Amount(self.currency, abs(self.value))

    def __add__(self, other):
        if other.currency != self.currency and other.value * self.value != 0:
            raise Exception("Summing amounts must be done with same currencies")
        return Amount(self.currency, self.value + other.value)

    def __radd__(self, other):
        if other == 0:
            return self
        else:
            return self.__add__(other)

    def __sub__(self, other):
        if other.currency != self.currency and other.value * self.value != 0:
            raise Exception("Summing amounts must be done with same currencies")
        return Amount(self.currency, self.value - other.value)

    def __mul__(self, value):
        if not isinstance(value, (int, float, D)):
            raise TypeError("Amount may only be multiplied by numbers")
        return Amount(self.currency, self.value * value)

    def __rmul__(self, value):
        return self.__mul__(value)

    def __floordiv__(self, value):
        if not isinstance(value, (int, float, D)):
            raise TypeError("Amount may only be multiplied by integers")
        return Amount(self.currency, self.value / value)

    def __truediv__(self, value):
        return self.__floordiv__(value)

    def __lt__(self, other):
        if self.currency != other.currency:
            raise Exception("Comparing amounts must be done with same currencies")
        return self.value < other.value

    def __eq__(self, other):
        if other == 0:
            return self.value == 0
        if self.currency != other.currency:
            raise Exception("Comparing amounts must be done with same currencies")
        return self.value == other.value

    def __str__(self):
        if self.linked_to is None:
            return "{:.8f} {}".format(self.value, self.currency)
        else:
            return "{:.8f} {} [{}]".format(self.value, self.currency, self.linked_to)

    def __repr__(self):
        if self.linked_to is None:
            return "Amount({:.8f} {})".format(self.value, self.currency)
        else:
            return "Amount({:.8f} {} -> {})".format(self.value, self.currency, repr(self.linked_to))

class Balance:
    known_balances = {}

    def __init__(self, currency, total_value, free_value, used_value):
        self.currency = currency
        self.total = Amount(currency, total_value)
        self.free = Amount(currency, free_value)
        self.used = Amount(currency, used_value)

    @classmethod
    def from_hash(cls, currency, hash_):
        return cls(currency, hash_["total"], hash_["free"], hash_["used"])

    @classmethod
    def in_currency(cls, other_currency, market, compute_value="average", type="total"):
        amounts = {}
        for currency in cls.known_balances:
            balance = cls.known_balances[currency]
            other_currency_amount = getattr(balance, type)\
                    .in_currency(other_currency, market, compute_value=compute_value)
            amounts[currency] = other_currency_amount
        return amounts

    @classmethod
    def currencies(cls):
        return cls.known_balances.keys()

    @classmethod
    def _fill_balances(cls, hash_):
        for key in hash_:
            if key in ["info", "free", "used", "total"]:
                continue
            if hash_[key]["total"] > 0 or key in cls.known_balances:
                cls.known_balances[key] = cls.from_hash(key, hash_[key])

    @classmethod
    def fetch_balances(cls, market):
        cls._fill_balances(market.fetch_balance())
        return cls.known_balances

    @classmethod
    def dispatch_assets(cls, amount, repartition=None):
        if repartition is None:
            repartition = Portfolio.repartition_pertenthousand()
        sum_pertenthousand = sum([v for k, v in repartition.items()])
        amounts = {}
        for currency, ptt in repartition.items():
            amounts[currency] = ptt * amount / sum_pertenthousand
            if currency not in cls.known_balances:
                cls.known_balances[currency] = cls(currency, 0, 0, 0)
        return amounts

    @classmethod
    def prepare_trades(cls, market, base_currency="BTC", compute_value="average"):
        cls.fetch_balances(market)
        values_in_base = cls.in_currency(base_currency, market, compute_value=compute_value)
        total_base_value = sum(values_in_base.values())
        new_repartition = cls.dispatch_assets(total_base_value)
        # Recompute it in case we have new currencies
        values_in_base = cls.in_currency(base_currency, market, compute_value=compute_value)
        Trade.compute_trades(values_in_base, new_repartition, market=market)

    @classmethod
    def update_trades(cls, market, base_currency="BTC", compute_value="average", only=None):
        cls.fetch_balances(market)
        values_in_base = cls.in_currency(base_currency, market, compute_value=compute_value)
        total_base_value = sum(values_in_base.values())
        new_repartition = cls.dispatch_assets(total_base_value)
        Trade.compute_trades(values_in_base, new_repartition, only=only, market=market)

    @classmethod
    def prepare_trades_to_sell_all(cls, market, base_currency="BTC", compute_value="average"):
        cls.fetch_balances(market)
        values_in_base = cls.in_currency(base_currency, market, compute_value=compute_value)
        total_base_value = sum(values_in_base.values())
        new_repartition = cls.dispatch_assets(total_base_value, repartition={ base_currency: 1 })
        Trade.compute_trades(values_in_base, new_repartition, market=market)

    def __repr__(self):
        return "Balance({} [{}/{}/{}])".format(self.currency, str(self.free), str(self.used), str(self.total))

class Computation:
    computations = {
            "default": lambda x, y: x[y],
            "average": lambda x, y: x["average"],
            "bid": lambda x, y: x["bid"],
            "ask": lambda x, y: x["ask"],
            }


class Trade:
    trades = {}

    def __init__(self, value_from, value_to, currency, market=None):
        # We have value_from of currency, and want to finish with value_to of
        # that currency. value_* may not be in currency's terms
        self.currency = currency
        self.value_from = value_from
        self.value_to = value_to
        self.orders = []
        self.market = market
        assert self.value_from.currency == self.value_to.currency
        assert self.value_from.linked_to is not None and self.value_from.linked_to.currency == self.currency
        self.base_currency = self.value_from.currency

    fees_cache = {}
    @classmethod
    def fetch_fees(cls, market):
        if market.__class__ not in cls.fees_cache:
            cls.fees_cache[market.__class__] = market.fetch_fees()
        return cls.fees_cache[market.__class__]

    ticker_cache = {}
    ticker_cache_timestamp = time.time()
    @classmethod
    def get_ticker(cls, c1, c2, market, refresh=False):
        def invert(ticker):
            return {
                    "inverted": True,
                    "average": (1/ticker["bid"] + 1/ticker["ask"]) / 2,
                    "original": ticker,
                    }
        def augment_ticker(ticker):
            ticker.update({
                "inverted": False,
                "average": (ticker["bid"] + ticker["ask"] ) / 2,
                })

        if time.time() - cls.ticker_cache_timestamp > 5:
            cls.ticker_cache = {}
            cls.ticker_cache_timestamp = time.time()
        elif not refresh:
            if (c1, c2, market.__class__) in cls.ticker_cache:
                return cls.ticker_cache[(c1, c2, market.__class__)]
            if (c2, c1, market.__class__) in cls.ticker_cache:
                return invert(cls.ticker_cache[(c2, c1, market.__class__)])

        try:
            cls.ticker_cache[(c1, c2, market.__class__)] = market.fetch_ticker("{}/{}".format(c1, c2))
            augment_ticker(cls.ticker_cache[(c1, c2, market.__class__)])
        except ExchangeError:
            try:
                cls.ticker_cache[(c2, c1, market.__class__)] = market.fetch_ticker("{}/{}".format(c2, c1))
                augment_ticker(cls.ticker_cache[(c2, c1, market.__class__)])
            except ExchangeError:
                cls.ticker_cache[(c1, c2, market.__class__)] = None
        return cls.get_ticker(c1, c2, market)

    @classmethod
    def compute_trades(cls, values_in_base, new_repartition, only=None, market=None):
        base_currency = sum(values_in_base.values()).currency
        for currency in Balance.currencies():
            if currency == base_currency:
                continue
            trade = cls(
                values_in_base.get(currency, Amount(base_currency, 0)), 
                new_repartition.get(currency, Amount(base_currency, 0)),
                currency,
                market=market
                )
            if only is None or trade.action == only:
                cls.trades[currency] = trade
        return cls.trades

    @classmethod
    def prepare_orders(cls, only=None, compute_value="default"):
        for currency, trade in cls.trades.items():
            if only is None or trade.action == only:
                trade.prepare_order(compute_value=compute_value)

    @property
    def action(self):
        if self.value_from == self.value_to:
            return None
        if self.base_currency == self.currency:
            return None

        if self.value_from < self.value_to:
            return "buy"
        else:
            return "sell"

    def order_action(self, inverted):
        if self.value_from < self.value_to:
            return "buy" if not inverted else "sell"
        else:
            return "sell" if not inverted else "buy"

    def prepare_order(self, compute_value="default"):
        if self.action is None:
            return
        ticker = self.value_from.ticker
        inverted = ticker["inverted"]
        if inverted:
            ticker = ticker["original"]
        rate = Trade.compute_value(ticker, self.order_action(inverted), compute_value=compute_value)
        # 0.1

        delta_in_base = abs(self.value_from - self.value_to)
        # 9 BTC's worth of move (10 - 1 or 1 - 10 depending on case)

        if not inverted:
            if self.action == "sell":
                # I have 10 BTC worth of FOO, and I want to sell 9 BTC worth of it
                # At rate 1 Foo = 0.1 BTC
                value_from = self.value_from.linked_to
                # value_from = 100 FOO
                value_to = self.value_to.in_currency(self.currency, self.market, rate=1/self.value_from.rate)
                # value_to   = 10 FOO (1 BTC * 1/0.1)
                delta = abs(value_to - value_from)
                # delta      = 90 FOO
                # Action: "sell" "90 FOO" at rate "0.1" "BTC" on "market"

                # Note: no rounding error possible: if we have value_to == 0, then delta == value_from
            else:
                delta = delta_in_base.in_currency(self.currency, self.market, rate=1/rate)
                # I want to buy 9 / 0.1 FOO
                # Action: "buy" "90 FOO" at rate "0.1" "BTC" on "market"

                # FIXME: Need to round up to the correct amount of FOO in case
                # we want to use all BTC
            currency = self.base_currency
            # BTC
        else:
            if self.action == "sell":
                # I have 10 BTC worth of FOO, and I want to sell 9 BTC worth of it
                # At rate 1 Foo = 0.1 BTC
                delta = delta_in_base
                # Action: "buy" "9 BTC" at rate "1/0.1" "FOO" on market

                # FIXME: Need to round up to the correct amount of FOO in case
                # we want to sell all
            else:
                delta = delta_in_base
                # I want to buy 9 / 0.1 FOO
                # Action: "sell" "9 BTC" at rate "1/0.1" "FOO" on "market"

                # FIXME: Need to round up to the correct amount of FOO in case
                # we want to use all BTC

            currency = self.currency
            # FOO

        self.orders.append(Order(self.order_action(inverted), delta, rate, currency, self.market))

    @classmethod
    def compute_value(cls, ticker, action, compute_value="default"):
        if isinstance(compute_value, str):
            compute_value = Computation.computations[compute_value]
        return compute_value(ticker, action)

    @classmethod
    def all_orders(cls, state=None):
        all_orders = sum(map(lambda v: v.orders, cls.trades.values()), [])
        if state is None:
            return all_orders
        else:
            return list(filter(lambda o: o.status == state, all_orders))

    @classmethod
    def run_orders(cls):
        for order in cls.all_orders(state="pending"):
            order.run()

    @classmethod
    def follow_orders(cls, verbose=True, sleep=30):
        orders = cls.all_orders()
        finished_orders = []
        while len(orders) != len(finished_orders):
            time.sleep(sleep)
            for order in orders:
                if order in finished_orders:
                    continue
                if order.get_status() != "open":
                    finished_orders.append(order)
                    if verbose:
                        print("finished {}".format(order))
        if verbose:
            print("All orders finished")

    @classmethod
    def update_all_orders_status(cls):
        for order in cls.all_orders(state="open"):
            order.get_status()

    def __repr__(self):
        return "Trade({} -> {} in {}, {})".format(
                self.value_from,
                self.value_to,
                self.currency,
                self.action)

    @classmethod
    def print_all_with_order(cls):
        for trade in cls.trades.values():
            trade.print_with_order()

    def print_with_order(self):
        print(self)
        for order in self.orders:
            print("\t", order, sep="")

class Order:
    def __init__(self, action, amount, rate, base_currency, market):
        self.action = action
        self.amount = amount
        self.rate = rate
        self.base_currency = base_currency
        self.market = market
        self.result = None
        self.status = "pending"

    def __repr__(self):
        return "Order({} {} at {} {} [{}])".format(
                self.action,
                self.amount,
                self.rate,
                self.base_currency,
                self.status
                )

    @property
    def pending(self):
        return self.status == "pending"

    @property
    def finished(self):
        return self.status == "closed" or self.status == "canceled" or self.status == "error"

    def run(self, debug=False):
        symbol = "{}/{}".format(self.amount.currency, self.base_currency)
        amount = self.amount.value

        if debug:
            print("market.create_order('{}', 'limit', '{}', {}, price={})".format(
                symbol, self.action, amount, self.rate))
        else:
            try:
                self.result = self.market.create_order(symbol, 'limit', self.action, amount, price=self.rate)
                self.status = "open"
            except Exception as e:
                self.status = "error"
                print("error when running market.create_order('{}', 'limit', '{}', {}, price={})".format(
                    symbol, self.action, amount, self.rate))
                self.error_message = str("{}: {}".format(e.__class__.__name__, e))
                print(self.error_message)

    def get_status(self):
        # other states are "closed" and "canceled"
        if self.status == "open":
            result = self.market.fetch_order(self.result['id'])
            self.status = result["status"]
        return self.status

    def cancel(self):
        self.market.cancel_order(self.result['id'])

def print_orders(market, base_currency="BTC"):
    Balance.prepare_trades(market, base_currency=base_currency, compute_value="average")
    Trade.prepare_orders(compute_value="average")
    for currency, balance in Balance.known_balances.items():
        print(balance)
    portfolio.Trade.print_all_with_order()

def make_orders(market, base_currency="BTC"):
    Balance.prepare_trades(market, base_currency=base_currency)
    for currency, trade in Trade.trades.items():
        print(trade)
        for order in trade.orders:
            print("\t", order, sep="")
            order.run()

if __name__ == '__main__':
    print_orders(market)
Commit	Line	Data
e0b14bcc	1	from ccxt import ExchangeError
dd359bc0	2	import time
5ab23e1c	3	from decimal import Decimal as D
dd359bc0 IB	4	# Put your poloniex api key in market.py
	5	from market import market
	6
dd359bc0 IB	7	class Portfolio:
	8	URL = "https://cryptoportfolio.io/wp-content/uploads/portfolio/json/cryptoportfolio.json"
	9	liquidities = {}
	10	data = None
	11
	12	@classmethod
	13	def repartition_pertenthousand(cls, liquidity="medium"):
	14	cls.parse_cryptoportfolio()
	15	liquidities = cls.liquidities[liquidity]
c11e4274 IB	16	cls.last_date = sorted(liquidities.keys())[-1]
c11e4274 IB	17	return liquidities[cls.last_date]
dd359bc0 IB	18
	19	@classmethod
	20	def get_cryptoportfolio(cls):
	21	import json
	22	import urllib3
	23	urllib3.disable_warnings()
	24	http = urllib3.PoolManager()
	25
183a53e3 IB	26	try:
	27	r = http.request("GET", cls.URL)
	28	except Exception:
77f8a378	29	return None
183a53e3	30	try:
5ab23e1c IB	31	cls.data = json.loads(r.data,
	32	parse_int=D,
	33	parse_float=D)
183a53e3 IB	34	except json.JSONDecodeError:
183a53e3 IB	35	cls.data = None
dd359bc0 IB	36
	37	@classmethod
	38	def parse_cryptoportfolio(cls):
	39	if cls.data is None:
	40	cls.get_cryptoportfolio()
	41
	42	def filter_weights(weight_hash):
	43	if weight_hash[1] == 0:
	44	return False
	45	if weight_hash[0] == "_row":
	46	return False
	47	return True
	48
	49	def clean_weights(i):
	50	def clean_weights_(h):
77f8a378	51	if isinstance(h[1][i], str):
dd359bc0 IB	52	return [h[0], h[1][i]]
	53	else:
	54	return [h[0], int(h[1][i] * 10000)]
	55	return clean_weights_
	56
	57	def parse_weights(portfolio_hash):
	58	# FIXME: we'll need shorts at some point
	59	assert all(map(lambda x: x == "long", portfolio_hash["holding"]["direction"]))
	60	weights_hash = portfolio_hash["weights"]
	61	weights = {}
	62	for i in range(len(weights_hash["_row"])):
	63	weights[weights_hash["_row"][i]] = dict(filter(
	64	filter_weights,
	65	map(clean_weights(i), weights_hash.items())))
	66	return weights
	67
	68	high_liquidity = parse_weights(cls.data["portfolio_1"])
	69	medium_liquidity = parse_weights(cls.data["portfolio_2"])
	70
	71	cls.liquidities = {
	72	"medium": medium_liquidity,
	73	"high": high_liquidity,
	74	}
	75
	76	class Amount:
c2644ba8	77	def __init__(self, currency, value, linked_to=None, ticker=None, rate=None):
dd359bc0	78	self.currency = currency
5ab23e1c	79	self.value = D(value)
dd359bc0 IB	80	self.linked_to = linked_to
dd359bc0 IB	81	self.ticker = ticker
c2644ba8	82	self.rate = rate
dd359bc0 IB	83
	84	self.ticker_cache = {}
	85	self.ticker_cache_timestamp = time.time()
	86
c2644ba8	87	def in_currency(self, other_currency, market, rate=None, action=None, compute_value="average"):
dd359bc0 IB	88	if other_currency == self.currency:
dd359bc0 IB	89	return self
c2644ba8 IB	90	if rate is not None:
	91	return Amount(
	92	other_currency,
	93	self.value * rate,
	94	linked_to=self,
	95	rate=rate)
cfab619d	96	asset_ticker = Trade.get_ticker(self.currency, other_currency, market)
dd359bc0	97	if asset_ticker is not None:
c2644ba8	98	rate = Trade.compute_value(asset_ticker, action, compute_value=compute_value)
dd359bc0 IB	99	return Amount(
dd359bc0 IB	100	other_currency,
c2644ba8	101	self.value * rate,
dd359bc0	102	linked_to=self,
c2644ba8 IB	103	ticker=asset_ticker,
c2644ba8 IB	104	rate=rate)
dd359bc0 IB	105	else:
	106	raise Exception("This asset is not available in the chosen market")
	107
dd359bc0	108	def __abs__(self):
5ab23e1c	109	return Amount(self.currency, abs(self.value))
dd359bc0 IB	110
dd359bc0 IB	111	def __add__(self, other):
5ab23e1c	112	if other.currency != self.currency and other.value * self.value != 0:
dd359bc0	113	raise Exception("Summing amounts must be done with same currencies")
5ab23e1c	114	return Amount(self.currency, self.value + other.value)
dd359bc0 IB	115
	116	def __radd__(self, other):
	117	if other == 0:
	118	return self
	119	else:
	120	return self.__add__(other)
	121
	122	def __sub__(self, other):
5ab23e1c	123	if other.currency != self.currency and other.value * self.value != 0:
dd359bc0	124	raise Exception("Summing amounts must be done with same currencies")
5ab23e1c	125	return Amount(self.currency, self.value - other.value)
dd359bc0 IB	126
dd359bc0 IB	127	def __mul__(self, value):
77f8a378	128	if not isinstance(value, (int, float, D)):
dd359bc0	129	raise TypeError("Amount may only be multiplied by numbers")
5ab23e1c	130	return Amount(self.currency, self.value * value)
dd359bc0 IB	131
	132	def __rmul__(self, value):
	133	return self.__mul__(value)
	134
	135	def __floordiv__(self, value):
77f8a378	136	if not isinstance(value, (int, float, D)):
dd359bc0	137	raise TypeError("Amount may only be multiplied by integers")
5ab23e1c	138	return Amount(self.currency, self.value / value)
dd359bc0 IB	139
	140	def __truediv__(self, value):
	141	return self.__floordiv__(value)
	142
	143	def __lt__(self, other):
	144	if self.currency != other.currency:
	145	raise Exception("Comparing amounts must be done with same currencies")
5ab23e1c	146	return self.value < other.value
dd359bc0 IB	147
	148	def __eq__(self, other):
	149	if other == 0:
5ab23e1c	150	return self.value == 0
dd359bc0 IB	151	if self.currency != other.currency:
dd359bc0 IB	152	raise Exception("Comparing amounts must be done with same currencies")
5ab23e1c	153	return self.value == other.value
dd359bc0 IB	154
	155	def __str__(self):
	156	if self.linked_to is None:
	157	return "{:.8f} {}".format(self.value, self.currency)
	158	else:
	159	return "{:.8f} {} [{}]".format(self.value, self.currency, self.linked_to)
	160
	161	def __repr__(self):
	162	if self.linked_to is None:
	163	return "Amount({:.8f} {})".format(self.value, self.currency)
	164	else:
	165	return "Amount({:.8f} {} -> {})".format(self.value, self.currency, repr(self.linked_to))
	166
	167	class Balance:
	168	known_balances = {}
dd359bc0 IB	169
	170	def __init__(self, currency, total_value, free_value, used_value):
	171	self.currency = currency
	172	self.total = Amount(currency, total_value)
	173	self.free = Amount(currency, free_value)
	174	self.used = Amount(currency, used_value)
	175
f2da6589 IB	176	@classmethod
	177	def from_hash(cls, currency, hash_):
	178	return cls(currency, hash_["total"], hash_["free"], hash_["used"])
	179
dd359bc0	180	@classmethod
deb8924c	181	def in_currency(cls, other_currency, market, compute_value="average", type="total"):
dd359bc0 IB	182	amounts = {}
	183	for currency in cls.known_balances:
	184	balance = cls.known_balances[currency]
	185	other_currency_amount = getattr(balance, type)\
deb8924c	186	.in_currency(other_currency, market, compute_value=compute_value)
dd359bc0 IB	187	amounts[currency] = other_currency_amount
	188	return amounts
	189
	190	@classmethod
	191	def currencies(cls):
	192	return cls.known_balances.keys()
	193
dd359bc0 IB	194	@classmethod
	195	def _fill_balances(cls, hash_):
	196	for key in hash_:
	197	if key in ["info", "free", "used", "total"]:
	198	continue
a9950fd0	199	if hash_[key]["total"] > 0 or key in cls.known_balances:
dd359bc0 IB	200	cls.known_balances[key] = cls.from_hash(key, hash_[key])
	201
	202	@classmethod
	203	def fetch_balances(cls, market):
	204	cls._fill_balances(market.fetch_balance())
	205	return cls.known_balances
	206
	207	@classmethod
7ab23e29 IB	208	def dispatch_assets(cls, amount, repartition=None):
	209	if repartition is None:
	210	repartition = Portfolio.repartition_pertenthousand()
	211	sum_pertenthousand = sum([v for k, v in repartition.items()])
dd359bc0	212	amounts = {}
7ab23e29	213	for currency, ptt in repartition.items():
dd359bc0 IB	214	amounts[currency] = ptt * amount / sum_pertenthousand
	215	if currency not in cls.known_balances:
	216	cls.known_balances[currency] = cls(currency, 0, 0, 0)
	217	return amounts
	218
	219	@classmethod
a9950fd0	220	def prepare_trades(cls, market, base_currency="BTC", compute_value="average"):
dd359bc0	221	cls.fetch_balances(market)
a9950fd0	222	values_in_base = cls.in_currency(base_currency, market, compute_value=compute_value)
dd359bc0 IB	223	total_base_value = sum(values_in_base.values())
dd359bc0 IB	224	new_repartition = cls.dispatch_assets(total_base_value)
deb8924c	225	# Recompute it in case we have new currencies
a9950fd0 IB	226	values_in_base = cls.in_currency(base_currency, market, compute_value=compute_value)
	227	Trade.compute_trades(values_in_base, new_repartition, market=market)
	228
	229	@classmethod
	230	def update_trades(cls, market, base_currency="BTC", compute_value="average", only=None):
	231	cls.fetch_balances(market)
	232	values_in_base = cls.in_currency(base_currency, market, compute_value=compute_value)
	233	total_base_value = sum(values_in_base.values())
	234	new_repartition = cls.dispatch_assets(total_base_value)
	235	Trade.compute_trades(values_in_base, new_repartition, only=only, market=market)
dd359bc0	236
7ab23e29 IB	237	@classmethod
	238	def prepare_trades_to_sell_all(cls, market, base_currency="BTC", compute_value="average"):
	239	cls.fetch_balances(market)
	240	values_in_base = cls.in_currency(base_currency, market, compute_value=compute_value)
	241	total_base_value = sum(values_in_base.values())
	242	new_repartition = cls.dispatch_assets(total_base_value, repartition={ base_currency: 1 })
	243	Trade.compute_trades(values_in_base, new_repartition, market=market)
	244
dd359bc0 IB	245	def __repr__(self):
	246	return "Balance({} [{}/{}/{}])".format(self.currency, str(self.free), str(self.used), str(self.total))
	247
deb8924c	248	class Computation:
deb8924c IB	249	computations = {
deb8924c IB	250	"default": lambda x, y: x[y],
deb8924c IB	251	"average": lambda x, y: x["average"],
	252	"bid": lambda x, y: x["bid"],
	253	"ask": lambda x, y: x["ask"],
	254	}
	255
	256
dd359bc0 IB	257	class Trade:
	258	trades = {}
	259
	260	def __init__(self, value_from, value_to, currency, market=None):
	261	# We have value_from of currency, and want to finish with value_to of
	262	# that currency. value_* may not be in currency's terms
	263	self.currency = currency
	264	self.value_from = value_from
	265	self.value_to = value_to
	266	self.orders = []
089d5d9d	267	self.market = market
dd359bc0 IB	268	assert self.value_from.currency == self.value_to.currency
	269	assert self.value_from.linked_to is not None and self.value_from.linked_to.currency == self.currency
	270	self.base_currency = self.value_from.currency
	271
cfab619d IB	272	fees_cache = {}
	273	@classmethod
	274	def fetch_fees(cls, market):
	275	if market.__class__ not in cls.fees_cache:
	276	cls.fees_cache[market.__class__] = market.fetch_fees()
	277	return cls.fees_cache[market.__class__]
	278
	279	ticker_cache = {}
	280	ticker_cache_timestamp = time.time()
	281	@classmethod
	282	def get_ticker(cls, c1, c2, market, refresh=False):
	283	def invert(ticker):
	284	return {
	285	"inverted": True,
5ab23e1c	286	"average": (1/ticker["bid"] + 1/ticker["ask"]) / 2,
cfab619d IB	287	"original": ticker,
	288	}
	289	def augment_ticker(ticker):
	290	ticker.update({
	291	"inverted": False,
	292	"average": (ticker["bid"] + ticker["ask"] ) / 2,
	293	})
	294
	295	if time.time() - cls.ticker_cache_timestamp > 5:
	296	cls.ticker_cache = {}
	297	cls.ticker_cache_timestamp = time.time()
	298	elif not refresh:
	299	if (c1, c2, market.__class__) in cls.ticker_cache:
	300	return cls.ticker_cache[(c1, c2, market.__class__)]
	301	if (c2, c1, market.__class__) in cls.ticker_cache:
	302	return invert(cls.ticker_cache[(c2, c1, market.__class__)])
	303
	304	try:
	305	cls.ticker_cache[(c1, c2, market.__class__)] = market.fetch_ticker("{}/{}".format(c1, c2))
	306	augment_ticker(cls.ticker_cache[(c1, c2, market.__class__)])
e0b14bcc	307	except ExchangeError:
cfab619d IB	308	try:
	309	cls.ticker_cache[(c2, c1, market.__class__)] = market.fetch_ticker("{}/{}".format(c2, c1))
	310	augment_ticker(cls.ticker_cache[(c2, c1, market.__class__)])
e0b14bcc	311	except ExchangeError:
cfab619d IB	312	cls.ticker_cache[(c1, c2, market.__class__)] = None
	313	return cls.get_ticker(c1, c2, market)
	314
dd359bc0	315	@classmethod
a9950fd0	316	def compute_trades(cls, values_in_base, new_repartition, only=None, market=None):
dd359bc0 IB	317	base_currency = sum(values_in_base.values()).currency
	318	for currency in Balance.currencies():
	319	if currency == base_currency:
	320	continue
a9950fd0	321	trade = cls(
dd359bc0 IB	322	values_in_base.get(currency, Amount(base_currency, 0)),
	323	new_repartition.get(currency, Amount(base_currency, 0)),
	324	currency,
	325	market=market
	326	)
a9950fd0 IB	327	if only is None or trade.action == only:
a9950fd0 IB	328	cls.trades[currency] = trade
dd359bc0 IB	329	return cls.trades
dd359bc0 IB	330
a9950fd0 IB	331	@classmethod
	332	def prepare_orders(cls, only=None, compute_value="default"):
	333	for currency, trade in cls.trades.items():
	334	if only is None or trade.action == only:
	335	trade.prepare_order(compute_value=compute_value)
	336
dd359bc0 IB	337	@property
	338	def action(self):
	339	if self.value_from == self.value_to:
	340	return None
	341	if self.base_currency == self.currency:
	342	return None
	343
	344	if self.value_from < self.value_to:
	345	return "buy"
	346	else:
	347	return "sell"
	348
cfab619d	349	def order_action(self, inverted):
dd359bc0	350	if self.value_from < self.value_to:
b83d4897	351	return "buy" if not inverted else "sell"
dd359bc0	352	else:
b83d4897	353	return "sell" if not inverted else "buy"
dd359bc0	354
deb8924c	355	def prepare_order(self, compute_value="default"):
dd359bc0 IB	356	if self.action is None:
	357	return
	358	ticker = self.value_from.ticker
	359	inverted = ticker["inverted"]
f2097d71 IB	360	if inverted:
	361	ticker = ticker["original"]
	362	rate = Trade.compute_value(ticker, self.order_action(inverted), compute_value=compute_value)
c11e4274	363	# 0.1
f2097d71	364
f2097d71	365	delta_in_base = abs(self.value_from - self.value_to)
c11e4274	366	# 9 BTC's worth of move (10 - 1 or 1 - 10 depending on case)
dd359bc0 IB	367
dd359bc0 IB	368	if not inverted:
f2097d71	369	if self.action == "sell":
c11e4274 IB	370	# I have 10 BTC worth of FOO, and I want to sell 9 BTC worth of it
c11e4274 IB	371	# At rate 1 Foo = 0.1 BTC
f2097d71	372	value_from = self.value_from.linked_to
c11e4274	373	# value_from = 100 FOO
f2097d71	374	value_to = self.value_to.in_currency(self.currency, self.market, rate=1/self.value_from.rate)
c11e4274	375	# value_to = 10 FOO (1 BTC * 1/0.1)
f2097d71	376	delta = abs(value_to - value_from)
c11e4274 IB	377	# delta = 90 FOO
	378	# Action: "sell" "90 FOO" at rate "0.1" "BTC" on "market"
	379
	380	# Note: no rounding error possible: if we have value_to == 0, then delta == value_from
f2097d71 IB	381	else:
f2097d71 IB	382	delta = delta_in_base.in_currency(self.currency, self.market, rate=1/rate)
c11e4274 IB	383	# I want to buy 9 / 0.1 FOO
	384	# Action: "buy" "90 FOO" at rate "0.1" "BTC" on "market"
	385
	386	# FIXME: Need to round up to the correct amount of FOO in case
	387	# we want to use all BTC
dd359bc0	388	currency = self.base_currency
c11e4274	389	# BTC
dd359bc0	390	else:
f2097d71	391	if self.action == "sell":
c11e4274 IB	392	# I have 10 BTC worth of FOO, and I want to sell 9 BTC worth of it
	393	# At rate 1 Foo = 0.1 BTC
	394	delta = delta_in_base
	395	# Action: "buy" "9 BTC" at rate "1/0.1" "FOO" on market
	396
	397	# FIXME: Need to round up to the correct amount of FOO in case
	398	# we want to sell all
f2097d71 IB	399	else:
f2097d71 IB	400	delta = delta_in_base
c11e4274 IB	401	# I want to buy 9 / 0.1 FOO
	402	# Action: "sell" "9 BTC" at rate "1/0.1" "FOO" on "market"
	403
	404	# FIXME: Need to round up to the correct amount of FOO in case
	405	# we want to use all BTC
	406
dd359bc0	407	currency = self.currency
c11e4274	408	# FOO
dd359bc0	409
a9950fd0	410	self.orders.append(Order(self.order_action(inverted), delta, rate, currency, self.market))
dd359bc0	411
deb8924c IB	412	@classmethod
deb8924c IB	413	def compute_value(cls, ticker, action, compute_value="default"):
77f8a378	414	if isinstance(compute_value, str):
deb8924c IB	415	compute_value = Computation.computations[compute_value]
	416	return compute_value(ticker, action)
	417
dd359bc0	418	@classmethod
a9950fd0 IB	419	def all_orders(cls, state=None):
	420	all_orders = sum(map(lambda v: v.orders, cls.trades.values()), [])
	421	if state is None:
	422	return all_orders
	423	else:
	424	return list(filter(lambda o: o.status == state, all_orders))
	425
	426	@classmethod
	427	def run_orders(cls):
	428	for order in cls.all_orders(state="pending"):
	429	order.run()
dd359bc0 IB	430
dd359bc0 IB	431	@classmethod
a9950fd0	432	def follow_orders(cls, verbose=True, sleep=30):
dd359bc0 IB	433	orders = cls.all_orders()
	434	finished_orders = []
	435	while len(orders) != len(finished_orders):
a9950fd0	436	time.sleep(sleep)
dd359bc0 IB	437	for order in orders:
	438	if order in finished_orders:
	439	continue
a9950fd0	440	if order.get_status() != "open":
dd359bc0	441	finished_orders.append(order)
a9950fd0 IB	442	if verbose:
	443	print("finished {}".format(order))
	444	if verbose:
	445	print("All orders finished")
dd359bc0	446
272b3cfb IB	447	@classmethod
	448	def update_all_orders_status(cls):
	449	for order in cls.all_orders(state="open"):
	450	order.get_status()
	451
dd359bc0 IB	452	def __repr__(self):
	453	return "Trade({} -> {} in {}, {})".format(
	454	self.value_from,
	455	self.value_to,
	456	self.currency,
	457	self.action)
	458
272b3cfb IB	459	@classmethod
	460	def print_all_with_order(cls):
	461	for trade in cls.trades.values():
	462	trade.print_with_order()
	463
	464	def print_with_order(self):
	465	print(self)
	466	for order in self.orders:
	467	print("\t", order, sep="")
dd359bc0	468
272b3cfb	469	class Order:
a9950fd0	470	def __init__(self, action, amount, rate, base_currency, market):
dd359bc0 IB	471	self.action = action
	472	self.amount = amount
	473	self.rate = rate
	474	self.base_currency = base_currency
a9950fd0	475	self.market = market
dd359bc0	476	self.result = None
a9950fd0	477	self.status = "pending"
dd359bc0 IB	478
	479	def __repr__(self):
	480	return "Order({} {} at {} {} [{}])".format(
	481	self.action,
	482	self.amount,
	483	self.rate,
	484	self.base_currency,
	485	self.status
	486	)
	487
a9950fd0 IB	488	@property
	489	def pending(self):
	490	return self.status == "pending"
	491
	492	@property
	493	def finished(self):
fd8afa51	494	return self.status == "closed" or self.status == "canceled" or self.status == "error"
a9950fd0	495
643767f1	496	def run(self, debug=False):
dd359bc0 IB	497	symbol = "{}/{}".format(self.amount.currency, self.base_currency)
	498	amount = self.amount.value
	499
643767f1	500	if debug:
dd359bc0 IB	501	print("market.create_order('{}', 'limit', '{}', {}, price={})".format(
	502	symbol, self.action, amount, self.rate))
	503	else:
	504	try:
a9950fd0	505	self.result = self.market.create_order(symbol, 'limit', self.action, amount, price=self.rate)
dd359bc0	506	self.status = "open"
fd8afa51 IB	507	except Exception as e:
	508	self.status = "error"
	509	print("error when running market.create_order('{}', 'limit', '{}', {}, price={})".format(
	510	symbol, self.action, amount, self.rate))
	511	self.error_message = str("{}: {}".format(e.__class__.__name__, e))
	512	print(self.error_message)
dd359bc0	513
a9950fd0	514	def get_status(self):
dd359bc0 IB	515	# other states are "closed" and "canceled"
dd359bc0 IB	516	if self.status == "open":
a9950fd0	517	result = self.market.fetch_order(self.result['id'])
dd359bc0 IB	518	self.status = result["status"]
	519	return self.status
	520
272b3cfb IB	521	def cancel(self):
	522	self.market.cancel_order(self.result['id'])
	523
dd359bc0	524	def print_orders(market, base_currency="BTC"):
deb8924c	525	Balance.prepare_trades(market, base_currency=base_currency, compute_value="average")
a9950fd0	526	Trade.prepare_orders(compute_value="average")
5ab23e1c IB	527	for currency, balance in Balance.known_balances.items():
5ab23e1c IB	528	print(balance)
272b3cfb	529	portfolio.Trade.print_all_with_order()
dd359bc0 IB	530
	531	def make_orders(market, base_currency="BTC"):
	532	Balance.prepare_trades(market, base_currency=base_currency)
	533	for currency, trade in Trade.trades.items():
	534	print(trade)
	535	for order in trade.orders:
	536	print("\t", order, sep="")
a9950fd0	537	order.run()
dd359bc0 IB	538
	539	if __name__ == '__main__':
	540	print_orders(market)