X-Git-Url: https://git.immae.eu/?a=blobdiff_plain;f=portfolio.py;h=b77f975e9cdf2d01cae09c07a72f3b8b15d16aa4;hb=9f54fd9acf98692ff7601fd3236c46745eb26e15;hp=b3065b88542dabad925633a51cf4e0e2ab627cbc;hpb=80cdd672da2f0a4997a792bd1a2de19d4f516e5b;p=perso%2FImmae%2FProjets%2FCryptomonnaies%2FCryptoportfolio%2FTrader.git diff --git a/portfolio.py b/portfolio.py index b3065b8..b77f975 100644 --- a/portfolio.py +++ b/portfolio.py @@ -1,24 +1,32 @@ -from ccxt import ExchangeError import time +from datetime import datetime, timedelta from decimal import Decimal as D, ROUND_DOWN # Put your poloniex api key in market.py -from market import market from json import JSONDecodeError +from ccxt import ExchangeError, ExchangeNotAvailable import requests +import helper as h +from store import * # FIXME: correctly handle web call timeouts - class Portfolio: URL = "https://cryptoportfolio.io/wp-content/uploads/portfolio/json/cryptoportfolio.json" liquidities = {} data = None + last_date = None + + @classmethod + def wait_for_recent(cls, delta=4): + cls.repartition(refetch=True) + while cls.last_date is None or datetime.now() - cls.last_date > timedelta(delta): + time.sleep(30) + cls.repartition(refetch=True) @classmethod - def repartition(cls, liquidity="medium"): - cls.parse_cryptoportfolio() + def repartition(cls, liquidity="medium", refetch=False): + cls.parse_cryptoportfolio(refetch=refetch) liquidities = cls.liquidities[liquidity] - cls.last_date = sorted(liquidities.keys())[-1] return liquidities[cls.last_date] @classmethod @@ -33,8 +41,8 @@ class Portfolio: cls.data = None @classmethod - def parse_cryptoportfolio(cls): - if cls.data is None: + def parse_cryptoportfolio(cls, refetch=False): + if refetch or cls.data is None: cls.get_cryptoportfolio() def filter_weights(weight_hash): @@ -56,7 +64,8 @@ class Portfolio: weights_hash = portfolio_hash["weights"] weights = {} for i in range(len(weights_hash["_row"])): - weights[weights_hash["_row"][i]] = dict(filter( + date = datetime.strptime(weights_hash["_row"][i], "%Y-%m-%d") + weights[date] = dict(filter( filter_weights, map(clean_weights(i), weights_hash.items()))) return weights @@ -68,6 +77,25 @@ class Portfolio: "medium": medium_liquidity, "high": high_liquidity, } + cls.last_date = max(max(medium_liquidity.keys()), max(high_liquidity.keys())) + +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"], + } + + @classmethod + def compute_value(cls, ticker, action, compute_value="default"): + if action == "buy": + action = "ask" + if action == "sell": + action = "bid" + if isinstance(compute_value, str): + compute_value = cls.computations[compute_value] + return compute_value(ticker, action) class Amount: def __init__(self, currency, value, linked_to=None, ticker=None, rate=None): @@ -86,9 +114,9 @@ class Amount: self.value * rate, linked_to=self, rate=rate) - asset_ticker = Trade.get_ticker(self.currency, other_currency, market) + asset_ticker = h.get_ticker(self.currency, other_currency, market) if asset_ticker is not None: - rate = Trade.compute_value(asset_ticker, action, compute_value=compute_value) + rate = Computation.compute_value(asset_ticker, action, compute_value=compute_value) return Amount( other_currency, self.value * rate, @@ -105,6 +133,8 @@ class Amount: return Amount(self.currency, abs(self.value)) def __add__(self, other): + if other == 0: + return self 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) @@ -116,10 +146,18 @@ class Amount: return self.__add__(other) def __sub__(self, other): + if other == 0: + return self 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 __rsub__(self, other): + if other == 0: + return -self + else: + return -self.__sub__(other) + def __mul__(self, value): if not isinstance(value, (int, float, D)): raise TypeError("Amount may only be multiplied by numbers") @@ -130,7 +168,7 @@ class Amount: def __floordiv__(self, value): if not isinstance(value, (int, float, D)): - raise TypeError("Amount may only be multiplied by integers") + raise TypeError("Amount may only be divided by numbers") return Amount(self.currency, self.value / value) def __truediv__(self, value): @@ -178,7 +216,6 @@ class Amount: return "Amount({:.8f} {} -> {})".format(self.value, self.currency, repr(self.linked_to)) class Balance: - known_balances = {} def __init__(self, currency, hash_): self.currency = currency @@ -197,70 +234,7 @@ class Balance: "margin_lending_fees", "margin_borrowed_base_price" ]: - setattr(self, key, Amount(base_currency, hash_[key])) - - @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 fetch_balances(cls, market): - all_balances = market.fetch_all_balances() - for currency, balance in all_balances.items(): - if balance["exchange_total"] != 0 or balance["margin_total"] != 0 or \ - currency in cls.known_balances: - cls.known_balances[currency] = cls(currency, balance) - return cls.known_balances - - @classmethod - def dispatch_assets(cls, amount, repartition=None): - if repartition is None: - repartition = Portfolio.repartition() - sum_ratio = sum([v[0] for k, v in repartition.items()]) - amounts = {} - for currency, (ptt, trade_type) in repartition.items(): - amounts[currency] = ptt * amount / sum_ratio - if trade_type == "short": - amounts[currency] = - amounts[currency] - if currency not in cls.known_balances: - cls.known_balances[currency] = cls(currency, {}) - return amounts - - @classmethod - def prepare_trades(cls, market, base_currency="BTC", compute_value="average", debug=False): - 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, debug=debug) - - @classmethod - def update_trades(cls, market, base_currency="BTC", compute_value="average", only=None, debug=False): - 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, debug=debug) - - @classmethod - def prepare_trades_to_sell_all(cls, market, base_currency="BTC", compute_value="average", debug=False): - 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, "long") }) - Trade.compute_trades(values_in_base, new_repartition, market=market, debug=debug) + setattr(self, key, Amount(base_currency, hash_.get(key, 0))) def __repr__(self): if self.exchange_total > 0: @@ -294,18 +268,7 @@ class Balance: return "Balance({}".format(self.currency) + "".join([exchange, margin, 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: - debug = False - 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 @@ -321,105 +284,6 @@ class Trade: self.value_from.linked_to = Amount(self.currency, 0) 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, debug=False): - cls.debug = cls.debug or debug - base_currency = sum(values_in_base.values()).currency - for currency in Balance.currencies(): - if currency == base_currency: - continue - value_from = values_in_base.get(currency, Amount(base_currency, 0)) - value_to = new_repartition.get(currency, Amount(base_currency, 0)) - if value_from.value * value_to.value < 0: - trade_1 = cls(value_from, Amount(base_currency, 0), currency, market=market) - if only is None or trade_1.action == only: - cls.trades.append(trade_1) - trade_2 = cls(Amount(base_currency, 0), value_to, currency, market=market) - if only is None or trade_2.action == only: - cls.trades.append(trade_2) - else: - trade = cls( - value_from, - value_to, - currency, - market=market - ) - if only is None or trade.action == only: - cls.trades.append(trade) - return cls.trades - - @classmethod - def prepare_orders(cls, only=None, compute_value="default"): - for trade in cls.trades: - if only is None or trade.action == only: - trade.prepare_order(compute_value=compute_value) - - @classmethod - def move_balances(cls, market): - needed_in_margin = {} - for trade in cls.trades: - if trade.trade_type == "short": - if trade.value_to.currency not in needed_in_margin: - needed_in_margin[trade.value_to.currency] = 0 - needed_in_margin[trade.value_to.currency] += abs(trade.value_to) - for currency, needed in needed_in_margin.items(): - current_balance = Balance.known_balances[currency].margin_free - delta = (needed - current_balance).value - # FIXME: don't remove too much if there are open margin position - if delta > 0: - if cls.debug: - print("market.transfer_balance({}, {}, 'exchange', 'margin')".format(currency, delta)) - else: - market.transfer_balance(currency, delta, "exchange", "margin") - elif delta < 0: - if cls.debug: - print("market.transfer_balance({}, {}, 'margin', 'exchange')".format(currency, -delta)) - else: - market.transfer_balance(currency, -delta, "margin", "exchange") - @property def action(self): if self.value_from == self.value_to: @@ -427,7 +291,7 @@ class Trade: if self.base_currency == self.currency: return None - if self.value_from < self.value_to: + if abs(self.value_from) < abs(self.value_to): return "acquire" else: return "dispose" @@ -445,11 +309,10 @@ class Trade: else: return "long" - @property - def filled_amount(self): + def filled_amount(self, in_base_currency=False): filled_amount = 0 for order in self.orders: - filled_amount += order.filled_amount + filled_amount += order.filled_amount(in_base_currency=in_base_currency) return filled_amount def update_order(self, order, tick): @@ -457,19 +320,16 @@ class Trade: if tick in [0, 1, 3, 4, 6]: print("{}, tick {}, waiting".format(order, tick)) elif tick == 2: - self.prepare_order(compute_value=lambda x, y: (x[y] + x["average"]) / 2) - new_order = self.orders[-1] + new_order = self.prepare_order(compute_value=lambda x, y: (x[y] + x["average"]) / 2) print("{}, tick {}, cancelling and adjusting to {}".format(order, tick, new_order)) elif tick ==5: - self.prepare_order(compute_value=lambda x, y: (x[y]*2 + x["average"]) / 3) - new_order = self.orders[-1] + new_order = self.prepare_order(compute_value=lambda x, y: (x[y]*2 + x["average"]) / 3) print("{}, tick {}, cancelling and adjusting to {}".format(order, tick, new_order)) elif tick >= 7: if tick == 7: print("{}, tick {}, fallbacking to market value".format(order, tick)) if (tick - 7) % 3 == 0: - self.prepare_order(compute_value="default") - new_order = self.orders[-1] + new_order = self.prepare_order(compute_value="default") print("{}, tick {}, market value, cancelling and adjusting to {}".format(order, tick, new_order)) if new_order is not None: @@ -478,106 +338,78 @@ class Trade: def prepare_order(self, compute_value="default"): if self.action is None: - return - ticker = Trade.get_ticker(self.currency, self.base_currency, self.market) + return None + ticker = h.get_ticker(self.currency, self.base_currency, self.market) inverted = ticker["inverted"] if inverted: ticker = ticker["original"] - rate = Trade.compute_value(ticker, self.order_action(inverted), compute_value=compute_value) - # 0.1 + rate = Computation.compute_value(ticker, self.order_action(inverted), compute_value=compute_value) 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: - currency = self.base_currency + base_currency = self.base_currency # BTC if self.action == "dispose": - # 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 + filled = self.filled_amount(in_base_currency=False) + delta = delta_in_base.in_currency(self.currency, self.market, rate=1/self.value_from.rate) + # I have 10 BTC worth of FOO, and I want to sell 9 BTC + # worth of it, computed first with rate 10 FOO = 1 BTC. + # -> I "sell" "90" FOO at proposed rate "rate". + + delta = delta - filled + # I already sold 60 FOO, 30 left 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" + filled = self.filled_amount(in_base_currency=True) + delta = (delta_in_base - filled).in_currency(self.currency, self.market, rate=1/rate) + # I want to buy 9 BTC worth of FOO, computed with rate + # 10 FOO = 1 BTC + # -> I "buy" "9 / rate" FOO at proposed rate "rate" + + # I already bought 3 / rate FOO, 6 / rate left else: - currency = self.currency + base_currency = self.currency # FOO - delta = delta_in_base - # 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 - # Action: "buy" "9 BTC" at rate "1/0.1" "FOO" on market - # buy: - # I want to buy 9 / 0.1 FOO - # Action: "sell" "9 BTC" at rate "1/0.1" "FOO" on "market" - if self.value_to == 0: - rate = self.value_from.linked_to.value / self.value_from.value - # Recompute the rate to avoid any rounding error - - close_if_possible = (self.value_to == 0) + if self.action == "dispose": + filled = self.filled_amount(in_base_currency=True) + # Base is FOO - if delta <= self.filled_amount: - print("Less to do than already filled: {} <= {}".format(delta, - self.filled_amount)) - return + delta = (delta_in_base.in_currency(self.currency, self.market, rate=1/self.value_from.rate) + - filled).in_currency(self.base_currency, self.market, rate=1/rate) + # I have 10 BTC worth of FOO, and I want to sell 9 BTC worth of it + # computed at rate 1 Foo = 0.01 BTC + # Computation says I should sell it at 125 FOO / BTC + # -> delta_in_base = 9 BTC + # -> delta = (9 * 1/0.01 FOO) * 1/125 = 7.2 BTC + # Action: "buy" "7.2 BTC" at rate "125" "FOO" on market - self.orders.append(Order(self.order_action(inverted), - delta - self.filled_amount, rate, currency, self.trade_type, - self.market, self, close_if_possible=close_if_possible)) + # I already bought 300/125 BTC, only 600/125 left + else: + filled = self.filled_amount(in_base_currency=False) + # Base is FOO - @classmethod - def compute_value(cls, ticker, action, compute_value="default"): - if action == "buy": - action = "ask" - if action == "sell": - action = "bid" - if isinstance(compute_value, str): - compute_value = Computation.computations[compute_value] - return compute_value(ticker, action) + delta = delta_in_base + # I have 1 BTC worth of FOO, and I want to buy 9 BTC worth of it + # At rate 100 Foo / BTC + # Computation says I should buy it at 125 FOO / BTC + # -> delta_in_base = 9 BTC + # Action: "sell" "9 BTC" at rate "125" "FOO" on market - @classmethod - def all_orders(cls, state=None): - all_orders = sum(map(lambda v: v.orders, cls.trades), []) - if state is None: - return all_orders - else: - return list(filter(lambda o: o.status == state, all_orders)) + delta = delta - filled + # I already sold 4 BTC, only 5 left - @classmethod - def run_orders(cls): - for order in cls.all_orders(state="pending"): - order.run() + close_if_possible = (self.value_to == 0) - @classmethod - def follow_orders(cls, verbose=True, sleep=None): - if sleep is None: - sleep = 7 if cls.debug else 30 - tick = 0 - while len(cls.all_orders(state="open")) > 0: - time.sleep(sleep) - tick += 1 - for order in cls.all_orders(state="open"): - if order.get_status() != "open": - if verbose: - print("finished {}".format(order)) - else: - order.trade.update_order(order, tick) - if verbose: - print("All orders finished") + if delta <= 0: + print("Less to do than already filled: {}".format(delta)) + return None - @classmethod - def update_all_orders_status(cls): - for order in cls.all_orders(state="open"): - order.get_status() + order = Order(self.order_action(inverted), + delta, rate, base_currency, self.trade_type, + self.market, self, close_if_possible=close_if_possible) + self.orders.append(order) + return order def __repr__(self): return "Trade({} -> {} in {}, {})".format( @@ -586,11 +418,6 @@ class Trade: self.currency, self.action) - @classmethod - def print_all_with_order(cls): - for trade in cls.trades: - trade.print_with_order() - def print_with_order(self): print(self) for order in self.orders: @@ -610,7 +437,8 @@ class Order: self.status = "pending" self.trade = trade self.close_if_possible = close_if_possible - self.debug = trade.debug + self.id = None + self.fetch_cache_timestamp = None def __repr__(self): return "Order({} {} {} at {} {} [{}]{})".format( @@ -630,6 +458,10 @@ class Order: else: return "margin" + @property + def open(self): + return self.status == "open" + @property def pending(self): return self.status == "pending" @@ -638,56 +470,58 @@ class Order: def finished(self): return self.status == "closed" or self.status == "canceled" or self.status == "error" - @property - def id(self): - return self.results[0]["id"] - def run(self): symbol = "{}/{}".format(self.amount.currency, self.base_currency) amount = round(self.amount, self.market.order_precision(symbol)).value - if self.debug: + if TradeStore.debug: print("market.create_order('{}', 'limit', '{}', {}, price={}, account={})".format( symbol, self.action, amount, self.rate, self.account)) - self.status = "open" self.results.append({"debug": True, "id": -1}) else: try: self.results.append(self.market.create_order(symbol, 'limit', self.action, amount, price=self.rate, account=self.account)) - self.status = "open" + except ExchangeNotAvailable: + # Impossible to honor the order (dust amount) + self.status = "closed" + self.mark_finished_order() + return except Exception as e: self.status = "error" print("error when running market.create_order('{}', 'limit', '{}', {}, price={}, account={})".format( symbol, self.action, amount, self.rate, self.account)) self.error_message = str("{}: {}".format(e.__class__.__name__, e)) print(self.error_message) + return + self.id = self.results[0]["id"] + self.status = "open" def get_status(self): - if self.debug: + if TradeStore.debug: return self.status # other states are "closed" and "canceled" - if self.status == "open": + if not self.finished: self.fetch() - if self.status != "open": + if self.finished: self.mark_finished_order() return self.status def mark_finished_order(self): - if self.debug: + if TradeStore.debug: return if self.status == "closed": if self.trade_type == "short" and self.action == "buy" and self.close_if_possible: self.market.close_margin_position(self.amount.currency, self.base_currency) - fetch_cache_timestamp = None def fetch(self, force=False): - if self.debug or (not force and self.fetch_cache_timestamp is not None + if TradeStore.debug or (not force and self.fetch_cache_timestamp is not None and time.time() - self.fetch_cache_timestamp < 10): return self.fetch_cache_timestamp = time.time() - self.results.append(self.market.fetch_order(self.id)) - result = self.results[-1] + result = self.market.fetch_order(self.id) + self.results.append(result) + self.status = result["status"] # Time at which the order started self.timestamp = result["datetime"] @@ -695,27 +529,30 @@ class Order: # FIXME: consider open order with dust remaining as closed - @property def dust_amount_remaining(self): - return self.remaining_amount < 0.001 + return self.remaining_amount() < Amount(self.amount.currency, D("0.001")) - @property def remaining_amount(self): if self.status == "open": self.fetch() - return self.amount - self.filled_amount + return self.amount - self.filled_amount() - @property - def filled_amount(self): + def filled_amount(self, in_base_currency=False): if self.status == "open": self.fetch() - filled_amount = Amount(self.amount.currency, 0) + filled_amount = 0 for mouvement in self.mouvements: - filled_amount += mouvement.total + if in_base_currency: + filled_amount += mouvement.total_in_base + else: + filled_amount += mouvement.total return filled_amount def fetch_mouvements(self): - mouvements = self.market.privatePostReturnOrderTrades({"orderNumber": self.id}) + try: + mouvements = self.market.privatePostReturnOrderTrades({"orderNumber": self.id}) + except ExchangeError: + mouvements = [] self.mouvements = [] for mouvement_hash in mouvements: @@ -723,64 +560,28 @@ class Order: self.base_currency, mouvement_hash)) def cancel(self): - if self.debug: + if TradeStore.debug: self.status = "canceled" return - self.market.cancel_order(self.result['id']) + self.market.cancel_order(self.id) self.fetch() class Mouvement: def __init__(self, currency, base_currency, hash_): self.currency = currency self.base_currency = base_currency - self.id = hash_["id"] - self.action = hash_["type"] - self.fee_rate = D(hash_["fee"]) - self.date = datetime.strptime(hash_["date"], '%Y-%m-%d %H:%M:%S') - self.rate = D(hash_["rate"]) - self.total = Amount(currency, hash_["amount"]) + self.id = hash_.get("tradeID") + self.action = hash_.get("type") + self.fee_rate = D(hash_.get("fee", -1)) + try: + self.date = datetime.strptime(hash_.get("date", ""), '%Y-%m-%d %H:%M:%S') + except ValueError: + self.date = None + self.rate = D(hash_.get("rate", 0)) + self.total = Amount(currency, hash_.get("amount", 0)) # rate * total = total_in_base - self.total_in_base = Amount(base_currency, hash_["total"]) - -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) - Trade.print_all_with_order() - -def make_orders(market, base_currency="BTC"): - Balance.prepare_trades(market, base_currency=base_currency) - for trade in Trade.trades: - print(trade) - for order in trade.orders: - print("\t", order, sep="") - order.run() - -def process_sell_all_sell(market, base_currency="BTC", debug=False): - Balance.prepare_trades_to_sell_all(market, debug=debug) - Trade.prepare_orders(compute_value="average") - print("------------------") - for currency, balance in Balance.known_balances.items(): - print(balance) - print("------------------") - Trade.print_all_with_order() - print("------------------") - Trade.run_orders() - Trade.follow_orders() - -def process_sell_all_buy(market, base_currency="BTC", debug=False): - Balance.prepare_trades(market, debug=debug) - Trade.prepare_orders() - print("------------------") - for currency, balance in Balance.known_balances.items(): - print(balance) - print("------------------") - Trade.print_all_with_order() - print("------------------") - Trade.move_balances(market) - Trade.run_orders() - Trade.follow_orders() - -if __name__ == '__main__': - print_orders(market) + self.total_in_base = Amount(base_currency, hash_.get("total", 0)) + +if __name__ == '__main__': # pragma: no cover + from market import market + h.print_orders(market)