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from ccxt import ExchangeError, NotSupported, RequestTimeout, InvalidNonce
import ccxt_wrapper as ccxt
import time
import psycopg2
from store import *
from cachetools.func import ttl_cache
from datetime import datetime
from retry import retry
import portfolio
class Market:
debug = False
ccxt = None
report = None
trades = None
balances = None
def __init__(self, ccxt_instance, args, **kwargs):
self.args = args
self.debug = args.debug
self.ccxt = ccxt_instance
self.ccxt._market = self
self.report = ReportStore(self, verbose_print=(not args.quiet))
self.trades = TradeStore(self)
self.balances = BalanceStore(self)
self.processor = Processor(self)
for key in ["user_id", "market_id", "report_path", "pg_config"]:
setattr(self, key, kwargs.get(key, None))
@classmethod
def from_config(cls, config, args, **kwargs):
config["apiKey"] = config.pop("key", None)
ccxt_instance = ccxt.poloniexE(config)
return cls(ccxt_instance, args, **kwargs)
def store_report(self):
self.report.merge(Portfolio.report)
date = datetime.now()
if self.report_path is not None:
self.store_file_report(date)
if self.pg_config is not None:
self.store_database_report(date)
def store_file_report(self, date):
try:
report_file = "{}/{}_{}".format(self.report_path, date.isoformat(), self.user_id)
with open(report_file + ".json", "w") as f:
f.write(self.report.to_json())
with open(report_file + ".log", "w") as f:
f.write("\n".join(map(lambda x: x[1], self.report.print_logs)))
except Exception as e:
print("impossible to store report file: {}; {}".format(e.__class__.__name__, e))
def store_database_report(self, date):
try:
report_query = 'INSERT INTO reports("date", "market_config_id", "debug") VALUES (%s, %s, %s) RETURNING id;'
line_query = 'INSERT INTO report_lines("date", "report_id", "type", "payload") VALUES (%s, %s, %s, %s);'
connection = psycopg2.connect(**self.pg_config)
cursor = connection.cursor()
cursor.execute(report_query, (date, self.market_id, self.debug))
report_id = cursor.fetchone()[0]
for date, type_, payload in self.report.to_json_array():
cursor.execute(line_query, (date, report_id, type_, payload))
connection.commit()
cursor.close()
connection.close()
except Exception as e:
print("impossible to store report to database: {}; {}".format(e.__class__.__name__, e))
def process(self, actions, before=False, after=False):
try:
if len(actions or []) == 0:
if before:
self.processor.process("sell_all", steps="before")
if after:
self.processor.process("sell_all", steps="after")
else:
for action in actions:
if hasattr(self, action):
getattr(self, action)()
else:
self.report.log_error("market_process", message="Unknown action {}".format(action))
except Exception as e:
self.report.log_error("market_process", exception=e)
finally:
self.store_report()
@retry((RequestTimeout, InvalidNonce), tries=5)
def move_balances(self):
needed_in_margin = {}
moving_to_margin = {}
for currency, balance in self.balances.all.items():
needed_in_margin[currency] = balance.margin_in_position - balance.margin_pending_gain
for trade in self.trades.pending:
needed_in_margin.setdefault(trade.base_currency, 0)
if trade.trade_type == "short":
needed_in_margin[trade.base_currency] -= trade.delta
for currency, needed in needed_in_margin.items():
current_balance = self.balances.all[currency].margin_available
moving_to_margin[currency] = (needed - current_balance)
delta = moving_to_margin[currency].value
action = "Moving {} from exchange to margin".format(moving_to_margin[currency])
if self.debug and delta != 0:
self.report.log_debug_action(action)
continue
try:
if delta > 0:
self.ccxt.transfer_balance(currency, delta, "exchange", "margin")
elif delta < 0:
self.ccxt.transfer_balance(currency, -delta, "margin", "exchange")
except (RequestTimeout, InvalidNonce) as e:
self.report.log_error(action, message="Retrying", exception=e)
self.report.log_move_balances(needed_in_margin, moving_to_margin)
self.balances.fetch_balances()
raise e
self.report.log_move_balances(needed_in_margin, moving_to_margin)
self.balances.fetch_balances()
@ttl_cache(ttl=3600)
def fetch_fees(self):
return self.ccxt.fetch_fees()
@ttl_cache(maxsize=20, ttl=5)
def get_tickers(self, refresh=False):
try:
return self.ccxt.fetch_tickers()
except NotSupported:
return None
@ttl_cache(maxsize=20, ttl=5)
def get_ticker(self, c1, c2, 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,
})
return ticker
tickers = self.get_tickers()
if tickers is None:
try:
ticker = augment_ticker(self.ccxt.fetch_ticker("{}/{}".format(c1, c2)))
except ExchangeError:
try:
ticker = invert(augment_ticker(self.ccxt.fetch_ticker("{}/{}".format(c2, c1))))
except ExchangeError:
ticker = None
else:
if "{}/{}".format(c1, c2) in tickers:
ticker = augment_ticker(tickers["{}/{}".format(c1, c2)])
elif "{}/{}".format(c2, c1) in tickers:
ticker = invert(augment_ticker(tickers["{}/{}".format(c2, c1)]))
else:
ticker = None
return ticker
def follow_orders(self, sleep=None):
if sleep is None:
sleep = 7 if self.debug else 30
if self.debug:
self.report.log_debug_action("Set follow_orders tick to {}s".format(sleep))
tick = 0
self.report.log_stage("follow_orders_begin")
while len(self.trades.all_orders(state="open")) > 0:
time.sleep(sleep)
tick += 1
open_orders = self.trades.all_orders(state="open")
self.report.log_stage("follow_orders_tick_{}".format(tick))
self.report.log_orders(open_orders, tick=tick)
for order in open_orders:
if order.get_status() != "open":
self.report.log_order(order, tick, finished=True)
else:
order.trade.update_order(order, tick)
self.report.log_stage("follow_orders_end")
def prepare_trades(self, base_currency="BTC", liquidity="medium",
compute_value="average", repartition=None, only=None):
self.report.log_stage("prepare_trades",
base_currency=base_currency, liquidity=liquidity,
compute_value=compute_value, only=only,
repartition=repartition)
values_in_base = self.balances.in_currency(base_currency,
compute_value=compute_value)
total_base_value = sum(values_in_base.values())
new_repartition = self.balances.dispatch_assets(total_base_value,
liquidity=liquidity, repartition=repartition)
self.trades.compute_trades(values_in_base, new_repartition, only=only)
# Helpers
def print_orders(self, base_currency="BTC"):
self.report.log_stage("print_orders")
self.balances.fetch_balances(tag="print_orders")
self.prepare_trades(base_currency=base_currency, compute_value="average")
self.trades.prepare_orders(compute_value="average")
def print_balances(self, base_currency="BTC"):
self.report.log_stage("print_balances")
self.balances.fetch_balances()
if base_currency is not None:
self.report.print_log("total:")
self.report.print_log(sum(self.balances.in_currency(base_currency).values()))
class Processor:
scenarios = {
"wait_for_cryptoportfolio": [
{
"name": "wait",
"number": 1,
"before": False,
"after": True,
"wait_for_recent": {},
},
],
"print_orders": [
{
"name": "wait",
"number": 1,
"before": False,
"after": True,
"wait_for_recent": {},
},
{
"name": "make_orders",
"number": 2,
"before": False,
"after": True,
"fetch_balances": ["begin"],
"prepare_trades": { "compute_value": "average" },
"prepare_orders": { "compute_value": "average" },
},
],
"sell_needed": [
{
"name": "wait",
"number": 0,
"before": False,
"after": True,
"wait_for_recent": {},
},
{
"name": "sell",
"number": 1,
"before": False,
"after": True,
"fetch_balances": ["begin", "end"],
"prepare_trades": {},
"prepare_orders": { "only": "dispose", "compute_value": "average" },
"run_orders": {},
"follow_orders": {},
"close_trades": {},
},
{
"name": "buy",
"number": 2,
"before": False,
"after": True,
"fetch_balances": ["begin", "end"],
"prepare_trades": { "only": "acquire" },
"prepare_orders": { "only": "acquire", "compute_value": "average" },
"move_balances": {},
"run_orders": {},
"follow_orders": {},
"close_trades": {},
},
],
"sell_all": [
{
"name": "all_sell",
"number": 1,
"before": True,
"after": False,
"fetch_balances": ["begin", "end"],
"prepare_trades": { "repartition": { "base_currency": (1, "long") } },
"prepare_orders": { "compute_value": "average" },
"run_orders": {},
"follow_orders": {},
"close_trades": {},
},
{
"name": "wait",
"number": 2,
"before": False,
"after": True,
"wait_for_recent": {},
},
{
"name": "all_buy",
"number": 3,
"before": False,
"after": True,
"fetch_balances": ["begin", "end"],
"prepare_trades": {},
"prepare_orders": { "compute_value": "average" },
"move_balances": {},
"run_orders": {},
"follow_orders": {},
"close_trades": {},
},
]
}
ordered_actions = [
"wait_for_recent", "prepare_trades", "prepare_orders",
"move_balances", "run_orders", "follow_orders",
"close_trades"]
def __init__(self, market):
self.market = market
def select_steps(self, scenario, step):
if step == "all":
return scenario
elif step == "before" or step == "after":
return list(filter(lambda x: step in x and x[step], scenario))
elif type(step) == int:
return [scenario[step-1]]
elif type(step) == str:
return list(filter(lambda x: x["name"] == step, scenario))
else:
raise TypeError("Unknown step {}".format(step))
def process(self, scenario_name, steps="all", **kwargs):
scenario = self.scenarios[scenario_name]
selected_steps = []
if type(steps) == str or type(steps) == int:
selected_steps += self.select_steps(scenario, steps)
else:
for step in steps:
selected_steps += self.select_steps(scenario, step)
for step in selected_steps:
self.process_step(scenario_name, step, kwargs)
def process_step(self, scenario_name, step, kwargs):
process_name = "process_{}__{}_{}".format(scenario_name, step["number"], step["name"])
self.market.report.log_stage("{}_begin".format(process_name))
if "begin" in step.get("fetch_balances", []):
self.market.balances.fetch_balances(tag="{}_begin".format(process_name))
for action in self.ordered_actions:
if action in step:
self.run_action(action, step[action], kwargs)
if "end" in step.get("fetch_balances", []):
self.market.balances.fetch_balances(tag="{}_end".format(process_name))
self.market.report.log_stage("{}_end".format(process_name))
def method_arguments(self, action):
import inspect
if action == "wait_for_recent":
method = Portfolio.wait_for_recent
elif action == "prepare_trades":
method = self.market.prepare_trades
elif action == "prepare_orders":
method = self.market.trades.prepare_orders
elif action == "move_balances":
method = self.market.move_balances
elif action == "run_orders":
method = self.market.trades.run_orders
elif action == "follow_orders":
method = self.market.follow_orders
elif action == "close_trades":
method = self.market.trades.close_trades
signature = inspect.getfullargspec(method)
defaults = signature.defaults or []
kwargs = signature.args[-len(defaults):]
return [method, kwargs]
def parse_args(self, action, default_args, kwargs):
method, allowed_arguments = self.method_arguments(action)
args = {k: v for k, v in {**default_args, **kwargs}.items() if k in allowed_arguments }
if "repartition" in args and "base_currency" in args["repartition"]:
r = args["repartition"]
r[args.get("base_currency", "BTC")] = r.pop("base_currency")
return method, args
def run_action(self, action, default_args, kwargs):
method, args = self.parse_args(action, default_args, kwargs)
method(**args)
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