351 lines
11 KiB
Python
351 lines
11 KiB
Python
#!/usr/bin/env python
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import asyncio
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from asyncio import events
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import time
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from enum import Enum
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from os import system, terminal_size
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from time import sleep
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from bfxapi import Client
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from bfxapi.models.order import Order
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from bfxapi.models.position import Position
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from termcolor import colored
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import shutil
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import termplotlib
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import numpy
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from playsound import playsound
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from asciimatics.screen import ManagedScreen, Screen
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import dotenv
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class Ticker():
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def __init__(self, sec) -> None:
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self.seconds: int = sec
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self.start_time = time.time()
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self.current_tick: int = 1
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class EventKind(Enum):
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NEW_MINIMUM = 1,
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NEW_MAXIMUM = 2,
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REACHED_LOSS = 3,
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REACHED_BREAK_EVEN = 4,
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REACHED_MIN_PROFIT = 5,
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REACHED_GOOD_PROFIT = 6,
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REACHED_MAX_LOSS = 7
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class Event():
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def __init__(self, kind: EventKind, tick: int) -> None:
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self.kind: EventKind = kind
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self.tick: int = tick
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def __repr__(self) -> str:
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return f"{self.kind.name} @ Tick {self.tick}"
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class EventHandler:
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def __init__(self):
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self.handlers = {}
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def call(self, event: Event):
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value = event.kind.value
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if value in self.handlers:
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for h in self.handlers[value]:
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h(event)
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def on_event(self, kind: EventKind):
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value = kind.value
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def registerhandler(handler):
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if value in self.handlers:
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self.handlers[value].append(handler)
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else:
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self.handlers[value] = [handler]
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return handler
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return registerhandler
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class PositionStatus():
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def __init__(self, position: Position) -> None:
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self.position: Position = position
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class State(Enum):
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CRITICAL = -1,
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LOSS = 0,
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BREAK_EVEN = 1,
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MINIMUM_PROFIT = 2,
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PROFIT = 3
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def color(self) -> str:
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if self == self.LOSS or self == self.CRITICAL:
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return "red"
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elif self == self.BREAK_EVEN:
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return "yellow"
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else:
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return "green"
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class Printer():
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def __init__(self, screen: Screen):
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self.screen: Screen = screen
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self.current_line: int = 0
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(self.current_width, self.current_height) = shutil.get_terminal_size()
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def get_current_line(self) -> int:
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return self.current_line
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def next(self) -> int:
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# print("Current line: {}".format(self.current_line))
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line = self.current_line
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self.current_line += 1
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return line
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def print_next_line(self, text):
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for line in text.split("\n"):
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self.screen.print_at(line, 0, self.next(), 1)
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self.screen.refresh()
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def reset_current_line(self):
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self.current_line = 0
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def set_screen(self, screen: Screen):
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self.screen = screen
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def has_screen_resized(self):
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return (self.current_width, self.current_height) != shutil.get_terminal_size()
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def to_current_screen_size(self):
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(self.current_width, self.current_height) = shutil.get_terminal_size()
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class Status():
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def __init__(self, tick_duration, symbol):
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self.ticker: Ticker = Ticker(tick_duration)
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self.events: list[Event] = []
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self.symbol = symbol
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self.ticks: dict[int, float] = {}
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self.current_state: State = State.LOSS
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async def wait(self) -> None:
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sleep(self.ticker.seconds)
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self.ticks[self.ticker.current_tick] = await get_current_price(self.symbol)
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self.ticker.current_tick += 1
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def get_current_tick(self) -> int:
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return self.ticker.current_tick
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def last_events(self, n):
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return self.events[-n:]
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def add_event(self, event: Event):
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self.events.append(event)
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async def last_price(self) -> float:
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if self.get_current_tick() not in self.ticks.keys():
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return await get_current_price(self.symbol)
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self.ticks[self.get_current_tick()]
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def set_state(self, state: State):
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if self.current_state != state:
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event: EventKind = None
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if state == State.CRITICAL:
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event = Event(EventKind.REACHED_MAX_LOSS,
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self.get_current_tick())
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elif state == State.LOSS:
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event = Event(EventKind.REACHED_LOSS, self.get_current_tick())
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elif state == State.BREAK_EVEN:
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event = Event(EventKind.REACHED_BREAK_EVEN,
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self.get_current_tick())
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elif state == State.MINIMUM_PROFIT:
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event = Event(EventKind.REACHED_MIN_PROFIT,
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self.get_current_tick())
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elif state == State.PROFIT:
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event = Event(EventKind.REACHED_GOOD_PROFIT,
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self.get_current_tick())
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self.events.append(event)
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eh.call(event)
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self.current_state = state
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def get_current_state(self) -> State:
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return self.current_state
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dotenv.load()
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API_KEY = dotenv.get('API_KEY', default='')
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API_SECRET = dotenv.get('API_SECRET', default='')
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bfx = Client(
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API_KEY=API_KEY,
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API_SECRET=API_SECRET
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).rest
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eh = EventHandler()
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TAKER_FEE = 0.2
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MAKER_FEE = 0.1
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BREAK_EVEN_PERC = TAKER_FEE
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MIN_PROFIT_PERC = 0.65
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GOOD_PROFIT_PERC = MIN_PROFIT_PERC * 2.1
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MAX_LOSS_PERC = -4.0
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TRAILING_GOOD_PROFIT_PERC = 0.2
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@eh.on_event(EventKind.REACHED_GOOD_PROFIT)
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def kaching(event):
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playsound("sounds/coin.mp3")
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@eh.on_event(EventKind.REACHED_MIN_PROFIT)
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def kaching(event):
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playsound("sounds/letsgo.mp3")
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def net_pl_percentage(perc: float, reference_fee_perc: float):
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return perc - reference_fee_perc
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async def main(screen: Screen):
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min_perc = 999.0
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max_perc = -999.0
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symbol = "tBTCUSD"
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printer = Printer(screen)
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status = Status(20, symbol)
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while True:
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positions = [p for p in await bfx.get_active_position() if p.symbol == status.symbol]
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orders = await bfx.get_active_orders(symbol)
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last_price = await status.last_price()
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screen.clear()
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printer.print_next_line("Current {} price: {} | Current tick ({} sec): {}".format(symbol,
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colored_float(
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last_price, "white", attrs=["bold"]),
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status.ticker.seconds,
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status.get_current_tick(),
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))
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if positions:
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printer.print_next_line("")
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printer.print_next_line("Open {}:".format(
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colored("POSITIONS", attrs=["underline"])))
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for p in [p for p in positions if p.symbol == status.symbol]:
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plfees_percentage = net_pl_percentage(
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p.profit_loss_percentage, TAKER_FEE)
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if plfees_percentage > GOOD_PROFIT_PERC:
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status.set_state(State.PROFIT)
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elif plfees_percentage >= MIN_PROFIT_PERC and plfees_percentage < GOOD_PROFIT_PERC:
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status.set_state(State.MINIMUM_PROFIT)
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elif plfees_percentage >= 0.0 and plfees_percentage < MIN_PROFIT_PERC:
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status.set_state(State.BREAK_EVEN)
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elif plfees_percentage < 0.0 and plfees_percentage > MAX_LOSS_PERC:
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status.set_state(State.LOSS)
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else:
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status.set_state(State.CRITICAL)
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status_color = status.get_current_state().color()
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#
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# min / max calculations
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#
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if plfees_percentage > max_perc:
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max_perc = plfees_percentage
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status.add_event(Event(EventKind.NEW_MAXIMUM,
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status.get_current_tick()))
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if plfees_percentage < min_perc:
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min_perc = plfees_percentage
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status.add_event(Event(EventKind.NEW_MINIMUM,
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status.get_current_tick()))
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min_perc_colored = colored_percentage(
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min_perc, "red") if min_perc < 0.0 else colored_percentage(min_perc, "green")
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max_perc_colored = colored_percentage(
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max_perc, "red") if max_perc < 0.0 else colored_percentage(max_perc, "green")
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#
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# current status calculations
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#
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current_colored_format = "{} ({})".format(colored_percentage(plfees_percentage, status_color),
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colored_float(p.profit_loss, status_color))
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#
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# Status bar
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#
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printer.print_next_line("{:1.5f} {} @ {} | {} | min: {}, MAX: {}".format(
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p.amount,
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p.symbol,
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colored_float(p.base_price, "white", attrs=["underline"]),
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current_colored_format,
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min_perc_colored,
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max_perc_colored))
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# Separator
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printer.print_next_line("")
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if orders:
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printer.print_next_line("Open {}:".format(
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colored("ORDERS", attrs=["underline"])))
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print_last_events(status, 10, printer)
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plot(status, printer)
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printer.reset_current_line()
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await status.wait()
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return
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def colored_percentage(perc, color, **kwargs):
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return "{}".format(colored("{:1.2f}%".format(perc), color=color, **kwargs))
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def colored_float(num, color, **kwargs):
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return "{}".format(colored("{:1.2f}".format(num), color=color, **kwargs))
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def print_last_events(status: Status, n: int, printer: Printer):
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printer.print_next_line(colored(f"Last {n} events:", attrs=["bold"]))
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for e in status.last_events(n):
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printer.print_next_line(f"- {e}")
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def plot(status: Status, printer: Printer):
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if status.ticks:
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figure = termplotlib.figure()
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x = range(1, status.get_current_tick() + 1)
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y = [x for x in status.ticks.values()]
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figure.plot(x, y, width=printer.screen.width,
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height=printer.screen.height - printer.get_current_line() - 1)
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printer.print_next_line(figure.get_string())
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async def get_current_price(symbol):
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tickers = await bfx.get_public_ticker(symbol)
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return tickers[6]
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def clear():
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system("clear")
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def screen_main():
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return
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if __name__ == "__main__":
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asyncio.run(Screen.wrapper(main))
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# asyncio.run(main())
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# screen_main()
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