def get_currencies_with_status():
symbol_with_evaluation = {}
for key, symbol_evaluator in get_bot().get_symbol_evaluator_list().items():
symbol_with_evaluation[symbol_evaluator.get_symbol()] = \
{exchange.get_name(): symbol_evaluator.get_final(exchange).get_state()
for exchange in get_bot().get_exchanges_list().values()
if symbol_evaluator.has_exchange(exchange)}
return symbol_with_evaluation
def get_currency_graph_update(exchange_name, symbol, time_frame, cryptocurrency_name):
symbol_evaluator_list = get_bot().get_symbol_evaluator_list()
exchange_list = get_bot().get_exchanges_list()
if time_frame is not None:
if len(symbol_evaluator_list) > 0:
evaluator_thread_managers = symbol_evaluator_list[symbol].get_evaluator_thread_managers(
exchange_list[exchange_name])
if time_frame in evaluator_thread_managers:
evaluator_thread_manager = evaluator_thread_managers[time_frame]
df = evaluator_thread_manager.get_evaluator().get_data()
if df is not None:
symbol_tag, pair_tag = Exchange.split_symbol(symbol)
add_to_symbol_data_history(symbol, df, time_frame)
df = get_symbol_data_history(symbol, time_frame)
# df.loc[:, PriceStrings.STR_PRICE_TIME.value] /= 1000
X = df[PriceStrings.STR_PRICE_TIME.value]
Y = df[PriceStrings.STR_PRICE_CLOSE.value]
# Candlestick
data = go.Ohlc(x=df[PriceStrings.STR_PRICE_TIME.value],
open=df[PriceStrings.STR_PRICE_OPEN.value],
high=df[PriceStrings.STR_PRICE_HIGH.value],
low=df[PriceStrings.STR_PRICE_LOW.value],
close=df[PriceStrings.STR_PRICE_CLOSE.value])
real_trades_prices, real_trades_times, simulated_trades_prices, simulated_trades_times = \
get_trades_by_times_and_prices()
real_trades_points = go.Scatter(
x=real_trades_prices,
y=real_trades_times,
mode='markers',
name='markers'
)
simulated_trades_points = go.Scatter(
x=simulated_trades_times,
y=simulated_trades_prices,
mode='markers',
name='markers'
)
return {'data': [data, real_trades_points, simulated_trades_points],
'layout': go.Layout(
title="{} real time data (per time frame)".format(cryptocurrency_name),
xaxis=dict(range=[min(X), max(X)],
title=TIME_AXIS_TITLE),
yaxis=dict(range=[min(Y) * 0.98, max(Y) * 1.02],
title=pair_tag)
)}
return None
def get_portfolios():
simulated_portfolios = []
real_portfolios = []
traders = [trader for trader in get_bot().get_exchange_traders().values()] + \
[trader for trader in get_bot().get_exchange_trader_simulators().values()]
for trader in traders:
if trader.get_simulate():
simulated_portfolios.append(trader.get_portfolio().get_portfolio())
else:
real_portfolios.append(trader.get_portfolio().get_portfolio())
return real_portfolios, simulated_portfolios
def get_global_profitability():
simulated_global_profitability = 0
real_global_profitability = 0
traders = [trader for trader in get_bot().get_exchange_traders().values()] + \
[trader for trader in get_bot().get_exchange_trader_simulators().values()]
for trader in traders:
trade_manager = trader.get_trades_manager()
# TODO : use other return values
current_value, _, _ = trade_manager.get_profitability()
if trader.get_simulate():
simulated_global_profitability += current_value
else:
real_global_profitability += current_value
return real_global_profitability, simulated_global_profitability
def get_evaluator_graph_in_matrix_history(symbol,
exchange_name,
evaluator_type,
evaluator_name,
time_frame,
cryptocurrency_name):
symbol_evaluator_list = get_bot().get_symbol_evaluator_list()
exchange_list = get_bot().get_exchanges_list()
if evaluator_name is not None and len(symbol_evaluator_list) > 0:
matrix = symbol_evaluator_list[symbol].get_matrix(exchange_list[exchange_name])
add_to_matrix_history(matrix)
formatted_matrix_history = {
"timestamps": [],
"evaluator_data": []
}
for matrix in get_matrix_history():
if evaluator_type == EvaluatorMatrixTypes.TA:
eval_note = EvaluatorMatrix.get_eval_note(matrix["matrix"], evaluator_type, evaluator_name, time_frame)
else:
eval_note = EvaluatorMatrix.get_eval_note(matrix["matrix"], evaluator_type, evaluator_name)
if eval_note is not None:
formatted_matrix_history["evaluator_data"].append(eval_note)
formatted_matrix_history["timestamps"].append(matrix["timestamp"])
data = plotly.graph_objs.Scatter(
x=formatted_matrix_history["timestamps"],
y=formatted_matrix_history["evaluator_data"],
name='Scatter',
mode='lines+markers'
)
return {'data': [data],
'layout': go.Layout(
title="{} strategy".format(cryptocurrency_name),
xaxis=dict(range=[get_bot().get_start_time(), time.time()],
title=TIME_AXIS_TITLE),
yaxis=dict(range=[-1.1, 1.1],
title="Buy or sell")
)}
return None
def get_trades_by_times_and_prices():
simulated_trades_times = []
simulated_trades_prices = []
real_trades_times = []
real_trades_prices = []
traders = [trader for trader in get_bot().get_exchange_traders().values()] + \
[trader for trader in get_bot().get_exchange_trader_simulators().values()]
for trader in traders:
for trade in trader.get_trades_manager().get_trade_history():
if trader.get_simulate():
simulated_trades_times.append(trade.get_filled_time())
simulated_trades_prices.append(trade.get_price())
else:
real_trades_times.append(trade.get_filled_time())
real_trades_prices.append(trade.get_price())
return real_trades_prices, real_trades_times, simulated_trades_prices, simulated_trades_times
def get_portfolio_current_value():
simulated_value = 0
real_value = 0
traders = [trader for trader in get_bot().get_exchange_traders().values()] + \
[trader for trader in get_bot().get_exchange_trader_simulators().values()]
for trader in traders:
trade_manager = trader.get_trades_manager()
current_value = trade_manager.get_portfolio_current_value()
# current_value might be 0 if no trades have been made / canceled => use origin value
if current_value == 0:
current_value = trade_manager.get_portfolio_origin_value()
if trader.get_simulate():
simulated_value += current_value
else:
real_value += current_value
return real_value, simulated_value
def get_portfolio_value_in_history():
at_least_one_simulated = False
at_least_one_real = False
min_value = 0
max_value = 1
reference_market = get_reference_market()
portfolio_value_in_history = get_portfolio_value_history()
if max(portfolio_value_in_history["real_value"]) > 0:
at_least_one_real = True
if max(portfolio_value_in_history["simulated_value"]) > 0:
at_least_one_simulated = True
real_data = plotly.graph_objs.Scatter(
x=portfolio_value_in_history["timestamp"],
y=portfolio_value_in_history["real_value"],
name='Real Portfolio in {}'.format(reference_market),
mode='lines'
)
simulated_data = plotly.graph_objs.Scatter(
x=portfolio_value_in_history["timestamp"],
y=portfolio_value_in_history["simulated_value"],
name='Simulated Portfolio in {}'.format(reference_market),
mode='lines'
)
# Title
real_simulated_string = "real" if at_least_one_real or not at_least_one_simulated else ""
real_simulated_string += " and " if at_least_one_simulated and at_least_one_real else ""
real_simulated_string += "simulated" if at_least_one_simulated else ""
# merge two portfolio types
merged_data = []
if at_least_one_simulated:
merged_data.append(simulated_data)
min_value = min(portfolio_value_in_history["simulated_value"])
max_value = max(portfolio_value_in_history["simulated_value"])
if at_least_one_real or not at_least_one_simulated:
merged_data.append(real_data)
min_value = min(min_value, min(portfolio_value_in_history["real_value"]))
max_value = max(max_value, max(portfolio_value_in_history["real_value"]))
return {'data': merged_data,
'layout': go.Layout(
title='Portfolio value ({})'.format(real_simulated_string),
xaxis=dict(range=[get_bot().get_start_time(), time.time()],
title=TIME_AXIS_TITLE),
yaxis=dict(range=[max(0, min_value * 0.99), max(0.1, max_value * 1.01)],
title=reference_market)
)}
def get_portfolio_currencies_update():
currencies = []
bot = get_bot()
traders = [trader for trader in bot.get_exchange_traders().values()] + \
[trader for trader in bot.get_exchange_trader_simulators().values()]
for trader in traders:
currencies += [
{
"Cryptocurrency": [currency],
"Total (available)": ["{} ({})".format(amounts[Portfolio.TOTAL],
amounts[Portfolio.AVAILABLE])],
"Exchange": [trader.exchange.get_name()],
"Real / Simulator": ["Simulator" if trader.get_simulate() else "Real"]
}
for currency, amounts in trader.get_portfolio().get_portfolio().items()]
return currencies
def get_traders(bot=None):
if bot is None:
bot = get_bot()
return [trader for trader in bot.get_exchange_traders().values()] + \
[trader for trader in bot.get_exchange_trader_simulators().values()]
def get_global_config():
return get_bot().get_config()
def get_risk():
return next(iter(get_bot().get_exchange_traders().values())).get_risk()
def get_edited_config():
return get_bot().get_edited_config()
def get_backtesting_report():
tools = get_bot().get_tools()
if tools[BOT_TOOLS_BACKTESTING]:
backtester = tools[BOT_TOOLS_BACKTESTING]
return get_bot().run_in_main_asyncio_loop(backtester.get_report())
return {}
def get_trading_mode():
return get_bot().get_trading_mode().get_name()
def _get_config():
return get_bot().edited_config
def is_trading_persistence_activated():
return get_bot(
).exchange_factory.previous_trading_state_manager is not None
def _signal_handler(_, __):
# run Commands.BOT.stop_threads in thread because can't use the current asyncio loop
stopping_thread = Thread(target=get_bot().stop_threads)
stopping_thread.start()
stopping_thread.join()
os._exit(0)
def get_trading_startup_config():
return get_bot().startup_config[CONFIG_TRADING_TENTACLES]
def reset_trading_history():
previous_state_manager = get_bot(
).exchange_factory.previous_trading_state_manager
if previous_state_manager:
previous_state_manager.reset_trading_history()
def get_evaluator_startup_config():
return get_bot().startup_config[CONFIG_EVALUATOR]
def get_currency_price_graph_update(exchange_name,
symbol,
time_frame,
list_arrays=True,
backtesting=False):
bot = get_bot()
if backtesting and bot.get_tools() and bot.get_tools(
)[BOT_TOOLS_BACKTESTING]:
bot = bot.get_tools()[BOT_TOOLS_BACKTESTING].get_bot()
symbol = parse_get_symbol(symbol)
symbol_evaluator_list = bot.get_symbol_evaluator_list()
in_backtesting = Backtesting.enabled(get_global_config()) or backtesting
exchange = exchange_name
exchange_list = bot.get_exchanges_list()
if backtesting:
exchanges = [key for key in exchange_list if exchange_name in key]
if exchanges:
exchange = exchanges[0]
if time_frame is not None:
if symbol_evaluator_list:
evaluator_thread_managers = symbol_evaluator_list[
symbol].get_evaluator_thread_managers(exchange_list[exchange])
if time_frame in evaluator_thread_managers:
evaluator_thread_manager = evaluator_thread_managers[
time_frame]
data = evaluator_thread_manager.get_evaluator().get_data()
if data is not None:
candles_key = "candles"
real_trades_key = "real_trades"
simulated_trades_key = "simulated_trades"
result_dict = {
candles_key: [],
real_trades_key: [],
simulated_trades_key: [],
}
_, pair_tag = split_symbol(symbol)
add_to_symbol_data_history(symbol, data, time_frame,
in_backtesting)
data = get_symbol_data_history(symbol, time_frame)
data_x = convert_timestamps_to_datetime(
data[PriceIndexes.IND_PRICE_TIME.value],
time_format="%y-%m-%d %H:%M:%S",
force_timezone=False)
real_trades_history, simulated_trades_history = get_trades_history(
bot, symbol)
if real_trades_history:
result_dict[real_trades_key] = _format_trades(
real_trades_history)
if real_trades_history:
result_dict[simulated_trades_key] = _format_trades(
simulated_trades_history)
if list_arrays:
result_dict[candles_key] = {
PriceStrings.STR_PRICE_TIME.value:
data_x,
PriceStrings.STR_PRICE_CLOSE.value:
data[PriceIndexes.IND_PRICE_CLOSE.value].tolist(),
PriceStrings.STR_PRICE_LOW.value:
data[PriceIndexes.IND_PRICE_LOW.value].tolist(),
PriceStrings.STR_PRICE_OPEN.value:
data[PriceIndexes.IND_PRICE_OPEN.value].tolist(),
PriceStrings.STR_PRICE_HIGH.value:
data[PriceIndexes.IND_PRICE_HIGH.value].tolist()
}
else:
result_dict[candles_key] = {
PriceStrings.STR_PRICE_TIME.value:
data_x,
PriceStrings.STR_PRICE_CLOSE.value:
data[PriceIndexes.IND_PRICE_CLOSE.value],
PriceStrings.STR_PRICE_LOW.value:
data[PriceIndexes.IND_PRICE_LOW.value],
PriceStrings.STR_PRICE_OPEN.value:
data[PriceIndexes.IND_PRICE_OPEN.value],
PriceStrings.STR_PRICE_HIGH.value:
data[PriceIndexes.IND_PRICE_HIGH.value]
}
return result_dict
return None
def get_global_startup_config():
return get_bot().get_startup_config()
def run(self):
# wait bot is ready
while get_bot() is None or not get_bot().is_ready():
sleep(0.1)
# Define the WSGI application object
self.app = app_instance
self.app.layout = html.Div(children=[
html.H1('CryptoBot Dashboard'),
dcc.Graph(id='portfolio-value-graph', animate=True),
dt.DataTable(rows=[{}],
row_selectable=False,
filterable=True,
sortable=True,
editable=False,
selected_row_indices=[],
id='datatable-portfolio'),
dcc.Interval(id='portfolio-update', interval=3 * 1000),
html.Div(
[
html.Label('Exchange'),
dcc.Dropdown(
id='exchange-name',
options=[{
'label': s,
'value': s
} for s in get_bot().get_exchanges_list().keys()],
value=next(iter(
get_bot().get_exchanges_list().keys())),
multi=False,
),
html.Label('Currency'),
dcc.Dropdown(
id='cryptocurrency-name',
options=[{
'label': s,
'value': s
} for s in
self.config[CONFIG_CRYPTO_CURRENCIES].keys()],
value=next(
iter(
self.config[CONFIG_CRYPTO_CURRENCIES].keys())),
multi=False,
),
html.Label('Symbol'),
dcc.Dropdown(
id='symbol',
options=[],
value="BTC/USDT",
multi=False,
),
html.Label('TimeFrame'),
dcc.Dropdown(
id='time-frame',
options=[],
value=None,
multi=False,
),
html.Label('Evaluator'),
dcc.Dropdown(
id='evaluator-name',
options=[],
value="",
multi=False,
),
],
style={
'columnCount': 1,
'marginLeft': 25,
'marginRight': 25,
'marginTop': 25,
'marginBottom': 25
}),
dcc.Graph(id='live-graph', animate=True),
dcc.Interval(id='graph-update', interval=3 * 1000),
dcc.Graph(id='strategy-live-graph', animate=True),
dcc.Interval(id='strategy-graph-update', interval=3 * 1000),
])
load_callbacks()
load_routes()
self.app.run_server(host='0.0.0.0',
port=5000,
debug=False,
threaded=True)
def set_command_stop():
get_bot().stop()
return os._exit(0)
def close_callback():
Commands.stop_bot(get_bot())
def can_get_community_metrics():
return can_read_metrics(get_bot().edited_config)
def get_optimizer_report():
if get_optimizer_status()[0] == "finished":
optimizer = get_bot().get_tools()[BOT_TOOLS_STRATEGY_OPTIMIZER]
return optimizer.get_report()
else:
return []
def get_currency_graph_update(exchange_name, symbol, time_frame,
cryptocurrency_name):
symbol_evaluator_list = get_bot().get_symbol_evaluator_list()
exchange_list = get_bot().get_exchanges_list()
if time_frame is not None:
if len(symbol_evaluator_list) > 0:
evaluator_thread_managers = symbol_evaluator_list[
symbol].get_evaluator_thread_managers(
exchange_list[exchange_name])
if time_frame in evaluator_thread_managers:
evaluator_thread_manager = evaluator_thread_managers[
time_frame]
df = evaluator_thread_manager.get_evaluator().get_data()
if df is not None:
symbol_tag, pair_tag = Exchange.split_symbol(symbol)
add_to_symbol_data_history(symbol, df, time_frame)
df = get_symbol_data_history(symbol, time_frame)
# df.loc[:, PriceStrings.STR_PRICE_TIME.value] /= 1000
X = df[PriceStrings.STR_PRICE_TIME.value]
Y = df[PriceStrings.STR_PRICE_CLOSE.value]
# Candlestick
data = go.Ohlc(
x=df[PriceStrings.STR_PRICE_TIME.value],
open=df[PriceStrings.STR_PRICE_OPEN.value],
high=df[PriceStrings.STR_PRICE_HIGH.value],
low=df[PriceStrings.STR_PRICE_LOW.value],
close=df[PriceStrings.STR_PRICE_CLOSE.value])
real_trades_prices, real_trades_times, simulated_trades_prices, simulated_trades_times = \
get_trades_by_times_and_prices()
real_trades_points = go.Scatter(x=real_trades_prices,
y=real_trades_times,
mode='markers',
name='markers')
simulated_trades_points = go.Scatter(
x=simulated_trades_times,
y=simulated_trades_prices,
mode='markers',
name='markers')
return {
'data':
[data, real_trades_points, simulated_trades_points],
'layout':
go.Layout(
title="{} real time data (per time frame)".format(
cryptocurrency_name),
xaxis=dict(range=[min(X), max(X)],
title=TIME_AXIS_TITLE),
yaxis=dict(range=[min(Y) * 0.98,
max(Y) * 1.02],
title=pair_tag))
}
return None
def get_in_backtesting_mode():
return Backtesting.enabled(get_bot().get_config())
def get_risk():
return next(iter(get_bot().get_exchange_traders().values())).get_risk()
def command_ping(_, update):
update.message.reply_text("I'm alive since {0}.".format(
datetime.datetime.fromtimestamp(
get_bot().get_start_time()).strftime('%Y-%m-%d %H:%M:%S')))
def command_ping(_, update):
update.message.reply_text("I'm alive since {0}.".format(
datetime.datetime.fromtimestamp(get_bot().get_start_time()).strftime('%Y-%m-%d %H:%M:%S')))
def command_stop(_, update):
# TODO add confirmation
update.message.reply_text("I'm leaving this world...")
get_bot().stop_threads()
os._exit(0)
def get_exchange_time_frames(exchange_name):
for exchange in get_bot().get_exchanges_list().values():
if not exchange_name or exchange.get_name() == exchange_name:
return exchange.get_exchange_manager().get_config_time_frame(
), exchange.get_name()
return [], ""
def get_trading_mode():
return get_bot().get_config()[CONFIG_TRADING][CONFIG_TRADER_MODE]
def command_stop(_, update):
# TODO add confirmation
update.message.reply_text("I'm leaving this world...")
Commands.stop_bot(get_bot())
def set_risk(risk):
traders = [trader for trader in get_bot().get_exchange_traders().values()] + \
[trader for trader in get_bot().get_exchange_trader_simulators().values()]
for trader in traders:
trader.set_risk(risk)
def sell_all(currency):
orders = []
for trader in get_traders():
orders += get_bot().run_in_main_asyncio_loop(trader.sell_all(currency))
return orders
def command_ping(_, update):
update.message.reply_text("I'm alive since {0}.".format(
convert_timestamp_to_datetime(get_bot().get_start_time(),
'%Y-%m-%d %H:%M:%S')))
def command_stop(_, update):
# TODO add confirmation
update.message.reply_text("I'm leaving this world...")
Commands.stop_bot(get_bot())
def cancel_all_open_orders(currency=None):
for trader in get_traders():
if currency is None:
get_bot().run_in_main_asyncio_loop(trader.cancel_all_open_orders())
else:
get_bot().run_in_main_asyncio_loop(trader.cancel_all_open_orders_with_currency(currency))
def run(self):
# wait bot is ready
while get_bot() is None or not get_bot().is_ready():
sleep(0.1)
# Define the WSGI application object
self.app = app_instance
self.app.layout = html.Div(children=[
html.H1('CryptoBot Dashboard'),
dcc.Graph(id='portfolio-value-graph', animate=True),
dt.DataTable(
rows=[{}],
row_selectable=False,
filterable=True,
sortable=True,
editable=False,
selected_row_indices=[],
id='datatable-portfolio'
),
dcc.Interval(
id='portfolio-update',
interval=3 * 1000
),
html.Div([
html.Label('Exchange'),
dcc.Dropdown(id='exchange-name',
options=[{'label': s, 'value': s}
for s in get_bot().get_exchanges_list().keys()],
value=next(iter(get_bot().get_exchanges_list().keys())),
multi=False,
),
html.Label('Currency'),
dcc.Dropdown(id='cryptocurrency-name',
options=[{'label': s, 'value': s}
for s in self.config[CONFIG_CRYPTO_CURRENCIES].keys()],
value=next(iter(self.config[CONFIG_CRYPTO_CURRENCIES].keys())),
multi=False,
),
html.Label('Symbol'),
dcc.Dropdown(id='symbol',
options=[],
value="BTC/USDT",
multi=False,
),
html.Label('TimeFrame'),
dcc.Dropdown(id='time-frame',
options=[],
value=None,
multi=False,
),
html.Label('Evaluator'),
dcc.Dropdown(id='evaluator-name',
options=[],
value="",
multi=False,
),
],
style={'columnCount': 1, 'marginLeft': 25, 'marginRight': 25, 'marginTop': 25, 'marginBottom': 25}),
dcc.Graph(id='live-graph', animate=True),
dcc.Interval(
id='graph-update',
interval=3 * 1000
),
dcc.Graph(id='strategy-live-graph', animate=True),
dcc.Interval(
id='strategy-graph-update',
interval=3 * 1000
),
])
load_callbacks()
load_routes()
self.app.run_server(host='0.0.0.0',
port=5000,
debug=False,
threaded=True)
