Updated interest and ratio calculations to correct functions

2021-07-10 20:44:57 -06:00 · 2021-07-10 20:44:57 -06:00 · f1dc6b54ad
commit f1dc6b54ad
parent 358f0303b9
6 changed files with 208 additions and 212 deletions
--- a/freqtrade/enums/interestmode.py
+++ b/freqtrade/enums/interestmode.py
@ -1,5 +1,6 @@
 from decimal import Decimal
 from enum import Enum
+from math import ceil

 from freqtrade.exceptions import OperationalException

@ -21,8 +22,9 @@ class InterestMode(Enum):
        borrowed, rate, hours = kwargs["borrowed"], kwargs["rate"], kwargs["hours"]

        if self.name == "HOURSPERDAY":
-            return borrowed * rate * max(hours, one)/twenty_four
+            return borrowed * rate * ceil(hours)/twenty_four
        elif self.name == "HOURSPER4":
-            return borrowed * rate * (1 + max(0, (hours-four)/four))
+            # Probably rounded based on https://kraken-fees-calculator.github.io/
+            return borrowed * rate * (1+ceil(hours/four))
        else:
            raise OperationalException("Leverage not available on this exchange with freqtrade")
--- a/freqtrade/persistence/models.py
+++ b/freqtrade/persistence/models.py
@ -609,14 +609,12 @@ class LocalTrade():
    def update_order(self, order: Dict) -> None:
        Order.update_orders(self.orders, order)

-    def _calc_open_trade_value(self, amount: Optional[float] = None) -> float:
+    def _calc_open_trade_value(self) -> float:
        """
        Calculate the open_rate including open_fee.
        :return: Price in of the open trade incl. Fees
        """
-        if amount is None:
-            amount = self.amount
-        open_trade = Decimal(amount) * Decimal(self.open_rate)
+        open_trade = Decimal(self.amount) * Decimal(self.open_rate)
        fees = open_trade * Decimal(self.fee_open)
        if self.is_short:
            return float(open_trade - fees)
@ -653,7 +651,6 @@ class LocalTrade():
        return self.interest_mode(borrowed=borrowed, rate=rate, hours=hours)

    def calc_close_trade_value(self, rate: Optional[float] = None,
-
                               fee: Optional[float] = None,
                               interest_rate: Optional[float] = None) -> float:
        """
@ -721,30 +718,23 @@ class LocalTrade():
            If interest_rate is not set self.interest_rate will be used
        :return: profit ratio as float
        """
-
        close_trade_value = self.calc_close_trade_value(
            rate=(rate or self.close_rate),
            fee=(fee or self.fee_close),
            interest_rate=(interest_rate or self.interest_rate)
        )

-        if self.leverage is None:
-            leverage = 1.0
-        else:
-            leverage = self.leverage
-
-        stake_value = self._calc_open_trade_value(amount=(self.amount/leverage))
-
        short_close_zero = (self.is_short and close_trade_value == 0.0)
        long_close_zero = (not self.is_short and self.open_trade_value == 0.0)
+        leverage = self.leverage or 1.0

        if (short_close_zero or long_close_zero):
            return 0.0
        else:
            if self.is_short:
-                profit_ratio = ((self.open_trade_value - close_trade_value) / stake_value)
+                profit_ratio = (1 - (close_trade_value/self.open_trade_value)) * leverage
            else:
-                profit_ratio = ((close_trade_value - self.open_trade_value) / stake_value)
+                profit_ratio = ((close_trade_value/self.open_trade_value) - 1) * leverage

        return float(f"{profit_ratio:.8f}")

--- a/tests/conftest_trades.py
+++ b/tests/conftest_trades.py
@ -434,22 +434,22 @@ def leverage_trade(fee):
        stake_amount: 15.129 base
        borrowed: 60.516  base
        leverage: 5
-        time-periods: 5 hrs( 5/4 time-period of 4 hours)
-        interest: borrowed * interest_rate * time-periods
-                    = 60.516 * 0.0005 * 5/4 = 0.0378225 base
+        hours: 5
+        interest: borrowed * interest_rate * ceil(1 + hours/4)
+                    = 60.516 * 0.0005 * ceil(1 + 5/4) = 0.090774 base
        open_value: (amount * open_rate) + (amount * open_rate * fee)
            = (615.0 * 0.123) + (615.0 * 0.123 * 0.0025)
            = 75.83411249999999

        close_value: (amount_closed * close_rate) - (amount_closed * close_rate * fee) - interest
-            = (615.0 * 0.128) - (615.0 * 0.128 * 0.0025) - 0.0378225
-            = 78.4853775
+            = (615.0 * 0.128) - (615.0 * 0.128 * 0.0025) - 0.090774
+            = 78.432426
        total_profit = close_value - open_value
-            = 78.4853775 - 75.83411249999999
-            = 2.6512650000000093
-        total_profit_percentage = total_profit / stake_amount
-            = 2.6512650000000093 / 15.129
-            = 0.17524390243902502
+            = 78.432426 - 75.83411249999999
+            = 2.5983135000000175
+        total_profit_percentage = ((close_value/open_value)-1) * leverage
+            = ((78.432426/75.83411249999999)-1) * 5
+            = 0.1713156134055116
    """
    trade = Trade(
        pair='DOGE/BTC',
@ -461,8 +461,8 @@ def leverage_trade(fee):
        fee_close=fee.return_value,
        open_rate=0.123,
        close_rate=0.128,
-        close_profit=0.17524390243902502,
-        close_profit_abs=2.6512650000000093,
+        close_profit=0.1713156134055116,
+        close_profit_abs=2.5983135000000175,
        exchange='kraken',
        is_open=False,
        open_order_id='dry_run_leverage_sell_12345',
--- a/tests/persistence/test_persistence.py
+++ b/tests/persistence/test_persistence.py
@ -238,7 +238,6 @@ def test_calc_open_close_trade_price(limit_buy_order, limit_sell_order, fee):

@pytest.mark.usefixtures("init_persistence")
 def test_trade_close(limit_buy_order, limit_sell_order, fee):
-    # TODO: limit_buy_order and limit_sell_order aren't used, remove them probably
    trade = Trade(
        pair='ETH/BTC',
        stake_amount=0.001,
--- a/tests/persistence/test_persistence_leverage.py
+++ b/tests/persistence/test_persistence_leverage.py
@ -27,11 +27,11 @@ def test_interest_kraken_lev(market_lev_buy_order, fee):
        time-periods: 10 minutes(rounds up to 1 time-period of 4hrs)
                        5 hours = 5/4

-        interest: borrowed * interest_rate * time-periods
-                = 0.0075414886436454 * 0.0005 * 1 = 3.7707443218227e-06 base
-                = 0.0075414886436454 * 0.00025 * 5/4 = 2.3567152011391876e-06 base
-                = 0.0150829772872908 * 0.0005 * 5/4 = 9.42686080455675e-06 base
-                = 0.0150829772872908 * 0.00025 * 1 = 3.7707443218227e-06 base
+        interest: borrowed * interest_rate * ceil(1 + time-periods)
+                = 0.0075414886436454 * 0.0005  * ceil(2)   = 7.5414886436454e-06 base
+                = 0.0075414886436454 * 0.00025 * ceil(9/4) = 5.65611648273405e-06 base
+                = 0.0150829772872908 * 0.0005  * ceil(9/4) = 2.26244659309362e-05 base
+                = 0.0150829772872908 * 0.00025 * ceil(2)   = 7.5414886436454e-06 base
    """

    trade = Trade(
@ -48,19 +48,17 @@ def test_interest_kraken_lev(market_lev_buy_order, fee):
        interest_mode=InterestMode.HOURSPER4
    )

-    # 10 minutes round up to 4 hours evenly on kraken so we can predict the exact value
-    assert float(trade.calculate_interest()) == 3.7707443218227e-06
-    trade.open_date = datetime.utcnow() - timedelta(hours=5, minutes=0)
-    # All trade > 5 hours will vary slightly due to execution time and interest calculated
+    assert float(trade.calculate_interest()) == 7.5414886436454e-06
+    trade.open_date = datetime.utcnow() - timedelta(hours=4, minutes=55)
    assert float(round(trade.calculate_interest(interest_rate=0.00025), 11)
-                 ) == round(2.3567152011391876e-06, 11)
+                 ) == round(5.65611648273405e-06, 11)

    trade = Trade(
        pair='ETH/BTC',
        stake_amount=0.0037707443218227,
        amount=459.95905365,
        open_rate=0.00001099,
-        open_date=datetime.utcnow() - timedelta(hours=5, minutes=0),
+        open_date=datetime.utcnow() - timedelta(hours=4, minutes=55),
        fee_open=fee.return_value,
        fee_close=fee.return_value,
        exchange='kraken',
@ -70,9 +68,10 @@ def test_interest_kraken_lev(market_lev_buy_order, fee):
    )

    assert float(round(trade.calculate_interest(), 11)
-                 ) == round(9.42686080455675e-06, 11)
+                 ) == round(2.26244659309362e-05, 11)
    trade.open_date = datetime.utcnow() - timedelta(hours=0, minutes=10)
-    assert float(trade.calculate_interest(interest_rate=0.00025)) == 3.7707443218227e-06
+    trade.interest_rate = 0.00025
+    assert float(trade.calculate_interest(interest_rate=0.00025)) == 7.5414886436454e-06


@pytest.mark.usefixtures("init_persistence")
@ -116,7 +115,7 @@ def test_interest_binance_lev(market_lev_buy_order, fee):
    )
    # 10 minutes round up to 4 hours evenly on kraken so we can predict the them more accurately
    assert round(float(trade.calculate_interest()), 22) == round(4.166666666344583e-08, 22)
-    trade.open_date = datetime.utcnow() - timedelta(hours=5, minutes=0)
+    trade.open_date = datetime.utcnow() - timedelta(hours=4, minutes=55)
    # All trade > 5 hours will vary slightly due to execution time and interest calculated
    assert float(round(trade.calculate_interest(interest_rate=0.00025), 14)
                 ) == round(1.0416666665861459e-07, 14)
@ -126,7 +125,7 @@ def test_interest_binance_lev(market_lev_buy_order, fee):
        stake_amount=0.0009999999999226999,
        amount=459.95905365,
        open_rate=0.00001099,
-        open_date=datetime.utcnow() - timedelta(hours=5, minutes=0),
+        open_date=datetime.utcnow() - timedelta(hours=4, minutes=55),
        fee_open=fee.return_value,
        fee_close=fee.return_value,
        exchange='binance',
@ -178,7 +177,7 @@ def test_calc_open_trade_value_lev(market_lev_buy_order, fee):
        borrowed: 0.0075414886436454 base
        time-periods: 10 minutes(rounds up to 1 time-period of 4hrs)
        interest: borrowed * interest_rate * time-periods
-            = 0.0075414886436454 * 0.0005 * 1 = 3.7707443218227e-06 crypto
+            = 0.0075414886436454 * 0.0005 * 1 = 7.5414886436454e-06 crypto
        open_value: (amount * open_rate) + (amount * open_rate * fee)
            = (275.97543219 * 0.00004099) + (275.97543219 * 0.00004099 * 0.0025)
            = 0.01134051354788177
@ -243,7 +242,7 @@ def test_calc_open_close_trade_price_lev(limit_lev_buy_order, limit_lev_sell_ord
        stake_amount=0.0009999999999226999,
        open_rate=0.01,
        amount=5,
-        open_date=datetime.utcnow() - timedelta(hours=5, minutes=0),
+        open_date=datetime.utcnow() - timedelta(hours=4, minutes=55),
        fee_open=fee.return_value,
        fee_close=fee.return_value,
        exchange='binance',
@ -275,23 +274,20 @@ def test_trade_close_lev(fee):
        stake_amount: 0.5
        borrowed: 1 base
        time-periods: 5/4 periods of 4hrs
-        interest: borrowed * interest_rate * time-periods
-                    = 1 * 0.0005 * 5/4 = 0.000625 crypto
+        interest: borrowed * interest_rate * ceil(1 + time-periods)
+                    = 1 * 0.0005 * ceil(9/4) = 0.0015 crypto
        open_value: (amount * open_rate) + (amount * open_rate * fee)
            = (15 * 0.1) + (15 * 0.1 * 0.0025)
            = 1.50375
        close_value: (amount * close_rate) + (amount * close_rate * fee) - interest
-            = (15 * 0.2) - (15 * 0.2 * 0.0025) - 0.000625
-            = 2.9918750000000003
-        stake_value: (amount/lev * open_rate) + (amount/lev * open_rate * fee)
-            = ((15/3) * 0.1) + ((15/3) * 0.1 * 0.0025)
-            = 0.50125
+            = (15 * 0.2) - (15 * 0.2 * 0.0025) - 0.0015
+            = 2.991
        total_profit = close_value - open_value
-            = 2.9918750000000003 - 1.50375
-            = 1.4881250000000001
-        total_profit_ratio = total_profit / stake_value
-            = 1.4881250000000001 / 0.50125
-            = 2.968827930174564
+            = 2.991 - 1.50375
+            = 1.4872500000000002
+        total_profit_ratio = ((close_value/open_value) - 1) * leverage
+            = ((2.991/1.50375) - 1) * 3
+            = 2.96708229426434
    """
    trade = Trade(
        pair='ETH/BTC',
@ -301,7 +297,7 @@ def test_trade_close_lev(fee):
        is_open=True,
        fee_open=fee.return_value,
        fee_close=fee.return_value,
-        open_date=datetime.utcnow() - timedelta(hours=5, minutes=0),
+        open_date=datetime.utcnow() - timedelta(hours=4, minutes=55),
        exchange='kraken',
        leverage=3.0,
        interest_rate=0.0005,
@ -312,7 +308,7 @@ def test_trade_close_lev(fee):
    assert trade.is_open is True
    trade.close(0.2)
    assert trade.is_open is False
-    assert trade.close_profit == round(2.968827930174564, 8)
+    assert trade.close_profit == round(2.96708229426434, 8)
    assert trade.close_date is not None

    # TODO-mg: Remove these comments probably
@ -337,19 +333,19 @@ def test_calc_close_trade_price_lev(market_lev_buy_order, market_lev_sell_order,
        amount: 91.99181073 * leverage(3) = 275.97543219 crypto
        stake_amount: 0.0037707443218227
        borrowed: 0.0075414886436454 base
-        time-periods: 10 minutes(rounds up to 1 time-period of 4hrs)
+        time-periods: 10 minutes = 2
        interest: borrowed * interest_rate * time-periods
-            = 0.0075414886436454 * 0.0005 * 1 = 3.7707443218227e-06 crypto
+            = 0.0075414886436454 * 0.0005 * 2 = 7.5414886436454e-06 crypto
        open_value: (amount * open_rate) + (amount * open_rate * fee)
            = (275.97543219 * 0.00004099) + (275.97543219 * 0.00004099 * 0.0025)
            = 0.01134051354788177
        close_value: (amount_closed * close_rate) - (amount_closed * close_rate * fee) - interest
-        = (275.97543219 * 0.00001234) - (275.97543219 * 0.00001234 * 0.0025) - 3.7707443218227e-06
-            = 0.003393252246819716
-        = (275.97543219 * 0.00001234) - (275.97543219 * 0.00001234 * 0.003) - 3.7707443218227e-06
-            = 0.003391549478403104
-        = (275.97543219 * 0.00004173) - (275.97543219 * 0.00004173 * 0.005) - 3.7707443218227e-06
-            = 0.011455101767040435
+        = (275.97543219 * 0.00001234) - (275.97543219 * 0.00001234 * 0.0025) - 7.5414886436454e-06
+            = 0.0033894815024978933
+        = (275.97543219 * 0.00001234) - (275.97543219 * 0.00001234 * 0.003) -  7.5414886436454e-06
+            = 0.003387778734081281
+        = (275.97543219 * 0.00004173) - (275.97543219 * 0.00004173 * 0.005) -  7.5414886436454e-06
+            = 0.011451331022718612
    """
    trade = Trade(
        pair='ETH/BTC',
@ -367,12 +363,12 @@ def test_calc_close_trade_price_lev(market_lev_buy_order, market_lev_sell_order,
    trade.open_order_id = 'close_trade'
    trade.update(market_lev_buy_order)  # Buy @ 0.00001099
    # Get the close rate price with a custom close rate and a regular fee rate
-    assert isclose(trade.calc_close_trade_value(rate=0.00001234), 0.003393252246819716)
+    assert isclose(trade.calc_close_trade_value(rate=0.00001234), 0.0033894815024978933)
    # Get the close rate price with a custom close rate and a custom fee rate
-    assert isclose(trade.calc_close_trade_value(rate=0.00001234, fee=0.003), 0.003391549478403104)
+    assert isclose(trade.calc_close_trade_value(rate=0.00001234, fee=0.003), 0.003387778734081281)
    # Test when we apply a Sell order, and ask price with a custom fee rate
    trade.update(market_lev_sell_order)
-    assert isclose(trade.calc_close_trade_value(fee=0.005), 0.011455101767040435)
+    assert isclose(trade.calc_close_trade_value(fee=0.005), 0.011451331022718612)


@pytest.mark.usefixtures("init_persistence")
@ -394,6 +390,9 @@ def test_update_limit_order_lev(limit_lev_buy_order, limit_lev_sell_order, fee,
        open_value: (amount * open_rate) + (amount * open_rate * fee)
            = (272.97543219 * 0.00001099) + (272.97543219 * 0.00001099 * 0.0025)
            = 0.0030074999997675204
+        stake_value = (amount/lev * open_rate) + (amount/lev * open_rate * fee)
+            = (272.97543219 * 0.00001099) + (272.97543219 * 0.00001099 * 0.0025)
+            = 0.0010024999999225066
        close_value: (amount_closed * close_rate) - (amount_closed * close_rate * fee)
            = (272.97543219 * 0.00001173) - (272.97543219 * 0.00001173 * 0.0025)
            = 0.003193996815039728
@ -460,24 +459,23 @@ def test_update_market_order_lev(market_lev_buy_order, market_lev_sell_order, fe
        amount: = 275.97543219 crypto
        stake_amount: 0.0037707443218227
        borrowed: 0.0075414886436454 base
-        time-periods: 10 minutes(rounds up to 1 time-period of 4hrs)
-        interest: borrowed * interest_rate * time-periods
-                    = 0.0075414886436454 * 0.0005 * 1 = 3.7707443218227e-06 crypto
+        interest: borrowed * interest_rate * 1+ceil(hours)
+                    = 0.0075414886436454 * 0.0005 * (1+ceil(1)) = 7.5414886436454e-06 crypto
        open_value: (amount * open_rate) + (amount * open_rate * fee)
            = (275.97543219 * 0.00004099) + (275.97543219 * 0.00004099 * 0.0025)
            = 0.01134051354788177
-        close_value: (amount_closed * close_rate) - (amount_closed * close_rate * fee)
-            = (275.97543219 * 0.00004173) - (275.97543219 * 0.00004173 * 0.0025)
-            = 0.011487663648325479
+        close_value: (amount_closed * close_rate) - (amount_closed * close_rate * fee) - interest
+        = (275.97543219 * 0.00004173) - (275.97543219 * 0.00004173 * 0.0025) - 7.5414886436454e-06
+            = 0.011480122159681833
        stake_value: (amount/lev * open_rate) + (amount/lev * open_rate * fee)
            = (275.97543219/3 * 0.00004099) + (275.97543219/3 * 0.00004099 * 0.0025)
            = 0.0037801711826272568
-        total_profit = close_value - open_value - interest
-            = 0.011487663648325479 - 0.01134051354788177 - 3.7707443218227e-06
-            = 0.0001433793561218866
-        total_profit_percentage = total_profit / stake_value
-            = 0.0001433793561218866 / 0.0037801711826272568
-            = 0.03792932890997717
+        total_profit = close_value - open_value
+            = 0.011480122159681833 - 0.01134051354788177
+            = 0.00013960861180006392
+        total_profit_percentage = ((close_value/open_value) - 1) * leverage
+            = ((0.011480122159681833 / 0.01134051354788177)-1) * 3
+            = 0.036931822675563275
    """
    trade = Trade(
        id=1,
@ -512,7 +510,7 @@ def test_update_market_order_lev(market_lev_buy_order, market_lev_sell_order, fe
    trade.update(market_lev_sell_order)
    assert trade.open_order_id is None
    assert trade.close_rate == 0.00004173
-    assert trade.close_profit == round(0.03792932890997717, 8)
+    assert trade.close_profit == round(0.036931822675563275, 8)
    assert trade.close_date is not None
    # TODO: The amount should maybe be the opening amount + the interest
    # TODO: Uncomment the next assert and make it work.
@ -552,39 +550,38 @@ def test_calc_profit_lev(market_lev_buy_order, market_lev_sell_order, fee):
        stake_amount: 0.0037707443218227
        amount: 91.99181073 * leverage(3) = 275.97543219 crypto
        borrowed: 0.0075414886436454 base
-        time-periods: 10 minutes(rounds up to 1 time-period of 4hrs)
-                        5 hours = 5/4
+        hours: 1/6, 5 hours

-        interest: borrowed * interest_rate * time-periods
-            = 0.0075414886436454 * 0.0005 * 1    = 3.7707443218227e-06 crypto
-            = 0.0075414886436454 * 0.00025 * 5/4 = 2.3567152011391876e-06 crypto
-            = 0.0075414886436454 * 0.0005 * 5/4  = 4.713430402278375e-06 crypto
-            = 0.0075414886436454 * 0.00025 * 1   = 1.88537216091135e-06 crypto
+        interest: borrowed * interest_rate * ceil(1+hours/4)
+            = 0.0075414886436454 * 0.0005  * ceil(1+((1/6)/4))  = 7.5414886436454e-06 crypto
+            = 0.0075414886436454 * 0.00025 * ceil(1+(5/4))      = 5.65611648273405e-06 crypto
+            = 0.0075414886436454 * 0.0005  * ceil(1+(5/4))      = 1.13122329654681e-05 crypto
+            = 0.0075414886436454 * 0.00025 * ceil(1+((1/6)/4))  = 3.7707443218227e-06 crypto
        open_value: (amount * open_rate) + (amount * open_rate * fee)
            = (275.97543219 * 0.00004099) + (275.97543219 * 0.00004099 * 0.0025)
            = 0.01134051354788177
        close_value: (amount_closed * close_rate) - (amount_closed * close_rate * fee) - interest
-        (275.97543219 * 0.00005374) - (275.97543219 * 0.00005374 * 0.0025) - 3.7707443218227e-06
-        = 0.01479007168225405
-        (275.97543219 * 0.00000437) - (275.97543219 * 0.00000437 * 0.0025) - 2.3567152011391876e-06
-        = 0.001200640891872485
-        (275.97543219 * 0.00005374) - (275.97543219 * 0.00005374 * 0.003) - 4.713430402278375e-06
-        = 0.014781713536310649
-        (275.97543219 * 0.00000437) - (275.97543219 * 0.00000437 * 0.003) - 1.88537216091135e-06
-        = 0.0012005092285933775
+        (275.97543219 * 0.00005374) - (275.97543219 * 0.00005374 * 0.0025) - 7.5414886436454e-06
+        = 0.014786300937932227
+        (275.97543219 * 0.00000437) - (275.97543219 * 0.00000437 * 0.0025) - 5.65611648273405e-06
+        = 0.0011973414905908902
+        (275.97543219 * 0.00005374) - (275.97543219 * 0.00005374 * 0.003) - 1.13122329654681e-05
+        = 0.01477511473374746
+        (275.97543219 * 0.00000437) - (275.97543219 * 0.00000437 * 0.003) - 3.7707443218227e-06
+        = 0.0011986238564324662
        stake_value: (amount/lev * open_rate) + (amount/lev * open_rate * fee)
            = (275.97543219/3 * 0.00004099) + (275.97543219/3 * 0.00004099 * 0.0025)
            = 0.0037801711826272568
        total_profit = close_value - open_value
-            = 0.01479007168225405  - 0.01134051354788177  = 0.003449558134372281
-            = 0.001200640891872485 - 0.01134051354788177  = -0.010139872656009285
-            = 0.014781713536310649  - 0.01134051354788177 = 0.0034411999884288794
-            = 0.0012005092285933775 - 0.01134051354788177 = -0.010140004319288392
-        total_profit_percentage = total_profit / stake_value
-            0.003449558134372281/0.0037801711826272568 = 0.9125401913610705
-            -0.010139872656009285/0.0037801711826272568 = -2.682384518089991
-            0.0034411999884288794/0.0037801711826272568 = 0.9103291417710906
-            -0.010140004319288392/0.0037801711826272568 = -2.6824193480679854
+            = 0.014786300937932227  - 0.01134051354788177  = 0.0034457873900504577
+            = 0.0011973414905908902 - 0.01134051354788177  = -0.01014317205729088
+            = 0.01477511473374746  - 0.01134051354788177   = 0.00343460118586569
+            = 0.0011986238564324662 - 0.01134051354788177  = -0.010141889691449303
+        total_profit_percentage = ((close_value/open_value) - 1) * leverage
+            ((0.014786300937932227/0.01134051354788177) - 1) * 3  = 0.9115426851266561
+            ((0.0011973414905908902/0.01134051354788177) - 1) * 3 = -2.683257336045103
+            ((0.01477511473374746/0.01134051354788177) - 1) * 3   = 0.908583505860866
+            ((0.0011986238564324662/0.01134051354788177) - 1) * 3 = -2.6829181011851926

    """
    trade = Trade(
@ -606,35 +603,35 @@ def test_calc_profit_lev(market_lev_buy_order, market_lev_sell_order, fee):

    # Higher than open rate
    assert trade.calc_profit(rate=0.00005374, interest_rate=0.0005) == round(
-        0.003449558134372281, 8)
+        0.0034457873900504577, 8)
    assert trade.calc_profit_ratio(
-        rate=0.00005374, interest_rate=0.0005) == round(0.9125401913610705, 8)
+        rate=0.00005374, interest_rate=0.0005) == round(0.9115426851266561, 8)

    # Lower than open rate
-    trade.open_date = datetime.utcnow() - timedelta(hours=5, minutes=0)
+    trade.open_date = datetime.utcnow() - timedelta(hours=4, minutes=55)
    assert trade.calc_profit(
-        rate=0.00000437, interest_rate=0.00025) == round(-0.010139872656009285, 8)
+        rate=0.00000437, interest_rate=0.00025) == round(-0.01014317205729088, 8)
    assert trade.calc_profit_ratio(
-        rate=0.00000437, interest_rate=0.00025) == round(-2.682384518089991, 8)
+        rate=0.00000437, interest_rate=0.00025) == round(-2.683257336045103, 8)

    # Custom closing rate and custom fee rate
    # Higher than open rate
    assert trade.calc_profit(rate=0.00005374, fee=0.003,
-                             interest_rate=0.0005) == round(0.0034411999884288794, 8)
+                             interest_rate=0.0005) == round(0.00343460118586569, 8)
    assert trade.calc_profit_ratio(rate=0.00005374, fee=0.003,
-                                   interest_rate=0.0005) == round(0.9103291417710906, 8)
+                                   interest_rate=0.0005) == round(0.908583505860866, 8)

    # Lower than open rate
    trade.open_date = datetime.utcnow() - timedelta(hours=0, minutes=10)
    assert trade.calc_profit(rate=0.00000437, fee=0.003,
-                             interest_rate=0.00025) == round(-0.010140004319288392, 8)
+                             interest_rate=0.00025) == round(-0.010141889691449303, 8)
    assert trade.calc_profit_ratio(rate=0.00000437, fee=0.003,
-                                   interest_rate=0.00025) == round(-2.6824193480679854, 8)
+                                   interest_rate=0.00025) == round(-2.6829181011851926, 8)

    # Test when we apply a Sell order. Sell higher than open rate @ 0.00001173
    trade.update(market_lev_sell_order)
-    assert trade.calc_profit() == round(0.0001433793561218866, 8)
-    assert trade.calc_profit_ratio() == round(0.03792932890997717, 8)
+    assert trade.calc_profit() == round(0.00013960861180006392, 8)
+    assert trade.calc_profit_ratio() == round(0.036931822675563275, 8)

    # Test with a custom fee rate on the close trade
    # assert trade.calc_profit(fee=0.003) == 0.00006163
--- a/tests/persistence/test_persistence_short.py
+++ b/tests/persistence/test_persistence_short.py
@ -26,11 +26,11 @@ def test_interest_kraken_short(market_short_order, fee):
        time-periods: 10 minutes(rounds up to 1 time-period of 4hrs)
                        5 hours = 5/4

-        interest: borrowed * interest_rate * time-periods
-                    = 275.97543219 * 0.0005 * 1    = 0.137987716095 crypto
-                    = 275.97543219 * 0.00025 * 5/4 = 0.086242322559375 crypto
-                    = 459.95905365 * 0.0005 * 5/4  = 0.28747440853125 crypto
-                    = 459.95905365 * 0.00025 * 1   = 0.1149897634125 crypto
+        interest: borrowed * interest_rate * ceil(1 + time-periods)
+                    = 275.97543219 * 0.0005  * ceil(1+1)  = 0.27597543219 crypto
+                    = 275.97543219 * 0.00025 * ceil(9/4)  = 0.20698157414249999 crypto
+                    = 459.95905365 * 0.0005  * ceil(9/4)  = 0.689938580475 crypto
+                    = 459.95905365 * 0.00025 * ceil(1+1)  = 0.229979526825 crypto
    """

    trade = Trade(
@ -48,17 +48,17 @@ def test_interest_kraken_short(market_short_order, fee):
        interest_mode=InterestMode.HOURSPER4
    )

-    assert float(round(trade.calculate_interest(), 8)) == round(0.137987716095, 8)
-    trade.open_date = datetime.utcnow() - timedelta(hours=5, minutes=0)
+    assert float(round(trade.calculate_interest(), 8)) == round(0.27597543219, 8)
+    trade.open_date = datetime.utcnow() - timedelta(hours=4, minutes=55)
    assert float(round(trade.calculate_interest(interest_rate=0.00025), 8)
-                 ) == round(0.086242322559375, 8)
+                 ) == round(0.20698157414249999, 8)

    trade = Trade(
        pair='ETH/BTC',
        stake_amount=0.001,
        amount=459.95905365,
        open_rate=0.00001099,
-        open_date=datetime.utcnow() - timedelta(hours=5, minutes=0),
+        open_date=datetime.utcnow() - timedelta(hours=4, minutes=55),
        fee_open=fee.return_value,
        fee_close=fee.return_value,
        exchange='kraken',
@ -68,10 +68,10 @@ def test_interest_kraken_short(market_short_order, fee):
        interest_mode=InterestMode.HOURSPER4
    )

-    assert float(round(trade.calculate_interest(), 8)) == round(0.28747440853125, 8)
+    assert float(round(trade.calculate_interest(), 8)) == round(0.689938580475, 8)
    trade.open_date = datetime.utcnow() - timedelta(hours=0, minutes=10)
    assert float(round(trade.calculate_interest(interest_rate=0.00025), 8)
-                 ) == round(0.1149897634125, 8)
+                 ) == round(0.229979526825, 8)


@ pytest.mark.usefixtures("init_persistence")
@ -114,7 +114,7 @@ def test_interest_binance_short(market_short_order, fee):
    )

    assert float(round(trade.calculate_interest(), 8)) == 0.00574949
-    trade.open_date = datetime.utcnow() - timedelta(hours=5, minutes=0)
+    trade.open_date = datetime.utcnow() - timedelta(hours=4, minutes=55)
    assert float(round(trade.calculate_interest(interest_rate=0.00025), 8)) == 0.01437372

    trade = Trade(
@ -122,7 +122,7 @@ def test_interest_binance_short(market_short_order, fee):
        stake_amount=0.001,
        amount=459.95905365,
        open_rate=0.00001099,
-        open_date=datetime.utcnow() - timedelta(hours=5, minutes=0),
+        open_date=datetime.utcnow() - timedelta(hours=4, minutes=55),
        fee_open=fee.return_value,
        fee_close=fee.return_value,
        exchange='binance',
@ -218,13 +218,13 @@ def test_calc_close_trade_price_short(market_short_order, market_exit_short_orde
        close_rate: 0.00001234 base
        amount: = 275.97543219 crypto
        borrowed: 275.97543219  crypto
-        time-periods: 10 minutes(rounds up to 1 time-period of 4hrs)
-        interest: borrowed * interest_rate * time-periods
-                    = 275.97543219 * 0.0005 * 1 = 0.137987716095 crypto
-        amount_closed: amount + interest = 275.97543219 + 0.137987716095 = 276.113419906095
+        hours: 10 minutes = 1/6
+        interest: borrowed * interest_rate * ceil(1 + hours/4)
+                    = 275.97543219 * 0.0005 * ceil(1 + ((1/6)/4)) = 0.27597543219 crypto
+        amount_closed: amount + interest = 275.97543219 + 0.27597543219 = 276.25140762219
        close_value: (amount_closed * close_rate) + (amount_closed * close_rate * fee)
-            = (276.113419906095 * 0.00001234) + (276.113419906095 * 0.00001234 * 0.0025)
-            = 0.01134618380465571
+            = (276.25140762219 * 0.00004099) + (276.25140762219 * 0.00004099 * 0.005)
+            = 0.011380162924425737
    """
    trade = Trade(
        pair='ETH/BTC',
@ -243,12 +243,12 @@ def test_calc_close_trade_price_short(market_short_order, market_exit_short_orde
    trade.open_order_id = 'close_trade'
    trade.update(market_short_order)  # Buy @ 0.00001099
    # Get the close rate price with a custom close rate and a regular fee rate
-    assert isclose(trade.calc_close_trade_value(rate=0.00001234), 0.003415757700645315)
+    assert isclose(trade.calc_close_trade_value(rate=0.00001234), 0.0034174647259)
    # Get the close rate price with a custom close rate and a custom fee rate
-    assert isclose(trade.calc_close_trade_value(rate=0.00001234, fee=0.003), 0.0034174613204461354)
+    assert isclose(trade.calc_close_trade_value(rate=0.00001234, fee=0.003), 0.0034191691971679986)
    # Test when we apply a Sell order, and ask price with a custom fee rate
    trade.update(market_exit_short_order)
-    assert isclose(trade.calc_close_trade_value(fee=0.005), 0.011374478527360586)
+    assert isclose(trade.calc_close_trade_value(fee=0.005), 0.011380162924425737)


@ pytest.mark.usefixtures("init_persistence")
@ -273,19 +273,21 @@ def test_calc_open_close_trade_price_short(limit_short_order, limit_exit_short_o
        close_value: (amount_closed * close_rate) + (amount_closed * close_rate * fee)
            = (91.0012890436177 * 0.00001099) + (91.0012890436177 * 0.00001099 * 0.0025)
            = 0.001002604427005832
+        stake_value = (amount/lev * open_rate) - (amount/lev * open_rate * fee)
+            = 0.0010646656050132426
        total_profit = open_value - close_value
            = 0.0010646656050132426 - 0.001002604427005832
            = 0.00006206117800741065
-        total_profit_percentage = (close_value - open_value) / stake_amount
-            = (0.0010646656050132426 - 0.0010025208853391716)/0.0010673339398629
-            = 0.05822425142973869
+        total_profit_percentage = (close_value - open_value) / stake_value
+            = (0.0010646656050132426 - 0.001002604427005832)/0.0010646656050132426
+            = 0.05829170935473088
    """
    trade = Trade(
        pair='ETH/BTC',
        stake_amount=0.0010673339398629,
        open_rate=0.01,
        amount=5,
-        open_date=datetime.utcnow() - timedelta(hours=5, minutes=0),
+        open_date=datetime.utcnow() - timedelta(hours=4, minutes=55),
        fee_open=fee.return_value,
        fee_close=fee.return_value,
        exchange='binance',
@ -302,8 +304,7 @@ def test_calc_open_close_trade_price_short(limit_short_order, limit_exit_short_o
    # Profit in BTC
    assert round(trade.calc_profit(), 8) == round(0.00006206117800741065, 8)
    # Profit in percent
-    # TODO-mg get this working
-    # assert round(trade.calc_profit_ratio(), 11) == round(0.05822425142973869, 11)
+    assert round(trade.calc_profit_ratio(), 8) == round(0.05829170935473088, 8)


@ pytest.mark.usefixtures("init_persistence")
@ -322,20 +323,20 @@ def test_trade_close_short(fee):
        time-periods: 5 hours = 5/4

        interest: borrowed * interest_rate * time-periods
-                    = 15 * 0.0005 * 5/4 = 0.009375 crypto
+                    = 15 * 0.0005 * ceil(1 + 5/4) = 0.0225 crypto
        open_value: (amount * open_rate) - (amount * open_rate * fee)
            = (15 * 0.02) - (15 * 0.02 * 0.0025)
            = 0.29925
-        amount_closed: amount + interest = 15 + 0.009375 = 15.009375
+        amount_closed: amount + interest = 15 + 0.009375 = 15.0225
        close_value: (amount_closed * close_rate) + (amount_closed * close_rate * fee)
-            = (15.009375 * 0.01) + (15.009375 * 0.01 * 0.0025)
-            = 0.150468984375
+            = (15.0225 * 0.01) + (15.0225 * 0.01 * 0.0025)
+            = 0.15060056250000003
        total_profit = open_value - close_value
-            = 0.29925 - 0.150468984375
-            = 0.148781015625
-        total_profit_percentage = total_profit / stake_amount
-            = 0.148781015625 / 0.1
-            = 1.4878101562500001
+            = 0.29925 - 0.15060056250000003
+            = 0.14864943749999998
+        total_profit_percentage = (1-(close_value/open_value)) * leverage
+            = (1 - (0.15060056250000003/0.29925)) * 3
+            = 1.4902199248120298
    """
    trade = Trade(
        pair='ETH/BTC',
@ -345,7 +346,7 @@ def test_trade_close_short(fee):
        is_open=True,
        fee_open=fee.return_value,
        fee_close=fee.return_value,
-        open_date=datetime.utcnow() - timedelta(hours=5, minutes=0),
+        open_date=datetime.utcnow() - timedelta(hours=4, minutes=55),
        exchange='kraken',
        is_short=True,
        leverage=3.0,
@ -357,7 +358,7 @@ def test_trade_close_short(fee):
    assert trade.is_open is True
    trade.close(0.01)
    assert trade.is_open is False
-    assert trade.close_profit == round(1.4878101562500001, 8)
+    assert trade.close_profit == round(1.4902199248120298, 8)
    assert trade.close_date is not None

    # TODO-mg: Remove these comments probably
@ -396,9 +397,9 @@ def test_update_with_binance_short(limit_short_order, limit_exit_short_order, fe
        total_profit = open_value - close_value
            = 0.0010646656050132426 - 0.0010025208853391716
            = 0.00006214471967407108
-        total_profit_percentage = (close_value - open_value) / stake_amount
-            = 0.00006214471967407108 / 0.0010673339398629
-            = 0.05822425142973869
+        total_profit_percentage = (1 - (close_value/open_value)) * leverage
+            = (1 - (0.0010025208853391716/0.0010646656050132426)) * 1
+            = 0.05837017687191848

    """
    trade = Trade(
@ -437,7 +438,7 @@ def test_update_with_binance_short(limit_short_order, limit_exit_short_order, fe
    trade.update(limit_exit_short_order)
    # assert trade.open_order_id is None
    assert trade.close_rate == 0.00001099
-    assert trade.close_profit == 0.05822425
+    assert trade.close_profit == round(0.05837017687191848, 8)
    assert trade.close_date is not None
    assert log_has_re(r"LIMIT_BUY has been fulfilled for Trade\(id=2, "
                      r"pair=ETH/BTC, amount=90.99181073, open_rate=0.00001173, open_since=.*\).",
@ -463,20 +464,21 @@ def test_update_market_order_short(
        borrowed: 275.97543219  crypto
        time-periods: 10 minutes(rounds up to 1 time-period of 4hrs)
        interest: borrowed * interest_rate * time-periods
-                    = 275.97543219 * 0.0005 * 1 = 0.137987716095 crypto
+                    = 275.97543219 * 0.0005 * 2 = 0.27597543219 crypto
        open_value: (amount * open_rate) - (amount * open_rate * fee)
            = 275.97543219 * 0.00004173 - 275.97543219 * 0.00004173 * 0.0025
            = 0.011487663648325479
-        amount_closed: amount + interest = 275.97543219 + 0.137987716095 = 276.113419906095
+        amount_closed: amount + interest = 275.97543219 + 0.27597543219 = 276.25140762219
        close_value: (amount_closed * close_rate) + (amount_closed * close_rate * fee)
-            = (276.113419906095 * 0.00004099) + (276.113419906095 * 0.00004099 * 0.0025)
-            = 0.01134618380465571
+            = (276.25140762219 * 0.00004099) + (276.25140762219 * 0.00004099 * 0.0025)
+            = 0.0034174647259
        total_profit = open_value - close_value
-            = 0.011487663648325479 - 0.01134618380465571
-            = 0.00014147984366976937
+            = 0.011487663648325479 - 0.0034174647259
+            = 0.00013580958689582596
        total_profit_percentage = total_profit / stake_amount
-        = 0.00014147984366976937 / 0.0038388182617629
-        = 0.036855051222142936
+            = (1 - (close_value/open_value)) * leverage
+            = (1 - (0.0034174647259/0.011487663648325479)) * 3
+            = 0.03546663387440563
    """
    trade = Trade(
        id=1,
@ -511,7 +513,7 @@ def test_update_market_order_short(
    trade.update(market_exit_short_order)
    assert trade.open_order_id is None
    assert trade.close_rate == 0.00004099
-    assert trade.close_profit == 0.03685505
+    assert trade.close_profit == round(0.03546663387440563, 8)
    assert trade.close_date is not None
    # TODO-mg: The amount should maybe be the opening amount + the interest
    # TODO-mg: Uncomment the next assert and make it work.
@ -527,7 +529,7 @@ def test_calc_profit_short(market_short_order, market_exit_short_order, fee):
        Market trade on Kraken at 3x leverage
        Short trade
        fee: 0.25% base or 0.3%
-        interest_rate: 0.05%, 0.25% per 4 hrs
+        interest_rate: 0.05%, 0.025% per 4 hrs
        open_rate: 0.00004173 base
        close_rate: 0.00004099 base
        stake_amount: 0.0038388182617629
@ -537,38 +539,42 @@ def test_calc_profit_short(market_short_order, market_exit_short_order, fee):
                        5 hours = 5/4

        interest: borrowed * interest_rate * time-periods
-                    = 275.97543219 * 0.0005 * 1 = 0.137987716095 crypto
-                    = 275.97543219 * 0.00025 * 5/4 = 0.086242322559375 crypto
-                    = 275.97543219 * 0.0005 * 5/4 = 0.17248464511875 crypto
-                    = 275.97543219 * 0.00025 * 1 = 0.0689938580475 crypto
+            = 275.97543219 * 0.0005  * ceil(1+1)   = 0.27597543219 crypto
+            = 275.97543219 * 0.00025 * ceil(1+5/4) = 0.20698157414249999 crypto
+            = 275.97543219 * 0.0005  * ceil(1+5/4) = 0.41396314828499997 crypto
+            = 275.97543219 * 0.00025 * ceil(1+1)   = 0.27597543219  crypto
+            = 275.97543219 * 0.00025 * ceil(1+1)   = 0.27597543219  crypto
        open_value: (amount * open_rate) - (amount * open_rate * fee)
            = (275.97543219 * 0.00004173) - (275.97543219 * 0.00004173 * 0.0025)
            = 0.011487663648325479
        amount_closed: amount + interest
-            = 275.97543219 + 0.137987716095 = 276.113419906095
-            = 275.97543219 + 0.086242322559375 = 276.06167451255936
-            = 275.97543219 + 0.17248464511875 = 276.14791683511874
-            = 275.97543219 + 0.0689938580475 = 276.0444260480475
+            = 275.97543219 + 0.27597543219       = 276.25140762219
+            = 275.97543219 + 0.20698157414249999 = 276.1824137641425
+            = 275.97543219 + 0.41396314828499997 = 276.389395338285
+            = 275.97543219 + 0.27597543219       = 276.25140762219
        close_value: (amount_closed * close_rate) + (amount_closed * close_rate * fee)
-            (276.113419906095 * 0.00004374) + (276.113419906095 * 0.00004374 * 0.0025)
-                = 0.012107393989159325
-            (276.06167451255936 * 0.00000437) + (276.06167451255936 * 0.00000437 * 0.0025)
-                = 0.0012094054914139338
-            (276.14791683511874 * 0.00004374) + (276.14791683511874 * 0.00004374 * 0.003)
-                = 0.012114946012015198
-            (276.0444260480475 * 0.00000437) + (276.0444260480475 * 0.00000437 * 0.003)
-                = 0.0012099330842554573
+            (276.25140762219 * 0.00004374) + (276.25140762219 * 0.00004374 * 0.0025)
+                = 0.012113444660818078
+            (276.1824137641425 * 0.00000437) + (276.1824137641425 * 0.00000437 * 0.0025)
+                = 0.0012099344410196758
+            (276.389395338285 * 0.00004374) + (276.389395338285 * 0.00004374 * 0.003)
+                = 0.012125539968552874
+            (276.25140762219 * 0.00000437) + (276.25140762219 * 0.00000437 * 0.003)
+                = 0.0012102354919246037
+            (276.25140762219 * 0.00004099) + (276.25140762219 * 0.00004099 * 0.0025)
+                = 0.011351854061429653
        total_profit = open_value - close_value
-            = print(0.011487663648325479 - 0.012107393989159325) = -0.0006197303408338461
-            = print(0.011487663648325479 - 0.0012094054914139338) = 0.010278258156911545
-            = print(0.011487663648325479 - 0.012114946012015198) = -0.0006272823636897188
-            = print(0.011487663648325479 - 0.0012099330842554573) = 0.010277730564070022
-        total_profit_percentage = (close_value - open_value) / stake_amount
-            (0.011487663648325479 - 0.012107393989159325)/0.0038388182617629  = -0.16143779115744006
-            (0.011487663648325479 - 0.0012094054914139338)/0.0038388182617629 = 2.677453699564163
-            (0.011487663648325479 - 0.012114946012015198)/0.0038388182617629  = -0.16340506919482353
-            (0.011487663648325479 - 0.0012099330842554573)/0.0038388182617629 = 2.677316263299785
-
+            = 0.011487663648325479 - 0.012113444660818078  = -0.0006257810124925996
+            = 0.011487663648325479 - 0.0012099344410196758 = 0.010277729207305804
+            = 0.011487663648325479 - 0.012125539968552874  = -0.0006378763202273957
+            = 0.011487663648325479 - 0.0012102354919246037 = 0.010277428156400875
+            = 0.011487663648325479 - 0.011351854061429653   = 0.00013580958689582596
+        total_profit_percentage = (1-(close_value/open_value)) * leverage
+            (1-(0.012113444660818078 /0.011487663648325479))*3  = -0.16342252828332549
+            (1-(0.0012099344410196758/0.011487663648325479))*3  = 2.6840259748040123
+            (1-(0.012125539968552874 /0.011487663648325479))*3  = -0.16658121435868578
+            (1-(0.0012102354919246037/0.011487663648325479))*3  = 2.68394735544829
+            (1-(0.011351854061429653/0.011487663648325479))*3    = 0.03546663387440563
    """
    trade = Trade(
        pair='ETH/BTC',
@ -588,34 +594,36 @@ def test_calc_profit_short(market_short_order, market_exit_short_order, fee):
    # Custom closing rate and regular fee rate

    # Higher than open rate
-    assert trade.calc_profit(rate=0.00004374, interest_rate=0.0005) == round(-0.00061973, 8)
+    assert trade.calc_profit(
+        rate=0.00004374, interest_rate=0.0005) == round(-0.0006257810124925996, 8)
    assert trade.calc_profit_ratio(
-        rate=0.00004374, interest_rate=0.0005) == round(-0.16143779115744006, 8)
+        rate=0.00004374, interest_rate=0.0005) == round(-0.16342252828332549, 8)

    # Lower than open rate
-    trade.open_date = datetime.utcnow() - timedelta(hours=5, minutes=0)
-    assert trade.calc_profit(rate=0.00000437, interest_rate=0.00025) == round(0.01027826, 8)
+    trade.open_date = datetime.utcnow() - timedelta(hours=4, minutes=55)
+    assert trade.calc_profit(rate=0.00000437, interest_rate=0.00025) == round(
+        0.010277729207305804, 8)
    assert trade.calc_profit_ratio(
-        rate=0.00000437, interest_rate=0.00025) == round(2.677453699564163, 8)
+        rate=0.00000437, interest_rate=0.00025) == round(2.6840259748040123, 8)

    # Custom closing rate and custom fee rate
    # Higher than open rate
    assert trade.calc_profit(rate=0.00004374, fee=0.003,
-                             interest_rate=0.0005) == round(-0.00062728, 8)
+                             interest_rate=0.0005) == round(-0.0006378763202273957, 8)
    assert trade.calc_profit_ratio(rate=0.00004374, fee=0.003,
-                                   interest_rate=0.0005) == round(-0.16340506919482353, 8)
+                                   interest_rate=0.0005) == round(-0.16658121435868578, 8)

    # Lower than open rate
    trade.open_date = datetime.utcnow() - timedelta(hours=0, minutes=10)
    assert trade.calc_profit(rate=0.00000437, fee=0.003,
-                             interest_rate=0.00025) == round(0.01027773, 8)
+                             interest_rate=0.00025) == round(0.010277428156400875, 8)
    assert trade.calc_profit_ratio(rate=0.00000437, fee=0.003,
-                                   interest_rate=0.00025) == round(2.677316263299785, 8)
+                                   interest_rate=0.00025) == round(2.68394735544829, 8)

-    # Test when we apply a Sell order. Sell higher than open rate @ 0.00001173
+    # Test when we apply a exit short order.
    trade.update(market_exit_short_order)
-    assert trade.calc_profit() == round(0.00014148, 8)
-    assert trade.calc_profit_ratio() == round(0.03685505, 8)
+    assert trade.calc_profit(rate=0.00004099) == round(0.00013580958689582596, 8)
+    assert trade.calc_profit_ratio() == round(0.03546663387440563, 8)

    # Test with a custom fee rate on the close trade
    # assert trade.calc_profit(fee=0.003) == 0.00006163
@ -769,4 +777,4 @@ def test_get_best_pair_short(fee):
    res = Trade.get_best_pair()
    assert len(res) == 2
    assert res[0] == 'DOGE/BTC'
-    assert res[1] == 0.17524390243902502
+    assert res[1] == 0.1713156134055116