I want to use Decimal class in my Python program for doing financial calculations. Decimals to not work with floats - they need explicit conversion to strings first. So i decided to subclass Decimal to be able to work with floats without explicit conversions.

m_Decimal.py:

```
# -*- coding: utf-8 -*-
import decimal
Decimal = decimal.Decimal
def floatCheck ( obj ) : # usually Decimal does not work with floats
return repr ( obj ) if isinstance ( obj, float ) else obj # this automatically converts floats to Decimal
class m_Decimal ( Decimal ) :
__integral = Decimal ( 1 )
def __new__ ( cls, value = 0 ) :
return Decimal.__new__ ( cls, floatCheck ( value ) )
def __str__ ( self ) :
return str ( self.quantize ( self.__integral ) if self == self.to_integral () else self.normalize () ) # http://docs.python.org/library/decimal.html#decimal-faq
def __mul__ ( self, other ) :
print (type(other))
Decimal.__mul__ ( self, other )
D = m_Decimal
print ( D(5000000)*D(2.2))
```

So now instead of writing `D(5000000)*D(2.2)`

i should be able to write `D(5000000)*2.2`

without rasing exceptions.

I have several questions:

Will my decision cause me any troubles?

Reimplementing

`__mul__`

doesn't work in case of`D(5000000)*D(2.2)`

, because the other argument is of type`class '__main__.m_Decimal'`

, but you can see in decimal module this:

decimal.py, line 5292:

```
def _convert_other(other, raiseit=False):
"""Convert other to Decimal.
Verifies that it's ok to use in an implicit construction.
"""
if isinstance(other, Decimal):
return other
if isinstance(other, (int, long)):
return Decimal(other)
if raiseit:
raise TypeError("Unable to convert %s to Decimal" % other)
return NotImplemented
```

The decimal module expects argument being Decimal or int. This means i should convert my m_Decimal object to string first, then to Decimal. But this is lot of waste - m_Decimal is descendant of Decimal - how can i use this to make the class faster (Decimal is already very slow).

- When cDecimal will appear, will this subclassing work?

`isinstance`

properly takes subclassing into account...`isinstance(d, m_Decimal)`

implies`isinstance(d, Decimal)`

.