# Binary to decimal and decimal to binary converters

Can someone please explain these lines of Python program for me:

``````b =input("What number would you like to convert into Binary? ")
convert = lambda d: bin(int(d)) [2:]
print(b + " is " + convert(b) + " in Binary")
``````

And also these lines of code:

``````b = input("What Binary number would you like to convert into Decimal? ")
convert= lambda b: str(int(b, 2))
print(b + " is " + convert(b) + " in Decimal")
``````
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Which part don't you understand? The `lambda` expression? –  Tim Pietzcker Jan 30 at 12:14
For those who (like me) wonder what on earth denary means: most people call that number system decimal (ie, base 10) :) –  fvu Jan 30 at 12:14
FWIW, I edited the title and changed denary/dinery to decimal. –  Macke Jan 30 at 12:22

The `lambda` expression is a way of defining a short function, e.g.

``````f = lambda x: x**2 # e.g. f(2) == 4
``````

is equivalent to

``````def f(x):
return x**2
``````

`int(d)` converts `d` into an integer. `bin(...)` takes that integer and converts it into a binary string, which looks like:

``````bin(int(3)) == '0b11'
``````

Note that the first two characters, `0b`, are not really part of the number, so we use slice notation `[2:]` to return everything from index `2` onwards:

``````'0b11'[2:] == '11'
``````

Finally, the optional second argument to `int` sets the base that should be used for converting the argument; in this case, base `2` (binary):

``````int('11', 2) == 3
``````

You can use this for other bases, too, e.g. `16` (hexadecimal):

``````int('11', 16) == 17
``````
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Decimal to binary:

``````bin(124)
``````

This will give the value `'0b1111100'`
Binary to decimal:

``````int('0b1111100', 2)
``````

This will give the value `124`

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