What does the "b" stand for in the output of bin(30): "0b11110"? Is there any way I can get rid of this "b"? How can I get the output of bin() to always return a standard 8 digit output?
Return the numeric string left filled with zeros in a string of length width. A sign prefix is handled correctly. The original string is returned if width is less than len(s).
>>> bin(30)[2:].zfill(8) '00011110' >>>
0b is like 0x - it indicates the number is formatted in binary (0x indicates the number is in hex).
To strip off the 0b it's easiest to use string slicing:
And similarly for format to 8 characters wide:
Alternatively you can use the string formatter (in 2.6+) to do it all in one step:
Take advantage of the famous
format() function with the lesser known second argument and chain it with
'b' - Binary
'x' - Hex
'o' - Octal
'd' - Decimal
>>> print format(30, 'b') 11110 >>> print format(30, 'b').zfill(8) 00011110
Should do. Here
'b' stands for binary just like
'd' for hexadecimal, octal and decimal respectively.
The current answers don't consider negative values (thanks @Gui13 for the comment!) in which case you get
-0b... instead of just
0b.... You can handle both with a simple
if-else where the value is checked whether it's less than zero or not
>>> def printBit(x): if x < 0: return '-' + bin(x)[3:].zfill(8) # replace else: return bin(x)[2:].zfill(8) >>> print(printBit(30)) '00011110' >>> print(printBit(-30)) '-00011110'
or by using
>>> print(bin(30)).replace('0b', '').zfill(8)
The problem with the call above is that one of the bits gets "lost" to the
- sign due to the same value being used for the
zfill(). You can handle this too with a simple ternary check:
>>> x = 30 >>> print(bin(x)).replace('0b', '').zfill(9 if x < 0 else 8) '00011110' >>> x = -30 >>> print(bin(x)).replace('0b', '').zfill(9 if x < 0 else 8) '-00011110'
Last but not least you can also make the
zfill() to automatically adapt the number of
0s to match a byte (8 bits) or a
n number of bit quadruplets (4 bits):
>>> def pb(x): bres = bin(x).replace('0b', '').replace('-', '') # If no minus, second replace doesn't do anything lres = len(bres) # We need the length to see how many 0s we need to add to get a quadruplets # We adapt the number of added 0s to get full bit quadruplets. # The '-' doesn't count since we want to handle it separately from the bit string bres = bres = ('-' if x < 0 else '') + bres.zfill(lres + (4-lres%4)) return bres >>> print(pb(7)) '0111' >>> print(pb(-7)) '-0111' >>> print(pb(30)) '00011110' >>> print(pb(-30)) '-00011110'
Here is the final version with adaptable filling of
0s and additional split with space every
n characters (where the
n is determined by filling factor):
>>> def pb(x, fillingBits=4, splitWithSpace=True): # If no minus, second replace doesn't do anything bres = bin(x).replace('0b', '').replace('-', '') lres = len(bres) bres = bres.zfill(lres + (fillingBits - (lres % fillingBits))) lres = len(bres) # We can also add a blank after every fillingBits character if splitWithSpace: bres = ' '.join([bres[i:(i + fillingBits)] for i in range(0, lres, fillingBits)]) bres = ('-' if x < 0 else '') + bres # We remove any trailing/leading blanks (occurring whenever splitWithSpace enabled) return bres.strip() >>> print(pb(7)) '0111' >>> print(pb(-7)) '-0111' >>> print(pb(30)) '0001 1110' >>> print(pb(-30)) '-0001 1110'