def oct(start=0,end=26): """ numsys.oct([start, [end]]) -> dict Returns a dictionary of alphabets (key is lowercase alphabet) and their ascii codes in octal as the value. """ octa = {} for a in core.alist(start,end): octa[a] = octal(a) return octa
def hex(start=0,end=26): """ numsys.hex([start, [end]]) -> dict Returns a dictionary of alphabets (key is lowercase alphabet) and their ascii codes in hexadecimal as the value. """ hexa = {} for a in core.alist(start,end): hexa[a] = hexadecimal(a) return hexa
def bi(start=0,end=26): """ numsys.bi([start, [end]]) -> dict Returns a dictionary of alphabets (key is lowercase alphabet) and their ascii codes in binary as the value. """ bi = {} for a in core.alist(start,end): bi[a] = binary(a) return bi
def rot(rotv=13, start=0, end=26): """ crypt.rot([rotv, [start, [end]]]) -> dict Returns a dictionary of alphabets (key is lowercase alphabet and value is rotated alphabet) from start till end. Rot value is by default 13, but can be anything. By default the start is 0 and end is 26. """ d = {} for a in core.alist(start, end): if (rotv + start < 26): d[a] = core.alph(start+rotv,start+rotv+1) else : d[a] = core.alph(start+rotv-26,start+rotv-26+1) start += 1 return d