gfpy/galois.py

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#!/usr/bin/python
#
# Native python routines for Galois field calculations.
#
# These calculations can be done much faster in C/C++ (and with vectorization), but
# this code helps illustrate how Galois field math works. Also, it's helpful if
# you want to do small amounts of calculation without working with native C/C++
# code.
#
import random, copy
class GaloisException(Exception):
def __init__ (self, value):
self.value = value
def __str__ (self):
return repr(self.value)
class GaloisNumber:
'''
Class to represent a number in a Galois (finite) field.
The class supports "normal" syntax for the addition, subtraction, multiplication,
division, additive inverse (-), and multiplicative inverse (~) operations.
'''
def __init__ (self, field, value=0):
self.field = field
self.assign (value)
def assign (self, v):
'''
Assign a new integer value to this Galois field number. The number must be valid in
the field with which the GaloisNumber instance was defined.
'''
if v > self.field.size:
raise GaloisException ("Value {0} is outside field".format (value))
self.value = v
def __add__ (self, other):
if self.field != other.field:
raise GaloisException ("Field elements from different fields")
return GaloisNumber (self.field, self.value ^ other.value)
def __invert__ (self):
return self.field.invert (self)
def __neg__ (self):
# We want a shallow copy so that the field reference remains the same
return copy.copy (self)
def __mul__ (self, other):
if self.field != other.field:
raise GaloisException ("Field elements from different fields")
return self.field.multiply (self, other)
def __div__ (self, other):
if self.field != other.field:
raise GaloisException ("Field elements from different fields")
return self.field.divide (self, other)
def __sub__ (self, other):
return self + other
def __eq__ (self, other):
if self.field != other.field:
raise GaloisException ("Field elements from different fields")
return self.value == other.value
def __repr__ (self):
return self.field.fmt (self.value)
class GaloisFieldLog:
'''
Pure python implementation of Galois (finite) field arithmetic routines.
There only needs to be one instantiation of the field for a given set of parameters,
but elements from different field instances with the same parameters may be mixed.
'''
field_widths = (4, 8, 12, 16)
poly_defaults = {4: 0x13, 8: 0x11d, 12:0x1053, 16: 0x1100b}
multiply_test_size = 10000
def __init__ (self, bits, primitive_polynomial = None, repr_prefix = 'G', alpha = 1):
'''
Create a Galois field using log/antilog tables for arithmetic.
'''
if bits not in self.field_widths:
raise GaloisException ("Field widths supported: {0}".format (self.field_widths))
self.bits = bits
self.size = (1 << bits)
self.prim = self.poly_defaults[bits] if not primitive_polynomial else primitive_polynomial
self.value_format = repr_prefix + '{:0>' + str(bits / 4) + 'x}'
self.alpha = alpha
# Set up the log and anti-log tables
self.log_tbl = [0] * self.size
self.antilog_tbl = [0] * (self.size - 1)
b = 1
for i in range (self.size - 1):
self.log_tbl[b] = i
self.antilog_tbl[i] = b
b <<= 1
if b >= self.size:
b ^= self.prim
def __eq__ (self, other):
return self.bits == other.bits and self.prim == other.prim and self.alpha == other.alpha
def fmt (self, v):
return self.value_format.format (v)
def multiply (self, v1, v2):
a = v1.value
b = v2.value
if a == 0 or b == 0:
return GaloisNumber (self, 0)
return GaloisNumber (self, self.antilog_tbl[(self.log_tbl[a] + self.log_tbl[b]) %
(self.size - 1)])
def invert (self, v):
if v.value == 0:
return GaloisNumber(self, 0)
elif v.value == 1:
return GaloisNumber (self, 1)
else:
return GaloisNumber (self, self.antilog_tbl[self.size - 1 - self.log_tbl[v.value]])
def divide (self, v1, v2):
return self.multiply (v1, self.invert(v2))
def self_test (self):
mul_identity = GaloisNumber (self, 1)
v = GaloisNumber (self)
g_0 = GaloisNumber (self, 0)
g_1 = GaloisNumber (self, 1)
for i in range (self.size):
v.assign (i)
if i == 0: continue
assert v * ~v == mul_identity, "Multiplicative inverse failed at {}".format (i)
assert g_0 - v == -v, "Additive inverse failed at {}".format (i)
assert v * g_1 == v, "Multiplicative identity failed at {}".format (i)
vb = GaloisNumber (self)
for a in range (1, self.multiply_test_size):
v.assign (random.randint (1, self.size - 1))
vb.assign (random.randint (1, self.size - 1))
product = v * vb
assert product / v == vb, "Multiplication failed for {} * {}".format(v.value,vb.value)
assert product / vb == v, "Multiplication failed for {} * {}".format(v.value,vb.value)
return True
if __name__ == '__main__':
for width in GaloisFieldLog.field_widths:
field = GaloisFieldLog (width)
if field.self_test ():
print "{0} bit field passed!".format (width)
g0 = GaloisNumber (field, 5)
g1 = GaloisNumber (field, 7)
print g0 + g1