Updated for Python3

galois.py

@@ -23,13 +23,19 @@ class GaloisNumber:
     The class supports "normal" syntax for the addition, subtraction, multiplication,
     division, additive inverse (-), and multiplicative inverse (~) operations.
     '''
-    def __init__ (self, x, value=0):
+    def __init__ (self, x, field=None):
         if isinstance(x, GaloisNumber):
             self.field = x.field
             self.value = x.value
+        elif type(field) not in (GaloisFieldLog, GaloisFieldDirect):
+            raise ValueError ("Must specify field")
         else:
-            self.field = x
-            self.assign (value)
+            self.field = field
+            if type(x) == bytes:
+                x = int.from_bytes (x, 'big')
+            elif type(x) != int:
+                raise ValueError ("Must be an integer or bytes")
+            self.assign (x)
 
     def assign (self, v):
         '''
@@ -37,13 +43,13 @@ class GaloisNumber:
         the field with which the GaloisNumber instance was defined.
         '''
         if v > self.field.size:
-            raise GaloisException ("Value {0} is outside field".format (v))
+            raise ValueError ("Value {0} is outside field".format (v))
         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)
+        return GaloisNumber (self.value ^ other.value, self.field)
 
     def __iadd__ (self, other):
         if self.field != other.field:
@@ -72,11 +78,14 @@ class GaloisNumber:
             raise GaloisException ("Field elements from different fields")
         self.value = self.field.direct_multiply (self.value, other.value)
 
-    def __div__ (self, other):
+    def __floordiv__ (self, other):
         if self.field != other.field:
             raise GaloisException ("Field elements from different fields")
         return self.field.divide (self, other)
 
+    def __truediv__ (self, other):
+        return self // other
+
     def __eq__ (self, other):
         if self.field != other.field:
             raise GaloisException ("Field elements from different fields")
@@ -128,33 +137,32 @@ class GaloisFieldLog:
         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)])
+            return GaloisNumber (0, self)
+        return GaloisNumber (self.antilog_tbl[(self.log_tbl[a] + self.log_tbl[b]) % (self.size - 1)], self)
 
     def invert (self, v):
         if v.value == 0:
-            return GaloisNumber(self, 0)
+            return GaloisNumber(0, self)
         elif v.value == 1:
-            return GaloisNumber (self, 1)
+            return GaloisNumber (1, self)
         else:
-            return GaloisNumber (self, self.antilog_tbl[self.size - 1 - self.log_tbl[v.value]])
+            return GaloisNumber (self.antilog_tbl[self.size - 1 - self.log_tbl[v.value]], self)
 
     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)
+        mul_identity = GaloisNumber (1, self)
+        v = GaloisNumber (0, self)
+        g_0 = GaloisNumber (0, self)
+        g_1 = GaloisNumber (1, self)
         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)
+        vb = GaloisNumber (0, 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))
@@ -184,7 +192,7 @@ class GaloisFieldDirect:
         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.value_format = repr_prefix + '{:0>' + str(bits // 4) + 'x}'
         self.alpha = alpha
 
     def __eq__ (self, other):
@@ -194,7 +202,7 @@ class GaloisFieldDirect:
         return self.value_format.format (v)
 
     def multiply (self, v1, v2):
-        return GaloisNumber (self, self.direct_multiply (v1.value, v2.value))
+        return GaloisNumber (self.direct_multiply (v1.value, v2.value), self)
 
     def direct_multiply (self, a, b):
         # Multiplication is commutative, and it's faster if we use the smaller value as the
@@ -223,24 +231,24 @@ class GaloisFieldDirect:
         to field width in bits.
         '''
         if v.value == 0:
-            return GaloisNumber(self, 0)
+            return GaloisNumber(0, self)
         elif v.value == 1:
-            return GaloisNumber (self, 1)
+            return GaloisNumber (1, self)
         inv = 1
         sq =  v.value
         for i in range (1, self.bits):
             sq = self.direct_multiply (sq, sq)
             inv = self.direct_multiply (inv, sq)
-        return GaloisNumber (self, inv)
+        return GaloisNumber (inv, self)
 
     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)
+        mul_identity = GaloisNumber (1, self)
+        v = GaloisNumber (0, self)
+        g_0 = GaloisNumber (0, self)
+        g_1 = GaloisNumber (1, self)
         small_field = self.size < self.max_test_size
         n_tests = (self.size - 1) if small_field else self.max_test_size
         for i in range (0, n_tests):
@@ -248,7 +256,7 @@ class GaloisFieldDirect:
             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)
+        vb = GaloisNumber (0, self)
         for a in range (1, self.max_test_size):
             v.assign (random.randint (1, self.size - 1))
             vb.assign (random.randint (1, self.size - 1))
@@ -261,16 +269,16 @@ if __name__ == '__main__':
     print ('\nTesting direct fields...........')
     for width in GaloisFieldDirect.field_widths:
         field = GaloisFieldDirect (width)
-        g0 = GaloisNumber (field, 2)
-        g1 = GaloisNumber (field, 7)
+        g0 = GaloisNumber (2, field)
+        g1 = GaloisNumber (7, field)
         print ('{0} + {1} = {2}'.format (g0, g1, g0 + g1))
         if field.self_test ():
             print ("{0} bit field (direct) passed!".format (width))
     print ('\nTesting log fields...........')
     for width in GaloisFieldLog.field_widths:
         field = GaloisFieldLog (width)
-        g0 = GaloisNumber (field, 2)
-        g1 = GaloisNumber (field, 7)
+        g0 = GaloisNumber (2, field)
+        g1 = GaloisNumber (7, field)
         print ('{0} + {1} = {2}'.format (g0, g1, g0 + g1))
         if field.self_test ():
             print ("{0} bit field (log) passed!".format (width))