def test_isub(self):
a1 = B(0b0001)
a2 = B(0b1000)
a1 -= 1
self.assertEqual(a1, 0b0000)
a2 -= 0b0001
self.assertEqual(a2, 0b0111)
def test_iadd(self):
a1 = B(0b0001)
a2 = B(0b1000)
a1 += 1
self.assertEqual(a1, 0b0010)
a1 += a2
self.assertEqual(a1, 0b1010)
def test_ishift(self):
a1 = B(0b1010)
a2 = B(0b0101)
a2 <<= 1
self.assertEqual(a2, a1)
a2 >>= 1
self.assertEqual(a2, 0b0101)
a1 <<= a2
self.assertEqual(a1, 0b101000000)
def test_equality(self):
# Bitfield and ints
self.assertEqual(a, c)
self.assertNotEqual(a, d)
# Bitfield and Bools
self.assertEqual(B(0b1), True)
self.assertNotEqual(B(0b0), True)
# Bitfield and Bitfield
self.assertEqual(a, B(0b0011))
self.assertNotEqual(a, b)
# Bitfield and some non-number type
self.assertNotEqual(a, [0, 0, 1, 1])
def test_setitem(self):
bits = B(0b1111)
bits[:] = 0b1010
self.assertEqual(bits, 0b1010)
self.assertTrue(isinstance(bits, B))
bits[0:2] = 0b00
self.assertEqual(bits, 0b1000)
bits[:-1] = 0b111
self.assertEqual(bits, 0b1111)
bits[::2] = 0b00
self.assertEqual(bits, 0b1010)
# The following has a nasty side effect of setting the bitfield width to 0
bits[:] = 0b0
self.assertEqual(len(bits), 0)
self.assertEqual(0b0.bit_length(), 0)
bits = B(0b11001010)
bits[::2] = 0b1111
self.assertEqual(0b11011111, bits)
bits[-1::-1] = 0b10101111
self.assertEqual(bits, 0b11110101)
def test_delitem(self):
bits = B(0b101010101)
l = len(bits)
del bits[0]
self.assertEqual(bits, 0b10101010)
self.assertEqual(len(bits), l - 1)
l = len(bits)
del bits[-1]
self.assertEqual(bits, 0b101010)
# We actually just removed two bits because the MSB will always be 1.
self.assertEqual(len(bits), l - 2)
l = len(bits)
del bits[0::2]
self.assertEqual(bits, 0b111)
self.assertEqual(len(bits), l - 3)
del bits[:]
self.assertEqual(bits, 0b0)
self.assertEqual(len(bits), 0)
self.assertEqual(0b0.bit_length(), 0)
self.assertEqual(0b1.bit_length(), 1)
def test_getitem(self):
bits = B(0b1111)
# Basic bit indexing:
self.assertEqual(bits[0], 0b0001)
# Bitfield indexing does *not* produce bits[1] --> 0b0010
self.assertEqual(bits[1], 0b0001)
self.assertEqual(bits[-4], 0b1)
self.assertRaises(IndexError, bits.__getitem__, 4)
self.assertRaises(IndexError, bits.__getitem__, -5)
bits = B(0b11110101)
self.assertEqual(bits[1], 0b0)
self.assertEqual(bits[7], 0b1)
# Providing __len__, __getitem__, and raising appropriate IndexError's make Bitfields
# iterable. Iterates over the bits LSBF.
self.assertSequenceEqual(bits, [1, 0, 1, 0, 1, 1, 1, 1])
self.assertTrue(isinstance(bits[0:2], B))
bits = B(0b101011)
self.assertEqual(bits[:], bits)
# Reverse endianness
self.assertEqual(bits[::-1], 0b110101)
# Test slicing subtleties
self.assertEqual(bits[:2], 0b11)
self.assertEqual(bits[:-1], 0b01011)
self.assertEqual(bits[0:2], bits[:2])
self.assertEqual(bits[2:], 0b1010)
self.assertEqual(bits[2:-1], 0b010)
# The most significant bit will *always* be 0b1, even in the case bits = B(0b01)
self.assertEqual(B(0b01)[-1], 0b1)
self.assertEqual(bits[-1:], 0b1)
# 6 is not a valid index, but the endpoint is exclusive
self.assertEqual(bits[2:6], 0b1010)
self.assertRaises(IndexError, bits.__getitem__, slice(2, 7))
self.assertEqual(bits[-3:], 0b101)
self.assertEqual(bits[-4:-2], 0b10)
self.assertEqual(B(0b10101)[::2], 0b111)
self.assertEqual(B(0b101010)[1::2], 0b111)
self.assertEqual(B(0b1100010001)[-2::-2], 0b10101)
def test_ipow(self):
a1 = B(0b1000)
a2 = B(0b0010)
a1 **= a2
self.assertEqual(a1, 0b1000000)
def test_imod(self):
a1 = B(8)
a2 = B(7)
a1 %= a2
self.assertEqual(a1, 1)
def test_itruediv(self):
# It does not make sense for an integer bitfield to allow for implementing /=
a1 = B(0b0001)
a2 = B(0b1000)
a1 /= a2
self.assertTrue(isinstance(a1, B))
import unittest
from bitfield import Bitfield as B
a = B(0b0011)
b = B(0b1100)
c = 0b0011
d = 0b1100
class BitfieldOperatorsTest(unittest.TestCase):
def test_neg(self):
self.assertEqual(-a, -c)
self.assertNotEqual(a, -a)
def test_pos(self):
self.assertEqual(+a, a)
self.assertNotEqual(+a, -a)
def test_abs(self):
self.assertEqual(abs(-a), a)
self.assertEqual(abs(a), a)
def test_invert(self):
self.assertEqual(~a, ~c)
self.assertEqual(~b, ~d)
def test_equality(self):
# Bitfield and ints
self.assertEqual(a, c)
self.assertNotEqual(a, d)
# Bitfield and Bools
