def test_pc(self):
pc = pc_factory()
for num in [-32768, -1, 0, 1, 32763, -21845, 21845, 10922, -10922]:
num_bool16 = int_to_bool16(num)
num_plus_1 = int_to_bool16(num + 1)
num_plus_2 = int_to_bool16(num + 2)
num_plus_3 = int_to_bool16(num + 3)
num_plus_4 = int_to_bool16(num + 4)
# Reset to 0
self.assertEqual(pc(reset=True), (False, ) * 16)
# Input to num but don't load
self.assertEqual(pc(in_=num_bool16), (False, ) * 16)
# Load num
self.assertEqual(pc(in_=num_bool16, load=True), num_bool16)
# Don't do anything to see if output remains the same
self.assertEqual(pc(), num_bool16)
# Increase counter by 1
self.assertEqual(pc(inc=True), num_plus_1)
# Increase counter by 1 and input unused number
self.assertEqual(pc(in_=num_bool16, inc=True), num_plus_2)
# Increase counter by 1
self.assertEqual(pc(inc=True), num_plus_3)
# Increase counter by 1 and input unused number
self.assertEqual(pc(in_=num_bool16, inc=True), num_plus_4)
# Load num, increase counter, and reset
self.assertEqual(
pc(in_=num_bool16, load=True, inc=True, reset=True),
(False, ) * 16)
# Load num and increase counter
self.assertEqual(pc(in_=num_bool16, load=True, inc=True),
num_bool16)
# Increase num
self.assertEqual(pc(inc=True), num_plus_1)
# Do nothing
self.assertEqual(pc(), num_plus_1)
def test_adder_16(self):
# for a, b in self.values:
for a, b in ((5, 25), ):
a_bools = int_to_bool16(a)
b_bools = int_to_bool16(b)
c_bools = adder_16(a_bools, b_bools)
c = bool16_to_int(c_bools)
self.assertEqual(a + b, c)
def test_alu(self):
"""2,880 combinations will be tested here. (9+8+7+6+5+4+3+2+1 * 2^6 = 2,880)"""
for x, y in self.test_pairs:
x = int_to_bool16(x)
y = int_to_bool16(y)
for params in self.possible_params:
zx, nx, zy, ny, f, no = params
expected = self.py_alu(zx, nx, zy, ny, f, no, x, y)
alu_out = alu(zx, nx, zy, ny, f, no, x, y)
self.assertEqual(alu_out, expected)
def test_register(self):
register = register_16_bit_factory()
for num in self.test_numbers:
num_bool16 = int_to_bool16(num)
self.assertEqual(register((False, ) * 16, True), (False, ) * 16)
self.assertEqual(register(num_bool16, False), (False, ) * 16)
self.assertEqual(register(num_bool16, True), num_bool16)
self.assertEqual(register((False, ) * 16, False), num_bool16)
def test_ram_512(self):
nums = [int_to_bool16(randint(-32000, 32000)) for _ in range(512)]
addresses = list(product([True, False], repeat=9))
ram_512 = ram_512_factory()
for num, address in zip(nums, addresses):
ram_512(in_=num, load=True, address=address)
for num, address in zip(nums, addresses):
out = ram_512(in_=(False, ) * 16, load=False, address=address)
self.assertEqual(num, out)
def test_fake_ram_16k(self):
# Limit test to 50 random integers stored in 50 random addresses
nums = [int_to_bool16(randint(-32000, 32000)) for _ in range(50)]
addresses = sample(list(product([True, False], repeat=14)), 50)
fake_ram_16k = FakeRAM()
for num, address in zip(nums, addresses):
fake_ram_16k(in_=num, load=True, address=address)
for num, address in zip(nums, addresses):
out = fake_ram_16k(in_=(False, ) * 16, load=False, address=address)
self.assertEqual(num, out)
def test_unary_alu(self):
for num in self.test_numbers:
num_bool16 = int_to_bool16(num)
num_z = bool16_to_int(
unary_alu(zero=True, negation=False, in_=num_bool16))
num_n = bool16_to_int(
unary_alu(zero=False, negation=True, in_=num_bool16))
num_zn = bool16_to_int(
unary_alu(zero=True, negation=True, in_=num_bool16))
num_plain = bool16_to_int(
unary_alu(zero=False, negation=False, in_=num_bool16))
self.assertEqual(0, num_z)
self.assertEqual(~num, num_n)
self.assertEqual(~0, num_zn)
self.assertEqual(num, num_plain)
def test_mux_4way(self):
a, b, c, d = [
int_to_bool16(num) for num in [-21845, 21845, 10922, -10922]
]
for selectors in list(product([True, False], repeat=2)):
out = mux_16_4way(selectors, a, b, c, d)
if selectors[1]:
if selectors[0]:
expected = a
else:
expected = b
else:
if selectors[0]:
expected = c
else:
expected = d
self.assertEqual(expected, out)
def test_mux_8way(self):
a, b, c, d, e, f, g, h = [
int_to_bool16(num)
for num in [-32768, -1, 0, 1, 32763, -21845, 21845, 10922]
]
for selectors in list(product([True, False], repeat=3)):
out = mux_16_8way(selectors, a, b, c, d, e, f, g, h)
"""
returns a if selectors = True, True, True
returns b if selectors = True, True, False
returns c if selectors = True, False, True
returns d if selectors = True, False, False
returns e if selectors = False, True, True
returns f if selectors = False, True, False
returns g if selectors = False, False, True
returns h if selectors = False, False, False
"""
if selectors[2]:
if selectors[1]:
if selectors[0]:
expected = a
else:
expected = b
else:
if selectors[0]:
expected = c
else:
expected = d
else:
if selectors[1]:
if selectors[0]:
expected = e
else:
expected = f
else:
if selectors[0]:
expected = g
else:
expected = h
self.assertEqual(expected, out)
def test_ram_8(self):
ram_8 = ram_8_factory()
nums = [-32768, -1, 0, 1, 32763, -21845, 21845, 10922]
a, b, c, d, e, f, g, h = [int_to_bool16(num) for num in nums]
a_address = True, True, True
b_address = True, True, False
c_address = True, False, True
d_address = True, False, False
e_address = False, True, True
f_address = False, True, False
g_address = False, False, True
h_address = False, False, False
ram_8(in_=a, load=True, address=a_address)
ram_8(in_=b, load=True, address=b_address)
ram_8(in_=c, load=True, address=c_address)
ram_8(in_=d, load=True, address=d_address)
ram_8(in_=e, load=True, address=e_address)
ram_8(in_=f, load=True, address=f_address)
ram_8(in_=g, load=True, address=g_address)
ram_8(in_=h, load=True, address=h_address)
self.assertEqual(
a, ram_8(in_=(False, ) * 16, load=False, address=a_address))
self.assertEqual(
b, ram_8(in_=(False, ) * 16, load=False, address=b_address))
self.assertEqual(
c, ram_8(in_=(False, ) * 16, load=False, address=c_address))
self.assertEqual(
d, ram_8(in_=(False, ) * 16, load=False, address=d_address))
self.assertEqual(
e, ram_8(in_=(False, ) * 16, load=False, address=e_address))
self.assertEqual(
f, ram_8(in_=(False, ) * 16, load=False, address=f_address))
self.assertEqual(
g, ram_8(in_=(False, ) * 16, load=False, address=g_address))
self.assertEqual(
h, ram_8(in_=(False, ) * 16, load=False, address=h_address))
def _load_memory(self, register: Callable, num: int):
num_bool16 = int_to_bool16(num)
register(in_=num_bool16, load=True, clock=False)
register(clock=True)
register(clock=False)
def test_inc_16(self):
for i in (0, 1, -1, -32767, 32765, -1632, 1632):
i_plus_1 = int_to_bool16(i + 1)
i = int_to_bool16(i)
self.assertEqual(i_plus_1, inc_16(i))
def _set_register_to_int(self, register, num: int):
num_bool16 = int_to_bool16(num)
register(num_bool16, True, False)
register(clock=True)
register(clock=False)
def test_zero(self):
for num in self.test_numbers:
num_bool16 = int_to_bool16(num)
self.assertEqual(num == 0, equal_to_zero(num_bool16))
def test_negative(self):
for num in self.test_numbers:
num_bool16 = int_to_bool16(num)
self.assertEqual(num < 0, less_than_zero(num_bool16))
