From: Luke Kenneth Casson Leighton Date: Mon, 18 Feb 2019 17:17:19 +0000 (+0000) Subject: split out common double-precision unit test code X-Git-Tag: ls180-24jan2020~1904 X-Git-Url: https://git.libre-soc.org/?a=commitdiff_plain;h=d806377a3656d69c3497c2ab9ff69e6c0e7bc5f4;p=ieee754fpu.git split out common double-precision unit test code --- diff --git a/src/add/test_add64.py b/src/add/test_add64.py index b0913147..ecb5dcc2 100644 --- a/src/add/test_add64.py +++ b/src/add/test_add64.py @@ -1,6 +1,5 @@ from nmigen import Module, Signal from nmigen.compat.sim import run_simulation -from sfpy import Float64 from nmigen_add_experiment import FPADD @@ -9,119 +8,10 @@ import atexit from random import randint from random import seed -def get_mantissa(x): - return x & 0x000fffffffffffff - -def get_exponent(x): - return ((x & 0x7ff0000000000000) >> 52) - 1023 - -def get_sign(x): - return ((x & 0x8000000000000000) >> 63) - -def is_nan(x): - return get_exponent(x) == 1024 and get_mantissa(x) != 0 - -def is_inf(x): - return get_exponent(x) == 1024 and get_mantissa(x) == 0 - -def is_pos_inf(x): - return is_inf(x) and not get_sign(x) - -def is_neg_inf(x): - return is_inf(x) and get_sign(x) - -def match(x, y): - return ( - (is_pos_inf(x) and is_pos_inf(y)) or - (is_neg_inf(x) and is_neg_inf(y)) or - (is_nan(x) and is_nan(y)) or - (x == y) - ) - -def get_case(dut, a, b): - yield dut.in_a.v.eq(a) - yield dut.in_a.stb.eq(1) - yield - yield - a_ack = (yield dut.in_a.ack) - assert a_ack == 0 - yield dut.in_b.v.eq(b) - yield dut.in_b.stb.eq(1) - b_ack = (yield dut.in_b.ack) - assert b_ack == 0 - - while True: - yield - out_z_stb = (yield dut.out_z.stb) - if not out_z_stb: - continue - yield dut.in_a.stb.eq(0) - yield dut.in_b.stb.eq(0) - yield dut.out_z.ack.eq(1) - yield - yield dut.out_z.ack.eq(0) - yield - yield - break - - out_z = yield dut.out_z.v - return out_z - -def check_case(dut, a, b, z): - out_z = yield from get_case(dut, a, b) - assert out_z == z, "Output z 0x%x not equal to expected 0x%x" % (out_z, z) - - -def run_test(dut, stimulus_a, stimulus_b): - - expected_responses = [] - actual_responses = [] - for a, b in zip(stimulus_a, stimulus_b): - af = Float64.from_bits(a) - bf = Float64.from_bits(b) - z = af + bf - expected_responses.append(z.get_bits()) - #print (af, bf, z) - actual = yield from get_case(dut, a, b) - actual_responses.append(actual) - - if len(actual_responses) < len(expected_responses): - print ("Fail ... not enough results") - exit(0) - - for exp, act, a, b in zip(expected_responses, actual_responses, - stimulus_a, stimulus_b): - passed = match(exp, act) - - if not passed: - - print ("Fail ... expected:", hex(exp), "actual:", hex(act)) - - print (hex(a)) - print ("a mantissa:", a & 0x000fffffffffffff) - print ("a exponent:", ((a & 0x7ff0000000000000) >> 52)\ - - 1023) - print ("a sign:", ((a & 0x8000000000000000) >> 63)) - - print (hex(b)) - print ("b mantissa:", b & 0x000fffffffffffff) - print ("b exponent:", ((b & 0x7ff0000000000000) >> 52)\ - - 1023) - print ("b sign:", ((b & 0x8000000000000000) >> 63)) - - print (hex(exp)) - print ("expected mantissa:", exp & 0x000fffffffffffff) - print ("expected exponent:", ((exp & 0x7ff0000000000000) >> 52)\ - - 1023) - print ("expected sign:", ((exp & 0x8000000000000000) >> 63)) - - print (hex(act)) - print ("actual mantissa:", act & 0x000fffffffffffff) - print ("actual exponent:", ((act & 0x7ff0000000000000) >> 52)\ - - 1023) - print ("actual sign:", ((act & 0x8000000000000000) >> 63)) - - sys.exit(0) +from unit_test_double import (get_mantissa, get_exponent, get_sign, is_nan, + is_inf, is_pos_inf, is_neg_inf, + match, get_case, check_case, run_test) + def testbench(dut): yield from check_case(dut, 0, 0, 0)