1 from random
import randint
2 from random
import seed
5 from sfpy
import Float32
11 return ((x
& 0x7f800000) >> 23) - 127
13 def set_exponent(x
, e
):
14 return (x
& ~
0x7f800000) |
((e
+127) << 23)
17 return ((x
& 0x80000000) >> 31)
20 return get_exponent(x
) == 128 and get_mantissa(x
) != 0
23 return get_exponent(x
) == 128 and get_mantissa(x
) == 0
26 return is_inf(x
) and not get_sign(x
)
29 return is_inf(x
) and get_sign(x
)
33 (is_pos_inf(x
) and is_pos_inf(y
)) or
34 (is_neg_inf(x
) and is_neg_inf(y
)) or
35 (is_nan(x
) and is_nan(y
)) or
39 def get_case(dut
, a
, b
, mid
):
40 in_a
, in_b
= dut
.rs
[0]
42 yield dut
.ids
.in_mid
.eq(mid
)
49 a_ack
= (yield in_a
.ack
)
58 b_ack
= (yield in_b
.ack
)
66 out_z_stb
= (yield out_z
.stb
)
70 vout_z
= yield out_z
.v
71 #out_mid = yield dut.ids.out_mid
78 def check_case(dut
, a
, b
, z
, mid
=None):
82 out_z
, out_mid
= yield from get_case(dut
, a
, b
, mid
)
83 assert out_z
== z
, "Output z 0x%x not equal to expected 0x%x" % (out_z
, z
)
84 assert out_mid
== mid
, "Output mid 0x%x != expected 0x%x" % (out_mid
, mid
)
87 def run_test(dut
, stimulus_a
, stimulus_b
, op
):
89 expected_responses
= []
91 for a
, b
in zip(stimulus_a
, stimulus_b
):
94 af
= Float32
.from_bits(a
)
95 bf
= Float32
.from_bits(b
)
97 expected_responses
.append((z
.get_bits(), mid
))
99 actual
= yield from get_case(dut
, a
, b
, mid
)
100 actual_responses
.append(actual
)
102 if len(actual_responses
) < len(expected_responses
):
103 print ("Fail ... not enough results")
106 for expected
, actual
, a
, b
in zip(expected_responses
, actual_responses
,
107 stimulus_a
, stimulus_b
):
108 passed
= match(expected
[0], actual
[0])
109 if expected
[1] != actual
[1]: # check mid
110 print ("MID failed", expected
[1], actual
[1])
115 print ("Fail ... expected:", hex(expected
), "actual:", hex(actual
))
118 print ("a mantissa:", a
& 0x7fffff)
119 print ("a exponent:", ((a
& 0x7f800000) >> 23) - 127)
120 print ("a sign:", ((a
& 0x80000000) >> 31))
123 print ("b mantissa:", b
& 0x7fffff)
124 print ("b exponent:", ((b
& 0x7f800000) >> 23) - 127)
125 print ("b sign:", ((b
& 0x80000000) >> 31))
127 print (hex(expected
))
128 print ("expected mantissa:", expected
& 0x7fffff)
129 print ("expected exponent:", ((expected
& 0x7f800000) >> 23) - 127)
130 print ("expected sign:", ((expected
& 0x80000000) >> 31))
133 print ("actual mantissa:", actual
& 0x7fffff)
134 print ("actual exponent:", ((actual
& 0x7f800000) >> 23) - 127)
135 print ("actual sign:", ((actual
& 0x80000000) >> 31))
139 corner_cases
= [0x80000000, 0x00000000, 0x7f800000, 0xff800000,
140 0x7fc00000, 0xffc00000]
142 def run_corner_cases(dut
, count
, op
):
144 from itertools
import permutations
145 stimulus_a
= [i
[0] for i
in permutations(corner_cases
, 2)]
146 stimulus_b
= [i
[1] for i
in permutations(corner_cases
, 2)]
147 yield from run_test(dut
, stimulus_a
, stimulus_b
, op
)
148 count
+= len(stimulus_a
)
149 print (count
, "vectors passed")
151 def run_test_2(dut
, stimulus_a
, stimulus_b
, op
):
152 yield from run_test(dut
, stimulus_a
, stimulus_b
, op
)
153 yield from run_test(dut
, stimulus_b
, stimulus_a
, op
)
155 def run_cases(dut
, count
, op
, fixed_num
, num_entries
):
156 if isinstance(fixed_num
, int):
157 stimulus_a
= [fixed_num
for i
in range(num_entries
)]
158 report
= hex(fixed_num
)
160 stimulus_a
= fixed_num
163 stimulus_b
= [randint(0, 1<<32) for i
in range(num_entries
)]
164 yield from run_test_2(dut
, stimulus_a
, stimulus_b
, op
)
165 count
+= len(stimulus_a
)
166 print (count
, "vectors passed 2^32", report
)
168 # non-canonical NaNs.
169 stimulus_b
= [set_exponent(randint(0, 1<<32), 128) \
170 for i
in range(num_entries
)]
171 yield from run_test_2(dut
, stimulus_a
, stimulus_b
, op
)
172 count
+= len(stimulus_a
)
173 print (count
, "vectors passed Non-Canonical NaN", report
)
176 stimulus_b
= [set_exponent(randint(0, 1<<32), -127) \
177 for i
in range(num_entries
)]
178 yield from run_test_2(dut
, stimulus_a
, stimulus_b
, op
)
179 count
+= len(stimulus_a
)
180 print (count
, "vectors passed exp=-127", report
)
183 stimulus_b
= [set_exponent(randint(0, 1<<32), -126) \
184 for i
in range(num_entries
)]
185 yield from run_test_2(dut
, stimulus_a
, stimulus_b
, op
)
186 count
+= len(stimulus_a
)
187 print (count
, "vectors passed exp=-126", report
)
190 stimulus_b
= [set_exponent(randint(0, 1<<32), 127) \
191 for i
in range(num_entries
)]
192 yield from run_test_2(dut
, stimulus_a
, stimulus_b
, op
)
193 count
+= len(stimulus_a
)
194 print (count
, "vectors passed exp=127", report
)
198 def run_edge_cases(dut
, count
, op
):
200 for testme
in corner_cases
:
201 count
= yield from run_cases(dut
, count
, op
, testme
, 10)
203 for i
in range(100000):
204 stimulus_a
= [randint(0, 1<<32) for i
in range(10)]
205 count
= yield from run_cases(dut
, count
, op
, stimulus_a
, 10)