X-Git-Url: https://git.libre-soc.org/?a=blobdiff_plain;f=src%2Fadd%2Funit_test_single.py;h=2b0d9e569e2a86d3382ef17579fc62cf63fa835e;hb=6bff1a997f3846872cf489c24b5c01426c4dc97c;hp=19f7cd65e7b07889e28e0f505b4f9daa8c8fe311;hpb=4527b5644ba6e6c8d7ee8d1990775ff266011433;p=ieee754fpu.git

diff --git a/src/add/unit_test_single.py b/src/add/unit_test_single.py
index 19f7cd65..2b0d9e56 100644
--- a/src/add/unit_test_single.py
+++ b/src/add/unit_test_single.py
@@ -36,63 +36,112 @@ def match(x, y):
         (x == y)
         )
 
+def get_rs_case(dut, a, b, mid):
+    in_a, in_b = dut.rs[0]
+    out_z = dut.res[0]
+    yield dut.ids.in_mid.eq(mid)
+    yield in_a.v.eq(a)
+    yield in_a.valid_i.eq(1)
+    yield
+    yield
+    yield
+    yield
+    a_ack = (yield in_a.ready_o)
+    assert a_ack == 0
+
+    yield in_a.valid_i.eq(0)
+
+    yield in_b.v.eq(b)
+    yield in_b.valid_i.eq(1)
+    yield
+    yield
+    b_ack = (yield in_b.ready_o)
+    assert b_ack == 0
+
+    yield in_b.valid_i.eq(0)
+
+    yield out_z.ready_i.eq(1)
+
+    while True:
+        out_z_stb = (yield out_z.valid_o)
+        if not out_z_stb:
+            yield
+            continue
+        vout_z = yield out_z.v
+        #out_mid = yield dut.ids.out_mid
+        yield out_z.ready_i.eq(0)
+        yield
+        break
+
+    return vout_z, mid
+
+def check_rs_case(dut, a, b, z, mid=None):
+    if mid is None:
+        mid = randint(0, 6)
+    mid = 0
+    out_z, out_mid = yield from get_rs_case(dut, a, b, mid)
+    assert out_z == z, "Output z 0x%x not equal to expected 0x%x" % (out_z, z)
+    assert out_mid == mid, "Output mid 0x%x != expected 0x%x" % (out_mid, mid)
+
+
 def get_case(dut, a, b, mid):
-    yield dut.in_mid.eq(mid)
+    #yield dut.in_mid.eq(mid)
     yield dut.in_a.v.eq(a)
-    yield dut.in_a.stb.eq(1)
+    yield dut.in_a.valid_i_test.eq(1)
     yield
     yield
     yield
     yield
-    a_ack = (yield dut.in_a.ack)
+    a_ack = (yield dut.in_a.ready_o)
     assert a_ack == 0
 
-    yield dut.in_a.stb.eq(0)
+    yield dut.in_a.valid_i.eq(0)
 
     yield dut.in_b.v.eq(b)
-    yield dut.in_b.stb.eq(1)
+    yield dut.in_b.valid_i.eq(1)
     yield
     yield
-    b_ack = (yield dut.in_b.ack)
+    b_ack = (yield dut.in_b.ready_o)
     assert b_ack == 0
 
-    yield dut.in_b.stb.eq(0)
+    yield dut.in_b.valid_i.eq(0)
 
-    yield dut.out_z.ack.eq(1)
+    yield dut.out_z.ready_i.eq(1)
 
     while True:
-        out_z_stb = (yield dut.out_z.stb)
+        out_z_stb = (yield dut.out_z.valid_o)
         if not out_z_stb:
             yield
             continue
         out_z = yield dut.out_z.v
-        out_mid = yield dut.out_mid
-        yield dut.out_z.ack.eq(0)
+        #out_mid = yield dut.out_mid
+        yield dut.out_z.ready_i.eq(0)
         yield
         break
 
-    return out_z, out_mid
+    return out_z, mid # TODO: mid
 
 def check_case(dut, a, b, z, mid=None):
     if mid is None:
         mid = randint(0, 6)
+    mid = 0
     out_z, out_mid = yield from get_case(dut, a, b, mid)
     assert out_z == z, "Output z 0x%x not equal to expected 0x%x" % (out_z, z)
     assert out_mid == mid, "Output mid 0x%x != expected 0x%x" % (out_mid, mid)
 
 
-def run_test(dut, stimulus_a, stimulus_b, op):
+def run_test(dut, stimulus_a, stimulus_b, op, get_case_fn):
 
     expected_responses = []
     actual_responses = []
     for a, b in zip(stimulus_a, stimulus_b):
         mid = randint(0, 6)
+        mid = 0
         af = Float32.from_bits(a)
         bf = Float32.from_bits(b)
         z = op(af, bf)
         expected_responses.append((z.get_bits(), mid))
-        #print (af, bf, z)
-        actual = yield from get_case(dut, a, b, mid)
+        actual = yield from get_case_fn(dut, a, b, mid)
         actual_responses.append(actual)
 
     if len(actual_responses) < len(expected_responses):
@@ -108,6 +157,8 @@ def run_test(dut, stimulus_a, stimulus_b, op):
 
         if not passed:
 
+            expected = expected[0]
+            actual = actual[0]
             print ("Fail ... expected:", hex(expected), "actual:", hex(actual))
 
             print (hex(a))
@@ -135,20 +186,20 @@ def run_test(dut, stimulus_a, stimulus_b, op):
 corner_cases = [0x80000000, 0x00000000, 0x7f800000, 0xff800000,
                 0x7fc00000, 0xffc00000]
 
-def run_corner_cases(dut, count, op):
+def run_corner_cases(dut, count, op, get_case_fn):
     #corner cases
     from itertools import permutations
     stimulus_a = [i[0] for i in permutations(corner_cases, 2)]
     stimulus_b = [i[1] for i in permutations(corner_cases, 2)]
-    yield from run_test(dut, stimulus_a, stimulus_b, op)
+    yield from run_test(dut, stimulus_a, stimulus_b, op, get_case_fn)
     count += len(stimulus_a)
     print (count, "vectors passed")
 
-def run_test_2(dut, stimulus_a, stimulus_b, op):
-    yield from run_test(dut, stimulus_a, stimulus_b, op)
-    yield from run_test(dut, stimulus_b, stimulus_a, op)
+def run_test_2(dut, stimulus_a, stimulus_b, op, get_case_fn):
+    yield from run_test(dut, stimulus_a, stimulus_b, op, get_case_fn)
+    yield from run_test(dut, stimulus_b, stimulus_a, op, get_case_fn)
 
-def run_cases(dut, count, op, fixed_num, num_entries):
+def run_cases(dut, count, op, fixed_num, num_entries, get_case_fn):
     if isinstance(fixed_num, int):
         stimulus_a = [fixed_num for i in range(num_entries)]
         report = hex(fixed_num)
@@ -157,47 +208,48 @@ def run_cases(dut, count, op, fixed_num, num_entries):
         report = "random"
 
     stimulus_b = [randint(0, 1<<32) for i in range(num_entries)]
-    yield from run_test_2(dut, stimulus_a, stimulus_b, op)
+    yield from run_test_2(dut, stimulus_a, stimulus_b, op, get_case_fn)
     count += len(stimulus_a)
     print (count, "vectors passed 2^32", report)
 
     # non-canonical NaNs.
     stimulus_b = [set_exponent(randint(0, 1<<32), 128) \
                         for i in range(num_entries)]
-    yield from run_test_2(dut, stimulus_a, stimulus_b, op)
+    yield from run_test_2(dut, stimulus_a, stimulus_b, op, get_case_fn)
     count += len(stimulus_a)
     print (count, "vectors passed Non-Canonical NaN", report)
 
     # -127
     stimulus_b = [set_exponent(randint(0, 1<<32), -127) \
                         for i in range(num_entries)]
-    yield from run_test_2(dut, stimulus_a, stimulus_b, op)
+    yield from run_test_2(dut, stimulus_a, stimulus_b, op, get_case_fn)
     count += len(stimulus_a)
     print (count, "vectors passed exp=-127", report)
 
     # nearly zero
     stimulus_b = [set_exponent(randint(0, 1<<32), -126) \
                         for i in range(num_entries)]
-    yield from run_test_2(dut, stimulus_a, stimulus_b, op)
+    yield from run_test_2(dut, stimulus_a, stimulus_b, op, get_case_fn)
     count += len(stimulus_a)
     print (count, "vectors passed exp=-126", report)
 
     # nearly inf
     stimulus_b = [set_exponent(randint(0, 1<<32), 127) \
                         for i in range(num_entries)]
-    yield from run_test_2(dut, stimulus_a, stimulus_b, op)
+    yield from run_test_2(dut, stimulus_a, stimulus_b, op, get_case_fn)
     count += len(stimulus_a)
     print (count, "vectors passed exp=127", report)
 
     return count
 
-def run_edge_cases(dut, count, op):
+def run_edge_cases(dut, count, op, get_case_fn):
     #edge cases
     for testme in corner_cases:
-        count = yield from run_cases(dut, count, op, testme, 10)
+        count = yield from run_cases(dut, count, op, testme, 10, get_case_fn)
 
     for i in range(100000):
         stimulus_a = [randint(0, 1<<32) for i in range(10)]
-        count = yield from run_cases(dut, count, op, stimulus_a, 10)
+        count = yield from run_cases(dut, count, op, stimulus_a, 10,
+                                     get_case_fn)
     return count