1 // RUN: %clang_builtins %s %librt -o %t && %run %t
2 // REQUIRES: librt_has_divsf3
3 
4 #include "int_lib.h"
5 #include <stdio.h>
6 
7 #include "fp_test.h"
8 
9 // Returns: a / b
10 COMPILER_RT_ABI float __divsf3(float a, float b);
11 
test__divsf3(float a,float b,uint32_t expected)12 int test__divsf3(float a, float b, uint32_t expected)
13 {
14     float x = __divsf3(a, b);
15     int ret = compareResultF(x, expected);
16 
17     if (ret){
18         printf("error in test__divsf3(%.20e, %.20e) = %.20e, "
19                "expected %.20e\n", a, b, x,
20                fromRep32(expected));
21     }
22     return ret;
23 }
24 
main()25 int main()
26 {
27     // Returned NaNs are assumed to be qNaN by default
28 
29     // qNaN / any = qNaN
30     if (test__divsf3(makeQNaN32(), 3.F, UINT32_C(0x7fc00000)))
31       return 1;
32     // NaN / any = NaN
33     if (test__divsf3(makeNaN32(UINT32_C(0x123)), 3.F, UINT32_C(0x7fc00000)))
34       return 1;
35     // any / qNaN = qNaN
36     if (test__divsf3(3.F, makeQNaN32(), UINT32_C(0x7fc00000)))
37       return 1;
38     // any / NaN = NaN
39     if (test__divsf3(3.F, makeNaN32(UINT32_C(0x123)), UINT32_C(0x7fc00000)))
40       return 1;
41 
42     // +Inf / positive = +Inf
43     if (test__divsf3(makeInf32(), 3.F, UINT32_C(0x7f800000)))
44       return 1;
45     // +Inf / negative = -Inf
46     if (test__divsf3(makeInf32(), -3.F, UINT32_C(0xff800000)))
47       return 1;
48     // -Inf / positive = -Inf
49     if (test__divsf3(makeNegativeInf32(), 3.F, UINT32_C(0xff800000)))
50       return 1;
51     // -Inf / negative = +Inf
52     if (test__divsf3(makeNegativeInf32(), -3.F, UINT32_C(0x7f800000)))
53       return 1;
54 
55     // Inf / Inf = NaN
56     if (test__divsf3(makeInf32(), makeInf32(), UINT32_C(0x7fc00000)))
57       return 1;
58     // 0.0 / 0.0 = NaN
59     if (test__divsf3(+0x0.0p+0F, +0x0.0p+0F, UINT32_C(0x7fc00000)))
60       return 1;
61     // +0.0 / +Inf = +0.0
62     if (test__divsf3(+0x0.0p+0F, makeInf32(), UINT32_C(0x0)))
63       return 1;
64     // +Inf / +0.0 = +Inf
65     if (test__divsf3(makeInf32(), +0x0.0p+0F, UINT32_C(0x7f800000)))
66       return 1;
67 
68     // positive / +0.0 = +Inf
69     if (test__divsf3(+1.F, +0x0.0p+0F, UINT32_C(0x7f800000)))
70       return 1;
71     // positive / -0.0 = -Inf
72     if (test__divsf3(+1.F, -0x0.0p+0F, UINT32_C(0xff800000)))
73       return 1;
74     // negative / +0.0 = -Inf
75     if (test__divsf3(-1.F, +0x0.0p+0F, UINT32_C(0xff800000)))
76       return 1;
77     // negative / -0.0 = +Inf
78     if (test__divsf3(-1.F, -0x0.0p+0F, UINT32_C(0x7f800000)))
79       return 1;
80 
81     // 1/3
82     if (test__divsf3(1.F, 3.F, UINT32_C(0x3eaaaaab)))
83       return 1;
84     // smallest normal result
85     if (test__divsf3(0x1.0p-125F, 2.F, UINT32_C(0x00800000)))
86       return 1;
87 
88     // divisor is exactly 1.0
89     if (test__divsf3(0x1.0p+0F, 0x1.0p+0F, UINT32_C(0x3f800000)))
90       return 1;
91     // divisor is truncated to exactly 1.0 in UQ1.15
92     if (test__divsf3(0x1.0p+0F, 0x1.0001p+0F, UINT32_C(0x3f7fff00)))
93       return 1;
94 
95     // smallest normal value divided by 2.0
96     if (test__divsf3(0x1.0p-126F, 2.0F, UINT32_C(0x00400000)))
97       return 1;
98     // smallest subnormal result
99     if (test__divsf3(0x1.0p-126F, 0x1p+23F, UINT32_C(0x00000001)))
100       return 1;
101 
102     // some misc test cases obtained by fuzzing against h/w implementation
103     if (test__divsf3(-0x1.3e75e6p-108F, -0x1.cf372p+38F, UINT32_C(0x00000006)))
104       return 1;
105     if (test__divsf3(0x1.e77c54p+81F, -0x1.e77c52p-47F, UINT32_C(0xff800000)))
106       return 1;
107     if (test__divsf3(0x1.fffffep-126F, 2.F, UINT32_C(0x00800000)))
108       return 1;
109 
110     return 0;
111 }
112