1 
2 #include "RenderScript.h"
3 
4 #include "ScriptC_mono.h"
5 
test_compute()6 int test_compute()
7 {
8     bool failed = false;
9 
10     {
11         sp<RS> rs = new RS();
12         printf("New RS %p\n", rs.get());
13 
14         // only legitimate because this is a standalone executable
15         bool r = rs->init("/system/bin");
16         printf("Init returned %i\n", r);
17 
18         sp<const Element> e = Element::RGBA_8888(rs);
19         printf("Element %p\n", e.get());
20 
21         Type::Builder tb(rs, e);
22         tb.setX(128);
23         tb.setY(128);
24         sp<const Type> t = tb.create();
25         printf("Type %p\n", t.get());
26 
27 
28         sp<Allocation> a1 = Allocation::createSized(rs, e, 1000);
29         printf("Allocation %p\n", a1.get());
30 
31         sp<Allocation> ain = Allocation::createTyped(rs, t);
32         sp<Allocation> aout = Allocation::createTyped(rs, t);
33         printf("Allocation %p %p\n", ain.get(), aout.get());
34 
35         sp<ScriptC_mono> sc = new ScriptC_mono(rs);
36         printf("new script\n");
37 
38         sc->set_alloc(a1);
39         sc->set_elem(e);
40         sc->set_type(t);
41         sc->set_script(sc);
42         sc->set_script(nullptr);
43         sp<const Sampler> samp = Sampler::CLAMP_NEAREST(rs);
44         sc->set_sampler(samp);
45 
46         // We read back the status from the script-side via a "failed" allocation.
47         sp<const Element> failed_e = Element::BOOLEAN(rs);
48         Type::Builder failed_tb(rs, failed_e);
49         failed_tb.setX(1);
50         sp<const Type> failed_t = failed_tb.create();
51         sp<Allocation> failed_alloc = Allocation::createTyped(rs, failed_t);
52 
53         failed_alloc->copy1DRangeFrom(0, failed_t->getCount(), &failed);
54         sc->bind_failed(failed_alloc);
55 
56         uint32_t *buf = new uint32_t[t->getCount()];
57         for (uint32_t ct=0; ct < t->getCount(); ct++) {
58             buf[ct] = ct | (ct << 16);
59         }
60         ain->copy1DRangeFrom(0, t->getCount(), buf);
61         delete [] buf;
62 
63         sc->forEach_root(ain, aout);
64 
65         sc->invoke_foo(99, 3.1f);
66         sc->set_g_f(39.9f);
67         sc->set_g_i(-14);
68         sc->invoke_foo(99, 3.1f);
69         printf("for each done\n");
70 
71         sc->invoke_bar(47, -3, 'c', -7, 14, -8);
72 
73         // Verify a simple kernel.
74         {
75             static const uint32_t xDim = 7;
76             static const uint32_t yDim = 7;
77             sp<const Element> e = Element::I32(rs);
78             Type::Builder tb(rs, e);
79             tb.setX(xDim);
80             tb.setY(yDim);
81             sp<const Type> t = tb.create();
82             sp<Allocation> kern1_in = Allocation::createTyped(rs, t);
83             sp<Allocation> kern1_out = Allocation::createTyped(rs, t);
84 
85             int *buf = new int[t->getCount()];
86             for (uint32_t ct=0; ct < t->getCount(); ct++) {
87                 buf[ct] = 5;
88             }
89             kern1_in->copy2DRangeFrom(0, 0, xDim, yDim, buf);
90             delete [] buf;
91 
92             sc->forEach_kern1(kern1_in, kern1_out);
93             sc->forEach_verify_kern1(kern1_out);
94 
95             rs->finish();
96             failed_alloc->copy1DTo(&failed);
97         }
98     }
99 
100     return failed;
101 }
102 
main()103 int main() {
104     bool failed = test_compute();
105 
106     if (failed) {
107         printf("TEST FAILED!\n");
108     } else {
109         printf("TEST PASSED!\n");
110     }
111 
112     return failed;
113 }
114