bool example_test() { void *uc = NULL; int errors = 0; for (int channels = 1; channels <= 4; channels++) { errors += run_test(uc, channels, kCPU, kChunky); errors += run_test(uc, channels, kCPU, kPlanar); errors += run_test(uc, channels, kGLSL, kChunky); // GLSL+Planar is a silly combination; the conversion overhead is high. // But let's run it anyway, since it should work. errors += run_test(uc, channels, kGLSL, kPlanar); } // -------- Other stuff halide_print(uc, "Here is a random image.\n"); Image<uint8_t> randomness(300, 400, 3); (void) halide_randomize_buffer_host<uint8_t>(uc, 0, 0, 255, randomness); halide_buffer_display(randomness); halide_print(uc, "Here is a smooth image.\n"); Image<uint8_t> smoothness(300, 400, 3); (void) halide_smooth_buffer_host<uint8_t>(uc, 0, smoothness); halide_buffer_display(smoothness); return errors > 0; }
int main(void) { LogCallback equals1 = equals_func1; LogCallback1 opposite1 = opposite_func1; //LogCallback equals1 = equals_func2; //LogCallback1 opposite1 = opposite_func2; int sum = 0; randomness(equals1, opposite1, &sum); printf("sum = %i", sum); getchar(); return 0; }