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#include "HalideBuffer.h"
#include "HalideRuntime.h"
#include <math.h>
#include <stdio.h>
#include "configure.h"
using Halide::Runtime::Buffer;
const int kSize = 32;
int main(int argc, char **argv) {
Buffer<int, 3> input(kSize, kSize, 3);
input.for_each_element([&](int x, int y, int c) {
input(x, y, c) = (x * 3 + y * 5 + c * 7);
});
std::vector<Buffer<uint8_t, 2>> extras;
int extra_value = 0;
for (int i = 0; i < 3; ++i) {
extras.push_back(Buffer<uint8_t, 2>(kSize, kSize));
extras.back().fill((uint8_t)i);
extra_value += i;
}
Buffer<int16_t, 2> typed_extra(kSize, kSize);
typed_extra.fill(4);
extra_value += 4;
// Funcs are aot-compiled as buffers.
Buffer<uint16_t, 3> func_extra(kSize, kSize, 3);
func_extra.fill(5);
extra_value += 5;
const int extra_scalar = 7;
const int8_t extra_dynamic_scalar = 13;
extra_value += extra_scalar + extra_dynamic_scalar;
Buffer<int, 3> output(kSize, kSize, 3);
Buffer<float, 3> extra_buffer_output(kSize, kSize, 3);
Buffer<double, 2> extra_func_output(kSize, kSize);
Buffer<double, 2> extra_tuple_func_output_0(kSize, kSize);
Buffer<int, 2> extra_tuple_func_output_1(kSize, kSize);
Buffer<double, 2> extra_tuple_buffer_output_static_dims_0(kSize, kSize);
Buffer<int, 2> extra_tuple_buffer_output_static_dims_1(kSize, kSize);
Buffer<double, 2> extra_tuple_buffer_output_dynamic_dims_0(kSize, kSize);
Buffer<int, 2> extra_tuple_buffer_output_dynamic_dims_1(kSize, kSize);
Buffer<double, 2> extra_tuple_buffer_output_unset_types_0(kSize, kSize);
Buffer<int, 2> extra_tuple_buffer_output_unset_types_1(kSize, kSize);
const int bias = 1;
int result = configure(input, bias,
// extra inputs are in the order they were added, after all predeclared inputs
extras[0],
extras[1],
extras[2],
typed_extra,
func_extra,
extra_scalar,
extra_dynamic_scalar,
output,
// extra outputs are in the order they were added, after all predeclared outputs
extra_buffer_output,
extra_func_output,
extra_tuple_func_output_0,
extra_tuple_func_output_1,
extra_tuple_buffer_output_static_dims_0,
extra_tuple_buffer_output_static_dims_1,
extra_tuple_buffer_output_dynamic_dims_0,
extra_tuple_buffer_output_dynamic_dims_1,
extra_tuple_buffer_output_unset_types_0,
extra_tuple_buffer_output_unset_types_1);
if (result != 0) {
fprintf(stderr, "Result: %d\n", result);
exit(1);
}
output.for_each_element([&](int x, int y, int c) {
assert(output(x, y, c) == input(x, y, c) + bias + extra_value);
});
extra_buffer_output.for_each_element([&](int x, int y, int c) {
assert(extra_buffer_output(x, y, c) == output(x, y, c));
});
extra_func_output.for_each_element([&](int x, int y) {
assert(extra_func_output(x, y) == output(x, y, 0));
});
for (auto &buf : {extra_tuple_func_output_0,
extra_tuple_buffer_output_static_dims_0,
extra_tuple_buffer_output_dynamic_dims_0,
extra_tuple_buffer_output_unset_types_0}) {
buf.for_each_element([&](int x, int y) {
assert(buf(x, y) == output(x, y, 0));
});
}
for (auto &buf : {extra_tuple_func_output_1,
extra_tuple_buffer_output_static_dims_1,
extra_tuple_buffer_output_dynamic_dims_1,
extra_tuple_buffer_output_unset_types_1}) {
buf.for_each_element([&](int x, int y) {
assert(buf(x, y) == output(x, y, 1));
});
}
printf("Success!\n");
return 0;
}
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