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IndexKernelUtils.h
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IndexKernelUtils.h
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#pragma once
#include <ATen/native/TensorIterator.h>
#include <c10/util/irange.h>
namespace at::native {
namespace {
static bool is_constant_index(int ntensor, const int64_t* strides) {
AT_ASSERT(ntensor >= 3);
for (const auto arg : c10::irange(2, ntensor)) {
if (strides[arg] != 0) {
return false;
}
}
return true;
}
struct Indexer {
Indexer(int64_t num_indexers, char** indexers, const int64_t* indexer_strides,
IntArrayRef original_sizes, IntArrayRef original_strides)
: num_indexers(num_indexers)
, indexers(indexers)
, indexer_strides(indexer_strides)
, original_strides(original_strides.data())
, original_sizes(original_sizes.data()) {
AT_ASSERT(static_cast<int64_t>(original_strides.size()) == num_indexers);
AT_ASSERT(static_cast<int64_t>(original_sizes.size()) == num_indexers);
}
int64_t num_indexers;
char** indexers;
const int64_t* indexer_strides;
const int64_t* original_strides;
const int64_t* original_sizes;
int64_t get(int64_t idx) {
int64_t offset = 0;
for (const auto j : c10::irange(num_indexers)) {
int64_t value = *(int64_t*)&indexers[j][idx * indexer_strides[j]];
int64_t size = original_sizes[j];
TORCH_CHECK_INDEX(value >= -size && value < size,
"index ", value, " is out of bounds for dimension ", j, " with size ", size);
if (value < 0) {
value += size;
}
offset += value * original_strides[j];
}
return offset;
}
};
} // anonymous namespace
template <typename scalar_t, typename func_t>
void cpu_index_kernel(TensorIteratorBase& iter, IntArrayRef index_size, IntArrayRef index_stride,
const func_t& f, bool serial_execution=false)
{
int ntensor = iter.ntensors();
// When launch the index parallel version, set a relative small grain size less than the INTERNAL::GRAIN_SIZE
// to make the whole available thread numbers get more balanced work load and a better cache location.
// The grain size here is chosen by the op benchmark to overcome the thread launch overhead
const int index_parallel_grain_size = 3000;
auto loop = [&](char** data, const int64_t* strides, int64_t n) {
auto indexer = Indexer(ntensor - 2, &data[2], &strides[2], index_size, index_stride);
char* dst = data[0];
char* src = data[1];
if (is_constant_index(ntensor, strides)) {
// specialization for when every element uses the same index
int64_t offset = indexer.get(0);
for (const auto i : c10::irange(n)) {
f(dst + strides[0] * i, src + strides[1] * i, offset);
}
} else {
for (const auto i : c10::irange(n)) {
int64_t offset = indexer.get(i);
f(dst + strides[0] * i, src + strides[1] * i, offset);
}
}
};
if (serial_execution) {
iter.serial_for_each(loop, {0, iter.numel()});
} else {
iter.for_each(loop, index_parallel_grain_size);
}
}
} // at
// native