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EmbeddingBag.h
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EmbeddingBag.h
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#include <ATen/core/Tensor.h>
#include <ATen/Config.h>
#include <cstdint>
#ifdef USE_FBGEMM
#include <fbgemm/FbgemmEmbedding.h>
#endif
namespace at::native {
void check_arguments(
const Tensor& weight,
const Tensor& indices,
const Tensor& offsets,
const int64_t mode,
const c10::optional<Tensor>& per_sample_weights,
bool include_last_offset);
void make_bag_size_out(
Tensor& bag_size_out,
const Tensor& offsets,
const Tensor& indices,
const int64_t mode,
const bool include_last_offset,
const bool requires_grad);
void make_max_indices_out(
Tensor& max_indices_out,
const Tensor& weight,
const Tensor& indices,
const Tensor& offsets,
const Tensor& bag_size,
const int64_t mode,
bool include_last_offset);
void make_offset2bag_out(
Tensor& offset2bag,
Tensor& output,
const Tensor& weight,
const Tensor& indices,
const Tensor& offsets,
const int64_t mode,
const c10::optional<Tensor>& per_sample_weights,
const int64_t padding_idx = -1);
#ifdef USE_FBGEMM
template<bool has_weight, typename TIndex, typename TData>
struct _CallbackAndBlockSize {
using TCallback = typename fbgemm::EmbeddingSpMDMKernelSignature<TData, TIndex, TIndex, TData>::Type;
int64_t blockSize = -1;
TCallback callback = nullptr;
static TCallback generateCallback(int64_t block_size) {
return fbgemm::GenerateEmbeddingSpMDM<TData, TIndex, TIndex, TData>(
block_size,
has_weight,
/* normalize_by_lengths */false,
/* prefetch */16,
/* is_weight_positional */false,
/* use_offsets */true);
}
_CallbackAndBlockSize() = default;
explicit _CallbackAndBlockSize(c10::optional<int64_t> maybe_block_size)
: blockSize(maybe_block_size.value_or(-1))
, callback(maybe_block_size.has_value() ? generateCallback(maybe_block_size.value()) : nullptr)
{}
};
template<typename... StorageMixins>
struct _EmbeddingBagKernelCacheImpl : private StorageMixins... {
_EmbeddingBagKernelCacheImpl() = default;
// use each of the mixins to store corresponding kernel and block size
explicit _EmbeddingBagKernelCacheImpl(c10::optional<int64_t> maybe_block_size)
: StorageMixins(maybe_block_size)...
{}
// this method is thread safe (call sites may call from different threads)
template<bool has_weight, typename TIndex, typename TData>
typename _CallbackAndBlockSize<has_weight, TIndex, TData>::TCallback
getCallback(int64_t block_size) const {
// if the cache doesn't store the kernel for the incoming block size
// (so it is different from the one stored in corresponding mixin)
// regenerate the kernel (not writing it into the cache so we avoid locks)
if (block_size != _CallbackAndBlockSize<has_weight, TIndex, TData>::blockSize) {
return _CallbackAndBlockSize<has_weight, TIndex, TData>::generateCallback(block_size);
}
// else retrieve the cached kernel from the corresponding mixin
return _CallbackAndBlockSize<has_weight, TIndex, TData>::callback;
}
};
// instantiate the cache with the list of storage mixins
// for each of the 8 _EmbeddingBagKernelCache* usages in the EmbeddingBag.cpp impl file
using _EmbeddingBagKernelCache = _EmbeddingBagKernelCacheImpl<
_CallbackAndBlockSize<true, int32_t, float>,
_CallbackAndBlockSize<false, int32_t, float>,
_CallbackAndBlockSize<true, int64_t, float>,
_CallbackAndBlockSize<false, int64_t, float>,
_CallbackAndBlockSize<true, int32_t, unsigned short>,
_CallbackAndBlockSize<false, int32_t, unsigned short>,
_CallbackAndBlockSize<true, int64_t, unsigned short>,
_CallbackAndBlockSize<false, int64_t, unsigned short>>;
#else
struct _EmbeddingBagKernelCache {
explicit _EmbeddingBagKernelCache(c10::optional<int64_t> /* maybe_block_size */) {}
};
#endif
void _embedding_bag_cpu_impl_out(Tensor& output, Tensor& offset2bag,
Tensor& bag_size, Tensor* max_indices,
const Tensor &weight, const Tensor &indices,
const Tensor &offsets, const int64_t mode = 0,
const c10::optional<Tensor>& per_sample_weights = c10::nullopt,
bool include_last_offset = false,
int64_t padding_idx = -1,
_EmbeddingBagKernelCache* fbgemm_kernel_cache = nullptr);
void _embedding_bag_cpu_out(
at::Tensor& output,
at::Tensor& offset2bag,
at::Tensor& bag_size,
at::Tensor* p_max_indices,
const at::Tensor& weight,
const at::Tensor& indices,
const at::Tensor& offsets,
const bool scale_grad_by_freq,
const int64_t mode,
const bool sparse,
const c10::optional<at::Tensor>& per_sample_weights,
const bool include_last_offset,
const c10::optional<int64_t>& padding_idx,
_EmbeddingBagKernelCache* fbgemm_kernel_cache = nullptr);
} // namespace at::native