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#pragma once

#include <cute/arch/copy.hpp>

#include <cute/tensor_impl.hpp>

namespace cute
{

/**
 * concept Copy_Traits
 * {
 *   using ThrID     =    // Logical thread id (tid) -> tidx
 *
 *   using SrcLayout =    // (Logical src thread id (tid), Logical src value id (vid)) -> bit
 *   using DstLayout =    // (Logical dst thread id (tid), Logical dst value id (vid)) -> bit
 *   using RefLayout =    // (Logical ref thread id (tid), Logical ref value id (vid)) -> bit
 * };
 *
 * The abstract bit ordering of the Copy_Traits (the codomain of SrcLayout, DstLayout, and RefLayout)
 * is arbitrary and only used to construct maps
 *   (ref-tid,ref-vid) -> (src-tid,src-vid)
 *   (ref-tid,ref-vid) -> (dst-tid,dst-vid)
 * in TiledCopy. The Layout_TV in TiledCopy is in accordance with the RefLayout of a Traits, then mapped to
 * the Src or Dst (tid,vid) representation on demand.
 *
 */

template <class CopyOperation, class... CopyOpArgs>
struct Copy_Traits
{
  static_assert(dependent_false<CopyOperation>, "Copy_Traits not implemented for this CopyOperation.");
};

template <class S, class D>
struct Copy_Traits<UniversalCopy<S,D>>
{
  // Logical thread id to thread idx (one-thread)
  using ThrID = Layout<_1>;

  // Map from (src-thr,src-val) to bit
  using SrcLayout = Layout<Shape<_1,Int<sizeof_bits<S>::value>>>;
  // Map from (dst-thr,dst-val) to bit
  using DstLayout = Layout<Shape<_1,Int<sizeof_bits<D>::value>>>;

  // Reference map from (thr,val) to bit
  using RefLayout = SrcLayout;
};

template <int MaxVecBits>
struct Copy_Traits<AutoVectorizingCopyWithAssumedAlignment<MaxVecBits>>
{
  // Logical thread id to thread idx (one-thread)
  using ThrID = Layout<_1>;

  // Map from (src-thr,src-val) to bit
  using SrcLayout = Layout<Shape<_1,_1>, Stride<_0,_0>>;
  // Map from (dst-thr,dst-val) to bit
  using DstLayout = Layout<Shape<_1,_1>, Stride<_0,_0>>;

  // Reference map from (thr,val) to bit
  using RefLayout = SrcLayout;
};

// Extract a CPY_Op from a CPY_Traits
template <class CPY_Traits>
struct CPY_Op {};

template <class CPY_Op_Arg, class... Args>
struct CPY_Op<Copy_Traits<CPY_Op_Arg, Args...>> {
  using type = CPY_Op_Arg;
};
  
//
// Generic copy_unpack for common argument-based Copy_Traits
//

template <class AnyCPYTraits,
          class SEngine, class SLayout,
          class DEngine, class DLayout>
CUTE_HOST_DEVICE constexpr
void
copy_unpack(AnyCPYTraits            const&,
            Tensor<SEngine,SLayout> const& src,
            Tensor<DEngine,DLayout>      & dst)
{
  using CopyOp       = typename CPY_Op<AnyCPYTraits>::type;  
  using RegistersSrc = typename CopyOp::SRegisters;
  using RegistersDst = typename CopyOp::DRegisters;
  using RegTypeSrc   = typename remove_extent<RegistersSrc>::type;
  using RegTypeDst   = typename remove_extent<RegistersDst>::type;
  constexpr int RegNumSrc = extent<RegistersSrc>::value;
  constexpr int RegNumDst = extent<RegistersDst>::value;

  Tensor rS = recast<RegTypeSrc>(src);
  Tensor rD = recast<RegTypeDst>(dst);

  CUTE_STATIC_ASSERT_V(size(rS) == Int<RegNumSrc>{},
    "Copy_Traits: src failed to vectorize into registers. Layout is incompatible with this CopyOp.");
  CUTE_STATIC_ASSERT_V(size(rD) == Int<RegNumDst>{},
    "Copy_Traits: dst failed to vectorize into registers. Layout is incompatible with this CopyOp.");

  detail::explode(detail::CallCOPY<CopyOp>{},
                  rS, make_int_sequence<RegNumSrc>{},
                  rD, make_int_sequence<RegNumDst>{});
}

// Accept mutable temporaries
template <class AnyCPYTraits,
          class SEngine, class SLayout,
          class DEngine, class DLayout>
CUTE_HOST_DEVICE constexpr
void
copy_unpack(AnyCPYTraits            const& traits,
            Tensor<SEngine,SLayout> const& src,
            Tensor<DEngine,DLayout>     && dst)
{
  copy_unpack(traits, src, dst);
}

namespace detail {

template <class CopyOp, class = void>
constexpr bool is_prefetch = false;

template <class CopyOp>
constexpr bool is_prefetch<CopyOp, void_t<typename CopyOp::PREFETCH>> = is_same_v<CopyOp, typename CopyOp::PREFETCH>;

} // end namespace detail


} // end namespace cute