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#pragma once

#include <cute/config.hpp>

#include <cute/numeric/integer_sequence.hpp>

#if (! defined (__clang__) && __CUDACC_VER_MAJOR__ == 10 && __CUDACC_VER_MINOR__ >= 2)
  extern "C" {
  // This NVVM intrinsic is subject to change in future versions of CUDA.
  // Clients should not call it directly.
  CUTE_DEVICE uint32_t __nvvm_get_smem_pointer(void*);
  }
#endif

namespace cute
{

/// CUTE helper to cast SMEM pointer to unsigned
CUTE_HOST_DEVICE
uint32_t
cast_smem_ptr_to_uint(void const* const ptr)
{
// We prefer to use the new CVTA intrinsics if they are available, otherwise we will fall back to
// the previous internal intrinsics if they are available.
#if (! defined (__clang__) && defined(__CUDA_ARCH__) && __CUDACC_VER_MAJOR__ >= 11)
  //
  // This NVVM intrinsic converts an address in shared memory to a plain
  // unsigned integer. This is necessary to pass to shared memory instructions
  // in inline PTX.
  //
  // In CUDA 11 and beyond, this replaces __nvvm_get_smem_pointer()  [only available in 10.2].
  //
  //__device__ size_t __cvta_generic_to_shared(void* ptr);

  /// CUTE helper to get SMEM pointer
  return static_cast<uint32_t>(__cvta_generic_to_shared(ptr));

#elif (! defined (__clang__) && defined(__CUDA_ARCH__) &&  __CUDACC_VER_MAJOR__ == 10 && __CUDACC_VER_MINOR__ >= 2)

  return __nvvm_get_smem_pointer(ptr);

#elif defined(__CUDA_ARCH__)

  uint32_t smem_ptr;

  asm(
  "{ .reg .u64 smem_ptr; cvta.to.shared.u64 smem_ptr, %1; cvt.u32.u64 %0, smem_ptr; }\n" 
    : "=r"(smem_ptr) : "l"(ptr));

  return smem_ptr;

#else


  (void) ptr;
  printf("ERROR: cast_smem_ptr_to_uint not supported but used.\n");
  return 0;

#endif
}

//
// Utility for pointer interfaces
//

namespace detail {

template <class Fn,
          class PtrS, int... Is,
          class PtrD, int... Id>
CUTE_HOST_DEVICE constexpr
void
explode(Fn fn,
        PtrS&& s, int_sequence<Is...>,
        PtrD&& d, int_sequence<Id...>)
{
  return fn(s[Is]..., d[Id]...);
}

template <class Fn,
          class PtrA, int... Ia,
          class PtrB, int... Ib,
          class PtrC, int... Ic>
CUTE_HOST_DEVICE constexpr
void
explode(Fn fn,
        PtrA&& a, int_sequence<Ia...>,
        PtrB&& b, int_sequence<Ib...>,
        PtrC&& c, int_sequence<Ic...>)
{
  return fn(a[Ia]..., b[Ib]..., c[Ic]...);
}

template <class Fn,
          class PtrD, int... Id,
          class PtrA, int... Ia,
          class PtrB, int... Ib,
          class PtrC, int... Ic>
CUTE_HOST_DEVICE constexpr
void
explode(Fn fn,
        PtrD&& d, int_sequence<Id...>,
        PtrA&& a, int_sequence<Ia...>,
        PtrB&& b, int_sequence<Ib...>,
        PtrC&& c, int_sequence<Ic...>)
{
  return fn(d[Id]..., a[Ia]..., b[Ib]..., c[Ic]...);
}

} // end namespace detail

template <int SRegCount, int DRegCount,
          class Fn, class PtrS, class PtrD>
CUTE_HOST_DEVICE constexpr
void
explode(Fn fn, PtrS&& s, PtrD&& d)
{
  return detail::explode(fn,
                         s, make_int_sequence<SRegCount>{},
                         d, make_int_sequence<DRegCount>{});
}

template <int ARegCount, int BRegCount, int CRegCount, 
          class Fn, class PtrA, class PtrB, class PtrC>
CUTE_HOST_DEVICE constexpr
void
explode(Fn fn, PtrA&& a, PtrB&& b, PtrC&& c)
{
  return detail::explode(fn,
                         a, make_int_sequence<ARegCount>{},
                         b, make_int_sequence<BRegCount>{},
                         c, make_int_sequence<CRegCount>{});
}

template <int DRegCount, int ARegCount, int BRegCount, int CRegCount,
          class Fn, class PtrD, class PtrA, class PtrB, class PtrC>
CUTE_HOST_DEVICE constexpr
void
explode(Fn fn, PtrD&& d, PtrA&& a, PtrB&& b, PtrC&& c)
{
  return detail::explode(fn,
                         d, make_int_sequence<DRegCount>{},
                         a, make_int_sequence<ARegCount>{},
                         b, make_int_sequence<BRegCount>{},
                         c, make_int_sequence<CRegCount>{});
}

} // end namespace cute