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#include "cutlass_unit_test.h"

#include <iostream>
#include <iomanip>
#include <utility>
#include <type_traits>
#include <vector>
#include <numeric>

#include <thrust/host_vector.h>
#include <thrust/device_vector.h>

#include <cute/tensor.hpp>

using namespace cute;

__global__ void
test(double const* g_in, double* g_out)
{
  extern __shared__ double smem[];

  smem[threadIdx.x] = g_in[threadIdx.x];

  __syncthreads();

  g_out[threadIdx.x] = 2 * smem[threadIdx.x];
}

__global__ void
test2(double const* g_in, double* g_out)
{
  using namespace cute;

  extern __shared__ double smem[];

  auto s_tensor = make_tensor(make_smem_ptr(smem + threadIdx.x), Int<1>{});
  auto g_tensor = make_tensor(make_gmem_ptr(g_in + threadIdx.x), Int<1>{});

  copy(g_tensor, s_tensor);

  cp_async_fence();
  cp_async_wait<0>();
  __syncthreads();

  g_out[threadIdx.x] = 2 * smem[threadIdx.x];
}

TEST(SM80_CuTe_Ampere, CpAsync)
{
  constexpr int count = 32;
  thrust::host_vector<double> h_in(count);
  for (int i = 0; i < count; ++i) {
    h_in[i] = double(i);
  }

  thrust::device_vector<double> d_in(h_in);

  thrust::device_vector<double> d_out(count, -1);
  test<<<1, count, sizeof(double) * count>>>(
    thrust::raw_pointer_cast(d_in.data()),
    thrust::raw_pointer_cast(d_out.data()));
  thrust::host_vector<double> h_result = d_out;

  thrust::device_vector<double> d_out_cp_async(count, -2);
  test2<<<1, count, sizeof(double) * count>>>(
    thrust::raw_pointer_cast(d_in.data()),
    thrust::raw_pointer_cast(d_out_cp_async.data()));
  thrust::host_vector<double> h_result_cp_async = d_out_cp_async;

  for (int i = 0; i < count; ++i) {
    EXPECT_EQ(h_result[i], h_result_cp_async[i]);
  }
}