helper_cuda.h

// !!! This is a file automatically generated by hipify!!!
#include <ATen/dtk_macros.h>
/* Copyright (c) 2019, NVIDIA CORPORATION. All rights reserved.
 *
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions
 * are met:
 *  * Redistributions of source code must retain the above copyright
 *    notice, this list of conditions and the following disclaimer.
 *  * Redistributions in binary form must reproduce the above copyright
 *    notice, this list of conditions and the following disclaimer in the
 *    documentation and/or other materials provided with the distribution.
 *  * Neither the name of NVIDIA CORPORATION nor the names of its
 *    contributors may be used to endorse or promote products derived
 *    from this software without specific prior written permission.
 *
 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS ``AS IS'' AND ANY
 * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
 * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE COPYRIGHT OWNER OR
 * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
 * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
 * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
 * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY
 * OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
 * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
 * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
 */

////////////////////////////////////////////////////////////////////////////////
// These are CUDA Helper functions for initialization and error checking
// This file is clipped from the original header file by laekov

#include <hip/hip_runtime.h>
#include <hipblas/hipblas.h>
#include <stdio.h>
#include <stdlib.h>

#ifndef HELPER_CUDA_H
#define HELPER_CUDA_H

static const char *_cudaGetErrorEnum(hipError_t error) {
  return hipGetErrorName(error);
}

#ifdef CUDA_DRIVER_API
// CUDA Driver API errors
static const char *_cudaGetErrorEnum(hipError_t error) {
  static char unknown[] = "<unknown>";
  const char *ret = NULL;
  hipGetErrorName(error, &ret);
  return ret ? ret : unknown;
}
#endif

#if defined(FMOE_USE_HIP)  && defined(__CUDA_MIX_HIP__)
static const char *_cudaGetErrorEnum(hipblasStatus_t error) {
  switch (error) {

    case HIPBLAS_STATUS_SUCCESS:
      return "HIPBLAS_STATUS_SUCCESS";

    case HIPBLAS_STATUS_NOT_INITIALIZED:
      return "HIPBLAS_STATUS_NOT_INITIALIZED";

    case HIPBLAS_STATUS_ARCH_MISMATCH:
      return "HIPBLAS_STATUS_ARCH_MISMATCH";

    case HIPBLAS_STATUS_INVALID_VALUE:
      return "HIPBLAS_STATUS_INVALID_VALUE:";

    case rocblas_status_invalid_size:
      return "rocblas_status_invalid_size";

    case HIPBLAS_STATUS_ALLOC_FAILED:
      return "HIPBLAS_STATUS_ALLOC_FAILED";

    case HIPBLAS_STATUS_INTERNAL_ERROR:
      return "HIPBLAS_STATUS_INTERNAL_ERROR";

    case rocblas_status_perf_degraded:
      return "rocblas_status_perf_degraded";

    case rocblas_status_size_query_mismatch:
      return "rocblas_status_size_query_mismatch";

    case rocblas_status_size_increased:
      return "rocblas_status_size_increased";

    case rocblas_status_size_unchanged:
      return "rocblas_status_size_unchanged";

    case rocblas_status_invalid_value:
      return "rocblas_status_invalid_value";

    case rocblas_status_continue:
      return "rocblas_status_continue";
  }

  return "<unknown>";
}
#else
// cuBLAS API errors
static const char *_cudaGetErrorEnum(hipblasStatus_t error) {
  switch (error) {
    case HIPBLAS_STATUS_SUCCESS:
      return "HIPBLAS_STATUS_SUCCESS";

    case HIPBLAS_STATUS_NOT_INITIALIZED:
      return "HIPBLAS_STATUS_NOT_INITIALIZED";

    case HIPBLAS_STATUS_ALLOC_FAILED:
      return "HIPBLAS_STATUS_ALLOC_FAILED";

    case HIPBLAS_STATUS_INVALID_VALUE:
      return "HIPBLAS_STATUS_INVALID_VALUE";

    case HIPBLAS_STATUS_ARCH_MISMATCH:
      return "HIPBLAS_STATUS_ARCH_MISMATCH";

    case HIPBLAS_STATUS_MAPPING_ERROR:
      return "HIPBLAS_STATUS_MAPPING_ERROR";

    case HIPBLAS_STATUS_EXECUTION_FAILED:
      return "HIPBLAS_STATUS_EXECUTION_FAILED";

    case HIPBLAS_STATUS_INTERNAL_ERROR:
      return "HIPBLAS_STATUS_INTERNAL_ERROR";

    case HIPBLAS_STATUS_NOT_SUPPORTED:
      return "HIPBLAS_STATUS_NOT_SUPPORTED";

    //case CUBLAS_STATUS_LICENSE_ERROR:
     // return "HIPBLAS_STATUS_INTERNAL_ERROR";
  }

  return "<unknown>";
}
#endif

#ifdef _CUFFT_H_
// cuFFT API errors
static const char *_cudaGetErrorEnum(hipfftResult error) {
  switch (error) {
    case HIPFFT_SUCCESS:
      return "HIPFFT_SUCCESS";

    case HIPFFT_INVALID_PLAN:
      return "HIPFFT_INVALID_PLAN";

    case HIPFFT_ALLOC_FAILED:
      return "HIPFFT_ALLOC_FAILED";

    case HIPFFT_INVALID_TYPE:
      return "HIPFFT_INVALID_TYPE";

    case HIPFFT_INVALID_VALUE:
      return "HIPFFT_INVALID_VALUE";

    case HIPFFT_INTERNAL_ERROR:
      return "HIPFFT_INTERNAL_ERROR";

    case HIPFFT_EXEC_FAILED:
      return "HIPFFT_EXEC_FAILED";

    case HIPFFT_SETUP_FAILED:
      return "HIPFFT_SETUP_FAILED";

    case HIPFFT_INVALID_SIZE:
      return "HIPFFT_INVALID_SIZE";

    case HIPFFT_UNALIGNED_DATA:
      return "HIPFFT_UNALIGNED_DATA";

    case HIPFFT_INCOMPLETE_PARAMETER_LIST:
      return "HIPFFT_INCOMPLETE_PARAMETER_LIST";

    case HIPFFT_INVALID_DEVICE:
      return "HIPFFT_INVALID_DEVICE";

    case HIPFFT_PARSE_ERROR:
      return "HIPFFT_PARSE_ERROR";

    case HIPFFT_NO_WORKSPACE:
      return "HIPFFT_NO_WORKSPACE";

    case HIPFFT_NOT_IMPLEMENTED:
      return "HIPFFT_NOT_IMPLEMENTED";

    case HIPFFT_LICENSE_ERROR:
      return "HIPFFT_LICENSE_ERROR";

    case HIPFFT_NOT_SUPPORTED:
      return "HIPFFT_NOT_SUPPORTED";
  }

  return "<unknown>";
}
#endif

#ifdef CUSPARSEAPI
// cuSPARSE API errors
static const char *_cudaGetErrorEnum(hipsparseStatus_t error) {
  switch (error) {
    case HIPSPARSE_STATUS_SUCCESS:
      return "HIPSPARSE_STATUS_SUCCESS";

    case HIPSPARSE_STATUS_NOT_INITIALIZED:
      return "HIPSPARSE_STATUS_NOT_INITIALIZED";

    case HIPSPARSE_STATUS_ALLOC_FAILED:
      return "HIPSPARSE_STATUS_ALLOC_FAILED";

    case HIPSPARSE_STATUS_INVALID_VALUE:
      return "HIPSPARSE_STATUS_INVALID_VALUE";

    case HIPSPARSE_STATUS_ARCH_MISMATCH:
      return "HIPSPARSE_STATUS_ARCH_MISMATCH";

    case HIPSPARSE_STATUS_MAPPING_ERROR:
      return "HIPSPARSE_STATUS_MAPPING_ERROR";

    case HIPSPARSE_STATUS_EXECUTION_FAILED:
      return "HIPSPARSE_STATUS_EXECUTION_FAILED";

    case HIPSPARSE_STATUS_INTERNAL_ERROR:
      return "HIPSPARSE_STATUS_INTERNAL_ERROR";

    case HIPSPARSE_STATUS_MATRIX_TYPE_NOT_SUPPORTED:
      return "HIPSPARSE_STATUS_MATRIX_TYPE_NOT_SUPPORTED";
  }

  return "<unknown>";
}
#endif

#ifdef CUSOLVER_COMMON_H_
// cuSOLVER API errors
static const char *_cudaGetErrorEnum(cusolverStatus_t error) {
  switch (error) {
    case CUSOLVER_STATUS_SUCCESS:
      return "CUSOLVER_STATUS_SUCCESS";
    case CUSOLVER_STATUS_NOT_INITIALIZED:
      return "CUSOLVER_STATUS_NOT_INITIALIZED";
    case CUSOLVER_STATUS_ALLOC_FAILED:
      return "CUSOLVER_STATUS_ALLOC_FAILED";
    case CUSOLVER_STATUS_INVALID_VALUE:
      return "CUSOLVER_STATUS_INVALID_VALUE";
    case CUSOLVER_STATUS_ARCH_MISMATCH:
      return "CUSOLVER_STATUS_ARCH_MISMATCH";
    case CUSOLVER_STATUS_MAPPING_ERROR:
      return "CUSOLVER_STATUS_MAPPING_ERROR";
    case CUSOLVER_STATUS_EXECUTION_FAILED:
      return "CUSOLVER_STATUS_EXECUTION_FAILED";
    case CUSOLVER_STATUS_INTERNAL_ERROR:
      return "CUSOLVER_STATUS_INTERNAL_ERROR";
    case CUSOLVER_STATUS_MATRIX_TYPE_NOT_SUPPORTED:
      return "CUSOLVER_STATUS_MATRIX_TYPE_NOT_SUPPORTED";
    case CUSOLVER_STATUS_NOT_SUPPORTED:
      return "CUSOLVER_STATUS_NOT_SUPPORTED ";
    case CUSOLVER_STATUS_ZERO_PIVOT:
      return "CUSOLVER_STATUS_ZERO_PIVOT";
    case CUSOLVER_STATUS_INVALID_LICENSE:
      return "CUSOLVER_STATUS_INVALID_LICENSE";
  }

  return "<unknown>";
}
#endif

#ifdef CURAND_H_
// cuRAND API errors
static const char *_cudaGetErrorEnum(hiprandStatus_t error) {
  switch (error) {
    case HIPRAND_STATUS_SUCCESS:
      return "HIPRAND_STATUS_SUCCESS";

    case HIPRAND_STATUS_VERSION_MISMATCH:
      return "HIPRAND_STATUS_VERSION_MISMATCH";

    case HIPRAND_STATUS_NOT_INITIALIZED:
      return "HIPRAND_STATUS_NOT_INITIALIZED";

    case HIPRAND_STATUS_ALLOCATION_FAILED:
      return "HIPRAND_STATUS_ALLOCATION_FAILED";

    case HIPRAND_STATUS_TYPE_ERROR:
      return "HIPRAND_STATUS_TYPE_ERROR";

    case HIPRAND_STATUS_OUT_OF_RANGE:
      return "HIPRAND_STATUS_OUT_OF_RANGE";

    case HIPRAND_STATUS_LENGTH_NOT_MULTIPLE:
      return "HIPRAND_STATUS_LENGTH_NOT_MULTIPLE";

    case HIPRAND_STATUS_DOUBLE_PRECISION_REQUIRED:
      return "HIPRAND_STATUS_DOUBLE_PRECISION_REQUIRED";

    case HIPRAND_STATUS_LAUNCH_FAILURE:
      return "HIPRAND_STATUS_LAUNCH_FAILURE";

    case HIPRAND_STATUS_PREEXISTING_FAILURE:
      return "HIPRAND_STATUS_PREEXISTING_FAILURE";

    case HIPRAND_STATUS_INITIALIZATION_FAILED:
      return "HIPRAND_STATUS_INITIALIZATION_FAILED";

    case HIPRAND_STATUS_ARCH_MISMATCH:
      return "HIPRAND_STATUS_ARCH_MISMATCH";

    case HIPRAND_STATUS_INTERNAL_ERROR:
      return "HIPRAND_STATUS_INTERNAL_ERROR";
  }

  return "<unknown>";
}
#endif

#ifdef NVJPEGAPI
// nvJPEG API errors
static const char *_cudaGetErrorEnum(nvjpegStatus_t error) {
  switch (error) {
    case NVJPEG_STATUS_SUCCESS:
      return "NVJPEG_STATUS_SUCCESS";

    case NVJPEG_STATUS_NOT_INITIALIZED:
      return "NVJPEG_STATUS_NOT_INITIALIZED";

    case NVJPEG_STATUS_INVALID_PARAMETER:
      return "NVJPEG_STATUS_INVALID_PARAMETER";

    case NVJPEG_STATUS_BAD_JPEG:
      return "NVJPEG_STATUS_BAD_JPEG";

    case NVJPEG_STATUS_JPEG_NOT_SUPPORTED:
      return "NVJPEG_STATUS_JPEG_NOT_SUPPORTED";

    case NVJPEG_STATUS_ALLOCATOR_FAILURE:
      return "NVJPEG_STATUS_ALLOCATOR_FAILURE";

    case NVJPEG_STATUS_EXECUTION_FAILED:
      return "NVJPEG_STATUS_EXECUTION_FAILED";

    case NVJPEG_STATUS_ARCH_MISMATCH:
      return "NVJPEG_STATUS_ARCH_MISMATCH";

    case NVJPEG_STATUS_INTERNAL_ERROR:
      return "NVJPEG_STATUS_INTERNAL_ERROR";
  }

  return "<unknown>";
}
#endif

#ifdef NV_NPPIDEFS_H
// NPP API errors
static const char *_cudaGetErrorEnum(NppStatus error) {
  switch (error) {
    case NPP_NOT_SUPPORTED_MODE_ERROR:
      return "NPP_NOT_SUPPORTED_MODE_ERROR";

    case NPP_ROUND_MODE_NOT_SUPPORTED_ERROR:
      return "NPP_ROUND_MODE_NOT_SUPPORTED_ERROR";

    case NPP_RESIZE_NO_OPERATION_ERROR:
      return "NPP_RESIZE_NO_OPERATION_ERROR";

    case NPP_NOT_SUFFICIENT_COMPUTE_CAPABILITY:
      return "NPP_NOT_SUFFICIENT_COMPUTE_CAPABILITY";

#if ((NPP_VERSION_MAJOR << 12) + (NPP_VERSION_MINOR << 4)) <= 0x5000

    case NPP_BAD_ARG_ERROR:
      return "NPP_BAD_ARGUMENT_ERROR";

    case NPP_COEFF_ERROR:
      return "NPP_COEFFICIENT_ERROR";

    case NPP_RECT_ERROR:
      return "NPP_RECTANGLE_ERROR";

    case NPP_QUAD_ERROR:
      return "NPP_QUADRANGLE_ERROR";

    case NPP_MEM_ALLOC_ERR:
      return "NPP_MEMORY_ALLOCATION_ERROR";

    case NPP_HISTO_NUMBER_OF_LEVELS_ERROR:
      return "NPP_HISTOGRAM_NUMBER_OF_LEVELS_ERROR";

    case NPP_INVALID_INPUT:
      return "NPP_INVALID_INPUT";

    case NPP_POINTER_ERROR:
      return "NPP_POINTER_ERROR";

    case NPP_WARNING:
      return "NPP_WARNING";

    case NPP_ODD_ROI_WARNING:
      return "NPP_ODD_ROI_WARNING";
#else

    // These are for CUDA 5.5 or higher
    case NPP_BAD_ARGUMENT_ERROR:
      return "NPP_BAD_ARGUMENT_ERROR";

    case NPP_COEFFICIENT_ERROR:
      return "NPP_COEFFICIENT_ERROR";

    case NPP_RECTANGLE_ERROR:
      return "NPP_RECTANGLE_ERROR";

    case NPP_QUADRANGLE_ERROR:
      return "NPP_QUADRANGLE_ERROR";

    case NPP_MEMORY_ALLOCATION_ERR:
      return "NPP_MEMORY_ALLOCATION_ERROR";

    case NPP_HISTOGRAM_NUMBER_OF_LEVELS_ERROR:
      return "NPP_HISTOGRAM_NUMBER_OF_LEVELS_ERROR";

    case NPP_INVALID_HOST_POINTER_ERROR:
      return "NPP_INVALID_HOST_POINTER_ERROR";

    case NPP_INVALID_DEVICE_POINTER_ERROR:
      return "NPP_INVALID_DEVICE_POINTER_ERROR";
#endif

    case NPP_LUT_NUMBER_OF_LEVELS_ERROR:
      return "NPP_LUT_NUMBER_OF_LEVELS_ERROR";

    case NPP_TEXTURE_BIND_ERROR:
      return "NPP_TEXTURE_BIND_ERROR";

    case NPP_WRONG_INTERSECTION_ROI_ERROR:
      return "NPP_WRONG_INTERSECTION_ROI_ERROR";

    case NPP_NOT_EVEN_STEP_ERROR:
      return "NPP_NOT_EVEN_STEP_ERROR";

    case NPP_INTERPOLATION_ERROR:
      return "NPP_INTERPOLATION_ERROR";

    case NPP_RESIZE_FACTOR_ERROR:
      return "NPP_RESIZE_FACTOR_ERROR";

    case NPP_HAAR_CLASSIFIER_PIXEL_MATCH_ERROR:
      return "NPP_HAAR_CLASSIFIER_PIXEL_MATCH_ERROR";

#if ((NPP_VERSION_MAJOR << 12) + (NPP_VERSION_MINOR << 4)) <= 0x5000

    case NPP_MEMFREE_ERR:
      return "NPP_MEMFREE_ERR";

    case NPP_MEMSET_ERR:
      return "NPP_MEMSET_ERR";

    case NPP_MEMCPY_ERR:
      return "NPP_MEMCPY_ERROR";

    case NPP_MIRROR_FLIP_ERR:
      return "NPP_MIRROR_FLIP_ERR";
#else

    case NPP_MEMFREE_ERROR:
      return "NPP_MEMFREE_ERROR";

    case NPP_MEMSET_ERROR:
      return "NPP_MEMSET_ERROR";

    case NPP_MEMCPY_ERROR:
      return "NPP_MEMCPY_ERROR";

    case NPP_MIRROR_FLIP_ERROR:
      return "NPP_MIRROR_FLIP_ERROR";
#endif

    case NPP_ALIGNMENT_ERROR:
      return "NPP_ALIGNMENT_ERROR";

    case NPP_STEP_ERROR:
      return "NPP_STEP_ERROR";

    case NPP_SIZE_ERROR:
      return "NPP_SIZE_ERROR";

    case NPP_NULL_POINTER_ERROR:
      return "NPP_NULL_POINTER_ERROR";

    case NPP_CUDA_KERNEL_EXECUTION_ERROR:
      return "NPP_CUDA_KERNEL_EXECUTION_ERROR";

    case NPP_NOT_IMPLEMENTED_ERROR:
      return "NPP_NOT_IMPLEMENTED_ERROR";

    case NPP_ERROR:
      return "NPP_ERROR";

    case NPP_SUCCESS:
      return "NPP_SUCCESS";

    case NPP_WRONG_INTERSECTION_QUAD_WARNING:
      return "NPP_WRONG_INTERSECTION_QUAD_WARNING";

    case NPP_MISALIGNED_DST_ROI_WARNING:
      return "NPP_MISALIGNED_DST_ROI_WARNING";

    case NPP_AFFINE_QUAD_INCORRECT_WARNING:
      return "NPP_AFFINE_QUAD_INCORRECT_WARNING";

    case NPP_DOUBLE_SIZE_WARNING:
      return "NPP_DOUBLE_SIZE_WARNING";

    case NPP_WRONG_INTERSECTION_ROI_WARNING:
      return "NPP_WRONG_INTERSECTION_ROI_WARNING";

#if ((NPP_VERSION_MAJOR << 12) + (NPP_VERSION_MINOR << 4)) >= 0x6000
    /* These are 6.0 or higher */
    case NPP_LUT_PALETTE_BITSIZE_ERROR:
      return "NPP_LUT_PALETTE_BITSIZE_ERROR";

    case NPP_ZC_MODE_NOT_SUPPORTED_ERROR:
      return "NPP_ZC_MODE_NOT_SUPPORTED_ERROR";

    case NPP_QUALITY_INDEX_ERROR:
      return "NPP_QUALITY_INDEX_ERROR";

    case NPP_CHANNEL_ORDER_ERROR:
      return "NPP_CHANNEL_ORDER_ERROR";

    case NPP_ZERO_MASK_VALUE_ERROR:
      return "NPP_ZERO_MASK_VALUE_ERROR";

    case NPP_NUMBER_OF_CHANNELS_ERROR:
      return "NPP_NUMBER_OF_CHANNELS_ERROR";

    case NPP_COI_ERROR:
      return "NPP_COI_ERROR";

    case NPP_DIVISOR_ERROR:
      return "NPP_DIVISOR_ERROR";

    case NPP_CHANNEL_ERROR:
      return "NPP_CHANNEL_ERROR";

    case NPP_STRIDE_ERROR:
      return "NPP_STRIDE_ERROR";

    case NPP_ANCHOR_ERROR:
      return "NPP_ANCHOR_ERROR";

    case NPP_MASK_SIZE_ERROR:
      return "NPP_MASK_SIZE_ERROR";

    case NPP_MOMENT_00_ZERO_ERROR:
      return "NPP_MOMENT_00_ZERO_ERROR";

    case NPP_THRESHOLD_NEGATIVE_LEVEL_ERROR:
      return "NPP_THRESHOLD_NEGATIVE_LEVEL_ERROR";

    case NPP_THRESHOLD_ERROR:
      return "NPP_THRESHOLD_ERROR";

    case NPP_CONTEXT_MATCH_ERROR:
      return "NPP_CONTEXT_MATCH_ERROR";

    case NPP_FFT_FLAG_ERROR:
      return "NPP_FFT_FLAG_ERROR";

    case NPP_FFT_ORDER_ERROR:
      return "NPP_FFT_ORDER_ERROR";

    case NPP_SCALE_RANGE_ERROR:
      return "NPP_SCALE_RANGE_ERROR";

    case NPP_DATA_TYPE_ERROR:
      return "NPP_DATA_TYPE_ERROR";

    case NPP_OUT_OFF_RANGE_ERROR:
      return "NPP_OUT_OFF_RANGE_ERROR";

    case NPP_DIVIDE_BY_ZERO_ERROR:
      return "NPP_DIVIDE_BY_ZERO_ERROR";

    case NPP_RANGE_ERROR:
      return "NPP_RANGE_ERROR";

    case NPP_NO_MEMORY_ERROR:
      return "NPP_NO_MEMORY_ERROR";

    case NPP_ERROR_RESERVED:
      return "NPP_ERROR_RESERVED";

    case NPP_NO_OPERATION_WARNING:
      return "NPP_NO_OPERATION_WARNING";

    case NPP_DIVIDE_BY_ZERO_WARNING:
      return "NPP_DIVIDE_BY_ZERO_WARNING";
#endif

#if ((NPP_VERSION_MAJOR << 12) + (NPP_VERSION_MINOR << 4)) >= 0x7000
    /* These are 7.0 or higher */
    case NPP_OVERFLOW_ERROR:
      return "NPP_OVERFLOW_ERROR";

    case NPP_CORRUPTED_DATA_ERROR:
      return "NPP_CORRUPTED_DATA_ERROR";
#endif
  }

  return "<unknown>";
}
#endif


template <typename T>
void check(T result, char const *const func, const char *const file,
           int const line) {
  if (result) {
    fprintf(stderr, "CUDA error at %s:%d code=%d(%s) \"%s\" \n", file, line,
            static_cast<unsigned int>(result), _cudaGetErrorEnum(result), func);
    exit(EXIT_FAILURE);
  }
}

// This will output the proper CUDA error strings in the event
// that a CUDA host call returns an error
#define checkCudaErrors(val) check((val), #val, __FILE__, __LINE__)

#endif  // HELPER_CUDA_H