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/*! \file */
/* ************************************************************************
* Copyright (C) 2021-2022 Advanced Micro Devices, Inc. All rights Reserved.
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
* THE SOFTWARE.
*
* ************************************************************************ */
#include "rocsparse_exporter_rocsparseio.hpp"
template <typename X, typename Y>
rocsparse_status rocsparse_type_conversion(const X& x, Y& y);
#ifdef ROCSPARSEIO
template <typename X, typename Y>
inline rocsparse_status rocsparse2rocsparseio_convert(const X& x, Y& y);
template <>
inline rocsparse_status rocsparse2rocsparseio_convert(const rocsparse_order& x,
rocsparseio_order& y)
{
switch(x)
{
case rocsparse_order_row:
{
y = rocsparseio_order_row;
return rocsparse_status_success;
}
case rocsparse_order_column:
{
y = rocsparseio_order_column;
return rocsparse_status_success;
}
}
return rocsparse_status_invalid_value;
}
template <>
inline rocsparse_status rocsparse2rocsparseio_convert(const rocsparse_direction& x,
rocsparseio_direction& y)
{
switch(x)
{
case rocsparse_direction_row:
{
y = rocsparseio_direction_row;
return rocsparse_status_success;
}
case rocsparse_direction_column:
{
y = rocsparseio_direction_column;
return rocsparse_status_success;
}
}
return rocsparse_status_invalid_value;
}
template <>
inline rocsparse_status rocsparse2rocsparseio_convert(const rocsparse_index_base& x,
rocsparseio_index_base& y)
{
switch(x)
{
case rocsparse_index_base_zero:
{
y = rocsparseio_index_base_zero;
return rocsparse_status_success;
}
case rocsparse_index_base_one:
{
y = rocsparseio_index_base_one;
return rocsparse_status_success;
}
}
return rocsparse_status_invalid_value;
}
template <typename T>
inline rocsparseio_type rocsparseio_type_convert();
template <>
inline rocsparseio_type rocsparseio_type_convert<int32_t>()
{
return rocsparseio_type_int32;
};
template <>
inline rocsparseio_type rocsparseio_type_convert<int64_t>()
{
return rocsparseio_type_int64;
};
template <>
inline rocsparseio_type rocsparseio_type_convert<float>()
{
return rocsparseio_type_float32;
};
template <>
inline rocsparseio_type rocsparseio_type_convert<double>()
{
return rocsparseio_type_float64;
};
template <>
inline rocsparseio_type rocsparseio_type_convert<rocsparse_float_complex>()
{
return rocsparseio_type_complex32;
};
template <>
inline rocsparseio_type rocsparseio_type_convert<rocsparse_double_complex>()
{
return rocsparseio_type_complex64;
};
#endif
rocsparse_exporter_rocsparseio::~rocsparse_exporter_rocsparseio()
{
#ifdef ROCSPARSEIO
const char* env = getenv("GTEST_LISTENER");
if(!env || strcmp(env, "NO_PASS_LINE_IN_LOG"))
{
std::cout << "Export done." << std::endl;
}
auto istatus = rocsparseio_close(this->m_handle);
if(istatus != rocsparseio_status_success)
{
}
#endif
}
rocsparse_exporter_rocsparseio::rocsparse_exporter_rocsparseio(const std::string& filename_)
: m_filename(filename_)
{
#ifdef ROCSPARSEIO
const char* env = getenv("GTEST_LISTENER");
if(!env || strcmp(env, "NO_PASS_LINE_IN_LOG"))
{
std::cout << "Opening file '" << this->m_filename << "' ... " << std::endl;
}
rocsparseio_status istatus;
istatus = rocsparseio_open(&this->m_handle, rocsparseio_rwmode_write, this->m_filename.c_str());
if(istatus != rocsparseio_status_success)
{
std::cerr << "Problem with rocsparseio_open" << std::endl;
throw rocsparse_status_internal_error;
}
#else
throw rocsparse_status_not_implemented;
#endif
}
template <typename T, typename I, typename J>
rocsparse_status rocsparse_exporter_rocsparseio::write_sparse_csx(rocsparse_direction dir_,
J m_,
J n_,
I nnz_,
const I* __restrict__ ptr_,
const J* __restrict__ ind_,
const T* __restrict__ val_,
rocsparse_index_base base_)
{
#ifdef ROCSPARSEIO
const rocsparseio_type ptr_type = rocsparseio_type_convert<I>();
const rocsparseio_type ind_type = rocsparseio_type_convert<J>();
const rocsparseio_type val_type = rocsparseio_type_convert<T>();
rocsparseio_direction dir;
size_t m;
size_t n;
size_t nnz;
rocsparseio_index_base base;
rocsparse_status status;
status = rocsparse2rocsparseio_convert(dir_, dir);
if(status != rocsparse_status_success)
{
return status;
}
status = rocsparse2rocsparseio_convert(base_, base);
if(status != rocsparse_status_success)
{
return status;
}
status = rocsparse_type_conversion(m_, m);
if(status != rocsparse_status_success)
{
return status;
}
status = rocsparse_type_conversion(n_, n);
if(status != rocsparse_status_success)
{
return status;
}
status = rocsparse_type_conversion(nnz_, nnz);
if(status != rocsparse_status_success)
{
return status;
}
rocsparseio_status io_status = rocsparseio_write_sparse_csx(
this->m_handle, dir, m, n, nnz, ptr_type, ptr_, ind_type, ind_, val_type, val_, base);
if(io_status != rocsparseio_status_success)
{
return rocsparse_status_internal_error;
}
return rocsparse_status_success;
#else
return rocsparse_status_not_implemented;
#endif
}
template <typename T, typename I, typename J>
rocsparse_status rocsparse_exporter_rocsparseio::write_sparse_gebsx(rocsparse_direction dir_,
rocsparse_direction dirb_,
J mb_,
J nb_,
I nnzb_,
J block_dim_row_,
J block_dim_column_,
const I* __restrict__ ptr_,
const J* __restrict__ ind_,
const T* __restrict__ val_,
rocsparse_index_base base_)
{
#ifdef ROCSPARSEIO
const rocsparseio_type ptr_type = rocsparseio_type_convert<I>();
const rocsparseio_type ind_type = rocsparseio_type_convert<J>();
const rocsparseio_type val_type = rocsparseio_type_convert<T>();
rocsparseio_direction dir;
rocsparseio_direction dirb;
size_t mb;
size_t nb;
size_t nnzb;
size_t block_dim_row;
size_t block_dim_column;
rocsparseio_index_base base;
rocsparse_status status;
status = rocsparse2rocsparseio_convert(dir_, dir);
if(status != rocsparse_status_success)
{
return status;
}
status = rocsparse2rocsparseio_convert(dirb_, dirb);
if(status != rocsparse_status_success)
{
return status;
}
status = rocsparse2rocsparseio_convert(base_, base);
if(status != rocsparse_status_success)
{
return status;
}
status = rocsparse_type_conversion(mb_, mb);
if(status != rocsparse_status_success)
{
return status;
}
status = rocsparse_type_conversion(nb_, nb);
if(status != rocsparse_status_success)
{
return status;
}
status = rocsparse_type_conversion(nnzb_, nnzb);
if(status != rocsparse_status_success)
{
return status;
}
status = rocsparse_type_conversion(block_dim_row_, block_dim_row);
if(status != rocsparse_status_success)
{
return status;
}
status = rocsparse_type_conversion(block_dim_column_, block_dim_column);
if(status != rocsparse_status_success)
{
return status;
}
rocsparseio_status io_status = rocsparseio_write_sparse_gebsx(this->m_handle,
dir,
dirb,
mb,
nb,
nnzb,
block_dim_row,
block_dim_column,
ptr_type,
ptr_,
ind_type,
ind_,
val_type,
val_,
base);
if(io_status != rocsparseio_status_success)
{
return rocsparse_status_internal_error;
}
return rocsparse_status_success;
#else
return rocsparse_status_not_implemented;
#endif
}
template <typename T, typename I>
rocsparse_status
rocsparse_exporter_rocsparseio::write_dense_vector(I nmemb_, const T* __restrict__ x_, I incx_)
{
#ifdef ROCSPARSEIO
const rocsparseio_type val_type = rocsparseio_type_convert<T>();
size_t nmemb, incx;
rocsparse_status status;
status = rocsparse_type_conversion(nmemb_, nmemb);
if(status != rocsparse_status_success)
{
return status;
}
status = rocsparse_type_conversion(incx_, incx);
if(status != rocsparse_status_success)
{
return status;
}
rocsparseio_status io_status
= rocsparseio_write_dense_vector(this->m_handle, val_type, nmemb, x_, incx);
if(io_status != rocsparseio_status_success)
{
return rocsparse_status_internal_error;
}
return rocsparse_status_success;
#else
return rocsparse_status_not_implemented;
#endif
}
template <typename T, typename I>
rocsparse_status rocsparse_exporter_rocsparseio::write_dense_matrix(
rocsparse_order order_, I m_, I n_, const T* __restrict__ x_, I ld_)
{
#ifdef ROCSPARSEIO
rocsparseio_order order;
size_t m, n, ld;
rocsparse_status status;
const rocsparseio_type val_type = rocsparseio_type_convert<T>();
status = rocsparse2rocsparseio_convert(order_, order);
if(status != rocsparse_status_success)
{
return status;
}
status = rocsparse_type_conversion(m_, m);
if(status != rocsparse_status_success)
{
return status;
}
status = rocsparse_type_conversion(n_, n);
if(status != rocsparse_status_success)
{
return status;
}
status = rocsparse_type_conversion(ld_, ld);
if(status != rocsparse_status_success)
{
return status;
}
rocsparseio_status io_status
= rocsparseio_write_dense_matrix(this->m_handle, order, m, n, val_type, x_, ld);
if(io_status != rocsparseio_status_success)
{
return rocsparse_status_internal_error;
}
return rocsparse_status_success;
#else
return rocsparse_status_not_implemented;
#endif
}
template <typename T, typename I>
rocsparse_status rocsparse_exporter_rocsparseio::write_sparse_coo(I m_,
I n_,
I nnz_,
const I* __restrict__ row_ind_,
const I* __restrict__ col_ind_,
const T* __restrict__ val_,
rocsparse_index_base base_)
{
#ifdef ROCSPARSEIO
const rocsparseio_type ind_type = rocsparseio_type_convert<I>();
const rocsparseio_type val_type = rocsparseio_type_convert<T>();
size_t m, n, nnz;
rocsparseio_index_base base;
rocsparse_status status;
status = rocsparse2rocsparseio_convert(base_, base);
if(status != rocsparse_status_success)
{
return status;
}
status = rocsparse_type_conversion(m_, m);
if(status != rocsparse_status_success)
{
return status;
}
status = rocsparse_type_conversion(n_, n);
if(status != rocsparse_status_success)
{
return status;
}
status = rocsparse_type_conversion(nnz_, nnz);
if(status != rocsparse_status_success)
{
return status;
}
rocsparseio_status io_status = rocsparseio_write_sparse_coo(
this->m_handle, m, n, nnz, ind_type, row_ind_, ind_type, col_ind_, val_type, val_, base);
if(io_status != rocsparseio_status_success)
{
return rocsparse_status_internal_error;
}
return rocsparse_status_success;
#else
return rocsparse_status_not_implemented;
#endif
}
#define INSTANTIATE_TIJ(T, I, J) \
template rocsparse_status rocsparse_exporter_rocsparseio::write_sparse_csx( \
rocsparse_direction, \
J, \
J, \
I, \
const I* __restrict__, \
const J* __restrict__, \
const T* __restrict__, \
rocsparse_index_base); \
template rocsparse_status rocsparse_exporter_rocsparseio::write_sparse_gebsx( \
rocsparse_direction, \
rocsparse_direction, \
J, \
J, \
I, \
J, \
J, \
const I* __restrict__, \
const J* __restrict__, \
const T* __restrict__, \
rocsparse_index_base)
#define INSTANTIATE_TI(T, I) \
template rocsparse_status rocsparse_exporter_rocsparseio::write_dense_vector( \
I, const T* __restrict__, I); \
template rocsparse_status rocsparse_exporter_rocsparseio::write_dense_matrix( \
rocsparse_order, I, I, const T* __restrict__, I); \
template rocsparse_status rocsparse_exporter_rocsparseio::write_sparse_coo( \
I, \
I, \
I, \
const I* __restrict__, \
const I* __restrict__, \
const T* __restrict__, \
rocsparse_index_base)
INSTANTIATE_TIJ(float, int32_t, int32_t);
INSTANTIATE_TIJ(float, int64_t, int32_t);
INSTANTIATE_TIJ(float, int64_t, int64_t);
INSTANTIATE_TIJ(double, int32_t, int32_t);
INSTANTIATE_TIJ(double, int64_t, int32_t);
INSTANTIATE_TIJ(double, int64_t, int64_t);
INSTANTIATE_TIJ(rocsparse_float_complex, int32_t, int32_t);
INSTANTIATE_TIJ(rocsparse_float_complex, int64_t, int32_t);
INSTANTIATE_TIJ(rocsparse_float_complex, int64_t, int64_t);
INSTANTIATE_TIJ(rocsparse_double_complex, int32_t, int32_t);
INSTANTIATE_TIJ(rocsparse_double_complex, int64_t, int32_t);
INSTANTIATE_TIJ(rocsparse_double_complex, int64_t, int64_t);
INSTANTIATE_TI(float, int32_t);
INSTANTIATE_TI(float, int64_t);
INSTANTIATE_TI(double, int32_t);
INSTANTIATE_TI(double, int64_t);
INSTANTIATE_TI(rocsparse_float_complex, int32_t);
INSTANTIATE_TI(rocsparse_float_complex, int64_t);
INSTANTIATE_TI(rocsparse_double_complex, int32_t);
INSTANTIATE_TI(rocsparse_double_complex, int64_t);
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