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/* ************************************************************************
* Copyright (C) 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.
*
* ************************************************************************ */
#pragma once
#ifndef TESTING_CSR2CSC_EX2_HPP
#define TESTING_CSR2CSC_EX2_HPP
#include "hipsparse.hpp"
#include "hipsparse_test_unique_ptr.hpp"
#include "unit.hpp"
#include "utility.hpp"
#include <algorithm>
#include <hipsparse.h>
#include <string>
using namespace hipsparse;
using namespace hipsparse_test;
template <typename T>
void testing_csr2csc_ex2_bad_arg(void)
{
#if(!defined(CUDART_VERSION))
int m = 100;
int n = 100;
int nnz = 100;
int safe_size = 100;
size_t buffer_size = 0;
hipsparseStatus_t status;
std::unique_ptr<handle_struct> unique_ptr_handle(new handle_struct);
hipsparseHandle_t handle = unique_ptr_handle->handle;
auto csr_row_ptr_managed
= hipsparse_unique_ptr{device_malloc(sizeof(int) * safe_size), device_free};
auto csr_col_ind_managed
= hipsparse_unique_ptr{device_malloc(sizeof(int) * safe_size), device_free};
auto csr_val_managed = hipsparse_unique_ptr{device_malloc(sizeof(T) * safe_size), device_free};
auto csc_row_ind_managed
= hipsparse_unique_ptr{device_malloc(sizeof(int) * safe_size), device_free};
auto csc_col_ptr_managed
= hipsparse_unique_ptr{device_malloc(sizeof(int) * safe_size), device_free};
auto csc_val_managed = hipsparse_unique_ptr{device_malloc(sizeof(T) * safe_size), device_free};
auto buffer_managed
= hipsparse_unique_ptr{device_malloc(sizeof(char) * safe_size), device_free};
int* csr_row_ptr = (int*)csr_row_ptr_managed.get();
int* csr_col_ind = (int*)csr_col_ind_managed.get();
T* csr_val = (T*)csr_val_managed.get();
int* csc_row_ind = (int*)csc_row_ind_managed.get();
int* csc_col_ptr = (int*)csc_col_ptr_managed.get();
T* csc_val = (T*)csc_val_managed.get();
void* buffer = (void*)buffer_managed.get();
if(!csr_row_ptr || !csr_col_ind || !csr_val || !csc_row_ind || !csc_col_ptr || !csc_val
|| !buffer)
{
PRINT_IF_HIP_ERROR(hipErrorOutOfMemory);
return;
}
// Testing hipsparseCsr2cscEx2_bufferSize()
// Testing for (handle == nullptr)
{
hipsparseHandle_t handle_null = nullptr;
status = hipsparseCsr2cscEx2_bufferSize(handle_null,
m,
n,
nnz,
csr_val,
csr_row_ptr,
csr_col_ind,
csc_val,
csc_col_ptr,
csc_row_ind,
HIP_R_32F,
HIPSPARSE_ACTION_NUMERIC,
HIPSPARSE_INDEX_BASE_ZERO,
HIPSPARSE_CSR2CSC_ALG1,
&buffer_size);
verify_hipsparse_status_invalid_handle(status);
}
// Testing for (csr_row_ptr == nullptr)
{
int* csr_row_ptr_null = nullptr;
status = hipsparseCsr2cscEx2_bufferSize(handle,
m,
n,
nnz,
csr_val,
csr_row_ptr_null,
csr_col_ind,
csc_val,
csc_col_ptr,
csc_row_ind,
HIP_R_32F,
HIPSPARSE_ACTION_NUMERIC,
HIPSPARSE_INDEX_BASE_ZERO,
HIPSPARSE_CSR2CSC_ALG1,
&buffer_size);
verify_hipsparse_status_invalid_pointer(status, "Error: csr_row_ptr is nullptr");
}
// Testing for (csr_col_ind == nullptr)
{
int* csr_col_ind_null = nullptr;
status = hipsparseCsr2cscEx2_bufferSize(handle,
m,
n,
nnz,
csr_val,
csr_row_ptr,
csr_col_ind_null,
csc_val,
csc_col_ptr,
csc_row_ind,
HIP_R_32F,
HIPSPARSE_ACTION_NUMERIC,
HIPSPARSE_INDEX_BASE_ZERO,
HIPSPARSE_CSR2CSC_ALG1,
&buffer_size);
verify_hipsparse_status_invalid_pointer(status, "Error: csr_col_ind is nullptr");
}
// Testing for (buffer_size == nullptr)
{
size_t* buffer_size_null = nullptr;
status = hipsparseCsr2cscEx2_bufferSize(handle,
m,
n,
nnz,
csr_val,
csr_row_ptr,
csr_col_ind,
csc_val,
csc_col_ptr,
csc_row_ind,
HIP_R_32F,
HIPSPARSE_ACTION_NUMERIC,
HIPSPARSE_INDEX_BASE_ZERO,
HIPSPARSE_CSR2CSC_ALG1,
buffer_size_null);
verify_hipsparse_status_invalid_pointer(status, "Error: buffer_size is nullptr");
}
// Testing hipsparseCsr2cscEx2()
// Testing for (handle == nullptr)
{
hipsparseHandle_t handle_null = nullptr;
status = hipsparseCsr2cscEx2(handle_null,
m,
n,
nnz,
csr_val,
csr_row_ptr,
csr_col_ind,
csc_val,
csc_col_ptr,
csc_row_ind,
HIP_R_32F,
HIPSPARSE_ACTION_NUMERIC,
HIPSPARSE_INDEX_BASE_ZERO,
HIPSPARSE_CSR2CSC_ALG1,
buffer);
verify_hipsparse_status_invalid_handle(status);
}
// Testing for (csr_row_ptr == nullptr)
{
int* csr_row_ptr_null = nullptr;
status = hipsparseCsr2cscEx2(handle,
m,
n,
nnz,
csr_val,
csr_row_ptr_null,
csr_col_ind,
csc_val,
csc_col_ptr,
csc_row_ind,
HIP_R_32F,
HIPSPARSE_ACTION_NUMERIC,
HIPSPARSE_INDEX_BASE_ZERO,
HIPSPARSE_CSR2CSC_ALG1,
buffer);
verify_hipsparse_status_invalid_pointer(status, "Error: csr_row_ptr is nullptr");
}
// Testing for (csr_col_ind == nullptr)
{
int* csr_col_ind_null = nullptr;
status = hipsparseCsr2cscEx2(handle,
m,
n,
nnz,
csr_val,
csr_row_ptr,
csr_col_ind_null,
csc_val,
csc_col_ptr,
csc_row_ind,
HIP_R_32F,
HIPSPARSE_ACTION_NUMERIC,
HIPSPARSE_INDEX_BASE_ZERO,
HIPSPARSE_CSR2CSC_ALG1,
buffer);
verify_hipsparse_status_invalid_pointer(status, "Error: csr_col_ind is nullptr");
}
// Testing for (csr_val == nullptr)
{
T* csr_val_null = nullptr;
status = hipsparseCsr2cscEx2(handle,
m,
n,
nnz,
csr_val_null,
csr_row_ptr,
csr_col_ind,
csc_val,
csc_col_ptr,
csc_row_ind,
HIP_R_32F,
HIPSPARSE_ACTION_NUMERIC,
HIPSPARSE_INDEX_BASE_ZERO,
HIPSPARSE_CSR2CSC_ALG1,
buffer);
verify_hipsparse_status_invalid_pointer(status, "Error: csr_val is nullptr");
}
// Testing for (csc_col_ptr == nullptr)
{
int* csc_col_ptr_null = nullptr;
status = hipsparseCsr2cscEx2(handle,
m,
n,
nnz,
csr_val,
csr_row_ptr,
csr_col_ind,
csc_val,
csc_col_ptr_null,
csc_row_ind,
HIP_R_32F,
HIPSPARSE_ACTION_NUMERIC,
HIPSPARSE_INDEX_BASE_ZERO,
HIPSPARSE_CSR2CSC_ALG1,
buffer);
verify_hipsparse_status_invalid_pointer(status, "Error: csc_col_ptr is nullptr");
}
// Testing for (csc_row_ind == nullptr)
{
int* csc_row_ind_null = nullptr;
status = hipsparseCsr2cscEx2(handle,
m,
n,
nnz,
csr_val,
csr_row_ptr,
csr_col_ind,
csc_val,
csc_col_ptr,
csc_row_ind_null,
HIP_R_32F,
HIPSPARSE_ACTION_NUMERIC,
HIPSPARSE_INDEX_BASE_ZERO,
HIPSPARSE_CSR2CSC_ALG1,
buffer);
verify_hipsparse_status_invalid_pointer(status, "Error: csc_row_ind is nullptr");
}
// Testing for (csc_val == nullptr)
{
T* csc_val_null = nullptr;
status = hipsparseCsr2cscEx2(handle,
m,
n,
nnz,
csr_val,
csr_row_ptr,
csr_col_ind,
csc_val_null,
csc_col_ptr,
csc_row_ind,
HIP_R_32F,
HIPSPARSE_ACTION_NUMERIC,
HIPSPARSE_INDEX_BASE_ZERO,
HIPSPARSE_CSR2CSC_ALG1,
buffer);
verify_hipsparse_status_invalid_pointer(status, "Error: csc_val is nullptr");
}
// Testing for (buffer == nullptr)
{
T* buffer_null = nullptr;
status = hipsparseCsr2cscEx2(handle,
m,
n,
nnz,
csr_val,
csr_row_ptr,
csr_col_ind,
csc_val,
csc_col_ptr,
csc_row_ind,
HIP_R_32F,
HIPSPARSE_ACTION_NUMERIC,
HIPSPARSE_INDEX_BASE_ZERO,
HIPSPARSE_CSR2CSC_ALG1,
buffer_null);
verify_hipsparse_status_invalid_pointer(status, "Error: buffer is nullptr");
}
#endif
}
template <typename T>
hipsparseStatus_t testing_csr2csc_ex2(Arguments argus)
{
int m = argus.M;
int n = argus.N;
int safe_size = 100;
hipsparseIndexBase_t idx_base = argus.idx_base;
hipsparseAction_t action = argus.action;
std::string binfile = "";
std::string filename = "";
size_t buffer_size = 0;
hipsparseStatus_t status;
hipsparseCsr2CscAlg_t alg = HIPSPARSE_CSR2CSC_ALG1;
hipDataType dataType
= (typeid(T) == typeid(float))
? HIP_R_32F
: ((typeid(T) == typeid(double))
? HIP_R_64F
: ((typeid(T) == typeid(hipComplex) ? HIP_C_32F : HIP_C_64F)));
// When in testing mode, M == N == -99 indicates that we are testing with a real
// matrix from cise.ufl.edu
if(m == -99 && n == -99 && argus.timing == 0)
{
binfile = argus.filename;
m = n = safe_size;
}
if(argus.timing == 1)
{
filename = argus.filename;
}
double scale = 0.02;
if(m > 1000 || n > 1000)
{
scale = 2.0 / std::max(m, n);
}
int nnz = m * scale * n;
std::unique_ptr<handle_struct> unique_ptr_handle(new handle_struct);
hipsparseHandle_t handle = unique_ptr_handle->handle;
// Argument sanity check before allocating invalid memory
if(m <= 0 || n <= 0 || nnz <= 0)
{
#ifdef __HIP_PLATFORM_NVIDIA__
// Do not test args in cusparse
return HIPSPARSE_STATUS_SUCCESS;
#endif
auto csr_row_ptr_managed
= hipsparse_unique_ptr{device_malloc(sizeof(int) * safe_size), device_free};
auto csr_col_ind_managed
= hipsparse_unique_ptr{device_malloc(sizeof(int) * safe_size), device_free};
auto csr_val_managed
= hipsparse_unique_ptr{device_malloc(sizeof(T) * safe_size), device_free};
auto csc_row_ind_managed
= hipsparse_unique_ptr{device_malloc(sizeof(int) * safe_size), device_free};
auto csc_col_ptr_managed
= hipsparse_unique_ptr{device_malloc(sizeof(int) * safe_size), device_free};
auto csc_val_managed
= hipsparse_unique_ptr{device_malloc(sizeof(T) * safe_size), device_free};
auto buffer_managed
= hipsparse_unique_ptr{device_malloc(sizeof(char) * safe_size), device_free};
int* csr_row_ptr = (int*)csr_row_ptr_managed.get();
int* csr_col_ind = (int*)csr_col_ind_managed.get();
T* csr_val = (T*)csr_val_managed.get();
int* csc_row_ind = (int*)csc_row_ind_managed.get();
int* csc_col_ptr = (int*)csc_col_ptr_managed.get();
T* csc_val = (T*)csc_val_managed.get();
void* buffer = (void*)buffer_managed.get();
if(!csr_row_ptr || !csr_col_ind || !csr_val || !csc_row_ind || !csc_col_ptr || !csc_val
|| !buffer)
{
verify_hipsparse_status_success(HIPSPARSE_STATUS_ALLOC_FAILED,
"!csr_row_ptr || !csr_col_ind || !csr_val || "
"!csc_row_ind || !csc_col_ptr || !csc_val || !buffer");
return HIPSPARSE_STATUS_ALLOC_FAILED;
}
status = hipsparseCsr2cscEx2_bufferSize(handle,
m,
n,
nnz,
csr_val,
csr_row_ptr,
csr_col_ind,
csc_val,
csc_col_ptr,
csc_row_ind,
dataType,
action,
idx_base,
alg,
&buffer_size);
if(m < 0 || n < 0 || nnz < 0)
{
verify_hipsparse_status_invalid_size(status, "Error: m < 0 || n < 0 || nnz < 0");
}
else
{
verify_hipsparse_status_success(status, "m >= 0 && n >= 0 && nnz >= 0");
}
status = hipsparseCsr2cscEx2(handle,
m,
n,
nnz,
csr_val,
csr_row_ptr,
csr_col_ind,
csc_val,
csc_col_ptr,
csc_row_ind,
dataType,
action,
idx_base,
alg,
buffer);
if(m < 0 || n < 0 || nnz < 0)
{
verify_hipsparse_status_invalid_size(status, "Error: m < 0 || n < 0 || nnz < 0");
}
else
{
verify_hipsparse_status_success(status, "m >= 0 && n >= 0 && nnz >= 0");
}
return HIPSPARSE_STATUS_SUCCESS;
}
// Host structures
std::vector<int> hcsr_row_ptr;
std::vector<int> hcsr_col_ind;
std::vector<T> hcsr_val;
// Sample initial COO matrix on CPU
srand(12345ULL);
if(binfile != "")
{
if(read_bin_matrix(
binfile.c_str(), m, n, nnz, hcsr_row_ptr, hcsr_col_ind, hcsr_val, idx_base)
!= 0)
{
fprintf(stderr, "Cannot open [read] %s\n", binfile.c_str());
return HIPSPARSE_STATUS_INTERNAL_ERROR;
}
}
else if(argus.laplacian)
{
m = n = gen_2d_laplacian(argus.laplacian, hcsr_row_ptr, hcsr_col_ind, hcsr_val, idx_base);
nnz = hcsr_row_ptr[m];
}
else
{
std::vector<int> hcoo_row_ind;
if(filename != "")
{
if(read_mtx_matrix(
filename.c_str(), m, n, nnz, hcoo_row_ind, hcsr_col_ind, hcsr_val, idx_base)
!= 0)
{
fprintf(stderr, "Cannot open [read] %s\n", filename.c_str());
return HIPSPARSE_STATUS_INTERNAL_ERROR;
}
}
else
{
gen_matrix_coo(m, n, nnz, hcoo_row_ind, hcsr_col_ind, hcsr_val, idx_base);
}
// Convert COO to CSR
hcsr_row_ptr.resize(m + 1, 0);
for(int i = 0; i < nnz; ++i)
{
++hcsr_row_ptr[hcoo_row_ind[i] + 1 - idx_base];
}
hcsr_row_ptr[0] = idx_base;
for(int i = 0; i < m; ++i)
{
hcsr_row_ptr[i + 1] += hcsr_row_ptr[i];
}
}
// Allocate memory on the device
auto dcsr_row_ptr_managed
= hipsparse_unique_ptr{device_malloc(sizeof(int) * (m + 1)), device_free};
auto dcsr_col_ind_managed = hipsparse_unique_ptr{device_malloc(sizeof(int) * nnz), device_free};
auto dcsr_val_managed = hipsparse_unique_ptr{device_malloc(sizeof(T) * nnz), device_free};
auto dcsc_row_ind_managed = hipsparse_unique_ptr{device_malloc(sizeof(int) * nnz), device_free};
auto dcsc_col_ptr_managed
= hipsparse_unique_ptr{device_malloc(sizeof(int) * (n + 1)), device_free};
auto dcsc_val_managed = hipsparse_unique_ptr{device_malloc(sizeof(T) * nnz), device_free};
int* dcsr_row_ptr = (int*)dcsr_row_ptr_managed.get();
int* dcsr_col_ind = (int*)dcsr_col_ind_managed.get();
T* dcsr_val = (T*)dcsr_val_managed.get();
int* dcsc_row_ind = (int*)dcsc_row_ind_managed.get();
int* dcsc_col_ptr = (int*)dcsc_col_ptr_managed.get();
T* dcsc_val = (T*)dcsc_val_managed.get();
if(!dcsr_row_ptr || !dcsr_col_ind || !dcsr_val || !dcsc_row_ind || !dcsc_col_ptr || !dcsc_val)
{
verify_hipsparse_status_success(HIPSPARSE_STATUS_ALLOC_FAILED,
"!dcsr_row_ptr || !dcsr_col_ind || !dcsr_val || "
"!dcsc_row_ind || !dcsc_col_ptr || !dcsc_val");
return HIPSPARSE_STATUS_ALLOC_FAILED;
}
// Reset CSC arrays
CHECK_HIP_ERROR(hipMemset(dcsc_row_ind, 0, sizeof(int) * nnz));
CHECK_HIP_ERROR(hipMemset(dcsc_col_ptr, 0, sizeof(int) * (n + 1)));
CHECK_HIP_ERROR(hipMemset(dcsc_val, 0, sizeof(T) * nnz));
// Copy data from host to device
CHECK_HIP_ERROR(
hipMemcpy(dcsr_row_ptr, hcsr_row_ptr.data(), sizeof(int) * (m + 1), hipMemcpyHostToDevice));
CHECK_HIP_ERROR(
hipMemcpy(dcsr_col_ind, hcsr_col_ind.data(), sizeof(int) * nnz, hipMemcpyHostToDevice));
CHECK_HIP_ERROR(hipMemcpy(dcsr_val, hcsr_val.data(), sizeof(T) * nnz, hipMemcpyHostToDevice));
CHECK_HIPSPARSE_ERROR(hipsparseCsr2cscEx2_bufferSize(handle,
m,
n,
nnz,
dcsr_val,
dcsr_row_ptr,
dcsr_col_ind,
dcsc_val,
dcsc_col_ptr,
dcsc_row_ind,
dataType,
action,
idx_base,
alg,
&buffer_size));
// Allocate buffer on the device
auto dbuffer_managed
= hipsparse_unique_ptr{device_malloc(sizeof(char) * buffer_size), device_free};
void* dbuffer = (void*)dbuffer_managed.get();
if(!dbuffer)
{
verify_hipsparse_status_success(HIPSPARSE_STATUS_ALLOC_FAILED, "!dbuffer");
return HIPSPARSE_STATUS_ALLOC_FAILED;
}
if(argus.unit_check)
{
CHECK_HIPSPARSE_ERROR(hipsparseCsr2cscEx2(handle,
m,
n,
nnz,
dcsr_val,
dcsr_row_ptr,
dcsr_col_ind,
dcsc_val,
dcsc_col_ptr,
dcsc_row_ind,
dataType,
action,
idx_base,
alg,
dbuffer));
// Copy output from device to host
std::vector<int> hcsc_row_ind(nnz);
std::vector<int> hcsc_col_ptr(n + 1);
std::vector<T> hcsc_val(nnz);
CHECK_HIP_ERROR(
hipMemcpy(hcsc_row_ind.data(), dcsc_row_ind, sizeof(int) * nnz, hipMemcpyDeviceToHost));
CHECK_HIP_ERROR(hipMemcpy(
hcsc_col_ptr.data(), dcsc_col_ptr, sizeof(int) * (n + 1), hipMemcpyDeviceToHost));
CHECK_HIP_ERROR(
hipMemcpy(hcsc_val.data(), dcsc_val, sizeof(T) * nnz, hipMemcpyDeviceToHost));
// Host csr2csc conversion
std::vector<int> hcsc_row_ind_gold(nnz);
std::vector<int> hcsc_col_ptr_gold(n + 1, 0);
std::vector<T> hcsc_val_gold(nnz);
// Determine nnz per column
for(int i = 0; i < nnz; ++i)
{
++hcsc_col_ptr_gold[hcsr_col_ind[i] + 1 - idx_base];
}
// Scan
for(int i = 0; i < n; ++i)
{
hcsc_col_ptr_gold[i + 1] += hcsc_col_ptr_gold[i];
}
// Fill row indices and values
for(int i = 0; i < m; ++i)
{
for(int j = hcsr_row_ptr[i]; j < hcsr_row_ptr[i + 1]; ++j)
{
int col = hcsr_col_ind[j - idx_base] - idx_base;
int idx = hcsc_col_ptr_gold[col];
hcsc_row_ind_gold[idx] = i + idx_base;
hcsc_val_gold[idx] = hcsr_val[j - idx_base];
++hcsc_col_ptr_gold[col];
}
}
// Shift column pointer array
for(int i = n; i > 0; --i)
{
hcsc_col_ptr_gold[i] = hcsc_col_ptr_gold[i - 1] + idx_base;
}
hcsc_col_ptr_gold[0] = idx_base;
// Unit check
unit_check_general(1, nnz, 1, hcsc_row_ind_gold.data(), hcsc_row_ind.data());
unit_check_general(1, n + 1, 1, hcsc_col_ptr_gold.data(), hcsc_col_ptr.data());
// If action == HIPSPARSE_ACTION_NUMERIC also check values
if(action == HIPSPARSE_ACTION_NUMERIC)
{
unit_check_general(1, nnz, 1, hcsc_val_gold.data(), hcsc_val.data());
}
}
return HIPSPARSE_STATUS_SUCCESS;
}
#endif // TESTING_CSR2CSC_EX2_HPP
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