* Copyright (c) 2025 Huawei Technologies Co., Ltd.
* This program is free software, you can redistribute it and/or modify it under the terms and conditions of
* CANN Open Software License Agreement Version 2.0 (the "License").
* Please refer to the License for details. You may not use this file except in compliance with the License.
* THIS SOFTWARE IS PROVIDED ON AN "AS IS" BASIS, WITHOUT WARRANTIES OF ANY KIND, EITHER EXPRESS OR IMPLIED,
* INCLUDING BUT NOT LIMITED TO NON-INFRINGEMENT, MERCHANTABILITY, OR FITNESS FOR A PARTICULAR PURPOSE.
* See LICENSE in the root of the software repository for the full text of the License.
*/
#include <array>
#include <vector>
#include "gtest/gtest.h"
#include "math/add/op_api/aclnn_add.h"
#include "op_api_ut_common/op_api_ut.h"
#include "op_api_ut_common/scalar_desc.h"
#include "op_api_ut_common/tensor_desc.h"
using namespace std;
class l2_add_test : public testing::Test {
protected:
static void SetUpTestCase()
{
cout << "add_test SetUp" << endl;
}
static void TearDownTestCase()
{
cout << "add_test TearDown" << endl;
}
};
TEST_F(l2_add_test, case_1)
{
auto tensor_desc = TensorDesc({1, 16, 1, 1}, ACL_FLOAT, ACL_FORMAT_NCHW);
auto scalar_desc = ScalarDesc(1.0f);
auto ut = OP_API_UT(aclnnAdd, INPUT(tensor_desc, tensor_desc, scalar_desc), OUTPUT(tensor_desc));
uint64_t workspace_size = 0;
aclnnStatus aclRet = ut.TestGetWorkspaceSize(&workspace_size);
EXPECT_EQ(aclRet, ACL_SUCCESS);
}
TEST_F(l2_add_test, case_nullptr)
{
auto tensor_desc = TensorDesc({1, 16, 1, 1}, ACL_FLOAT, ACL_FORMAT_NCHW);
auto ut =
OP_API_UT(aclnnAdd, INPUT((aclTensor*)nullptr, (aclTensor*)nullptr, (aclScalar*)nullptr), OUTPUT(tensor_desc));
uint64_t workspace_size = 0;
aclnnStatus aclRet = ut.TestGetWorkspaceSize(&workspace_size);
EXPECT_EQ(aclRet, ACLNN_ERR_PARAM_NULLPTR);
}
TEST_F(l2_add_test, case_001)
{
auto self_tensor_desc = TensorDesc({2, 3}, ACL_FLOAT, ACL_FORMAT_ND).ValueRange(-1, 1);
auto other_tensor_desc = TensorDesc({2, 3}, ACL_FLOAT, ACL_FORMAT_ND).ValueRange(-1, 1);
auto out_tensor_desc = TensorDesc(self_tensor_desc);
auto scalar_desc = ScalarDesc(1.0f);
auto ut = OP_API_UT(aclnnAdd, INPUT(self_tensor_desc, other_tensor_desc, scalar_desc), OUTPUT(out_tensor_desc));
uint64_t workspace_size = 0;
aclnnStatus aclRet = ut.TestGetWorkspaceSize(&workspace_size);
EXPECT_EQ(aclRet, ACL_SUCCESS);
}
TEST_F(l2_add_test, Ascend910B2_case_002)
{
auto self_tensor_desc = TensorDesc({2, 3, 4, 5}, ACL_FLOAT16, ACL_FORMAT_NHWC).ValueRange(0, 100);
auto other_tensor_desc = TensorDesc({2, 3, 4, 5}, ACL_FLOAT16, ACL_FORMAT_NHWC).ValueRange(0, 100);
auto out_tensor_desc = TensorDesc(self_tensor_desc).Precision(0.001, 0.001);
auto scalar_desc = ScalarDesc(1.2f);
auto ut = OP_API_UT(aclnnAdd, INPUT(self_tensor_desc, other_tensor_desc, scalar_desc), OUTPUT(out_tensor_desc));
uint64_t workspace_size = 0;
aclnnStatus aclRet = ut.TestGetWorkspaceSize(&workspace_size);
EXPECT_EQ(aclRet, ACL_SUCCESS);
}
TEST_F(l2_add_test, case_003)
{
auto self_tensor_desc = TensorDesc({2, 3, 4, 5}, ACL_INT32, ACL_FORMAT_NCHW).ValueRange(-2, 2);
auto other_tensor_desc = TensorDesc({2, 3, 4, 5}, ACL_INT32, ACL_FORMAT_NCHW).ValueRange(-2, 2);
auto out_tensor_desc = TensorDesc(self_tensor_desc).Precision(0.0001, 0.0001);
auto scalar_desc = ScalarDesc(static_cast<int64_t>(2));
auto ut = OP_API_UT(aclnnAdd, INPUT(self_tensor_desc, other_tensor_desc, scalar_desc), OUTPUT(out_tensor_desc));
uint64_t workspace_size = 0;
aclnnStatus aclRet = ut.TestGetWorkspaceSize(&workspace_size);
EXPECT_EQ(aclRet, ACL_SUCCESS);
}
TEST_F(l2_add_test, case_004)
{
auto self_tensor_desc = TensorDesc({2, 3, 4, 5}, ACL_INT64, ACL_FORMAT_NCHW).ValueRange(-2, 2);
auto other_tensor_desc = TensorDesc({4, 5}, ACL_INT64, ACL_FORMAT_ND).ValueRange(-2, 2);
auto out_tensor_desc = TensorDesc({2, 3, 4, 5}, ACL_INT64, ACL_FORMAT_NCHW).Precision(0.0001, 0.0001);
auto scalar_desc = ScalarDesc(static_cast<int64_t>(5));
auto ut = OP_API_UT(aclnnAdd, INPUT(self_tensor_desc, other_tensor_desc, scalar_desc), OUTPUT(out_tensor_desc));
uint64_t workspace_size = 0;
aclnnStatus aclRet = ut.TestGetWorkspaceSize(&workspace_size);
EXPECT_EQ(aclRet, ACL_SUCCESS);
}
TEST_F(l2_add_test, case_006)
{
auto self_tensor_desc = TensorDesc({5, 2, 5, 6, 3}, ACL_INT8, ACL_FORMAT_NDHWC).ValueRange(-2, 2);
auto other_tensor_desc = TensorDesc({5, 2, 5, 6, 3}, ACL_INT8, ACL_FORMAT_NDHWC).ValueRange(-2, 2);
auto out_tensor_desc = TensorDesc({5, 2, 5, 6, 3}, ACL_INT8, ACL_FORMAT_NDHWC).Precision(0.0001, 0.0001);
auto scalar_desc = ScalarDesc(static_cast<int64_t>(2));
auto ut = OP_API_UT(aclnnAdd, INPUT(self_tensor_desc, other_tensor_desc, scalar_desc), OUTPUT(out_tensor_desc));
uint64_t workspace_size = 0;
aclnnStatus aclRet = ut.TestGetWorkspaceSize(&workspace_size);
EXPECT_EQ(aclRet, ACL_SUCCESS);
}
TEST_F(l2_add_test, case_007)
{
auto self_tensor_desc = TensorDesc({5, 2, 5, 6, 3}, ACL_UINT8, ACL_FORMAT_NCDHW).ValueRange(-2, 2);
auto other_tensor_desc = TensorDesc({5, 2, 5, 6, 3}, ACL_UINT8, ACL_FORMAT_NCDHW).ValueRange(-2, 2);
auto out_tensor_desc = TensorDesc({5, 2, 5, 6, 3}, ACL_UINT8, ACL_FORMAT_NCDHW).Precision(0.0001, 0.0001);
auto scalar_desc = ScalarDesc(static_cast<int64_t>(2));
auto ut = OP_API_UT(aclnnAdd, INPUT(self_tensor_desc, other_tensor_desc, scalar_desc), OUTPUT(out_tensor_desc));
uint64_t workspace_size = 0;
aclnnStatus aclRet = ut.TestGetWorkspaceSize(&workspace_size);
EXPECT_EQ(aclRet, ACL_SUCCESS);
}
TEST_F(l2_add_test, case_008)
{
auto self_tensor_desc =
TensorDesc({1, 2, 3}, ACL_BOOL, ACL_FORMAT_ND).Value(vector<bool>{true, false, false, false, true, false});
auto other_tensor_desc =
TensorDesc({1, 2, 3}, ACL_BOOL, ACL_FORMAT_ND).Value(vector<bool>{true, false, true, false, false, false});
auto out_tensor_desc = TensorDesc(self_tensor_desc).Precision(0.0001, 0.0001);
auto scalar_desc = ScalarDesc(static_cast<int64_t>(2));
auto ut = OP_API_UT(aclnnAdd, INPUT(self_tensor_desc, other_tensor_desc, scalar_desc), OUTPUT(out_tensor_desc));
uint64_t workspace_size = 0;
aclnnStatus aclRet = ut.TestGetWorkspaceSize(&workspace_size);
EXPECT_EQ(aclRet, ACL_SUCCESS);
}
TEST_F(l2_add_test, case_011)
{
auto self_tensor_desc = TensorDesc({6, 3}, ACL_COMPLEX64, ACL_FORMAT_ND).ValueRange(-2, 2);
auto other_tensor_desc = TensorDesc({2, 5, 6, 3}, ACL_COMPLEX64, ACL_FORMAT_HWCN).ValueRange(-2, 2);
auto out_tensor_desc = TensorDesc({2, 5, 6, 3}, ACL_COMPLEX64, ACL_FORMAT_HWCN).Precision(0.0001, 0.0001);
auto scalar_desc = ScalarDesc(1.2f);
auto ut = OP_API_UT(aclnnAdd, INPUT(self_tensor_desc, other_tensor_desc, scalar_desc), OUTPUT(out_tensor_desc));
uint64_t workspace_size = 0;
aclnnStatus aclRet = ut.TestGetWorkspaceSize(&workspace_size);
EXPECT_EQ(aclRet, ACL_SUCCESS);
}
TEST_F(l2_add_test, case_012)
{
auto self_tensor_desc = TensorDesc({6, 3}, ACL_COMPLEX128, ACL_FORMAT_ND).ValueRange(-2, 2);
auto other_desc = ScalarDesc(1.2f);
auto out_tensor_desc = TensorDesc({2, 5, 6, 3}, ACL_COMPLEX128, ACL_FORMAT_HWCN).Precision(0.0001, 0.0001);
auto scalar_desc = ScalarDesc(1.2f);
auto ut = OP_API_UT(aclnnAdds, INPUT(self_tensor_desc, other_desc, scalar_desc), OUTPUT(out_tensor_desc));
uint64_t workspace_size = 0;
aclnnStatus aclRet = ut.TestGetWorkspaceSize(&workspace_size);
EXPECT_EQ(aclRet, ACLNN_ERR_PARAM_INVALID);
}
TEST_F(l2_add_test, case_fp32_complex64)
{
auto self_tensor_desc = TensorDesc({6, 3}, ACL_FLOAT, ACL_FORMAT_ND).ValueRange(-2, 2);
float src_value = 1.0f;
aclScalar* other_desc = aclCreateScalar(&src_value, aclDataType::ACL_COMPLEX64);
auto out_tensor_desc = TensorDesc({2, 5, 6, 3}, ACL_COMPLEX64, ACL_FORMAT_HWCN).Precision(0.0001, 0.0001);
auto scalar_desc = ScalarDesc(1.2f);
auto ut = OP_API_UT(aclnnAdds, INPUT(self_tensor_desc, other_desc, scalar_desc), OUTPUT(out_tensor_desc));
uint64_t workspace_size = 0;
aclnnStatus aclRet = ut.TestGetWorkspaceSize(&workspace_size);
EXPECT_EQ(aclRet, ACLNN_ERR_PARAM_INVALID);
}
TEST_F(l2_add_test, case_013)
{
auto self_tensor_desc = TensorDesc({2, 3, 4, 5}, ACL_FLOAT16, ACL_FORMAT_NHWC).ValueRange(-10, 10);
auto other_tensor_desc = TensorDesc({2, 3, 4, 5}, ACL_FLOAT16, ACL_FORMAT_NHWC).ValueRange(-10, 10);
auto out_tensor_desc = TensorDesc({2, 3, 4, 5}, ACL_FLOAT, ACL_FORMAT_NHWC).Precision(0.001, 0.001);
auto scalar_desc = ScalarDesc(static_cast<int64_t>(2));
auto ut = OP_API_UT(aclnnAdd, INPUT(self_tensor_desc, other_tensor_desc, scalar_desc), OUTPUT(out_tensor_desc));
uint64_t workspace_size = 0;
aclnnStatus aclRet = ut.TestGetWorkspaceSize(&workspace_size);
EXPECT_EQ(aclRet, ACL_SUCCESS);
}
TEST_F(l2_add_test, case_014)
{
auto self_tensor_desc = TensorDesc({7, 9, 11, 3, 4, 6}, ACL_INT32, ACL_FORMAT_ND).ValueRange(-2, 2);
auto other_tensor_desc = TensorDesc({7, 9, 11, 3, 4, 6}, ACL_INT32, ACL_FORMAT_ND).ValueRange(-2, 2);
auto out_tensor_desc = TensorDesc({7, 9, 11, 3, 4, 6}, ACL_INT64, ACL_FORMAT_ND).Precision(0.0001, 0.0001);
auto scalar_desc = ScalarDesc(static_cast<int64_t>(2));
auto ut = OP_API_UT(aclnnAdd, INPUT(self_tensor_desc, other_tensor_desc, scalar_desc), OUTPUT(out_tensor_desc));
uint64_t workspace_size = 0;
aclnnStatus aclRet = ut.TestGetWorkspaceSize(&workspace_size);
EXPECT_EQ(aclRet, ACL_SUCCESS);
}
TEST_F(l2_add_test, case_015)
{
auto self_tensor_desc = TensorDesc({7, 9, 11, 3, 4, 6, 9}, ACL_FLOAT, ACL_FORMAT_ND).ValueRange(-2, 2);
auto other_tensor_desc = TensorDesc({7, 9, 11, 3, 4, 6, 1}, ACL_INT32, ACL_FORMAT_ND).ValueRange(-2, 2);
auto out_tensor_desc = TensorDesc({7, 9, 11, 3, 4, 6, 9}, ACL_FLOAT, ACL_FORMAT_ND).Precision(0.0001, 0.0001);
auto scalar_desc = ScalarDesc(2.5f);
auto ut = OP_API_UT(aclnnAdd, INPUT(self_tensor_desc, other_tensor_desc, scalar_desc), OUTPUT(out_tensor_desc));
uint64_t workspace_size = 0;
aclnnStatus aclRet = ut.TestGetWorkspaceSize(&workspace_size);
EXPECT_EQ(aclRet, ACL_SUCCESS);
}
TEST_F(l2_add_test, case_16)
{
auto self_tensor_desc = TensorDesc({7, 0, 6}, ACL_INT32, ACL_FORMAT_NHWC);
auto other_tensor_desc = TensorDesc({7, 1, 6}, ACL_INT32, ACL_FORMAT_ND);
auto out_tensor_desc = TensorDesc(self_tensor_desc);
auto scalar_desc = ScalarDesc(static_cast<int64_t>(5));
auto ut = OP_API_UT(aclnnAdd, INPUT(self_tensor_desc, other_tensor_desc, scalar_desc), OUTPUT(out_tensor_desc));
uint64_t workspace_size = 0;
aclnnStatus aclRet = ut.TestGetWorkspaceSize(&workspace_size);
EXPECT_EQ(aclRet, ACL_SUCCESS);
}
TEST_F(l2_add_test, case_017)
{
auto self_tensor_desc = TensorDesc({5, 4}, ACL_FLOAT, ACL_FORMAT_ND, {1, 5}, 0, {4, 5}).ValueRange(-2, 2);
auto other_tensor_desc = TensorDesc({5, 4}, ACL_FLOAT, ACL_FORMAT_ND, {1, 5}, 0, {4, 5}).ValueRange(-2, 2);
auto out_tensor_desc = TensorDesc({5, 4}, ACL_FLOAT, ACL_FORMAT_ND).Precision(0.0001, 0.0001);
auto scalar_desc = ScalarDesc(1.0f);
auto ut = OP_API_UT(aclnnAdd, INPUT(self_tensor_desc, other_tensor_desc, scalar_desc), OUTPUT(out_tensor_desc));
uint64_t workspace_size = 0;
aclnnStatus aclRet = ut.TestGetWorkspaceSize(&workspace_size);
EXPECT_EQ(aclRet, ACL_SUCCESS);
}
TEST_F(l2_add_test, case_019)
{
auto self_tensor_desc = TensorDesc({7, 9, 11, 3, 4, 6, 9, 2, 2}, ACL_FLOAT, ACL_FORMAT_ND).ValueRange(-2, 2);
auto other_tensor_desc = TensorDesc({7, 9, 11, 3, 4, 6, 9, 2, 2}, ACL_FLOAT, ACL_FORMAT_ND).ValueRange(-2, 2);
auto out_tensor_desc = TensorDesc({7, 9, 11, 3, 4, 6, 9, 2, 2}, ACL_FLOAT, ACL_FORMAT_ND).Precision(0.0001, 0.0001);
auto scalar_desc = ScalarDesc(1.2f);
auto ut = OP_API_UT(aclnnAdd, INPUT(self_tensor_desc, other_tensor_desc, scalar_desc), OUTPUT(out_tensor_desc));
uint64_t workspace_size = 0;
aclnnStatus aclRet = ut.TestGetWorkspaceSize(&workspace_size);
EXPECT_EQ(aclRet, ACLNN_ERR_PARAM_INVALID);
}
TEST_F(l2_add_test, case_020)
{
auto tensor_desc = TensorDesc({10, 5}, ACL_FLOAT, ACL_FORMAT_ND);
auto ut = OP_API_UT(aclnnAdd, INPUT(tensor_desc, tensor_desc, nullptr), OUTPUT(tensor_desc));
uint64_t workspace_size = 0;
aclnnStatus aclRet = ut.TestGetWorkspaceSize(&workspace_size);
EXPECT_EQ(aclRet, ACLNN_ERR_PARAM_NULLPTR);
auto scalar_desc = ScalarDesc(5.9f);
auto ut_2 = OP_API_UT(aclnnAdd, INPUT(nullptr, tensor_desc, scalar_desc), OUTPUT(tensor_desc));
aclRet = ut_2.TestGetWorkspaceSize(&workspace_size);
EXPECT_EQ(aclRet, ACLNN_ERR_PARAM_NULLPTR);
auto ut_3 = OP_API_UT(aclnnAdd, INPUT(tensor_desc, nullptr, scalar_desc), OUTPUT(tensor_desc));
aclRet = ut_3.TestGetWorkspaceSize(&workspace_size);
EXPECT_EQ(aclRet, ACLNN_ERR_PARAM_NULLPTR);
auto ut_4 = OP_API_UT(aclnnAdd, INPUT(tensor_desc, tensor_desc, scalar_desc), OUTPUT(nullptr));
aclRet = ut_4.TestGetWorkspaceSize(&workspace_size);
EXPECT_EQ(aclRet, ACLNN_ERR_PARAM_NULLPTR);
}
TEST_F(l2_add_test, case_021)
{
auto tensor_desc = TensorDesc({10, 5}, ACL_UINT32, ACL_FORMAT_ND);
auto scalar_desc = ScalarDesc(static_cast<int64_t>(5));
auto ut = OP_API_UT(aclnnAdd, INPUT(tensor_desc, tensor_desc, scalar_desc), OUTPUT(tensor_desc));
uint64_t workspace_size = 0;
aclnnStatus aclRet = ut.TestGetWorkspaceSize(&workspace_size);
EXPECT_EQ(aclRet, ACLNN_ERR_PARAM_INVALID);
}
TEST_F(l2_add_test, case_022)
{
auto self_tensor_desc = TensorDesc({10, 5, 2, 10}, ACL_FLOAT, ACL_FORMAT_NHWC).ValueRange(-2, 2);
auto other_tensor_desc = TensorDesc({10, 5, 5, 10}, ACL_FLOAT, ACL_FORMAT_NHWC).ValueRange(-2, 2);
auto out_tensor_desc = TensorDesc(self_tensor_desc).Precision(0.0001, 0.0001);
auto scalar_desc = ScalarDesc(5.9f);
auto ut = OP_API_UT(aclnnAdd, INPUT(self_tensor_desc, other_tensor_desc, scalar_desc), OUTPUT(out_tensor_desc));
uint64_t workspace_size = 0;
aclnnStatus aclRet = ut.TestGetWorkspaceSize(&workspace_size);
EXPECT_EQ(aclRet, ACLNN_ERR_PARAM_INVALID);
self_tensor_desc = TensorDesc({10, 5, 5, 10}, ACL_FLOAT, ACL_FORMAT_NHWC).ValueRange(-2, 2);
other_tensor_desc = TensorDesc({10, 5, 5, 10}, ACL_FLOAT, ACL_FORMAT_NHWC).ValueRange(-2, 2);
out_tensor_desc =
TensorDesc({10, 5, 10, 5}, ACL_FLOAT, ACL_FORMAT_NHWC).ValueRange(-2, 2).Precision(0.0001, 0.0001);
scalar_desc = ScalarDesc(5.9f);
auto ut_2 = OP_API_UT(aclnnAdd, INPUT(self_tensor_desc, other_tensor_desc, scalar_desc), OUTPUT(out_tensor_desc));
aclRet = ut_2.TestGetWorkspaceSize(&workspace_size);
EXPECT_EQ(aclRet, ACLNN_ERR_PARAM_INVALID);
}
TEST_F(l2_add_test, case_026)
{
auto self_tensor_desc = TensorDesc({10, 5}, ACL_INT32, ACL_FORMAT_ND).ValueRange(-2, 2);
auto other_tensor_desc = TensorDesc({10, 5}, ACL_INT32, ACL_FORMAT_ND).ValueRange(-2, 2);
auto out_tensor_desc = TensorDesc(self_tensor_desc).Precision(0.0001, 0.0001);
auto scalar_desc = ScalarDesc(5.9f);
auto ut = OP_API_UT(aclnnAdd, INPUT(self_tensor_desc, other_tensor_desc, scalar_desc), OUTPUT(out_tensor_desc));
uint64_t workspace_size = 0;
aclnnStatus aclRet = ut.TestGetWorkspaceSize(&workspace_size);
EXPECT_EQ(aclRet, ACLNN_ERR_PARAM_INVALID);
self_tensor_desc = TensorDesc({10, 5}, ACL_FLOAT, ACL_FORMAT_ND).ValueRange(-2, 2);
other_tensor_desc = TensorDesc({10, 5}, ACL_FLOAT, ACL_FORMAT_ND).ValueRange(-2, 2);
out_tensor_desc = TensorDesc({10, 5}, ACL_INT32, ACL_FORMAT_ND).ValueRange(-2, 2).Precision(0.0001, 0.0001);
scalar_desc = ScalarDesc(5.9f);
auto ut_2 = OP_API_UT(aclnnAdd, INPUT(self_tensor_desc, other_tensor_desc, scalar_desc), OUTPUT(out_tensor_desc));
aclRet = ut_2.TestGetWorkspaceSize(&workspace_size);
EXPECT_EQ(aclRet, ACLNN_ERR_PARAM_INVALID);
}
TEST_F(l2_add_test, case_027)
{
auto tensor_desc = TensorDesc({10, 5}, ACL_INT32, ACL_FORMAT_ND);
auto scalar_desc = ScalarDesc(static_cast<int64_t>(5));
auto out_desc = TensorDesc({10, 1}, ACL_INT32, ACL_FORMAT_ND);
auto ut = OP_API_UT(aclnnAdds, INPUT(tensor_desc, scalar_desc, scalar_desc), OUTPUT(out_desc));
uint64_t workspace_size = 0;
aclnnStatus aclRet = ut.TestGetWorkspaceSize(&workspace_size);
EXPECT_EQ(aclRet, ACLNN_ERR_PARAM_INVALID);
}
TEST_F(l2_add_test, case_029)
{
auto self_tensor_desc =
TensorDesc({1, 2, 3}, ACL_FLOAT, ACL_FORMAT_ND).Value(vector<bool>{true, false, false, false, true, false});
auto other_desc = ScalarDesc(static_cast<int64_t>(2));
auto out_tensor_desc = TensorDesc(self_tensor_desc).Precision(0.0001, 0.0001);
auto scalar_desc = ScalarDesc(static_cast<int64_t>(2));
auto ut = OP_API_UT(aclnnAdds, INPUT(self_tensor_desc, other_desc, scalar_desc), OUTPUT(out_tensor_desc));
uint64_t workspace_size = 0;
aclnnStatus aclRet = ut.TestGetWorkspaceSize(&workspace_size);
EXPECT_EQ(aclRet, ACL_SUCCESS);
}
TEST_F(l2_add_test, case_030)
{
auto tensor_desc = TensorDesc({10, 5}, ACL_FLOAT, ACL_FORMAT_ND);
auto scalar_desc = ScalarDesc(5.9f);
auto ut = OP_API_UT(aclnnAdds, INPUT(tensor_desc, scalar_desc, nullptr), OUTPUT(tensor_desc));
uint64_t workspace_size = 0;
aclnnStatus aclRet = ut.TestGetWorkspaceSize(&workspace_size);
EXPECT_EQ(aclRet, ACLNN_ERR_PARAM_NULLPTR);
auto ut_2 = OP_API_UT(aclnnAdds, INPUT(nullptr, scalar_desc, scalar_desc), OUTPUT(tensor_desc));
aclRet = ut_2.TestGetWorkspaceSize(&workspace_size);
EXPECT_EQ(aclRet, ACLNN_ERR_PARAM_NULLPTR);
auto ut_3 = OP_API_UT(aclnnAdds, INPUT(tensor_desc, nullptr, scalar_desc), OUTPUT(tensor_desc));
aclRet = ut_3.TestGetWorkspaceSize(&workspace_size);
EXPECT_EQ(aclRet, ACLNN_ERR_PARAM_NULLPTR);
auto ut_4 = OP_API_UT(aclnnAdds, INPUT(tensor_desc, scalar_desc, scalar_desc), OUTPUT(nullptr));
aclRet = ut_4.TestGetWorkspaceSize(&workspace_size);
EXPECT_EQ(aclRet, ACLNN_ERR_PARAM_NULLPTR);
}
TEST_F(l2_add_test, case_031)
{
auto self_tensor_desc = TensorDesc({7, 9, 11, 3, 4, 6, 9, 2, 2}, ACL_FLOAT, ACL_FORMAT_ND).ValueRange(-2, 2);
auto out_tensor_desc = TensorDesc({7, 9, 11, 3, 4, 6, 9, 2, 2}, ACL_FLOAT, ACL_FORMAT_ND).Precision(0.0001, 0.0001);
auto scalar_desc = ScalarDesc(1.2f);
auto ut = OP_API_UT(aclnnAdds, INPUT(self_tensor_desc, scalar_desc, scalar_desc), OUTPUT(out_tensor_desc));
uint64_t workspace_size = 0;
aclnnStatus aclRet = ut.TestGetWorkspaceSize(&workspace_size);
EXPECT_EQ(aclRet, ACLNN_ERR_PARAM_INVALID);
}
TEST_F(l2_add_test, case_032)
{
auto self_tensor_desc =
TensorDesc({1, 2, 3}, ACL_BOOL, ACL_FORMAT_ND).Value(vector<bool>{true, false, false, false, true, false});
auto other_desc = ScalarDesc(false);
auto out_tensor_desc = TensorDesc(self_tensor_desc).Precision(0.0001, 0.0001);
auto scalar_desc = ScalarDesc(static_cast<int64_t>(2));
auto ut = OP_API_UT(aclnnAdds, INPUT(self_tensor_desc, other_desc, scalar_desc), OUTPUT(out_tensor_desc));
uint64_t workspace_size = 0;
aclnnStatus aclRet = ut.TestGetWorkspaceSize(&workspace_size);
EXPECT_EQ(aclRet, ACL_SUCCESS);
}
TEST_F(l2_add_test, case_033)
{
auto self_tensor_desc = TensorDesc({1, 2, 0, 5}, ACL_INT32, ACL_FORMAT_ND);
auto other_desc = ScalarDesc(static_cast<int64_t>(2));
auto out_tensor_desc = TensorDesc(self_tensor_desc).Precision(0.0001, 0.0001);
auto scalar_desc = ScalarDesc(static_cast<int64_t>(2));
auto ut = OP_API_UT(aclnnAdds, INPUT(self_tensor_desc, other_desc, scalar_desc), OUTPUT(out_tensor_desc));
uint64_t workspace_size = 0;
aclnnStatus aclRet = ut.TestGetWorkspaceSize(&workspace_size);
EXPECT_EQ(aclRet, ACL_SUCCESS);
}
TEST_F(l2_add_test, case_034)
{
auto self_tensor_desc = TensorDesc({1, 2, 4, 5}, ACL_INT32, ACL_FORMAT_ND);
auto other_desc = ScalarDesc(static_cast<int64_t>(2));
auto out_tensor_desc = TensorDesc(self_tensor_desc).Precision(0.0001, 0.0001);
auto scalar_desc = ScalarDesc(static_cast<int64_t>(2));
auto ut = OP_API_UT(aclnnAdds, INPUT(self_tensor_desc, other_desc, scalar_desc), OUTPUT(out_tensor_desc));
uint64_t workspace_size = 0;
aclnnStatus aclRet = ut.TestGetWorkspaceSize(&workspace_size);
EXPECT_EQ(aclRet, ACL_SUCCESS);
}
TEST_F(l2_add_test, Ascend910B2_case_034)
{
auto self_tensor_desc = TensorDesc({1, 2, 4, 5}, ACL_INT64, ACL_FORMAT_ND);
auto other_desc = ScalarDesc(static_cast<double>(2.0));
auto out_tensor_desc = TensorDesc({1, 2, 4, 5}, ACL_FLOAT, ACL_FORMAT_ND).Precision(0.0001, 0.0001);
auto scalar_desc = ScalarDesc(static_cast<double>(2.0));
auto ut = OP_API_UT(aclnnAdds, INPUT(self_tensor_desc, other_desc, scalar_desc), OUTPUT(out_tensor_desc));
uint64_t workspace_size = 0;
aclnnStatus aclRet = ut.TestGetWorkspaceSize(&workspace_size);
EXPECT_EQ(aclRet, ACL_SUCCESS);
}
TEST_F(l2_add_test, Ascend910B2_case_fp16_fp32_mix_dtype)
{
auto self_tensor_desc = TensorDesc({2, 3}, ACL_FLOAT16, ACL_FORMAT_ND).ValueRange(-1, 1);
auto other_tensor_desc = TensorDesc({2, 3}, ACL_FLOAT, ACL_FORMAT_ND).ValueRange(-1, 1);
auto out_tensor_desc = TensorDesc(self_tensor_desc);
auto scalar_desc = ScalarDesc(1.0f);
auto ut = OP_API_UT(aclnnAdd, INPUT(self_tensor_desc, other_tensor_desc, scalar_desc), OUTPUT(out_tensor_desc));
uint64_t workspace_size = 0;
aclnnStatus aclRet = ut.TestGetWorkspaceSize(&workspace_size);
EXPECT_EQ(aclRet, ACL_SUCCESS);
*/
}
TEST_F(l2_add_test, Ascend910B2_case_fp32_fp16_mix_dtype)
{
auto self_tensor_desc = TensorDesc({2, 3}, ACL_FLOAT, ACL_FORMAT_ND).ValueRange(-1, 1);
auto other_tensor_desc = TensorDesc({2, 3}, ACL_FLOAT16, ACL_FORMAT_ND).ValueRange(-1, 1);
auto out_tensor_desc = TensorDesc(self_tensor_desc);
auto scalar_desc = ScalarDesc(1.0f);
auto ut = OP_API_UT(aclnnAdd, INPUT(self_tensor_desc, other_tensor_desc, scalar_desc), OUTPUT(out_tensor_desc));
uint64_t workspace_size = 0;
aclnnStatus aclRet = ut.TestGetWorkspaceSize(&workspace_size);
EXPECT_EQ(aclRet, ACL_SUCCESS);
}
TEST_F(l2_add_test, Ascend910B2_case_bf16_fp32_mix_dtype)
{
auto self_tensor_desc = TensorDesc({2, 3}, ACL_BF16, ACL_FORMAT_ND).ValueRange(-1, 1);
auto other_tensor_desc = TensorDesc({2, 3}, ACL_FLOAT, ACL_FORMAT_ND).ValueRange(-1, 1);
auto out_tensor_desc = TensorDesc(self_tensor_desc);
auto scalar_desc = ScalarDesc(1.0f);
auto ut = OP_API_UT(aclnnAdd, INPUT(self_tensor_desc, other_tensor_desc, scalar_desc), OUTPUT(out_tensor_desc));
uint64_t workspace_size = 0;
aclnnStatus aclRet = ut.TestGetWorkspaceSize(&workspace_size);
EXPECT_EQ(aclRet, ACL_SUCCESS);
*/
}
TEST_F(l2_add_test, Ascend910B2_case_fp32_bf16_mix_dtype)
{
auto self_tensor_desc = TensorDesc({2, 3}, ACL_FLOAT, ACL_FORMAT_ND).ValueRange(-1, 1);
auto other_tensor_desc = TensorDesc({2, 3}, ACL_BF16, ACL_FORMAT_ND).ValueRange(-1, 1);
auto out_tensor_desc = TensorDesc(self_tensor_desc);
auto scalar_desc = ScalarDesc(1.0f);
auto ut = OP_API_UT(aclnnAdd, INPUT(self_tensor_desc, other_tensor_desc, scalar_desc), OUTPUT(out_tensor_desc));
uint64_t workspace_size = 0;
aclnnStatus aclRet = ut.TestGetWorkspaceSize(&workspace_size);
EXPECT_EQ(aclRet, ACL_SUCCESS);
*/
}
TEST_F(l2_add_test, Ascend910_93_case_027)
{
auto tensor_desc = TensorDesc({10, 5}, ACL_INT32, ACL_FORMAT_ND);
auto scalar_desc = ScalarDesc(static_cast<int64_t>(5));
auto out_desc = TensorDesc({10, 1}, ACL_INT32, ACL_FORMAT_ND);
auto ut = OP_API_UT(aclnnAdds, INPUT(tensor_desc, scalar_desc, scalar_desc), OUTPUT(out_desc));
uint64_t workspace_size = 0;
aclnnStatus aclRet = ut.TestGetWorkspaceSize(&workspace_size);
EXPECT_EQ(aclRet, ACLNN_ERR_PARAM_INVALID);
}
TEST_F(l2_add_test, Ascend950PR_89_case_005)
{
auto self_tensor_desc = TensorDesc({2, 3}, ACL_INT32, ACL_FORMAT_ND).ValueRange(-1, 1);
auto other_tensor_desc = TensorDesc({2, 3}, ACL_INT32, ACL_FORMAT_ND).ValueRange(-1, 1);
auto out_tensor_desc = TensorDesc(self_tensor_desc);
auto scalar_desc = ScalarDesc(static_cast<int32_t>(2.0f));
auto ut = OP_API_UT(aclnnAdd, INPUT(self_tensor_desc, other_tensor_desc, scalar_desc), OUTPUT(out_tensor_desc));
uint64_t workspace_size = 0;
aclnnStatus aclRet = ut.TestGetWorkspaceSize(&workspace_size);
EXPECT_EQ(aclRet, ACL_SUCCESS);
}
TEST_F(l2_add_test, Ascend950PR_89_case_007)
{
auto self_tensor_desc = TensorDesc({2, 3}, ACL_INT32, ACL_FORMAT_ND).ValueRange(-1, 1);
auto other_desc = ScalarDesc(static_cast<int32_t>(2.0f));
auto out_tensor_desc = TensorDesc(self_tensor_desc);
auto scalar_desc = ScalarDesc(static_cast<int32_t>(2.0f));
auto ut = OP_API_UT(aclnnAdds, INPUT(self_tensor_desc, other_desc, scalar_desc), OUTPUT(out_tensor_desc));
uint64_t workspace_size = 0;
aclnnStatus aclRet = ut.TestGetWorkspaceSize(&workspace_size);
EXPECT_EQ(aclRet, ACL_SUCCESS);
}
TEST_F(l2_add_test, Ascend910B2_case_bool_bool)
{
auto tensor_desc = TensorDesc({10, 5}, ACL_BOOL, ACL_FORMAT_ND);
auto scalar_desc = ScalarDesc(static_cast<bool>(1));
auto out_desc = TensorDesc({10, 5}, ACL_FLOAT16, ACL_FORMAT_ND);
auto ut = OP_API_UT(aclnnAdds, INPUT(tensor_desc, scalar_desc, scalar_desc), OUTPUT(out_desc));
uint64_t workspace_size = 0;
aclnnStatus aclRet = ut.TestGetWorkspaceSize(&workspace_size);
EXPECT_EQ(aclRet, ACL_SUCCESS);
}
