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/*
* Copyright 2008-2013 NVIDIA Corporation
* Modifications Copyright© 2019-2024 Advanced Micro Devices, Inc. All rights reserved.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include <unittest/unittest.h>
#include <thrust/equal.h>
#include <thrust/functional.h>
#include <thrust/iterator/retag.h>
#include <thrust/device_malloc.h>
#include <thrust/device_free.h>
template <class Vector>
void TestEqualSimple(void)
{
typedef typename Vector::value_type T;
Vector v1(5);
Vector v2(5);
v1[0] = 5; v1[1] = 2; v1[2] = 0; v1[3] = 0; v1[4] = 0;
v2[0] = 5; v2[1] = 2; v2[2] = 0; v2[3] = 6; v2[4] = 1;
ASSERT_EQUAL(thrust::equal(v1.begin(), v1.end(), v1.begin()), true);
ASSERT_EQUAL(thrust::equal(v1.begin(), v1.end(), v2.begin()), false);
ASSERT_EQUAL(thrust::equal(v2.begin(), v2.end(), v2.begin()), true);
ASSERT_EQUAL(thrust::equal(v1.begin(), v1.begin() + 0, v1.begin()), true);
ASSERT_EQUAL(thrust::equal(v1.begin(), v1.begin() + 1, v1.begin()), true);
ASSERT_EQUAL(thrust::equal(v1.begin(), v1.begin() + 3, v2.begin()), true);
ASSERT_EQUAL(thrust::equal(v1.begin(), v1.begin() + 4, v2.begin()), false);
ASSERT_EQUAL(thrust::equal(v1.begin(), v1.end(), v2.begin(), thrust::less_equal<T>()), true);
ASSERT_EQUAL(thrust::equal(v1.begin(), v1.end(), v2.begin(), thrust::greater<T>()), false);
}
DECLARE_VECTOR_UNITTEST(TestEqualSimple);
template <typename T>
void TestEqual(const size_t n)
{
thrust::host_vector<T> h_data1 = unittest::random_samples<T>(n);
thrust::host_vector<T> h_data2 = unittest::random_samples<T>(n);
thrust::device_vector<T> d_data1 = h_data1;
thrust::device_vector<T> d_data2 = h_data2;
//empty ranges
ASSERT_EQUAL(thrust::equal(h_data1.begin(), h_data1.begin(), h_data1.begin()), true);
ASSERT_EQUAL(thrust::equal(d_data1.begin(), d_data1.begin(), d_data1.begin()), true);
//symmetric cases
ASSERT_EQUAL(thrust::equal(h_data1.begin(), h_data1.end(), h_data1.begin()), true);
ASSERT_EQUAL(thrust::equal(d_data1.begin(), d_data1.end(), d_data1.begin()), true);
if (n > 0)
{
h_data1[0] = 0; h_data2[0] = 1;
d_data1[0] = 0; d_data2[0] = 1;
//different vectors
ASSERT_EQUAL(thrust::equal(h_data1.begin(), h_data1.end(), h_data2.begin()), false);
ASSERT_EQUAL(thrust::equal(d_data1.begin(), d_data1.end(), d_data2.begin()), false);
//different predicates
ASSERT_EQUAL(thrust::equal(h_data1.begin(), h_data1.begin() + 1, h_data2.begin(), thrust::less<T>()), true);
ASSERT_EQUAL(thrust::equal(d_data1.begin(), d_data1.begin() + 1, d_data2.begin(), thrust::less<T>()), true);
ASSERT_EQUAL(thrust::equal(h_data1.begin(), h_data1.begin() + 1, h_data2.begin(), thrust::greater<T>()), false);
ASSERT_EQUAL(thrust::equal(d_data1.begin(), d_data1.begin() + 1, d_data2.begin(), thrust::greater<T>()), false);
}
}
DECLARE_VARIABLE_UNITTEST(TestEqual);
template<typename InputIterator1, typename InputIterator2>
bool equal(my_system &system, InputIterator1 /*first*/, InputIterator1, InputIterator2)
{
system.validate_dispatch();
return false;
}
void TestEqualDispatchExplicit()
{
thrust::device_vector<int> vec(1);
my_system sys(0);
thrust::equal(sys,
vec.begin(),
vec.end(),
vec.begin());
ASSERT_EQUAL(true, sys.is_valid());
}
DECLARE_UNITTEST(TestEqualDispatchExplicit);
template<typename InputIterator1, typename InputIterator2>
bool equal(my_tag, InputIterator1 first, InputIterator1, InputIterator2)
{
*first = 13;
return false;
}
void TestEqualDispatchImplicit()
{
thrust::device_vector<int> vec(1);
thrust::equal(thrust::retag<my_tag>(vec.begin()),
thrust::retag<my_tag>(vec.end()),
thrust::retag<my_tag>(vec.begin()));
ASSERT_EQUAL(13, vec.front());
}
DECLARE_UNITTEST(TestEqualDispatchImplicit);
struct only_set_when_both_expected
{
long long expected;
bool * flag;
THRUST_DEVICE
bool operator()(long long x, long long y)
{
if (x == expected && y == expected)
{
*flag = true;
}
return x == y;
}
};
void TestEqualWithBigIndexesHelper(int magnitude)
{
thrust::counting_iterator<long long> begin(1);
thrust::counting_iterator<long long> end = begin + (1ll << magnitude);
ASSERT_EQUAL(thrust::distance(begin, end), 1ll << magnitude);
thrust::device_ptr<bool> has_executed = thrust::device_malloc<bool>(1);
*has_executed = false;
only_set_when_both_expected fn = { (1ll << magnitude) - 1,
thrust::raw_pointer_cast(has_executed) };
ASSERT_EQUAL(thrust::equal(thrust::device, begin, end, begin, fn), true);
bool has_executed_h = *has_executed;
thrust::device_free(has_executed);
ASSERT_EQUAL(has_executed_h, true);
}
void TestEqualWithBigIndexes()
{
TestEqualWithBigIndexesHelper(30);
TestEqualWithBigIndexesHelper(31);
TestEqualWithBigIndexesHelper(32);
TestEqualWithBigIndexesHelper(33);
}
DECLARE_UNITTEST(TestEqualWithBigIndexes);
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