llvm-project/pstl/test/test_unique_copy_equal.cpp
JF Bastien e637637ae4 Initial PSTL commit
The initial commit of the Parallel STL upstream (under LLVM umbrella) based on
Parallel STL 20181204 open source release, which is available by
https://github.com/intel/parallelstl

Author: Mikhail Dvorskiy <mikhail.dvorskiy@intel.com>

Differential Revision: https://reviews.llvm.org/D55889

llvm-svn: 349653
2018-12-19 17:45:32 +00:00

134 lines
5.2 KiB
C++

// -*- C++ -*-
//===-- test_unique_copy_equal.cpp ----------------------------------------===//
//
// The LLVM Compiler Infrastructure
//
// This file is dual licensed under the MIT and the University of Illinois Open
// Source Licenses. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
// Tests for unique_copy
#include "pstl_test_config.h"
#include "pstl/execution"
#include "pstl/algorithm"
#include "utils.h"
using namespace TestUtils;
struct run_unique_copy
{
#if __PSTL_ICC_16_VC14_TEST_PAR_TBB_RT_RELEASE_64_BROKEN // dummy specializations to skip testing in case of broken configuration
template <typename InputIterator, typename OutputIterator, typename OutputIterator2, typename Size,
typename Predicate, typename T>
void
operator()(pstl::execution::parallel_policy, InputIterator first, InputIterator last, OutputIterator out_first,
OutputIterator out_last, OutputIterator2 expected_first, OutputIterator2 expected_last, Size n,
Predicate pred, T trash)
{
}
template <typename InputIterator, typename OutputIterator, typename OutputIterator2, typename Size,
typename Predicate, typename T>
void
operator()(pstl::execution::parallel_unsequenced_policy, InputIterator first, InputIterator last,
OutputIterator out_first, OutputIterator out_last, OutputIterator2 expected_first,
OutputIterator2 expected_last, Size n, Predicate pred, T trash)
{
}
#endif
template <typename Policy, typename InputIterator, typename OutputIterator, typename OutputIterator2, typename Size,
typename Predicate, typename T>
void
operator()(Policy&& exec, InputIterator first, InputIterator last, OutputIterator out_first,
OutputIterator out_last, OutputIterator2 expected_first, OutputIterator2 expected_last, Size n,
Predicate pred, T trash)
{
// Cleaning
std::fill_n(expected_first, n, trash);
std::fill_n(out_first, n, trash);
// Run unique_copy
auto i = unique_copy(first, last, expected_first);
auto k = unique_copy(exec, first, last, out_first);
EXPECT_EQ_N(expected_first, out_first, n, "wrong unique_copy effect");
for (size_t j = 0; j < GuardSize; ++j)
{
++k;
}
EXPECT_TRUE(out_last == k, "wrong return value from unique_copy");
// Cleaning
std::fill_n(expected_first, n, trash);
std::fill_n(out_first, n, trash);
// Run unique_copy with predicate
i = unique_copy(first, last, expected_first, pred);
k = unique_copy(exec, first, last, out_first, pred);
EXPECT_EQ_N(expected_first, out_first, n, "wrong unique_copy with predicate effect");
for (size_t j = 0; j < GuardSize; ++j)
{
++k;
}
EXPECT_TRUE(out_last == k, "wrong return value from unique_copy with predicate");
}
};
template <typename T, typename BinaryPredicate, typename Convert>
void
test(T trash, BinaryPredicate pred, Convert convert, bool check_weakness = true)
{
// Try sequences of various lengths.
for (size_t n = 0; n <= 100000; n = n <= 16 ? n + 1 : size_t(3.1415 * n))
{
// count is number of output elements, plus a handful
// more for sake of detecting buffer overruns.
Sequence<T> in(n, [&](size_t k) -> T { return convert(k ^ n); });
using namespace std;
size_t count = GuardSize;
for (size_t k = 0; k < in.size(); ++k)
count += k == 0 || !pred(in[k], in[k - 1]) ? 1 : 0;
Sequence<T> out(count, [=](size_t) { return trash; });
Sequence<T> expected(count, [=](size_t) { return trash; });
if (check_weakness)
{
auto expected_result = unique_copy(in.begin(), in.end(), expected.begin(), pred);
size_t m = expected_result - expected.begin();
EXPECT_TRUE(n / (n < 10000 ? 4 : 6) <= m && m <= (3 * n + 1) / 4, "weak test for unique_copy");
}
invoke_on_all_policies(run_unique_copy(), in.begin(), in.end(), out.begin(), out.end(), expected.begin(),
expected.end(), count, pred, trash);
}
}
template <typename T>
struct test_non_const
{
template <typename Policy, typename InputIterator, typename OutputInterator>
void
operator()(Policy&& exec, InputIterator input_iter, OutputInterator out_iter)
{
unique_copy(exec, input_iter, input_iter, out_iter, non_const(std::equal_to<T>()));
}
};
int32_t
main(int32_t argc, char* argv[])
{
test<Number>(Number(42, OddTag()), std::equal_to<Number>(),
[](int32_t j) { return Number(3 * j / 13 ^ (j & 8), OddTag()); });
test<float32_t>(float32_t(42), std::equal_to<float32_t>(),
[](int32_t j) { return float32_t(5 * j / 23 ^ (j / 7)); });
#if !__PSTL_ICC_16_17_TEST_REDUCTION_RELEASE_BROKEN
test<float32_t>(float32_t(42), [](float32_t x, float32_t y) { return false; },
[](int32_t j) { return float32_t(j); }, false);
#endif
test_algo_basic_double<int32_t>(run_for_rnd_fw<test_non_const<int32_t>>());
std::cout << done() << std::endl;
return 0;
}