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unordered/test/cfoa/visit_tests.cpp

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Implement basic version of single element visitation
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// Copyright (C) 2023 Christian Mazakas
// Distributed under the Boost Software License, Version 1.0. (See accompanying
// file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
#include "helpers.hpp"
#include <boost/unordered/concurrent_flat_map.hpp>
#include <boost/core/ignore_unused.hpp>
#include <functional>
#include <vector>
namespace {
test::seed_t initialize_seed(335740237);
struct lvalue_visitor_type
{
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template <class T, class X, class M>
void operator()(std::vector<T>& values, X& x, M const& reference_map)
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{
using value_type = typename X::value_type;
std::atomic<std::uint64_t> num_visits{0};
std::atomic<std::uint64_t> total_count{0};
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auto mut_visitor = [&num_visits, &reference_map](value_type& v) {
BOOST_TEST(reference_map.contains(v.first));
BOOST_TEST_EQ(v.second, reference_map.find(v.first)->second);
++num_visits;
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};
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auto const_visitor = [&num_visits, &reference_map](value_type const& v) {
BOOST_TEST(reference_map.contains(v.first));
BOOST_TEST_EQ(v.second, reference_map.find(v.first)->second);
++num_visits;
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};
{
thread_runner(
values, [&x, &mut_visitor, &total_count](boost::span<T> s) {
for (auto const& val : s) {
auto r = val.first.x_;
s/BOOST_ASSERT/BOOST_TEST to avoid unused var warnings
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BOOST_TEST(r >= 0);
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Add visit_all()
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auto count = x.visit(val.first, mut_visitor);
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BOOST_TEST_EQ(count, 1u);
total_count += count;
Add visit_all()
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count = x.visit(val.second, mut_visitor);
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BOOST_TEST_EQ(count, 0u);
}
});
BOOST_TEST_EQ(num_visits, values.size());
BOOST_TEST_EQ(total_count, values.size());
num_visits = 0;
total_count = 0;
}
{
thread_runner(
values, [&x, &const_visitor, &total_count](boost::span<T> s) {
for (auto const& val : s) {
auto r = val.first.x_;
s/BOOST_ASSERT/BOOST_TEST to avoid unused var warnings
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BOOST_TEST(r >= 0);
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auto const& y = x;
Add visit_all()
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auto count = y.visit(val.first, const_visitor);
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BOOST_TEST_EQ(count, 1u);
total_count += count;
Add visit_all()
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count = y.visit(val.second, const_visitor);
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BOOST_TEST_EQ(count, 0u);
}
});
BOOST_TEST_EQ(num_visits, values.size());
BOOST_TEST_EQ(total_count, values.size());
num_visits = 0;
total_count = 0;
}
{
thread_runner(
values, [&x, &const_visitor, &total_count](boost::span<T> s) {
for (auto const& val : s) {
auto r = val.first.x_;
s/BOOST_ASSERT/BOOST_TEST to avoid unused var warnings
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BOOST_TEST(r >= 0);
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Add visit_all()
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auto count = x.cvisit(val.first, const_visitor);
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BOOST_TEST_EQ(count, 1u);
total_count += count;
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count = x.cvisit(val.second, const_visitor);
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BOOST_TEST_EQ(count, 0u);
}
});
BOOST_TEST_EQ(num_visits, values.size());
BOOST_TEST_EQ(total_count, values.size());
num_visits = 0;
total_count = 0;
}
Add count(), contains()
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{
thread_runner(values, [&x, &total_count](boost::span<T> s) {
for (auto const& val : s) {
auto r = val.first.x_;
BOOST_TEST(r >= 0);
auto count = x.count(val.first);
BOOST_TEST_EQ(count, 1u);
total_count += count;
count = x.count(val.second);
BOOST_TEST_EQ(count, 0u);
}
});
BOOST_TEST_EQ(total_count, values.size());
num_visits = 0;
total_count = 0;
}
{
thread_runner(values, [&x](boost::span<T> s) {
for (auto const& val : s) {
auto r = val.first.x_;
BOOST_TEST(r >= 0);
auto contains = x.contains(val.first);
BOOST_TEST(contains);
contains = x.contains(val.second);
BOOST_TEST(!contains);
}
});
num_visits = 0;
total_count = 0;
}
Implement basic version of single element visitation
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}
} lvalue_visitor;
struct transp_visitor_type
{
Add visit_all()
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template <class T, class X, class M>
void operator()(std::vector<T>& values, X& x, M const& reference_map)
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{
using value_type = typename X::value_type;
std::atomic<std::uint64_t> num_visits{0};
std::atomic<std::uint64_t> total_count{0};
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auto mut_visitor = [&num_visits, &reference_map](value_type& v) {
BOOST_TEST(reference_map.contains(v.first));
BOOST_TEST_EQ(v.second, reference_map.find(v.first)->second);
++num_visits;
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};
Add visit_all()
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auto const_visitor = [&num_visits, &reference_map](value_type const& v) {
BOOST_TEST(reference_map.contains(v.first));
BOOST_TEST_EQ(v.second, reference_map.find(v.first)->second);
++num_visits;
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};
{
thread_runner(
values, [&x, &mut_visitor, &total_count](boost::span<T> s) {
for (auto const& val : s) {
auto r = val.first.x_;
s/BOOST_ASSERT/BOOST_TEST to avoid unused var warnings
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BOOST_TEST(r >= 0);
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Add visit_all()
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auto count = x.visit(val.first.x_, mut_visitor);
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BOOST_TEST_EQ(count, 1u);
total_count += count;
Add visit_all()
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count = x.visit(val.second.x_, mut_visitor);
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BOOST_TEST_EQ(count, 0u);
}
});
BOOST_TEST_EQ(num_visits, values.size());
BOOST_TEST_EQ(total_count, values.size());
num_visits = 0;
total_count = 0;
}
{
thread_runner(
values, [&x, &const_visitor, &total_count](boost::span<T> s) {
for (auto const& val : s) {
auto r = val.first.x_;
s/BOOST_ASSERT/BOOST_TEST to avoid unused var warnings
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BOOST_TEST(r >= 0);
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auto const& y = x;
Add visit_all()
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auto count = y.visit(val.first.x_, const_visitor);
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BOOST_TEST_EQ(count, 1u);
total_count += count;
Add visit_all()
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count = y.visit(val.second.x_, const_visitor);
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BOOST_TEST_EQ(count, 0u);
}
});
BOOST_TEST_EQ(num_visits, values.size());
BOOST_TEST_EQ(total_count, values.size());
num_visits = 0;
total_count = 0;
}
{
thread_runner(
values, [&x, &const_visitor, &total_count](boost::span<T> s) {
for (auto const& val : s) {
auto r = val.first.x_;
s/BOOST_ASSERT/BOOST_TEST to avoid unused var warnings
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BOOST_TEST(r >= 0);
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Add visit_all()
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auto count = x.cvisit(val.first.x_, const_visitor);
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BOOST_TEST_EQ(count, 1u);
total_count += count;
Add visit_all()
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count = x.cvisit(val.second.x_, const_visitor);
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BOOST_TEST_EQ(count, 0u);
}
});
BOOST_TEST_EQ(num_visits, values.size());
BOOST_TEST_EQ(total_count, values.size());
num_visits = 0;
total_count = 0;
}
Add count(), contains()
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{
thread_runner(values, [&x, &total_count](boost::span<T> s) {
for (auto const& val : s) {
auto r = val.first.x_;
BOOST_TEST(r >= 0);
auto count = x.count(val.first.x_);
BOOST_TEST_EQ(count, 1u);
total_count += count;
count = x.count(val.second.x_);
BOOST_TEST_EQ(count, 0u);
}
});
BOOST_TEST_EQ(total_count, values.size());
num_visits = 0;
total_count = 0;
}
{
thread_runner(values, [&x](boost::span<T> s) {
for (auto const& val : s) {
auto r = val.first.x_;
BOOST_TEST(r >= 0);
auto contains = x.contains(val.first.x_);
BOOST_TEST(contains);
contains = x.contains(val.second.x_);
BOOST_TEST(!contains);
}
});
num_visits = 0;
total_count = 0;
}
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}
} transp_visitor;
Add visit_all()
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struct visit_all_type
{
template <class T, class X, class M>
void operator()(std::vector<T>& values, X& x, M const& reference_map)
{
using value_type = typename X::value_type;
std::atomic<std::uint64_t> total_count{0};
auto mut_visitor = [&reference_map](std::atomic<uint64_t>& num_visits) {
return [&reference_map, &num_visits](value_type& kv) {
BOOST_TEST(reference_map.contains(kv.first));
BOOST_TEST_EQ(kv.second, reference_map.find(kv.first)->second);
++num_visits;
};
};
auto const_visitor = [&reference_map](std::atomic<uint64_t>& num_visits) {
return [&reference_map, &num_visits](value_type const& kv) {
BOOST_TEST(reference_map.contains(kv.first));
BOOST_TEST_EQ(kv.second, reference_map.find(kv.first)->second);
++num_visits;
};
};
{
thread_runner(values, [&x, &total_count, &mut_visitor](boost::span<T>) {
std::atomic<std::uint64_t> num_visits{0};
total_count += x.visit_all(mut_visitor(num_visits));
BOOST_TEST_EQ(x.size(), num_visits);
});
BOOST_TEST_EQ(total_count, num_threads * x.size());
total_count = 0;
}
{
thread_runner(
values, [&x, &total_count, &const_visitor](boost::span<T>) {
std::atomic<std::uint64_t> num_visits{0};
auto const& y = x;
total_count += y.visit_all(const_visitor(num_visits));
BOOST_TEST_EQ(x.size(), num_visits);
});
BOOST_TEST_EQ(total_count, num_threads * x.size());
total_count = 0;
}
{
thread_runner(
values, [&x, &total_count, &const_visitor](boost::span<T>) {
std::atomic<std::uint64_t> num_visits{0};
total_count += x.cvisit_all(const_visitor(num_visits));
BOOST_TEST_EQ(x.size(), num_visits);
});
BOOST_TEST_EQ(total_count, num_threads * x.size());
total_count = 0;
}
}
} visit_all;
struct exec_policy_visit_all_type
{
template <class T, class X, class M>
void operator()(std::vector<T>& values, X& x, M const& reference_map)
{
#if defined(BOOST_UNORDERED_PARALLEL_ALGORITHMS)
using value_type = typename X::value_type;
auto mut_visitor = [&reference_map](std::atomic<uint64_t>& num_visits) {
return [&reference_map, &num_visits](value_type& kv) {
BOOST_TEST(reference_map.contains(kv.first));
BOOST_TEST_EQ(kv.second, reference_map.find(kv.first)->second);
++num_visits;
};
};
auto const_visitor = [&reference_map](std::atomic<uint64_t>& num_visits) {
return [&reference_map, &num_visits](value_type const& kv) {
BOOST_TEST(reference_map.contains(kv.first));
BOOST_TEST_EQ(kv.second, reference_map.find(kv.first)->second);
++num_visits;
};
};
{
thread_runner(values, [&x, &mut_visitor](boost::span<T>) {
std::atomic<std::uint64_t> num_visits{0};
Add policy check that excludes unsequenced policies It's technically UB for the callable in an unsequenced policy to acquire a lock so we add static_assert()s to catch potential user error.
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x.visit_all(std::execution::par, mut_visitor(num_visits));
Add visit_all()
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BOOST_TEST_EQ(x.size(), num_visits);
});
}
{
thread_runner(values, [&x, &const_visitor](boost::span<T>) {
std::atomic<std::uint64_t> num_visits{0};
auto const& y = x;
Add policy check that excludes unsequenced policies It's technically UB for the callable in an unsequenced policy to acquire a lock so we add static_assert()s to catch potential user error.
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y.visit_all(std::execution::par, const_visitor(num_visits));
Add visit_all()
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BOOST_TEST_EQ(x.size(), num_visits);
});
}
{
thread_runner(values, [&x, &const_visitor](boost::span<T>) {
std::atomic<std::uint64_t> num_visits{0};
Add policy check that excludes unsequenced policies It's technically UB for the callable in an unsequenced policy to acquire a lock so we add static_assert()s to catch potential user error.
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x.cvisit_all(std::execution::par, const_visitor(num_visits));
Add visit_all()
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BOOST_TEST_EQ(x.size(), num_visits);
});
}
#else
(void)values;
(void)x;
(void)reference_map;
#endif
}
} exec_policy_visit_all;
Implement basic version of single element visitation
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template <class X, class G, class F>
void visit(X*, G gen, F visitor, test::random_generator rg)
{
auto values = make_random_values(1024 * 16, [&] { return gen(rg); });
for (auto& val : values) {
if (val.second.x_ == 0) {
val.second.x_ = 1;
}
val.second.x_ *= -1;
}
auto reference_map =
boost::unordered_flat_map<raii, raii>(values.begin(), values.end());
Add count(), contains()
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Implement basic version of single element visitation
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raii::reset_counts();
{
X x;
for (auto const& v : values) {
x.insert(v);
}
BOOST_TEST_EQ(x.size(), reference_map.size());
std::uint64_t old_default_constructor = raii::default_constructor;
std::uint64_t old_copy_constructor = raii::copy_constructor;
std::uint64_t old_move_constructor = raii::move_constructor;
std::uint64_t old_copy_assignment = raii::copy_assignment;
std::uint64_t old_move_assignment = raii::move_assignment;
Add visit_all()
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visitor(values, x, reference_map);
Implement basic version of single element visitation
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BOOST_TEST_EQ(old_default_constructor, raii::default_constructor);
BOOST_TEST_EQ(old_copy_constructor, raii::copy_constructor);
BOOST_TEST_EQ(old_move_constructor, raii::move_constructor);
BOOST_TEST_EQ(old_copy_assignment, raii::copy_assignment);
BOOST_TEST_EQ(old_move_assignment, raii::move_assignment);
}
BOOST_TEST_GE(raii::default_constructor, 0u);
BOOST_TEST_GE(raii::copy_constructor, 0u);
BOOST_TEST_GE(raii::move_constructor, 0u);
BOOST_TEST_GT(raii::destructor, 0u);
BOOST_TEST_EQ(raii::default_constructor + raii::copy_constructor +
raii::move_constructor,
raii::destructor);
}
Test empty visitation
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template <class X, class G>
void empty_visit(X*, G gen, test::random_generator rg)
{
auto values = make_random_values(1024 * 16, [&] { return gen(rg); });
Clean up usage of decltype to help msvc-14.3
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using values_type = decltype(values);
using span_value_type = typename values_type::value_type;
Test empty visitation
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raii::reset_counts();
{
X x;
std::uint64_t old_default_constructor = raii::default_constructor;
std::uint64_t old_copy_constructor = raii::copy_constructor;
std::uint64_t old_move_constructor = raii::move_constructor;
std::uint64_t old_copy_assignment = raii::copy_assignment;
std::uint64_t old_move_assignment = raii::move_assignment;
{
Clean up usage of decltype to help msvc-14.3
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thread_runner(values, [&x](boost::span<span_value_type> s) {
std::atomic<std::uint64_t> num_visits{0};
Test empty visitation
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Clean up usage of decltype to help msvc-14.3
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x.visit_all(
[&num_visits](typename X::value_type const&) { ++num_visits; });
BOOST_TEST_EQ(num_visits, 0u);
Test empty visitation
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Clean up usage of decltype to help msvc-14.3
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for (auto const& val : s) {
auto count = x.visit(val.first,
[&num_visits](typename X::value_type const&) { ++num_visits; });
BOOST_TEST_EQ(count, 0u);
}
});
Test empty visitation
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}
BOOST_TEST_EQ(old_default_constructor, raii::default_constructor);
BOOST_TEST_EQ(old_copy_constructor, raii::copy_constructor);
BOOST_TEST_EQ(old_move_constructor, raii::move_constructor);
BOOST_TEST_EQ(old_copy_assignment, raii::copy_assignment);
BOOST_TEST_EQ(old_move_assignment, raii::move_assignment);
}
BOOST_TEST_EQ(raii::default_constructor, 0u);
BOOST_TEST_EQ(raii::copy_constructor, 0u);
BOOST_TEST_EQ(raii::move_constructor, 0u);
BOOST_TEST_EQ(raii::destructor, 0u);
}
Add test that intermixes insertion and visitation Attempt to test the happens-before and synchronizes-with relationship, looking for potential bugs on weakly-ordered models
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template <class X, class G>
void insert_and_visit(X*, G gen, test::random_generator rg)
{
// here we attempt to ensure happens-before and synchronizes-with
// the visitation thread essentially chases the insertion one
// we double-check unreloated loads/stores to ensure that a store is visible
// in the visitation thread
BOOST_TEST(rg == test::sequential);
auto const values = make_random_values(1024 * 16, [&] { return gen(rg); });
{
raii::reset_counts();
X x;
std::thread t1, t2;
Use boost::compat::latch
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boost::compat::latch l(2);
Add test that intermixes insertion and visitation Attempt to test the happens-before and synchronizes-with relationship, looking for potential bugs on weakly-ordered models
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std::vector<std::string> strs(values.size());
t1 = std::thread([&l, &values, &x, &strs] {
l.arrive_and_wait();
for (std::size_t idx = 0; idx < values.size(); ++idx) {
strs[idx] = "rawr";
auto const& val = values[idx];
x.insert(val);
}
});
t2 = std::thread([&l, &values, &x, &strs] {
l.arrive_and_wait();
for (std::size_t idx = 0; idx < values.size(); ++idx) {
std::atomic_bool b{false};
while (!b) {
x.cvisit(values[idx].first,
[&b, &strs, idx, &values](typename X::value_type const& v) {
BOOST_TEST_EQ(v.second, values[idx].second);
BOOST_TEST_EQ(strs[idx], "rawr");
b = true;
});
}
}
});
t1.join();
t2.join();
}
check_raii_counts();
}
Implement basic version of single element visitation
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boost::unordered::concurrent_flat_map<raii, raii>* map;
boost::unordered::concurrent_flat_map<raii, raii, transp_hash,
transp_key_equal>* transp_map;
} // namespace
using test::default_generator;
using test::limited_range;
using test::sequential;
// clang-format off
UNORDERED_TEST(
visit,
((map))
((value_type_generator)(init_type_generator))
Add visit_all()
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((lvalue_visitor)(visit_all)(exec_policy_visit_all))
Implement basic version of single element visitation
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((default_generator)(sequential)(limited_range)))
UNORDERED_TEST(
visit,
((transp_map))
((value_type_generator)(init_type_generator))
((transp_visitor))
((default_generator)(sequential)(limited_range)))
Test empty visitation
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UNORDERED_TEST(
empty_visit,
((map)(transp_map))
((value_type_generator)(init_type_generator))
((default_generator)(sequential)(limited_range))
)
Add test that intermixes insertion and visitation Attempt to test the happens-before and synchronizes-with relationship, looking for potential bugs on weakly-ordered models
2023-05-03 10:28:19 -07:00
UNORDERED_TEST(
insert_and_visit,
((map))
((value_type_generator))
((sequential))
)
Implement basic version of single element visitation
2023-04-06 13:42:57 -07:00
// clang-format on
RUN_TESTS()
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