tile/third_party/date/test/tz_test/validate.cpp

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2024-06-11 19:13:30 +08:00
#include "date/tz.h"
#include <iostream>
void
test_info(const date::time_zone* zone, const date::sys_info& info)
{
using namespace date;
using namespace std::chrono;
auto begin = info.begin;
auto end = info.end - microseconds{1};
auto mid = begin + (end - begin) /2;
using sys_microseconds = sys_time<microseconds>;
using zoned_microseconds = zoned_time<microseconds>;
zoned_microseconds local{zone};
if (begin > sys_days{jan/1/1700})
{
auto prev_local = local;
local = begin;
prev_local = begin - seconds{1};
auto slocal = local.get_local_time();
auto plocal = prev_local.get_local_time();
if (plocal < slocal - seconds{1})
{
assert(sys_microseconds{local} == begin);
try
{
local = plocal + (slocal - seconds{1} - plocal) / 2;
assert(false);
}
catch (const nonexistent_local_time&)
{
}
}
else if (plocal > slocal - seconds{1})
{
try
{
local = slocal - seconds{1} + (plocal - (slocal - seconds{1})) / 2;
assert(false);
}
catch (const ambiguous_local_time&)
{
}
}
}
local = mid;
assert(sys_microseconds{local} == mid);
if (end < sys_days{jan/1/3000})
{
local = end;
auto next_local = local;
next_local = info.end;
auto slocal = local.get_local_time();
auto nlocal = next_local.get_local_time();
if (nlocal < slocal + microseconds{1})
{
try
{
local = nlocal + (slocal + microseconds{1} - nlocal) / 2;
assert(false);
}
catch (const ambiguous_local_time&)
{
}
}
else if (nlocal > slocal + microseconds{1})
{
assert(sys_microseconds{local} == end);
try
{
local = slocal + microseconds{1} +
(nlocal - (slocal + microseconds{1})) / 2;
assert(false);
}
catch (const nonexistent_local_time&)
{
}
}
}
}
void
tzmain()
{
using namespace date;
using namespace std::chrono;
auto& db = get_tzdb();
std::vector<std::string> names;
#if USE_OS_TZDB
names.reserve(db.zones.size());
for (auto& zone : db.zones)
names.push_back(zone.name());
#else // !USE_OS_TZDB
names.reserve(db.zones.size() + db.links.size());
for (auto& zone : db.zones)
names.push_back(zone.name());
for (auto& link : db.links)
names.push_back(link.name());
std::sort(names.begin(), names.end());
#endif // !USE_OS_TZDB
std::cout << db.version << "\n\n";
for (auto const& name : names)
{
std::cout << name << '\n';
auto z = locate_zone(name);
auto begin = sys_days(jan/1/year::min()) + seconds{0};
auto end = sys_days(jan/1/2035) + seconds{0};
auto info = z->get_info(begin);
std::cout << "Initially: ";
if (info.offset >= seconds{0})
std::cout << '+';
std::cout << make_time(info.offset);
if (info.save == minutes{0})
std::cout << " standard ";
else
std::cout << " daylight ";
std::cout << info.abbrev << '\n';
test_info(z, info);
auto prev_offset = info.offset;
auto prev_abbrev = info.abbrev;
auto prev_save = info.save;
for (begin = info.end; begin < end; begin = info.end)
{
info = z->get_info(begin);
test_info(z, info);
if (info.offset == prev_offset && info.abbrev == prev_abbrev &&
info.save == prev_save)
continue;
auto dp = floor<days>(begin);
auto ymd = year_month_day(dp);
auto time = make_time(begin - dp);
std::cout << ymd << ' ' << time << "Z ";
if (info.offset >= seconds{0})
std::cout << '+';
std::cout << make_time(info.offset);
if (info.save == minutes{0})
std::cout << " standard ";
else
std::cout << " daylight ";
std::cout << info.abbrev << '\n';
prev_offset = info.offset;
prev_abbrev = info.abbrev;
prev_save = info.save;
}
std::cout << '\n';
}
}
int
main()
{
try
{
tzmain();
}
catch(const std::exception& ex)
{
std::cout << "An exception occured: " << ex.what() << std::endl;
return EXIT_FAILURE;
}
return EXIT_SUCCESS;
}