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// Copyright 2017 The Abseil Authors.
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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// The implementation of the absl::Time class, which is declared in
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// //absl/time.h.
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//
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// The representation for an absl::Time is an absl::Duration offset from the
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// epoch. We use the traditional Unix epoch (1970-01-01 00:00:00 +0000)
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// for convenience, but this is not exposed in the API and could be changed.
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//
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// NOTE: To keep type verbosity to a minimum, the following variable naming
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// conventions are used throughout this file.
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//
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// cz: A cctz::time_zone
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// tz: An absl::TimeZone
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// cl: A cctz::time_zone::civil_lookup
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// al: A cctz::time_zone::absolute_lookup
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// cd: A cctz::civil_day
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// cs: A cctz::civil_second
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// bd: An absl::Time::Breakdown
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#include "absl/time/time.h"
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#include <cstring>
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#include <ctime>
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#include <limits>
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#include "cctz/civil_time.h"
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#include "cctz/time_zone.h"
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namespace absl {
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namespace {
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inline cctz::time_point<cctz::sys_seconds> unix_epoch() {
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return std::chrono::time_point_cast<cctz::sys_seconds>(
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std::chrono::system_clock::from_time_t(0));
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}
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// Floors d to the next unit boundary closer to negative infinity.
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inline int64_t FloorToUnit(absl::Duration d, absl::Duration unit) {
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absl::Duration rem;
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int64_t q = absl::IDivDuration(d, unit, &rem);
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return (q > 0 ||
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rem >= ZeroDuration() ||
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q == std::numeric_limits<int64_t>::min()) ? q : q - 1;
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}
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inline absl::Time::Breakdown InfiniteFutureBreakdown() {
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absl::Time::Breakdown bd;
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bd.year = std::numeric_limits<int64_t>::max();
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bd.month = 12;
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bd.day = 31;
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bd.hour = 23;
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bd.minute = 59;
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bd.second = 59;
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bd.subsecond = absl::InfiniteDuration();
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bd.weekday = 4;
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bd.yearday = 365;
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bd.offset = 0;
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bd.is_dst = false;
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bd.zone_abbr = "-0000";
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return bd;
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}
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inline Time::Breakdown InfinitePastBreakdown() {
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Time::Breakdown bd;
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bd.year = std::numeric_limits<int64_t>::min();
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bd.month = 1;
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bd.day = 1;
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bd.hour = 0;
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bd.minute = 0;
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bd.second = 0;
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bd.subsecond = -absl::InfiniteDuration();
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bd.weekday = 7;
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bd.yearday = 1;
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bd.offset = 0;
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bd.is_dst = false;
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bd.zone_abbr = "-0000";
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return bd;
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}
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inline absl::TimeConversion InfiniteFutureTimeConversion() {
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absl::TimeConversion tc;
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tc.pre = tc.trans = tc.post = absl::InfiniteFuture();
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tc.kind = absl::TimeConversion::UNIQUE;
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tc.normalized = true;
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return tc;
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}
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inline TimeConversion InfinitePastTimeConversion() {
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absl::TimeConversion tc;
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tc.pre = tc.trans = tc.post = absl::InfinitePast();
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tc.kind = absl::TimeConversion::UNIQUE;
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tc.normalized = true;
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return tc;
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}
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// Makes a Time from sec, overflowing to InfiniteFuture/InfinitePast as
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// necessary. If sec is min/max, then consult cs+tz to check for overlow.
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Time MakeTimeWithOverflow(const cctz::time_point<cctz::sys_seconds>& sec,
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const cctz::civil_second& cs,
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const cctz::time_zone& tz,
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bool* normalized = nullptr) {
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const auto max = cctz::time_point<cctz::sys_seconds>::max();
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const auto min = cctz::time_point<cctz::sys_seconds>::min();
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if (sec == max) {
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const auto al = tz.lookup(max);
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if (cs > al.cs) {
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if (normalized) *normalized = true;
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return absl::InfiniteFuture();
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}
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}
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if (sec == min) {
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const auto al = tz.lookup(min);
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if (cs < al.cs) {
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if (normalized) *normalized = true;
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return absl::InfinitePast();
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}
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}
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const auto hi = (sec - unix_epoch()).count();
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return time_internal::FromUnixDuration(time_internal::MakeDuration(hi));
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}
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inline absl::TimeConversion::Kind MapKind(
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const cctz::time_zone::civil_lookup::civil_kind& kind) {
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switch (kind) {
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case cctz::time_zone::civil_lookup::UNIQUE:
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return absl::TimeConversion::UNIQUE;
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case cctz::time_zone::civil_lookup::SKIPPED:
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return absl::TimeConversion::SKIPPED;
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case cctz::time_zone::civil_lookup::REPEATED:
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return absl::TimeConversion::REPEATED;
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}
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return absl::TimeConversion::UNIQUE;
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}
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// Returns Mon=1..Sun=7.
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inline int MapWeekday(const cctz::weekday& wd) {
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switch (wd) {
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case cctz::weekday::monday:
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return 1;
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case cctz::weekday::tuesday:
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return 2;
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case cctz::weekday::wednesday:
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return 3;
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case cctz::weekday::thursday:
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return 4;
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case cctz::weekday::friday:
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return 5;
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case cctz::weekday::saturday:
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return 6;
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case cctz::weekday::sunday:
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return 7;
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}
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return 1;
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}
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} // namespace
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absl::Time::Breakdown Time::In(absl::TimeZone tz) const {
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if (*this == absl::InfiniteFuture()) return absl::InfiniteFutureBreakdown();
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if (*this == absl::InfinitePast()) return absl::InfinitePastBreakdown();
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const auto tp =
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unix_epoch() + cctz::sys_seconds(time_internal::GetRepHi(rep_));
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const auto al = cctz::time_zone(tz).lookup(tp);
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const auto cs = al.cs;
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const auto cd = cctz::civil_day(cs);
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absl::Time::Breakdown bd;
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bd.year = cs.year();
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bd.month = cs.month();
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bd.day = cs.day();
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bd.hour = cs.hour();
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bd.minute = cs.minute();
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bd.second = cs.second();
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bd.subsecond = time_internal::MakeDuration(0, time_internal::GetRepLo(rep_));
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bd.weekday = MapWeekday(get_weekday(cd));
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bd.yearday = get_yearday(cd);
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bd.offset = al.offset;
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bd.is_dst = al.is_dst;
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bd.zone_abbr = al.abbr;
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return bd;
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}
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absl::Time FromTM(const struct tm& tm, absl::TimeZone tz) {
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const auto cz = cctz::time_zone(tz);
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const auto cs =
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cctz::civil_second(tm.tm_year + 1900, tm.tm_mon + 1, tm.tm_mday,
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tm.tm_hour, tm.tm_min, tm.tm_sec);
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const auto cl = cz.lookup(cs);
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const auto tp = tm.tm_isdst == 0 ? cl.post : cl.pre;
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return MakeTimeWithOverflow(tp, cs, cz);
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}
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struct tm ToTM(absl::Time t, absl::TimeZone tz) {
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const absl::Time::Breakdown bd = t.In(tz);
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struct tm tm;
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std::memset(&tm, 0, sizeof(tm));
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tm.tm_sec = bd.second;
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tm.tm_min = bd.minute;
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tm.tm_hour = bd.hour;
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tm.tm_mday = bd.day;
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tm.tm_mon = bd.month - 1;
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// Saturates tm.tm_year in cases of over/underflow, accounting for the fact
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// that tm.tm_year is years since 1900.
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if (bd.year < std::numeric_limits<int>::min() + 1900) {
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tm.tm_year = std::numeric_limits<int>::min();
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} else if (bd.year > std::numeric_limits<int>::max()) {
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tm.tm_year = std::numeric_limits<int>::max() - 1900;
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} else {
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tm.tm_year = static_cast<int>(bd.year - 1900);
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}
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tm.tm_wday = bd.weekday % 7;
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tm.tm_yday = bd.yearday - 1;
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tm.tm_isdst = bd.is_dst ? 1 : 0;
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return tm;
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}
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//
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// Factory functions.
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//
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absl::TimeConversion ConvertDateTime(int64_t year, int mon, int day, int hour,
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int min, int sec, TimeZone tz) {
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// Avoids years that are too extreme for civil_second to normalize.
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if (year > 300000000000) return InfiniteFutureTimeConversion();
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if (year < -300000000000) return InfinitePastTimeConversion();
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const auto cz = cctz::time_zone(tz);
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const auto cs = cctz::civil_second(year, mon, day, hour, min, sec);
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absl::TimeConversion tc;
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tc.normalized = year != cs.year() || mon != cs.month() || day != cs.day() ||
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hour != cs.hour() || min != cs.minute() || sec != cs.second();
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const auto cl = cz.lookup(cs);
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// Converts the civil_lookup struct to a TimeConversion.
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tc.pre = MakeTimeWithOverflow(cl.pre, cs, cz, &tc.normalized);
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tc.trans = MakeTimeWithOverflow(cl.trans, cs, cz, &tc.normalized);
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tc.post = MakeTimeWithOverflow(cl.post, cs, cz, &tc.normalized);
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tc.kind = MapKind(cl.kind);
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return tc;
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}
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absl::Time FromDateTime(int64_t year, int mon, int day, int hour, int min,
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int sec, TimeZone tz) {
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if (year > 300000000000) return InfiniteFuture();
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if (year < -300000000000) return InfinitePast();
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const auto cz = cctz::time_zone(tz);
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const auto cs = cctz::civil_second(year, mon, day, hour, min, sec);
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const auto cl = cz.lookup(cs);
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return MakeTimeWithOverflow(cl.pre, cs, cz);
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}
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absl::Time TimeFromTimespec(timespec ts) {
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return time_internal::FromUnixDuration(absl::DurationFromTimespec(ts));
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}
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absl::Time TimeFromTimeval(timeval tv) {
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return time_internal::FromUnixDuration(absl::DurationFromTimeval(tv));
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}
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absl::Time FromUDate(double udate) {
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return time_internal::FromUnixDuration(absl::Milliseconds(udate));
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}
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absl::Time FromUniversal(int64_t universal) {
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return absl::UniversalEpoch() + 100 * absl::Nanoseconds(universal);
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}
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//
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// Conversion to other time types.
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//
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int64_t ToUnixNanos(Time t) {
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if (time_internal::GetRepHi(time_internal::ToUnixDuration(t)) >= 0 &&
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time_internal::GetRepHi(time_internal::ToUnixDuration(t)) >> 33 == 0) {
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return (time_internal::GetRepHi(time_internal::ToUnixDuration(t)) *
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1000 * 1000 * 1000) +
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(time_internal::GetRepLo(time_internal::ToUnixDuration(t)) / 4);
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}
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return FloorToUnit(time_internal::ToUnixDuration(t), absl::Nanoseconds(1));
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}
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int64_t ToUnixMicros(Time t) {
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if (time_internal::GetRepHi(time_internal::ToUnixDuration(t)) >= 0 &&
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time_internal::GetRepHi(time_internal::ToUnixDuration(t)) >> 43 == 0) {
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return (time_internal::GetRepHi(time_internal::ToUnixDuration(t)) *
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1000 * 1000) +
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(time_internal::GetRepLo(time_internal::ToUnixDuration(t)) / 4000);
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}
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return FloorToUnit(time_internal::ToUnixDuration(t), absl::Microseconds(1));
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}
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int64_t ToUnixMillis(Time t) {
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if (time_internal::GetRepHi(time_internal::ToUnixDuration(t)) >= 0 &&
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time_internal::GetRepHi(time_internal::ToUnixDuration(t)) >> 53 == 0) {
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return (time_internal::GetRepHi(time_internal::ToUnixDuration(t)) * 1000) +
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(time_internal::GetRepLo(time_internal::ToUnixDuration(t)) /
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(4000 * 1000));
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}
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return FloorToUnit(time_internal::ToUnixDuration(t), absl::Milliseconds(1));
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}
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int64_t ToUnixSeconds(Time t) {
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return time_internal::GetRepHi(time_internal::ToUnixDuration(t));
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}
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time_t ToTimeT(Time t) { return absl::ToTimespec(t).tv_sec; }
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timespec ToTimespec(Time t) {
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timespec ts;
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absl::Duration d = time_internal::ToUnixDuration(t);
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if (!time_internal::IsInfiniteDuration(d)) {
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ts.tv_sec = time_internal::GetRepHi(d);
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if (ts.tv_sec == time_internal::GetRepHi(d)) { // no time_t narrowing
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ts.tv_nsec = time_internal::GetRepLo(d) / 4; // floor
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return ts;
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}
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}
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if (d >= absl::ZeroDuration()) {
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ts.tv_sec = std::numeric_limits<time_t>::max();
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ts.tv_nsec = 1000 * 1000 * 1000 - 1;
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} else {
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ts.tv_sec = std::numeric_limits<time_t>::min();
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ts.tv_nsec = 0;
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}
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return ts;
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}
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timeval ToTimeval(Time t) {
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timeval tv;
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timespec ts = absl::ToTimespec(t);
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tv.tv_sec = ts.tv_sec;
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if (tv.tv_sec != ts.tv_sec) { // narrowing
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if (ts.tv_sec < 0) {
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tv.tv_sec = std::numeric_limits<decltype(tv.tv_sec)>::min();
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tv.tv_usec = 0;
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} else {
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tv.tv_sec = std::numeric_limits<decltype(tv.tv_sec)>::max();
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tv.tv_usec = 1000 * 1000 - 1;
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}
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return tv;
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}
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tv.tv_usec = static_cast<int>(ts.tv_nsec / 1000); // suseconds_t
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return tv;
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}
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double ToUDate(Time t) {
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return absl::FDivDuration(time_internal::ToUnixDuration(t),
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absl::Milliseconds(1));
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}
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int64_t ToUniversal(absl::Time t) {
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return absl::FloorToUnit(t - absl::UniversalEpoch(), absl::Nanoseconds(100));
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}
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Time FromChrono(const std::chrono::system_clock::time_point& tp) {
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return time_internal::FromUnixDuration(time_internal::FromChrono(
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tp - std::chrono::system_clock::from_time_t(0)));
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}
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std::chrono::system_clock::time_point ToChronoTime(absl::Time t) {
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using D = std::chrono::system_clock::duration;
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auto d = time_internal::ToUnixDuration(t);
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|
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if (d < ZeroDuration()) d = Floor(d, FromChrono(D{1}));
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return std::chrono::system_clock::from_time_t(0) +
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time_internal::ToChronoDuration<D>(d);
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}
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} // namespace absl
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