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304 lines
8.8 KiB
C++
304 lines
8.8 KiB
C++
// Copyright (c) 2012 The Chromium Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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#include "base/time/time.h"
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#include <ios>
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#include <limits>
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#include <ostream>
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#include <sstream>
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#include "base/float_util.h"
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#include "base/lazy_instance.h"
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#include "base/logging.h"
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#include "base/strings/stringprintf.h"
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#include "base/third_party/nspr/prtime.h"
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namespace base {
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// TimeDelta ------------------------------------------------------------------
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// static
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TimeDelta TimeDelta::Max() {
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return TimeDelta(std::numeric_limits<int64>::max());
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}
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int TimeDelta::InDays() const {
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if (is_max()) {
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// Preserve max to prevent overflow.
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return std::numeric_limits<int>::max();
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}
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return static_cast<int>(delta_ / Time::kMicrosecondsPerDay);
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}
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int TimeDelta::InHours() const {
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if (is_max()) {
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// Preserve max to prevent overflow.
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return std::numeric_limits<int>::max();
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}
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return static_cast<int>(delta_ / Time::kMicrosecondsPerHour);
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}
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int TimeDelta::InMinutes() const {
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if (is_max()) {
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// Preserve max to prevent overflow.
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return std::numeric_limits<int>::max();
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}
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return static_cast<int>(delta_ / Time::kMicrosecondsPerMinute);
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}
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double TimeDelta::InSecondsF() const {
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if (is_max()) {
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// Preserve max to prevent overflow.
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return std::numeric_limits<double>::infinity();
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}
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return static_cast<double>(delta_) / Time::kMicrosecondsPerSecond;
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}
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int64 TimeDelta::InSeconds() const {
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if (is_max()) {
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// Preserve max to prevent overflow.
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return std::numeric_limits<int64>::max();
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}
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return delta_ / Time::kMicrosecondsPerSecond;
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}
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double TimeDelta::InMillisecondsF() const {
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if (is_max()) {
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// Preserve max to prevent overflow.
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return std::numeric_limits<double>::infinity();
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}
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return static_cast<double>(delta_) / Time::kMicrosecondsPerMillisecond;
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}
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int64 TimeDelta::InMilliseconds() const {
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if (is_max()) {
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// Preserve max to prevent overflow.
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return std::numeric_limits<int64>::max();
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}
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return delta_ / Time::kMicrosecondsPerMillisecond;
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}
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int64 TimeDelta::InMillisecondsRoundedUp() const {
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if (is_max()) {
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// Preserve max to prevent overflow.
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return std::numeric_limits<int64>::max();
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}
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return (delta_ + Time::kMicrosecondsPerMillisecond - 1) /
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Time::kMicrosecondsPerMillisecond;
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}
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int64 TimeDelta::InMicroseconds() const {
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if (is_max()) {
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// Preserve max to prevent overflow.
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return std::numeric_limits<int64>::max();
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}
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return delta_;
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}
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std::ostream& operator<<(std::ostream& os, TimeDelta time_delta) {
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return os << time_delta.InSecondsF() << "s";
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}
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// Time -----------------------------------------------------------------------
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// static
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Time Time::Max() {
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return Time(std::numeric_limits<int64>::max());
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}
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// static
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Time Time::FromTimeT(time_t tt) {
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if (tt == 0)
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return Time(); // Preserve 0 so we can tell it doesn't exist.
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if (tt == std::numeric_limits<time_t>::max())
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return Max();
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return Time((tt * kMicrosecondsPerSecond) + kTimeTToMicrosecondsOffset);
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}
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time_t Time::ToTimeT() const {
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if (is_null())
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return 0; // Preserve 0 so we can tell it doesn't exist.
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if (is_max()) {
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// Preserve max without offset to prevent overflow.
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return std::numeric_limits<time_t>::max();
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}
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if (std::numeric_limits<int64>::max() - kTimeTToMicrosecondsOffset <= us_) {
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DLOG(WARNING) << "Overflow when converting base::Time with internal " <<
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"value " << us_ << " to time_t.";
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return std::numeric_limits<time_t>::max();
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}
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return (us_ - kTimeTToMicrosecondsOffset) / kMicrosecondsPerSecond;
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}
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// static
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Time Time::FromDoubleT(double dt) {
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if (dt == 0 || IsNaN(dt))
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return Time(); // Preserve 0 so we can tell it doesn't exist.
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if (dt == std::numeric_limits<double>::infinity())
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return Max();
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return Time(static_cast<int64>((dt *
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static_cast<double>(kMicrosecondsPerSecond)) +
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kTimeTToMicrosecondsOffset));
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}
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double Time::ToDoubleT() const {
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if (is_null())
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return 0; // Preserve 0 so we can tell it doesn't exist.
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if (is_max()) {
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// Preserve max without offset to prevent overflow.
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return std::numeric_limits<double>::infinity();
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}
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return (static_cast<double>(us_ - kTimeTToMicrosecondsOffset) /
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static_cast<double>(kMicrosecondsPerSecond));
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}
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#if defined(OS_POSIX)
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// static
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Time Time::FromTimeSpec(const timespec& ts) {
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return FromDoubleT(ts.tv_sec +
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static_cast<double>(ts.tv_nsec) /
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base::Time::kNanosecondsPerSecond);
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}
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#endif
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// static
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Time Time::FromJsTime(double ms_since_epoch) {
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// The epoch is a valid time, so this constructor doesn't interpret
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// 0 as the null time.
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if (ms_since_epoch == std::numeric_limits<double>::infinity())
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return Max();
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return Time(static_cast<int64>(ms_since_epoch * kMicrosecondsPerMillisecond) +
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kTimeTToMicrosecondsOffset);
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}
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double Time::ToJsTime() const {
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if (is_null()) {
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// Preserve 0 so the invalid result doesn't depend on the platform.
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return 0;
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}
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if (is_max()) {
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// Preserve max without offset to prevent overflow.
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return std::numeric_limits<double>::infinity();
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}
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return (static_cast<double>(us_ - kTimeTToMicrosecondsOffset) /
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kMicrosecondsPerMillisecond);
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}
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int64 Time::ToJavaTime() const {
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if (is_null()) {
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// Preserve 0 so the invalid result doesn't depend on the platform.
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return 0;
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}
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if (is_max()) {
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// Preserve max without offset to prevent overflow.
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return std::numeric_limits<int64>::max();
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}
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return ((us_ - kTimeTToMicrosecondsOffset) /
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kMicrosecondsPerMillisecond);
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}
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// static
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Time Time::UnixEpoch() {
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Time time;
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time.us_ = kTimeTToMicrosecondsOffset;
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return time;
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}
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Time Time::LocalMidnight() const {
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Exploded exploded;
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LocalExplode(&exploded);
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exploded.hour = 0;
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exploded.minute = 0;
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exploded.second = 0;
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exploded.millisecond = 0;
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return FromLocalExploded(exploded);
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}
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// static
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bool Time::FromStringInternal(const char* time_string,
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bool is_local,
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Time* parsed_time) {
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DCHECK((time_string != NULL) && (parsed_time != NULL));
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if (time_string[0] == '\0')
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return false;
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PRTime result_time = 0;
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PRStatus result = PR_ParseTimeString(time_string,
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is_local ? PR_FALSE : PR_TRUE,
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&result_time);
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if (PR_SUCCESS != result)
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return false;
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result_time += kTimeTToMicrosecondsOffset;
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*parsed_time = Time(result_time);
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return true;
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}
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std::ostream& operator<<(std::ostream& os, Time time) {
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Time::Exploded exploded;
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time.UTCExplode(&exploded);
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// Use StringPrintf because iostreams formatting is painful.
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return os << StringPrintf("%04d-%02d-%02d %02d:%02d:%02d.%03d UTC",
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exploded.year,
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exploded.month,
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exploded.day_of_month,
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exploded.hour,
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exploded.minute,
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exploded.second,
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exploded.millisecond);
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}
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// Local helper class to hold the conversion from Time to TickTime at the
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// time of the Unix epoch.
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class UnixEpochSingleton {
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public:
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UnixEpochSingleton()
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: unix_epoch_(TimeTicks::Now() - (Time::Now() - Time::UnixEpoch())) {}
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TimeTicks unix_epoch() const { return unix_epoch_; }
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private:
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const TimeTicks unix_epoch_;
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DISALLOW_COPY_AND_ASSIGN(UnixEpochSingleton);
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};
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static LazyInstance<UnixEpochSingleton>::Leaky
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leaky_unix_epoch_singleton_instance = LAZY_INSTANCE_INITIALIZER;
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// Static
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TimeTicks TimeTicks::UnixEpoch() {
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return leaky_unix_epoch_singleton_instance.Get().unix_epoch();
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}
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std::ostream& operator<<(std::ostream& os, TimeTicks time_ticks) {
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// This function formats a TimeTicks object as "bogo-microseconds".
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// The origin and granularity of the count are platform-specific, and may very
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// from run to run. Although bogo-microseconds usually roughly correspond to
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// real microseconds, the only real guarantee is that the number never goes
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// down during a single run.
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const TimeDelta as_time_delta = time_ticks - TimeTicks();
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return os << as_time_delta.InMicroseconds() << " bogo-microseconds";
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}
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// Time::Exploded -------------------------------------------------------------
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inline bool is_in_range(int value, int lo, int hi) {
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return lo <= value && value <= hi;
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}
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bool Time::Exploded::HasValidValues() const {
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return is_in_range(month, 1, 12) &&
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is_in_range(day_of_week, 0, 6) &&
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is_in_range(day_of_month, 1, 31) &&
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is_in_range(hour, 0, 23) &&
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is_in_range(minute, 0, 59) &&
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is_in_range(second, 0, 60) &&
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is_in_range(millisecond, 0, 999);
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}
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} // namespace base
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