muduo/base库学习笔记(1)-----Timestamp类
Timestamp类
1 变量
static const int kMicroSecondsPerSecond = 1000 * 1000;
private:
int64_t microSecondsSinceEpoch_;
2 构造函数
无参构造函数
Timestamp()
: microSecondsSinceEpoch_(0)
{
}
有参数构造函数
explicit Timestamp(int64_t microSecondsSinceEpochArg)
: microSecondsSinceEpoch_(microSecondsSinceEpochArg)
{
}
3 静态成员函数
Timestamp Timestamp::now()函数的实现
static Timestamp Timestamp::now()
{
struct timeval tv;
//获得当前的事件
gettimeofday(&tv, NULL);
int64_t seconds = tv.tv_sec;
//利用当前时间构造一个Timestamp时间戳对象
return Timestamp(seconds * kMicroSecondsPerSecond + tv.tv_usec);
}
Timestamp invalid()函数的实现
//利用无参构造函数构造一个Timestamp类的实例
static Timestamp invalid()
{
return Timestamp();
}
** Timestamp fromUnixTime(time_t t, int microseconds)函数的实现**
static Timestamp fromUnixTime(time_t t, int microseconds)
{
//给定秒数和微秒数,构造一个该类的实例
return Timestamp(static_cast(t) * kMicroSecondsPerSecond + microseconds);
}
Timestamp fromUnixTime(time_t t)的实现
static Timestamp fromUnixTime(time_t t)
{
//调用上一个函数
return fromUnixTime(t, 0);
}
4 普通成员函数
void swap(Timestamp& that)函数的实现
void swap(Timestamp& that)
{
std::swap(microSecondsSinceEpoch_, that.microSecondsSinceEpoch_);
}
bool valid() const函数的实现
bool valid() const { return microSecondsSinceEpoch_ > 0; }
** int64_t microSecondsSinceEpoch() const函数的实现**
int64_t microSecondsSinceEpoch() const { return microSecondsSinceEpoch_; }
time_t secondsSinceEpoch() const函数的实现
time_t secondsSinceEpoch() const
{ return static_cast(microSecondsSinceEpoch_ / kMicroSecondsPerSecond); }
string toString() const函数的实现
string Timestamp::toString() const
{
char buf[32] = {0};
//这是秒数
int64_t seconds = microSecondsSinceEpoch_ / kMicroSecondsPerSecond;
//这是微秒数
int64_t microseconds = microSecondsSinceEpoch_ % kMicroSecondsPerSecond;
//格式为秒数.微秒数
snprintf(buf, sizeof(buf)-1, "%" PRId64 ".%06" PRId64 "", seconds, microseconds);
return buf;
}
string Timestamp::toFormattedString(bool showMicroseconds) const函数的实现
//传入是否要显示秒数数
string Timestamp::toFormattedString(bool showMicroseconds) const
{
char buf[64] = {0};
time_t seconds = static_cast(microSecondsSinceEpoch_ / kMicroSecondsPerSecond);
struct tm tm_time;
gmtime_r(&seconds, &tm_time);
if (showMicroseconds)
{
int microseconds = static_cast(microSecondsSinceEpoch_ % kMicroSecondsPerSecond);
snprintf(buf, sizeof(buf), "%4d%02d%02d %02d:%02d:%02d.%06d",
tm_time.tm_year + 1900, tm_time.tm_mon + 1, tm_time.tm_mday,
tm_time.tm_hour, tm_time.tm_min, tm_time.tm_sec,
microseconds);
}
else
{
snprintf(buf, sizeof(buf), "%4d%02d%02d %02d:%02d:%02d",
tm_time.tm_year + 1900, tm_time.tm_mon + 1, tm_time.tm_mday,
tm_time.tm_hour, tm_time.tm_min, tm_time.tm_sec);
}
return buf;
}
5 内联函数的实现
inline double timeDifference(Timestamp high, Timestamp low)函数的实现
inline double timeDifference(Timestamp high, Timestamp low)
{
int64_t diff = high.microSecondsSinceEpoch() - low.microSecondsSinceEpoch();
return static_cast(diff) / Timestamp::kMicroSecondsPerSecond;
}
inline Timestamp addTime(Timestamp timestamp, double seconds)函数的实现
inline Timestamp addTime(Timestamp timestamp, double seconds)
{
int64_t delta = static_cast(seconds * Timestamp::kMicroSecondsPerSecond);
return Timestamp(timestamp.microSecondsSinceEpoch() + delta);
}
inline bool operator<(Timestamp lhs, Timestamp rhs)函数的实现
inline bool operator<(Timestamp lhs, Timestamp rhs)
{
return lhs.microSecondsSinceEpoch() < rhs.microSecondsSinceEpoch();
}
inline bool operator==(Timestamp lhs, Timestamp rhs)函数的实现
inline double timeDifference(Timestamp high, Timestamp low)
{
int64_t diff = high.microSecondsSinceEpoch() - low.microSecondsSinceEpoch();
return static_cast(diff) / Timestamp::kMicroSecondsPerSecond;
}