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初涉江湖,还望海涵!
写点东西,纯粹是因为个人的记忆能力较弱,写些笔记罢了,若有错误还望雅正!
对Android中的时间获取做个记录,以下为结果!
代码粘贴
public class MainActivity extends AppCompatActivity { public static final String TAG = "MainActivity"; @RequiresApi(api = Build.VERSION_CODES.CUPCAKE) @Override protected void onCreate(Bundle savedInstanceState) { super.onCreate(savedInstanceState); setContentView(R.layout.activity_main); //timestamp TextView timestamp = findViewById(R.id.timestamp_show); timestamp.setText("timestamp:" + System.currentTimeMillis()); //date Date date = new Date(); TextView date_show = findViewById(R.id.date_show); date_show.setText("Date:" + date.toString()); //Calendar TextView calendar_show = findViewById(R.id.calendar_show); Calendar calendar = Calendar.getInstance(); int year = calendar.get(Calendar.YEAR); int month = calendar.get(Calendar.MONTH); int day = calendar.get(Calendar.DATE); int hour = calendar.get(Calendar.HOUR); int minute = calendar.get(Calendar.MINUTE); int second = calendar.get(Calendar.SECOND); String calendar_show_string = "Calendar:" + year + "-" + month + "-" + day + " " + hour + ":" + minute + ":" + second; calendar_show.setText(calendar_show_string); //Time TextView time_show = findViewById(R.id.time_show); Time time = new Time(); time.setToNow(); int time_year = time.year; int time_month = time.month; int time_day = time.monthDay; int time_hour = time.hour; int time_minute = time.minute; int time_second = time.second; String time_show_string = "Time:" + time_year + "-" + time_month + "-" + time_day + " " + time_hour + ":" + time_minute + ":" + time_second; time_show.setText(time_show_string); //SimpleDateFormat TextView simpleDateFormat_show = findViewById(R.id.simpleDateFormat_show); SimpleDateFormat format = new SimpleDateFormat("yyyy-MM-dd HH:mm:ss"); String simpleDateFormat_tring = "SimpleDateFormat:" + format.format(new Date()); simpleDateFormat_show.setText(simpleDateFormat_tring); Log.d(TAG, "onCreate: Long的最大值:" + Long.MAX_VALUE); }
根据自己使用过的以及网上搜索得到的结果,整理记录了以下方法
1 timestamp
2 date
3 SimpleDateFormat
4 Calendar
5 Time
1 timestamp
//timestamp TextView timestamp = findViewById(R.id.timestamp_show); timestamp.setText("timestamp:" + System.currentTimeMillis());
timestamp,时间戳。
使用时调用System类的currentTimeMillis()方法,该方法的描述是:
/** * Returns the current time in milliseconds. Note that * while the unit of time of the return value is a millisecond, * the granularity of the value depends on the underlying * operating system and may be larger. For example, many * operating systems measure time in units of tens of * milliseconds. * * <p> See the description of the class <code>Date</code> for * a discussion of slight discrepancies that may arise between * "computer time" and coordinated universal time (UTC). * * @return the difference, measured in milliseconds, between * the current time and midnight, January 1, 1970 UTC. * @see java.util.Date */ public static native long currentTimeMillis();
可以看出,该方法返回的是long类型的结果,结果记录的是midnight, January 1, 1970 UTC至今经过的毫秒数(milliseconds)。
System.currentTimeMillis()是一个native方法,是一个C/C++方法,由系统测量时间戳并返回测量结果,根据注释描述,测量结果可能偏大,因为有些操作系统测量时间是以十毫秒为单位的,类Date中讨论了关于系统时间和UTC时间产生差异的原因,可自行观看!
Note:
- UTC(coordinated universal time)是民用时间的标准,众所周知,地球围绕太阳公转一周的时间定义为一年,地球自转一周定义为一天。有科学报道说,地球漫长的公转中其实是在缓慢的接近太阳,不管是否属实,自转和公转会产生一些变化也是不可避免的,UTC就是正确测量时间的规则,当测量到需要校正时间时,会以毫秒为单位进行调整,称之为闰秒(leap seconds),后面Time会提到!
- System.currentTimeMillis()的返回结果是一个记录从1970开始的毫秒数的long型结果,最容易想到的是long是有范围区间的,如果有一天记录的毫秒数超出long的范围怎么办!所以我计算了以下,long的最大值为0x7fff,ffff,ffff,ffff,取整大约为922亿亿,一年算365天,不考虑闰年,一天246060*60毫秒一年取整大约18亿毫秒,922亿/18,大约为50亿年,考虑到太阳的寿命,貌似也有用尽的一天。。。。但是,那么长的时间,鬼知道会发展成什么样!
2 Date
//date Date date = new Date(); TextView date_show = findViewById(R.id.date_show); date_show.setText("Date:" + date.toString());
通过实例化Date类获取date实例从而获取时间,简单通过toString()打印结果
Date类的注释特别描述了
日历记时中,一年定为365天,闰年多一天,这表明,时间并不总是一天246060*60毫秒,需要用闰年加一天来调整。在coordinated universal time (UTC)的时间定义中,是通过闰秒(leap second)来调整时间的,并且总是在6月30日或12月31日,具体表现为该类对秒的限制在0 to 61,60和61发生在leap second时。
构造函数
public Date() { this(System.currentTimeMillis()); } public Date(long date) { fastTime = date; } /** * @param year the year minus 1900. * @param month the month between 0-11. * @param date the day of the month between 1-31. * @param hrs the hours between 0-23. * @param min the minutes between 0-59. * @param sec the seconds between 0-59. * @see java.util.Calendar * @deprecated As of JDK version 1.1, * replaced by <code>Calendar.set(year + 1900, month, date, * hrs, min, sec)</code> or <code>GregorianCalendar(year + 1900, * month, date, hrs, min, sec)</code>. */ @Deprecated public Date(int year, int month, int date, int hrs, int min, int sec) { int y = year + 1900; // month is 0-based. So we have to normalize month to support Long.MAX_VALUE. if (month >= 12) { y += month / 12; month %= 12; } else if (month < 0) { y += CalendarUtils.floorDivide(month, 12); month = CalendarUtils.mod(month, 12); } BaseCalendar cal = getCalendarSystem(y); cdate = (BaseCalendar.Date) cal.newCalendarDate(TimeZone.getDefaultRef()); cdate.setNormalizedDate(y, month + 1, date).setTimeOfDay(hrs, min, sec, 0); getTimeImpl(); cdate = null; }
无参大Date()直接把System.currentTimeMillis()的时间戳返回给fastTime,另一个就是设定好年月日时分秒来创建对象,其中的设定是年是1900+参数year并且也对月份超出范围做出了处理,但是该构造方法已是@Deprecated(弃用)了
Date类中大部分的方法都已经弃用,要特别是单独获取年或者月等信息的方法,基本上都已经弃用,留下的有打印即toString()和一些比较等功能性的方法
3 SimpleDateFormat
//SimpleDateFormat TextView simpleDateFormat_show = findViewById(R.id.simpleDateFormat_show); SimpleDateFormat format = new SimpleDateFormat("yyyy-MM-dd HH:mm:ss"); String simpleDateFormat_tring = "SimpleDateFormat:" + format.format(new Date()); simpleDateFormat_show.setText(simpleDateFormat_tring);
SimpleDateFormat类的核心是Text的formatting(格式化)和Time的parsing(解析),SimpleDateFormat()通过传入一个字符串来格式化需要的表现形式,样例中通过调用format()传入Date无参对象,实际上是调用System.currentTimeMillis()获取最基本的时间,SimpleDateFormat类的作用是把传入的Date类时间定制化封装,从而得到需要的结果。
Note:
关于SimpleDateFormat类,可以很自由的定制表现形式,年月日时分秒,时间格式,AD/BC。。。
定制化所用字母的含义:
- G => AD/BC(年份为负数时),1+
- y => Year,1+
- Y => Week year,24+
- M => Month in year,1+
- w => Week in year,1+
- W => Week in month,1+
- D => Day in year,1+
- d => Day in month,1+
- F => Day of week in month,1+
- E => Day name in week,1+
- u => Day number of week(1 = Monday, ..., 7 = Sunday),24+
- a => Am/pm marker,1+
- H => Hour in day (0-23),1+
- k => Hour in day (1-24),1+
- K => Hour in am/pm (0-11),1+
- h => Hour in am/pm (1-12),1+
- m => Minute in hour,1+
- s => Second in minute,1+
- S => Millisecond,1+
- z => Time zone:General time zone,PST,GMT-08:00,1+
- Z => Time zone:RFC 822 time zone,1+
- X => Time zone:ISO 8601 time zone,1+
定制化使用"字符串",在该字符串中使用'字符'表示在年月日等数据外的部分,如分隔符
SimpleDateFormat类的时间格式定制包括年月日等数据的表现形式,连接符,日期格式的描述,如Time zone,AM/PM,AD/BC。。。
SimpleDateFormat类中存在的问题是线程同步
/** * Date formats are not synchronized. * It is recommended to create separate format instances for each thread. * If multiple threads access a format concurrently, it must be synchronized * externally. */
SimpleDateFormat是线程不同步的,要在多线程中使用则要在线程外同步.
4 Calendar
//Calendar TextView calendar_show = findViewById(R.id.calendar_show); Calendar calendar = Calendar.getInstance(); int year = calendar.get(Calendar.YEAR); int month = calendar.get(Calendar.MONTH); int day = calendar.get(Calendar.DATE); int hour = calendar.get(Calendar.HOUR); int minute = calendar.get(Calendar.MINUTE); int second = calendar.get(Calendar.SECOND); String calendar_show_string = "Calendar:" + year + "-" + month + "-" + day + " " + hour + ":" + minute + ":" + second; calendar_show.setText(calendar_show_string);
Calendar是一个抽象类通过其内定义的Calendar.getInstance()静态方法实例化对象而该静态方法最终是通过返回一个new GregorianCalendar(zone, aLocale)来实现初始化!
Calendar类内部定义了关于时间需要用到的索引并用一个int数组存储相关数据
public final static int ERA = 0; public final static int YEAR = 1; public final static int MONTH = 2; public final static int WEEK_OF_YEAR = 3; ... @SuppressWarnings("ProtectedField") protected int fields[]; public int get(int field) { complete(); return internalGet(field); } protected final int internalGet(int field) { return fields[field]; }
Calendar类的简单实用就是通过调用get方法从数组中获取相应的数据
5 Time
//Time TextView time_show = findViewById(R.id.time_show); Time time = new Time(); time.setToNow(); int time_year = time.year; int time_month = time.month; int time_day = time.monthDay; int time_hour = time.hour; int time_minute = time.minute; int time_second = time.second; String time_show_string = "Time:" + time_year + "-" + time_month + "-" + time_day + " " + time_hour + ":" + time_minute + ":" + time_second; time_show.setText(time_show_string);
把这段代码打入到剪辑器,你会看到Time这个类是弃用了的
官方的注释解释是这样的
/** * An alternative to the {@link java.util.Calendar} and * {@link java.util.GregorianCalendar} classes. An instance of the Time class represents * a moment in time, specified with second precision. It is modelled after * struct tm. This class is not thread-safe and does not consider leap seconds. */
可以看到,描述上说,这是线程不安全的类,同时也没有处理leap seconds(闰秒)的能力,还举出了几个例子。
虽然是弃用的方法,但是还是可以看看怎么使用Time类的,简单地说,就是通过对象.变量的形式获取,也就是说,Time不像Calendar类那样使用数组存储数据,Time就是通过创建public int 数据 的形式来保存数据,也就是这些数据都是public的
总的来说,获取数据的时候,通过Time的形式,如int time_hour = time.hour;这样的写法,其实才是最舒服的(个人感觉),当然,最重要的还是安全问题
以上就是本文的全部内容,希望对大家的学习有所帮助,也希望大家多多支持自由互联。