TextClock can display the current date and/or time as
* a formatted string.
This view honors the 24-hour format system setting. As such, it is * possible and recommended to provide two different formatting patterns: * one to display the date/time in 24-hour mode and one to display the * date/time in 12-hour mode. Most callers will want to use the defaults, * though, which will be appropriate for the user's locale.
* *It is possible to determine whether the system is currently in * 24-hour mode by calling {@link #is24HourModeEnabled()}.
* *The rules used by this widget to decide how to format the date and * time are the following:
*The {@link CharSequence} instances used as formatting patterns when calling either * {@link #setFormat24Hour(CharSequence)} or {@link #setFormat12Hour(CharSequence)} can * contain styling information. To do so, use a {@link android.text.Spanned} object. * Note that if you customize these strings, it is your responsibility to supply strings * appropriate for formatting dates and/or times in the user's locale.
* * @attr ref android.R.styleable#TextClock_format12Hour * @attr ref android.R.styleable#TextClock_format24Hour * @attr ref android.R.styleable#TextClock_timeZone */ @RemoteView public class TextClock extends TextView { /** * The default formatting pattern in 12-hour mode. This pattern is used * if {@link #setFormat12Hour(CharSequence)} is called with a null pattern * or if no pattern was specified when creating an instance of this class. * * This default pattern shows only the time, hours and minutes, and an am/pm * indicator. * * @see #setFormat12Hour(CharSequence) * @see #getFormat12Hour() * * @deprecated Let the system use locale-appropriate defaults instead. */ public static final CharSequence DEFAULT_FORMAT_12_HOUR = "h:mm a"; /** * The default formatting pattern in 24-hour mode. This pattern is used * if {@link #setFormat24Hour(CharSequence)} is called with a null pattern * or if no pattern was specified when creating an instance of this class. * * This default pattern shows only the time, hours and minutes. * * @see #setFormat24Hour(CharSequence) * @see #getFormat24Hour() * * @deprecated Let the system use locale-appropriate defaults instead. */ public static final CharSequence DEFAULT_FORMAT_24_HOUR = "H:mm"; private CharSequence mFormat12; private CharSequence mFormat24; private CharSequence mDescFormat12; private CharSequence mDescFormat24; @ExportedProperty private CharSequence mFormat; @ExportedProperty private boolean mHasSeconds; private CharSequence mDescFormat; private boolean mAttached; private Calendar mTime; private String mTimeZone; private boolean mShowCurrentUserTime; private ContentObserver mFormatChangeObserver; private class FormatChangeObserver extends ContentObserver { public FormatChangeObserver(Handler handler) { super(handler); } @Override public void onChange(boolean selfChange) { chooseFormat(); onTimeChanged(); } @Override public void onChange(boolean selfChange, Uri uri) { chooseFormat(); onTimeChanged(); } }; private final BroadcastReceiver mIntentReceiver = new BroadcastReceiver() { @Override public void onReceive(Context context, Intent intent) { if (mTimeZone == null && Intent.ACTION_TIMEZONE_CHANGED.equals(intent.getAction())) { final String timeZone = intent.getStringExtra("time-zone"); createTime(timeZone); } onTimeChanged(); } }; private final Runnable mTicker = new Runnable() { public void run() { onTimeChanged(); long now = SystemClock.uptimeMillis(); long next = now + (1000 - now % 1000); getHandler().postAtTime(mTicker, next); } }; /** * Creates a new clock using the default patterns for the current locale. * * @param context The Context the view is running in, through which it can * access the current theme, resources, etc. */ @SuppressWarnings("UnusedDeclaration") public TextClock(Context context) { super(context); init(); } /** * Creates a new clock inflated from XML. This object's properties are * intialized from the attributes specified in XML. * * This constructor uses a default style of 0, so the only attribute values * applied are those in the Context's Theme and the given AttributeSet. * * @param context The Context the view is running in, through which it can * access the current theme, resources, etc. * @param attrs The attributes of the XML tag that is inflating the view */ @SuppressWarnings("UnusedDeclaration") public TextClock(Context context, AttributeSet attrs) { this(context, attrs, 0); } /** * Creates a new clock inflated from XML. This object's properties are * intialized from the attributes specified in XML. * * @param context The Context the view is running in, through which it can * access the current theme, resources, etc. * @param attrs The attributes of the XML tag that is inflating the view * @param defStyleAttr An attribute in the current theme that contains a * reference to a style resource that supplies default values for * the view. Can be 0 to not look for defaults. */ public TextClock(Context context, AttributeSet attrs, int defStyleAttr) { this(context, attrs, defStyleAttr, 0); } public TextClock(Context context, AttributeSet attrs, int defStyleAttr, int defStyleRes) { super(context, attrs, defStyleAttr, defStyleRes); final TypedArray a = context.obtainStyledAttributes( attrs, R.styleable.TextClock, defStyleAttr, defStyleRes); try { mFormat12 = a.getText(R.styleable.TextClock_format12Hour); mFormat24 = a.getText(R.styleable.TextClock_format24Hour); mTimeZone = a.getString(R.styleable.TextClock_timeZone); } finally { a.recycle(); } init(); } private void init() { if (mFormat12 == null || mFormat24 == null) { LocaleData ld = LocaleData.get(getContext().getResources().getConfiguration().locale); if (mFormat12 == null) { mFormat12 = ld.timeFormat_hm; } if (mFormat24 == null) { mFormat24 = ld.timeFormat_Hm; } } createTime(mTimeZone); // Wait until onAttachedToWindow() to handle the ticker chooseFormat(false); } private void createTime(String timeZone) { if (timeZone != null) { mTime = Calendar.getInstance(TimeZone.getTimeZone(timeZone)); } else { mTime = Calendar.getInstance(); } } /** * Returns the formatting pattern used to display the date and/or time * in 12-hour mode. The formatting pattern syntax is described in * {@link DateFormat}. * * @return A {@link CharSequence} or null. * * @see #setFormat12Hour(CharSequence) * @see #is24HourModeEnabled() */ @ExportedProperty public CharSequence getFormat12Hour() { return mFormat12; } /** *Specifies the formatting pattern used to display the date and/or time * in 12-hour mode. The formatting pattern syntax is described in * {@link DateFormat}.
* *If this pattern is set to null, {@link #getFormat24Hour()} will be used * even in 12-hour mode. If both 24-hour and 12-hour formatting patterns * are set to null, the default pattern for the current locale will be used * instead.
* *Note: if styling is not needed, it is highly recommended * you supply a format string generated by * {@link DateFormat#getBestDateTimePattern(java.util.Locale, String)}. This method * takes care of generating a format string adapted to the desired locale.
* * * @param format A date/time formatting pattern as described in {@link DateFormat} * * @see #getFormat12Hour() * @see #is24HourModeEnabled() * @see DateFormat#getBestDateTimePattern(java.util.Locale, String) * @see DateFormat * * @attr ref android.R.styleable#TextClock_format12Hour */ @RemotableViewMethod public void setFormat12Hour(CharSequence format) { mFormat12 = format; chooseFormat(); onTimeChanged(); } /** * Like setFormat12Hour, but for the content description. * @hide */ public void setContentDescriptionFormat12Hour(CharSequence format) { mDescFormat12 = format; chooseFormat(); onTimeChanged(); } /** * Returns the formatting pattern used to display the date and/or time * in 24-hour mode. The formatting pattern syntax is described in * {@link DateFormat}. * * @return A {@link CharSequence} or null. * * @see #setFormat24Hour(CharSequence) * @see #is24HourModeEnabled() */ @ExportedProperty public CharSequence getFormat24Hour() { return mFormat24; } /** *Specifies the formatting pattern used to display the date and/or time * in 24-hour mode. The formatting pattern syntax is described in * {@link DateFormat}.
* *If this pattern is set to null, {@link #getFormat24Hour()} will be used * even in 12-hour mode. If both 24-hour and 12-hour formatting patterns * are set to null, the default pattern for the current locale will be used * instead.
* *Note: if styling is not needed, it is highly recommended * you supply a format string generated by * {@link DateFormat#getBestDateTimePattern(java.util.Locale, String)}. This method * takes care of generating a format string adapted to the desired locale.
* * @param format A date/time formatting pattern as described in {@link DateFormat} * * @see #getFormat24Hour() * @see #is24HourModeEnabled() * @see DateFormat#getBestDateTimePattern(java.util.Locale, String) * @see DateFormat * * @attr ref android.R.styleable#TextClock_format24Hour */ @RemotableViewMethod public void setFormat24Hour(CharSequence format) { mFormat24 = format; chooseFormat(); onTimeChanged(); } /** * Like setFormat24Hour, but for the content description. * @hide */ public void setContentDescriptionFormat24Hour(CharSequence format) { mDescFormat24 = format; chooseFormat(); onTimeChanged(); } /** * Sets whether this clock should always track the current user and not the user of the * current process. This is used for single instance processes like the systemUI who need * to display time for different users. * * @hide */ public void setShowCurrentUserTime(boolean showCurrentUserTime) { mShowCurrentUserTime = showCurrentUserTime; chooseFormat(); onTimeChanged(); unregisterObserver(); registerObserver(); } /** * Indicates whether the system is currently using the 24-hour mode. * * When the system is in 24-hour mode, this view will use the pattern * returned by {@link #getFormat24Hour()}. In 12-hour mode, the pattern * returned by {@link #getFormat12Hour()} is used instead. * * If either one of the formats is null, the other format is used. If * both formats are null, the default formats for the current locale are used. * * @return true if time should be displayed in 24-hour format, false if it * should be displayed in 12-hour format. * * @see #setFormat12Hour(CharSequence) * @see #getFormat12Hour() * @see #setFormat24Hour(CharSequence) * @see #getFormat24Hour() */ public boolean is24HourModeEnabled() { if (mShowCurrentUserTime) { return DateFormat.is24HourFormat(getContext(), ActivityManager.getCurrentUser()); } else { return DateFormat.is24HourFormat(getContext()); } } /** * Indicates which time zone is currently used by this view. * * @return The ID of the current time zone or null if the default time zone, * as set by the user, must be used * * @see TimeZone * @see java.util.TimeZone#getAvailableIDs() * @see #setTimeZone(String) */ public String getTimeZone() { return mTimeZone; } /** * Sets the specified time zone to use in this clock. When the time zone * is set through this method, system time zone changes (when the user * sets the time zone in settings for instance) will be ignored. * * @param timeZone The desired time zone's ID as specified in {@link TimeZone} * or null to user the time zone specified by the user * (system time zone) * * @see #getTimeZone() * @see java.util.TimeZone#getAvailableIDs() * @see TimeZone#getTimeZone(String) * * @attr ref android.R.styleable#TextClock_timeZone */ @RemotableViewMethod public void setTimeZone(String timeZone) { mTimeZone = timeZone; createTime(timeZone); onTimeChanged(); } /** * Selects either one of {@link #getFormat12Hour()} or {@link #getFormat24Hour()} * depending on whether the user has selected 24-hour format. * * Calling this method does not schedule or unschedule the time ticker. */ private void chooseFormat() { chooseFormat(true); } /** * Returns the current format string. Always valid after constructor has * finished, and will never be {@code null}. * * @hide */ public CharSequence getFormat() { return mFormat; } /** * Selects either one of {@link #getFormat12Hour()} or {@link #getFormat24Hour()} * depending on whether the user has selected 24-hour format. * * @param handleTicker true if calling this method should schedule/unschedule the * time ticker, false otherwise */ private void chooseFormat(boolean handleTicker) { final boolean format24Requested = is24HourModeEnabled(); LocaleData ld = LocaleData.get(getContext().getResources().getConfiguration().locale); if (format24Requested) { mFormat = abc(mFormat24, mFormat12, ld.timeFormat_Hm); mDescFormat = abc(mDescFormat24, mDescFormat12, mFormat); } else { mFormat = abc(mFormat12, mFormat24, ld.timeFormat_hm); mDescFormat = abc(mDescFormat12, mDescFormat24, mFormat); } boolean hadSeconds = mHasSeconds; mHasSeconds = DateFormat.hasSeconds(mFormat); if (handleTicker && mAttached && hadSeconds != mHasSeconds) { if (hadSeconds) getHandler().removeCallbacks(mTicker); else mTicker.run(); } } /** * Returns a if not null, else return b if not null, else return c. */ private static CharSequence abc(CharSequence a, CharSequence b, CharSequence c) { return a == null ? (b == null ? c : b) : a; } @Override protected void onAttachedToWindow() { super.onAttachedToWindow(); if (!mAttached) { mAttached = true; registerReceiver(); registerObserver(); createTime(mTimeZone); if (mHasSeconds) { mTicker.run(); } else { onTimeChanged(); } } } @Override protected void onDetachedFromWindow() { super.onDetachedFromWindow(); if (mAttached) { unregisterReceiver(); unregisterObserver(); getHandler().removeCallbacks(mTicker); mAttached = false; } } private void registerReceiver() { final IntentFilter filter = new IntentFilter(); filter.addAction(Intent.ACTION_TIME_TICK); filter.addAction(Intent.ACTION_TIME_CHANGED); filter.addAction(Intent.ACTION_TIMEZONE_CHANGED); // OK, this is gross but needed. This class is supported by the // remote views mechanism and as a part of that the remote views // can be inflated by a context for another user without the app // having interact users permission - just for loading resources. // For example, when adding widgets from a managed profile to the // home screen. Therefore, we register the receiver as the user // the app is running as not the one the context is for. getContext().registerReceiverAsUser(mIntentReceiver, android.os.Process.myUserHandle(), filter, null, getHandler()); } private void registerObserver() { if (isAttachedToWindow()) { if (mFormatChangeObserver == null) { mFormatChangeObserver = new FormatChangeObserver(getHandler()); } final ContentResolver resolver = getContext().getContentResolver(); if (mShowCurrentUserTime) { resolver.registerContentObserver(Settings.System.CONTENT_URI, true, mFormatChangeObserver, UserHandle.USER_ALL); } else { resolver.registerContentObserver(Settings.System.CONTENT_URI, true, mFormatChangeObserver); } } } private void unregisterReceiver() { getContext().unregisterReceiver(mIntentReceiver); } private void unregisterObserver() { if (mFormatChangeObserver != null) { final ContentResolver resolver = getContext().getContentResolver(); resolver.unregisterContentObserver(mFormatChangeObserver); } } private void onTimeChanged() { mTime.setTimeInMillis(System.currentTimeMillis()); setText(DateFormat.format(mFormat, mTime)); setContentDescription(DateFormat.format(mDescFormat, mTime)); } /** @hide */ @Override protected void encodeProperties(@NonNull ViewHierarchyEncoder stream) { super.encodeProperties(stream); CharSequence s = getFormat12Hour(); stream.addProperty("format12Hour", s == null ? null : s.toString()); s = getFormat24Hour(); stream.addProperty("format24Hour", s == null ? null : s.toString()); stream.addProperty("format", mFormat == null ? null : mFormat.toString()); stream.addProperty("hasSeconds", mHasSeconds); } }