gecko-dev/modules/libnls/headers/timezone.h

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/*
********************************************************************************
* *
* COPYRIGHT: *
* (C) Copyright Taligent, Inc., 1997 *
* (C) Copyright International Business Machines Corporation, 1997 *
* Licensed Material - Program-Property of IBM - All Rights Reserved. *
* US Government Users Restricted Rights - Use, duplication, or disclosure *
* restricted by GSA ADP Schedule Contract with IBM Corp. *
* *
********************************************************************************
*
* File TIMEZONE.H
*
* Modification History:
*
* Date Name Description
* 04/21/97 aliu Overhauled header.
* 07/09/97 helena Changed createInstance to createDefault.
* 08/06/97 aliu Removed dependency on internal header for Hashtable.
********************************************************************************
*/
#ifndef _NLSTIMEZONE
#define _NLSTIMEZONE
#include "unistring.h"
class SimpleTimeZone;
class Hashtable;
/**
* TimeZone is an abstract class representing a time zone. A TimeZone is needed for
* Calendar to produce local time for a particular time zone. A TimeZone comprises
* three basic pieces of information:<ul>
* <li>A time zone offset; that, is the number of milliseconds to add or subtract
* from a time expressed in terms of GMT to convert it to the same time in that
* time zone (without taking daylight savings time into account).
* <li>Logic necessary to take daylight savings time into account if daylight savings
* time is observed in that time zone (e.g., the days and hours on which daylight
* savings time begins and ends).
* <li>An ID. This is a text string that uniquely identifies the time zone.</ul>
*
* (Only the ID is actually implemented in TimeZone; subclasses of TimeZone may handle
* daylight savings time and GMT offset in different ways. Currently we only have one
* TimeZone subclass: SimpleTimeZone.)
* <P>
* The TimeZone class contains a static list containing a TimeZone object for every
* combination of GMT offset and daylight-savings time rules currently in use in the
* world, each with a unique ID. Each ID consists of a region (usually a continent or
* ocean) and a city in that region, separated by a slash, (for example, Pacific
* Standard Time is "America/Los_Angeles.") Because older versions of this class used
* three- or four-letter abbreviations instead, there is also a table that maps the older
* abbreviations to the newer ones (for example, "PST" maps to "America/LosAngeles").
* Anywhere the API requires an ID, you can use either form.
* <P>
* To create a new TimeZone, you call the factory function TimeZone::createTimeZone()
* and pass it a time zone ID. You can use the createAvailableIDs() function to
* obtain a list of all the time zone IDs recognized by createTimeZone().
* <P>
* You can also use TimeZone::createDefault() to create a TimeZone. This function uses
* platform-specific APIs to produce a TimeZone for the time zone corresponding to
* the client's computer's physical location. For example, if you're in Japan (assuming
* your machine is set up correctly), TimeZone::createDefault() will return a TimeZone
* for Japanese Standard Time ("Asia/Tokyo").
*/
#ifdef NLS_MAC
#pragma export on
#endif
class T_FORMAT_API TimeZone {
public:
virtual ~TimeZone();
/**
* Creates a new TimeZone for the given tmie zone ID. If the given ID is not
* supported by TimeZone class, returns null. The result is a new TimeZone object
* that the client owns and is responsible for deleting.
*
* @param ID A time zone ID.
* @return A new TimeZone corresponding to the time zone with the given ID,
* or NULL if there is no time zone with the given ID.
*/
static TimeZone* createTimeZone(const UnicodeString& ID);
/**
* Returns a list of time zone IDs, one for each time zone with a given GMT offset.
* The return value is a list because there may be several times zones with the same
* GMT offset that differ in the way they handle daylight savings time. For example,
* the state of Arizona doesn't observe Daylight Savings time. So if you ask for
* the time zone IDs corresponding to GMT-7:00, you'll get back two time zone IDs:
* "America/Denver," which corresponds to Mountain Standard Time in the winter and
* Mountain Daylight Time in the summer, and "America/Phoenix", which corresponds to
* Mountain Standard Time year-round, even in the summer.
* <P>
* The caller owns the list that is returned, but does not own the strings contained
* in that list. Delete the array, but DON'T delete the elements in the array.
*
* @param rawOffset An offset from GMT in milliseconds.
* @param numIDs Receives the number of items in the array that is returned.
* @return An array of UnicodeString pointers, where each UnicodeString is
* a time zone ID for a time zone with the given GMT offset. If
* there is no timezone that matches the GMT offset
* specified, NULL is returned.
*/
static const UnicodeString** const createAvailableIDs(t_int32 rawOffset, long& numIDs);
/**
* Returns a list of all time zone IDs supported by the TimeZone class (i.e., all
* IDs that it's legal to pass to createTimeZone()). The caller owns the list that
* is returned, but does not own the strings contained in that list. Delete the array,
* but DON'T delete the elements in the array.
*
* @param numIDs Receives the number of zone IDs returned.
* @return An array of UnicodeString pointers, where each is a time zone ID
* supported by the TimeZone class.
*/
static const UnicodeString** const createAvailableIDs(long& numIDs);
/**
* Creates a new copy of the default TimeZone for this host. Unless the default time
* zone has already been set using adoptDefault() or serDefault(), the default is
* determined by querying the system using methods in TPlatformUtilities. If the
* system routines fail, or if they specify a TimeZone or TimeZone offset which is not
* recognized, the TimeZone indicated by the ID kLastResortID is instantiated
* and made the default.
*
* @return A default TimeZone. Clients are responsible for deleting the time zone
* object returned.
*/
static TimeZone* createDefault();
/**
* Sets the default time zone (i.e., what's returned by getDefault()) to be the
* specified time zone. If NULL is specified for the time zone, the default time
* zone is set to the default host time zone. This call adopts the TimeZone object
* passed in; the clent is no longer responsible for deleting it.
*
* @param zone A pointer to the new TimeZone object to use as the default.
*/
static void adoptDefault(TimeZone* zone);
/**
* Same as adoptDefault(), except that the TimeZone object passed in is NOT adopted;
* the caller remains responsible for deleting it.
*
* @param zone The given timezone.
*/
static void setDefault(const TimeZone& zone);
/**
* Returns true if the two TimeZones are equal. (The TimeZone version only compares
* IDs, but subclasses are expected to also compare the fields they add.)
*
* @param that The TimeZone object to be compared with.
* @return True if the given TimeZone is equal to this TimeZone; false
* otherwise.
*/
virtual t_bool operator==(const TimeZone& that) const;
/**
* Returns true if the two TimeZones are NOT equal; that is, if operator==() returns
* false.
*
* @param that The TimeZone object to be compared with.
* @return True if the given TimeZone is not equal to this TimeZone; false
* otherwise.
*/
t_bool operator!=(const TimeZone& that) const {return !operator==(that);}
/**
* Returns the TimeZone's adjusted GMT offset (i.e., the number of milliseconds to add
* to GMT to get local time in this time zone, taking daylight savings time into
* account) as of a particular reference date. The reference date is used to determine
* whether daylight savings time is in effect and needs to be figured into the offset
* that is returned (in other words, what is the adjusted GMT offset in this time zone
* at this particular date and time?). For the time zones produced by createTimeZone(),
* the reference data is specified according to the Gregorian calendar, and the date
* and time fields are in GMT, NOT local time.
*
* @param era The reference date's era
* @param year The reference date's year
* @param month The reference date's month (0-based; 0 is January)
* @param day The reference date's day-in-month (1-based)
* @param dayOfWeek The reference date's day-of-week (1-based; 1 is Sunday)
* @param millis The reference date's milliseconds in day, UTT (NOT local time).
* @return The offset in milliseconds to add to GMT to get local time.
*/
virtual t_int32 getOffset(t_uint8 era, t_int32 year, t_int32 month, t_int32 day,
t_uint8 dayOfWeek, t_int32 millis) const = 0;
/**
* Sets the TimeZone's raw GMT offset (i.e., the number of milliseconds to add
* to GMT to get local time, before taking daylight savings time into account).
*
* @param offsetMillis The new raw GMT offset for this time zone.
*/
virtual void setRawOffset(t_int32 offsetMillis) = 0;
/**
* Returns the TimeZone's raw GMT offset (i.e., the number of milliseconds to add
* to GMT to get local time, before taking daylight savings time into account).
*
* @return The TimeZone's raw GMT offset.
*/
virtual t_int32 getRawOffset() const = 0;
/**
* Fills in "ID" with the TimeZone's ID.
*
* @param ID Receives this TimeZone's ID.
* @return "ID"
*/
UnicodeString& getID(UnicodeString& ID) const;
/**
* Sets the TimeZone's ID to the specified value. This doesn't affect any other
* fields (for example, if you say<
* blockquote><pre>
* . TimeZone* foo = TimeZone::createTimeZone("America/New_York");
* . foo.setID("America/Los_Angeles");
* </pre></blockquote>
* the time zone's GMT offset and daylight-savings rules don't change to those for
* Los Angeles. They're still those for New York. Only the ID has changed.)
*
* @param ID The new timezone ID.
*/
void setID(const UnicodeString& ID);
/**
* Queries if this TimeZone uses Daylight Savings Time.
*
* @return True if this TimeZone uses Daylight Savings Time; false otherwise.
*/
virtual t_bool useDaylightTime() const = 0;
/**
* Returns true if the given date is within the period when daylight savings time
* is in effect; false otherwise. If the TimeZone doesn't observe daylight savings
* time, this functions always returns false.
* @param date The date to test.
* @return true if the given date is in Daylight Savings Time;
* false otherwise.
*/
virtual t_bool inDaylightTime(Date date, ErrorCode& status) const = 0;
/**
* Clones TimeZone objects polymorphically. Clients are responsible for deleting
* the TimeZone object cloned.
*
* @return A new copy of this TimeZone object.
*/
virtual TimeZone* clone() const = 0;
/**
* Returns a unique class ID POLYMORPHICALLY. Pure virtual method. This method is to
* implement a simple version of RTTI, since not all C++ compilers support genuine
* RTTI. Polymorphic operator==() and clone() methods call this method.
* <P>
* Concrete subclasses of TimeZone must implement getDynamicClassID() and also a
* static method and data member:
* <pre>
* . static ClassID getStaticClassID() { return (ClassID)&fgClassID; }
* . static char fgClassID;
* </pre>
* @return The class ID for this object. All objects of a given class have the
* same class ID. Objects of other classes have different class IDs.
*/
virtual ClassID getDynamicClassID() const = 0;
/**
* Netscape Extension for library termination
*/
static void terminateLibrary(void);
protected:
/**
* Default constructor. ID is initialized to the empty string.
*/
TimeZone();
/**
* Copy constructor.
*/
TimeZone(const TimeZone& source);
/**
* Default assignment operator.
*/
TimeZone& operator=(const TimeZone& right);
private:
/**
* Convert a non-localized string to an integer using a system function. Return a
* failing ErrorCode status if all characters are not parsed.
*/
// static t_int32 stringToInteger(const UnicodeString& string, ErrorCode& status);
/**
* Delete function for fgHashtable.
*/
static void deleteTimeZone(void*);
static Hashtable* fgHashtable; // hash table of objects in kSystemTimeZones,
// maps zone ID to TimeZone object (lazy evaluated)
static TimeZone* fgDefaultZone; // default time zone (lazy evaluated)
static UnicodeString* fgAvailableIDs; // array containing all the IDs in kSystemTimeZones
static t_int32 fgAvailableIDsCount; // number of IDs in fgAvailableIDs
static UnicodeString kLastResortID; // ID of time zone to use as default if we can't
// get a default from the system
/**
* Return a reference to the static Hashtable of registered TimeZone
* objects. Performs initialization if necessary.
* <P>
* This method is also responsible for initializing the array
* fgAvailableIDs and fgAvailableIDsCount.
*/
static const Hashtable& getHashtable();
/**
* Responsible for setting up fgDefaultZone. Uses routines in TPlatformUtilities
* (i.e., platform-specific calls) to get the current system time zone. Failing
* that, uses the platform-specific default time zone. Failing that, uses the time
* zone specified by kLastResortID.
*/
static void initDefault();
static SimpleTimeZone kSystemTimeZones[]; // an array of TimeZone objects for
// all possible time zones in
// use around the world as of 1997.
static const int kSystemTimeZonesCount; // number of TimeZones in kSystemTimeZones.
static const t_int32 millisPerHour; // number of milliseconds in an hour
static const char* compatibilityMap[]; // maps old-style 3-letter time zone IDs
// to the new region/city form (e.g., maps
// "PST" to "America/Los_Angeles")
static const int compatibilityMapCount; // number of entries in compatibilityMap.
UnicodeString fID; // this time zone's ID
};
#ifdef NLS_MAC
#pragma export off
#endif
// -------------------------------------
inline UnicodeString&
TimeZone::getID(UnicodeString& ID) const
{
ID = fID;
return ID;
}
// -------------------------------------
inline void
TimeZone::setID(const UnicodeString& ID)
{
fID = ID;
}
#endif //_TIMEZONE
//eof