有没有人为MSP430的IAR Embedded Workbench实现了__getzone（）？

这是我对__getzone（）的实现。 所以现在我的系统时基将是UTC。 当用户配置我的系统时，如果时间源不提供UTC，我会询问他们当地的时间。 然后，当他们向我的系统提供时间同步时，他们提供的时间将通过调用MKTIME（将考虑DST规则）转换为UTC。 然后，当时间呈现给用户时，将通过调用localtime（）来完成。

我们在实现这个过程中学到的另一件事是IAR的MKTIME（）实现将调用__getzone（），但除非你将tm_isdst设置为’-1’，否则不会考虑DST规则。 -1使得对MKTIME（）的调用确定是否根据规则应用DST。

/*! * \brief Overrides default library function __getzone to support different time * zones and DST rules. * \returns Pointer to a const string containing the timezone + dst rules * * This function supports all time zones and DST rules for the US and Canada. * * \par IAR Notes * The return value should be a string on the following form: * \code * :[XXX[:YYY[:NNN[:DST[:DST ...]]]]] * \endcode * \par * Where \b XXX is the standard time-zone name, \b YYY is the daylight * savings time-zone name, \b NNN is the time zone offset, and the DSTs * are the daylight savings time rules. Daylight savings time will add * one hour to the normal time. * \par * The time zone offset \b NNN is specified as a number relative to UTC, * possibly negative (east is positive), on the format HHMM, where HH * is hours and MM is minutes. * \par * The DSTs specifes a set of rules for how daylight savings time is * applied. The rules must be sorted in increasing date order starting * from the earliest date. The first rule for a specific year will * enable DST, the next will disable it, and so on. Each rule is on * the following form: * \code * [(YYYY)]MMDD[HH][-W|+W] * \endcode * * * \b (YYYY) is the first year the daylight savings rule was applied. * It is optional. If not specified it will default to the same * year as the previous rule or zero if no previous rule. * * \b MM is the month number (1-12). * * \b DD is the day of the month (1-31). * * \b HH is the hour number in a 24-hour day (optional, defaults to 0). * * \b +/-W specifies the day of the week the rule takes effect (where * Sunday = 0, Monday = 1, etc). +W means that the rule applies * to the first such day on or after the specified date and -W * strictly before the date. If this is not specified, the rule * will take effect on the exact date, regardless of the day of * the week. * * \par Example * US Eastern Standard time is UTC -5. Eastern Daylight time is UTC -4. * Daylight time goes into affect on the second sunday of March at 2:00AM local * time. Daylight time ends on the first sunday of November at 2:00AM local * time. The law that defines this went into affect in 2007. * Therefore here is how the DST string is constructed: * | \| | STD Time | \| | DST Time | \| | UTC Offset | \| | DST Rule Year | Month DST Starts | Day DST Starts | Hour DST Starts | Day of Week | \| | Month DST Ends | Day DST Ends | Hour DST Ends | Day of Week | * |----|----------|----|----------|----|------------|----|---------------|------------------|----------------|-----------------|-------------|----|----------------|--------------|---------------|-------------| * | : | XXX | : | YYY | : | NNN | : | (YYYY) | MM | DD* | HH | +/-W** | : | MM | DD | HH | +/-W | * | : | GMT-5 | : | GMT-4 | : | -0500 | : | (2007) | 03 | 08 | 02 | +0 | : | 11 | 01 | 02 | +0 | * - * An 8 for the day means that DST will start around the 8th day of the * month. Or that the +/-W parameter is relative to the 8th day of the month. * - ** A + here means that the DST rule will start \b on or \b after the * previously specified day (the 8th). 0 means that it should happen on a * sunday. Therefore if the 8th is a sunday (and the 8th cannot be the first * sunday of the month) then the rule will take affect on that day - or it * will happen on the very next sunday. * \par * Result: * \code * :GMT-5:GMT-4:-0500:(2007)030802+0:110102+0 * \endcode * * \sa * - time_zones - Supported time zones */ const char8_t * __getzone(void) { const char8_t *current_zone = NULL; static const char8_t dst_time_zones[][50] = { // UTC time ":GMT+0:GMT+0:0000:0", // Newfoundland Standard Time UTC – 3:30 ":GMT-3:GMT-2:-0330:(2007)030802+0:110102+0", // Atlantic Standard Time, UTC – 4 ":GMT-4:GMT-3:-0400:(2007)030802+0:110102+0", // Eastern Standard Time, UTC – 5 ":GMT-5:GMT-4:-0500:(2007)030802+0:110102+0", // Central Standard Time, UTC – 6 ":GMT-6:GMT-5:-0600:(2007)030802+0:110102+0", // Mountain Standard Time, UTC – 7 ":GMT-7:GMT-6:-0700:(2007)030802+0:110102+0", // Pacific Standard Time, UTC – 8 ":GMT-8:GMT-7:-0800:(2007)030802+0:110102+0", // Alaska Standard Time, UTC – 9 ":GMT-9:GMT-8:-0900:(2007)030802+0:110102+0", // Hawaii-Aleutian Standard Time, UTC – 10 ":GMT-10:GMT-9:-1000:(2007)030802+0:110102+0" }; static const char8_t std_time_zones[][20] = { // UTC time ":GMT+0:GMT+0:0000", // Newfoundland Standard Time UTC – 3:30 ":GMT-3:GMT-2:-0330", // Atlantic Standard Time, UTC – 4 ":GMT-4:GMT-3:-0400", // Eastern Standard Time, UTC – 5 ":GMT-5:GMT-4:-0500", // Central Standard Time, UTC – 6 ":GMT-6:GMT-5:-0600", // Mountain Standard Time, UTC – 7 ":GMT-7:GMT-6:-0700", // Pacific Standard Time, UTC – 8 ":GMT-8:GMT-7:-0800", // Alaska Standard Time, UTC – 9 ":GMT-9:GMT-8:-0900", // Hawaii-Aleutian Standard Time, UTC – 10 ":GMT-10:GMT-9:-1000" }; switch(get_config()->time_zone) { case NST: { if(get_config()->b_dst) { current_zone = dst_time_zones[NST]; } else { current_zone = std_time_zones[NST]; } } break; case AST: { if(get_config()->b_dst) { current_zone = dst_time_zones[AST]; } else { current_zone = std_time_zones[AST]; } } break; case EST: { if(get_config()->b_dst) { current_zone = dst_time_zones[EST]; } else { current_zone = std_time_zones[EST]; } } break; case CST: { if(get_config()->b_dst) { current_zone = dst_time_zones[CST]; } else { current_zone = std_time_zones[CST]; } } break; case MST: { if(get_config()->b_dst) { current_zone = dst_time_zones[MST]; } else { current_zone = std_time_zones[MST]; } } break; case PST: { if(get_config()->b_dst) { current_zone = dst_time_zones[PST]; } else { current_zone = std_time_zones[PST]; } } break; case AKST: { if(get_config()->b_dst) { current_zone = dst_time_zones[AKST]; } else { current_zone = std_time_zones[AKST]; } } break; case HAST: { if(get_config()->b_dst) { current_zone = dst_time_zones[HAST]; } else { current_zone = std_time_zones[HAST]; } } break; case UTC: default: current_zone = std_time_zones[UTC]; break; } return current_zone; } 

 char const * __getzone() { return ":GMT+2:GMT+3:0200:(1996)033103-0:103104-0"; // Ukraine; rule: (last Sun (March | October) ) } 

上面的乌克兰统治不太正确，因为它不适用于31日的星期日。 如果您在getzone.c中读取规则，则表示严格在此日期之前的星期日。

 +/-W specifies the day of the week the rule takes effect (where Sunday = 0, Monday = 1, etc). +W means that the rule applies to the first such day on or after the specified date and -W strictly before the date. If this is not specified, the rule will take effect on the exact date, regardless of the day of the week. 

正确的规则如下

 char const * __getzone() { return ":GMT+2:GMT+3:0200:(1996)032503+0:102504+0"; // Ukraine; rule: (last Sun (March | October) ) } 

对于德国，您可以使用：

 char const * __getzone() { return ":GMT+1:GMT+2:0100:032502+0:102502+0"; } 

无论是乌克兰人还是我的，我都用实际设备对我进行了测试并得到了正确的结果。 在这里我的测试：

 //Forward time_t ts = 1490489997L;//26.03.2017-01:59:57 3 seconds before dst struct tm* pre = localtime(&ts); time_t after = ts + 5L;//wait 5 seconds -> 26.03.2017-03:00:02 struct tm* post = localtime(&after); //Backward time_t ts = 1509238797L;//29.10.2017-02:59:57 3 seconds before dst struct tm* pre = localtime(&ts); time_t after = ts + 5L;//wait 5 seconds -> 29.10.2017-02:00:02 struct tm* post = localtime(&after); 

最好的问候Michael