C语言自研定时器计划任务语法详解

目录

为啥要自研

语法格式

执行计划

符号

模式

语法演示

基本操作

符号操作

模式操作

头文件

实现文件

为啥要自研

市面主流定时器计划任务语法: cron ,但是使用起来非常难受,设计的比较非人性话语法,我想一般人都没几个记住的,都是靠在线生成工具进行使用的,而且只能持续执行不是有限执行,下面举几个cron的案例:

具体想了解的可以自行百度,我试图记住语法,但是因为太混乱了,时间一长就忘了,没法只能到网上工具里生成,而且很多有限的场景没法生成因为cron不支持只执行几次或者有规律的执行,为了解决以上的问题,我自己研究了一套(free time)定时器计划任务语法

语法格式

语法: 0,0,7,0,0,0,0,- 长度为8

对应时间: 秒,分,时,天,星期,月,年,执行计划

执行计划

数值: 执行几次

n: 循环执行

^n: 时间乘阶 2*2,4*2,8*2....

^数值: 时间乘阶几次 ^2 那么就是2*2,4*2

符号

~: 区间 1~4 那么就会执行1,2,3,4

/: 间隔 2/5 那么从2开始下次之后就从5开始执行

[]: 分段 [1,5,10,12] 分别在这几个时间点执行

模式

模式就是可以: 月底,月初,每周几,星期末,年末,节假日等,(可以支持自定义扩张需要对外提供生成器)

执行计划: m(循环执行) ,m数值(有限执行)

begin: 时间底(天底,周末,月底,年底)

end: 时间初(天初,周初,月初,年初)

point(?): 指定时间点,指定每月5号,每周3,每2天

以上是基础模式,其他模式需要自定义(节假日,特殊日期等)

注意: 在模式的基础上还可以配合时间比如: (每天2点1分10秒执行)

语法演示 基本操作

都是以当前时间为基准进行添加时间

当前时间+1分钟后执行(执行2次)

0,1,0,0,0,0,0,2
(2022-09-24 16:22:59,2022-09-24 16:23:59)

当前时间+5小时后执行(循环执行)

0,0,5,0,0,0,0,n
(2022-09-24 21:23:09,2022-09-25 02:23:09)

当前时间+1天后执行

0,0,0,1,0,0,0,n
(2022-09-25 16:24:07,2022-09-26 16:24:07)

当前时间+1星期(7天)后执行

0,0,0,0,1,0,0,n
(2022-10-01 16:25:19,2022-10-08 16:25:19)

当前时间加1天1小时1分1秒后执行

1,1,1,1,0,0,0,2
(2022-09-25 17:38:57,2022-09-26 18:39:58)

当前时间分钟递增执行(循环)

0,1,0,0,0,0,0,^n

当前时间分钟递增执行(次数)

0,1,0,0,0,0,0,^2

符号操作

符号操作有~和[]以及/ 可以配合有限和循环n,不能使用递增

区间执行(循环)

0,2~5,0,0,0,0,0,n(每2分钟3分钟…5分钟各执行一次,然后反复)

间隔执行

0,0,3/0,1,0,0,0,n (3小时后,每天执行一次)

分段执行

0,0,[2,5,8],0,0,0,0,n (当前时间每2,5,8小时执行一次,然后反复)

符号操作还可以和基本操作组合,原理就是相加

0,10,[2,5,8],0,0,0,0,n(当前时间每2,5,8小时加10分钟执行一次,然后反复)

模式操作

在[年,月,星期,天,小时,分支,秒]底执行

年底执行5次

0,0,0,0,0,0,end,mode5
(2023-12-31 23:59:59 ,2024-12-31 23:59:59)

月底执行,一共执行两次

0,0,0,0,0,end,0,mode2
(2022-10-31 23:59:59,2022-11-31 23:59:59)

每个星期日底执行(循环)

0,0,0,0,end,0,0,mode
(2022-10-02 23:59:59,2022-10-09 23:59:59)

每天底执行

0,0,0,end,0,0,0,mode
(2022-09-24 23:59:59 , 2022-09-25 23:59:59)

每小时底执行

0,0,end,0,0,0,0,mode
(2022-09-23 15:59:59,2022-09-23 16:59:59)

每分钟底执行

0,end,0,0,0,0,0,mode
(2022-09-23 14:20:59,2022-09-23 14:21:59)

每秒底执行

end,0,0,0,0,0,0,mode (可能看不出来,所以当做每秒执行就行)
(2022-09-23 14:21:26,2022-09-23 14:22:25)

在[年,月,星期,天,小时,分支,秒]初执行

每年初执行(2次)

0,0,0,0,0,0,begin,mode2
(2023-01-01 00:00:00, 2024-01-01 00:00:00)

没月初执行

0,0,0,0,0,begin,0,mode2
(2022-10-01 00:00:00, 2022-11-01 00:00:00)

每星期初执行

0,0,0,0,begin,0,0,mode
(2022-09-26 00:00:00,2022-10-03 00:00:00)

每天初执行

0,0,0,begin,0,0,0,mode
(2022-09-25 00:00:00,2022-09-26 00:00:00)

每小时初执行

0,0,begin,0,0,0,0,mode
(2022-09-24 16:00:00,2022-09-24 17:00:00)

每分钟初执行

0,begin,0,0,0,0,0,mode
(2022-09-24 15:35:00,2022-09-24 15:36:00)

每秒钟初执行

begin,0,0,0,0,0,0,mode (可能看不出来,所以当做每秒执行就行)
(2022-09-24 15:35:17,2022-09-24 15:35:18)

指定时间执行

我们可以使用模式中的point(?) 来完成,而point除了在星期占位特殊可以指定下个星期几执行,在其他占位也是可以指定时间

每个星期2晚上11点执行

0,0,point(23),0,point(2),0,0,mode
(2022-09-27 22:00:00,2022-10-04 22:00:00)

每天凌晨2点执行

0,0,point(2),point(1),0,0,0,mode
(2022-09-25 02:00:00,2022-09-26 02:00:00)

模式组合

注意: end ,begin 和point 不能同时出现,但是我们可以和基本模式作进行混合

-59,1,-2,end,0,0,0,mode (每天晚上10点执行)

0,0,8,begin,0,0,0,mode (每天早上8点执行)

0,0,8,point(2),0,0,0,mode (每2天8点执行)

头文件 #ifndef STUDY_TIMER_RESOLVER_H #define STUDY_TIMER_RESOLVER_H #include "time_util.h" #include "../util/str_util.h" #include "assertmy.h" #include <stdio.h> #include <stdlib.h> //秒,分钟,小时,天,星期,月,年,执行计划 -,-,-,-,-,-,-,- 代表0秒,0分,0小时,0天,星期,0月,0年,不执行 typedef struct timer_resolver { char *second;//秒 0-59 char *minute;//分钟 0-59 char *hour; //小时0-23 char *day; //天 1-31 char *week;//星期 0-6 char *month;//月份 1-12 char *year;//年 char *plan;//执行计划 -代表不执行,n 循环执行,数字代表执行次数 , ^n 阶级执行(^1 表示一阶执行,^2 表示二阶执行,^3 表示三阶执行...^n表示n阶执行) mode 代表执行模式 mode2 代表模式执行2次.... long timestamp;//时间戳 用于计算下次执行时间 char *help;//协助计算的字段 CharHashMap *mode;//模式 } TimerResolver; typedef int (*ModeMethod)(char *item,int seat,TimerResolver *timerResolver); //自定义模式方法 TimerResolver *create_timer_resolver(char *time); void print_timer_resolver(TimerResolver *timerResolver); long resolver(TimerResolver *timerResolver); void switchStructure(TimerResolver *timerResolver); void add_timer_mode(TimerResolver *timerResolver, char *key, ModeMethod method); void print_format_resolver(TimerResolver *timerResolver, int n); #endif //STUDY_TIMER_RESOLVER_H 实现文件 #include "timer_resolver.h" char *get_return_data(char **data1); //获取以当前时间后指定年月日时分秒 long time_point_mode(char *item, int seat, TimerResolver *timerResolver) { //解析point(?)模式,取出?的值 int i = str_find(item, "("); item = str_substring(item, i + 1, str_length(item) - 2); if (seat == 0) { //加秒数 return get_next_time_by_timestamp(timerResolver->timestamp, 0, 0, 0, 0, 0, str_to_int(item)); } else if (seat == 1) { //分钟数 return get_next_time_by_timestamp(timerResolver->timestamp, 0, 0, 0, 0, str_to_int(item), 0); } else if (seat == 2) { //小时数 return get_next_time_by_timestamp(timerResolver->timestamp, 0, 0, 0, str_to_int(item), 0, 0); } else if (seat == 3) { //天数 return get_next_time_by_timestamp(timerResolver->timestamp, 0, 0, str_to_int(item), 0, 0, 0); } else if (seat == 4) { //周n的日期 return get_next_week_of_day(timerResolver->timestamp, str_to_int(item)); } else if (seat == 5) { //月数 return get_next_time_by_timestamp(timerResolver->timestamp, 0, str_to_int(item), 0, 0, 0, 0); } else if (seat == 6) { //年数 return get_next_time_by_timestamp(timerResolver->timestamp, str_to_int(item), 0, 0, 0, 0, 0); } } // 判断指定时间,初的时间 long time_begin_mode(char *item, int seat, TimerResolver *timerResolver) { if (seat == 0) { //秒数 return get_start_time_of_next_second(timerResolver->timestamp); } else if (seat == 1) { //分钟数 return get_start_time_of_next_minute(timerResolver->timestamp); } else if (seat == 2) { //小时数 return get_start_time_of_next_hour(timerResolver->timestamp); } else if (seat == 3) {// 天数 return get_start_time_of_next_day(timerResolver->timestamp); } else if (seat == 4) {// 星期数 return get_time_next_week_start(timerResolver->timestamp); } else if (seat == 5) {// 月数 return get_start_time_of_next_month(timerResolver->timestamp); } else if (seat == 6) {// 年数 return get_start_time_of_next_year(timerResolver->timestamp); } } // 判断指定时间,末的时间 long time_end_mode(char *item, int seat, TimerResolver *timerResolver) { if (seat == 0) { //秒数 return timerResolver->timestamp+59; } else if (seat == 1) { //分钟数(如果当前时间是59秒,则返回下一分钟的59秒) return get_end_time_of_next_minute(timerResolver->timestamp) ; } else if (seat == 2) { //小时数 return get_end_time_of_next_hour(timerResolver->timestamp) ; } else if (seat == 3) { //天数 return get_end_time_of_next_day(timerResolver->timestamp) ; } else if (seat == 4) { //星期数(周末开始时间) return get_end_time_of_next_week(timerResolver->timestamp); } else if (seat == 5) { //月数 return get_end_time_of_next_month(timerResolver->timestamp) ; } else if (seat == 6) { //年数 return get_end_time_of_next_year(timerResolver->timestamp) ; } } // 判断是否有此模式 BOOL mode_exist(char *item, TimerResolver *timerResolver) { if(!str_contains(timerResolver->plan,"mode")){ return FALSE; } CharHashMapIterator *pIterator = createCharHashMapIterator(timerResolver->mode); while (hasNextCharHashMapIterator(pIterator)) { CharKvLinkedNode *pNode = nextCharHashMapIterator(pIterator); if (str_start_with(item,pNode->key )) {//如果匹配到模式,那么就转换为统一结构化格式 return TRUE; } } return FALSE; } //模式解析 long mode_timer(char *item, int seat, TimerResolver *timerResolver) { if (str_contains(timerResolver->plan, "mode")) { CharHashMapIterator *pIterator = createCharHashMapIterator(timerResolver->mode); while (hasNextCharHashMapIterator(pIterator)) { CharKvLinkedNode *pNode = nextCharHashMapIterator(pIterator); if (str_start_with(item,pNode->key)) {//如果匹配到模式 ModeMethod pVoid = (ModeMethod) pNode->value; return pVoid(item, seat, timerResolver);//执行模式方法 } } } return 0;// 没有匹配到模式 } //添加模式方法(如果执行计划为mode,则支持) void add_timer_mode(TimerResolver *timerResolver, char *key, ModeMethod method) { if (str_contains(timerResolver->plan, "mode")) { putCharHashMap(timerResolver->mode, key, method);//添加模式方法 } } void inside_add_timer_mode(TimerResolver *timerResolver) { if (str_contains(timerResolver->plan, "mode")) { add_timer_mode(timerResolver, "begin", time_begin_mode); add_timer_mode(timerResolver, "end", time_end_mode); add_timer_mode(timerResolver, "point", time_point_mode); } } //获取下一次执行时间,返回时间戳 long get_next_time(TimerResolver *timerResolver) { if (!timerResolver->plan) { return 0; } if (str_contains(timerResolver->plan, "mode")) { long mode_timer1 = mode_timer(get_return_data(&timerResolver->second), 0, timerResolver); timerResolver->timestamp+=get_time_difference_second(timerResolver->timestamp, mode_timer1); long mode_timer2 = mode_timer(get_return_data(&timerResolver->minute), 1, timerResolver); timerResolver->timestamp+=get_time_difference_second(timerResolver->timestamp,mode_timer2 ); long mode_timer3= mode_timer(get_return_data(&timerResolver->hour), 2, timerResolver); timerResolver->timestamp+=get_time_difference_second(timerResolver->timestamp,mode_timer3 ); long mode_timer4 = mode_timer(get_return_data(&timerResolver->day), 3, timerResolver); timerResolver->timestamp+=get_time_difference_second(timerResolver->timestamp, mode_timer4); long mode_timer5 = mode_timer(get_return_data(&timerResolver->week), 4, timerResolver); timerResolver->timestamp+=get_time_difference_second(timerResolver->timestamp, mode_timer5); long mode_timer6 = mode_timer(get_return_data(&timerResolver->month), 5, timerResolver); timerResolver->timestamp+=get_time_difference_second(timerResolver->timestamp, mode_timer6); long mode_timer7 = mode_timer(get_return_data(&timerResolver->year), 6, timerResolver); timerResolver->timestamp+=get_time_difference_second(timerResolver->timestamp, mode_timer7); } long current = timerResolver->timestamp; //获取当前时间 int second = str_to_int(get_return_data(&timerResolver->second)); int minute = str_to_int(get_return_data(&timerResolver->minute)); int hour = str_to_int(get_return_data(&timerResolver->hour)); int day = str_to_int(get_return_data(&timerResolver->day)); int week = str_to_int(get_return_data(&timerResolver->week)); int month = str_to_int(get_return_data(&timerResolver->month)); int year = str_to_int(get_return_data(&timerResolver->year)); long newTime = add_time_one(current, second, minute, hour, day, month, year, week ); timerResolver->timestamp = newTime; if(str_contains(timerResolver->plan,"mode")){ return newTime; }else{ return current; } } //解析字符串-,-,-,-,-,-,-,-并创建TimerResolver TimerResolver *create_timer_resolver(char *time) { if (time == NULL && strlen(time) == 0) { return NULL; } //去空 time = str_trim(time); //排除[]内的,号 int start = 0; while ((start = str_find_n(time, "[", start, str_length(time))) != -1) { int end = str_find_n(time, "]", start, str_length(time)); time = str_replace_all_n(time, ",", "@", start, end); start++; } TimerResolver *timerResolver = (TimerResolver *) malloc(sizeof(TimerResolver)); if (timerResolver == NULL) { return NULL; } CharList *pCharlist = str_split(time, ","); int str_len = pCharlist->len; if (str_len != 8) { char message[100]; sprintf(message, "create_timer_resolver语法错误: %s ", time); assertError(message); } timerResolver->second = pCharlist->str[0]; timerResolver->minute = pCharlist->str[1]; timerResolver->hour = pCharlist->str[2]; timerResolver->day = pCharlist->str[3]; timerResolver->week = pCharlist->str[4]; timerResolver->month = pCharlist->str[5]; timerResolver->year = pCharlist->str[6]; timerResolver->timestamp = get_current_timestamp();//获取当前时间戳 //执行计划 -代表不执行,n 循环执行,数字代表执行次数 , ^n 阶级执行(^1 表示一阶执行,^2 表示二阶执行,^3 表示三阶执行...^n表示n阶执行) timerResolver->plan = str_compare(pCharlist->str[7], "-") ? "0" : pCharlist->str[7]; timerResolver->help = "{}"; timerResolver->mode = createCharHashMap(10); //添加模式方法 inside_add_timer_mode(timerResolver); //转换为结构化格式 switchStructure(timerResolver); //计算本次执行时间 if(!str_contains(timerResolver->plan,"mode")){ get_next_time(timerResolver); } return timerResolver; } //打印TimerResolver,格式为-,-,-,-,-,-,-,- void print_timer_resolver(TimerResolver *timerResolver) { printf("%s,%s,%s,%s,%s,%s,%s,%s\n", timerResolver->second, timerResolver->minute, timerResolver->hour, timerResolver->day, timerResolver->week, timerResolver->month, timerResolver->year, timerResolver->plan); } //执行n次定时器并且打印效果 void print_format_resolver(TimerResolver *timerResolver, int n) { for (int i = 0; i < n; ++i){ long i1 = resolver(timerResolver); char *string = format_time(i1, "%Y-%m-%d %H:%M:%S"); printf("%ld---%s\n",i1,string); } } //解析定时器语法,并且生成下次执行时间,如果返回0,则此语法已经执行结束了,可以删除对应的定时器了 long resolver(TimerResolver *timerResolver) { //判断是否可执行 if (str_equals(timerResolver->plan,"0") ) {//不执行 return 0; } if (str_compare(timerResolver->plan, "n")) {//循环执行 return get_next_time(timerResolver); } //阶级执行 if (str_start_with(timerResolver->plan, "^")) { CharHashMap *pMapSecond = str_to_json_map(timerResolver->second); putCharHashMap(pMapSecond, "return", int_to_str(str_to_int(get_return_data(&timerResolver->second)) * 2)); timerResolver->second = map_to_json_str(pMapSecond); CharHashMap *pMapMinute = str_to_json_map(timerResolver->minute); putCharHashMap(pMapMinute, "return", int_to_str(str_to_int(get_return_data(&timerResolver->minute)) * 2)); timerResolver->minute = map_to_json_str(pMapMinute); CharHashMap *pMapHour = str_to_json_map(timerResolver->hour); putCharHashMap(pMapHour, "return", int_to_str(str_to_int(get_return_data(&timerResolver->hour)) * 2)); timerResolver->hour = map_to_json_str(pMapHour); CharHashMap *pMapDay = str_to_json_map(timerResolver->day); putCharHashMap(pMapDay, "return", int_to_str(str_to_int(get_return_data(&timerResolver->day)) * 2)); timerResolver->hour = map_to_json_str(pMapDay); CharHashMap *pMapWeek = str_to_json_map(timerResolver->week); putCharHashMap(pMapWeek, "return", int_to_str(str_to_int(get_return_data(&timerResolver->week)) * 2)); timerResolver->week = map_to_json_str(pMapWeek); CharHashMap *pMapMonth = str_to_json_map(timerResolver->month); putCharHashMap(pMapMonth, "return", int_to_str(str_to_int(get_return_data(&timerResolver->month)) * 2)); timerResolver->month = map_to_json_str(pMapMonth); CharHashMap *pMapYear = str_to_json_map(timerResolver->year); putCharHashMap(pMapYear, "return", int_to_str(str_to_int(get_return_data(&timerResolver->year)) * 2)); timerResolver->year = map_to_json_str(pMapYear); char *string = str_substring(timerResolver->plan, 1, str_length(timerResolver->plan)); if (str_compare(string, "n")) { //如果是n那么就是循环执行 return get_next_time(timerResolver); } if (str_is_number(string)) {//如果是数字,那么就是有限阶级执行 if (str_compare(string, "0")) { return 0; } char *one = str_calculate_one(string, "--"); timerResolver->plan = str_concat(2, "^", one); return get_next_time(timerResolver); } } //模式执行 if (str_start_with(timerResolver->plan, "mode")) { timerResolver->timestamp= get_start_time_of_day(timerResolver->timestamp );// 初始化为当天的开始时间 ,然后在后面的计算中,加上指定的时间 if (str_length(timerResolver->plan) == 4) { //循环执行 return get_next_time(timerResolver); } else { char *string = str_substring(timerResolver->plan, 4, str_length(timerResolver->plan)); if (str_is_number(string)) {//如果是数字,那么就是有限阶级执行 if (str_compare(string, "0")) { return 0; } char *one = str_calculate_one(string, "--"); timerResolver->plan = str_concat(2, "mode", one); return get_next_time(timerResolver); } else { assertError(formatStr("mode解析错误非法字符(必须是mode+数字):%s\n", timerResolver->plan)); } } } //有限执行 if (str_is_number(timerResolver->plan)) { int plan = str_to_int(timerResolver->plan); if (plan > 0) { timerResolver->plan = int_to_str(plan - 1); return get_next_time(timerResolver); } } } //分段[]解析 char *section_analysis(char *item, TimerResolver *timerResolver) { //在帮助里存储当前的次数 CharHashMap *pMap = str_to_json_map(timerResolver->help); if (!containsKeyCharHashMap(pMap, "basicsPlan")) { putCharHashMap(pMap, "basicsPlan", timerResolver->plan); timerResolver->help = map_to_json_str(pMap); } //将[]里面的@转换为,号 item = str_replace_all_n(item, "@", ",", 0, str_length(item)); CharList *pCharlist = str_to_json_array(item); //验证是否都是数字 for (int i = 0; i < pCharlist->len; ++i) { if (!str_is_number(pCharlist->str[i])) { assertError(formatStr("[]解析错误非法字符(必须是数字):%s\n", pCharlist->str[i])); } } char *string = str_concat(11, "{", "type:[]", ",", "data:", item, ",", "index:0", ",", "return:", pCharlist->str[0], "}"); //添加执行的次数 CharHashMap *pMap1 = str_to_json_map(timerResolver->help); char *basicsPlan = getCharHashMap(pMap1, "basicsPlan"); if(str_equals(basicsPlan,"n")||str_start_with(basicsPlan,"^")){ timerResolver->plan = timerResolver->plan; }else{ if (str_equals(timerResolver->plan, basicsPlan)) { timerResolver->plan = int_to_str(pCharlist->len * str_to_int(basicsPlan)); } else { timerResolver->plan = int_to_str( str_to_int(timerResolver->plan) + (pCharlist->len * str_to_int(basicsPlan))); } } return string; } //区间解析 符号为~ ,位置1表示秒,2表示分支,3表示小时,4表示天,5表示星期,6表示月,7表示年 char *range_analysis(char *item, TimerResolver *timerResolver) { //在帮助里存储当前的次数 CharHashMap *pMap = str_to_json_map(timerResolver->help); if (!containsKeyCharHashMap(pMap, "basicsPlan")) { putCharHashMap(pMap, "basicsPlan", timerResolver->plan); timerResolver->help = map_to_json_str(pMap); } CharList *pCharlist = str_split(item, "~"); //验证是否都是数字 for (int i = 0; i < pCharlist->len; ++i) { if (!str_is_number(pCharlist->str[i])) { assertError(formatStr("~解析错误非法字符(必须是数字):%s\n", pCharlist->str[i])); } } CharList *range = get_range(pCharlist->str[0], pCharlist->str[1]); char *data = array_to_json_str(range); char *string = str_concat(11, "{", "type:~", ",", "data:", data, ",", "index:0", ",", "return:", range->str[0], "}"); //添加执行的次数 CharHashMap *pMap1 = str_to_json_map(timerResolver->help); char *basicsPlan = getCharHashMap(pMap1, "basicsPlan"); if(str_equals(basicsPlan,"n")||str_start_with(basicsPlan,"^")){ timerResolver->plan = timerResolver->plan; }else{ if (str_equals(timerResolver->plan, basicsPlan)) { timerResolver->plan = int_to_str(range->len * str_to_int(basicsPlan)); } else { timerResolver->plan = int_to_str(str_to_int(timerResolver->plan) + (range->len * str_to_int(basicsPlan))); } } return string; } //间隔/ 解析 (5/2)表示从5开始,每隔2个数 执行一次 char *interval_analysis(char *item, TimerResolver *timerResolver) { //在帮助里存储当前的次数 CharHashMap *pMap = str_to_json_map(timerResolver->help); if (!containsKeyCharHashMap(pMap, "basicsPlan")) { putCharHashMap(pMap, "basicsPlan", timerResolver->plan); timerResolver->help = map_to_json_str(pMap); } CharList *pCharlist = str_split(item, "/"); //验证是否都是数字 for (int i = 0; i < pCharlist->len; ++i) { if (!str_is_number(pCharlist->str[i])) { assertError(formatStr("/解析错误非法字符(必须是数字):%s\n", pCharlist->str[i])); } } char *data = str_concat(5, "[", pCharlist->str[0], ",", pCharlist->str[1], "]"); char *string = str_concat(11, "{", "type:/", ",", "data:", data, ",", "index:0", ",", "return:", pCharlist->str[0], "}"); //添加执行的次数 CharHashMap *pMap1 = str_to_json_map(timerResolver->help); char *basicsPlan = getCharHashMap(pMap1, "basicsPlan"); if(str_equals(basicsPlan,"n")||str_start_with(basicsPlan,"^")){ timerResolver->plan = timerResolver->plan; }else{ if (str_equals(timerResolver->plan, basicsPlan)) { timerResolver->plan = int_to_str(str_to_int(basicsPlan) + 1); } } return string; } char *mode_analysis(char *item, TimerResolver *timerResolver) { CharHashMapIterator *pIterator = createCharHashMapIterator(timerResolver->mode); while (hasNextCharHashMapIterator(pIterator)) { CharKvLinkedNode *pNode = nextCharHashMapIterator(pIterator); if (str_start_with(item,pNode->key)) {//如果匹配到模式,那么就转换为统一结构化格式 char *string = str_concat(6, "{", "type:mode", ",", "return:", item, "}"); return string; } } assertError(formatStr("mode模式解析错误没有找到对应的模式-请检查模式是否自定义-并且添加到模式集中:%s\n", item)); } //普通解析 char *normal_analysis(char *item) { if (str_is_number(item)) { char *string = str_concat(6, "{", "type:number", ",", "return:", item, "}"); return string; } assertError(formatStr("解析错误,无法解析的表达式:%s\n", item)); } //获取结构化数据的返回数据 char *get_return_data(char **data1) { char *data = *data1; //判断是否是字典格式 if (str_is_map(data)) { //解析字典 CharHashMap *pMap = str_to_json_map(data); //获取类型 char *type = getCharHashMap(pMap, "type"); //如果类型是[] if (str_compare(type, "[]")) { //如果是[]类型 那么就是分段 例如 [1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24] //获取data char *data = getCharHashMap(pMap, "data"); //获取index char *index = getCharHashMap(pMap, "index"); //获取返回数据 char *returnData = getCharHashMap(pMap, "return"); //获取数组 //将[]里面的@转换为,号 CharList *pCharlist = str_to_json_array(data); //获取下一个值 int nextIndex = str_to_int(index) + 1; //判断是否超出数组长度,如果超出长度,从头开始 if (nextIndex >= pCharlist->len) { //超出长度,返回空 nextIndex = 0; } //获取下一个值 char *nextValue = pCharlist->str[nextIndex]; //设置返回数据 putCharHashMap(pMap, "return", nextValue); //设置index putCharHashMap(pMap, "index", int_to_str(nextIndex)); //修改原数据 *data1 = map_to_json_str(pMap); //返回数据 return returnData; } else if (str_compare(type, "~")) { //如果类型是~ 那么就是区间 1~5 表示1,2,3,4,5 //如果类型是~ //获取data char *data = getCharHashMap(pMap, "data"); //获取index char *index = getCharHashMap(pMap, "index"); //获取返回数据 char *returnData = getCharHashMap(pMap, "return"); //获取数组 CharList *pCharlist = str_to_json_array(data); //获取下一个值 int nextIndex = str_to_int(index) + 1; //判断是否超出数组长度,如果超出长度,从头开始 if (nextIndex >= pCharlist->len) { nextIndex = 0; } //获取下一个值 char *nextValue = pCharlist->str[nextIndex]; //设置返回数据 putCharHashMap(pMap, "return", nextValue); //设置index putCharHashMap(pMap, "index", int_to_str(nextIndex)); //修改原数据 *data1 = map_to_json_str(pMap); //返回数据 return returnData; } else if (str_compare(type, "/")) { // 如果类型是/ (5/2)表示从5开始,每隔2个数 执行一次 //如果类型是/ //获取data char *data = getCharHashMap(pMap, "data"); //获取index char *index = getCharHashMap(pMap, "index"); //获取返回数据 char *returnData = getCharHashMap(pMap, "return"); int nextIndex = str_to_int(index) + 1; if (nextIndex == 1) { //获取数组 CharList *pCharlist = str_to_json_array(data); //判断index是否是1,如果是1,取第二个值,并且转换为普通结构 char *string = str_concat(6, "{", "type:number", ",", "return:", pCharlist->str[nextIndex], "}"); *data1 = string; } return returnData; } else if (str_compare(type, "number")) { //如果类型是number,那么获取return char *returnData = getCharHashMap(pMap, "return"); return returnData; }else if (str_compare(type, "mode")) { //如果类型是mode,那么获取return char *returnData = getCharHashMap(pMap, "return"); return returnData; } } assertError(formatStr("解析错误不是结构化数据: %s\n", data)); } //定时器语法转换为结构化格式 void switchStructure(TimerResolver *timerResolver) { //秒 if (str_contains(timerResolver->second, "[")) { timerResolver->second = section_analysis(timerResolver->second, timerResolver); } else if (str_contains(timerResolver->second, "~")) { timerResolver->second = range_analysis(timerResolver->second, timerResolver); } else if (str_contains(timerResolver->second, "/")) { timerResolver->second = interval_analysis(timerResolver->second, timerResolver); } else if (mode_exist(timerResolver->second, timerResolver)) { timerResolver->second = mode_analysis(timerResolver->second, timerResolver); } else { timerResolver->second = normal_analysis(timerResolver->second); } //分 if (str_contains(timerResolver->minute, "[")) { timerResolver->minute = section_analysis(timerResolver->minute, timerResolver); } else if (str_contains(timerResolver->minute, "~")) { timerResolver->minute = range_analysis(timerResolver->minute, timerResolver); } else if (str_contains(timerResolver->minute, "/")) { timerResolver->minute = interval_analysis(timerResolver->minute, timerResolver); } else if (mode_exist(timerResolver->minute, timerResolver)) { timerResolver->minute = mode_analysis(timerResolver->minute, timerResolver); } else { timerResolver->minute = normal_analysis(timerResolver->minute); } //时 if (str_contains(timerResolver->hour, "[")) { timerResolver->hour = section_analysis(timerResolver->hour, timerResolver); } else if (str_contains(timerResolver->hour, "~")) { timerResolver->hour = range_analysis(timerResolver->hour, timerResolver); } else if (str_contains(timerResolver->hour, "/")) { timerResolver->hour = interval_analysis(timerResolver->hour, timerResolver); } else if (mode_exist(timerResolver->hour, timerResolver)) { timerResolver->hour = mode_analysis(timerResolver->hour, timerResolver); } else { timerResolver->hour = normal_analysis(timerResolver->hour); } //日 if (str_contains(timerResolver->day, "[")) { timerResolver->day = section_analysis(timerResolver->day, timerResolver); } else if (str_contains(timerResolver->day, "~")) { timerResolver->day = range_analysis(timerResolver->day, timerResolver); } else if (str_contains(timerResolver->day, "/")) { timerResolver->day = interval_analysis(timerResolver->day, timerResolver); } else if (mode_exist(timerResolver->day, timerResolver)) { timerResolver->day = mode_analysis(timerResolver->day, timerResolver); } else { timerResolver->day = normal_analysis(timerResolver->day); } //周 if (str_contains(timerResolver->week, "[")) { timerResolver->week = section_analysis(timerResolver->week, timerResolver); } else if (str_contains(timerResolver->week, "~")) { timerResolver->week = range_analysis(timerResolver->week, timerResolver); } else if (str_contains(timerResolver->week, "/")) { timerResolver->week = interval_analysis(timerResolver->week, timerResolver); } else if (mode_exist(timerResolver->week, timerResolver)) { timerResolver->week = mode_analysis(timerResolver->week, timerResolver); } else { timerResolver->week = normal_analysis(timerResolver->week); } //月 if (str_contains(timerResolver->month, "[")) { timerResolver->month = section_analysis(timerResolver->month, timerResolver); } else if (str_contains(timerResolver->month, "~")) { timerResolver->month = range_analysis(timerResolver->month, timerResolver); } else if (str_contains(timerResolver->month, "/")) { timerResolver->month = interval_analysis(timerResolver->month, timerResolver); } else if (mode_exist(timerResolver->month, timerResolver)) { timerResolver->month = mode_analysis(timerResolver->month, timerResolver); } else { timerResolver->month = normal_analysis(timerResolver->month); } //年 if (str_contains(timerResolver->year, "[")) { timerResolver->year = section_analysis(timerResolver->year, timerResolver); } else if (str_contains(timerResolver->year, "~")) { timerResolver->year = range_analysis(timerResolver->year, timerResolver); } else if (str_contains(timerResolver->year, "/")) { timerResolver->year = interval_analysis(timerResolver->year, timerResolver); } else if (mode_exist(timerResolver->year, timerResolver)) { timerResolver->year = mode_analysis(timerResolver->year, timerResolver); } else { timerResolver->year = normal_analysis(timerResolver->year); } } //释放TimerResolver void free_timer_resolver(TimerResolver *timerResolver) { free(timerResolver); }

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