use crate::datetime::*; use crate::iterinfo::*; use crate::options::*; use crate::poslist::*; use crate::yearinfo::*; use chrono::prelude::*; use chrono::Duration; pub enum QueryMethodTypes { ALL, BETWEEN, BEFORE, AFTER, } pub struct IterArgs { pub inc: bool, pub before: DateTime, pub after: DateTime, pub dt: DateTime, pub _value: Option>>, } pub struct IterResult { pub method: QueryMethodTypes, pub args: IterArgs, pub min_date: Option>, pub max_date: Option>, pub _result: Vec>, pub total: usize, } impl IterResult { pub fn new(method: QueryMethodTypes, args: IterArgs) -> Self { let (max_date, min_date) = match method { QueryMethodTypes::BETWEEN if args.inc => (Some(args.before), Some(args.after)), QueryMethodTypes::BETWEEN => ( Some(args.before - Duration::milliseconds(1)), Some(args.after + Duration::milliseconds(1)), ), QueryMethodTypes::BEFORE if args.inc => (Some(args.dt), None), QueryMethodTypes::BEFORE => (Some(args.dt - Duration::milliseconds(1)), None), QueryMethodTypes::AFTER if args.inc => (None, Some(args.dt)), QueryMethodTypes::AFTER => (None, Some(args.dt + Duration::milliseconds(1))), _ => (None, None), }; Self { method, args, min_date, max_date, total: 0, _result: vec![], } } pub fn accept(&mut self, date: DateTime) -> bool { self.total += 1; let too_early = self.min_date.is_some() && date < self.min_date.unwrap(); let too_late = self.max_date.is_some() && date > self.max_date.unwrap(); match self.method { QueryMethodTypes::BETWEEN if too_early => true, QueryMethodTypes::BETWEEN if too_late => false, QueryMethodTypes::BEFORE if too_late => false, QueryMethodTypes::AFTER if too_early => true, QueryMethodTypes::AFTER => { self.add(date); return false; } _ => self.add(date), } } pub fn add(&mut self, date: DateTime) -> bool { self._result.push(date); return true; } pub fn get_value(&self) -> Vec> { self._result.clone() //match self.method { //QueryMethodTypes::BETWEEN => Some(self._result.clone()), //_ => { //if self._result.is_empty() { //return None; //} //Some(vec![self._result[self._result.len() - 1].clone()]) //} //} } } pub fn iter(iter_result: &mut IterResult, options: &mut ParsedOptions) -> Vec> { if (options.count.is_some() && options.count.unwrap() == 0) || options.interval == 0 { return iter_result.get_value(); } let mut counter_date = options.dtstart.clone(); let mut ii = IterInfo::new(options); ii.rebuild(counter_date.year() as isize, counter_date.month() as usize); let mut timeset = make_timeset(&ii, &counter_date, options); let mut count = match options.count { Some(count) => count, _ => 0, }; loop { println!("Main loop"); let (dayset, start, end) = ii.getdayset( &options.freq, counter_date.year() as isize, counter_date.month() as usize, counter_date.day() as usize, ); let mut dayset = dayset .into_iter() .map(|s| Some(s as isize)) .collect::>>(); println!("dayset: {:?}", dayset); let filtered = remove_filtered_days(&mut dayset, start, end, &ii, options); println!("dayset: {:?}", dayset); if not_empty(&options.bysetpos) { let poslist = build_poslist(&options.bysetpos, ×et, start, end, &ii, &dayset); for j in 0..poslist.len() { let res = poslist[j]; if options.until.is_some() && res > options.until.unwrap() { return iter_result.get_value(); } if res >= options.dtstart { //let rezoned_date = rezone_if_needed(&res, &options); let rezoned_date = res.clone(); if !iter_result.accept(rezoned_date) { return iter_result.get_value(); } if count > 0 { count -= 1; if count == 0 { return iter_result.get_value(); } } } } } else { println!("start: {}, end: {}", start, end); for j in start..end { let current_day = dayset[j]; if current_day.is_none() { continue; } let current_day = current_day.unwrap(); let date = from_ordinal(ii.yearordinal().unwrap() + current_day); println!("timeset: {}", timeset.len()); for k in 0..timeset.len() { let res = Utc.ymd(date.year(), date.month(), date.day()).and_hms( timeset[k].hour as u32, timeset[k].minute as u32, timeset[k].second as u32, ); if options.until.is_some() && res > options.until.unwrap() { return iter_result.get_value(); } if res >= options.dtstart { //let rezoned_date = rezone_if_needed(&res, &options); let rezoned_date = res.clone(); if !iter_result.accept(rezoned_date) { return iter_result.get_value(); } if count > 0 { count -= 1; if count == 0 { return iter_result.get_value(); } } } } } } if options.interval == 0 { return iter_result.get_value(); } // Handle frequency and interval counter_date = increment_counter_date(counter_date, options, filtered); if counter_date.year() > 2200 { return iter_result.get_value(); } if options.freq == Frequenzy::HOURLY || options.freq == Frequenzy::MINUTELY || options.freq == Frequenzy::SECONDLY { timeset = ii.gettimeset( &options.freq, counter_date.hour() as usize, counter_date.minute() as usize, counter_date.second() as usize, counter_date.timestamp_subsec_millis() as usize, ); } ii.rebuild(counter_date.year() as isize, counter_date.month() as usize); } } pub fn increment_counter_date( counter_date: DateTime, options: &ParsedOptions, filtered: bool, ) -> DateTime { match options.freq { Frequenzy::YEARLY => counter_date .with_year(counter_date.year() + options.interval as i32) .unwrap(), Frequenzy::MONTHLY => { let new_month = counter_date.month() + options.interval as u32; if new_month > 12 { let mut year_div = new_month / 12; let mut new_month = new_month % 12; if new_month == 0 { new_month = 12; year_div -= 1; } let new_year = counter_date.year() + year_div as i32; return counter_date .with_month(new_month) .unwrap() .with_year(new_year) .unwrap(); } else { return counter_date.with_month(new_month).unwrap(); } } Frequenzy::WEEKLY => { let mut day_delta = 0; let weekday = get_weekday_val(&counter_date.weekday()); if options.wkst > weekday { day_delta += -((weekday + 1 + (6 - options.wkst)) as isize) + (options.interval as isize) * 7; } else { day_delta += -((weekday - options.wkst) as isize) + (options.interval as isize) * 7; } counter_date + Duration::days(day_delta as i64) } Frequenzy::DAILY => counter_date + Duration::days(options.interval as i64), _ => panic!("hfoashfosa"), } } pub fn includes(v: &Vec, el: &T) -> bool where T: PartialEq, { v.iter().any(|ve| ve == el) } pub fn not_empty(v: &Vec) -> bool { return v.len() > 0; } pub fn is_filtered(ii: &IterInfo, current_day: usize, options: &ParsedOptions) -> bool { println!( "Was filtered here: {}", (not_empty(&options.byweekno) && (ii.wnomask().unwrap()[current_day]) == 0) ); return (not_empty(&options.bymonth) && !includes(&options.bymonth, &ii.mmask().unwrap()[current_day])) || (not_empty(&options.byweekno) && (ii.wnomask().unwrap()[current_day]) == 0) || (not_empty(&options.byweekday) && !includes(&options.byweekday, &ii.wdaymask().unwrap()[current_day])) || (ii.nwdaymask().is_some() && not_empty(ii.nwdaymask().unwrap()) && (ii.nwdaymask().unwrap()[current_day]) == 0) || ((not_empty(&options.bymonthday) || not_empty(&options.bynmonthday)) && !includes(&options.bymonthday, &ii.mdaymask().unwrap()[current_day]) && !includes(&options.bynmonthday, &ii.nmdaymask().unwrap()[current_day])) || (not_empty(&options.byyearday) && ((current_day < ii.yearlen().unwrap() && !includes(&options.byyearday, &(current_day + 1)) && !includes( &options.byyearday.iter().map(|v| *v as isize).collect(), &(-(ii.yearlen().unwrap() as isize) + current_day as isize), )) || (current_day >= ii.yearlen().unwrap() && !includes( &options.byyearday, &(current_day + 1 - ii.yearlen().unwrap()), ) && !includes( &options.byyearday.iter().map(|v| *v as isize).collect(), &(-(ii.nextyearlen().unwrap() as isize) + current_day as isize - ii.yearlen().unwrap() as isize), )))); } pub fn remove_filtered_days( dayset: &mut Vec>, start: usize, end: usize, ii: &IterInfo, options: &ParsedOptions, ) -> bool { let mut filtered = false; for daycounter in start..end { let current_day = dayset[daycounter]; if current_day.is_none() { continue; } filtered = is_filtered(ii, current_day.unwrap() as usize, options); if filtered { dayset[daycounter] = None; } } filtered } pub fn build_timeset(options: &ParsedOptions) -> Vec