/////////////////////////////////////////////////////////////////////
////schedule(time, nameOfFunction as String)
def schedule(String time, String nameOfFunction) {
- //def _inputTime = time.split(':')
- //Date date = new Date()
- //def _currentTime = date.format("HH:mm:ss").split(':')
+ /*def _inputTime = time.split(':')
+ Date date = new Date()
+ def _currentTime = date.format("HH:mm:ss").split(':')
- //Convert input time and current time to minutes
- //def inputTime = Integer.parseInt(_inputTime[0])*3600+Integer.parseInt(_inputTime[1])*60
- //def currentTime = Integer.parseInt(_currentTime[0])*3600+Integer.parseInt(_currentTime[1])*60+Integer.parseInt(_currentTime[2])
- //def delay
-
- //if (inputTime < currentTime) {
- // delay = 24*60*60-inputTime+currentTime
- //} else {
- // delay = inputTime-currentTime
- //}
+ Convert input time and current time to minutes
+ def inputTime = Integer.parseInt(_inputTime[0])*3600+Integer.parseInt(_inputTime[1])*60
+ def currentTime = Integer.parseInt(_currentTime[0])*3600+Integer.parseInt(_currentTime[1])*60+Integer.parseInt(_currentTime[2])
+ def delay
+ if (inputTime < currentTime) {
+ delay = 24*60*60-inputTime+currentTime
+ } else {
+ delay = inputTime-currentTime
+ }
timersFuncList.add(nameOfFunction)
timersList.add(new SimulatedTimer())
- def task = timersList[timersFuncList.indexOf(nameOfFunction)].runAfter(/*delay*1000*0*/0) {
+ def task = timersList[timersFuncList.indexOf(nameOfFunction)].runAfter(delay*1000*0) {
"$nameOfFunction"()
- }
+ }*/
+ "$nameOfFunction"()
}
////schedule(time, nameOfFunction as Closure)
def schedule(String time, Closure nameOfFunction) {
- //def _inputTime = time.split(':')
- //Date date = new Date()
- //def _currentTime = date.format("HH:mm:ss").split(':')
+ /*def _inputTime = time.split(':')
+ Date date = new Date()
+ def _currentTime = date.format("HH:mm:ss").split(':')
- //Convert input time and current time to minutes
- //def inputTime = Integer.parseInt(_inputTime[0])*3600+Integer.parseInt(_inputTime[1])*60
- //def currentTime = Integer.parseInt(_currentTime[0])*3600+Integer.parseInt(_currentTime[1])*60+Integer.parseInt(_currentTime[2])
- //def delay
+ Convert input time and current time to minutes
+ def inputTime = Integer.parseInt(_inputTime[0])*3600+Integer.parseInt(_inputTime[1])*60
+ def currentTime = Integer.parseInt(_currentTime[0])*3600+Integer.parseInt(_currentTime[1])*60+Integer.parseInt(_currentTime[2])
+ def delay
- //if (inputTime < currentTime) {
- // delay = 24*60*60-inputTime+currentTime
- //} else {
- // delay = inputTime-currentTime
- //}
+ if (inputTime < currentTime) {
+ delay = 24*60*60-inputTime+currentTime
+ } else {
+ delay = inputTime-currentTime
+ }
if (timersFuncList.contains(nameOfFunction)) {
timersList[timersFuncList.indexOf(nameOfFunction)].cancel()
- def task = timersList[timersFuncList.indexOf(nameOfFunction)].runAfter(/*delay*0*/0, nameOfFunction0)
+ def task = timersList[timersFuncList.indexOf(nameOfFunction)].runAfter(0, nameOfFunction)
} else {
timersFuncList.add(nameOfFunction)
timersList.add(new SimulatedTimer())
- def task = timersList[timersFuncList.indexOf(nameOfFunction)].runAfter(/*delay*0*/0, nameOfFunction)
- }
+ def task = timersList[timersFuncList.indexOf(nameOfFunction)].runAfter(0, nameOfFunction)
+ }*/
+ nameOfFunction()
}