import dayjs, { Dayjs } from "@calcom/dayjs"; import { WorkingHours } from "@calcom/types/schedule"; import { getWorkingHours } from "./availability"; export type GetSlots = { inviteeDate: Dayjs; frequency: number; workingHours: WorkingHours[]; minimumBookingNotice: number; eventLength: number; }; export type WorkingHoursTimeFrame = { startTime: number; endTime: number }; /** * TODO: What does this function do? * Why is it needed? */ const splitAvailableTime = ( startTimeMinutes: number, endTimeMinutes: number, frequency: number, eventLength: number ): Array => { let initialTime = startTimeMinutes; const finalizationTime = endTimeMinutes; const result = [] as Array; while (initialTime < finalizationTime) { const periodTime = initialTime + frequency; const slotEndTime = initialTime + eventLength; /* check if the slot end time surpasses availability end time of the user 1 minute is added to round up the hour mark so that end of the slot is considered in the check instead of x9 eg: if finalization time is 11:59, slotEndTime is 12:00, we ideally want the slot to be available */ if (slotEndTime <= finalizationTime + 1) result.push({ startTime: initialTime, endTime: periodTime }); initialTime += frequency; } return result; }; const getSlots = ({ inviteeDate, frequency, minimumBookingNotice, workingHours, eventLength }: GetSlots) => { // current date in invitee tz const startDate = dayjs().add(minimumBookingNotice, "minute"); const startOfDayUTC = dayjs.utc().startOf("day"); const startOfInviteeDay = inviteeDate.startOf("day"); // checks if the start date is in the past /** * TODO: change "day" for "hour" to stop displaying 1 day before today * This is displaying a day as available as sometimes difference between two dates is < 24 hrs. * But when doing timezones an available day for an owner can be 2 days available in other users tz. * * */ if (inviteeDate.isBefore(startDate, "day")) { return []; } const workingHoursUTC = workingHours.map((schedule) => ({ days: schedule.days, startTime: /* Why? */ startOfDayUTC.add(schedule.startTime, "minute"), endTime: /* Why? */ startOfDayUTC.add(schedule.endTime, "minute"), })); const localWorkingHours = getWorkingHours({ utcOffset: -inviteeDate.utcOffset() }, workingHoursUTC).filter( (hours) => hours.days.includes(inviteeDate.day()) ); const slots: Dayjs[] = []; const slotsTimeFrameAvailable = [] as Array; // Here we split working hour in chunks for every frequency available that can fit in whole working hours const computedLocalWorkingHours: WorkingHoursTimeFrame[] = []; let tempComputeTimeFrame: WorkingHoursTimeFrame | undefined; const computeLength = localWorkingHours.length - 1; const makeTimeFrame = (item: typeof localWorkingHours[0]): WorkingHoursTimeFrame => ({ startTime: item.startTime, endTime: item.endTime, }); localWorkingHours.forEach((item, index) => { if (!tempComputeTimeFrame) { tempComputeTimeFrame = makeTimeFrame(item); } else { // please check the comment in splitAvailableTime func for the added 1 minute if (tempComputeTimeFrame.endTime + 1 === item.startTime) { // to deal with time that across the day, e.g. from 11:59 to to 12:01 tempComputeTimeFrame.endTime = item.endTime; } else { computedLocalWorkingHours.push(tempComputeTimeFrame); tempComputeTimeFrame = makeTimeFrame(item); } } if (index == computeLength) { computedLocalWorkingHours.push(tempComputeTimeFrame); } }); computedLocalWorkingHours.forEach((item) => { slotsTimeFrameAvailable.push(...splitAvailableTime(item.startTime, item.endTime, frequency, eventLength)); }); slotsTimeFrameAvailable.forEach((item) => { const slot = startOfInviteeDay.add(item.startTime, "minute"); // Validating slot its not on the past if (!slot.isBefore(startDate)) { slots.push(slot); } }); const uniq = (a: Dayjs[]) => { const seen: Record = {}; return a.filter((item) => { return seen.hasOwnProperty(item.format()) ? false : (seen[item.format()] = true); }); }; return uniq(slots); }; export default getSlots;