export {}; // JST offset from UTC in minutes (UTC+9) const jstOffsetMinutes = 9 * 60; type ParsedBroadcast = { day: string; hour: number; minute: number; }; const parseBroadcastTime = (value: string | null): { hour: number; minute: number } | null => { if (!value || typeof value !== 'string') { return null; } const match = value.trim().match(/^(\d{1,2}):(\d{2})$/); if (!match) { return null; } const hour = Number.parseInt(match[1], 10); const minute = Number.parseInt(match[2], 10); // validate ranges if ( Number.isNaN(hour) || Number.isNaN(minute) || hour < 0 || hour > 23 || minute < 0 || minute > 59 ) { return null; } return { hour, minute }; }; const isJstTimezone = (timezone: string | null): boolean => { if (!timezone) { return true; // treat missing timezone as JST (anime default) } const normalized = timezone.trim().toLowerCase(); return normalized === 'asia/tokyo' || normalized === 'jst'; }; const parseFromStructuredAttrs = (node: Element): ParsedBroadcast | null => { const day = node.getAttribute('data-broadcast-day'); const time = node.getAttribute('data-broadcast-time'); const timezone = node.getAttribute('data-broadcast-timezone'); if (!day || !time || !isJstTimezone(timezone)) { return null; } const parsedTime = parseBroadcastTime(time); if (!parsedTime) { return null; } return { day: day.trim(), hour: parsedTime.hour, minute: parsedTime.minute }; }; const parseBroadcast = (text: string | null): ParsedBroadcast | null => { if (!text || typeof text !== 'string') { return null; } // matches "Monday at 00:00 (JST)" format const match = text.match(/^(.*) at (\d{1,2}):(\d{2}) \(JST\)$/i); if (!match) { return null; } const day = match[1].trim(); const hour = Number.parseInt(match[2], 10); const minute = Number.parseInt(match[3], 10); if (Number.isNaN(hour) || Number.isNaN(minute)) { return null; } if (hour < 0 || hour > 23 || minute < 0 || minute > 59) { return null; } return { day, hour, minute }; }; const normalizeDay = (day: string): number | null => { // strip trailing 's' for plural forms, then lookup const key = day.trim().toLowerCase().replace(/s$/, ''); const days: Record = { mon: 1, monday: 1, tue: 2, tues: 2, tuesday: 2, wed: 3, wednesday: 3, thu: 4, thur: 4, thurs: 4, thursday: 4, fri: 5, friday: 5, sat: 6, saturday: 6, sun: 0, sunday: 0, }; if (typeof days[key] !== 'number') { return null; } return days[key]; }; const convertToLocal = (parsed: ParsedBroadcast, localOffsetMinutes: number): string | null => { const sourceMinutes = parsed.hour * 60 + parsed.minute; const diff = jstOffsetMinutes - localOffsetMinutes; // JST ahead of local const localTotal = sourceMinutes - diff; const dayShift = Math.floor(localTotal / 1440); const normalizedMinutes = ((localTotal % 1440) + 1440) % 1440; // handle negatives const localHour = Math.floor(normalizedMinutes / 60); const localMinute = normalizedMinutes % 60; const sourceDayIndex = normalizeDay(parsed.day); if (sourceDayIndex === null) { return null; } const localDayIndex = (((sourceDayIndex + dayShift) % 7) + 7) % 7; // proper modulo const localDay = ['Sunday', 'Monday', 'Tuesday', 'Wednesday', 'Thursday', 'Friday', 'Saturday'][ localDayIndex ]; const time = `${localHour.toString().padStart(2, '0')}:${localMinute.toString().padStart(2, '0')}`; return `${localDay} at ${time} (Local)`; }; const nextAiringUTC = (parsed: ParsedBroadcast): Date | null => { const targetDay = normalizeDay(parsed.day); if (targetDay === null) { return null; } // convert local time to JST to compare against JST now const now = new Date(); const jstNow = new Date(now.getTime() + jstOffsetMinutes * 60 * 1000); const currentDay = jstNow.getUTCDay(); const currentMinuteOfDay = jstNow.getUTCHours() * 60 + jstNow.getUTCMinutes(); const targetMinuteOfDay = parsed.hour * 60 + parsed.minute; let dayDelta = (targetDay - currentDay + 7) % 7; // if same day but time has passed, schedule for next week if (dayDelta === 0 && targetMinuteOfDay <= currentMinuteOfDay) { dayDelta = 7; } const minuteDelta = dayDelta * 1440 + (targetMinuteOfDay - currentMinuteOfDay); return new Date(now.getTime() + minuteDelta * 60 * 1000); }; const formatRelative = (value: number, unit: Intl.RelativeTimeFormatUnit): string => { // Intl.RelativeTimeFormat not available in all environments if (typeof Intl !== 'undefined' && typeof Intl.RelativeTimeFormat === 'function') { const formatter = new Intl.RelativeTimeFormat(undefined, { numeric: 'auto' }); return formatter.format(value, unit); } // fallback: "in X minutes/hours/days" const suffix = value === 1 ? unit : `${unit}s`; return `in ${value} ${suffix}`; }; const relativeText = (target: Date): string => { const diffMs = target.getTime() - Date.now(); if (diffMs <= 0) { return 'soon'; } const minutes = Math.ceil(diffMs / 60000); if (minutes < 60) { return formatRelative(minutes, 'minute'); } const hours = Math.ceil(minutes / 60); if (hours < 36) { return formatRelative(hours, 'hour'); } const days = Math.ceil(hours / 24); return formatRelative(days, 'day'); }; const localDateTimeText = (date: Date): string => { const formatter = new Intl.DateTimeFormat(undefined, { weekday: 'short', hour: '2-digit', minute: '2-digit', }); return formatter.format(date); }; const updateNextAiring = (node: Element, parsed: ParsedBroadcast): void => { const card = node.closest('[data-notification-content]'); if (!card) { return; } const nextNode = card.querySelector('[data-next-airing]'); if (!(nextNode instanceof HTMLElement)) { return; } const nextDate = nextAiringUTC(parsed); if (!nextDate) { nextNode.remove(); return; } nextNode.textContent = `Next episode ${relativeText(nextDate)} (${localDateTimeText(nextDate)})`; }; const updateNode = (node: Element, localOffsetMinutes: number): void => { const card = node.closest('[data-notification-content]'); const nextNode = card ? card.querySelector('[data-next-airing]') : null; // try structured attrs first, fall back to text parsing const structured = parseFromStructuredAttrs(node); const source = node.getAttribute('data-jst-text'); const parsed = structured || parseBroadcast(source); if (!parsed) { if (nextNode instanceof HTMLElement) { nextNode.remove(); } return; } const converted = convertToLocal(parsed, localOffsetMinutes); if (!converted) { if (nextNode instanceof HTMLElement) { nextNode.remove(); } return; } node.textContent = converted; updateNextAiring(node, parsed); }; const updateAll = (): void => { const localOffsetMinutes = -new Date().getTimezoneOffset(); const nodes = document.querySelectorAll('[data-jst-text]'); nodes.forEach(node => updateNode(node, localOffsetMinutes)); }; const initTimezoneConversion = (): void => { // run on initial load and after htmx swaps (content may change) document.addEventListener('DOMContentLoaded', updateAll); document.body.addEventListener('htmx:afterSwap', updateAll); }; initTimezoneConversion();