159 lines
8.1 KiB
Swift
159 lines
8.1 KiB
Swift
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import XCTest
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@testable import KisaniCal
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/// Calendar correctness tests. These treat the month grid as a data-integrity concern:
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/// every cell must be a real date, columns must respect firstWeekday, and the weekday
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/// header must match the grid for any firstWeekday and timezone.
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final class CalendarGridTests: XCTestCase {
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private func makeCalendar(firstWeekday: Int, tz: String) -> Calendar {
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var c = Calendar(identifier: .gregorian)
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c.timeZone = TimeZone(identifier: tz)!
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c.firstWeekday = firstWeekday
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return c
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}
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private func iso(_ date: Date, _ cal: Calendar) -> String {
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let c = cal.dateComponents([.year, .month, .day], from: date)
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return String(format: "%04d-%02d-%02d", c.year!, c.month!, c.day!)
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}
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private func date(_ y: Int, _ m: Int, _ d: Int, _ cal: Calendar) -> Date {
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cal.date(from: DateComponents(year: y, month: m, day: d))!
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}
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private let timezones = ["America/New_York", "Europe/London", "Pacific/Kiritimati", "UTC"]
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// MARK: - Ground-truth weekday facts
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func testJune2026WeekdayFacts() {
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for tz in timezones {
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let cal = makeCalendar(firstWeekday: 1, tz: tz)
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let f = DateFormatter(); f.calendar = cal; f.timeZone = cal.timeZone; f.dateFormat = "EEEE"
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XCTAssertEqual(f.string(from: date(2026, 6, 1, cal)), "Monday", tz)
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XCTAssertEqual(f.string(from: date(2026, 6, 7, cal)), "Sunday", tz)
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XCTAssertEqual(f.string(from: date(2026, 6, 24, cal)), "Wednesday", tz)
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XCTAssertEqual(f.string(from: date(2026, 6, 27, cal)), "Saturday", tz)
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XCTAssertEqual(f.string(from: date(2026, 6, 30, cal)), "Tuesday", tz)
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XCTAssertEqual(f.string(from: date(2026, 7, 1, cal)), "Wednesday", tz)
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}
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}
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// MARK: - Sunday-first June 2026 grid matches the exact spec
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func testSundayFirstJune2026GridMatchesSpec() {
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let expected = [
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"2026-05-31","2026-06-01","2026-06-02","2026-06-03","2026-06-04","2026-06-05","2026-06-06",
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"2026-06-07","2026-06-08","2026-06-09","2026-06-10","2026-06-11","2026-06-12","2026-06-13",
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"2026-06-14","2026-06-15","2026-06-16","2026-06-17","2026-06-18","2026-06-19","2026-06-20",
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"2026-06-21","2026-06-22","2026-06-23","2026-06-24","2026-06-25","2026-06-26","2026-06-27",
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"2026-06-28","2026-06-29","2026-06-30","2026-07-01","2026-07-02","2026-07-03","2026-07-04",
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]
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for tz in timezones {
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let cal = makeCalendar(firstWeekday: 1, tz: tz)
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let grid = CalendarGrid.monthGrid(for: date(2026, 6, 15, cal), calendar: cal)
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XCTAssertEqual(grid.map { iso($0, cal) }, expected, "Sunday-first grid wrong in \(tz)")
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XCTAssertEqual(grid.count % 7, 0, "grid must be whole weeks")
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}
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}
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// MARK: - Header always matches grid (the actual bug)
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func testHeaderMatchesGridFirstColumnForAnyFirstWeekday() {
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for tz in timezones {
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for fw in 1...7 {
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let cal = makeCalendar(firstWeekday: fw, tz: tz)
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let grid = CalendarGrid.monthGrid(for: date(2026, 6, 15, cal), calendar: cal)
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let header = CalendarGrid.weekdaySymbols(calendar: cal)
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let letters = ["S","M","T","W","T","F","S"] // weekday 1...7
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for col in 0..<7 {
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let weekday = cal.component(.weekday, from: grid[col]) // 1=Sun..7=Sat
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XCTAssertEqual(header[col], letters[weekday - 1],
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"col \(col) header \(header[col]) != grid weekday \(weekday) (fw=\(fw), tz=\(tz))")
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}
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}
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}
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}
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func testHeaderRotations() {
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let sun = makeCalendar(firstWeekday: 1, tz: "UTC")
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let mon = makeCalendar(firstWeekday: 2, tz: "UTC")
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XCTAssertEqual(CalendarGrid.weekdaySymbols(calendar: sun), ["S","M","T","W","T","F","S"])
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XCTAssertEqual(CalendarGrid.weekdaySymbols(calendar: mon), ["M","T","W","T","F","S","S"])
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}
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// MARK: - Cell date identity
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func testCellIdentityIsRealDate() {
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let cal = makeCalendar(firstWeekday: 1, tz: "America/New_York")
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let grid = CalendarGrid.monthGrid(for: date(2026, 6, 1, cal), calendar: cal)
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// June 24 must be a Wednesday and the 25th element (index 24) in the spec grid.
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let june24 = grid.first { cal.isDate($0, inSameDayAs: date(2026, 6, 24, cal)) }
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XCTAssertNotNil(june24)
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XCTAssertEqual(cal.component(.weekday, from: june24!), 4) // Wednesday
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// No duplicate dates, strictly increasing by one day.
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for i in 1..<grid.count {
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XCTAssertEqual(cal.dateComponents([.day], from: grid[i-1], to: grid[i]).day, 1)
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}
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}
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// MARK: - Month navigation
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func testMonthNavigationBoundaries() {
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let cal = makeCalendar(firstWeekday: 1, tz: "UTC")
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// Dec 2026 -> trails into Jan 2027
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let dec = CalendarGrid.monthGrid(for: date(2026, 12, 10, cal), calendar: cal).map { iso($0, cal) }
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XCTAssertTrue(dec.contains("2027-01-01"))
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XCTAssertEqual(dec.first, "2026-11-29")
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// Feb 2026 (non-leap): contains Feb 28, not Feb 29
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let feb26 = CalendarGrid.monthGrid(for: date(2026, 2, 10, cal), calendar: cal).map { iso($0, cal) }
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XCTAssertTrue(feb26.contains("2026-02-28"))
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XCTAssertFalse(feb26.contains("2026-02-29"))
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// Feb 2028 (leap): contains Feb 29
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let feb28 = CalendarGrid.monthGrid(for: date(2028, 2, 10, cal), calendar: cal).map { iso($0, cal) }
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XCTAssertTrue(feb28.contains("2028-02-29"))
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// May & July 2026 endpoints
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let may = CalendarGrid.monthGrid(for: date(2026, 5, 10, cal), calendar: cal).map { iso($0, cal) }
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XCTAssertTrue(may.contains("2026-05-01") && may.contains("2026-05-31"))
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let jul = CalendarGrid.monthGrid(for: date(2026, 7, 10, cal), calendar: cal).map { iso($0, cal) }
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XCTAssertTrue(jul.contains("2026-07-01") && jul.contains("2026-07-31"))
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}
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// MARK: - Event-day bucketing (same logic CalendarStore.events(for:) uses)
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/// Mirrors CalendarStore.events(for:) overlap test: s < endOfDay && e > startOfDay.
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private func overlaps(start: Date, end: Date, day: Date, cal: Calendar) -> Bool {
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let dayStart = cal.startOfDay(for: day)
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let dayEnd = cal.date(byAdding: .day, value: 1, to: dayStart)!
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return start < dayEnd && end > dayStart
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}
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func testAllDayEventMapsToSingleLocalDay() {
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let cal = makeCalendar(firstWeekday: 1, tz: "America/New_York")
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// All-day June 24: [Jun24 00:00, Jun25 00:00)
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let s = cal.startOfDay(for: date(2026, 6, 24, cal))
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let e = cal.date(byAdding: .day, value: 1, to: s)!
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XCTAssertTrue(overlaps(start: s, end: e, day: date(2026, 6, 24, cal), cal: cal))
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XCTAssertFalse(overlaps(start: s, end: e, day: date(2026, 6, 23, cal), cal: cal))
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XCTAssertFalse(overlaps(start: s, end: e, day: date(2026, 6, 25, cal), cal: cal))
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}
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func testLateNightTimedEventStaysOnLocalDay() {
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let cal = makeCalendar(firstWeekday: 1, tz: "America/New_York")
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// 11:30pm–11:45pm local on June 24 — must not bleed into the 25th.
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let s = cal.date(from: DateComponents(year: 2026, month: 6, day: 24, hour: 23, minute: 30))!
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let e = cal.date(from: DateComponents(year: 2026, month: 6, day: 24, hour: 23, minute: 45))!
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XCTAssertTrue(overlaps(start: s, end: e, day: date(2026, 6, 24, cal), cal: cal))
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XCTAssertFalse(overlaps(start: s, end: e, day: date(2026, 6, 25, cal), cal: cal))
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}
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func testEventCrossingMidnightHitsBothDays() {
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let cal = makeCalendar(firstWeekday: 1, tz: "America/New_York")
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let s = cal.date(from: DateComponents(year: 2026, month: 6, day: 24, hour: 23, minute: 30))!
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let e = cal.date(from: DateComponents(year: 2026, month: 6, day: 25, hour: 0, minute: 30))!
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XCTAssertTrue(overlaps(start: s, end: e, day: date(2026, 6, 24, cal), cal: cal))
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XCTAssertTrue(overlaps(start: s, end: e, day: date(2026, 6, 25, cal), cal: cal))
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XCTAssertFalse(overlaps(start: s, end: e, day: date(2026, 6, 23, cal), cal: cal))
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}
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}
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