Paolo Donadeo
4945606421
- Add `simple_weekly` type and `weekly` field to `rem` record
- Add `exdate` field to `rem` for excluded dates
- Add `collect_exdates` collector to pipeline
- implement weekly `RRULE` handling with `BYDAY`, `INTERVAL`,
`COUNT`/`UNTIL`
- Add `render_weekly` to emit one `REM` per weekday with `UNTIL`/`*N`
- Replace `timedesc_of_date_or_datetime` with
`timedesc_of_utc_or_timestamp_local` in utils
- Refactor `get_exdates`/`get_rdates` to separate dates, datetimes and
periods; add debug logging per UID
- Wrap reminder output in try/catch in main; drop trailing newline
duplication
- Mark implemented predicates (P00–P05, P09, P12, P14) with ✅;
remove P18–P20 (ignored/deferred)
175 lines
6.2 KiB
OCaml
175 lines
6.2 KiB
OCaml
open Remind_sync
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open Icalendar
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type months = Jan | Feb | Mar | Apr | May | Jun | Jul | Aug | Sep | Oct | Nov | Dec
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let string_of_weekday = function
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| `Monday -> "Mon"
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| `Tuesday -> "Tue"
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| `Wednesday -> "Wed"
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| `Thursday -> "Thu"
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| `Friday -> "Fri"
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| `Saturday -> "Sat"
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| `Sunday -> "Sun"
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let month_of_int = function
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| 1 -> Jan
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| 2 -> Feb
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| 3 -> Mar
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| 4 -> Apr
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| 5 -> May
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| 6 -> Jun
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| 7 -> Jul
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| 8 -> Aug
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| 9 -> Sep
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| 10 -> Oct
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| 11 -> Nov
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| 12 -> Dec
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| _ -> failwith "Invalid month number"
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let string_of_month = function
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| Jan -> "Jan"
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| Feb -> "Feb"
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| Mar -> "Mar"
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| Apr -> "Apr"
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| May -> "May"
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| Jun -> "Jun"
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| Jul -> "Jul"
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| Aug -> "Aug"
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| Sep -> "Sep"
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| Oct -> "Oct"
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| Nov -> "Nov"
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| Dec -> "Dec"
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let spf = Printf.sprintf
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let get_uid ev =
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let _, uid = ev.uid in
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uid
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(* Questa funzione serve solo da esempio per copia e incolla *)
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let unpack_date_or_datetime (d_or_dt : Icalendar.date_or_datetime) =
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match d_or_dt with
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| `Datetime (`Local _ptime_ts) -> ()
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| `Datetime (`Utc _ts) -> ()
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| `Datetime (`With_tzid (_ts, (_b, _tz_name))) -> ()
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| `Date (_year, _month, _day) -> ()
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(* Questa funzione serve solo da esempio per copia e incolla *)
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let unpack_dtend_or_duration dtend_or_dur =
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match dtend_or_dur with
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| None -> ()
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| Some (`Dtend (_, date_or_datetime)) -> unpack_date_or_datetime date_or_datetime
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| Some (`Duration (_, _duration)) -> ()
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let string_of_time (t : Timedesc.Time.t) : string =
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let view = Timedesc.Time.view t in
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let hour, minute = (view.Timedesc.Time.hour, view.Timedesc.Time.minute) in
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spf "%02d:%02d" hour minute
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let string_of_span (sp : Timedesc.Span.t) : string =
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let view = Timedesc.Span.For_human.view sp in
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let hours, minutes = (view.Timedesc.Span.For_human.hours, view.Timedesc.Span.For_human.minutes) in
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spf "%02d:%02d" hours minutes
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let timedesc_of_timestamp (ts : timestamp) : Timedesc.t =
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let local_tz = Timedesc.Time_zone.local_exn () in
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match ts with
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| `Local t -> t |> Timedesc.Utils.timestamp_of_ptime |> Timedesc.of_timestamp_exn ~tz_of_date_time:local_tz
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(* this case is not present in my current dataset… *)
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| `Utc t -> t |> Timedesc.Utils.timestamp_of_ptime |> Timedesc.of_timestamp_exn ~tz_of_date_time:local_tz
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| `With_tzid (ts, (_b, tz_name)) ->
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(* Qui il timestamp è SCRITTO come se fosse UTC (+00:00) ma in realtà va interpretato con
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il fuso orario indicato da tz_name. *)
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let tz = Timedesc.Time_zone.make_exn tz_name in
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let wrong_ts = Timedesc.Utils.timestamp_of_ptime ts in
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let date = Timedesc.date (Timedesc.of_timestamp_exn ~tz_of_date_time:Timedesc.Time_zone.utc wrong_ts) in
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let year, month, day = (Timedesc.Date.year date, Timedesc.Date.month date, Timedesc.Date.day date) in
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let time = Timedesc.time_view (Timedesc.of_timestamp_exn ~tz_of_date_time:Timedesc.Time_zone.utc wrong_ts) in
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let hour, minute, second = (time.Timedesc.Time.hour, time.Timedesc.Time.minute, time.Timedesc.Time.second) in
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Timedesc.make_exn ~year ~month ~day ~hour ~minute ~second ~tz ()
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let timedesc_of_utc_or_timestamp_local (ts : utc_or_timestamp_local) : Timedesc.t =
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let local_tz = Timedesc.Time_zone.local_exn () in
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match ts with
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| `Local t -> t |> Timedesc.Utils.timestamp_of_ptime |> Timedesc.of_timestamp_exn ~tz_of_date_time:local_tz
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(* this case is not present in my current dataset… *)
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| `Utc t -> t |> Timedesc.Utils.timestamp_of_ptime |> Timedesc.of_timestamp_exn ~tz_of_date_time:local_tz
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let get_exdates ev =
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let uid = get_uid ev in
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let event_props = ev.props in
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let dates_or_datetimes =
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List.filter_map
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(fun prop ->
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match prop with
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| `Exdate (_, dates) -> Some dates
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| _ -> None)
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event_props
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in
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let datetimes, dates =
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ListLabels.fold_left ~init:([], []) dates_or_datetimes ~f:(fun (acc_datetimes, acc_dates) dates ->
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match dates with
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| `Dates date_list -> (acc_datetimes, acc_dates @ date_list)
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| `Datetimes ts_list -> (acc_datetimes @ ts_list, acc_dates))
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in
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if List.length dates > 0 then Printf.eprintf "Found EXDATE with dates: %d entries; UID: %s\n" (List.length dates) uid;
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if List.length datetimes > 0 then
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Printf.eprintf "Found EXDATE with datetimes: %d entries; UID: %s\n" (List.length datetimes) uid;
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List.map (fun d -> `Date d) dates @ List.map (fun dt -> `Datetime dt) datetimes
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let get_rdates ev =
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let uid = get_uid ev in
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let event_props = ev.props in
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let dates_or_datetimes_or_periods =
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List.filter_map
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(fun prop ->
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match prop with
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| `Rdate (_, x) -> Some x
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| _ -> None)
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event_props
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in
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let datetimes, dates, periods =
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ListLabels.fold_left ~init:([], [], []) dates_or_datetimes_or_periods
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~f:(fun (acc_datetimes, acc_dates, acc_periods) dates ->
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match dates with
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| `Dates date_list -> (acc_datetimes, acc_dates @ date_list, acc_periods)
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| `Datetimes ts_list -> (acc_datetimes @ ts_list, acc_dates, acc_periods)
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| `Periods period_list -> (acc_datetimes, acc_dates, acc_periods @ period_list))
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in
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if List.length dates > 0 then Printf.eprintf "Found RDATE with dates: %d entries; UID: %s\n" (List.length dates) uid;
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if List.length datetimes > 0 then
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Printf.eprintf "Found RDATE with datetimes: %d entries; UID: %s\n" (List.length datetimes) uid;
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if List.length periods > 0 then
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Printf.eprintf "Found RDATE with periods: %d entries; UID: %s\n" (List.length periods) uid;
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[]
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let get_recurrence_id ev =
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List.find_map
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(fun prop ->
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match prop with
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| `Recur_id (_, date_or_datetime) -> Some date_or_datetime
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| _ -> None)
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ev.props
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let separate_master_and_recurrence (events : Icalendar.event list) : Icalendar.event * Icalendar.event list =
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(* List.iteri (fun i e -> Printf.eprintf "%02d: %s\n" (i + 1) (Icalendar.show_component (`Event e))) events; *)
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let recur_ids = List.map (fun ev -> (ev, get_recurrence_id ev)) events in
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let master_and_recurrences =
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List.partition_map
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(fun (ev, recur_id_opt) ->
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match recur_id_opt with
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| None -> Right ev
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| Some _ -> Left ev)
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recur_ids
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in
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match master_and_recurrences with
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| [], _ -> failwith "No master event found"
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| master :: _, recurrences -> (master, recurrences)
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