* refactor(store): convert singleton to Store.new() factory
Problem: store.lua used module-level _data singleton, making
project-local stores impossible and creating hidden global state.
Solution: introduce Store metatable with all operations as instance
methods. M.new(path) constructs an instance; M.resolve_path()
searches upward for .pending.json and falls back to
config.get().data_path. Singleton module API is removed.
* refactor(diff): accept store instance as parameter
Problem: diff.apply called store singleton methods directly, coupling
it to global state and preventing use with project-local stores.
Solution: change signature to apply(lines, s, hidden_ids?) where s is
a pending.Store instance. All store operations now go through s.
* refactor(buffer): add set_store/store accessors, drop singleton dep
Problem: buffer.lua imported store directly and called singleton
methods, preventing it from working with per-project store instances.
Solution: add module-level _store, M.set_store(s), and M.store()
accessors. open() and render() use _store instead of the singleton.
init.lua will call buffer.set_store(s) before buffer.open().
* refactor(complete,health,sync,plugin): update callers to store instance API
Problem: complete.lua, health.lua, sync/gcal.lua, and plugin/pending.lua
all called singleton store methods directly.
Solution: complete.lua uses buffer.store() for category lookups;
health.lua uses store.new(store.resolve_path()) and reports the
resolved path; gcal.lua calls require('pending').store() for task
access; plugin tab-completion creates ephemeral store instances via
store.new(store.resolve_path()). Add 'init' to the subcommands list.
* feat(init): thread Store instance through init, add :Pending init
Problem: init.lua called singleton store methods throughout, and there
was no way to create a project-local .pending.json file.
Solution: add module-level _store and private get_store() that
lazy-constructs via store.new(store.resolve_path()). Add public
M.store() accessor used by specs and sync backends. M.open() calls
buffer.set_store(get_store()) before buffer.open(). All store
callsites converted to get_store():method(). goto_file() and
add_here() derive the data directory from get_store().path.
Add M.init() which creates .pending.json in cwd and dispatches from
M.command() as ':Pending init'.
* test: update all specs for Store instance API
Problem: every spec used the old singleton API (store.unload(),
store.load(), store.add(), etc.) and diff.apply(lines, hidden).
Solution: lower-level specs (store, diff, views, complete, file) use
s = store.new(path); s:load() directly. Higher-level specs (archive,
edit, filter, status, sync) reset package.loaded['pending'] in
before_each and use pending.store() to access the live instance.
diff.apply calls updated to diff.apply(lines, s, hidden_ids).
* docs(pending): document :Pending init and store resolution
Add *pending-store-resolution* section explaining upward .pending.json
discovery and fallback to the global data_path. Document :Pending init
under COMMANDS. Add a cross-reference from the data_path config field.
* ci: format
* ci: remove unused variable
* feat(config): add recur_syntax and someday_date fields
Problem: the plugin needs configuration for the recurrence token name
and the sentinel date used by the `later`/`someday` named dates.
Solution: add `recur_syntax` (default 'rec') and `someday_date`
(default '9999-12-30') to pending.Config and the defaults table.
* feat(parse): expand date vocabulary with named dates
Problem: the date input only supports today, tomorrow, +Nd, and
weekday names, lacking relative offsets like weeks/months, period
boundaries, ordinals, month names, and backdating.
Solution: add yesterday, eod, sow/eow, som/eom, soq/eoq, soy/eoy,
+Nw, +Nm, -Nd, -Nw, ordinals (1st-31st), month names (jan-dec),
and later/someday to resolve_date(). Add tests for all new tokens.
* feat(recur): add recurrence parsing and next-date computation
Problem: the plugin has no concept of recurring tasks, which is
needed for habits and repeating deadlines.
Solution: add recur.lua with parse(), validate(), next_due(),
to_rrule(), and shorthand_list(). Supports named shorthands (daily,
weekdays, weekly, etc.), interval notation (Nd, Nw, Nm, Ny), raw
RRULE passthrough, and ! prefix for completion-based mode. Includes
day-clamping for month/year advancement.
* feat(store): add recur and recur_mode task fields
Problem: the task schema has no fields for storing recurrence rules.
Solution: add recur and recur_mode to the Task class, known_fields,
task_to_table, table_to_task, and the add() signature.
* feat(parse): add rec: inline token parsing
Problem: the buffer parser does not recognize recurrence tokens,
so users cannot set recurrence rules inline.
Solution: add recur_key() helper and rec: token parsing in body()
and command_add(), with ! prefix handling for completion-based mode
and validation via recur.validate().
* feat(diff): propagate recurrence through buffer reconciliation
Problem: the diff layer does not extract or apply recurrence fields,
so rec: tokens written in the buffer are silently ignored on :w.
Solution: add rec and rec_mode to ParsedEntry, extract them in
parse_buffer(), and pass them through create and update paths in
apply().
* feat(init): spawn next task on recurring task completion
Problem: completing a recurring task does not create the next
occurrence, and :Pending add does not pass recurrence fields.
Solution: in toggle_complete(), detect recurrence and spawn a new
pending task with the next due date. Wire rec/rec_mode through the
add() command path.
* feat(views): add recurrence to LineMeta
Problem: LineMeta does not carry recurrence info, so the buffer
layer cannot display recurrence indicators.
Solution: add recur field to LineMeta and populate it in both
category_view() and priority_view().
* feat(buffer): add PendingRecur highlight and recurrence virtual text
Problem: recurring tasks have no visual indicator in the buffer,
and the extmark logic uses a rigid if/elseif chain that does not
compose well with additional virtual text fields.
Solution: add PendingRecur highlight group linking to DiagnosticInfo.
Refactor apply_extmarks() to build virtual text parts dynamically,
appending category, recurrence indicator, and due date as separate
composable segments. Set omnifunc on the pending buffer.
* feat(complete): add omnifunc for cat:, due:, and rec: tokens
Problem: the pending buffer has no completion source, requiring
users to type metadata tokens from memory.
Solution: add complete.lua with an omnifunc that completes cat:
tokens from existing categories, due: tokens from the named date
vocabulary, and rec: tokens from recurrence shorthands.
* docs: document recurrence, expanded dates, omnifunc, new config
Problem: the vimdoc does not cover recurrence, expanded date syntax,
omnifunc completion, or the new config fields.
Solution: add DATE INPUT and RECURRENCE sections, update INLINE
METADATA, COMMANDS, CONFIGURATION, HIGHLIGHT GROUPS, HEALTH CHECK,
and DATA FORMAT. Expand the help popup with recurrence patterns and
new date tokens. Add recurrence validation to healthcheck.
* ci: fix
* fix(recur): resolve LuaLS type errors
Problem: LuaLS reported undefined-field for `_raw` on RecurSpec and
param-type-mismatch for `last_day.day` in `advance_date` because
`osdate.day` infers as `string|integer`.
Solution: Add `_raw` to the RecurSpec class annotation and cast
`last_day.day` to integer in both `math.min` call sites.
* refactor(init): remove help popup, use config-driven keymaps
Problem: Buffer-local keymaps were hardcoded with no way for users to
customize them. The g? help popup duplicated information already in the
vimdoc.
Solution: Remove show_help() and the g? mapping. Refactor
_setup_buf_mappings to read from cfg.keymaps, letting users override or
disable any buffer-local binding via vim.g.pending.
* feat(config): add keymaps table for buffer-local bindings
Problem: Users had no way to customize or disable buffer-local key
bindings in the pending buffer.
Solution: Add a pending.Keymaps class and keymaps field to
pending.Config with defaults for all eight buffer actions. Setting any
key to false disables that binding.
* feat(plugin): add Plug mappings for all buffer actions
Problem: Only five of nine buffer actions had <Plug> mappings, so users
could not bind close, undo, open-line, or open-line-above globally.
Solution: Add <Plug>(pending-close), <Plug>(pending-undo),
<Plug>(pending-open-line), and <Plug>(pending-open-line-above).
* docs: update mappings and config for keymaps and new Plug entries
Problem: Vimdoc still listed g? help popup, lacked documentation for
the four new <Plug> mappings, and had no keymaps config section.
Solution: Remove g? from mappings table, document all nine <Plug>
mappings, add keymaps table to the config example and field reference,
and note that buffer-local keys are configurable.
* refactor(config): change default category from Inbox to Todo
* refactor(views): adopt markdown checkbox line format
Problem: task lines used an opaque /ID/ [N] prefix format that was
hard to read and inconsistent between category and priority views.
Header lines had no visual marker distinguishing them from tasks.
Solution: render headers as '## Cat', task lines as
'/ID/- [x|!| ] description'. State encoding: [x]=done, [!]=urgent,
[ ]=pending. Both views use the same construction.
* refactor(diff): parse and reconcile markdown checkbox format
Problem: parse_buffer matched the old ' text' indent pattern and
detected headers via '^%S'. Priority was read from a '[N] ' prefix.
apply() never reconciled status changes written into the buffer.
Solution: match '- [.] text' for tasks and '^## ' for headers.
Extract state char to derive priority (! -> 1) and status (x -> done).
apply() now reconciles status from the buffer, setting/clearing 'end'
timestamps — enabling the oil-style edit-checkbox-then-:w workflow.
* refactor(buffer): update syntax, extmarks, and render for checkbox format
Problem: syntax patterns matched the old indent/[N] format; right_align
virtual text produced a broken layout in narrow windows; the done
strikethrough skipped past the ' ' indent leaving '- [x] ' unstyled;
render() added undo history entries so 'u' could undo a re-render.
Solution: update taskHeader/taskLine patterns for '## '/'- [.]'; rename
taskPriority -> taskCheckbox matching '[!]'; switch virt_text_pos to
'eol'; drop the +2 col_start offset so strikethrough covers '- [x] ';
guard nvim_buf_set_lines with undolevels=-1 so renders are not undoable.
Also fix open_line to insert '- [ ] ' and position cursor at col 6.
* refactor(init): replace multi-level priority with binary toggle
Problem: <C-a>/<C-x> overrode Vim's native number increment and the
visual g<C-a>/g<C-x> variants added complexity for marginal value.
toggle_complete() left the cursor on the wrong line after re-render.
Solution: remove change_priority/change_priority_visual; add
toggle_priority() (0<->1) mapped to '!', with cursor-follow after
render matching the pattern already used in priority toggle. Add
cursor-follow to toggle_complete() for the same reason. Update plugin
plugs (priority-up/down -> priority) and add 'due'/'undo' to the
:Pending completion list. Update help text accordingly.
* feat(buffer): reflect current view in buffer name
Problem: no way to tell at a glance which view (category vs priority)
is active — the buffer was always named 'pending://'.
Solution: update the buffer name to 'pending://category' or
'pending://priority' on every render, so the view is visible in
the statusline/tabline without any extra UI.
* test: add top-priority missing test coverage
Problem: several critical code paths had zero test coverage —
parse.resolve_date (relative date resolution), store.snapshot
(foundation of the undo stack), and the diff.apply invariant that
unchanged tasks do not get their modified timestamp bumped. The
diff.apply due/priority clearing paths were also untested.
Solution: add six targeted test blocks across parse_spec, store_spec,
and diff_spec: resolve_date happy/failure paths, parse.body with
relative due tokens, snapshot copy-semantics and deleted-task
exclusion, diff unchanged-modified invariant, due cleared on removal,
priority cleared on ! removal.
* test: add second batch of missing test coverage
Problem: six more gaps from the audit remained after the first batch —
archive persistence verification, diff modified-on-rename, parse_buffer
inline cat:/due: token parsing, and store.update immutability invariants.
Solution: add six it() blocks across archive_spec, diff_spec, and
store_spec: archive unload/reload persistence check, modified timestamp
updated on description change, inline cat: overrides header category,
inline due: token parsed from buffer line, id/entry fields immutable
under store.update, and end timestamp not overwritten on second
completion.
Problem: fc4a47a changed the priority display format from '! ' to
'[N] ' in views.lua and diff.lua but left two existing test
assertions and their descriptions using the old format, causing
both to fail.
Solution: update the input line in diff parse_buffer test, update
the expected string and description names in views category_view
test, and rename the diff.apply description to match the new idiom.
Problem: several critical code paths had zero test coverage —
parse.resolve_date (relative date resolution), store.snapshot
(foundation of the undo stack), and the diff.apply invariant that
unchanged tasks do not get their modified timestamp bumped. The
diff.apply due/priority clearing paths were also untested.
Solution: add six targeted test blocks across parse_spec, store_spec,
and diff_spec: resolve_date happy/failure paths, parse.body with
relative due tokens, snapshot copy-semantics and deleted-task
exclusion, diff unchanged-modified invariant, due cleared on removal,
priority cleared on ! removal.
Problem: need test coverage for core data operations, inline
metadata parsing, and buffer diff algorithm.
Solution: add busted specs for store CRUD, round-trip
preservation, parse body/command_add with configurable date
syntax, and diff create/delete/update/copy/move operations.
