1.7 KiB
Starter Architecture Notes
Initial architecture decision
Start as a pure Dart scheduling-core package. Do not begin with UI. The scheduling rules are the hardest and most important part of the product, and they should be testable without a Flutter app running.
Future shape
Flutter UI
↓
View/application state
↓
Pure Dart scheduling core
↓
Repository interfaces
↓
MongoDB persistence adapter (planned later)
↓
Future sync layer, if explicitly planned
Why pure Dart first
- Easier to test scheduling rules.
- Less UI noise for Codex.
- Cleaner migration into Flutter later.
- Avoids premature sync/background complexity.
Key invariant
The scheduling core must never move locked or inflexible blocks during automatic rescheduling.
Flexible end-of-day rollover should use an explicit source-day window when available. That prevents planned flexible tasks from future days from being pulled into tomorrow during recovery.
Backlog staleness in the current V1 domain model uses task creation age for both the stale filter and green/blue/purple marker. A later MongoDB-backed persistence pass may add a separate backlog-entered timestamp, but the current core keeps the timestamp semantics consistent and database-independent.
Persistence direction
MongoDB is the committed persistence target. The V1 scheduling core should still remain persistence-independent and testable without a running database. Repository interfaces should be designed so a later MongoDB adapter can persist document-shaped models without importing MongoDB APIs into scheduling logic.
Do not add alternative database assumptions to this project unless the product owner explicitly changes the persistence decision.