# DECISIONS This document records major architectural and product decisions made during the development of Sapling. The goal is to preserve context and reasoning behind decisions so future contributors can understand why a particular approach was chosen. --- # D-001 — Sapling Is Local-First Date: 2025-08 Status: Accepted ## Decision Sapling will be a local-first application. All user content lives on the local filesystem. No Sapling-managed cloud service will be required. ## Rationale Users should own their data. Files must remain accessible outside of Sapling. The application should continue functioning without network connectivity. ## Consequences Positive: - No vendor lock-in - Offline support - Simpler privacy story - Easier long-term maintenance Negative: - No built-in synchronization - Collaboration relies on Git workflows --- # D-002 — Git Is Infrastructure, Not the Product Date: 2025-08 Status: Accepted ## Decision Git will be a first-class capability but not the primary user-facing concept. The editor and workspace experience take precedence over Git terminology. ## Rationale Most users want versioning benefits without learning Git internals. Sapling should remain approachable to writers, researchers, and knowledge workers. ## Consequences User interfaces should prefer language such as: - Snapshot - Changes - History over: - Commit - Staging - Reflog Advanced Git functionality will remain available. --- # D-003 — Projects Are Git Repositories Date: 2025-08 Status: Accepted ## Decision Every Sapling project corresponds directly to a Git repository. No custom repository format will be introduced. ## Rationale Git repositories are portable and understood by existing tooling. Users should be able to move between Sapling and other Git tools without migration. ## Consequences Projects can be opened in: - Terminal - GitHub Desktop - SourceTree - VS Code - Any Git client without conversion. --- # D-004 — Workspaces Are Not Versioned Date: 2025-08 Status: Accepted ## Decision Workspaces are organizational containers and are not Git repositories. Projects are versioned. Workspaces are not. ## Rationale Users need a place for temporary notes, drafts, and experimentation. Not everything should require commits. ## Consequences Workspace structure exists outside repository history. Projects remain independently portable. --- # D-005 — Attachments Belong to Projects Date: 2025-08 Status: Accepted ## Decision Attachments are stored inside project directories. They are not stored in a database. They are not stored in a global asset store. ## Rationale Repositories should remain self-contained. Cloning a repository should retrieve everything required to render its content. ## Consequences Projects remain portable. Attachments participate naturally in version control. --- # D-006 — Large Assets Use Git LFS Date: 2025-08 Status: Accepted ## Decision Large binary files should be managed through Git LFS. ## Rationale Repositories containing images, PDFs, design assets, and media files can become excessively large. Git LFS is the industry-standard solution. ## Consequences Sapling must detect and assist with LFS configuration. --- # D-007 — Subprojects Use Git Submodules Date: 2025-08 Status: Accepted ## Decision Nested projects are implemented using Git submodules. ## Rationale Submodules provide an existing, portable, Git-native solution. No custom dependency system is required. ## Consequences Sapling must provide a significantly better UX around submodules than traditional Git tools. --- # D-008 — Hybrid Markdown Editing Is a Core Feature Date: 2025-08 Status: Accepted ## Decision Sapling will implement hybrid Markdown editing. The active line displays source. Inactive lines display rendered content. ## Rationale This editing model combines the readability of rendered Markdown with the precision of source editing. It is one of the primary differentiators of Sapling. ## Consequences The editor becomes a critical architectural component. Prototype and validation work should occur early. --- # D-009 — The Editor Is the Highest-Priority System Date: 2025-08 Status: Accepted ## Decision Editor quality takes precedence over Git features. ## Rationale Users tolerate missing Git features. Users do not tolerate poor editing experiences. ## Consequences Development milestones should prioritize: 1. Editing 2. Rendering 3. Workspace management 4. Git integration in that order. --- # D-010 — Git Access Must Be Abstracted Date: 2025-08 Status: Accepted ## Decision All Git functionality must be accessed through a GitProvider abstraction. Application code should never invoke Git directly. ## Rationale macOS and iOS have different implementation requirements. A clean abstraction improves portability and testability. ## Initial Implementations MacGitProvider - Uses system Git EmbeddedGitProvider - Future iOS implementation ## Consequences All repository operations must remain implementation-agnostic. --- # D-011 — Markdown Files Remain Standard Markdown Date: 2025-08 Status: Accepted ## Decision Sapling documents are standard Markdown files. No proprietary format will be introduced. ## Rationale Users should be free to edit documents with any editor. Knowledge should not be trapped inside Sapling. ## Consequences Any Sapling-specific features should degrade gracefully in standard Markdown environments. --- # D-012 — Platform Focus Date: 2025-08 Status: Accepted ## Decision macOS is the primary target platform. iOS support is a secondary objective. ## Rationale The desktop writing experience is the primary use case. Starting with macOS reduces complexity and accelerates development. ## Consequences Architecture should remain cross-platform where practical. Product decisions should optimize for desktop workflows first. --- # D-013 — Editor Technology Selection Date: 2026-05 Status: Accepted Provisionally Review After: Milestone 2 ## Decision Sapling will use native platform text systems for the editor prototype: - NSTextView on macOS - UITextView on iOS These views will be wrapped behind a Sapling editor abstraction. SwiftUI TextEditor will not be used as the primary editor implementation. ## Rationale Sapling's hybrid Markdown editor requires advanced control over cursor movement, selection state, layout, attributed rendering, and editing behavior. SwiftUI TextEditor is useful for simple text entry, but it does not expose enough low-level editing hooks to validate the active-line source and inactive-line rendered model cleanly. NSTextView and UITextView provide direct access to TextKit, attributed text storage, selection ranges, delegates, layout managers, and platform editing behaviors. That makes them better foundations for Milestone 1 validation. ## Consequences Positive: - The prototype can inspect and control selection ranges directly. - Line-level styling and rendering experiments can be performed in-place. - The app can preserve native editing behavior while testing hybrid Markdown concepts. - The implementation can remain SwiftUI at the application layer. Negative: - AppKit and UIKit bridging adds platform-specific code. - The editor abstraction must prevent the rest of the app from depending directly on NSTextView or UITextView. - A future custom editor engine may still be required if line replacement or overlay rendering cannot preserve cursor correctness. - Native adapter updates must isolate user-originated selection changes from programmatic text, selection, and attribute changes to avoid SwiftUI/TextKit feedback loops. --- # D-014 — Hybrid Editor Architecture Validated ## Status Accepted ## Date 2026-06-02 ## Context Sapling's core user experience depends on a hybrid editing model: * active content is displayed as Markdown source * inactive content is displayed as rendered output This model combines advantages of: * plain-text Markdown editors * live preview editors * rendered document editors However, early in development there was uncertainty regarding: * editor performance * large-document scalability * rendering determinism * active-line tracking * viewport stability * TextKit suitability * code block rendering * interactive rendered elements A significant portion of Milestones 1–3 was dedicated to validating the feasibility of this architecture before proceeding with workspace and Git functionality. ## Decision Sapling adopts a hybrid rendered/source editing architecture as its primary editing model. The architecture is considered validated and will remain the foundation of the application. The editor will not be rewritten and no custom text engine is planned at this time. ## Validated Properties The following properties have been demonstrated through implementation, profiling, and real-world testing. ### Large Document Scalability Documents exceeding: * 50,000 lines * 5 MB of Markdown content remain usable. Profiling identified document-wide operations and replaced them with incremental approaches. ### Incremental Editing Sapling maintains: * incremental line indexing * incremental invalidation * incremental rendering updates Editor interactions scale with the edited region rather than total document size. ### Rendering Determinism Rendering output is derived from document state rather than interaction history. Rendered content behaves consistently across: * scrolling * focus changes * selection changes * document reloads ### Editable Regions The editor supports: * single-line editing * multi-line editing * block editing Rendered content transitions into source mode when actively edited. ### Rendered Elements The editor supports first-class rendered elements including: * headings * task lists * links * code blocks The architecture supports future rendered elements without fundamental redesign. ### Code Blocks Code blocks are treated as semantic block elements rather than styled text. They support: * rendered containers * syntax highlighting * editable source transitions ### Viewport Stability Rendered/source transitions preserve user context and do not require disruptive viewport repositioning. ## Technology Choice The editor continues to use: * NSTextView * NSTextStorage * NSLayoutManager * TextKit Investigation determined that observed performance bottlenecks originated primarily from Sapling's own document-wide algorithms rather than AppKit itself. After introducing: * incremental line indexing * incremental invalidation * region-based rendering TextKit remained sufficiently performant for the project's requirements. ## Alternatives Considered ### Custom Text Engine Rejected. Reasons: * significantly higher complexity * increased maintenance burden * no demonstrated need * current architecture satisfies project requirements ### Split Editor / Preview Model Rejected. Reasons: * interrupts writing flow * increases cognitive overhead * conflicts with Sapling's editing philosophy ### Full WYSIWYG Editor Rejected. Reasons: * obscures Markdown source * reduces portability * conflicts with project goals ## Consequences ### Positive * Markdown remains the source of truth. * Editing remains fast on large documents. * Rendered content improves readability. * The editor architecture is stable enough for future feature development. * Workspace and Git functionality can now be built on top of a proven editor foundation. ### Negative * Hybrid editing introduces presentation complexity. * Rendered/source transitions require ongoing testing. * Some presentation-layer edge cases may continue to require refinement. ## Rationale The editor is the core product experience. Milestones 1–3 demonstrated that a hybrid rendered/source architecture can provide: * Markdown transparency * pleasant reading experience * scalable performance * future extensibility without requiring a custom editor implementation. Future development should build upon this foundation rather than revisit the editor architecture unless substantial new evidence emerges. --- # D-015 — Filesystem Is The Source Of Truth ## Status Accepted ## Date 2026-06-02 ## Context Sapling introduces a distinction between: * ordinary folders * versioned projects * Git subprojects A key architectural decision is determining where workspace state lives. Two approaches were considered: ### Option A — Sapling-Owned Workspace Metadata Sapling maintains a manifest or database describing: * folders * files * projects * attachments * hierarchy The filesystem becomes an implementation detail. Advantages: * complete control * fast metadata access * custom workspace structures Disadvantages: * duplicates filesystem state * requires synchronization * external modifications become difficult * introduces risk of workspace corruption * reduces interoperability with other tools ### Option B — Filesystem-Native Workspace The workspace is a normal directory on disk. Sapling scans and interprets the filesystem directly. Advantages: * simple mental model * interoperability with external tools * no synchronization layer * naturally compatible with Git * resilient to external modifications Disadvantages: * requires filesystem scanning * metadata must be derived rather than stored ## Decision Sapling adopts a filesystem-native architecture. The filesystem is the authoritative source of truth. Sapling does not maintain an authoritative database or manifest describing workspace contents. Workspace contents are derived directly from the filesystem. Projects are discovered through Git metadata. Subprojects are discovered through Git submodules. Files and folders remain ordinary filesystem objects. ## Workspace Model Workspace: ```text Workspace/ ├── Notes/ ├── Research/ ├── Project-A/ └── Project-B/ ``` Sapling scans the workspace root and builds its tree model from the current filesystem state. Changes made through: * Finder * Terminal * VS Code * Cursor * Xcode * Photoshop * external scripts must appear naturally inside Sapling. No import or synchronization step should be required. ## Project Detection A directory containing: ```text .git/ ``` is considered a project. Projects receive additional capabilities: * Git status * commits * branches * remotes * history * Git LFS * submodules Folders without Git metadata remain ordinary folders. ## Subproject Detection Git submodules are treated as first-class Sapling subprojects. Subproject discovery is derived from Git configuration rather than Sapling metadata. ## Persistence Sapling may persist application state separately. Examples: * recent workspaces * window state * open tabs * sidebar width * editor preferences * UI configuration This data must never become the authoritative representation of workspace contents. ## Consequences ### Positive * Workspace remains human-readable. * Workspace remains tool-agnostic. * Users can manipulate files outside Sapling. * Git integration remains natural. * Cloud synchronization solutions work without special support. * Workspaces remain usable even if Sapling is uninstalled. ### Negative * Workspace state must be derived from filesystem scans. * File watching becomes important. * Some metadata may need caching for performance. ## Rationale One of Sapling's core values is ownership. Users should own their notes, projects, attachments, and repositories without depending on Sapling-specific storage formats. A workspace should remain a normal directory that can be understood and manipulated using standard operating system tools. Sapling should adapt to the filesystem rather than requiring the filesystem to adapt to Sapling.