--- name: map-systems description: "Decompose a game concept into individual systems, map dependencies, prioritize design order, and create the systems index." argument-hint: "[optional: 'next' to pick highest-priority undesigned system, or a system name to hand off to /design-system]" user-invocable: true allowed-tools: Read, Glob, Grep, Write, Edit, AskUserQuestion, TodoWrite --- When this skill is invoked: ## 1. Parse Arguments Two modes: - **No argument**: `/map-systems` — Run the full decomposition workflow (Phases 1-5) to create or update the systems index. - **`next`**: `/map-systems next` — Pick the highest-priority undesigned system from the index and hand off to `/design-system` (Phase 6). --- ## 2. Phase 1: Read Concept (Required Context) Read the game concept and any existing design work. This provides the raw material for systems decomposition. **Required:** - Read `design/gdd/game-concept.md` — **fail with a clear message if missing**: > "No game concept found at `design/gdd/game-concept.md`. Run `/brainstorm` first > to create one, then come back to decompose it into systems." **Optional (read if they exist):** - Read `design/gdd/game-pillars.md` — pillars constrain priority and scope - Read `design/gdd/systems-index.md` — if exists, **resume** from where it left off (update, don't recreate from scratch) - Glob `design/gdd/*.md` — check which system GDDs already exist **If the systems index already exists:** - Read it and present current status to the user - Use `AskUserQuestion` to ask: "The systems index already exists with [N] systems ([M] designed, [K] not started). What would you like to do?" - Options: "Update the index with new systems", "Design the next undesigned system", "Review and revise priorities" --- ## 3. Phase 2: Systems Enumeration (Collaborative) Extract and identify all systems the game needs. This is the creative core of the skill — it requires human judgment because concept docs rarely enumerate every system explicitly. ### Step 2a: Extract Explicit Systems Scan the game concept for directly mentioned systems and mechanics: - Core Mechanics section (most explicit) - Core Loop section (implies what systems drive each loop tier) - Technical Considerations section (networking, procedural generation, etc.) - MVP Definition section (required features = required systems) ### Step 2b: Identify Implicit Systems For each explicit system, identify the **hidden systems** it implies. Games always need more systems than the concept doc mentions. Use this inference pattern: - "Inventory" implies: item database, equipment slots, weight/capacity rules, inventory UI, item serialization for save/load - "Combat" implies: damage calculation, health system, hit detection, status effects, enemy AI, combat UI (health bars, damage numbers), death/respawn - "Open world" implies: streaming/chunking, LOD system, fast travel, map/minimap, point of interest tracking, world state persistence - "Multiplayer" implies: networking layer, lobby/matchmaking, state synchronization, anti-cheat, network UI (ping, player list) - "Crafting" implies: recipe database, ingredient gathering, crafting UI, success/failure mechanics, recipe discovery/learning - "Dialogue" implies: dialogue tree system, dialogue UI, choice tracking, NPC state management, localization hooks - "Progression" implies: XP system, level-up mechanics, skill tree, unlock tracking, progression UI, progression save data Explain in conversation text why each implicit system is needed (with examples). ### Step 2c: User Review Present the enumeration organized by category. For each system, show: - Name - Category - Brief description (1 sentence) - Whether it was explicit (from concept) or implicit (inferred) Then use `AskUserQuestion` to capture feedback: - "Are there systems missing from this list?" - "Should any of these be combined or split?" - "Are there systems listed that this game does NOT need?" Iterate until the user approves the enumeration. --- ## 4. Phase 3: Dependency Mapping (Collaborative) For each system, determine what it depends on. A system "depends on" another if it cannot function without that other system existing first. ### Step 3a: Map Dependencies For each system, list its dependencies. Use these dependency heuristics: - **Input/output dependencies**: System A produces data System B needs - **Structural dependencies**: System A provides the framework System B plugs into - **UI dependencies**: Every gameplay system has a corresponding UI system that depends on it (but UI is designed after the gameplay system) ### Step 3b: Sort by Dependency Order Arrange systems into layers: 1. **Foundation**: Systems with zero dependencies (designed and built first) 2. **Core**: Systems depending only on Foundation systems 3. **Feature**: Systems depending on Core systems 4. **Presentation**: UI and feedback systems that wrap gameplay systems 5. **Polish**: Meta-systems, tutorials, analytics, accessibility ### Step 3c: Detect Circular Dependencies Check for cycles in the dependency graph. If found: - Highlight them to the user - Propose resolutions (interface abstraction, simultaneous design, breaking the cycle by defining a contract between the two systems) ### Step 3d: Present to User Show the dependency map as a layered list. Highlight: - Any circular dependencies - Any "bottleneck" systems (many others depend on them — these are high-risk) - Any systems with no dependents (leaf nodes — lower risk, can be designed late) Use `AskUserQuestion` to ask: "Does this dependency ordering look right? Any dependencies I'm missing or that should be removed?" --- ## 5. Phase 4: Priority Assignment (Collaborative) Assign each system to a priority tier based on what milestone it's needed for. ### Step 4a: Auto-Assign Based on Concept Use these heuristics for initial assignment: - **MVP**: Systems mentioned in the concept's "Required for MVP" section, plus their Foundation-layer dependencies - **Vertical Slice**: Systems needed for a complete experience in one area - **Alpha**: All remaining gameplay systems - **Full Vision**: Polish, meta, and nice-to-have systems ### Step 4b: User Review Present the priority assignments in a table. For each tier, explain why systems were placed there. Use `AskUserQuestion` to ask: "Do these priority assignments match your vision? Which systems should be higher or lower priority?" Explain reasoning in conversation: "I placed [system] in MVP because the core loop requires it — without [system], the 30-second loop can't function." ### Step 4c: Determine Design Order Combine dependency sort + priority tier to produce the final design order: 1. MVP Foundation systems first 2. MVP Core systems second 3. MVP Feature systems third 4. Vertical Slice Foundation/Core systems 5. ...and so on This is the order the team should write GDDs in. --- ## 6. Phase 5: Create Systems Index (Write) ### Step 5a: Draft the Document Using the template at `.claude/docs/templates/systems-index.md`, populate the systems index with all data from Phases 2-4: - Fill the enumeration table - Fill the dependency map - Fill the recommended design order - Fill the high-risk systems - Fill progress tracker (all systems "Not Started" initially, unless GDDs already exist) ### Step 5b: Approval Present a summary of the document: - Total systems count by category - MVP system count - First 3 systems in the design order - Any high-risk items Ask: "May I write the systems index to `design/gdd/systems-index.md`?" Wait for approval. Write the file only after "yes." ### Step 5c: Update Session State After writing, create `production/session-state/active.md` if it does not exist, then update it with: - Task: Systems decomposition - Status: Systems index created - File: design/gdd/systems-index.md - Next: Design individual system GDDs **Verdict: COMPLETE** — systems index written to `design/gdd/systems-index.md`. If the user declined: **Verdict: BLOCKED** — user did not approve the write. --- ## 7. Phase 6: Design Individual Systems (Handoff to /design-system) This phase is entered when: - The user says "yes" to designing systems after creating the index - The user invokes `/map-systems [system-name]` - The user invokes `/map-systems next` ### Step 6a: Select the System - If a system name was provided, find it in the systems index - If `next` was used, pick the highest-priority undesigned system (by design order) - If the user just finished the index, ask: "Would you like to start designing individual systems now? The first system in the design order is [name]. Or would you prefer to stop here and come back later?" Use `AskUserQuestion` for: "Start designing [system-name] now, pick a different system, or stop here?" ### Step 6b: Hand Off to /design-system Once a system is selected, invoke the `/design-system [system-name]` skill. The `/design-system` skill handles the full GDD authoring process: - Gathers context from game concept, systems index, and dependency GDDs - Creates a file skeleton immediately - Walks through all 8 required sections one at a time (collaborative, incremental) - Cross-references existing docs to prevent contradictions - Routes to specialist agents for domain expertise - Writes each section to file as soon as it's approved - Runs `/design-review` when complete - Updates the systems index **Do not duplicate the /design-system workflow here.** This skill owns the systems *index*; `/design-system` owns individual system *GDDs*. ### Step 6c: Loop or Stop After `/design-system` completes, use `AskUserQuestion`: - "Continue to the next system ([next system name])?" - "Pick a different system?" - "Stop here for this session?" If continuing, return to Step 6a. --- ## 8. Phase 7: Suggest Next Steps After the systems index is created (or after designing some systems), suggest the appropriate next actions: - "Run `/design-system [system-name]` to write the next system's GDD" - "Run `/design-review [path]` on each completed GDD to validate quality" - "Run `/gate-check pre-production` to check if you're ready to start building" - "Prototype the highest-risk system with `/prototype [system]`" - "Plan the first implementation sprint with `/sprint-plan new`" --- ## Collaborative Protocol This skill follows the collaborative design principle at every phase: 1. **Question -> Options -> Decision -> Draft -> Approval** at every step 2. **AskUserQuestion** at every decision point (Explain -> Capture pattern): - Phase 2: "Missing systems? Combine or split?" - Phase 3: "Dependency ordering correct?" - Phase 4: "Priority assignments match your vision?" - Phase 5: "May I write the systems index?" - Phase 6: "Start designing, pick different, or stop?" then hand off to `/design-system` 3. **"May I write to [filepath]?"** before every file write 4. **Incremental writing**: Update the systems index after each system is designed 5. **Handoff**: Individual GDD authoring is owned by `/design-system`, which handles incremental section writing, cross-referencing, design review, and index updates 6. **Session state updates**: Write to `production/session-state/active.md` after each milestone (index created, system designed, priorities changed) **Never** auto-generate the full systems list and write it without review. **Never** start designing a system without user confirmation. **Always** show the enumeration, dependencies, and priorities for user validation.