# Main Feature This document explains the current repair-game flow in La-Fabrik. ## What It Does The main feature is a reusable repair flow mounted in the production game scene. It lets the player approach the active mission object, inspect it, fragment it, scan the broken part, install the correct replacement, validate completion, and move to the next mission state. The current user flow is: 1. Enter a mission state such as `bike`, `pylone`, or `ferme`. 2. Move close to the active repair object in the game scene. 3. Aim at the object and press the interaction key when prompted. 4. The mission step moves from `waiting` to `inspected`. 5. The repair case appears near the mission object and can float when the player approaches it. 6. Press `E` or hold both fists closed for one second to move from `inspected` to `fragmented`. 7. The mission object uses an exploded-model transition, then moves to `scanning`. 8. The scan visual moves across the fragmented model one part at a time and keeps a red marker plus the `cassé.webm` prompt centered on any configured broken part once it has been found. 9. In `repairing`, the case opens and several grabbable replacement parts appear near the case. 10. Move the correct replacement part close to the install target. 11. Press `E` on the green install target to move to `done` and show the reassembled object. Wrong parts turn the target red and cannot finish the repair. 12. Press `E` on the completion target. The repair case closes, returns to the ground, disappears, then `completeMission` moves to the next mission or to `outro` after `ferme`. ## Why It Matters This feature validates the repair loop before a full mission system exists. It tests whether repair objects, physical proximity, model selection, audio feedback, and exploded model visualization can work together in the 3D scene. ## Current Behavior In `waiting`, the active mission renders its repair object and the `interagir.webm` prompt in the game scene. The interaction uses the shared focus/raycast interaction system, so the player still gets the normal `E` prompt. When the player inspects the object, `RepairGame` writes `inspected` through the generic mission store action. The repair case then appears from the mission config with a small pop animation. When the player is close enough, the existing case model floats upward and rotates gently to signal interactivity. In `inspected`, `RepairGame` can also move to `fragmented`. The player can use the interaction key or hold both fists closed for one second. The hand-tracking path is state-based, so it does not depend on being inside a local object interaction radius. In `fragmented`, the repair object is rendered with `ExplodableModel`, then automatically advances to `scanning`. In `scanning`, the exploded model remains visible, a blue scan visual moves from part to part, and a red halo/wire marker plus the configured broken UI video stay attached to configured broken parts after the scanner reaches them. The scan can match a specific `nodeName` when mission data provides one, otherwise it falls back to the first scanned parts as placeholder broken parts. In `repairing`, the case opens, several grabbable replacement parts appear, and the install target only validates the configured correct part for the active mission. In `done`, the repaired object remains visible with a completion target that plays the case exit animation before advancing the global mission progression. ## Key Files - `src/world/GameStageContent.tsx` mounts production `RepairGame` instances for `bike`, `pylone`, and `ferme`. - `src/components/three/gameplay/RepairCompletionStep.tsx` renders the final repaired object, completion target, case exit animation, and mission UI prompt. - `src/components/three/gameplay/RepairGame.tsx` composes the reusable production repair flow. - `src/components/three/gameplay/RepairBrokenPartHighlight.tsx` renders the red halo and wire marker around detected broken parts during scanning. - `src/components/three/gameplay/RepairBrokenPartPrompt.tsx` centers the configured broken UI video on detected broken parts during scanning. - `src/components/three/gameplay/RepairInspectionObject.tsx` handles the `waiting` inspection interaction. - `src/components/three/gameplay/RepairMissionCase.tsx` renders the mission repair case after inspection. - `src/components/three/gameplay/RepairRepairingStep.tsx` renders grabbable replacement choices, correct-part placement validation, and the install trigger in `repairing`. - `src/components/three/gameplay/RepairPromptVideo.tsx` renders `.webm` prompts inside the 3D scene. - `src/components/three/gameplay/RepairScanSequence.tsx` keeps the exploded model visible and advances the scan from part to part. - `src/components/three/gameplay/RepairScanVisual.tsx` renders the scan halo and scan line around the active part. - `src/hooks/gameplay/useRepairFragmentationInput.ts` handles the `inspected -> fragmented` keyboard and hand-tracking input. - `src/hooks/gameplay/useRepairMissionStep.ts` reads the active mission step from the game store. - `src/hooks/handTracking/useBothFistsHold.ts` detects the reusable two-fists hold gesture. - `src/components/three/gameplay/RepairCaseModel.tsx` renders and animates the case model. - `src/components/three/models/ExplodableModel.tsx` renders selectable models with split/exploded visualization. - `src/data/gameplay/repairCaseConfig.ts` stores repair case model, sound, and animation constants. - `src/data/gameplay/repairGameConfig.ts` stores repair flow timing constants. - `src/data/gameplay/repairMissions.ts` stores reusable repair mission config for `bike`, `pylone`, and `ferme`. - `src/managers/stores/useGameStore.ts` stores mission progression state and generic mission step helpers. ## Runtime Requirements The production repair flow currently requires: - the active `mainState` to be one of `bike`, `pylone`, or `ferme` - `GameStageContent` mounted inside the game scene Rapier `Physics` boundary - model assets available under `public/models/` - sound assets available under `public/sounds/` Frontend command: ```bash npm run dev ``` Debug URL for state switching and inspection: ```txt http://localhost:5173/?debug ``` ## Related Hand Tracking Hand tracking can move grabbable physics objects with webcam input in debug scenes. In the production repair flow, it is also used for the `inspected -> fragmented` transition through the two-fists hold gesture. For hand tracking, run the Python backend separately: ```bash source backend/.venv/bin/activate python -m backend.main ``` ## Current Limitations - The reusable production `RepairGame` currently covers `waiting -> inspected -> fragmented -> scanning -> repairing -> done -> next mission`. - Mission progression is wired through Zustand using `completeMission` at the end of each repair. - There is no central `GameManager` in this branch. - Hand tracking is available for the two-fists input and grabbable replacement parts; final installation still uses the shared `E` trigger path. - The repair-game content is configured statically in `src/data/gameplay/`.