Wire npc-runtime-snapshot and combat-health GET clients with combat-active
~1 Hz polling, interpolated telegraph countdown, and PlayerCombatHp/NpcState/
Telegraph HUD labels; includes GdUnit tests, manual QA, and doc updates.
Mac trackpads emit many pan events per gesture; stepping one band per
event jumped across all zoom levels. Accumulate delta with a threshold,
cap one step per event, and add a 150 ms cooldown between trackpad steps.
Co-authored-by: Cursor <cursoragent@cursor.com>
Map InputEventPanGesture and InputEventMagnifyGesture to the existing
discrete zoom bands; document in client README. Unrelated to NEO-93.
Co-authored-by: Cursor <cursoragent@cursor.com>
Replace subtle mast markers with capsule bodies, Dummy α/β Label3D names,
and brighten the Tab-locked target; HUD hints point to orange/purple dummies.
Fresh hotbar starts empty so digit 1 was a silent no-op; bootstrap
prototype_pulse on first sync and surface empty-slot/send failures on CastFeedbackLabel.
Add a pre-commit guard that blocks commits missing required client/server test updates and Bruno requests for route/contract changes, and wire hook installers to install both pre-commit and pre-push hooks.
Ship a server-owned hotbar loadout API with Postgres-or-memory persistence so slot bindings survive reconnects in configured environments. Wire client boot hydration and add tests/docs/manual QA to keep the prototype contract and policy explicit.
Map SelectionEvent to target_changed, reserve ability_cast_requested and ability_cast_denied hook locations, and align plan/manual QA/decomposition docs with TODO(E9.M1) telemetry follow-up.
Add selection_event signal when lockedTargetId changes; attribute tab, clear,
and server_correction from POST/GET paths. Optional log_selection_events print.
GdUnit coverage; README, E1.M3 snapshot, manual QA, and plan checklist updated.
Followup #5: after locking alpha, walking into beta's ring, stopping and
pressing Tab could still return `out_of_range` even when client and server
agreed on position (Δ=0). The freshness-kick move-stream POST and the
target/select POST race on separate HTTP connections so the select can be
validated against a stale stored snap.
Extend TargetSelectRequest v1 with an optional positionHint {x,y,z}.
Server uses the hint for the radius check and for the echoed
targetState.validity; the hint is advisory and does not write to the
position store (move-stream stays the sole write path). Client attaches
the hint automatically whenever set_freshness_kick(...) is wired, so
headless unit tests that skip the wiring fall through to the no-hint
behavior. Freshness kick is kept in place to refresh the stored snap for
later validity GETs but is no longer load-bearing for denial correctness.
Server: 3 new tests (hint accepts when stored is stale, hint-far denies,
hint never writes to position store). Client: 1 new test asserting the
hint is in the POST body when wired. All 62 server + 96 client tests
pass.
Plan Decision 8, review follow-up #5, manual QA section 6, and NEO-23
contract notes updated. New bruno request exercises the hint path.
All prototype targets now share `PrototypeTargetRegistry.SharedLockRadius`
(= 6 m). Anchors moved to alpha `(-3, 0.5, -3)` and beta `(3, 0, 3)` so
the two 6 m rings overlap ~3.5 m wide centered at origin, letting Tab
flip between targets without locomotion. Spawn `(-5, -5)` keeps alpha
in range (~2.83 m) and beta out (~11.31 m) so the existing soft-lock
denial QA path at spawn still holds.
`prototype_target_constants.gd` mirrors the shared radius + new anchors.
The range-aware Tab picker now **skips the currently-locked id** so Tab
always expresses a swap intent — if the only in-range target is already
locked, the fallback picks the next cycle id and the server denies
(preserves NEO-23's "Tab = visible denial when no swap possible" rule).
Tests:
- Server: new `PlayerTargetStateReaderTests.ComputeValidity_AtOrigin_…`
asserts both targets report `Ok` at origin. Existing boundary test
rewritten for the new alpha anchor.
- Client: new `test_tab_from_locked_alpha_at_origin_swaps_to_beta_when_both_in_range`
and `test_tab_when_only_current_lock_is_in_range_falls_back_to_cycle_for_denial`.
Existing in-range/out-of-range positions updated for the new layout.
Server 59/59 and client 95/95 suites pass.
Plan Decision 7, review follow-up #4, manual QA section 5 (new "Tab-flip
at origin" overlap sanity), and README updated. Per-target radii will
return with real combat design (E5.M1) — this is a prototype stub.
Previously Tab from no-lock always picked `ORDERED_IDS[0]` (alpha), so
standing next to beta and pressing Tab was denied with `out_of_range`
even though the client HUD clearly showed beta in range.
Added `PrototypeTargetConstants.next_in_range_id_after(current, world)`
which walks the cycle and returns the first anchor whose client-side
horizontal distance is within the anchor radius.
`TargetSelectionClient.request_tab_next()` prefers that pick when the
player reference is wired (same path `set_freshness_kick` uses) and
falls back to the plain cycle order when nothing is in range so the
server still owns the denial reason.
Server contract (NEO-23) untouched. Tests cover the beta pick, the
nothing-in-range fallback, and the no-player-ref regression. Plan
Decision 6 + review follow-up #3 + README + manual QA updated.
Fix "Tab says denied even though I'm in range of beta": root cause is the
race between the 20 Hz move-stream sampler and the target-select POST. A
Tab press right after the capsule stops can be validated against the
server's last sampled position, which trails the visible capsule by
several meters.
Client-side fixes (server contract unchanged):
- TargetSelectionClient.set_freshness_kick(authority, player): before each
POST /target/select, submit a move-stream with the current player
position so the server's stored snapshot is as fresh as possible when
the range check runs. Wired in main.gd; optional so tests without the
wiring still pass (regression-covered).
- PlayerPositionLabel now shows a "srv: (x,y,z) Δ=<d>m age=<ms>" line
populated from PositionAuthorityClient.authoritative_ack, so any
residual client/server divergence is visible in the HUD and future
reports can point at it directly.
- Two new tests: select POST kicks exactly one freshness stream with the
current player position before POSTing, and the kick is a no-op when
the wiring is absent.
Docs: plan Decision 5, review follow-up #2, manual QA section 5 and
section 1, and client README updated to describe the new behaviors.
Players reported targeting "feels inconsistent" because the server
PrototypeTargetRegistry anchors (alpha (-5,-5) r=8, beta (8,8) r=4) have
no visible meshes — the only console visible in the scene is the NEO-9
PrototypeTerminal at origin, which is unrelated to NEO-23/24 targeting.
Adds a display-only mirror of the server registry:
- client/scripts/prototype_target_markers.gd spawns a colored mast +
translucent flat radius ring per anchor so the lock radius is
visible in-world.
- client/scripts/prototype_target_constants.gd gains ANCHORS with
position/radius/color, matching PrototypeTargetRegistry.cs. Marked
display-only; server remains authoritative for validity.
- TargetLockLabel now renders a per-anchor distance line each physics
tick ("<id>: <d> m / <radius> (in|out)") so players can see the
relationship between the visible capsule and the lock radius and
immediately spot client/server position drift.
Also updates README, plan (Decision 4), manual QA (Section 1 boot +
Section 4 locomotion), and the review file's follow-up section to
describe the UX fix.
Review 2026-04-21 caught that the hybrid soft-lock refresh path is
unreachable during normal WASD locomotion. `main.gd` was wiring
`TargetSelectionClient` to `PositionAuthorityClient.authoritative_position_received`,
which only fires on boot sync and move-rejection resync — successful
`move-stream` 200s are intentionally silent to avoid RTT rubber-banding.
So walking out of an alpha/beta radius never triggered the throttled
`GET /target` the HUD depends on, and validity stayed stuck at `ok`.
Add a separate `authoritative_ack(world)` signal on `PositionAuthorityClient`
emitted from both `BOOT_GET` 200 and successful `move-stream` 200, and
switch `TargetSelectionClient` (+ `main.gd`) to it. The snap signal keeps
its current semantics so rubber-band suppression is untouched; the ack
signal is a pure heartbeat that cooldown-throttled consumers can hook.
Also adds an integration test that wires both real clients together (per
the review's suggestion 1) so renames or mis-wires between the two
scripts fail loudly rather than silently skipping the end-to-end path.
- `client/scripts/position_authority_client.gd`: new `authoritative_ack`
signal; extracted `_parse_world_from_response` helper to share JSON
parse across `BOOT_GET` and `STREAM_POST`; emit ack from both.
- `client/scripts/target_selection_client.gd`: rename
`on_authoritative_position_snap` to `on_authoritative_ack`; drop
`apply_as_snap` gate (no longer meaningful).
- `client/scripts/main.gd`: connect the new signal.
- `client/test/position_authority_client_test.gd`: assert ack on boot
200 and stream 200.
- `client/test/target_selection_client_test.gd`: rename tests for new
handler.
- `client/test/target_refresh_on_locomotion_test.gd`: new integration
suite wiring real authority + target clients.
- Plan Decision 3 + Tests row + Files-to-modify row updated.
- `docs/reviews/2026-04-21-NEO-24.md`: committed with blocking issue +
suggestions struck through with `Done.` notes per
planning-implementation-docs rule.
- `docs/decomposition/modules/documentation_and_implementation_alignment.md`:
E1.M3 row now reflects NEO-24 landed.
- `client/README.md` + `docs/manual-qa/NEO-24.md`: refreshed signal names
so the soft-lock refresh description matches the wiring.
Tests: 88/88 GdUnit headless passed locally.
Adds `TargetSelectionClient` (Godot, HTTP to NEO-23 targeting endpoints):
- Tab cycles ids in ascending order matching `PrototypeTargetRegistry`
(`prototype_target_alpha`, `prototype_target_beta`) and wraps.
- Esc clears by POSTing with `targetId` omitted.
- UI always paints from the server's authoritative `targetState`
(success and denials alike); `UICanvas/TargetLockLabel` shows
`lockedTargetId`, `validity`, `sequence`, and (on deny) `reasonCode`.
- Movement-triggered refresh: while a lock is held, subsequent
`authoritative_position_received` snaps fire a throttled GET
(~250 ms cooldown) so `validity` flips to `out_of_range` after
locomotion without duplicating server radius math on the client.
Registers `target_tab` (Tab) / `target_clear` (Esc) in `project.godot`;
documents bindings + manual QA in `client/README.md`.
Tests: `target_selection_client_test.gd` covers GET parse, tab ordering
from empty/alpha/wrap, POST body shape, denial preserves server state,
clear omits targetId, movement refresh fires only while locked, cooldown
collapses bursts to one GET, and `apply_as_snap=false` is ignored.
All 85 client GdUnit cases pass; gdlint and gdformat clean.
See `docs/plans/NEO-24-implementation-plan.md`.
Extract static helpers (floor-ray continuation, median feet Y, micro-slip
XZ projection, wish-aligned horizontal velocity) from the tick path so
GdUnit can cover seam math without physics doubles. Add
player_locomotion_wasd_test.gd, document in README, and update NEO-22
plan/review.
Delete ground_pick and GroundPick wiring; PositionAuthorityClient now only
boot GET and move-stream POST. main.gd snaps on authoritative position only.
Update client/server READMEs, cursor rule example, NEO-22 plan note, and
GdUnit authority tests (stream 400 + boot resync).
Successful move-stream responses echoed server position roughly one RTT behind
integrated move_and_slide, so apply_as_snap still fired whenever dh exceeded
the locomotion skip threshold. Treat stream 200 as ack-only: do not emit
authoritative_position_received. Boot GET and click-move verify unchanged.
Update README + GdUnit expectation.
Introduce POST /game/players/{id}/move-stream with ordered targets, full-chain
validation before apply, and PositionStateResponse. Godot client uses camera-
relative WASD, queues samples, and snaps to stream responses; debug builds keep
click-to-move via ground_pick. Update READMEs, E1.M1 snapshot, and tests.
Migrate Jira NEON-* references to Linear NEO-* and linear.app links in
docs, Cursor rules, READMEs, and traceability comments. Renamed
implementation plans and dated reviews to NEO filenames.
Branch is based on origin/main with this commit only (no NEON-29
gameplay chain). client/README follows main’s district/map copy;
player.gd matches main aside from NEO-14 debug trace prefixes.
Single center ray + flat floor-normal gate missed tilted lip contacts
and still hit deck under capsule center while leading edge hung over void.
Moving FLOOR_SNAP_MOVING then cancelled gravity each tick.
Sample down rays at center and offsets along walk direction; depth 0.32;
set floor_snap_length 0 when is_on_floor but no probe hit.
Jolt + floor snap could keep is_on_floor true over open space toward a
lower click target, so vy stayed 0 until arrival. Add a short downward
ray under the capsule feet (WALK_SUPPORT_PROBE_DEPTH) and apply gravity
when no upward-facing hit is close, only on fairly level floor normals.
Vertical+column branch scanned path for first point with XZ offset >5 cm;
Jolt moved the body across that edge each tick and flipped the chosen
waypoint → 180° velocity oscillation (vlat && ncol).
Use NavigationAgent3D.get_next_path_position() when navigation not
finished; fall back to auth goal when finished or degenerate.
TerracePlatformC_Approach (PCS_*): four cardinals, 7.2 m arms, ~0.104 m rise.
TerraceStepB_Approach (TSB_*): S/E/W, 6.2×1.0 m NS treads.
TerracePlatformB_Approach (TPB_*): N/E/W with six risers for 0.6 m to floor;
south uses existing gold step. New ramp-tint materials. README + plan.
TerracePlatformB top is ~0.6 m above the floor; agent_max_climb only
limited nav links, while chained step assist could still climb in one
click. Refuse assist when goal surface is more than 0.35 m above feet
so the gold TerraceStepB path (or a second click) is required.
Default get_next_path_position steering caused crawl/stuck behavior with
Jolt at 120 Hz. Steer XZ toward the authoritative target always except
when the goal surface is meaningfully above/below the feet and the
player is within DIRECT_APPROACH_RADIUS — then use the baked path for
ramps/treads. Update README and NEON-29 plan.