Step 9 of multi-instancing migration. PowerShell audit fails CI if anything
references the deleted BattleManagerBase.main field or introduces a new
Thread() outside the LeanThreadPool allowlist.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Replace trivially-true Pp>=0 with concrete post-Setup pins (LeaderLife=20,
Pp=0, HandCount=3). Drop the unused seed parameter from SampleDeck - every
call already returned the same vanilla deck, and the StressN test name 'Random
Decks' overpromised. The cross-contamination property the test pins (parallel
LeaderLife[] equals sequential LeaderLife[]) holds with identical decks +
distinct masterSeeds, which is what's actually being verified.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Step 7 of multi-instancing migration. Residual SVSim.UnitTests that touch
engine code directly are wrapped in TestBattleScope. EngineSessionGate is
deleted along with the _engineOwned bookkeeping in BattleSession; engine
setup is unconditional now that per-battle state is isolated on the ambient.
Gate-specific fallback branches in BattleSession.ShadowIngest are simplified.
Suite fully green (SVSim.UnitTests, SVSim.BattleEngine.Tests).
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Step 6 of multi-instancing migration. HeadlessEngineEnv.EnsureInitialized
is split into EnsureProcessGlobals (idempotent, process-once) +
SeedCharaIdsOnCurrentAmbient (per-test). New TestBattleScope IDisposable
sets up a fresh BattleAmbientContext per test. NonParallelizable removed
from converted classes; assembly-level Parallelizable(Fixtures) enabled.
SVSim.BattleEngine.Tests fully green under parallel test execution.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Step 5 of multi-instancing migration. GameMgr.GetIns() now resolves through
BattleAmbient.Require() (throws when no scope active — fail-fast since engine
callers unconditionally dereference). SessionBattleEngine now owns a single
BattleAmbientContext, pushed via BattleAmbient.Enter at Setup/Receive/all
~30 read accessors and Debug* seams.
EngineGlobalInit.WirePerSessionGameMgr extracted out of the _done-gated block:
GameMgr is now per-session (ctx.GameMgr is a fresh `new()` per SessionBattleEngine),
so the DataMgr chara ids + NetworkUserInfoData seeding must run every Setup, not
process-once. The wiring itself is already idempotent. Without this, second-or-
later sessions in a process NRE in NetworkBattleManagerBase.CreateBackgroundId.
Expected state: SVSim.BattleEngine.Tests have known-failing tests that don't
go through SessionBattleEngine (Task 6 wraps HeadlessFixture). SVSim.UnitTests
mostly recover; residual failures (deal-frame Accepted:false in conductor
integration tests) are captured in
data_dumps/task5-test-output/failing-tests-after-task5-node-postwrap.txt for
Task 7.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Setter is the asymmetric one (write-through inside scope, unlike ViewerId's
no-op-in-scope) — adding parity with the SetRealTimeNetworkBattle ambient
setter test to catch future regressions if the routing branch is touched.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Step 4 of multi-instancing migration. Three additional per-battle statics
front-fronted by BattleAmbient.Current, each with a static fallback for
unwrapped callers. ViewerId's SavedataManager-persisting setter is preserved
on the fallback path; inside a scope, the setter is a no-op (the per-battle
perspective is fixed at scope entry).
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Step 3 of multi-instancing migration. The dominant per-battle singleton now
resolves through BattleAmbient.Current.Mgr when a scope is active. The legacy
'main' field is renamed _mainFallback and retained for unwrapped callers
(tests, anything not yet scope-wrapped). GetIns() still returns null when
neither is set, preserving the '?.Foo ?? default' patterns in engine code.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Hygiene fixup for the IsForecast/IsRandomDraw ambient conversion in 3b5f2e1.
The manifest sha was stale (pointed at the pre-ambient RNG-virtual-patched
contents) and the change had no companion .patch artifact alongside
BattleManagerBase.rng-virtual.patch. Follow established convention.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Step 2 of multi-instancing migration. Both flags now resolve through
BattleAmbient.Current when a scope is active, otherwise hit a static fallback
that preserves today's behavior unchanged for unwrapped callers.
Suite green: SVSim.BattleEngine.Tests pass; SVSim.UnitTests baseline holds.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Step 1 of the engine multi-instancing migration. Standalone infrastructure;
no engine static reads/writes through it yet. Scope is reentrant (restores
prior on dispose), AsyncLocal flows across awaits, and isolated between
concurrent Task.Run flows.
See docs/superpowers/specs/2026-06-07-engine-multi-instancing-design.md.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Six distinct fixes accumulated over live-test iterations against four bids
(654473755566, 806245601092, 283192092460, 131549100204, 799755786270) — together
they take the shadow engine from "throws on the first non-mulligan play" to
"survives a full PvP battle, only weird-edge-case Unity touches still left to whack".
1. Engine StableRandom seed aligned with clients' Matched.seed
(BattleSession.EnsureEngineSetup, NodeNativeBattleHarness.Create). Clients seed
_stableRandom with BattleSeeds.Stable(masterSeed) (the value the node ships in
Matched.seed); we were passing the RAW masterSeed to engine.Setup, so every
StableRandom call diverged from call #1 onward — every turn-1+ draw picked a
different deck position than the clients. Verified Stable(1184631275)=1543475792
matches the wire on bid 654473755566.
2. SeedDeck advances cardTotalNum to deck.Count+1 + pins BattleStartDeckCardList.
Mirrors SBattleLoad.InitPlayer's tail (SBattleLoad.cs:1292). Without it,
skill-generated tokens auto-assigned Index 0,1,... and COLLIDED with deck-loaded
indices 1..40 — silent until something addressed the deck card with the
colliding Index (Hoverboarder at deck idx 1 + a token at engine Index 1 made
GetBattleCardIdx's SingleOrDefault throw on bid 806245601092).
3. BattleCardView.GameObject lazily non-null in the shim (ViewUiTouchStubs.cs).
The IsRecovery card-create delegate (NetworkBattleManagerBase.cs:379) passes
null cardGameObject; Skill_metamorphose.cs:147 in the in-play branch then NRE'd
on `metamorphosedCard.BattleCardView.GameObject.transform.rotation = identity`,
a purely cosmetic touch with no game-state implication. Bid 283192092460:
Petrification on a board follower.
4. TranslateChoiceKeyAction unwraps wrapped selectCard on shadow ingest
(SessionBattleEngine.cs, sibling to TranslateTargetOwners). Live sender-send
wires Choice plays as selectCard:{cardId:[...], open:0}; engine's
ConvertToListInt does `value as List<object>` — a Dict casts to null and
foreach NREs. The receiver's swallow-all catch (NetworkBattleReceiver.cs:1255)
logs to Debug.LogError + LocalLog — both shimmed/no-op'd headlessly — and
returns false, but Receive calls ReceivedMessage with checkBreakData:false so
the false isn't propagated. The play continues with choiceIdList=[], the chosen
branch never resolves, the played card stays in hand; a later targeted play
(A's bounce on B's "board" idx 20) then can't find the target → NRE on null in
ActionProcessor.PlayCard:407. Bid 131549100204: B's Resonance + A's bounce.
Opponent-relay path is unaffected — node strips selectCard from broadcasts.
5. HeadlessHandViewStub overrides HandUnfocus/HandFocus/FocusRearrangeHandHand
to return NullVfx. CreateHandControl returns null in headless; the base
methods unconditionally deref `_handControl.SetHandState(...)`. A follower
with a when_spell_play Heal trigger fired on its leader for amount 0 — even
a 0-heal drives ApplyHealing → CreatePullHandInVfx → HandUnfocus → NRE.
Bid 799755786270: two consecutive spell plays both crashed this stack.
Added InternalsVisibleTo("SVSim.BattleEngine.Tests") so the shim-level
regression tests can pin the no-op contracts directly.
Plus the previous-session fixes carried in this same uncommitted state
(see docs/superpowers/plans/2026-06-07-shadow-engine-desync-handoff.md):
- doesPlayerGoFirst:true + mgr.IsFirst:true (turn-1 draw count correct
per seat)
- RecoveryOperationCollection.PlayHandCardOperation routes all type:30
through PlaySkillSelectHandCardOperation (skips the two-phase user-select
guard that aborts targeted spells in recovery)
- ShadowFeed + ToRawBody: server-generated typed bodies (DealBody, etc.)
converted to RawBody before engine.Receive (`env.Body as RawBody`
returned null for typed bodies)
- Ready idxChangeSeed seeds A's XorShift via the receiver; B's seed is
injected via SeedOppoIdxChange (BattleSeeds.IdxChange + viewerId)
- ReadySpin defaulted to 0 (was 243) — non-zero double-cranks the shadow
which ingests BOTH sides' Ready frames on one stream
Test counts: SVSim.UnitTests 1054/1054, SVSim.BattleEngine.Tests 34/34.
Open: known-residual Unity touches are individual whack-a-mole now (per-card
skill edge cases), not the structural divergences fixed here.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Source the played card's opponent-facing knownList[].cardId off the shadow engine
(SessionBattleEngine.PlayedCardId -> BattleCardBase.CardId), engine-first with the
wire-mined idx->cardId map as the fallback. PROVEN engine-resolved (each backed by a
HeadlessConductorTests PlayedCardId_* test): deck cards and receive-path substituted/
revealed tokens (engine seats the wire id at the wire idx).
PARTIAL retirement: the wire-mining bookkeeping (MineAddOps/MineChoicePicks/MineCopyTokens
+ Record*From) is KEPT as the load-bearing fallback. The choice/Discover, copy/clone and
cross-side (isSelf:0) token cases are NOT proven to resolve at a wire idx headless — the
autonomous token_draw path seats a chosen token at engine Index 0 (would collide with the
leader), and copy/cross-side aren't cheaply fixturable. Deleting their mining on faith
would silently corrupt opponent reveals, so it stays behind a TODO(M-HC-4f) gate.
- SessionBattleEngine.PlayedCardId: new accessor mirroring PlayedCardClan/Tribe.
- BuildPlayedCard: signature deckMap->explicit cardId; null on cardId==0 (no engine id AND
no mined/deck-map fallback).
- PlayActionsHandler: cardId = engine.PlayedCardId(seat, idx, fallback: mapped) ; mining retained.
- Tests: PlayedCardId_* (deck/substituted/degrade pass; choice-gap [Explicit] documents the
Index-0 finding). KnownListBuilder + CaptureConformance call-sites updated to new signature.
Full BattleNode suite 263/263 green; HeadlessConductorTests 27/27; drift clean; no Engine edits.
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
Prod always emits clan (int ClanType) + tribe (comma-joined int TribeType
string, "0" for none) on every knownList entry (battle-traffic_tk2_regular
.ndjson). Source both off the resolved engine (SessionBattleEngine.PlayedCardClan/
PlayedCardTribe -> BattleCardBase.Clan/Tribe), so skill-applied clan/tribe
changes ride the wire rather than the static card-master value. Thread through
KnownListBuilder.BuildPlayedCard + PlayActionsHandler; add clan/tribe to the
KnownCardEntry DTO (always present, non-null). Node-side only; no engine edits,
drift clean.
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
A targeted hand-play (PLAY_HAND_SELECT, opcode 31) and a choice play (PLAY_HAND +
keyAction type Choice) both resolve headless through the recovery receive conductor
with NO new shim/view fills — the 4a/4b view seeds (DetailPanelControl, _inPlayFrameEffect,
_playerInfoPair, HeadlessConductorVfxMgr) already cover the target/choice surface, because
the recovery path resolves targets/choices from the wire frame without the interactive
select UI, and the damage/token VFX execute through the existing top-level InstantVfx path.
Fixtures (cards.json, full skill mechanics):
- single-target: 100414020 (cost-1 Dragoncraft spell, when_play damage=2 to a selected
enemy unit). Asserts the enemy 1/4 (101411060) drops to life 2 — exact magnitude, survives.
- choice: 127011010 (cost-1 Neutral choice follower, choose 1 of 2 tokens to add to hand).
Asserts the chosen token (B) lands in hand and the un-chosen token (A) does not — decisive
about WHICH branch resolved. Wire keyAction shape cross-checked against a real capture of
this exact card (battle_test/rng/battle-traffic_cl1.ndjson); the receiver consumes a flat
selectCard list (ConvertToListInt).
Drivers: NodeNativeBattleHarness.TargetedPlayBody (reuses the {targetIdx,vid,selectSkillIndex}
target shape proven by AttackBody) + ChoicePlayBody. Zero Engine/*.cs edits (drift clean).
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
Drive ATTACK frames through the headless receive conductor and assert on engine
board state (node-native harness). Two cases: follower -> enemy leader (leader
life drops by atk, attacker spent) and a lethal follower-vs-follower trade (both
removed). ATTACK opcode confirmed = 10 (NetworkBattleDefine.PlayActionType).
Headless view-untangle (no Engine logic edits; drift clean):
- IBattlePlayerView.AttackSelectControl -> non-null HeadlessAttackSelectControl
(no-op RegisterAttackPair/ResetCardAfterAttack); IsCardTranslatable left to base.
- IBattleCardView.CardInfo -> backing card via BuildInfo (so IsCardTranslatable
reads authentic IsClass); class/null view ctors now chain : base(buildInfo).
- IBattleCardView._inPlayFrameEffect -> non-null no-op control.
- Seed Certification.viewer_id headless so the IsRecovery target parse
(vid != UserViewerID) does not throw inside SavedataManager and silently drop
the parsed targetList.
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
The headless engine accumulates spell-charge for real on the receive path
(each spell play runs the played card's own AddSpellChargeCount) and resolves
the discounted cost by construction, so the wire-derived spellboost-count
bookkeeping is redundant. Engine-source the knownList spellboost COUNT too
(prod-faithful) via a new SessionBattleEngine.PlayedCardSpellboost, using the
same persist-post-play zone search as PlayedCardCost (SpellChargeCount survives
PlayCard; only ctor/ReturnCard zero it).
- Delete IdxToSpellboost/SpellboostMap/GetSpellboostMap/RecordSpellboostFrom
(BattleSessionState) and MineAlterSpellboosts (KnownListBuilder); token/choice/
copy identity maps are untouched.
- BuildPlayedCard takes an engine-sourced spellboost int (drops spellboostMap).
- Seed BattleLogManager fusion lists headless (the per-frame filter cleanup
NREs on null EnemyFusionCard when a fanfare card registers a CalledCreateFilter)
so real spell-charge grantor plays resolve.
- Add committed real-charge regression tests (no SeedHandCardSpellboostCost seam):
one grantor play accumulates +1 on the reducer -> cost 5->4, count 1, persisting
post-play; handler emits cost 4 + spellboost 1 engine-sourced.
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
The opponent-facing PlayActions knownList now carries the engine-RESOLVED
play-time cost (KnownCardEntry.cost), sourced from the headless shadow engine's
PlayedCost on the just-resolved card. This closes the spellboost cost-desync BY
CONSTRUCTION: the engine already knows the true discounted cost (spellboost +
board modifiers folded in), so no bookkeeping is needed.
- DTO: add non-nullable cost to KnownCardEntry (prod emits cost 45/45).
- SessionBattleEngine.PlayedCardCost(seat, idx, fallback): finds the resolved
card by engine Index across in-play/cemetery/hand zones and returns PlayedCost
(captured by PlayCard at resolution == discounted Cost), degrading to fallback
when the engine is not owned/ready.
- PlayActionsHandler sources the played card's cost from ctx.Engine (ShadowIngest
already resolved the play before the handler runs). Spellboost-map plumbing
stays for now; Task 6 (M-HC-3b) retires it.
- Validation: engine-read test (charge-seeded reducer 101314020: base 5, cost
5/1/0 at charge 0/4/5) + handler-emit test asserting knownList[0].cost == 1
(discounted, not base 5) with non-vacuity. Board-dependent (when_evolve_other)
case deferred to M-HC-4 (evolve not yet headless); cost is read off the resolved
engine so board modifiers are captured by construction once their ops resolve.
- Harness: promote alt vanilla follower id (101211120) to AltVanillaFollowerId.
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
Drive a node-native battle to seat B's turn, then ingest an opponent
PlayActions reveal frame (knownList[{idx,cardId,to:Field}], isPlayerSeat:false)
matching battle_test_cl2's wire shape. The engine's ReplaceReceivedCard.ReplaceCard
-> CreateActualCard -> CreateBattleCardWithGameObject path resolves headless and
seats the substituted card on seat B's board with the wire cardId. No Engine/ logic
edits and no new view shims were needed — the card-creation view surface is fully
covered by the BackGround/icon-anim/play-queue/hand stubs from Tasks 2/3.
Adds InPlayCardId(seat, boardPos) accessor (SessionBattleEngine + harness) to read a
seated in-play follower's true identity, leader-excluded like BoardCount.
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
Task 2's WireMulliganPhase already installed the full mulligan delegate
set (Swap/Ready, not just Deal) via MulliganEventSetting, and the
mulligan + turn-draw mutations flow through VfxMgr.RegisterSequentialVfx
— which HeadlessConductorVfxMgr runs for InstantVfx. So Swap/Ready/
TurnStart/TurnEnd resolve headless with ZERO new shim/seed/view fills.
Adds the M-HC-1 milestone assertions: a mulligan-swap test (post-swap
hand holds deck idx 1,2,4 — idx-3 swapped for the next unused idx) and a
two-turn test (Deal->Swap->Ready->TurnStart/TurnEnd x2) asserting the
engine's deterministic node-native progression on both seats
(hand/deck/PP/turn/leader-life) at each boundary. Frame shapes mirror the
captured battle_test_cl1 receive stream (self/oppo pos-idx lists, spin).
Harness/node: +DeckCount/Turn board-state pass-throughs (test reads).
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
- _IfaceImpl.g.cs: extend header to warn about hand-edits; tag all bare
// HEADLESS-FIX lines with their milestone (M13 on GetSideLogControl ×2)
so `grep HEADLESS-FIX` reliably surfaces every block before a regen.
- HeadlessHandViewStub / HeadlessPlayQueueViewStub: narrow from public to
internal sealed — both stubs are consumed only within SVSim.BattleEngine
(via the generated partial impls); no public surface exposes the concrete
type, so internal is correct and aligns with HeadlessIconAnimations.
- SessionBattleEngine.SeedMulliganInfoControl: add one-line comment on the
GetComponent<MulliganInfoControl>() call explaining the shim's lazy
materialisation behaviour (otherwise reads like a guaranteed NRE).
Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
The engine's receive CONDUCTOR fuses each authoritative mutation behind a view
call: the play mutation is an InstantVfx registered to VfxMgr, and the deal hand
is seated by MulliganPhaseBase.StartDeal wired to OperateReceive.OnReceiveDeal.
Headless, the shared VfxMgr no-op'd registration (correct for the direct
ActionProcessor path the M2-M12 oracles use) and OnReceiveDeal was never wired,
so the receive path resolved nothing.
Untangle (Candidate B, zero Engine logic edits):
- InstantVfx.Run() opt-in executor (authored shim).
- HeadlessConductorVfxMgr : VfxMgr runs registered InstantVfx; wired only via the
node's SessionContentsCreator.CreateVfxMgr (verified the receive mgr's VfxMgr
comes from there — BattleManagerBase.cs:768). M2-M12 use HeadlessContentsCreator,
so they're isolated by construction.
- WireMulliganPhase: construct NetworkMulliganPhase + MulliganEventSetting() to
install OnReceiveDeal -> StartDeal (the node never pumps the phase machine).
View no-op surface (the 7 from the probe, minus 1 not hit; +1 emergent):
- Deal wiring (NetworkMulliganPhase) [node seed]
- MulliganInfoControl._partsPlayer/_partsOpponent._exchangeMark/_keepZone/_abandonZone [node seed: prefab + SeedMulliganInfoControl]
- Data.BattleRecoveryInfo (IsMulliganEnd=false) [EngineGlobalInit seed]
- IBattlePlayerView.PlayQueueView -> HeadlessPlayQueueViewStub [_IfaceImpl.g.cs, both getters]
- DetailMgr.DetailPanelControl/SubDetailPanelControl [node seed]
- BattleCardIconAnimations.collection (emergent: UpdateInPlayBattleCardIconLabel) -> HeadlessIconAnimations empty SkillCollectionBase [_IfaceImpl.g.cs]
- BattleMenuBtn (probe item 7): NOT hit on the vanilla path; not seeded.
Oracle (HeadlessConductorTests): node Deal seats 3-card hand; a vanilla
hand-card Play leaves hand (-1), adds board (+1), drops PP by cost.
Regression: 24/24 BattleEngine.Tests oracles (M2-M12) green; 241/241
SVSim.UnitTests BattleNode green. The 2 SessionEngine capture-replay shadow
tests are marked Ignore (superseded): they passed VACUOUSLY when the receive
path resolved nothing; with resolution live they hit the documented
capture-replay draw-misalignment artifact. Node-native battles are the oracle.
Drift: no drift.
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
Adds SessionBattleEngine.PlayedCardSpellboost + PeekPlayedCardSpellboost (pre-resolve
read of the acting seat's hand card by Index==playIdx) and a CaptureReplay.InterleavedSends
helper. The non-circular capture oracle (engine-derived spellboost vs prod's independent
emission to cl2: idx2->1, idx14->2) is added but [Ignore]'d: the headless receive path does
not apply the wire's authoritative orderList (Deal/Swap don't seat the mulligan hand, draws
follow the seeded deck top instead of the wire move ops, plays never remove the card, alter
spellboost never accumulates), so the engine cannot yet DERIVE the count. Closing this needs
an Engine/*.cs + VfxMgr-execution logic change (escalation per the N2 playbook), not a
mechanical no-op fill. Read surface, node + engine builds, drift, and the rest of the
SessionEngine suite are green.
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
The engine is constructed per session, seated once from the master seed + both
shuffled decks (F-N-5), and fed each frame via ShadowIngest — all inside a
try/catch in ComputeFrames so a shadow failure can never break live dispatch
(ND1/ND6). Routes still come from the existing handlers: wire output is
byte-for-byte unchanged. FrameDispatchContext gains the Engine ref for N2+.
csproj: PrivateAssets=compile on the engine ref so its global-namespace type
surface (MessagePackSerializer, UserConfig, UserCard, ChallengeConfig, ...) does
not leak transitively into SVSim.EmulatedEntrypoint (which references BattleNode)
and collide with that project's own types; the runtime DLL still flows.
All 238 BattleNode unit tests pass; EmulatedEntrypoint builds clean.
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
Full single-client capture replay (cl1 send=player seat, receive=opponent seat,
ts-ordered) ingests end-to-end: 33 frames, 0 rejects, 0 invariant violations at
turn boundaries (leader life/PP/board/hand).
Headless gaps filled per playbook (no Engine/ drift):
- IsRecovery=true after construction: the engine's own headless replay mode gates
the live view/UI layer off (BattleUIContainer, turn-control UI, VFX waits) while
keeping the live NetworkBattleReceiver (ND4) and authoritative state.
- Seed ToolboxGame.RealTimeNetworkAgent, BattleUIContainer, _backGround, and
per-player NullPlayerEmotion no-ops the receive/turn cycle dereferences.
- _IfaceImpl.g.cs (shim, not Engine/): BattleCardView.BattleCardIconAnimations
returns a lazy non-null no-op so the opponent card-reveal icon-init (deferred
VFX) doesn't NRE.
- HeadlessCardMaster.Load made cumulative: it replaced the global CardMaster each
call, so a Load(deck) evicted the oracle card set and broke tests run after.
Adds board-state accessors (LeaderLife/Pp/HandCount/BoardCount) and CaptureReplay
ts ordering.
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
Receive feeds the decoded frame into the mgr's own NetworkBattleReceiver
(isHaveSequence:true, checkBreakData:false — mirroring the engine's
RecoveryDataHandler frame replay), reboxing object?->object for nested data.
No engine gaps surfaced; the only fix was a test-harness one (load all deck ids
in a single HeadlessCardMaster.Load — per-id calls each replace the master).
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
CaptureReplay normalizes the capture's send/receive envelope asymmetry (send
frames carry uri at top level + bare payload body; receive frames carry a full
envelope body) and extracts selfDeck + master seed from Matched.
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
Mirrors HeadlessFixture.NewNetworkEmitBattle wiring (opponent seating, leader
life, card templates, deck seeding) minus the emit-only RealTimeNetworkAgent
scaffolding (shadow only receives). Probe passed first run — M13 already filled
the network-mgr construction gaps. No Engine/ edits; drift clean.
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
SessionContentsCreator mirrors the test HeadlessContentsCreator fully (all
IBattleMgrContentsCreator members) so it compiles; Setup/Receive throw pending
the Task 3/4 probes. New files use the 'engine' extern alias.
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
Aliased (extern alias 'engine') to confine the decompiled engine's large
global-namespace type surface, which would otherwise collide with node types
(BattlePlayer, MessagePackSerializer). Also expose internals to
SVSim.BattleEngine.Tests for the upcoming N0/N1 tests.
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
