Files
gogobee/internal/plugin/combat_session_build.go
prosolis 0d18cea59a N3/P8: scale the enemy's action economy to the party
A party of N used to face one enemy swing a round against a single seat, so
each member absorbed ~1/N² of the solo incoming and cleared 100% of every T5
cell. The enemy now takes enemyActionsThisRound() attack-actions, each
re-targeted at a fresh standing seat, in both combat engines:

  - auto-resolve (simulatePartyRound): enemyRoundSwings loops the actions,
    re-rolling each target's pet procs.
  - turn engine (stepEnemyTurn): enemyAttackAction resolves one full SRD
    multiattack per action; step() no longer blanket-stamps the enemy turn to
    one seat, since a party's enemy now hits several.

The action count is a fractional expectation realised as a per-round coin-flip
(2.4 for a duo, 2N-1 for N>=3), because the integer lever is too coarse at small
N -- against a duo, 2 actions is a ~91% faceroll and 3 a ~45% grinder, with
nothing between. A light party-only enemy HP scalar (x1.15) trims the martial
ceiling that action count alone leaves at 100%.

Solo is exempt on both levers (1 action, no RNG draw; x1.0 HP), so
TestCombatCharacterization is byte-identical and the d8prereq corpus still
compares. Sim band (party of 3, T5, HP scaled): fighter 70->90%, cleric-led
27->72% -- monotonic by party size, no composition worse than soloing.

Claude-Session: https://claude.ai/code/session_017mEwUmmS7aQTP2NQXj6rUa
2026-07-10 12:44:19 -07:00

293 lines
12 KiB
Go

package plugin
import (
"fmt"
"log/slog"
"maunium.net/go/mautrix/id"
)
// Phase 13 — Combatant reconstruction for turn-based fights.
//
// The auto-resolve path (runZoneCombat) builds a player/enemy Combatant pair,
// runs SimulateCombat, and discards them. The turn-based path needs the same
// pair, but rebuilt fresh on every player command from persisted session
// state — so the build is extracted here as buildZoneCombatants, and
// combatantsForSession wraps it for the resume case.
//
// HP is deliberately NOT carried by the Combatant pair: the turn engine reads
// live HP from the CombatSession row (sess.PlayerHP / sess.EnemyHP), so the
// rebuilt Combatants only need correct Stats/Mods/Ability. Re-deriving from
// current character state each round is safe because zone equipment, streaks,
// and bonuses don't change mid-fight.
//
// applyPendingCast and the auto-heal consumable setup are intentionally left
// out of the shared builder — those are one-shot mutations that runZoneCombat
// applies once before SimulateCombat. Re-applying them on every turn-based
// round would double-consume. Mid-fight !cast / !consume buffs are instead
// persisted on the CombatSession and folded back in by combatantsForSession
// via applySessionBuffs.
// buildZoneCombatants derives the player/enemy Combatant pair for a zone
// encounter: the player's full D&D layer (stats + class/race/subclass passives
// + armed ability) and the monster's bestiary stat block with tier scaling and
// the DM-mood combat tilt folded in. The returned dndChar is handed back so
// callers can run post-combat subclass persistence without reloading it.
//
// armed is the ability id already consumed for this fight (consumeArmedAbility,
// or armAbilityForFight's return on the auto-resolve paths); "" means none. The
// build re-applies it rather than consuming, because the turn-based path calls
// this once per player command and a consuming build would spend the ability on
// round 1 and drop it for the rest of the fight.
func (p *AdventurePlugin) buildZoneCombatants(
userID id.UserID,
monster DnDMonsterTemplate,
tier int,
dmMood int,
armed string,
) (player Combatant, enemy Combatant, dndChar *DnDCharacter, err error) {
tilt := dmMoodCombatTilt(dmMood)
char, err := loadAdvCharacter(userID)
if err != nil || char == nil {
return Combatant{}, Combatant{}, nil, fmt.Errorf("load adv character: %w", err)
}
equip, err := loadAdvEquipment(userID)
if err != nil {
return Combatant{}, Combatant{}, nil, fmt.Errorf("load equipment: %w", err)
}
bonuses := p.loadCombatBonuses(userID, char)
chatLvl := p.chatLevel(userID)
playerStats, playerMods := DerivePlayerStats(char, equip, bonuses, chatLvl, char.CurrentStreak, false)
dndChar, _, err = ensureDnDCharacterForCombat(userID, char)
if err != nil {
return Combatant{}, Combatant{}, nil, fmt.Errorf("ensure dnd character: %w", err)
}
applyDnDPlayerLayer(&playerStats, dndChar)
applyDnDEquipmentLayer(&playerStats, dndChar, equip)
applyDnDHPScaling(&playerStats, dndChar)
applyClassPassives(&playerStats, &playerMods, dndChar)
applyRacePassives(&playerStats, &playerMods, dndChar)
applySubclassPassives(&playerStats, &playerMods, dndChar)
applyMagicItemEffects(&playerStats, &playerMods, userID)
applyAbilityByID(dndChar, armed, &playerMods)
enemyStats, enemyMods := monster.toCombatStats()
// Tier scaling mirrors runZoneCombat: only raise AC/AttackBonus to a
// tier floor — boss/elite stat blocks already encode their challenge, so
// we never double-scale a block that's already above the floor.
if tier > 1 {
floorAC := dndDungeonACBase + tier
if enemyStats.AC < floorAC {
enemyStats.AC = floorAC
}
floorAB := dndDungeonAtkBase + tier
if enemyStats.AttackBonus < floorAB {
enemyStats.AttackBonus = floorAB
}
}
// DM mood tilts: monster Attack delta + player initiative bias.
enemyStats.Attack += tilt.EnemyAttackDelta
if enemyStats.Attack < 1 {
enemyStats.Attack = 1
}
playerMods.InitiativeBias += tilt.InitiativeBias
displayName, _ := loadDisplayName(userID)
player = Combatant{
Name: displayName,
Stats: playerStats,
Mods: playerMods,
IsPlayer: true,
}
enemy = Combatant{
Name: monster.Name,
Stats: enemyStats,
Mods: enemyMods,
Ability: monster.Ability,
}
return player, enemy, dndChar, nil
}
// combatantsForSession reconstructs the Combatant pair for an in-flight solo
// CombatSession — the shape every caller wanted before parties existed. It is
// partyCombatantsForSession reduced to seat 0, and it errors rather than
// silently dropping the rest of a party's roster on the floor.
func (p *AdventurePlugin) combatantsForSession(sess *CombatSession) (player Combatant, enemy Combatant, err error) {
if sess.IsParty() {
return Combatant{}, Combatant{}, fmt.Errorf(
"combat session %s seats %d players; use partyCombatantsForSession", sess.SessionID, sess.RosterSize())
}
players, e, err := p.partyCombatantsForSession(sess)
if err != nil {
return Combatant{}, Combatant{}, err
}
return *players[0], *e, nil
}
// partyCombatantsForSession reconstructs the seated roster and the enemy for an
// in-flight CombatSession. It reloads the zone run for the DM mood + tier and
// looks the enemy up in the bestiary by the session's EnemyID. The combatants
// carry no HP — the turn engine reads that from the session row and the
// participant rows.
//
// Every seat is rebuilt from *its own* player: their sheet, their equipment,
// their passives, their magic items. That is N times the per-round DB chatter
// combatantsForSession already had (project_combat_session_cache_deferred), and
// a party of 3 pays it three times over. Solo — every fight that has ever run,
// and the whole balance corpus — still issues exactly one build.
func (p *AdventurePlugin) partyCombatantsForSession(sess *CombatSession) ([]*Combatant, *Combatant, error) {
run, rerr := getZoneRun(sess.RunID)
if rerr != nil {
return nil, nil, fmt.Errorf("load zone run: %w", rerr)
}
if run == nil {
return nil, nil, fmt.Errorf("combat session %s: zone run %s not found", sess.SessionID, sess.RunID)
}
monster, ok := dndBestiary[sess.EnemyID]
if !ok {
return nil, nil, fmt.Errorf("combat session %s: enemy %q not in bestiary", sess.SessionID, sess.EnemyID)
}
zone := zoneOrFallback(run.ZoneID)
seats := sess.SeatUserIDs()
players := make([]*Combatant, len(seats))
var enemy Combatant
for seat, uid := range seats {
// The ability this seat armed was consumed once, at fight start, and its
// id parked on their statuses. Re-applying it here — not re-consuming —
// is what makes a rage last the whole fight instead of one round.
st := sess.actorStatusesForSeat(seat)
player, e, _, err := p.buildZoneCombatants(id.UserID(uid), monster, int(zone.Tier), run.DMMood, st.ArmedAbility)
if err != nil {
return nil, nil, fmt.Errorf("seat %d (%s): %w", seat, uid, err)
}
// Fold any fight-scoped buffs this seat's mid-fight !cast / !consume
// layered on back onto their freshly-rebuilt combatant. The depleting
// one-shots (ward/spore/…) live on their persisted statuses and flow
// through the turn engine's resume/commit cycle, so only the persistent
// stat deltas are applied here — and only that seat's own.
applySessionBuffs(&player, st)
players[seat] = &player
if seat == 0 {
// The enemy build reads only (monster, tier, dmMood): every seat
// rebuilds the identical stat block, so seat 0's copy is the fight's.
// Only the *player* half of the build varies by seat.
enemy = e
// Party-only enemy HP bump, re-derived each turn from the template so
// it never compounds. Matches the scalar startPartyCombatSession used
// for the initial persist; solo (roster 1) scales by 1.0.
if sess.IsParty() {
enemy.Stats.MaxHP = scaledEnemyMaxHP(enemy.Stats.MaxHP, sess.RosterSize())
}
}
}
return players, &enemy, nil
}
// seatFightStartMods re-derives the modifiers a finished fight's close-out still
// needs: the Berserker's rage flag, which decides whether the character owes a
// point of exhaustion, and the Necromancy Mage's Grim Harvest stash.
//
// It re-applies the seat's armed ability to an empty mod set rather than
// rebuilding the whole combatant: no Apply writes to the character (they read
// level and HP and write only mods), so this is pure, and the passive/equipment
// layers a full build would add are not read by any post-combat hook.
//
// The Grim Harvest pair is not re-derived but read back off the seat's
// statuses, where castActionForSeat parked it: the spell that stashed it was
// cast mid-fight, not at fight start, and nothing in the character sheet still
// remembers which one it was.
func seatFightStartMods(sess *CombatSession, seat int, c *DnDCharacter) CombatModifiers {
var mods CombatModifiers
st := sess.actorStatusesForSeat(seat)
applyAbilityByID(c, st.ArmedAbility, &mods)
mods.GrimHarvestSlot = st.GrimHarvestSlot
mods.GrimHarvestNecrotic = st.GrimHarvestNecrotic
return mods
}
// seatCombatResult reconstructs, for one seat of a finished turn-based fight,
// the slice of CombatResult that the post-combat hooks actually read. The turn
// engine never builds a CombatResult — it persists a session and a shared event
// log — so the close-out has to assemble one.
//
// MistyHealed is read back off the seat's event log rather than off a flag: the
// turn engine's CombatResult is a scratch value it discards between steps, and
// the log is the only thing that survives to the close-out. This is how
// combat_pet_save has always been detected.
//
// SniperKilled stays false. Arina's proc is a pre-combat one-shot, not a
// round-end effect, so seatEndOfRound does not carry it and the turn engine
// still has no place to fire it — combat_sniper_kill remains unreachable from a
// manual kill.
//
// NearDeath mirrors the auto-resolve engine's win threshold (below 15% of max);
// its loss-side meaning is unused here, since the only hook that reads it gates
// on PlayerWon.
func seatCombatResult(sess *CombatSession, seat int) CombatResult {
hp, hpMax := sess.seatHP(seat), sess.seatHPMax(seat)
won := sess.Status == CombatStatusWon
events := eventsForSeat(sess.TurnLog, seat)
return CombatResult{
PlayerWon: won,
Events: events,
PlayerEndHP: hp,
EnemyEndHP: sess.EnemyHP,
TotalRounds: sess.Round,
NearDeath: won && hp > 0 && float64(hp) < float64(max(1, hpMax))*0.15,
MistyHealed: hasAction(events, "misty_heal"),
}
}
// hasAction reports whether the event log holds at least one event with the
// given Action. The one-line "did this happen in the fight?" scan the close-out
// uses to read a proc's outcome off the log rather than a flag.
func hasAction(events []CombatEvent, action string) bool {
for _, e := range events {
if e.Action == action {
return true
}
}
return false
}
// postCombatBookkeepingForSeat is postCombatBookkeeping for one seat of a
// terminal turn-based session — the bridge between what the turn engine
// persisted and what the shared close-out expects.
func (p *AdventurePlugin) postCombatBookkeepingForSeat(sess *CombatSession, seat int) {
uid := id.UserID(sess.seatUserID(seat))
// Loaded after the caller's persistDnDHPAfterCombat, so a Grim-Harvest-style
// hook that heals off HPCurrent reads the fight's real ending HP.
c, err := LoadDnDCharacter(uid)
if err != nil || c == nil {
slog.Error("combat: post-combat bookkeeping skipped, no sheet", "user", uid, "err", err)
return
}
mods := seatFightStartMods(sess, seat, c)
p.postCombatBookkeeping(uid, c, mods.BerserkerRage, seatCombatResult(sess, seat), mods)
}
// applySessionBuffs re-derives the persistent stat effect of every mid-fight
// buff onto one rebuilt character. The buffs are stored as accumulated deltas
// (diffTurnBuff produced them against that character's state at cast time), so
// re-applying them to a deterministic rebuild reproduces the same totals every
// round without double-counting. It takes ActorStatuses rather than the whole
// session because buffs are per-caster: each seat folds in only its own.
func applySessionBuffs(player *Combatant, s ActorStatuses) {
player.Stats.AC += s.BuffACBonus
player.Stats.AttackBonus += s.BuffAtkBonus
player.Stats.Speed += s.BuffSpeedBonus
player.Stats.CritRate += s.BuffCritRate
player.Mods.DamageBonus += s.BuffDamageBonus
player.Mods.PetAttackProc += s.BuffPetProc
player.Mods.PetAttackDmg += s.BuffPetDmg
player.Mods.SpiritWeaponProc += s.BuffSpiritProc
player.Mods.SpiritWeaponDmg += s.BuffSpiritDmg
if s.BuffDamageReductMul > 0 {
player.Mods.DamageReduct *= s.BuffDamageReductMul
}
}