package plugin // Characterization test for the auto-resolve combat engine. // // This pins the *exact* event stream SimulateCombat produces for a curated set // of scenarios, driven by a seeded RNG so the output is reproducible. It is a // safety net for the upcoming shared-primitives extraction (turn-based engine // work): any change that perturbs the auto-resolve event sequence will fail // here, forcing a deliberate `-update` regeneration + diff review. // // It asserts behavior, not correctness — a failing diff means "you changed // something", not "you broke something". Review the diff, and if the change is // intended, regenerate with: // // go test ./internal/plugin -run TestCombatCharacterization -update import ( "flag" "fmt" "math/rand/v2" "os" "path/filepath" "strings" "testing" ) var updateCharacterization = flag.Bool("update", false, "regenerate combat characterization golden file") // charScenario is one pinned combat setup. The same player/enemy/phases are // run across a fixed set of seeds so the snapshot captures multiple RNG // branches (hit/miss/crit/proc) of the same configuration. type charScenario struct { name string player Combatant enemy Combatant phases []CombatPhase } func characterizationScenarios() []charScenario { // Local builders so the scenarios don't depend on mutation order of the // shared basePlayer()/baseEnemy() helpers. weaponPlayer := func() Combatant { p := basePlayer() p.Stats.Weapon = weaponByID("wpn_longsword") return p } return []charScenario{ {"basic", basePlayer(), baseEnemy(), defaultCombatPhases}, {"dungeon_phases", basePlayer(), baseEnemy(), dungeonCombatPhases}, {"boss_phases", func() Combatant { e := baseEnemy() e.Stats.MaxHP = 220 e.Stats.Attack = 22 return basePlayer() }(), func() Combatant { e := baseEnemy() e.Name = "Boss" e.Stats.MaxHP = 220 e.Stats.Attack = 22 return e }(), bossCombatPhases}, {"strong_enemy", func() Combatant { p := basePlayer() p.Stats.MaxHP = 50 p.Stats.Attack = 8 return p }(), func() Combatant { e := baseEnemy() e.Stats.MaxHP = 200 e.Stats.Attack = 30 e.Stats.Defense = 12 return e }(), defaultCombatPhases}, {"sniper_kill", func() Combatant { p := basePlayer() p.Mods.SniperKillProc = 1.0 return p }(), baseEnemy(), defaultCombatPhases}, {"flat_dmg_start", func() Combatant { p := basePlayer() p.Mods.FlatDmgStart = 20 return p }(), baseEnemy(), defaultCombatPhases}, {"spell_pre_damage", func() Combatant { p := basePlayer() p.Mods.SpellPreDamage = 18 p.Mods.SpellPreDamageDesc = "Fireball" return p }(), baseEnemy(), defaultCombatPhases}, {"spell_enemy_skip_first", func() Combatant { p := basePlayer() p.Mods.SpellPreDamage = 5 p.Mods.SpellPreDamageDesc = "Hold Person" p.Mods.SpellEnemySkipFirst = true return p }(), baseEnemy(), defaultCombatPhases}, {"heal_item", func() Combatant { p := basePlayer() p.Mods.HealItem = 30 return p }(), func() Combatant { e := baseEnemy() e.Stats.Attack = 20 return e }(), defaultCombatPhases}, {"ward_absorb", func() Combatant { p := basePlayer() p.Mods.WardCharges = 1 return p }(), func() Combatant { e := baseEnemy() e.Stats.Attack = 30 return e }(), defaultCombatPhases}, {"spore_cloud", func() Combatant { p := basePlayer() p.Mods.SporeCloud = 10 return p }(), func() Combatant { e := baseEnemy() e.Stats.Attack = 15 return e }(), defaultCombatPhases}, {"reflect_next", func() Combatant { p := basePlayer() p.Mods.ReflectNext = 0.5 return p }(), func() Combatant { e := baseEnemy() e.Stats.Attack = 20 return e }(), defaultCombatPhases}, {"auto_crit_first", func() Combatant { p := basePlayer() p.Mods.AutoCritFirst = true p.Stats.CritRate = 0 return p }(), baseEnemy(), defaultCombatPhases}, {"pet_attack", func() Combatant { p := basePlayer() p.Mods.PetAttackProc = 1.0 p.Mods.PetAttackDmg = 10 return p }(), baseEnemy(), defaultCombatPhases}, {"misty_heal", func() Combatant { p := basePlayer() p.Mods.MistyHealProc = 1.0 p.Mods.MistyHealAmt = 10 return p }(), func() Combatant { e := baseEnemy() e.Stats.Attack = 15 return e }(), defaultCombatPhases}, {"death_save", func() Combatant { p := basePlayer() p.Stats.MaxHP = 30 p.Mods.DeathSave = true return p }(), func() Combatant { e := baseEnemy() e.Stats.Attack = 40 e.Stats.MaxHP = 200 return e }(), defaultCombatPhases}, {"ability_poison", basePlayer(), func() Combatant { e := baseEnemy() e.Ability = &MonsterAbility{Name: "Venom Bite", Phase: "any", ProcChance: 1.0, Effect: "poison"} return e }(), defaultCombatPhases}, {"ability_enrage", func() Combatant { p := basePlayer() p.Stats.Attack = 12 return p }(), func() Combatant { e := baseEnemy() e.Stats.MaxHP = 50 e.Stats.Attack = 6 e.Ability = &MonsterAbility{Name: "Berserk", Phase: "any", ProcChance: 1.0, Effect: "enrage"} return e }(), defaultCombatPhases}, {"ability_armor_break", basePlayer(), func() Combatant { e := baseEnemy() e.Ability = &MonsterAbility{Name: "Rend", Phase: "opening", ProcChance: 1.0, Effect: "armor_break"} return e }(), defaultCombatPhases}, {"ability_stun", basePlayer(), func() Combatant { e := baseEnemy() e.Ability = &MonsterAbility{Name: "Bash", Phase: "any", ProcChance: 1.0, Effect: "stun"} return e }(), defaultCombatPhases}, {"ability_lifesteal", basePlayer(), func() Combatant { e := baseEnemy() e.Stats.MaxHP = 100 e.Ability = &MonsterAbility{Name: "Drain", Phase: "any", ProcChance: 1.0, Effect: "lifesteal"} return e }(), defaultCombatPhases}, {"ability_cleave", basePlayer(), func() Combatant { e := baseEnemy() e.Ability = &MonsterAbility{Name: "Cleave", Phase: "clash", ProcChance: 1.0, Effect: "cleave"} return e }(), defaultCombatPhases}, {"weapon_profile", weaponPlayer(), baseEnemy(), defaultCombatPhases}, } } // charSeeds drives each scenario. Multiple seeds widen RNG-branch coverage // without exploding the golden file. var charSeeds = []uint64{1, 2, 3, 7, 42} func TestCombatCharacterization(t *testing.T) { var b strings.Builder for _, sc := range characterizationScenarios() { for _, seed := range charSeeds { // PCG with a per-(scenario,seed) stream so scenarios don't share // a sequence. The literal constant just disambiguates the stream. rng := rand.New(rand.NewPCG(seed, 0xC0FFEE)) res := simulateCombatWithRNG(sc.player, sc.enemy, sc.phases, rng) fmt.Fprintf(&b, "=== %s seed=%d ===\n", sc.name, seed) b.WriteString(formatResult(res)) b.WriteString("\n") } } got := b.String() goldenPath := filepath.Join("testdata", "combat_characterization.golden") if *updateCharacterization { if err := os.WriteFile(goldenPath, []byte(got), 0o644); err != nil { t.Fatalf("write golden: %v", err) } t.Logf("updated %s", goldenPath) return } want, err := os.ReadFile(goldenPath) if err != nil { t.Fatalf("read golden (run with -update to create): %v", err) } if got != string(want) { t.Errorf("combat event stream diverged from golden file.\n"+ "If this change is intentional, regenerate with:\n"+ " go test ./internal/plugin -run TestCombatCharacterization -update\n"+ "then review the diff.\n\n%s", firstDiff(string(want), got)) } } // formatResult serializes a CombatResult to a stable, line-oriented text form. // Every event is dumped; summary fields follow. Field order is fixed so a diff // pinpoints exactly what moved. func formatResult(r CombatResult) string { var b strings.Builder fmt.Fprintf(&b, "result: won=%v timedOut=%v rounds=%d\n", r.PlayerWon, r.TimedOut, r.TotalRounds) fmt.Fprintf(&b, " hp: playerStart=%d playerEntry=%d playerEnd=%d enemyStart=%d enemyEntry=%d enemyEnd=%d\n", r.PlayerStartHP, r.PlayerEntryHP, r.PlayerEndHP, r.EnemyStartHP, r.EnemyEntryHP, r.EnemyEndHP) fmt.Fprintf(&b, " flags: nearDeath=%v pet=%v petDeflect=%v sniper=%v misty=%v closeness=%.4f\n", r.NearDeath, r.PetAttacked, r.PetDeflected, r.SniperKilled, r.MistyHealed, r.Closeness) for i, e := range r.Events { fmt.Fprintf(&b, " [%02d] r%d %-12s %-8s %-16s dmg=%-5d php=%-4d ehp=%-4d roll=%d/%d desc=%q\n", i, e.Round, e.Phase, e.Actor, e.Action, e.Damage, e.PlayerHP, e.EnemyHP, e.Roll, e.RollAgainst, e.Desc) } return b.String() } // firstDiff returns a short window around the first differing line, so test // output points straight at the divergence instead of dumping the whole file. func firstDiff(want, got string) string { wl := strings.Split(want, "\n") gl := strings.Split(got, "\n") for i := 0; i < len(wl) || i < len(gl); i++ { var w, g string if i < len(wl) { w = wl[i] } if i < len(gl) { g = gl[i] } if w != g { lo := i - 3 if lo < 0 { lo = 0 } var b strings.Builder fmt.Fprintf(&b, "first divergence at line %d:\n", i+1) for j := lo; j < i; j++ { if j < len(gl) { fmt.Fprintf(&b, " ctx: %s\n", gl[j]) } } fmt.Fprintf(&b, " want: %s\n", w) fmt.Fprintf(&b, " got: %s\n", g) return b.String() } } return "(files differ but no line-level diff found — trailing whitespace?)" }