package datadict import ( "log" "strings" "github.com/OpenDiablo2/OpenDiablo2/d2common" "github.com/OpenDiablo2/OpenDiablo2/d2common/d2interface" dh "github.com/OpenDiablo2/OpenDiablo2/d2helper" ) // An ObjectRecord represents the settings for one type of object from objects.txt type ObjectRecord struct { Name string Description string Id int Token string // refers to what graphics this object uses SpawnMax int // unused? Selectable [8]bool // is this mode selectable TrapProbability int // unused SizeX int SizeY int NTgtFX int // unknown NTgtFY int // unknown NTgtBX int // unknown NTgtBY int // unknown FrameCount [8]int // how many frames does this mode have, 0 = skip FrameDelta [8]int // what rate is the animation played at (256 = 100% speed) CycleAnimation [8]bool // probably whether animation loops LightDiameter [8]int BlocksLight [8]bool HasCollision [8]bool IsAttackable bool // do we kick it when interacting StartFrame [8]int EnvEffect bool // unknown IsDoor bool BlockVisibility bool // only works with IsDoor Orientation int // unknown (1=sw, 2=nw, 3=se, 4=ne) Trans int // controls palette mapping OrderFlag [8]int // 0 = object, 1 = floor, 2 = wall PreOperate bool // unknown HasAnimationMode [8]bool // 'Mode' in source, true if this mode is used XOffset int // in pixels offset YOffset int Draw bool // if false, object isn't drawn (shadow is still drawn and player can still select though) LightRed byte // if lightdiameter is set, rgb of the light LightGreen byte LightBlue byte SelHD bool // whether these DCC components are selectable SelTR bool SelLG bool SelRA bool SelLA bool SelRH bool SelLH bool SelSH bool SelS [8]bool TotalPieces int // selectable DCC components count SubClass int // subclass of object: // 1 = shrine // 2 = obelisk // 4 = portal // 8 = container // 16 = arcane sanctuary gateway // 32 = well // 64 = waypoint // 128 = secret jails door XSpace int // unknown YSpace int NameOffset int // pixels to offset the name from the animation pivot MonsterOk bool // unknown OperateRange int // distance object can be used from, might be unused ShrineFunction int // unused Restore bool // if true, object is stored in memory and will be retained if you leave and re-enter the area Parm [8]int // unknown Act int // what acts this object can appear in (15 = all three) Lockable bool Gore bool // unknown, something with corpses Sync bool // unknown Flicker bool // light flickers if true Damage int // amount of damage done by this (used depending on operatefn) Beta bool // if true, appeared in the beta? Overlay bool // unknown CollisionSubst bool // unknown, controls some kind of special collision checking? Left int // unknown, clickable bounding box? Top int Width int Height int OperateFn int // what function is called when the player clicks on the object // (todo: we should enumerate all the functions somewhere, but probably not here // b/c it's a very long list) PopulateFn int // what function is used to spawn this object? // (see above todo) InitFn int // what function is run when the object is initialized? // (see above todo) ClientFn int // controls special audio-visual functions // (see above todo) RestoreVirgins bool // if true, only restores unused objects (see Restore) BlockMissile bool // if true, missiles collide with this DrawUnder bool // if true, drawn as a floor tile is OpenWarp bool // needs clarification, controls whether highlighting shows // 'To ...' or 'trap door' when highlighting, not sure which is T/F AutoMap int // controls how this object appears on the map // 0 = it doesn't, rest of modes need to be analyzed } // CreateObjectRecord parses a row from objects.txt into an object record func createObjectRecord(props []string) ObjectRecord { i := -1 inc := func() int { i++ return i } result := ObjectRecord{ Name: props[inc()], Description: props[inc()], Id: dh.StringToInt(props[inc()]), Token: props[inc()], SpawnMax: dh.StringToInt(props[inc()]), Selectable: [8]bool{ dh.StringToUint8(props[inc()]) == 1, dh.StringToUint8(props[inc()]) == 1, dh.StringToUint8(props[inc()]) == 1, dh.StringToUint8(props[inc()]) == 1, dh.StringToUint8(props[inc()]) == 1, dh.StringToUint8(props[inc()]) == 1, dh.StringToUint8(props[inc()]) == 1, dh.StringToUint8(props[inc()]) == 1, }, TrapProbability: dh.StringToInt(props[inc()]), SizeX: dh.StringToInt(props[inc()]), SizeY: dh.StringToInt(props[inc()]), NTgtFX: dh.StringToInt(props[inc()]), NTgtFY: dh.StringToInt(props[inc()]), NTgtBX: dh.StringToInt(props[inc()]), NTgtBY: dh.StringToInt(props[inc()]), FrameCount: [8]int{ dh.StringToInt(props[inc()]), dh.StringToInt(props[inc()]), dh.StringToInt(props[inc()]), dh.StringToInt(props[inc()]), dh.StringToInt(props[inc()]), dh.StringToInt(props[inc()]), dh.StringToInt(props[inc()]), dh.StringToInt(props[inc()]), }, FrameDelta: [8]int{ dh.StringToInt(props[inc()]), dh.StringToInt(props[inc()]), dh.StringToInt(props[inc()]), dh.StringToInt(props[inc()]), dh.StringToInt(props[inc()]), dh.StringToInt(props[inc()]), dh.StringToInt(props[inc()]), dh.StringToInt(props[inc()]), }, CycleAnimation: [8]bool{ dh.StringToUint8(props[inc()]) == 1, dh.StringToUint8(props[inc()]) == 1, dh.StringToUint8(props[inc()]) == 1, dh.StringToUint8(props[inc()]) == 1, dh.StringToUint8(props[inc()]) == 1, dh.StringToUint8(props[inc()]) == 1, dh.StringToUint8(props[inc()]) == 1, dh.StringToUint8(props[inc()]) == 1, }, LightDiameter: [8]int{ dh.StringToInt(props[inc()]), dh.StringToInt(props[inc()]), dh.StringToInt(props[inc()]), dh.StringToInt(props[inc()]), dh.StringToInt(props[inc()]), dh.StringToInt(props[inc()]), dh.StringToInt(props[inc()]), dh.StringToInt(props[inc()]), }, BlocksLight: [8]bool{ dh.StringToUint8(props[inc()]) == 1, dh.StringToUint8(props[inc()]) == 1, dh.StringToUint8(props[inc()]) == 1, dh.StringToUint8(props[inc()]) == 1, dh.StringToUint8(props[inc()]) == 1, dh.StringToUint8(props[inc()]) == 1, dh.StringToUint8(props[inc()]) == 1, dh.StringToUint8(props[inc()]) == 1, }, HasCollision: [8]bool{ dh.StringToUint8(props[inc()]) == 1, dh.StringToUint8(props[inc()]) == 1, dh.StringToUint8(props[inc()]) == 1, dh.StringToUint8(props[inc()]) == 1, dh.StringToUint8(props[inc()]) == 1, dh.StringToUint8(props[inc()]) == 1, dh.StringToUint8(props[inc()]) == 1, dh.StringToUint8(props[inc()]) == 1, }, IsAttackable: dh.StringToUint8(props[inc()]) == 1, StartFrame: [8]int{ dh.StringToInt(props[inc()]), dh.StringToInt(props[inc()]), dh.StringToInt(props[inc()]), dh.StringToInt(props[inc()]), dh.StringToInt(props[inc()]), dh.StringToInt(props[inc()]), dh.StringToInt(props[inc()]), dh.StringToInt(props[inc()]), }, EnvEffect: dh.StringToUint8(props[inc()]) == 1, IsDoor: dh.StringToUint8(props[inc()]) == 1, BlockVisibility: dh.StringToUint8(props[inc()]) == 1, Orientation: dh.StringToInt(props[inc()]), Trans: dh.StringToInt(props[inc()]), OrderFlag: [8]int{ dh.StringToInt(props[inc()]), dh.StringToInt(props[inc()]), dh.StringToInt(props[inc()]), dh.StringToInt(props[inc()]), dh.StringToInt(props[inc()]), dh.StringToInt(props[inc()]), dh.StringToInt(props[inc()]), dh.StringToInt(props[inc()]), }, PreOperate: dh.StringToUint8(props[inc()]) == 1, HasAnimationMode: [8]bool{ dh.StringToUint8(props[inc()]) == 1, dh.StringToUint8(props[inc()]) == 1, dh.StringToUint8(props[inc()]) == 1, dh.StringToUint8(props[inc()]) == 1, dh.StringToUint8(props[inc()]) == 1, dh.StringToUint8(props[inc()]) == 1, dh.StringToUint8(props[inc()]) == 1, dh.StringToUint8(props[inc()]) == 1, }, XOffset: dh.StringToInt(props[inc()]), YOffset: dh.StringToInt(props[inc()]), Draw: dh.StringToUint8(props[inc()]) == 1, LightRed: dh.StringToUint8(props[inc()]), LightGreen: dh.StringToUint8(props[inc()]), LightBlue: dh.StringToUint8(props[inc()]), SelHD: dh.StringToUint8(props[inc()]) == 1, SelTR: dh.StringToUint8(props[inc()]) == 1, SelLG: dh.StringToUint8(props[inc()]) == 1, SelRA: dh.StringToUint8(props[inc()]) == 1, SelLA: dh.StringToUint8(props[inc()]) == 1, SelRH: dh.StringToUint8(props[inc()]) == 1, SelLH: dh.StringToUint8(props[inc()]) == 1, SelSH: dh.StringToUint8(props[inc()]) == 1, SelS: [8]bool{ dh.StringToUint8(props[inc()]) == 1, dh.StringToUint8(props[inc()]) == 1, dh.StringToUint8(props[inc()]) == 1, dh.StringToUint8(props[inc()]) == 1, dh.StringToUint8(props[inc()]) == 1, dh.StringToUint8(props[inc()]) == 1, dh.StringToUint8(props[inc()]) == 1, dh.StringToUint8(props[inc()]) == 1, }, TotalPieces: dh.StringToInt(props[inc()]), SubClass: dh.StringToInt(props[inc()]), XSpace: dh.StringToInt(props[inc()]), YSpace: dh.StringToInt(props[inc()]), NameOffset: dh.StringToInt(props[inc()]), MonsterOk: dh.StringToUint8(props[inc()]) == 1, OperateRange: dh.StringToInt(props[inc()]), ShrineFunction: dh.StringToInt(props[inc()]), Restore: dh.StringToUint8(props[inc()]) == 1, Parm: [8]int{ dh.StringToInt(props[inc()]), dh.StringToInt(props[inc()]), dh.StringToInt(props[inc()]), dh.StringToInt(props[inc()]), dh.StringToInt(props[inc()]), dh.StringToInt(props[inc()]), dh.StringToInt(props[inc()]), dh.StringToInt(props[inc()]), }, Act: dh.StringToInt(props[inc()]), Lockable: dh.StringToUint8(props[inc()]) == 1, Gore: dh.StringToUint8(props[inc()]) == 1, Sync: dh.StringToUint8(props[inc()]) == 1, Flicker: dh.StringToUint8(props[inc()]) == 1, Damage: dh.StringToInt(props[inc()]), Beta: dh.StringToUint8(props[inc()]) == 1, Overlay: dh.StringToUint8(props[inc()]) == 1, CollisionSubst: dh.StringToUint8(props[inc()]) == 1, Left: dh.StringToInt(props[inc()]), Top: dh.StringToInt(props[inc()]), Width: dh.StringToInt(props[inc()]), Height: dh.StringToInt(props[inc()]), OperateFn: dh.StringToInt(props[inc()]), PopulateFn: dh.StringToInt(props[inc()]), InitFn: dh.StringToInt(props[inc()]), ClientFn: dh.StringToInt(props[inc()]), RestoreVirgins: dh.StringToUint8(props[inc()]) == 1, BlockMissile: dh.StringToUint8(props[inc()]) == 1, DrawUnder: dh.StringToUint8(props[inc()]) == 1, OpenWarp: dh.StringToUint8(props[inc()]) == 1, AutoMap: dh.StringToInt(props[inc()]), } return result } var Objects map[int]*ObjectRecord func LoadObjects(fileProvider d2interface.FileProvider) { Objects = make(map[int]*ObjectRecord) data := strings.Split(string(fileProvider.LoadFile(d2common.ObjectDetails)), "\r\n")[1:] for _, line := range data { if len(line) == 0 { continue } props := strings.Split(line, "\t") if props[2] == "" { continue // skip a line that doesn't have an id } rec := createObjectRecord(props) Objects[rec.Id] = &rec } log.Printf("Loaded %d objects", len(Objects)) }