func execIntruder(a *Ai) lua.GoFunction {
return func(L *lua.State) int {
if !game.LuaNumParamsOk(L, 1, "ExecIntruder") {
return 0
}
ent := game.LuaToEntity(L, a.game, -1)
if ent == nil {
game.LuaDoError(L, "Tried to ExecIntruder on an invalid entity.")
return 0
}
if ent.ExplorerEnt == nil {
game.LuaDoError(L, "Tried to ExecIntruder on a non-intruder.")
return 0
}
if !ent.Ai.Active() {
game.LuaDoError(L, fmt.Sprintf("Tried to ExecIntruder '%s', who is not active.", ent.Name))
return 0
}
exec := <-ent.Ai.ActionExecs()
if exec != nil {
a.execs <- exec
}
<-a.pause
return 0
}
}
// Performs an aoe attack against centered at the specified position.
// Format:
// res = DoAoeAttack(attack, pos)
//
// Inputs:
// attack - string - Name of the attack to use.
// pos - table[x,y] - Position to center the aoe around.
//
// Outputs:
// res - boolean - true if the action performed, nil otherwise.
func DoAoeAttackFunc(a *Ai) lua.GoFunction {
return func(L *lua.State) int {
if !game.LuaCheckParamsOk(L, "DoAoeAttack", game.LuaString, game.LuaPoint) {
return 0
}
me := a.ent
name := L.ToString(-2)
action := getActionByName(me, name)
if action == nil {
game.LuaDoError(L, fmt.Sprintf("Entity '%s' (id=%d) has no action named '%s'.", me.Name, me.Id, name))
return 0
}
attack, ok := action.(*actions.AoeAttack)
if !ok {
game.LuaDoError(L, fmt.Sprintf("Action '%s' is not an aoe attack.", name))
return 0
}
tx, ty := game.LuaToPoint(L, -1)
exec := attack.AiAttackPosition(me, tx, ty)
if exec != nil {
a.execs <- exec
<-a.pause
L.PushBoolean(true)
} else {
L.PushNil()
}
return 1
}
}
func setIntruderMasterInfo(a *Ai) lua.GoFunction {
return func(L *lua.State) int {
if !game.LuaCheckParamsOk(L, "SetEntityMasterInfo", game.LuaEntity, game.LuaString, game.LuaAnything) {
return 0
}
ent := game.LuaToEntity(L, a.game, -3)
if ent == nil {
game.LuaDoError(L, "Tried to ExecIntruder on an invalid entity.")
return 0
}
if ent.ExplorerEnt == nil {
game.LuaDoError(L, "Tried to ExecIntruder on a non-intruder.")
return 0
}
if ent.Ai_data == nil {
ent.Ai_data = make(map[string]string)
}
if L.IsNil(-1) {
delete(ent.Ai_data, L.ToString(-2))
} else {
ent.Ai_data[L.ToString(-2)] = L.ToString(-1)
}
return 0
}
}
func execMinionFunc(a *Ai) lua.GoFunction {
return func(L *lua.State) int {
base.Log().Printf("Exec minion")
if !game.LuaNumParamsOk(L, 1, "execMinion") {
return 0
}
ent := game.LuaToEntity(L, a.game, -1)
if ent == nil {
game.LuaDoError(L, "Tried to execMinion entity which doesn't exist.")
return 0
}
if ent.HauntEnt == nil || ent.HauntEnt.Level != game.LevelMinion {
game.LuaDoError(L, fmt.Sprintf("Tried to execMinion entity with Id=%d, which is not a minion.", ent.Id))
return 0
}
if !ent.Ai.Active() {
game.LuaDoError(L, fmt.Sprintf("Tried to execMinion entity with Id=%d, which is not active.", ent.Id))
return 0
}
exec := <-ent.Ai.ActionExecs()
if exec != nil {
a.execs <- exec
}
<-a.pause
return 0
}
}
// Performs an Interact action to toggle the opened/closed state of a door.
// Format
// res = doDoorToggle(d)
//
// Input:
// d - door - A door.
//
// Output:
// res - boolean - True if the door was opened, false if it was closed.
// res will be nil if the action could not be performed for some reason.
func DoDoorToggleFunc(a *Ai) lua.GoFunction {
return func(L *lua.State) int {
if !game.LuaCheckParamsOk(L, "doDoorToggle", game.LuaDoor) {
return 0
}
door := game.LuaToDoor(L, a.ent.Game(), -1)
if door == nil {
game.LuaDoError(L, "DoDoorToggle: Specified an invalid door.")
return 0
}
var interact *actions.Interact
for _, action := range a.ent.Actions {
var ok bool
interact, ok = action.(*actions.Interact)
if ok {
break
}
}
if interact == nil {
game.LuaDoError(L, fmt.Sprintf("Tried to toggle a door, but don't have an interact action."))
L.PushNil()
return 1
}
exec := interact.AiToggleDoor(a.ent, door)
if exec != nil {
a.execs <- exec
<-a.pause
L.PushBoolean(door.IsOpened())
} else {
L.PushNil()
}
return 1
}
}
func execMinion(a *Ai) lua.GoFunction {
return func(L *lua.State) int {
if !game.LuaNumParamsOk(L, 1, "ExecMinion") {
return 0
}
ent := game.LuaToEntity(L, a.game, -1)
if ent == nil {
game.LuaDoError(L, "Tried to ExecMinion on an invalid entity.")
return 0
}
if ent.HauntEnt == nil || ent.HauntEnt.Level != game.LevelMinion {
game.LuaDoError(L, "Tried to ExecMinion on a non-minion.")
return 0
}
if !ent.Ai.Active() {
game.LuaDoError(L, fmt.Sprintf("Tried to ExecMinion '%s', who is not active.", ent.Name))
return 0
}
exec := <-ent.Ai.ActionExecs()
if exec != nil {
a.execs <- exec
}
<-a.pause
return 0
}
}
func DoInteractWithObjectFunc(a *Ai) lua.GoFunction {
return func(L *lua.State) int {
if !game.LuaCheckParamsOk(L, "DoInteractWithObject", game.LuaEntity) {
return 0
}
object := game.LuaToEntity(L, a.ent.Game(), -1)
var interact *actions.Interact
for _, action := range a.ent.Actions {
var ok bool
interact, ok = action.(*actions.Interact)
if ok {
break
}
}
if interact == nil {
game.LuaDoError(L, "Tried to interact with an object, but don't have an interact action.")
L.PushNil()
return 1
}
exec := interact.AiInteractWithObject(a.ent, object)
if exec != nil {
a.execs <- exec
<-a.pause
L.PushBoolean(true)
} else {
L.PushNil()
}
return 1
}
}
// Returns a list of all positions that the specified door can be opened and
// closed from.
// Format
// ps = doorPositions(d)
//
// Input:
// d - door - A door.
//
// Output:
// ps - array[table[x,y]] - List of all position this door can be opened
// and closed from.
func DoorPositionsFunc(a *Ai) lua.GoFunction {
return func(L *lua.State) int {
if !game.LuaCheckParamsOk(L, "DoorPositions", game.LuaDoor) {
return 0
}
room := game.LuaToRoom(L, a.ent.Game(), -1)
door := game.LuaToDoor(L, a.ent.Game(), -1)
if door == nil || room == nil {
game.LuaDoError(L, "DoorPositions: Specified an invalid door.")
return 0
}
var x, y, dx, dy int
switch door.Facing {
case house.FarLeft:
x = door.Pos
y = room.Size.Dy - 1
dx = 1
case house.FarRight:
x = room.Size.Dx - 1
y = door.Pos
dy = 1
case house.NearLeft:
x = -1
y = door.Pos
dy = 1
case house.NearRight:
x = door.Pos
y = -1
dx = 1
default:
game.LuaDoError(L, fmt.Sprintf("Found a door with a bad facing."))
}
L.NewTable()
count := 1
for i := 0; i < door.Width; i++ {
L.PushInteger(count*2 - 1)
game.LuaPushPoint(L, room.X+x+dx*i, room.Y+y+dy*i)
L.SetTable(-3)
L.PushInteger(count * 2)
game.LuaPushPoint(L, room.X+x+dx*i+dy, room.Y+y+dy*i+dx)
L.SetTable(-3)
count++
}
return 1
}
}
func isActiveIntruder(a *Ai) lua.GoFunction {
return func(L *lua.State) int {
if !game.LuaCheckParamsOk(L, "IsActive", game.LuaEntity) {
return 0
}
ent := game.LuaToEntity(L, a.game, -1)
if ent == nil {
game.LuaDoError(L, "Tried to IsActive on an invalid entity.")
return 0
}
if ent.ExplorerEnt == nil {
game.LuaDoError(L, "Tried to IsActive on a non-intruder.")
return 0
}
L.PushBoolean(ent.Ai.Active())
return 1
}
}
// Performs a basic attack against the specifed target.
// Format:
// res = DoBasicAttack(attack, target)
//
// Inputs:
// attack - string - Name of the attack to use.
// target - integer - Entity id of the target of this attack.
//
// Outputs:
// res - table - Table containing the following values:
// hit (boolean) - true iff the attack hit its target.
// If the attack was invalid for some reason res will be nil.
func DoBasicAttackFunc(a *Ai) lua.GoFunction {
return func(L *lua.State) int {
if !game.LuaCheckParamsOk(L, "DoBasicAttack", game.LuaString, game.LuaEntity) {
return 0
}
me := a.ent
name := L.ToString(-2)
action := getActionByName(me, name)
if action == nil {
game.LuaDoError(L, fmt.Sprintf("Entity '%s' (id=%d) has no action named '%s'.", me.Name, me.Id, name))
return 0
}
target := game.LuaToEntity(L, a.ent.Game(), -1)
if action == nil {
game.LuaDoError(L, fmt.Sprintf("Tried to target an entity who doesn't exist."))
return 0
}
attack, ok := action.(*actions.BasicAttack)
if !ok {
game.LuaDoError(L, fmt.Sprintf("Action '%s' is not a basic attack.", name))
return 0
}
exec := attack.AiAttackTarget(me, target)
if exec != nil {
a.execs <- exec
<-a.pause
result := actions.GetBasicAttackResult(exec)
if result == nil {
L.PushNil()
} else {
L.NewTable()
L.PushString("hit")
L.PushBoolean(result.Hit)
L.SetTable(-3)
}
} else {
L.PushNil()
}
return 1
}
}
// Returns a list of rooms representing a path from src to dst. The path will
// not include src, but will include dst. This function will return nil if
// the path requires going through more than a single unexplored room, this
// means that you can use this to path to an unexplored room, but you cannot
// use it to path to a room further in the house than that.
// rooms.
// Format
// path = roomPath(src, dst)
//
// Input:
// src - Room to start the path from.
// dst - Room to end the path at.
//
// Output:
// path - array - A list of rooms that connect src to dst, excluding src
// but including dst.
func RoomPathFunc(a *Ai) lua.GoFunction {
return func(L *lua.State) int {
if !game.LuaCheckParamsOk(L, "roomPath", game.LuaRoom, game.LuaRoom) {
return 0
}
me := a.ent
g := me.Game()
graph := g.RoomGraph()
r1 := game.LuaToRoom(L, g, -2)
r2 := game.LuaToRoom(L, g, -1)
if r1 == nil || r2 == nil {
game.LuaDoError(L, fmt.Sprintf("Referenced one or more invalid rooms."))
return 0
}
L.PushString("room")
L.GetTable(-3)
r1_index := L.ToInteger(-1)
L.Pop(1)
L.PushString("room")
L.GetTable(-2)
r2_index := L.ToInteger(-1)
L.Pop(1)
cost, path := algorithm.Dijkstra(graph, []int{r1_index}, []int{r2_index})
if cost == -1 {
L.PushNil()
return 1
}
num_unexplored := 0
for _, v := range path {
if !me.Info.RoomsExplored[v] {
num_unexplored++
}
}
if num_unexplored > 1 {
L.PushNil()
return 1
}
L.NewTable()
for i, v := range path {
if i == 0 {
continue
} // Skip this one because we're in it already
L.PushInteger(i)
game.LuaPushRoom(L, g, g.House.Floors[0].Rooms[v])
L.SetTable(-3)
}
return 1
}
}
// Performs an aoe attack against centered at the specified position.
// Format:
// target = BestAoeAttackPos(attack, extra_dist, spec)
//
// Inputs:
// attack - string - Name of the attack to use.
// extra_dist - integer - Available distance to move before attacking.
// spec - string - One of the following values:
// "allies ok", "minions ok", "enemies only"
//
// Outputs:
// pos - table[x,y] - Position to place aoe for maximum results.
// hits - array[ents] - Visible entities that will be in the aoe
func BestAoeAttackPosFunc(a *Ai) lua.GoFunction {
return func(L *lua.State) int {
if !game.LuaCheckParamsOk(L, "BestAoeAttackPos", game.LuaString, game.LuaInteger, game.LuaString) {
return 0
}
me := a.ent
name := L.ToString(-3)
action := getActionByName(me, name)
if action == nil {
game.LuaDoError(L, fmt.Sprintf("Entity '%s' (id=%d) has no action named '%s'.", me.Name, me.Id, name))
return 0
}
attack, ok := action.(*actions.AoeAttack)
if !ok {
game.LuaDoError(L, fmt.Sprintf("Action '%s' is not an aoe attack.", name))
return 0
}
var spec actions.AiAoeTarget
switch L.ToString(-1) {
case "allies ok":
spec = actions.AiAoeHitAlliesOk
case "minions ok":
spec = actions.AiAoeHitMinionsOk
case "enemies only":
spec = actions.AiAoeHitNoAllies
default:
game.LuaDoError(L, fmt.Sprintf("'%s' is not a valid value of spec for BestAoeAttackPos().", L.ToString(-1)))
return 0
}
x, y, hits := attack.AiBestTarget(me, L.ToInteger(-2), spec)
game.LuaPushPoint(L, x, y)
L.NewTable()
for i := range hits {
L.PushInteger(i + 1)
game.LuaPushEntity(L, hits[i])
L.SetTable(-3)
}
return 2
}
}
// Queries whether a door is currently open.
// Format
// open = doorIsOpen(d)
//
// Input:
// d - door - A door.
//
// Output:
// open - boolean - True if the door is open, false otherwise.
func DoorIsOpenFunc(a *Ai) lua.GoFunction {
return func(L *lua.State) int {
if !game.LuaCheckParamsOk(L, "doorIsOpen", game.LuaDoor) {
return 0
}
door := game.LuaToDoor(L, a.ent.Game(), -1)
if door == nil {
game.LuaDoError(L, "DoorIsOpen: Specified an invalid door.")
return 0
}
L.PushBoolean(door.IsOpened())
return 1
}
}
// Returns a list of all doors attached to the specified room.
// Format
// room = allDoorsOn(r)
//
// Input:
// r - room - A room.
//
// Output:
// doors - array[door] - List of all doors attached to the specified room.
func AllDoorsOn(a *Ai) lua.GoFunction {
return func(L *lua.State) int {
if !game.LuaCheckParamsOk(L, "allDoorsOn", game.LuaRoom) {
return 0
}
room := game.LuaToRoom(L, a.ent.Game(), -1)
if room == nil {
game.LuaDoError(L, "Specified an invalid room.")
return 0
}
L.NewTable()
for i := range room.Doors {
L.PushInteger(i + 1)
game.LuaPushDoor(L, a.ent.Game(), room.Doors[i])
L.SetTable(-3)
}
return 1
}
}
// Returns a list of all doors between two rooms.
// Format
// doors = allDoorsBetween(r1, r2)
//
// Input:
// r1 - room - A room.
// r2 - room - Another room.
//
// Output:
// doors - array[door] - List of all doors connecting r1 and r2.
func AllDoorsBetween(a *Ai) lua.GoFunction {
return func(L *lua.State) int {
if !game.LuaCheckParamsOk(L, "allDoorsBetween", game.LuaRoom, game.LuaRoom) {
return 0
}
room1 := game.LuaToRoom(L, a.ent.Game(), -2)
room2 := game.LuaToRoom(L, a.ent.Game(), -1)
if room1 == nil || room2 == nil {
game.LuaDoError(L, "AllDoorsBetween: Specified an invalid door.")
return 0
}
// TODO: Check for floors!
// if f1 != f2 {
// // Rooms on different floors can theoretically be connected in the
// // future by a stairway, but right now that doesn't happen.
// L.NewTable()
// return 1
// }
L.NewTable()
count := 1
for _, door1 := range room1.Doors {
for _, door2 := range room2.Doors {
_, d := a.ent.Game().House.Floors[0].FindMatchingDoor(room1, door1)
if d == door2 {
L.PushInteger(count)
count++
game.LuaPushDoor(L, a.ent.Game(), door1)
L.SetTable(-3)
}
}
}
return 1
}
}
// Returns a list of all positions inside the specified room.
// Format
// ps = roomPositions(r)
//
// Input:
// r - room - A room.
//
// Output:
// ps - array[table[x,y]] - List of all position inside the specified room.
func RoomPositionsFunc(a *Ai) lua.GoFunction {
return func(L *lua.State) int {
if !game.LuaCheckParamsOk(L, "roomPositions", game.LuaRoom) {
return 0
}
room := game.LuaToRoom(L, a.ent.Game(), -1)
if room == nil {
game.LuaDoError(L, "RoomPositions: Specified an invalid room.")
return 0
}
L.NewTable()
count := 1
for x := room.X; x < room.X+room.Size.Dx; x++ {
for y := room.Y; y < room.Y+room.Size.Dy; y++ {
L.PushInteger(count)
count++
game.LuaPushPoint(L, x, y)
L.SetTable(-3)
}
}
return 1
}
}
