spacetea/simulator/simulator.go

126 lines
2.8 KiB
Go

package simulator
import (
"fmt"
"strings"
"time"
)
//Simulator contains the main game state
type Simulator struct {
Place *Pod
Player *Player
Px, Py int
Time int
stop chan bool
}
//NewSimulator creates a new simulator instance
func NewSimulator() *Simulator {
pod := newPod()
player := NewPlayer()
pod.Place(newPlant(itemPlantTea), 4, 4)
pod.Tiles[0][0].User = player
player.Announce("Game started")
return &Simulator{pod, player, 0, 0, 0, make(chan bool)}
}
//Start begins the simulation, non blocking
func (s *Simulator) Start() {
go s.main()
}
//Stop ends the simulation
func (s *Simulator) Stop() {
s.stop <- true
}
//Input sends a command to the simulator
func (s *Simulator) Input(cmd string) {
cur := s.Place.Tiles[s.Px][s.Py]
cmdS := strings.Split(cmd, " ")
switch cmdS[0] {
case "get":
if cur.Building != nil {
if cur.Building.Type() == producerObject {
build := cur.Building.(Producer)
prod := build.Get()
if prod.Kind != 0 && prod.Value > 0 {
s.Player.Resources[prod.Kind] = s.Player.Resources[prod.Kind] + prod.Value
s.Player.Announce(fmt.Sprintf("Gathered %v %v", prod.Value, Lookup(prod.Kind).Name()))
}
}
}
case "place":
if len(cmdS) < 2 {
return
}
item := cmdS[1]
if item == itemPlantTea.String() {
res := s.Place.Place(newPlant(itemPlantTea), s.Px, s.Py)
if res {
s.Player.Resources[itemPlantTea] = s.Player.Resources[itemPlantTea] - 1
}
} else if item == convertPulper.String() {
res := s.Place.Place(newConverter(convertPulper, s.Player), s.Px, s.Py)
if res {
s.Player.Resources[convertPulper] = s.Player.Resources[convertPulper] - 1
}
}
case "craft":
if len(cmdS) < 2 {
return
}
item := cmdS[1]
if item == convertPulper.String() {
if _, ok := s.Player.Techs[techPulper]; ok {
if s.Player.Resources[itemPlantTea] > 5 {
s.Player.Resources[convertPulper] = s.Player.Resources[convertPulper] + 1
s.Player.Resources[itemPlantTea] = s.Player.Resources[itemPlantTea] - 5
}
}
}
case "left":
res := s.Place.MovePlayer(s.Px, s.Py, s.Px, s.Py-1)
if res != nil {
s.Py = s.Py - 1
s.Player.CurrentTile = res
}
case "right":
res := s.Place.MovePlayer(s.Px, s.Py, s.Px, s.Py+1)
if res != nil {
s.Py = s.Py + 1
s.Player.CurrentTile = res
}
case "up":
res := s.Place.MovePlayer(s.Px, s.Py, s.Px-1, s.Py)
if res != nil {
s.Px = s.Px - 1
s.Player.CurrentTile = res
}
case "down":
res := s.Place.MovePlayer(s.Px, s.Py, s.Px+1, s.Py)
if res != nil {
s.Px = s.Px + 1
s.Player.CurrentTile = res
}
case "quit":
s.Stop()
}
}
func (s *Simulator) main() {
ticker := time.NewTicker(1 * time.Second)
for {
select {
case <-s.stop:
return
case <-ticker.C:
s.Time = s.Time + 1
s.Place.Tick()
s.Player.research()
}
}
}