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6 Commits

Author SHA1 Message Date
d820376e8e Added solver & optimized state.
Positions are kept by index only.
2019-01-16 07:33:04 +01:00
6dfc9a5922 Added path finder & visualization (F5). 2019-01-15 21:49:01 +01:00
7634e632fb Moved level state to soko package.
Renamed entity type character and egg to player and target respectively.
2019-01-15 21:25:32 +01:00
b2342235b3 Renamed Tile to TileType. 2019-01-15 19:51:57 +01:00
0bc84924c3 Moved tile & entity type to separate code unit. 2019-01-15 19:06:06 +01:00
1a8f27d787 Moved level to separate package (soko).
Moved lineparser to gut package.
2019-01-15 19:03:52 +01:00
25 changed files with 1285 additions and 428 deletions

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@ -14,9 +14,8 @@ type moveAnimation struct {
pos geom.PointF32
}
func newMoveAnimation(e *entity, to geom.Point) *moveAnimation {
ani := &moveAnimation{e: e, from: e.pos, to: to, pos: e.pos.ToF32()}
ani.e.pos = to
func newMoveAnimation(e *entity, from, to geom.Point) *moveAnimation {
ani := &moveAnimation{e: e, from: from, to: to, pos: from.ToF32()}
return ani
}

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@ -2,11 +2,12 @@ package main
import (
"opslag.de/schobers/geom"
"opslag.de/schobers/krampus19/soko"
)
type entity struct {
typ entityType
pos geom.Point
id int
typ soko.EntityType
scr entityLoc
}
@ -15,6 +16,6 @@ type entityLoc struct {
z float32
}
func newEntity(typ entityType, pos geom.Point) *entity {
return &entity{typ, pos, entityLoc{pos.ToF32(), 0}}
func newEntity(e soko.Entity, pos geom.Point) *entity {
return &entity{e.ID, e.Typ, entityLoc{pos.ToF32(), 0}}
}

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@ -1,35 +0,0 @@
package main
import "opslag.de/schobers/geom"
type entityList []*entity
func (l entityList) Add(e *entity) entityList {
return append(l, e)
}
func (l entityList) AddList(list entityList) entityList {
return append(l, list...)
}
func (l entityList) Find(pos geom.Point) int {
for i, e := range l {
if e.pos == pos {
return i
}
}
return -1
}
func (l entityList) FindEntity(pos geom.Point) *entity {
idx := l.Find(pos)
if idx == -1 {
return nil
}
return l[idx]
}
func (l entityList) Remove(pos geom.Point) entityList {
idx := l.Find(pos)
return append(l[:idx], l[idx+1:]...)
}

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@ -0,0 +1,25 @@
package main
import "sort"
type entityMap map[int]*entity
func (m entityMap) RenderOrder() []*entity {
entities := make([]*entity, 0, len(m))
for _, e := range m {
entities = append(entities, e)
}
sort.Slice(entities, func(i, j int) bool {
var posI, posJ = entities[i].scr.pos, entities[j].scr.pos
if posI.Y == posJ.Y {
if posI.X == posJ.X {
return entities[i].id < entities[j].id
}
return posI.X < posJ.X
}
return posI.Y < posJ.Y
})
return entities
}

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@ -1,142 +0,0 @@
package main
import (
"errors"
"fmt"
"io"
"opslag.de/schobers/geom"
)
type entityType byte
type tile byte
const (
entityTypeInvalid entityType = entityType(0)
entityTypeNone = '_'
entityTypeCharacter = '@'
entityTypeEgg = 'X'
entityTypeBrick = 'B'
)
func (e entityType) IsValid() bool {
switch e {
case entityTypeNone:
case entityTypeCharacter:
case entityTypeEgg:
case entityTypeBrick:
default:
return false
}
return true
}
const (
tileInvalid tile = tile(0)
tileNothing = '.'
tileBasic = '#'
tileMagma = '~'
)
func (t tile) IsValid() bool {
switch t {
case tileNothing:
case tileBasic:
case tileMagma:
default:
return false
}
return true
}
type level struct {
width int
height int
tiles []tile
entities []entityType
}
func (l level) idxToPos(i int) geom.Point { return geom.Pt(i%l.width, i/l.width) }
func (l level) posToIdx(p geom.Point) int {
if p.X < 0 || p.Y < 0 || p.X >= l.width || p.Y >= l.height {
return -1
}
return p.Y*l.width + p.X
}
func parseLevelAsset(r io.Reader) (level, error) {
var l level
ctx := levelContext{&l}
err := parseLines(r, ctx.parse)
if err != nil {
return level{}, err
}
return l, nil
}
type levelContext struct {
level *level
}
func (c *levelContext) parse(p *lineParser) parseLineFn {
if p.eof() {
return nil
}
switch p.peek() {
case "level:":
return c.parseContent
case "":
p.next() // skip
return c.parse
default:
return nil
}
}
func (c *levelContext) parseContent(p *lineParser) parseLineFn {
if p.next() != "level:" {
return p.emitErr(errors.New("expected level start"))
}
return c.parseRow
}
func (c *levelContext) parseRow(p *lineParser) parseLineFn {
if p.eof() {
return p.emitErr(errors.New("unexpected end of file"))
}
line := p.next()
if line == ":level" {
return c.parse
}
if c.level.height == 0 {
c.level.width = len(line) / 2
}
return c.addRow(p, line)
}
func (c *levelContext) addRow(p *lineParser, line string) parseLineFn {
var tiles []tile
var entities []entityType
for i := 0; i < len(line); i += 2 {
tiles = append(tiles, tile(line[i]))
entities = append(entities, entityType(line[i+1]))
}
for i, t := range tiles {
if !t.IsValid() {
return p.emitErr(fmt.Errorf("level contains invalid tile at (%d, %d)", i, c.level.height))
}
}
for i, e := range entities {
if !e.IsValid() {
return p.emitErr(fmt.Errorf("level contains invalid entity type at (%d, %d)", i, c.level.height))
}
}
c.level.height++
c.level.tiles = append(c.level.tiles, tiles...)
c.level.entities = append(c.level.entities, entities...)
return c.parseRow
}

View File

@ -4,12 +4,16 @@ import (
"errors"
"io"
"strings"
"opslag.de/schobers/krampus19/gut"
"opslag.de/schobers/krampus19/soko"
)
type levelPack struct {
name string
order []string
levels map[string]level
levels map[string]soko.Level
}
func (p levelPack) find(level string) int {
@ -38,19 +42,19 @@ type parseLevelPackContext struct {
func parseLevelPackAsset(r io.Reader, openLevelFn func(id string) (io.ReadCloser, error)) (levelPack, error) {
ctx := &parseLevelPackContext{}
err := parseLines(r, ctx.Parse)
err := gut.ParseLines(r, ctx.Parse)
if err != nil {
return levelPack{}, err
}
pack := levelPack{name: ctx.name, levels: map[string]level{}}
pack := levelPack{name: ctx.name, levels: map[string]soko.Level{}}
for _, id := range ctx.levels {
rc, err := openLevelFn(id)
if err != nil {
return levelPack{}, err
}
defer rc.Close()
level, err := parseLevelAsset(rc)
level, err := soko.ParseLevel(rc)
if err != nil {
return levelPack{}, err
}
@ -61,65 +65,65 @@ func parseLevelPackAsset(r io.Reader, openLevelFn func(id string) (io.ReadCloser
return pack, nil
}
func (c *parseLevelPackContext) Parse(p *lineParser) parseLineFn {
if p.skipSpaceEOF() {
return p.emitErr(errors.New("empty level pack"))
func (c *parseLevelPackContext) Parse(p *gut.LineParser) gut.ParseLineFn {
if p.SkipSpaceEOF() {
return p.EmitErr(errors.New("empty level pack"))
}
return c.parse
}
func (c *parseLevelPackContext) parse(p *lineParser) parseLineFn {
func (c *parseLevelPackContext) parse(p *gut.LineParser) gut.ParseLineFn {
const levelsTag = "levels:"
const nameTag = "name:"
if p.skipSpaceEOF() {
if p.SkipSpaceEOF() {
return nil
}
line := p.next()
line := p.Next()
switch {
case strings.HasPrefix(line, nameTag):
c.name = strings.TrimSpace(line[len(nameTag):])
return c.parse
case strings.HasPrefix(line, levelsTag):
return skipSpaceBeforeContent(c.parseLevels)
return gut.SkipSpaceBeforeContent(c.parseLevels)
}
return p.emitErr(errors.New("tag not allowed"))
return p.EmitErr(errors.New("tag not allowed"))
}
func (c *parseLevelPackContext) parseLevels(p *lineParser) parseLineFn {
func (c *parseLevelPackContext) parseLevels(p *gut.LineParser) gut.ParseLineFn {
const levelTag = "level:"
const levelsEndTag = ":levels"
line := p.next()
line := p.Next()
switch line {
case levelTag:
return skipSpaceBeforeContent(c.parseLevel)
return gut.SkipSpaceBeforeContent(c.parseLevel)
case levelsEndTag:
return c.parse
}
return p.emitErr(errors.New("tag not allowed"))
return p.EmitErr(errors.New("tag not allowed"))
}
func (c *parseLevelPackContext) parseLevel(p *lineParser) parseLineFn {
func (c *parseLevelPackContext) parseLevel(p *gut.LineParser) gut.ParseLineFn {
const idTag = "id:"
line := p.next()
line := p.Next()
switch {
case strings.HasPrefix(line, idTag):
c.levels = append(c.levels, strings.TrimSpace(line[len(idTag):]))
return skipSpaceBeforeContent(c.parseLevelEnd)
return gut.SkipSpaceBeforeContent(c.parseLevelEnd)
}
return p.emitErr(errors.New("must have an id tag"))
return p.EmitErr(errors.New("must have an id tag"))
}
func (c *parseLevelPackContext) parseLevelEnd(p *lineParser) parseLineFn {
func (c *parseLevelPackContext) parseLevelEnd(p *gut.LineParser) gut.ParseLineFn {
const levelEndTag = ":level"
line := p.next()
line := p.Next()
switch {
case strings.HasPrefix(line, levelEndTag):
return skipSpaceBeforeContent(c.parseLevels)
return gut.SkipSpaceBeforeContent(c.parseLevels)
}
return p.emitErr(errors.New("tag not allowed"))
return p.EmitErr(errors.New("tag not allowed"))
}

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@ -1,64 +0,0 @@
package main
import (
"errors"
"io"
"io/ioutil"
"strings"
)
type lineParser struct {
lines []string
i int
err error
}
var errUnexpectedEnd = errors.New("unexpected end of file")
func (p *lineParser) eof() bool { return p.i == len(p.lines) }
func (p *lineParser) peek() string { return p.lines[p.i] }
func (p *lineParser) next() string {
i := p.i
p.i++
return p.lines[i]
}
func (p *lineParser) emitErr(err error) parseLineFn {
p.err = err
return nil
}
func (p *lineParser) skipSpaceEOF() bool {
for !p.eof() && len(strings.TrimSpace(p.peek())) == 0 {
p.next()
}
return p.eof()
}
func skipSpaceBeforeContent(next parseLineFn) parseLineFn {
return func(p *lineParser) parseLineFn {
if p.skipSpaceEOF() {
return p.emitErr(errUnexpectedEnd)
}
return next
}
}
type parseLineFn func(p *lineParser) parseLineFn
func parseLines(r io.Reader, fn parseLineFn) error {
content, err := ioutil.ReadAll(r)
if err != nil {
return err
}
lines := strings.Split(string(content), "\n")
for i, line := range lines {
lines[i] = strings.TrimRight(line, "\r\n")
}
parser := &lineParser{lines: lines}
for fn != nil {
fn = fn(parser)
}
return parser.err
}

View File

@ -3,11 +3,12 @@ package main
import (
"fmt"
"log"
"sort"
"strconv"
"opslag.de/schobers/allg5"
"opslag.de/schobers/geom"
"opslag.de/schobers/krampus19/alui"
"opslag.de/schobers/krampus19/soko"
)
type playLevel struct {
@ -26,6 +27,7 @@ type playLevel struct {
scale float32
state playLevelState
pathFinding bool
}
type keyPressedState map[allg5.Key]bool
@ -121,13 +123,13 @@ func (l *playLevel) Layout(ctx *alui.Context, bounds geom.RectangleF32) {
l.offset = geom.PointF32{}
level := l.state.Level()
var contentCenter = l.posToScreenF32(geom.PtF32(.5*float32(level.width), .5*float32(level.height)), 0)
var contentCenter = l.posToScreenF32(geom.PtF32(.5*float32(level.Width), .5*float32(level.Height)), 0)
var content = geom.RectF32(contentCenter.X, contentCenter.Y, contentCenter.X, contentCenter.Y)
for idx, tile := range l.state.Level().tiles {
if tile == tileNothing || tile == tileInvalid {
for idx, tile := range l.state.Level().Tiles {
if tile == soko.TileTypeNothing || tile == soko.TileTypeInvalid {
continue
}
pos := level.idxToPos(idx).ToF32()
pos := level.IdxToPos(idx).ToF32()
bottomLeft := l.posToScreenF32(pos.Add2D(-1.5, 1.5), 100)
content.Min = geom.MinPtF32(content.Min, bottomLeft)
content.Max = geom.MaxPtF32(content.Max, bottomLeft)
@ -166,6 +168,8 @@ func (l *playLevel) Handle(e allg5.Event) {
case allg5.KeyEscape:
l.showMenu = true
l.menu.Activate(0)
case allg5.KeyF5:
l.pathFinding = !l.pathFinding
}
l.state.TryPlayerMove(e.KeyCode)
}
@ -191,19 +195,19 @@ func (l *playLevel) Render(ctx *alui.Context, bounds geom.RectangleF32) {
}
}
for i, t := range level.tiles {
pos := geom.Pt(i%level.width, i/level.width)
for i, t := range level.Tiles {
pos := geom.Pt(i%level.Width, i/level.Width)
scr := entityLoc{pos.ToF32(), 0}
switch t {
case tileBasic:
case soko.TileTypeBasic:
if l.state.IsNextToMagma(pos) {
l.drawSprite("lava_brick", "magma", scr)
} else {
l.drawSprite("lava_brick", "lava_brick", scr)
}
case tileMagma:
case soko.TileTypeMagma:
l.drawSprite("magma", "magma", scr)
brick := l.state.FindSunkenBrick(pos)
brick := l.state.FindSunkenBrickEntity(pos)
if brick != nil {
behind, front := splitParticles(scr.pos.Y, l.state.Particles(pos))
drawParticles(behind)
@ -214,26 +218,30 @@ func (l *playLevel) Render(ctx *alui.Context, bounds geom.RectangleF32) {
}
}
entities := l.state.Entities()
sort.Slice(entities, func(i, j int) bool {
if entities[i].scr.pos.Y == entities[j].scr.pos.Y {
return entities[i].scr.pos.X < entities[j].scr.pos.X
}
return entities[i].scr.pos.Y < entities[j].scr.pos.Y
})
entities := l.state.Entities().RenderOrder()
for _, e := range entities {
switch e.typ {
case entityTypeBrick:
case soko.EntityTypeBrick:
l.drawSprite("brick", "brick", e.scr)
case entityTypeCharacter:
case soko.EntityTypePlayer:
l.drawSprite("dragon", "dragon", e.scr)
case entityTypeEgg:
case soko.EntityTypeTarget:
l.drawSprite("egg", "egg", e.scr)
}
}
font := ctx.Fonts.Get("default")
if l.pathFinding {
dists := soko.NewPathFinder(&l.state.state).FindDistances()
for i := range level.Tiles {
pos := geom.Pt(i%level.Width, i/level.Width)
scr := entityLoc{pos.ToF32(), 0}
posDist := l.posToScreenF32(scr.pos, -20)
ctx.Fonts.DrawAlignFont(font, posDist.X, posDist.Y, posDist.X, ctx.Palette.Text, allg5.AlignCenter, strconv.Itoa(dists[i]))
}
}
steps := fmt.Sprintf("STEPS: %d", l.state.Steps())
ctx.Fonts.DrawAlignFont(font, bounds.Min.X, 24, bounds.Max.X, ctx.Palette.Text, allg5.AlignCenter, steps)

View File

@ -7,17 +7,19 @@ import (
"opslag.de/schobers/allg5"
"opslag.de/schobers/geom"
"opslag.de/schobers/krampus19/gut"
"opslag.de/schobers/krampus19/soko"
)
type playLevelState struct {
ctx *Context
pack levelPack
level level
level soko.Level
state soko.State
player *entity
egg *entity
bricks entityList
sunken entityList
bricks entityMap
sunken entityMap
splash map[geom.Point]*splashAnimation
steps int
@ -29,9 +31,14 @@ type playLevelState struct {
keysDown keyPressedState
}
func (s *playLevelState) Entities() entityList {
var entities entityList
return entities.Add(s.player).Add(s.egg).AddList(s.bricks)
func (s *playLevelState) Entities() entityMap {
entities := entityMap{}
entities[s.player.id] = s.player
entities[s.egg.id] = s.egg
for id, e := range s.bricks {
entities[id] = e
}
return entities
}
func (s *playLevelState) Particles(at geom.Point) []particle {
@ -48,39 +55,48 @@ func (s *playLevelState) Particles(at geom.Point) []particle {
return particles
}
func (s *playLevelState) FindSunkenBrick(pos geom.Point) *entity {
return s.sunken.FindEntity(pos)
func (s *playLevelState) FindSunkenBrickEntity(pos geom.Point) *entity {
idx := s.level.PosToIdx(pos)
if idx == -1 {
return nil
}
id := s.state.SunkenBricks[idx]
if id != -1 {
return s.sunken[id]
}
return nil
}
func (s *playLevelState) IsNextToMagma(pos geom.Point) bool {
return s.checkTile(pos.Add2D(1, 0), s.isMagma) ||
s.checkTile(pos.Add2D(-1, 0), s.isMagma) ||
s.checkTile(pos.Add2D(0, -1), s.isMagma) ||
s.checkTile(pos.Add2D(0, 1), s.isMagma)
return s.state.Any(soko.IsMagma, soko.Neighbours(pos)...)
}
func (s *playLevelState) Init(ctx *Context, pack, level string, onComplete func()) {
s.ctx = ctx
s.pack = ctx.Levels.ByID(pack)
s.level = s.pack.levels[level]
s.state = s.level.State()
s.bricks = nil
s.sunken = nil
s.splash = map[geom.Point]*splashAnimation{}
for i, e := range s.level.entities {
switch e {
case entityTypeBrick:
s.bricks = append(s.bricks, newEntity(e, s.level.idxToPos(i)))
case entityTypeCharacter:
s.player = newEntity(e, s.level.idxToPos(i))
case entityTypeEgg:
s.egg = newEntity(e, s.level.idxToPos(i))
newEntity := func(e soko.Entity) *entity { return newEntity(e, s.state.IdxToPos[e.Pos]) }
s.player = newEntity(s.state.Player)
s.egg = newEntity(s.state.Target)
s.bricks = entityMap{}
for _, e := range s.state.Entities {
if e.Typ != soko.EntityTypeBrick {
continue
}
s.bricks[e.ID] = newEntity(soko.Entity{ID: e.ID, Pos: e.Pos, Typ: soko.EntityTypeBrick})
}
s.sunken = entityMap{}
s.keysDown = keyPressedState{}
s.onComplete = onComplete
}
func (s *playLevelState) Level() level { return s.level }
func (s *playLevelState) Level() soko.Level { return s.level }
func (s *playLevelState) PressKey(key allg5.Key) {
s.keysDown[key] = true
@ -97,58 +113,64 @@ func (s *playLevelState) Tick(now time.Duration) {
}
func (s *playLevelState) TryPlayerMove(key allg5.Key) {
var dir geom.Point
var dir soko.Direction
switch key {
case s.ctx.Settings.Controls.MoveUp:
dir = geom.Pt(0, -1)
dir = soko.DirectionUp
case s.ctx.Settings.Controls.MoveRight:
dir = geom.Pt(1, 0)
dir = soko.DirectionRight
case s.ctx.Settings.Controls.MoveDown:
dir = geom.Pt(0, 1)
dir = soko.DirectionDown
case s.ctx.Settings.Controls.MoveLeft:
dir = geom.Pt(-1, 0)
dir = soko.DirectionLeft
default:
return
}
s.tryPlayerMove(dir, key)
s.tryPlayerMove(dir)
}
func (s *playLevelState) tryPlayerMove(dir geom.Point, key allg5.Key) {
if s.player.scr.pos != s.player.pos.ToF32() {
func (s *playLevelState) tryPlayerMove(dir soko.Direction) {
playerPt := s.state.IdxToPos[s.state.Player.Pos]
if s.player.scr.pos != playerPt.ToF32() {
return
}
to := s.player.pos.Add(dir)
if !s.canMove(s.player.pos, dir) {
log.Printf("Move is not allowed (tried out move to %s after key '%s' was pressed)", to, gut.KeyToString(key))
state, ok := s.state.MovePlayer(dir)
if !ok {
log.Printf("Move is not allowed (tried out move %s)", dir.String())
return
}
if brick := s.bricks.FindEntity(to); brick != nil {
log.Printf("Pushing brick at %s", to)
brickTo := to.Add(dir)
s.ani.StartFn(s.ctx.Tick, newMoveAnimation(brick, brickTo), func() {
to := state.Player.Pos
toPt := state.IdxToPos[to]
if brickID := s.state.Bricks[to]; brickID != -1 {
log.Printf("Brick %d moved", brickID)
brick := s.bricks[brickID]
brickTo := state.Entities.ByID(brickID).Pos
brickToPt := state.IdxToPos[brickTo]
s.ani.StartFn(s.ctx.Tick, newMoveAnimation(brick, toPt, brickToPt), func() {
log.Printf("Brick movement finished")
if s.checkTile(brickTo, s.wouldBrickSink) {
log.Printf("Sinking brick at %s", brickTo)
s.bricks = s.bricks.Remove(brickTo)
s.sunken = s.sunken.Add(brick)
if sunkenBrickID := state.SunkenBricks[brickTo]; sunkenBrickID == brickID {
log.Printf("Sinking brick %d", brickID)
delete(s.bricks, brickID)
s.sunken[brickID] = brick
s.ani.Start(s.ctx.Tick, newSinkAnimation(brick))
splash := newSplashAnimation(brickTo)
s.splash[brickTo] = splash
splash := newSplashAnimation(brickToPt)
s.splash[brickToPt] = splash
s.ani.StartFn(s.ctx.Tick, splash, func() {
delete(s.splash, brickTo)
delete(s.splash, brickToPt)
})
}
})
}
s.steps++
log.Printf("Moving player to %s", to)
s.ani.StartFn(s.ctx.Tick, newMoveAnimation(s.player, to), func() {
log.Printf("Moving player to %s", toPt)
s.ani.StartFn(s.ctx.Tick, newMoveAnimation(s.player, playerPt, toPt), func() {
log.Printf("Player movement finished")
if s.player.pos == s.egg.pos {
if to == state.Target.Pos {
s.complete = true
if onComplete := s.onComplete; onComplete != nil {
onComplete()
@ -156,74 +178,11 @@ func (s *playLevelState) tryPlayerMove(dir geom.Point, key allg5.Key) {
} else {
pressed := s.keysDown.ArePressed(s.ctx.Settings.Controls.MovementKeys()...)
if len(pressed) == 1 {
key := pressed[0]
log.Printf("Movement key %s is down, moving further", gut.KeyToString(key))
s.TryPlayerMove(pressed[0])
s.TryPlayerMove(key)
}
}
})
}
func (s *playLevelState) canMove(from, dir geom.Point) bool {
to := from.Add(dir)
if !s.checkTile(to, s.isSolidTile) {
return false
}
brick := s.bricks.FindEntity(to)
if brick != nil {
brickTo := to.Add(dir)
return !s.checkTileNotFound(brickTo, s.isObstructed, true)
}
return true
}
func (s *playLevelState) checkTile(pos geom.Point, check func(pos geom.Point, idx int, t tile) bool) bool {
return s.checkTileNotFound(pos, check, false)
}
func (s *playLevelState) checkTileNotFound(pos geom.Point, check func(pos geom.Point, idx int, t tile) bool, notFound bool) bool {
idx := s.level.posToIdx(pos)
if idx == -1 {
return notFound
}
return check(pos, idx, s.level.tiles[idx])
}
func (s *playLevelState) findEntityAt(pos geom.Point) *entity {
if s.player.pos == pos {
return s.player
}
brick := s.bricks.FindEntity(pos)
if brick != nil {
return brick
}
return s.sunken.FindEntity(pos)
}
func (s *playLevelState) isObstructed(pos geom.Point, idx int, t tile) bool {
if s.bricks.FindEntity(pos) != nil {
return true // brick
}
switch s.level.tiles[idx] {
case tileMagma:
return false
case tileBasic:
return false
}
return true
}
func (s *playLevelState) isMagma(pos geom.Point, idx int, t tile) bool { return t == tileMagma }
func (s *playLevelState) isSolidTile(pos geom.Point, idx int, t tile) bool {
switch t {
case tileBasic:
return true
case tileMagma:
return s.sunken.FindEntity(pos) != nil
}
return false
}
func (s *playLevelState) wouldBrickSink(pos geom.Point, idx int, t tile) bool {
return t == tileMagma && s.sunken.FindEntity(pos) == nil
s.state = state
}

View File

@ -7,6 +7,7 @@ import (
"strings"
"opslag.de/schobers/geom"
"opslag.de/schobers/krampus19/gut"
)
type sprite struct {
@ -33,7 +34,7 @@ type spritePart struct {
func loadSpriteAsset(r io.Reader) (sprite, error) {
var l sprite
ctx := spriteContext{&l, nil}
err := parseLines(r, ctx.parse)
err := gut.ParseLines(r, ctx.parse)
if err != nil {
return sprite{}, err
}
@ -45,44 +46,44 @@ type spriteContext struct {
part *spritePart
}
func (c *spriteContext) parse(p *lineParser) parseLineFn {
if p.skipSpaceEOF() {
func (c *spriteContext) parse(p *gut.LineParser) gut.ParseLineFn {
if p.SkipSpaceEOF() {
return nil
}
line := p.peek()
line := p.Peek()
switch {
case strings.HasPrefix(line, "sprite:"):
p.next()
p.Next()
return c.parseContent
default:
return nil
}
}
func (c *spriteContext) parseContent(p *lineParser) parseLineFn {
func (c *spriteContext) parseContent(p *gut.LineParser) gut.ParseLineFn {
const partTag = "part:"
const textureTag = "texture:"
const spriteEndTag = ":sprite"
if p.skipSpaceEOF() {
return p.emitErr(errUnexpectedEnd)
if p.SkipSpaceEOF() {
return p.EmitErr(gut.ErrUnexpectedEnd)
}
line := p.peek()
line := p.Peek()
switch {
case strings.HasPrefix(line, textureTag):
c.sprite.texture = strings.TrimSpace(line[len(textureTag):])
p.next()
p.Next()
return c.parseContent
case line == partTag:
p.next()
p.Next()
c.part = &spritePart{}
return c.parsePart
case line == spriteEndTag:
return nil
}
return p.emitErr(errors.New("unexpected content of sprite"))
return p.EmitErr(errors.New("unexpected content of sprite"))
}
func (c *spriteContext) parsePart(p *lineParser) parseLineFn {
func (c *spriteContext) parsePart(p *gut.LineParser) gut.ParseLineFn {
mustAtois := func(s ...string) []int {
res := make([]int, len(s))
var err error
@ -110,14 +111,14 @@ func (c *spriteContext) parsePart(p *lineParser) parseLineFn {
const anchorTag = "anchor:"
const scaleTag = "scale:"
const partEndTag = ":part"
if p.skipSpaceEOF() {
return p.emitErr(errUnexpectedEnd)
if p.SkipSpaceEOF() {
return p.EmitErr(gut.ErrUnexpectedEnd)
}
line := p.peek()
line := p.Peek()
switch {
case strings.HasPrefix(line, nameTag):
c.part.name = strings.TrimSpace(line[len(nameTag):])
p.next()
p.Next()
return c.parsePart
case strings.HasPrefix(line, subTextureTag):
var coords = mustCoords(line[len(subTextureTag):])
@ -125,7 +126,7 @@ func (c *spriteContext) parsePart(p *lineParser) parseLineFn {
panic("expected four coordinates (min x, min y, size x, size y)")
}
c.part.sub = geom.Rect(coords[0], coords[1], coords[0]+coords[2], coords[1]+coords[3])
p.next()
p.Next()
return c.parsePart
case strings.HasPrefix(line, anchorTag):
var coords = mustCoords(line[len(anchorTag):])
@ -133,16 +134,16 @@ func (c *spriteContext) parsePart(p *lineParser) parseLineFn {
panic("expected two coordinates (min x, min y)")
}
c.part.anchor = geom.Pt(coords[0], coords[1])
p.next()
p.Next()
return c.parsePart
case strings.HasPrefix(line, scaleTag):
c.part.scale = mustAtof(line[len(scaleTag):])
p.next()
p.Next()
return c.parsePart
case line == partEndTag:
c.sprite.parts = append(c.sprite.parts, *c.part)
p.next()
p.Next()
return c.parseContent
}
return p.emitErr(errors.New("unexpected content of part"))
return p.EmitErr(errors.New("unexpected content of part"))
}

66
gut/lineparser.go Normal file
View File

@ -0,0 +1,66 @@
package gut
import (
"errors"
"io"
"io/ioutil"
"strings"
)
type LineParser struct {
lines []string
i int
err error
}
var ErrUnexpectedEnd = errors.New("unexpected end of file")
func (p *LineParser) EOF() bool { return p.i == len(p.lines) }
func (p *LineParser) EmitErr(err error) ParseLineFn {
p.err = err
return nil
}
func (p *LineParser) Next() string {
i := p.i
p.i++
return p.lines[i]
}
func (p *LineParser) Peek() string { return p.lines[p.i] }
func (p *LineParser) SkipSpaceEOF() bool {
for !p.EOF() && len(strings.TrimSpace(p.Peek())) == 0 {
p.Next()
}
return p.EOF()
}
func SkipSpaceBeforeContent(next ParseLineFn) ParseLineFn {
return func(p *LineParser) ParseLineFn {
if p.SkipSpaceEOF() {
return p.EmitErr(ErrUnexpectedEnd)
}
return next
}
}
type ParseLineFn func(p *LineParser) ParseLineFn
func ParseLines(r io.Reader, fn ParseLineFn) error {
content, err := ioutil.ReadAll(r)
if err != nil {
return err
}
lines := strings.Split(string(content), "\n")
for i, line := range lines {
lines[i] = strings.TrimRight(line, "\r\n")
}
parser := &LineParser{lines: lines}
for fn != nil {
fn = fn(parser)
}
return parser.err
}

64
soko/direction.go Normal file
View File

@ -0,0 +1,64 @@
package soko
import "opslag.de/schobers/geom"
type Direction int
const (
DirectionUp Direction = iota
DirectionRight
DirectionDown
DirectionLeft
)
var Directions = [4]Direction{DirectionUp, DirectionRight, DirectionDown, DirectionLeft}
func (d Direction) Invert() Direction {
switch d {
case DirectionUp:
return DirectionDown
case DirectionRight:
return DirectionLeft
case DirectionDown:
return DirectionUp
case DirectionLeft:
return DirectionRight
}
panic("invalid direction")
}
func (d Direction) String() string {
switch d {
case DirectionUp:
return "up"
case DirectionRight:
return "right"
case DirectionDown:
return "down"
case DirectionLeft:
return "left"
}
return "invalid"
}
func (d Direction) ToPoint() geom.Point {
switch d {
case DirectionUp:
return geom.Pt(0, -1)
case DirectionRight:
return geom.Pt(1, 0)
case DirectionDown:
return geom.Pt(0, 1)
case DirectionLeft:
return geom.Pt(-1, 0)
}
return geom.Point{}
}
func Neighbours(p geom.Point) []geom.Point {
neighbours := make([]geom.Point, 4)
for i, dir := range Directions {
neighbours[i] = p.Add(dir.ToPoint())
}
return neighbours
}

48
soko/entity.go Normal file
View File

@ -0,0 +1,48 @@
package soko
type Entity struct {
ID int
Pos int
Typ EntityType
}
type Entities []Entity
func (e Entities) ByID(id int) Entity {
idx := e.IdxById(id)
if idx == -1 {
return Entity{ID: -1}
}
return e[idx]
}
func (e Entities) Clone() Entities {
clone := make(Entities, len(e))
copy(clone, e)
return clone
}
func (e Entities) IdxById(id int) int {
for i, e := range e {
if e.ID == id {
return i
}
}
return -1
}
type Ints []int
func NewInts(n int) Ints {
ids := make(Ints, n)
for i := range ids {
ids[i] = -1
}
return ids
}
func (e Ints) Clone() Ints {
clone := make(Ints, len(e))
copy(clone, e)
return clone
}

31
soko/entitylocations.go Normal file
View File

@ -0,0 +1,31 @@
package soko
import "opslag.de/schobers/geom"
type EntityLocations map[geom.Point]int
func (l EntityLocations) Add(p geom.Point, id int) { l[p] = id }
func (l EntityLocations) Clone() EntityLocations {
clone := EntityLocations{}
for p, id := range l {
clone[p] = id
}
return clone
}
func (l EntityLocations) Has(p geom.Point) bool {
_, ok := l[p]
return ok
}
func (l EntityLocations) Move(from, to geom.Point) {
id, ok := l[from]
if !ok {
panic("no entitiy at position")
}
l.Remove(from)
l.Add(to, id)
}
func (l EntityLocations) Remove(p geom.Point) { delete(l, p) }

23
soko/entitytype.go Normal file
View File

@ -0,0 +1,23 @@
package soko
type EntityType byte
const (
EntityTypeInvalid EntityType = EntityType(0)
EntityTypeNone = '_'
EntityTypePlayer = '@'
EntityTypeTarget = 'X'
EntityTypeBrick = 'B'
)
func (e EntityType) IsValid() bool {
switch e {
case EntityTypeNone:
case EntityTypePlayer:
case EntityTypeTarget:
case EntityTypeBrick:
default:
return false
}
return true
}

91
soko/level.go Normal file
View File

@ -0,0 +1,91 @@
package soko
import (
"opslag.de/schobers/geom"
)
type Level struct {
Width int
Height int
Tiles []TileType
Entities []EntityType
}
func (l Level) IdxToPos(i int) geom.Point { return geom.Pt(i%l.Width, i/l.Width) }
func (l Level) PosToIdx(p geom.Point) int {
if p.X < 0 || p.Y < 0 || p.X >= l.Width || p.Y >= l.Height {
return -1
}
return p.Y*l.Width + p.X
}
func (l Level) Moves() []Moves {
moves := make([]Moves, len(l.Tiles))
w := l.Width
for y := 0; y < l.Height; y++ {
for x := 0; x < w; x++ {
var m Moves
idx := y*w + x
if y > 0 {
m.Valid = append(m.Valid, idx-w)
m.All[DirectionUp] = idx - w
} else {
m.All[DirectionUp] = -1
}
if y < (l.Height - 1) {
m.Valid = append(m.Valid, idx+w)
m.All[DirectionDown] = idx + w
} else {
m.All[DirectionDown] = -1
}
if x > 0 {
m.Valid = append(m.Valid, idx-1)
m.All[DirectionLeft] = idx - 1
} else {
m.All[DirectionLeft] = idx - 1
}
if x < (w - 1) {
m.Valid = append(m.Valid, idx+1)
m.All[DirectionRight] = idx + 1
} else {
m.All[DirectionRight] = idx + 1
}
moves[idx] = m
}
}
return moves
}
func (l Level) MoveIdx(idx int, dir Direction) int {
switch dir {
case DirectionUp:
if idx < l.Width {
return -1
}
return idx - l.Width
case DirectionRight:
if (idx+1)%l.Width == 0 {
return -1
}
return idx + 1
case DirectionDown:
if idx >= (l.Width*l.Height)-l.Width {
return -1
}
return idx + l.Width
case DirectionLeft:
if idx%l.Width == 0 {
return -1
}
return idx - 1
}
return -1
}
func (l Level) Size() int { return l.Width * l.Height }
func (l Level) State() State {
return NewState(l)
}

85
soko/levelparser.go Normal file
View File

@ -0,0 +1,85 @@
package soko
import (
"errors"
"fmt"
"io"
"opslag.de/schobers/krampus19/gut"
)
func ParseLevel(r io.Reader) (Level, error) {
var l Level
ctx := levelContext{&l}
err := gut.ParseLines(r, ctx.parse)
if err != nil {
return Level{}, err
}
return l, nil
}
type levelContext struct {
level *Level
}
func (c *levelContext) parse(p *gut.LineParser) gut.ParseLineFn {
if p.EOF() {
return nil
}
switch p.Peek() {
case "level:":
return c.parseContent
case "":
p.Next() // skip
return c.parse
default:
return nil
}
}
func (c *levelContext) parseContent(p *gut.LineParser) gut.ParseLineFn {
if p.Next() != "level:" {
return p.EmitErr(errors.New("expected level start"))
}
return c.parseRow
}
func (c *levelContext) parseRow(p *gut.LineParser) gut.ParseLineFn {
if p.EOF() {
return p.EmitErr(errors.New("unexpected end of file"))
}
line := p.Next()
if line == ":level" {
return c.parse
}
if c.level.Height == 0 {
c.level.Width = len(line) / 2
}
return c.addRow(p, line)
}
func (c *levelContext) addRow(p *gut.LineParser, line string) gut.ParseLineFn {
var tiles []TileType
var entities []EntityType
for i := 0; i < len(line); i += 2 {
tiles = append(tiles, TileType(line[i]))
entities = append(entities, EntityType(line[i+1]))
}
for i, t := range tiles {
if !t.IsValid() {
return p.EmitErr(fmt.Errorf("level contains invalid TileType at (%d, %d)", i, c.level.Height))
}
}
for i, e := range entities {
if !e.IsValid() {
return p.EmitErr(fmt.Errorf("level contains invalid entity type at (%d, %d)", i, c.level.Height))
}
}
c.level.Height++
c.level.Tiles = append(c.level.Tiles, tiles...)
c.level.Entities = append(c.level.Entities, entities...)
return c.parseRow
}

17
soko/locations.go Normal file
View File

@ -0,0 +1,17 @@
package soko
import "opslag.de/schobers/geom"
type Locations map[geom.Point]bool
func (l Locations) Add(p geom.Point) { l[p] = true }
func (l Locations) Clone() Locations {
clone := Locations{}
for p := range l {
clone[p] = true
}
return clone
}
func (l Locations) Remove(p geom.Point) { delete(l, p) }

6
soko/moves.go Normal file
View File

@ -0,0 +1,6 @@
package soko
type Moves struct {
All [4]int
Valid []int
}

133
soko/pathfinder.go Normal file
View File

@ -0,0 +1,133 @@
package soko
import (
"sort"
)
type PathFinder struct {
state *State
moves []Moves
}
func NewPathFinder(s *State) PathFinder {
return PathFinder{s, nil}
}
func NewPathFinderMoves(s *State, moves []Moves) PathFinder {
return PathFinder{s, moves}
}
func (p PathFinder) Find(target int) []int {
source := p.state.Player.Pos
level := p.state.Level
size := level.Size()
distances := NewInts(size)
distances[source] = 0
moves := NewInts(size)
moves[source] = source
state := p.newPathFinderState(source)
heuristic := func(i int) int {
idx := state.frontier[i]
return distances[idx] + p.state.IdxToPos[idx].DistInt(p.state.IdxToPos[target])
}
for {
curr := state.frontier[0]
if curr == target {
break
}
state.frontier = state.frontier[1:]
state.findBetterNeighbours(distances, curr, func(nextIdx, newDistance int) {
moves[nextIdx] = curr
})
if len(state.frontier) == 0 {
return nil // no path
}
// apply heuristic to frontier (favor points closer to target)
sort.Slice(state.frontier, func(i, j int) bool { return heuristic(i) < heuristic(j) })
}
// build reverse path
curr := target
path := []int{curr}
for {
curr = moves[curr]
if curr == source {
break
}
path = append(path, curr)
}
// reverse path
n := len(path)
for i := 0; i < n/2; i++ {
path[i], path[n-i-1] = path[n-i-1], path[i]
}
return path
}
func (p PathFinder) FindDistances() Ints {
source := p.state.Player.Pos
level := p.state.Level
size := level.Size()
distances := NewInts(size)
distances[source] = 0
state := p.newPathFinderState(source)
for {
curr := state.frontier[0]
state.frontier = state.frontier[1:]
state.findBetterNeighbours(distances, curr, nil)
if len(state.frontier) == 0 {
return distances
}
}
}
func (p PathFinder) newPathFinderState(source int) *pathFinderState {
return &pathFinderState{p.state, append(make([]int, 0, p.state.Level.Size()), source), p.moves}
}
type pathFinderState struct {
state *State
frontier []int
moves []Moves
}
type betterNeighbourFn func(int, int)
func (s *pathFinderState) findBetterNeighbours(distances []int, curr int, better betterNeighbourFn) {
currDistance := distances[curr]
newDistance := currDistance + 1
var moves []int
if s.moves == nil {
for _, dir := range Directions {
nextIdx := s.state.Level.MoveIdx(curr, dir)
if nextIdx == -1 {
continue
}
moves = append(moves, nextIdx)
}
} else {
moves = s.moves[curr].Valid
}
for _, nextIdx := range moves {
if distance := distances[nextIdx]; distance != -1 && distance <= newDistance { // skip when shorter path exists
continue
}
if !s.state.Walkable[nextIdx] || s.state.Bricks[nextIdx] != -1 { // filter neighbours
continue
}
distances[nextIdx] = newDistance
s.frontier = append(s.frontier, nextIdx)
if better == nil {
continue
}
better(nextIdx, newDistance)
}
}

94
soko/solver.go Normal file
View File

@ -0,0 +1,94 @@
package soko
func Solve(l Level) int {
state := l.State()
return solve(state)
}
func solve(state State) int {
level := state.Level
target := state.Target.Pos
costs := &stateCostQueue{}
costs.Put(&stateCost{&state, 0, nil})
costsByPlayerIdx := make([][]*stateCost, level.Size())
findCost := func(s *State) *stateCost {
costs := costsByPlayerIdx[s.Player.Pos]
for i := 0; i < len(costs); i++ {
if !costs[i].state.Equal(s) {
continue
}
return costs[i]
}
return nil
}
addCost := func(next *State, nextCost int) {
cost := findCost(next)
if cost == nil {
newCost := &stateCost{next, nextCost, nil}
costs.Put(newCost)
player := next.Player.Pos
costsByPlayerIdx[player] = append(costsByPlayerIdx[player], newCost)
} else if nextCost < cost.cost {
cost.cost = nextCost
costs.Update(cost)
}
}
moves := level.Moves()
type direction struct {
dir Direction
inverse Direction
}
dirs := make([]direction, 4)
for _, dir := range Directions {
dirs[dir] = direction{dir, dir.Invert()}
}
for {
curr := costs.Get()
currPlayerPos := curr.state.Player.Pos
if currPlayerPos == target {
return curr.cost
}
if curr.distances == nil {
curr.distances = NewPathFinderMoves(curr.state, moves).FindDistances()
}
distances := curr.distances
for _, e := range curr.state.Entities {
idx := e.Pos
if e.Typ != EntityTypeBrick || curr.state.SunkenBricks[idx] == e.ID {
continue
}
for i := 0; i < 4; i++ {
player := moves[e.Pos].All[dirs[i].inverse]
if player == -1 {
continue
}
walk := distances[player]
if walk == -1 {
continue
}
if !curr.state.IsOpenForBrick(curr.state.IdxToPos[moves[e.Pos].All[i]]) {
continue
}
curr.state.Player.Pos = player
next, ok := curr.state.MovePlayer(dirs[i].dir)
if !ok {
panic("should be a valid move")
}
nextCost := curr.cost + walk + 1
addCost(&next, nextCost)
}
}
curr.state.Player.Pos = currPlayerPos
if walk := distances[target]; walk != -1 {
next := curr.state.Clone()
next.Player.Pos = target
nextCost := curr.cost + walk
addCost(&next, nextCost)
}
if costs.Empty() {
return -1
}
}
}

111
soko/solver_test.go Normal file
View File

@ -0,0 +1,111 @@
package soko
import (
"bytes"
"testing"
"github.com/stretchr/testify/assert"
)
var levelBenchmark = `level:
._._._._._._._._._._._._._._._._._._._._
._._._._._#_#_#_._._._._._._._._._._._._
._._._._._#_#_#_._._._._._._._._._._._._
._._._._._#_#_#_._._._._._._._._._._._._
._._._#_#_#_#_#_#_._._._._._._._._._._._
._._._#_._#_._._#_._._._._#X#_#_~_#_#_._
._#_#_#_._#_._._#_._._._._._._._~_#_#_._
._#_#B#_#_#B#_#_#_#_#_#_#_#_#_#_#_#_#_._
._._._._._#_._._._#_._#@._._._._#_#_._._
._._._._._#_#_#_#_#_._._._._._._._._._._
._._._._._._._._._._._._._._._._._._._._
:level`
var levelEasy = `level:
._._._._._._._._._._
._#@#_#_#B#_~_#_#X._
._._._._._._._._._._
:level`
var level1 = `level:
._._._._._._._._._._
._#_#_#_#_~_~_~_#_._
._#_#_._#B~_~_#_#_._
._#_#_#_#_~_~_~_#_._
._#_#_._#B~_~_#_#_._
._#@#_#_#_~_~_#_#X._
._#_#_~_~_~_#_#_#_._
._#_#_~_~_~_#_#_#_._
._._._._._._._._._._
:level`
var level2 = `level:
._._._._._._._._._._._._._._._._._._._._
._._._._._#_#_#_._._._._._._._._._._._._
._._._._._#B#_#_._._._._._._._._._._._._
._._._._._#_#_#B._._._._._._._._._._._._
._._._#_#_#B#_#B#_._._._._._._._._._._._
._._._#_._#_._._#_._._._._#X#_~_~_~_#_._
._#_#_#_._#_._._#_._._._._._._._~_~_#_._
._#_#B#_#_#B#_#_#_#_#_#_#_#_#_#_~_#_#_._
._._._._._#_._._._#_._#@._._._._#_#_._._
._._._._._#_#_#_#_#_._._._._._._._._._._
._._._._._._._._._._._._._._._._._._._._
:level`
var level3 = `level:
._._._._._._._._._._
._._._._._._._._._._
._~_#_#_#_#B#_._._._
._~_#B#_#_._#_._._._
._~_._#_~_#_#_._._._
._#X._#_~_#_._._._._
._._#_#B#_#_._._._._
._._#@#_._._._._._._
._._._._._._._._._._
:level`
var level4 = `level:
._._._._._._._._._._._._
._._#_#_._._._._._._._._
._._#_#B#_#B#@#_#_._._._
._._#_#_#_#_#B#_#_._._._
._._._._._._#_._._._._._
._._._._._._#_._._._._._
._._._._._._#B._._._._._
._._._#_#_._#_._#_#_._._
._#_#_#_#_~_#_#_#_#_#_._
._#_._._#_._#_._#_._#_._
._#_._#X~_._~_._~_._#_._
._#_._._#_._#_._#_._#_._
._#_#_#_#_#_~_#_#_#_#_._
._._._._._._._._._._._._
:level`
func mustParseLevel(s string) Level {
l, err := ParseLevel(bytes.NewBufferString(s))
if err != nil {
panic("couldn't parse level")
}
return l
}
func TestSolver(t *testing.T) {
solve := func(s string) int {
l := mustParseLevel(s)
steps := Solve(l)
return steps
}
assert.Equal(t, 7, solve(levelEasy))
assert.Equal(t, 35, solve(level1))
// assert.Equal(t, -1, solve(level2))
assert.Equal(t, 49, solve(level3))
// assert.Equal(t, -1, solve(level4))
}
func BenchmarkSolver(b *testing.B) {
l := mustParseLevel(levelBenchmark)
for n := 0; n < b.N; n++ {
Solve(l)
}
}

240
soko/state.go Normal file
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package soko
import "opslag.de/schobers/geom"
type State struct {
Player Entity
Target Entity
Entities Entities
Level Level
IdxToPos []geom.Point
Bricks Ints
SunkenBricks Ints
Walkable []bool
nextEntityID int
}
func NewState(l Level) State {
size := l.Size()
s := State{
Entities: Entities{},
Level: l,
IdxToPos: make([]geom.Point, size),
Bricks: NewInts(size),
SunkenBricks: NewInts(size),
Walkable: make([]bool, size),
}
for idx, t := range l.Tiles {
switch t {
case TileTypeBasic:
s.Walkable[idx] = true
}
s.IdxToPos[idx] = s.Level.IdxToPos(idx)
}
for idx, e := range l.Entities {
pos := s.IdxToPos[idx]
switch e {
case EntityTypeBrick:
s.addBrick(pos)
case EntityTypePlayer:
s.initPlayer(pos)
case EntityTypeTarget:
s.initTarget(pos)
}
}
return s
}
// Clone creates and returns a clone of the state.
func (s State) Clone() State {
return State{
Player: s.Player,
Target: s.Target,
Entities: s.Entities.Clone(),
Level: s.Level,
IdxToPos: s.IdxToPos,
Bricks: s.Bricks.Clone(),
SunkenBricks: s.SunkenBricks.Clone(),
Walkable: append(s.Walkable[:0:0], s.Walkable...),
nextEntityID: s.nextEntityID,
}
}
func (s State) All(pred func(State, geom.Point) bool, p ...geom.Point) bool {
for _, p := range p {
if !pred(s, p) {
return false
}
}
return true
}
func (s State) Any(pred func(State, geom.Point) bool, p ...geom.Point) bool {
for _, p := range p {
if pred(s, p) {
return true
}
}
return false
}
func (s *State) Equal(other *State) bool {
for i := 0; i < len(s.Entities); i++ {
if other.Entities[i].Pos != s.Entities[i].Pos {
return false
}
}
return true
}
func (s State) IsOpenForBrick(p geom.Point) bool {
idx := s.Level.PosToIdx(p)
if idx == -1 {
return false
}
return s.isOpenForBrick(idx)
}
// IsWalkable indicates that a player could walk over this tile regardless of any Bricks that might be there.
func (s State) IsWalkable(p geom.Point) bool {
idx := s.Level.PosToIdx(p)
if idx == -1 {
return false
}
return s.Walkable[idx]
}
// IsWalkableAndFree indicates that a player can walk over this tile (no brick is at the tile).
func (s State) IsWalkableAndFree(p geom.Point) bool {
idx := s.Level.PosToIdx(p)
if idx == -1 {
return false
}
return s.Walkable[idx] && s.Bricks[idx] == -1
}
// MovePlayer tries to move the player in the specified direction. Returns the new state and true if the move is valid. Returns the current state and false is the move was invalid.
func (s State) MovePlayer(dir Direction) (State, bool) {
to := s.Level.MoveIdx(s.Player.Pos, dir)
if to == -1 {
return s, false
}
if !s.Walkable[to] {
return s, false
}
brickID := s.Bricks[to]
if brickID == -1 {
return s.Mutate(func(s *State) {
s.movePlayer(to)
}), true
}
brickTo := s.Level.MoveIdx(to, dir)
if brickTo == -1 {
return s, false
}
if !s.isOpenForBrick(brickTo) {
return s, false
}
return s.Mutate(func(s *State) {
s.movePlayer(to)
if s.Level.Tiles[brickTo] == TileTypeMagma && s.SunkenBricks[brickTo] == -1 {
s.SunkenBricks[brickTo] = brickID
s.Walkable[brickTo] = true
s.Bricks[to] = -1
} else {
s.Bricks[brickTo] = brickID
s.Bricks[to] = -1
}
s.updateEntity(brickID, Entity{brickID, brickTo, EntityTypeBrick})
}), true
}
func (s State) SetPlayer(to geom.Point) (State, bool) {
toIdx := s.Level.PosToIdx(to)
if toIdx == -1 {
return s, false
}
if !s.Walkable[toIdx] {
return s, false
}
if s.Bricks[toIdx] != -1 {
return s, false
}
return s.Mutate(func(s *State) {
s.movePlayer(toIdx)
}), true
}
// Mutate clones the state, applies the mutation on the clone and returns the clone.
func (s State) Mutate(fn func(s *State)) State {
clone := s.Clone()
fn(&clone)
return clone
}
func (s *State) addBrick(pos geom.Point) {
s.addEntity(pos, EntityTypeBrick, func(e Entity) {
idx := s.Level.PosToIdx(pos)
if idx != -1 {
s.Bricks[idx] = e.ID
}
})
}
func (s *State) addEntity(pos geom.Point, typ EntityType, add func(Entity)) {
id := s.nextEntityID
e := Entity{id, s.Level.PosToIdx(pos), typ}
add(e)
s.Entities = append(s.Entities, e)
s.nextEntityID++
}
func (s *State) initPlayer(pos geom.Point) {
s.addEntity(pos, EntityTypePlayer, func(e Entity) {
s.Player = e
})
}
func (s *State) initTarget(pos geom.Point) {
s.addEntity(pos, EntityTypeTarget, func(e Entity) {
s.Target = e
})
}
func (s State) isOpenForBrick(idx int) bool {
if s.Walkable[idx] {
return s.Bricks[idx] == -1
}
return s.Level.Tiles[idx] == TileTypeMagma
}
func (s *State) updateEntity(id int, e Entity) {
idx := s.Entities.IdxById(id)
if idx == -1 {
return
}
s.Entities[idx] = e
}
func (s *State) movePlayer(to int) {
s.Player.Pos = to
s.updateEntity(s.Player.ID, Entity{s.Player.ID, to, EntityTypePlayer})
}
func IsMagma(s State, p geom.Point) bool {
idx := s.Level.PosToIdx(p)
if idx == -1 {
return false
}
return s.Level.Tiles[idx] == TileTypeMagma
}

71
soko/statecost.go Normal file
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package soko
type stateCost struct {
state *State
cost int
distances Ints
}
type stateCostQueue struct {
first *stateCostQueueItem
}
type stateCostQueueItem struct {
Value *stateCost
Next *stateCostQueueItem
}
func (q *stateCostQueue) Empty() bool {
return q.first == nil
}
func (q *stateCostQueue) Get() *stateCost {
if q.Empty() {
panic("nothing in queue")
}
first := q.first
q.first = first.Next
return first.Value
}
func (q *stateCostQueue) Put(value *stateCost) {
priority := value.cost
item := &stateCostQueueItem{value, nil}
if q.Empty() {
q.first = item
return
}
if priority < q.first.Value.cost {
item.Next = q.first
q.first = item
return
}
curr := q.first
for curr.Next != nil {
if priority < curr.Next.Value.cost {
item.Next = curr.Next
curr.Next = item
return
}
curr = curr.Next
}
curr.Next = item
}
func (q *stateCostQueue) Update(value *stateCost) {
var prev *stateCostQueueItem
curr := q.first
for curr.Value != value {
prev = curr
curr = curr.Next
if curr == nil {
panic("not in queue")
}
}
if prev == nil {
q.first = curr.Next
} else {
prev.Next = curr.Next
}
q.Put(value)
}

21
soko/tiletype.go Normal file
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package soko
type TileType byte
const (
TileTypeInvalid TileType = TileType(0)
TileTypeNothing = '.'
TileTypeBasic = '#'
TileTypeMagma = '~'
)
func (t TileType) IsValid() bool {
switch t {
case TileTypeNothing:
case TileTypeBasic:
case TileTypeMagma:
default:
return false
}
return true
}