186 lines
4.9 KiB
Go
186 lines
4.9 KiB
Go
package grid
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import (
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"image"
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"log"
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"openquell/assets"
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"openquell/components"
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"openquell/config"
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"openquell/observers"
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"github.com/mlange-42/arche/ecs"
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"github.com/mlange-42/arche/generic"
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)
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type Grid struct {
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World *ecs.World
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Width int
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Height int
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Size int
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Tilesize int
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TilesX, TilesY int
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Map map[image.Point]*assets.Tile
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}
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// FIXME: put component addition into extra callable function, to be called
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// by game.go in a level-loop. Also remove components of previous level
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func NewGrid(world *ecs.World,
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tilesize, width, height int, mapslice map[image.Point]*assets.Tile) *Grid {
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// we use this to turn our tiles into iterable entities, used for
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// collision detection, transformation and other things
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playermapper := generic.NewMap4[
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components.Position,
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components.Velocity,
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components.Renderable,
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components.Player](world)
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solidmapper := generic.NewMap4[
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components.Position,
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components.Renderable,
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components.Tilish,
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components.Solid](world)
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emptymapper := generic.NewMap2[components.Position, components.Tilish](world)
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colmapper := generic.NewMap3[
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components.Position,
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components.Renderable,
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components.Collectible](world)
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obsmapper := generic.NewMap4[
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components.Position,
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components.Velocity,
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components.Renderable,
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components.Obstacle](world)
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transmapper := generic.NewMap3[
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components.Position,
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components.Renderable,
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components.Transient](world)
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doormapper := generic.NewMap3[
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components.Position,
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components.Renderable,
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components.Destroyable](world)
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var pos *components.Position
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var vel *components.Velocity
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var render *components.Renderable
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var transient *components.Transient
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var player *components.Player
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var destroyable *components.Destroyable
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playerID := ecs.ComponentID[components.Player](world)
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obstacleID := ecs.ComponentID[components.Obstacle](world)
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observer := observers.GetGameObserver(world)
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for point, tile := range mapslice {
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switch tile.Renderable {
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case true:
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switch {
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case tile.Solid:
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entity := solidmapper.New()
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pos, render, _, _ = solidmapper.Get(entity)
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case tile.Player:
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entity := playermapper.New()
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pos, vel, render, player = playermapper.Get(entity)
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observer.AddEntity(entity, playerID)
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vel.Speed = config.PLAYERSPEED
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player.IsPrimary = tile.IsPrimary
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player.Sprites = tile.Tiles
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player.LoopPos = &components.Position{Cellsize: tilesize}
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case tile.Collectible:
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entity := colmapper.New()
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pos, render, _ = colmapper.Get(entity)
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case tile.Obstacle:
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entity := obsmapper.New()
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pos, vel, render, _ = obsmapper.Get(entity)
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vel.Direction = tile.Direction
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vel.PointingAt = tile.Direction
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vel.Speed = config.PLAYERSPEED
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observer.AddEntity(entity, obstacleID)
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case tile.Transient:
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entity := transmapper.New()
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pos, render, transient = transmapper.Get(entity)
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transient.Sprites = tile.TileNames
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case tile.Destroyable:
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entity := doormapper.New()
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pos, render, destroyable = doormapper.Get(entity)
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destroyable.Sprites = tile.Tiles
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render.DamageImage = tile.Alpha
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render.Shader = tile.Shader
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render.Damaged = 0
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default:
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log.Fatalln("unsupported tile type encountered")
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}
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// FIXME: this image is never being used because it is
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// being overwritten in game/levels.go:LevelToSlice(). The
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// image is taken from the LDTK map, not from the Tile{}
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// definition anymore
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render.Image = tile.Sprite
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default:
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// empty cell, this is where the player[s] move. No
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// sprite required since every level has a background
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// image.
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entity := emptymapper.New()
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pos, _ = emptymapper.Get(entity)
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}
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// however, every tile has a position
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pos.Update(point.X*tilesize, point.Y*tilesize, tilesize)
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}
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return &Grid{
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Size: len(mapslice),
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Tilesize: tilesize,
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Width: width,
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Height: height,
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Map: mapslice,
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World: world,
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TilesX: width / tilesize,
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TilesY: height / tilesize,
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}
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}
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// return the tile the moving object would end up on if indeed moving
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func (grid *Grid) GetTile(
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position *components.Position,
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velocity *components.Velocity) *assets.Tile {
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newpoint := image.Point{
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int(position.X+velocity.Data.X) / grid.Tilesize,
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int(position.Y+velocity.Data.Y) / grid.Tilesize,
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}
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tile := grid.Map[newpoint]
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return tile
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}
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func (grid *Grid) RemoveTile(point image.Point) {
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delete(grid.Map, point)
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}
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func (grid *Grid) SetFloorTile(point image.Point) {
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grid.Map[point] = assets.Tiles["floor"]
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}
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func (grid *Grid) SetSolidTile(tile *assets.Tile, point image.Point) {
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solidmapper := generic.NewMap4[
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components.Position,
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components.Renderable,
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components.Tilish,
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components.Solid](grid.World)
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grid.Map[point] = tile
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entity := solidmapper.New()
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pos, render, _, _ := solidmapper.Get(entity)
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render.Image = tile.Sprite
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pos.Update(point.X*grid.Tilesize, point.Y*grid.Tilesize, grid.Tilesize)
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}
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