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- package tile
- import "gitlab.com/beoran/ebsgo/monolog"
- // import "os"
- // import "math"
- import "gitlab.com/beoran/al5go/al"
- import "gitlab.com/beoran/ebsgo/engine/geometry"
- const TILE_W = 32
- const TILE_H = 32
- var showSolid = false;
- /** A tile set */
- type Set struct {
- Tiles []Tile
- Sheet * al.Bitmap
- W int // Width, in tiles
- H int // Height, in tiles
- TileW int
- TileH int
- FirstGID int /* Offset of tile set in TMX map file. Used to correct tile offsets. */
- };
- /** A Tiled-style animation frame of a tile. */
- type Frame struct {
- Index int /* Tile set index for this frame of animation. */
- Duration float64 /* Duration of the frame in s. */
- }
- /**
- * A single tile from a tile map.
- * Tiles can be animated. This works like this: a tile has an animation
- * pointer and offset which points to the next tile to be drawn in the tileset.
- */
- type Tile struct {
- Tileset * Set /* Tileset this tile belongs to */
- Index int /* Index in the tile set. */
- Flags int /* Information about the tile's properties. */
- Kind int
- /* Offset to the tile to skip to when animating. If this is
- 0 the tile is not animated. If nonzero, the tile will skip to
- the tile in the same tile set set with index index + anim.
- May be negative to "roll back" an animation to it's begin. */
- Anim int
-
- /** For unanimated tiles, active is set to the index of the tile itself.
- For animated tiles, it is set to the index of tile that currently should
- be displayed in stead of this tile due to animation.
- */
- Active int
-
- Wait float64
- /* Time in s to wait before jumping to the next frame of this tile. */
- Time float64
- /* Time since last animation in s. */
- Position geometry.Vector
- /* Automatic blending activation and priority. */
- Blend int
- /* Mask number to use for automatic blending, if any. */
- BlendMask int
- /* Automatic lighting activation flag. */
- Light int
- LightMask int
- /* Automatic shadow activation flag. */
- Shadow int
- /* Automatic shadow mask number. */
- ShadowMask int
- /* Tiled-style animation frames. */
- Frames []Frame
- /* Active frame for TMX-style animations. */
- ActiveFrame int
- };
- /* NOTE: Tiles could be implemented using sub bitmaps as they seem to be
- * slightly faster if they are preallocated. however the speed gain would
- * be around 2%, so it's not a priority yet. It could simplify some of
- * the code, though.
- */
- func NewSet(sheet * al.Bitmap, tile_w, tile_h, firstgid int) * Set {
- if sheet == nil {
- return nil
- }
- set := &Set{}
- set.Sheet = sheet
- set.TileW = tile_w
- set.TileH = tile_h
- set.FirstGID = firstgid
- set.W = sheet.Width() / set.TileW
- set.H = sheet.Height() / set.TileH
- size := set.W * set.H
- set.Tiles = make([]Tile, size)
- for i := 0 ; i < size; i ++ {
- set.Tiles[i].Init(set, i)
- }
- return set
- }
- func (tile * Tile) Init(set * Set, index int) {
- tile.Tileset = set
- tile.Index = index
- tile.Active = index
- tile.Wait = 0.25
- tile.Recalculate()
- }
- func (tile Tile) SheetY(set * Set) int {
- return (tile.Active / set.W) * set.TileH
- }
- func (tile Tile) SheetX(set * Set) int {
- return (tile.Active % set.W) * set.TileW
- }
- /** Recalculates the tile's position (now) in it's tile set. */
- func (tile * Tile) Recalculate() {
- if nil == tile.Tileset {
- return
- }
-
- x := float32(tile.SheetX(tile.Tileset))
- y := float32(tile.SheetY(tile.Tileset))
-
- tile.Position = geometry.NewVector(x, y)
- }
- func (set Set) Tile(index int) * Tile {
- if index >= 0 && index <= len(set.Tiles) {
- return &set.Tiles[index]
- }
- return nil
- }
- /** Tile types */
- const (
- TILE_NONE = 0
- TILE_WALL = iota
- TILE_WATER = iota
- TILE_LEDGE = iota
- TILE_STAIR = iota
- TILE_PUSH = iota
- TILE_NORTH = iota
- TILE_SOUTH = iota
- TILE_EAST = iota
- TILE_WEST = iota
- TILE_UP = iota
- TILE_DOWN = iota
- TILE_ICE = iota
- )
-
-
- /* Helper lookup table for the tile flag names */
- var FlagNames map[string]uint = map[string]uint {
- "wall" : TILE_WALL ,
- "water": TILE_WATER ,
- "ledge": TILE_LEDGE ,
- "stair": TILE_STAIR ,
- "push" : TILE_PUSH ,
- "north": TILE_NORTH ,
- "south": TILE_SOUTH ,
- "east" : TILE_EAST ,
- "west" : TILE_WEST ,
- "up" : TILE_UP ,
- "down" : TILE_DOWN ,
- "ice" : TILE_ICE ,
- }
- /** Sets a tile's flags from a property string.
- * This uses an internal lookup table.
- */
- func (tile * Tile) SetProperty(property string) {
- val, ok := FlagNames[property];
- if (ok) {
- tile.Flags |= (1 << val)
- }
- }
- func (tile * Tile) HasFlag(flag uint) bool {
- return (tile.Flags & (1 << flag)) == (1 << flag)
- }
- func (tile * Tile) IsWall() bool {
- return tile.HasFlag(TILE_WALL)
- }
- /** Initializes a tile's frame of animation. */
- func (frame * Frame) Init(index int, duration float64) {
- frame.Index = index
- frame.Duration = duration
- }
- /** Gets the nth frame of Tiled style animations for this tile
- * or NULL if no such animation frame. */
- func (tile Tile) Frame(index int) * Frame {
- if nil == tile.Frames{
- return nil
- } else {
- return &tile.Frames[index]
- }
- }
- /** Gets the amount of Tiled style animations for this tile, or 0 if none. */
- func (tile Tile) FrameCount() int {
- if nil == tile.Frames {
- return 0
- } else {
- return len(tile.Frames)
- }
- }
- /** Adds a Tiled-style animation frame to the tile. */
- func (tile * Tile) AddAnimationFrame(index int, duration float64) (frame * Frame) {
- if (nil == tile.Frames) {
- tile.Frames = make([]Frame, 1)
- frame = &tile.Frames[0]
- } else {
- frame = &Frame{}
- tile.Frames = append(tile.Frames, *frame)
- }
-
- frame.Init(index, duration)
- return frame
- }
-
- /** Rewinds a tile's animations. */
- func (tile * Tile) RewindAnimations() {
- tile.Active = tile.Index
- tile.ActiveFrame = 0
- // Finally recalculate tile position.
- tile.Recalculate()
- }
- /** Updates a tile to animate it using TMX style animation. */
- func (tile * Tile) UpdateAnimation(dt float64) {
- active := 0;
- frame := tile.Frame(tile.ActiveFrame)
- if nil == frame { /* Animation overshot itself */
- tile.ActiveFrame = 0
- frame = tile.Frame(tile.ActiveFrame)
- if nil == frame {
- return
- }
- }
-
- monolog.Log("TILE", "Animation for tile: %d %d %f %f\n",
- tile.ActiveFrame, frame.Index, frame.Duration, tile.Time)
-
- tile.Time += dt // advance animation time of tile.
- // Don't animate if not enough time has passed
- if tile.Time < frame.Duration {
- return
- }
- // advance the animation frame, loop it around if needed.
- tile.ActiveFrame++
- if tile.ActiveFrame >= tile.FrameCount() {
- tile.ActiveFrame = 0
- }
- // Get new tile frame
- frame = tile.Frame(tile.ActiveFrame);
- // If we get here, reset animation time.
- tile.Time = 0.0
- if nil == frame {
- return
- }
-
- monolog.Log("TILE", "Animation for tile: %d %d %f %f %b\n",
- tile.ActiveFrame, frame.Index, frame.Duration, tile.Time)
- // Get the active tile to use from the animation frame
- active = frame.Index
- aidtile := tile.Tileset.Tile(active);
- // Check if there is such a tile.
- if nil == aidtile {
- return
- }
- // If there is such a tile, change the active tile index of this tile.
- tile.Active = active
- // Finally recalculate tile position.
- tile.Recalculate()
- monolog.Log("TILE", "Updated animation for tile: %d\n", tile.Active)
- }
- /* Animates the tile. Animates the tile if it has animation frames. */
- func (tile * Tile) Update(dt float64) {
- if nil != tile.Frames {
- tile.UpdateAnimation(dt)
- }
- }
- /** Updates all tiles in a tile set so they all get animated. */
- func (set * Set) Update(dt float64) {
- if nil == set.Tiles {
- return
- }
-
- for i := 0 ; i < len(set.Tiles); i ++ {
- tile := &set.Tiles[i]
- tile.Update(dt)
- }
- }
- /** Recalculates all tiles in a tile set so they all get the rght position. */
- func (set * Set) Recalculate() {
- if nil == set.Tiles {
- return
- }
-
- for i := 0 ; i < len(set.Tiles); i ++ {
- tile := &set.Tiles[i]
- tile.Recalculate()
- }
- }
- /** Draw a tile to the current active drawing target at the
- given coordinates. Does nothing if tile is NULL. */
- func (tile Tile) Draw(x, y float32, drawflags int) {
- set := tile.Tileset
- sheet := set.Sheet
- dx := float32(x)
- dy := float32(y)
- sx := float32(tile.Position.X)
- sy := float32(tile.Position.Y)
- sw := float32(set.TileW)
- sh := float32(set.TileH)
- sheet.DrawRegion(sx, sy, sw, sh, dx, dy, drawflags);
- // debugging solid tiles
- if showSolid {
- if (tile.Flags & (1<<TILE_WALL)) == (1<<TILE_WALL) {
- dcolor := al.MapRGB(0xee, 0xee, 0x00)
- al.DrawRectangle(dx, dy, dx+sw, dy+sh, dcolor, 2);
- }
- }
- }
- /* Used for drawing masked tiles. */
- var tileMaskBuffer * al.Bitmap
- /** Draw a tile into the given bitmap, which should be of size TILE_W, TILE_H
- * applying the given mask bitmap, where the mask will
- be flipped and rotated as per the given mask_flags. The mask bitmap
- should be white, but with different alpha levels on the white
- which will be applied as the mask. Does nothing if tile is NULL.
- This requires al_hold_bitmap_drawing to be turned off!
- */
- func (tile * Tile) DrawMaskedTo(result * al.Bitmap, mask * al.Bitmap, angle float32, mask_flags int) {
- /* This function need a mask buffer. */
-
- /* Create a 32x32 tile bitmap that will be reused thanks to
- it being static. And leaked at program shutdown, but I don't care :p. */
- if nil == tileMaskBuffer {
- bmpflags := al.NewBitmapFlags()
- al.SetNewBitmapFlags(al.CONVERT_BITMAP)
- tileMaskBuffer = al.CreateBitmap(TILE_W, TILE_H)
- al.SetNewBitmapFlags(bmpflags)
- }
-
- /* Keep the target bitmap. */
- target := al.TargetBitmap()
-
- /* Copy the tile into the buffer. */
- al.SetTargetBitmap(tileMaskBuffer)
- set := tile.Tileset
- sheet := set.Sheet
- dx := float32(0.0)
- dy := float32(0.0)
- sx := float32(tile.Position.X)
- sy := float32(tile.Position.Y)
- sw := float32(set.TileW )
- sh := float32(set.TileH )
- /* Set blender to copy mode. */
- al.SetBlender(al.ADD, al.ONE, al.ZERO)
- sheet.DrawRegion(sx, sy, sw, sh, 0, 0, 0);
-
- /* Draw the mask over the tile, taking the alpha of the mask */
- al.SetBlender(al.ADD, al.ZERO, al.ALPHA)
- mask.Draw(0, 0, mask_flags)
-
- /* Restore normal Allegro blending. */
- al.SetBlender(al.ADD, al.ONE, al.INVERSE_ALPHA)
- sx = 0.0
- sy = 0.0
- if (angle != 0.0) {
- sx = float32(set.TileW) / 2.0
- sy = float32(set.TileH) / 2.0
- dx += sx
- dy += sy
- }
-
- /* Draw the tile mask buffer to the result bitmap */
- al.SetTargetBitmap(result)
- tileMaskBuffer.DrawRotated(sx, sy, dx, dy, angle, 0)
- /* And restore the target bitmap. */
- al.SetTargetBitmap(target)
- }
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