Noah Petherbridge
db5760ee83
* Added to the F3 Debug Overlay is a "Texture:" label that counts the number of textures currently loaded by the (SDL2) render engine. * Added Teardown() functions to Level, Doodad and the Chunker they both use to free up SDL2 textures for all their cached graphics. * The Canvas.Destroy() function now cleans up all textures that the Canvas is responsible for: calling the Teardown() of the Level or Doodad, calling Destroy() on all level actors, and cleaning up Wallpaper textures. * The Destroy() method of the game's various Scenes will properly Destroy() their canvases to clean up when transitioning to another scene. The MainScene, MenuScene, EditorScene and PlayScene. * Fix the sprites package to actually cache the ui.Image widgets. The game has very few sprites so no need to free them just yet. Some tricky places that were leaking textures have been cleaned up: * Canvas.InstallActors() destroys the canvases of existing actors before it reinitializes the list and installs the replacements. * The DraggableActor when the user is dragging an actor around their level cleans up the blueprint masked drag/drop actor before nulling it out. Misc changes: * The player character cheats during Play Mode will immediately swap out the player character on the current level. * Properly call the Close() function instead of Hide() to dismiss popup windows. The Close() function itself calls Hide() but also triggers WindowClose event handlers. The Doodad Dropper subscribes to its close event to free textures for all its doodad canvases.
331 lines
8.1 KiB
Go
331 lines
8.1 KiB
Go
package level
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import (
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"encoding/json"
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"fmt"
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"image"
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"math"
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"git.kirsle.net/apps/doodle/pkg/balance"
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"git.kirsle.net/apps/doodle/pkg/log"
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"git.kirsle.net/apps/doodle/pkg/pattern"
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"git.kirsle.net/apps/doodle/pkg/shmem"
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"git.kirsle.net/go/render"
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"github.com/google/uuid"
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)
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// Types of chunks.
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const (
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MapType int = iota
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GridType
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)
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// Chunk holds a single portion of the pixel canvas.
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type Chunk struct {
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Type int // map vs. 2D array.
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Accessor
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// Values told to it from higher up, not stored in JSON.
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Point render.Point
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Size int
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// Texture cache properties so we don't redraw pixel-by-pixel every frame.
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uuid uuid.UUID
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bitmap image.Image
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texture render.Texturer
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textureMasked render.Texturer
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textureMaskedColor render.Color
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dirty bool
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}
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// JSONChunk holds a lightweight (interface-free) copy of the Chunk for
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// unmarshalling JSON files from disk.
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type JSONChunk struct {
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Type int `json:"type"`
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Data json.RawMessage `json:"data"`
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BinData interface{} `json:"-"`
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}
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// Accessor provides a high-level API to interact with absolute pixel coordinates
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// while abstracting away the details of how they're stored.
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type Accessor interface {
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Inflate(*Palette) error
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Iter() <-chan Pixel
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IterViewport(viewport render.Rect) <-chan Pixel
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Get(render.Point) (*Swatch, error)
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Set(render.Point, *Swatch) error
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Delete(render.Point) error
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Len() int
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MarshalJSON() ([]byte, error)
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UnmarshalJSON([]byte) error
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}
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// NewChunk creates a new chunk.
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func NewChunk() *Chunk {
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return &Chunk{
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Type: MapType,
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Accessor: NewMapAccessor(),
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}
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}
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// Texture will return a cached texture for the rendering engine for this
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// chunk's pixel data. If the cache is dirty it will be rebuilt in this func.
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//
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// Texture cache can be disabled with balance.DisableChunkTextureCache=true.
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func (c *Chunk) Texture(e render.Engine) render.Texturer {
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if c.texture == nil || c.dirty {
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// Generate the normal bitmap and one with a color mask if applicable.
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tex, err := c.generateTexture(render.Invisible)
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if err != nil {
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log.Error("Texture: %s", err)
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}
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c.texture = tex
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c.textureMasked = nil // invalidate until next call
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c.dirty = false
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}
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return c.texture
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}
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// TextureMasked returns a cached texture with the ColorMask applied.
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func (c *Chunk) TextureMasked(e render.Engine, mask render.Color) render.Texturer {
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if c.textureMasked == nil || c.textureMaskedColor != mask {
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// Force regenerate with the new mask color.
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c.dirty = true
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tex, err := c.generateTexture(mask)
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if err != nil {
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log.Error("Texture: %s", err)
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}
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c.textureMasked = tex
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c.textureMaskedColor = mask
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}
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return c.textureMasked
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}
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// SetDirty sets the `dirty` flag to true and forces the texture to be
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// re-computed next frame.
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func (c *Chunk) SetDirty() {
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c.dirty = true
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}
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// CachedBitmap returns a cached render of the chunk as a bitmap image.
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//
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// This is like Texture() but skips the step of actually producing an
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// (SDL2) texture. The benefit of this is that you can call it from
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// your non-main threads and offload the bitmap work into background
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// tasks, then when SDL2 needs the Texture, the cached bitmap is
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// immediately there saving time on the main thread.
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func (c *Chunk) CachedBitmap(mask render.Color) image.Image {
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if c.bitmap == nil || c.dirty {
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c.bitmap = c.ToBitmap(mask)
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}
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return c.bitmap
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}
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// generateTexture takes the chunk's Bitmap, turns it into an (SDL2)
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// texture, and caches the texture in memory until the chunk is marked
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// as dirty.
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func (c *Chunk) generateTexture(mask render.Color) (render.Texturer, error) {
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// Generate a unique name for this chunk cache.
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var name string
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if c.uuid == uuid.Nil {
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c.uuid = uuid.Must(uuid.NewUUID())
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}
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name = c.uuid.String()
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if mask != render.Invisible {
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name += fmt.Sprintf("-%02x%02x%02x%02x",
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mask.Red, mask.Green, mask.Blue, mask.Alpha,
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)
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}
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// Get (and/or cache) the chunk to a bitmap image.
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// Note: the 1st call to Bitmap or after SetDirty will
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// generate the image and store it cached.
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bitmap := c.CachedBitmap(mask)
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// Cache the texture data with the current renderer.
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tex, err := shmem.CurrentRenderEngine.StoreTexture(name, bitmap)
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return tex, err
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}
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// ToBitmap exports the chunk's pixels as a bitmap image.
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// NOT CACHED! This will always run the logic. Use Bitmap() if you
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// want a cached bitmap image that only generates itself once, and
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// again when marked dirty.
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func (c *Chunk) ToBitmap(mask render.Color) image.Image {
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canvas := c.SizePositive()
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imgSize := image.Rectangle{
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Min: image.Point{},
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Max: image.Point{
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X: c.Size,
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Y: c.Size,
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},
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}
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if imgSize.Max.X == 0 {
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imgSize.Max.X = int(canvas.W)
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}
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if imgSize.Max.Y == 0 {
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imgSize.Max.Y = int(canvas.H)
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}
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img := image.NewRGBA(imgSize)
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// Blank out the pixels.
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// TODO PERF: may be slow?
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for x := 0; x < img.Bounds().Max.X; x++ {
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for y := 0; y < img.Bounds().Max.Y; y++ {
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img.Set(x, y, balance.DebugChunkBitmapBackground.ToColor())
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}
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}
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// Pixel coordinate offset to map the Chunk World Position to the
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// smaller image boundaries.
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pointOffset := render.Point{
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X: c.Point.X * c.Size,
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Y: c.Point.Y * c.Size,
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}
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// Blot all the pixels onto it.
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for px := range c.Iter() {
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var color = px.Swatch.Color
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// If the swatch has a pattern, mesh it in.
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if px.Swatch.Pattern != "" {
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color = pattern.SampleColor(px.Swatch.Pattern, color, px.Point())
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}
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if mask != render.Invisible {
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// A semi-transparent mask will overlay on top of the actual color.
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if mask.Alpha < 255 {
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color = color.AddColor(mask)
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} else {
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color = mask
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}
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}
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img.Set(
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px.X-pointOffset.X,
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px.Y-pointOffset.Y,
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color.ToColor(),
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)
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}
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return img
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}
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// Teardown the chunk and free (SDL2) texture memory in ways Go can not by itself.
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// Returns the number of textures freed.
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func (c *Chunk) Teardown() int {
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var freed int
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if c.texture != nil {
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c.texture.Free()
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c.texture = nil
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freed++
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}
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if c.textureMasked != nil {
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c.textureMasked.Free()
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c.textureMasked = nil
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freed++
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}
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return freed
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}
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// Set proxies to the accessor and flags the texture as dirty.
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func (c *Chunk) Set(p render.Point, sw *Swatch) error {
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c.dirty = true
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return c.Accessor.Set(p, sw)
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}
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// Delete proxies to the accessor and flags the texture as dirty.
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func (c *Chunk) Delete(p render.Point) error {
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c.dirty = true
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return c.Accessor.Delete(p)
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}
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// Rect returns the bounding coordinates that the Chunk has pixels for.
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func (c *Chunk) Rect() render.Rect {
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// Lowest and highest chunks.
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var (
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lowest render.Point
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highest render.Point
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)
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for coord := range c.Iter() {
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if coord.X < lowest.X {
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lowest.X = coord.X
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}
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if coord.Y < lowest.Y {
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lowest.Y = coord.Y
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}
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if coord.X > highest.X {
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highest.X = coord.X
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}
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if coord.Y > highest.Y {
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highest.Y = coord.Y
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}
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}
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return render.Rect{
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X: lowest.X,
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Y: lowest.Y,
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W: highest.X,
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H: highest.Y,
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}
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}
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// SizePositive returns the Size anchored to 0,0 with only positive
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// coordinates.
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func (c *Chunk) SizePositive() render.Rect {
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S := c.Rect()
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return render.Rect{
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W: int(math.Abs(float64(S.X))) + S.W,
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H: int(math.Abs(float64(S.Y))) + S.H,
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}
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}
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// Usage returns the percent of free space vs. allocated pixels in the chunk.
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func (c *Chunk) Usage(size int) float64 {
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return float64(c.Len()) / float64(size)
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}
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// MarshalJSON writes the chunk to JSON.
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func (c *Chunk) MarshalJSON() ([]byte, error) {
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data, err := c.Accessor.MarshalJSON()
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if err != nil {
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return []byte{}, err
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}
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generic := &JSONChunk{
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Type: c.Type,
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Data: data,
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}
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b, err := json.Marshal(generic)
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return b, err
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}
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// UnmarshalJSON loads the chunk from JSON and uses the correct accessor to
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// parse the inner details.
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func (c *Chunk) UnmarshalJSON(b []byte) error {
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// Parse it generically so we can hand off the inner "data" object to the
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// right accessor for unmarshalling.
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generic := &JSONChunk{}
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err := json.Unmarshal(b, generic)
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if err != nil {
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return fmt.Errorf("Chunk.UnmarshalJSON: failed to unmarshal into generic JSONChunk type: %s", err)
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}
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switch c.Type {
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case MapType:
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c.Accessor = NewMapAccessor()
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return c.Accessor.UnmarshalJSON(generic.Data)
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default:
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return fmt.Errorf("Chunk.UnmarshalJSON: unsupported chunk type '%d'", c.Type)
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}
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}
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