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OpenDiablo2/d2core/d2render/ebiten/ebiten_surface.go

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package ebiten
import (
"fmt"
"image"
"image/color"
"math"
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"github.com/OpenDiablo2/OpenDiablo2/d2common/d2enum"
"github.com/OpenDiablo2/OpenDiablo2/d2common/d2interface"
"github.com/hajimehoshi/ebiten"
"github.com/hajimehoshi/ebiten/ebitenutil"
)
const cacheLimit = 512
type colorMCacheKey uint32
type colorMCacheEntry struct {
colorMatrix ebiten.ColorM
atime int64
}
type ebitenSurface struct {
stateStack []surfaceState
stateCurrent surfaceState
image *ebiten.Image
colorMCache map[colorMCacheKey]*colorMCacheEntry
monotonicClock int64
}
func createEbitenSurface(img *ebiten.Image, currentState ...surfaceState) *ebitenSurface {
state := surfaceState{}
if len(currentState) > 0 {
state = currentState[0]
}
return &ebitenSurface{
image: img,
stateCurrent: state,
colorMCache: make(map[colorMCacheKey]*colorMCacheEntry),
}
}
func (s *ebitenSurface) PushTranslation(x, y int) {
s.stateStack = append(s.stateStack, s.stateCurrent)
s.stateCurrent.x += x
s.stateCurrent.y += y
}
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func (s *ebitenSurface) PushCompositeMode(mode d2enum.CompositeMode) {
s.stateStack = append(s.stateStack, s.stateCurrent)
s.stateCurrent.mode = d2ToEbitenCompositeMode(mode)
}
func (s *ebitenSurface) PushFilter(filter d2enum.Filter) {
s.stateStack = append(s.stateStack, s.stateCurrent)
s.stateCurrent.filter = d2ToEbitenFilter(filter)
}
func (s *ebitenSurface) PushColor(color color.Color) {
s.stateStack = append(s.stateStack, s.stateCurrent)
s.stateCurrent.color = color
}
func (s *ebitenSurface) PushBrightness(brightness float64) {
s.stateStack = append(s.stateStack, s.stateCurrent)
s.stateCurrent.brightness = brightness
}
func (s *ebitenSurface) Pop() {
count := len(s.stateStack)
if count == 0 {
panic("empty stack")
}
s.stateCurrent = s.stateStack[count-1]
s.stateStack = s.stateStack[:count-1]
}
func (s *ebitenSurface) PopN(n int) {
for i := 0; i < n; i++ {
s.Pop()
}
}
func (s *ebitenSurface) Render(sfc d2interface.Surface) error {
opts := &ebiten.DrawImageOptions{CompositeMode: s.stateCurrent.mode}
opts.GeoM.Translate(float64(s.stateCurrent.x), float64(s.stateCurrent.y))
opts.Filter = s.stateCurrent.filter
if s.stateCurrent.color != nil {
opts.ColorM = s.colorToColorM(s.stateCurrent.color)
}
if s.stateCurrent.brightness != 0 {
opts.ColorM.ChangeHSV(0, 1, s.stateCurrent.brightness)
}
var img = sfc.(*ebitenSurface).image
return s.image.DrawImage(img, opts)
}
// Renders the section of the animation frame enclosed by bounds
func (s *ebitenSurface) RenderSection(sfc d2interface.Surface, bound image.Rectangle) error {
opts := &ebiten.DrawImageOptions{CompositeMode: s.stateCurrent.mode}
opts.GeoM.Translate(float64(s.stateCurrent.x), float64(s.stateCurrent.y))
opts.Filter = s.stateCurrent.filter
if s.stateCurrent.color != nil {
opts.ColorM = s.colorToColorM(s.stateCurrent.color)
}
if s.stateCurrent.brightness != 0 {
opts.ColorM.ChangeHSV(0, 1, s.stateCurrent.brightness)
}
var img = sfc.(*ebitenSurface).image
return s.image.DrawImage(img.SubImage(bound).(*ebiten.Image), opts)
}
func (s *ebitenSurface) DrawText(format string, params ...interface{}) {
ebitenutil.DebugPrintAt(s.image, fmt.Sprintf(format, params...), s.stateCurrent.x, s.stateCurrent.y)
}
func (s *ebitenSurface) DrawLine(x, y int, color color.Color) {
ebitenutil.DrawLine(
s.image,
float64(s.stateCurrent.x),
float64(s.stateCurrent.y),
float64(s.stateCurrent.x+x),
float64(s.stateCurrent.y+y),
color,
)
}
func (s *ebitenSurface) DrawRect(width, height int, color color.Color) {
ebitenutil.DrawRect(
s.image,
float64(s.stateCurrent.x),
float64(s.stateCurrent.y),
float64(width),
float64(height),
color,
)
}
func (s *ebitenSurface) Clear(color color.Color) error {
return s.image.Fill(color)
}
func (s *ebitenSurface) GetSize() (int, int) {
return s.image.Size()
}
func (s *ebitenSurface) GetDepth() int {
return len(s.stateStack)
}
func (s *ebitenSurface) ReplacePixels(pixels []byte) error {
return s.image.ReplacePixels(pixels)
}
func (s *ebitenSurface) Screenshot() *image.RGBA {
width, height := s.GetSize()
bounds := image.Rectangle{Min: image.Point{X: 0, Y: 0}, Max: image.Point{X: width, Y: height}}
rgba := image.NewRGBA(bounds)
for y := 0; y < height; y++ {
for x := 0; x < width; x++ {
rgba.Set(x, y, s.image.At(x, y))
}
}
return rgba
}
func (s *ebitenSurface) now() int64 {
s.monotonicClock++
return s.monotonicClock
}
// colorToColorM converts a normal color to a color matrix
func (s *ebitenSurface) colorToColorM(clr color.Color) ebiten.ColorM {
// RGBA() is in [0 - 0xffff]. Adjust them in [0 - 0xff].
cr, cg, cb, ca := clr.RGBA()
cr >>= 8
cg >>= 8
cb >>= 8
ca >>= 8
if ca == 0 {
emptyColorM := ebiten.ColorM{}
emptyColorM.Scale(0, 0, 0, 0)
return emptyColorM
}
key := colorMCacheKey(cr | (cg << 8) | (cb << 16) | (ca << 24))
e, ok := s.colorMCache[key]
if ok {
e.atime = s.now()
return e.colorMatrix
}
if len(s.colorMCache) > cacheLimit {
oldest := int64(math.MaxInt64)
oldestKey := colorMCacheKey(0)
for key, c := range s.colorMCache {
if c.atime < oldest {
oldestKey = key
oldest = c.atime
}
}
delete(s.colorMCache, oldestKey)
}
cm := ebiten.ColorM{}
rf := float64(cr) / float64(ca)
gf := float64(cg) / float64(ca)
bf := float64(cb) / float64(ca)
af := float64(ca) / 0xff
cm.Scale(rf, gf, bf, af)
e = &colorMCacheEntry{
colorMatrix: cm,
atime: s.now(),
}
s.colorMCache[key] = e
return e.colorMatrix
}