ebiten/internal/atlas/image.go

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// Copyright 2018 The Ebiten Authors
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package atlas
import (
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"fmt"
"image"
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"runtime"
"sync"
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"github.com/hajimehoshi/ebiten/v2/internal/affine"
"github.com/hajimehoshi/ebiten/v2/internal/driver"
"github.com/hajimehoshi/ebiten/v2/internal/graphics"
"github.com/hajimehoshi/ebiten/v2/internal/hooks"
"github.com/hajimehoshi/ebiten/v2/internal/packing"
"github.com/hajimehoshi/ebiten/v2/internal/restorable"
)
const (
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// paddingSize represents the size of padding around an image.
// Every image or node except for a screen image has its padding.
paddingSize = 1
)
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var (
minSize = 0
maxSize = 0
)
type temporaryPixels struct {
pixels []byte
pos int
notFullyUsedTime int
}
var theTemporaryPixels temporaryPixels
func temporaryPixelsByteSize(size int) int {
l := 16
for l < size {
l *= 2
}
return l
}
func (t *temporaryPixels) alloc(size int) []byte {
if len(t.pixels) < t.pos+size {
t.pixels = make([]byte, temporaryPixelsByteSize(t.pos+size))
t.pos = 0
}
pix := t.pixels[t.pos : t.pos+size]
t.pos += size
return pix
}
func (t *temporaryPixels) resetAtFrameEnd() {
const maxNotFullyUsedTime = 60
if temporaryPixelsByteSize(t.pos) < len(t.pixels) {
if t.notFullyUsedTime < maxNotFullyUsedTime {
t.notFullyUsedTime++
}
} else {
t.notFullyUsedTime = 0
}
// Let the pixels GCed if this is not used for a while.
if t.notFullyUsedTime == maxNotFullyUsedTime && len(t.pixels) > 0 {
t.pixels = nil
}
t.pos = 0
}
func max(a, b int) int {
if a > b {
return a
}
return b
}
func min(a, b int) int {
if a < b {
return a
}
return b
}
func init() {
hooks.AppendHookOnBeforeUpdate(func() error {
backendsM.Lock()
defer backendsM.Unlock()
resolveDeferred()
return putImagesOnAtlas()
})
}
func resolveDeferred() {
deferredM.Lock()
fs := deferred
deferred = nil
deferredM.Unlock()
for _, f := range fs {
f()
}
}
// baseCountToPutOnAtlas represents the base time duration when the image can be put onto an atlas.
// Actual time duration is increased in an exponential way for each usages as a rendering target.
const baseCountToPutOnAtlas = 10
func putImagesOnAtlas() error {
for i := range imagesToPutOnAtlas {
i.usedAsSourceCount++
if i.usedAsSourceCount >= baseCountToPutOnAtlas*(1<<uint(min(i.isolatedCount, 31))) {
if err := i.putOnAtlas(); err != nil {
return err
}
i.usedAsSourceCount = 0
delete(imagesToPutOnAtlas, i)
}
}
// Reset the images. The images will be registered again when it is used as a rendering source.
for k := range imagesToPutOnAtlas {
delete(imagesToPutOnAtlas, k)
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}
return nil
}
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type backend struct {
// restorable is an atlas on which there might be multiple images.
restorable *restorable.Image
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// page is an atlas map. Each part is called a node.
// If page is nil, the backend's image is isolated and not on an atlas.
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page *packing.Page
}
func (b *backend) tryAlloc(width, height int) (*packing.Node, bool) {
// If the region is allocated without any extension, that's fine.
if n := b.page.Alloc(width, height); n != nil {
return n, true
}
nExtended := 1
var n *packing.Node
for {
if !b.page.Extend(nExtended) {
// The page can't be extended any more. Return as failure.
return nil, false
}
nExtended++
n = b.page.Alloc(width, height)
if n != nil {
b.page.CommitExtension()
break
}
b.page.RollbackExtension()
}
s := b.page.Size()
b.restorable = b.restorable.Extend(s, s)
if n == nil {
panic("atlas: Alloc result must not be nil at TryAlloc")
}
return n, true
}
var (
// backendsM is a mutex for critical sections of the backend and packing.Node objects.
backendsM sync.Mutex
initOnce sync.Once
// theBackends is a set of atlases.
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theBackends = []*backend{}
imagesToPutOnAtlas = map[*Image]struct{}{}
deferred []func()
// deferredM is a mutext for the slice operations. This must not be used for other usages.
deferredM sync.Mutex
)
func init() {
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// Lock the mutex before a frame begins.
//
// In each frame, restoring images and resolving images happen respectively:
//
// [Restore -> Resolve] -> [Restore -> Resolve] -> ...
//
// Between each frame, any image operations are not permitted, or stale images would remain when restoring
// (#913).
backendsM.Lock()
}
// Image is a renctangle pixel set that might be on an atlas.
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type Image struct {
width int
height int
disposed bool
volatile bool
screen bool
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backend *backend
node *packing.Node
// usedAsSourceCount represents how long the image is used as a rendering source and kept not modified with
// DrawTriangles.
// In the current implementation, if an image is being modified by DrawTriangles, the image is separated from
// a restorable image on an atlas by ensureIsolated.
//
// usedAsSourceCount is increased if the image is used as a rendering source, or set to 0 if the image is
// modified.
//
// ReplacePixels doesn't affect this value since ReplacePixels can be done on images on an atlas.
usedAsSourceCount int
// isolatedCount represents how many times the image on a texture atlas is changed into an isolated image.
// isolatedCount affects the calculation when to put the image onto a texture atlas again.
isolatedCount int
}
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// moveTo moves its content to the given image dst.
// After moveTo is called, the image i is no longer available.
//
// moveTo is smilar to C++'s move semantics.
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func (i *Image) moveTo(dst *Image) {
dst.dispose(false)
*dst = *i
// i is no longer available but Dispose must not be called
// since i and dst have the same values like node.
runtime.SetFinalizer(i, nil)
}
func (i *Image) isOnAtlas() bool {
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return i.node != nil
}
func (i *Image) resetUsedAsSourceCount() {
i.usedAsSourceCount = 0
delete(imagesToPutOnAtlas, i)
}
func (i *Image) ensureIsolated() {
i.resetUsedAsSourceCount()
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if i.backend == nil {
i.allocate(false)
return
}
if !i.isOnAtlas() {
return
}
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ox, oy, w, h := i.regionWithPadding()
dx0 := float32(0)
dy0 := float32(0)
dx1 := float32(w)
dy1 := float32(h)
sx0 := float32(ox)
sy0 := float32(oy)
sx1 := float32(ox + w)
sy1 := float32(oy + h)
newImg := restorable.NewImage(w, h)
newImg.SetVolatile(i.volatile)
vs := []float32{
dx0, dy0, sx0, sy0, 1, 1, 1, 1,
dx1, dy0, sx1, sy0, 1, 1, 1, 1,
dx0, dy1, sx0, sy1, 1, 1, 1, 1,
dx1, dy1, sx1, sy1, 1, 1, 1, 1,
}
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is := graphics.QuadIndices()
srcs := [graphics.ShaderImageNum]*restorable.Image{i.backend.restorable}
var offsets [graphics.ShaderImageNum - 1][2]float32
dstRegion := driver.Region{
X: paddingSize,
Y: paddingSize,
Width: float32(w - 2*paddingSize),
Height: float32(h - 2*paddingSize),
}
newImg.DrawTriangles(srcs, offsets, vs, is, affine.ColorMIdentity{}, driver.CompositeModeCopy, driver.FilterNearest, driver.AddressUnsafe, dstRegion, driver.Region{}, nil, nil, false)
i.dispose(false)
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i.backend = &backend{
restorable: newImg,
}
i.isolatedCount++
}
func (i *Image) putOnAtlas() error {
if i.backend == nil {
i.allocate(true)
return nil
}
if i.isOnAtlas() {
return nil
}
if !i.canBePutOnAtlas() {
panic("atlas: putOnAtlas cannot be called on a image that cannot be on an atlas")
}
newI := NewImage(i.width, i.height)
newI.SetVolatile(i.volatile)
if restorable.NeedsRestoring() {
// If the underlying graphics driver requires restoring from the context lost, the pixel data is
// needed. A image on an atlas must have its complete pixel data in this case.
pixels := make([]byte, 4*i.width*i.height)
for y := 0; y < i.height; y++ {
for x := 0; x < i.width; x++ {
r, g, b, a, err := i.at(x+paddingSize, y+paddingSize)
if err != nil {
return err
}
pixels[4*(i.width*y+x)] = r
pixels[4*(i.width*y+x)+1] = g
pixels[4*(i.width*y+x)+2] = b
pixels[4*(i.width*y+x)+3] = a
}
}
newI.replacePixels(pixels)
} else {
// If the underlying graphics driver doesn't require restoring from the context lost, just a regular
// rendering works.
w, h := float32(i.width), float32(i.height)
vs := graphics.QuadVertices(0, 0, w, h, 1, 0, 0, 1, 0, 0, 1, 1, 1, 1)
is := graphics.QuadIndices()
dr := driver.Region{
X: 0,
Y: 0,
Width: w,
Height: h,
}
newI.drawTriangles([graphics.ShaderImageNum]*Image{i}, vs, is, affine.ColorMIdentity{}, driver.CompositeModeCopy, driver.FilterNearest, driver.AddressUnsafe, dr, driver.Region{}, [graphics.ShaderImageNum - 1][2]float32{}, nil, nil, false, true)
}
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newI.moveTo(i)
i.usedAsSourceCount = 0
return nil
}
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func (i *Image) regionWithPadding() (x, y, width, height int) {
if i.backend == nil {
panic("atlas: backend must not be nil: not allocated yet?")
}
if !i.isOnAtlas() {
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return 0, 0, i.width + 2*paddingSize, i.height + 2*paddingSize
}
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return i.node.Region()
}
func (i *Image) processSrc(src *Image) {
if src == nil {
return
}
if src.disposed {
panic("atlas: the drawing source image must not be disposed (DrawTriangles)")
}
if src.backend == nil {
src.allocate(true)
}
// Compare i and source images after ensuring i is not on an atlas, or
// i and a source image might share the same atlas even though i != src.
if i.backend.restorable == src.backend.restorable {
panic("atlas: Image.DrawTriangles: source must be different from the receiver")
}
}
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// DrawTriangles draws triangles with the given image.
//
// The vertex floats are:
//
// 0: Destination X in pixels
// 1: Destination Y in pixels
// 2: Source X in pixels (the upper-left is (0, 0))
// 3: Source Y in pixels
// 4: Color R [0.0-1.0]
// 5: Color G
// 6: Color B
// 7: Color Y
func (i *Image) DrawTriangles(srcs [graphics.ShaderImageNum]*Image, vertices []float32, indices []uint16, colorm affine.ColorM, mode driver.CompositeMode, filter driver.Filter, address driver.Address, dstRegion, srcRegion driver.Region, subimageOffsets [graphics.ShaderImageNum - 1][2]float32, shader *Shader, uniforms []interface{}, evenOdd bool) {
backendsM.Lock()
defer backendsM.Unlock()
i.drawTriangles(srcs, vertices, indices, colorm, mode, filter, address, dstRegion, srcRegion, subimageOffsets, shader, uniforms, evenOdd, false)
}
func (i *Image) drawTriangles(srcs [graphics.ShaderImageNum]*Image, vertices []float32, indices []uint16, colorm affine.ColorM, mode driver.CompositeMode, filter driver.Filter, address driver.Address, dstRegion, srcRegion driver.Region, subimageOffsets [graphics.ShaderImageNum - 1][2]float32, shader *Shader, uniforms []interface{}, evenOdd bool, keepOnAtlas bool) {
if i.disposed {
panic("atlas: the drawing target image must not be disposed (DrawTriangles)")
}
if keepOnAtlas {
if i.backend == nil {
i.allocate(true)
}
} else {
i.ensureIsolated()
}
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for _, src := range srcs {
i.processSrc(src)
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}
var dx, dy float32
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// A screen image doesn't have its padding.
if !i.screen {
x, y, _, _ := i.regionWithPadding()
dx = float32(x) + paddingSize
dy = float32(y) + paddingSize
// TODO: Check if dstRegion does not to violate the region.
}
dstRegion.X += dx
dstRegion.Y += dy
var oxf, oyf float32
if srcs[0] != nil {
ox, oy, _, _ := srcs[0].regionWithPadding()
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ox += paddingSize
oy += paddingSize
oxf, oyf = float32(ox), float32(oy)
n := len(vertices) / graphics.VertexFloatNum
for i := 0; i < n; i++ {
vertices[i*graphics.VertexFloatNum+0] += dx
vertices[i*graphics.VertexFloatNum+1] += dy
vertices[i*graphics.VertexFloatNum+2] += oxf
vertices[i*graphics.VertexFloatNum+3] += oyf
}
// srcRegion can be delibarately empty when this is not needed in order to avoid unexpected
// performance issue (#1293).
if srcRegion.Width != 0 && srcRegion.Height != 0 {
srcRegion.X += oxf
srcRegion.Y += oyf
}
} else {
n := len(vertices) / graphics.VertexFloatNum
for i := 0; i < n; i++ {
vertices[i*graphics.VertexFloatNum+0] += dx
vertices[i*graphics.VertexFloatNum+1] += dy
}
}
var offsets [graphics.ShaderImageNum - 1][2]float32
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var s *restorable.Shader
var imgs [graphics.ShaderImageNum]*restorable.Image
if shader == nil {
// Fast path for rendering without a shader (#1355).
imgs[0] = srcs[0].backend.restorable
} else {
for i, subimageOffset := range subimageOffsets {
src := srcs[i+1]
if src == nil {
continue
}
ox, oy, _, _ := src.regionWithPadding()
offsets[i][0] = float32(ox) + paddingSize - oxf + subimageOffset[0]
offsets[i][1] = float32(oy) + paddingSize - oyf + subimageOffset[1]
}
s = shader.shader
for i, src := range srcs {
if src == nil {
continue
}
imgs[i] = src.backend.restorable
}
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}
i.backend.restorable.DrawTriangles(imgs, offsets, vertices, indices, colorm, mode, filter, address, dstRegion, srcRegion, s, uniforms, evenOdd)
for _, src := range srcs {
if src == nil {
continue
}
if !src.isOnAtlas() && src.canBePutOnAtlas() {
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// src might already registered, but assiging it again is not harmful.
imagesToPutOnAtlas[src] = struct{}{}
}
}
}
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func (i *Image) ReplacePixels(pix []byte) {
backendsM.Lock()
defer backendsM.Unlock()
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i.replacePixels(pix)
}
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func (i *Image) replacePixels(pix []byte) {
if i.disposed {
panic("atlas: the image must not be disposed at replacePixels")
}
i.resetUsedAsSourceCount()
if i.backend == nil {
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if pix == nil {
return
}
i.allocate(true)
}
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x, y, w, h := i.regionWithPadding()
if pix == nil {
i.backend.restorable.ReplacePixels(nil, x, y, w, h)
return
}
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ow, oh := w-2*paddingSize, h-2*paddingSize
if l := 4 * ow * oh; len(pix) != l {
panic(fmt.Sprintf("atlas: len(p) must be %d but %d", l, len(pix)))
}
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// Add a padding around the image.
pixb := theTemporaryPixels.alloc(4 * w * h)
for j := 0; j < oh; j++ {
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copy(pixb[4*((j+paddingSize)*w+paddingSize):], pix[4*j*ow:4*(j+1)*ow])
}
i.backend.restorable.ReplacePixels(pixb, x, y, w, h)
}
func (img *Image) Pixels(x, y, width, height int) ([]byte, error) {
backendsM.Lock()
defer backendsM.Unlock()
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x += paddingSize
y += paddingSize
bs := make([]byte, 4*width*height)
idx := 0
for j := y; j < y+height; j++ {
for i := x; i < x+width; i++ {
r, g, b, a, err := img.at(i, j)
if err != nil {
return nil, err
}
bs[4*idx] = r
bs[4*idx+1] = g
bs[4*idx+2] = b
bs[4*idx+3] = a
idx++
}
}
return bs, nil
}
func (i *Image) at(x, y int) (byte, byte, byte, byte, error) {
if i.backend == nil {
return 0, 0, 0, 0, nil
}
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ox, oy, w, h := i.regionWithPadding()
if x < 0 || y < 0 || x >= w || y >= h {
return 0, 0, 0, 0, nil
}
return i.backend.restorable.At(x+ox, y+oy)
}
// MarkDisposed marks the image as disposed. The actual operation is deferred.
// MarkDisposed can be called from finalizers.
//
// A function from finalizer must not be blocked, but disposing operation can be blocked.
// Defer this operation until it becomes safe. (#913)
func (i *Image) MarkDisposed() {
deferredM.Lock()
deferred = append(deferred, func() {
i.dispose(true)
})
deferredM.Unlock()
}
func (i *Image) dispose(markDisposed bool) {
defer func() {
if markDisposed {
i.disposed = true
}
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i.backend = nil
i.node = nil
if markDisposed {
runtime.SetFinalizer(i, nil)
}
}()
i.resetUsedAsSourceCount()
if i.disposed {
return
}
if i.backend == nil {
// Not allocated yet.
return
}
if !i.isOnAtlas() {
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i.backend.restorable.Dispose()
return
}
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i.backend.page.Free(i.node)
if !i.backend.page.IsEmpty() {
// As this part can be reused, this should be cleared explicitly.
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i.backend.restorable.ClearPixels(i.regionWithPadding())
return
}
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i.backend.restorable.Dispose()
index := -1
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for idx, sh := range theBackends {
if sh == i.backend {
index = idx
break
}
}
if index == -1 {
panic("atlas: backend not found at an image being disposed")
}
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theBackends = append(theBackends[:index], theBackends[index+1:]...)
}
func NewImage(width, height int) *Image {
// Actual allocation is done lazily, and the lock is not needed.
return &Image{
width: width,
height: height,
}
}
func (i *Image) SetVolatile(volatile bool) {
i.volatile = volatile
if i.backend == nil {
return
}
if i.volatile {
i.ensureIsolated()
}
i.backend.restorable.SetVolatile(i.volatile)
}
func (i *Image) canBePutOnAtlas() bool {
if minSize == 0 || maxSize == 0 {
panic("atlas: minSize or maxSize must be initialized")
}
if i.volatile {
return false
}
if i.screen {
return false
}
return i.width+2*paddingSize <= maxSize && i.height+2*paddingSize <= maxSize
}
func (i *Image) allocate(putOnAtlas bool) {
if i.backend != nil {
panic("atlas: the image is already allocated")
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}
runtime.SetFinalizer(i, (*Image).MarkDisposed)
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if i.screen {
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// A screen image doesn't have a padding.
i.backend = &backend{
restorable: restorable.NewScreenFramebufferImage(i.width, i.height),
}
return
}
if !putOnAtlas || !i.canBePutOnAtlas() {
i.backend = &backend{
restorable: restorable.NewImage(i.width+2*paddingSize, i.height+2*paddingSize),
}
i.backend.restorable.SetVolatile(i.volatile)
return
}
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for _, b := range theBackends {
if n, ok := b.tryAlloc(i.width+2*paddingSize, i.height+2*paddingSize); ok {
i.backend = b
i.node = n
return
}
}
size := minSize
for i.width+2*paddingSize > size || i.height+2*paddingSize > size {
if size == maxSize {
panic(fmt.Sprintf("atlas: the image being put on an atlas is too big: width: %d, height: %d", i.width, i.height))
}
size *= 2
}
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b := &backend{
restorable: restorable.NewImage(size, size),
page: packing.NewPage(size, maxSize),
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}
b.restorable.SetVolatile(i.volatile)
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theBackends = append(theBackends, b)
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n := b.page.Alloc(i.width+2*paddingSize, i.height+2*paddingSize)
if n == nil {
panic("atlas: Alloc result must not be nil at allocate")
}
i.backend = b
i.node = n
}
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func (i *Image) DumpScreenshot(path string, blackbg bool) error {
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backendsM.Lock()
defer backendsM.Unlock()
return i.backend.restorable.Dump(path, blackbg, image.Rect(paddingSize, paddingSize, paddingSize+i.width, paddingSize+i.height))
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}
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func NewScreenFramebufferImage(width, height int) *Image {
// Actual allocation is done lazily.
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i := &Image{
width: width,
height: height,
screen: true,
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}
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return i
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}
func EndFrame() error {
backendsM.Lock()
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theTemporaryPixels.resetAtFrameEnd()
return restorable.ResolveStaleImages()
}
func BeginFrame() error {
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defer backendsM.Unlock()
var err error
initOnce.Do(func() {
err = restorable.InitializeGraphicsDriverState()
if err != nil {
return
}
if len(theBackends) != 0 {
panic("atlas: all the images must be not on an atlas before the game starts")
}
minSize = 1024
maxSize = restorable.MaxImageSize()
})
if err != nil {
return err
}
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return restorable.RestoreIfNeeded()
}
func DumpImages(dir string) error {
backendsM.Lock()
defer backendsM.Unlock()
return restorable.DumpImages(dir)
}