// Copyright 2017 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 restorable import ( "image" "github.com/hajimehoshi/ebiten/internal/graphicscommand" ) // restoringEnabled indicates if restoring happens or not. // // This value is overridden at enabled_*.go. var restoringEnabled = true // IsRestoringEnabled returns a boolean value indicating whether // restoring process works or not. func IsRestoringEnabled() bool { // This value is updated only at init or EnableRestoringForTesting. // No need to lock here. return restoringEnabled } // EnableRestoringForTesting forces to enable restoring for testing. func EnableRestoringForTesting() { restoringEnabled = true } // images is a set of Image objects. type images struct { images map[*Image]struct{} lastTarget *Image } // theImages represents the images for the current process. var theImages = &images{ images: map[*Image]struct{}{}, } // ResolveStaleImages flushes the queued draw commands and resolves // all stale images. // // ResolveStaleImages is intended to be called at the end of a frame. func ResolveStaleImages() { graphicscommand.FlushCommands() if !restoringEnabled { return } theImages.resolveStaleImages() } // Restore restores the images. // // Restoring means to make all *graphicscommand.Image objects have their textures and framebuffers. func Restore() error { if err := graphicscommand.ResetGraphicsDriverState(); err != nil { return err } return theImages.restore() } func Images() []image.Image { var imgs []image.Image for img := range theImages.images { if img.volatile { continue } if img.screen { continue } w, h := img.Size() pix := make([]byte, 4*w*h) for j := 0; j < h; j++ { for i := 0; i < w; i++ { r, g, b, a := img.At(i, j) pix[4*(i+j*w)] = r pix[4*(i+j*w)+1] = g pix[4*(i+j*w)+2] = b pix[4*(i+j*w)+3] = a } } imgs = append(imgs, &image.RGBA{ Pix: pix, Stride: 4 * w, Rect: image.Rect(0, 0, w, h), }) } return imgs } // add adds img to the images. func (i *images) add(img *Image) { i.images[img] = struct{}{} } // remove removes img from the images. func (i *images) remove(img *Image) { i.makeStaleIfDependingOnImpl(img) delete(i.images, img) } // resolveStaleImages resolves stale images. func (i *images) resolveStaleImages() { i.lastTarget = nil for img := range i.images { img.resolveStale() } } // makeStaleIfDependingOn makes all the images stale that depend on target. // // When target is changed, all images depending on target can't be restored with target. // makeStaleIfDependingOn is called in such situation. func (i *images) makeStaleIfDependingOn(target *Image) { // Avoid defer for performance i.makeStaleIfDependingOnImpl(target) } func (i *images) makeStaleIfDependingOnImpl(target *Image) { if target == nil { panic("not reached") } if i.lastTarget == target { return } i.lastTarget = target for img := range i.images { img.makeStaleIfDependingOn(target) } } // restore restores the images. // // Restoring means to make all *graphicscommand.Image objects have their textures and framebuffers. func (i *images) restore() error { if !IsRestoringEnabled() { panic("not reached") } // Dispose image explicitly for img := range i.images { img.image.Dispose() // img.image can't be set nil here, or Size() panics when restoring. } // Let's do topological sort based on dependencies of drawing history. // It is assured that there are not loops since cyclic drawing makes images stale. type edge struct { source *Image target *Image } images := map[*Image]struct{}{} for i := range i.images { if !i.priority { images[i] = struct{}{} } } edges := map[edge]struct{}{} for t := range images { for s := range t.dependingImages() { edges[edge{source: s, target: t}] = struct{}{} } } sorted := []*Image{} for i := range i.images { if i.priority { sorted = append(sorted, i) } } for len(images) > 0 { // current repesents images that have no incoming edges. current := map[*Image]struct{}{} for i := range images { current[i] = struct{}{} } for e := range edges { if _, ok := current[e.target]; ok { delete(current, e.target) } } for i := range current { delete(images, i) sorted = append(sorted, i) } removed := []edge{} for e := range edges { if _, ok := current[e.source]; ok { removed = append(removed, e) } } for _, e := range removed { delete(edges, e) } } for _, img := range sorted { if err := img.restore(); err != nil { return err } } return nil } // InitializeGraphicsDriverState initializes the graphics driver state. func InitializeGraphicsDriverState() error { return graphicscommand.ResetGraphicsDriverState() } func Error() error { return graphicscommand.Error() }