Reduce stitching time

About three times as fast
2024-11-22 21:17:33 +00:00 · 2019-10-24 03:05:42 +02:00 · 2019-10-24 03:05:42 +02:00 · b53ec0d60b
commit b53ec0d60b
parent b11ba98db7
3 changed files with 61 additions and 46 deletions
--- a/bin/stitch/imagetile.go
+++ b/bin/stitch/imagetile.go
@ -19,15 +19,28 @@ type imageTile struct {

 	offset image.Point // Correction offset of the image, so that it aligns pixel perfect with other images. Determined by image matching.

-	image      image.Image // Either a rectangle or an RGBA image. The bounds of this image are determined by the filename.
-	imageMutex *sync.Mutex
+	image         image.Image   // Either a rectangle or an RGBA image. The bounds of this image are determined by the filename.
+	imageMutex    *sync.RWMutex //
+	imageUsedFlag bool          // Flag signalling, that the image was used recently
 }

 func (it *imageTile) GetImage() (*image.RGBA, error) {
-	it.imageMutex.Lock()
-	defer it.imageMutex.Unlock() // TODO: Use RWMutex
+	it.imageMutex.RLock()
+
+	it.imageUsedFlag = true // Race condition may happen on this flag, but doesn't matter here.

 	// Check if the image is already loaded
+	if img, ok := it.image.(*image.RGBA); ok {
+		it.imageMutex.RUnlock()
+		return img, nil
+	}
+
+	it.imageMutex.RUnlock()
+	// It's possible that the image got changed in between here
+	it.imageMutex.Lock()
+	defer it.imageMutex.Unlock()
+
+	// Check again if the image is already loaded
 	if img, ok := it.image.(*image.RGBA); ok {
 		return img, nil
 	}
@ -58,7 +71,10 @@ func (it *imageTile) GetImage() (*image.RGBA, error) {

 	// Free the image after some time
 	go func() {
-		time.Sleep(5 * time.Second)
+		for it.imageUsedFlag {
+			time.Sleep(5 * time.Second)
+			it.imageUsedFlag = false
+		}

 		it.imageMutex.Lock()
 		defer it.imageMutex.Unlock()
@ -69,15 +85,15 @@ func (it *imageTile) GetImage() (*image.RGBA, error) {
 }

 func (it *imageTile) OffsetBounds() image.Rectangle {
-	it.imageMutex.Lock()
-	defer it.imageMutex.Unlock() // TODO: Use RWMutex
+	it.imageMutex.RLock()
+	defer it.imageMutex.RUnlock()

 	return it.image.Bounds().Add(it.offset)
 }

 func (it *imageTile) Bounds() image.Rectangle {
-	it.imageMutex.Lock()
-	defer it.imageMutex.Unlock() // TODO: Use RWMutex
+	it.imageMutex.RLock()
+	defer it.imageMutex.RUnlock()

 	return it.image.Bounds()
 }
--- a/bin/stitch/imagetiles.go
+++ b/bin/stitch/imagetiles.go
@ -68,7 +68,7 @@ func loadImages(path string) ([]imageTile, error) {
 		imageTiles = append(imageTiles, imageTile{
 			fileName:   file,
 			image:      image.Rect(x, y, x+width, y+height),
-			imageMutex: &sync.Mutex{},
+			imageMutex: &sync.RWMutex{},
 		})
 	}

@ -206,12 +206,21 @@ func (tp tilePairs) AlignTiles(tiles []*imageTile) error {

 func (tp tilePairs) Stitch(tiles []imageTile, destImage *image.RGBA) error {
 	intersectTiles := []*imageTile{}
+	images := []*image.RGBA{}

 	// Get only the tiles that intersect with the destination image bounds.
 	// Ignore alignment here, doesn't matter if an image overlaps a few pixels anyways.
 	for i, tile := range tiles {
 		if tile.OffsetBounds().Overlaps(destImage.Bounds()) {
-			intersectTiles = append(intersectTiles, &tiles[i])
+			tilePtr := &tiles[i]
+			intersectTiles = append(intersectTiles, tilePtr)
+			img, err := tilePtr.GetImage()
+			if err != nil {
+				return fmt.Errorf("Couldn't get image: %w", err)
+			}
+			imgCopy := *img
+			imgCopy.Rect = imgCopy.Rect.Add(tile.offset).Inset(4) // Reduce image bounds by 4 pixels on each side, because otherwise there will be artifacts.
+			images = append(images, &imgCopy)
 		}
 	}

@ -233,7 +242,9 @@ func (tp tilePairs) Stitch(tiles []imageTile, destImage *image.RGBA) error {
 		drawLabel(destImage, intersectTile.image.Bounds().Min.X, intersectTile.image.Bounds().Min.Y, fmt.Sprintf("%v", intersectTile.fileName))
 	}*/

-	return drawMedianBlended(intersectTiles, destImage)
+	drawMedianBlended(images, destImage)
+
+	return nil
 }

 // StitchGrid calls stitch, but divides the workload into a grid of chunks.
@ -275,48 +286,36 @@ func (tp tilePairs) StitchGrid(tiles []imageTile, destImage *image.RGBA, gridSiz
 	return
 }

-func drawMedianBlended(tiles []*imageTile, destImage *image.RGBA) error {
+func drawMedianBlended(images []*image.RGBA, destImage *image.RGBA) {
 	bounds := destImage.Bounds()

+	// Create arrays to be reused every pixel
+	rListEmpty, gListEmpty, bListEmpty := make([]int, 0, len(images)), make([]int, 0, len(images)), make([]int, 0, len(images))
+
 	for iy := bounds.Min.Y; iy < bounds.Max.Y; iy++ {
 		for ix := bounds.Min.X; ix < bounds.Max.X; ix++ {
-			rList, gList, bList := []int16{}, []int16{}, []int16{}
+			rList, gList, bList := rListEmpty, gListEmpty, bListEmpty
 			point := image.Point{ix, iy}
 			found := false

-			// Iterate through all tiles, and create a list of colors.
-			for _, tile := range tiles {
-				tilePoint := point.Sub(tile.offset)
-				imageRGBA, err := tile.GetImage() // TODO: Optimize, as it's slow to get tiles and images every pixel
-				if err != nil {
-					return fmt.Errorf("Couldn't load image: %w", err)
-				}
-				if tilePoint.In(imageRGBA.Bounds().Inset(4)) { // Reduce image bounds by 4 pixels on each side, because otherwise there will be artifacts.
-					col := imageRGBA.RGBAAt(tilePoint.X, tilePoint.Y)
-					rList, gList, bList = append(rList, int16(col.R)), append(gList, int16(col.G)), append(bList, int16(col.B))
+			// Iterate through all images and create a list of colors.
+			for _, img := range images {
+				if point.In(img.Bounds()) {
+					col := img.RGBAAt(point.X, point.Y)
+					rList, gList, bList = append(rList, int(col.R)), append(gList, int(col.G)), append(bList, int(col.B))
 					found = true
 				}
 			}

-			// If there were no tiles to get data from, ignore the pixel.
+			// If there were no images to get data from, ignore the pixel.
 			if !found {
 				continue
 			}

-			// Sort rList.
-			sort.Slice(rList, func(i, j int) bool {
-				return rList[i] < rList[j]
-			})
-
-			// Sort gList.
-			sort.Slice(gList, func(i, j int) bool {
-				return gList[i] < gList[j]
-			})
-
-			// Sort bList.
-			sort.Slice(bList, func(i, j int) bool {
-				return bList[i] < bList[j]
-			})
+			// Sort colors.
+			sort.Ints(rList)
+			sort.Ints(gList)
+			sort.Ints(bList)

 			// Take the middle element of each color.
 			var r, g, b uint8
@ -345,6 +344,4 @@ func drawMedianBlended(tiles []*imageTile, destImage *image.RGBA) error {
 			destImage.SetRGBA(ix, iy, color.RGBA{r, g, b, 255})
 		}
 	}
-
-	return nil
 }
--- a/bin/stitch/stitch.go
+++ b/bin/stitch/stitch.go
@ -23,24 +23,26 @@ func main() {
 	}
 	log.Printf("Got %v tiles", len(tiles))

-	/*f, err := os.Create("cpu.prof")
+	/*profFile, err := os.Create("cpu.prof")
 	if err != nil {
 		log.Panicf("could not create CPU profile: %v", err)
 	}
-	defer f.Close()
-	if err := pprof.StartCPUProfile(f); err != nil {
+	defer profFile.Close()
+	if err := pprof.StartCPUProfile(profFile); err != nil {
 		log.Panicf("could not start CPU profile: %v", err)
 	}
 	defer pprof.StopCPUProfile()*/

-	outputRect := image.Rect(-10000, -10000, 10000, 10000)
+	// TODO: Flags / Program arguments
+
+	outputRect := image.Rect(-35000, -35000, 35000, 35000)

 	log.Printf("Creating output image with a size of %v", outputRect.Size())
 	outputImage := image.NewRGBA(outputRect)

 	log.Printf("Stitching %v tiles into an image at %v", len(tiles), outputImage.Bounds())
 	tp := make(tilePairs)
-	if err := tp.StitchGrid(tiles, outputImage, 256); err != nil {
+	if err := tp.StitchGrid(tiles, outputImage, 1024); err != nil {
 		log.Panic(err)
 	}