package cbconvert import ( "image" "image/color" "image/draw" "math" "github.com/anthonynsimon/bild/adjust" "github.com/anthonynsimon/bild/transform" ) // Resample filters. const ( // NearestNeighbor is the fastest resampling filter, no antialiasing. nearestNeighbor int = iota // Box filter (averaging pixels). box // Linear is the bilinear filter, smooth and reasonably fast. linear // MitchellNetravali is a smooth bicubic filter. mitchellNetravali // CatmullRom is a sharp bicubic filter. catmullRom // Gaussian is a blurring filter that uses gaussian function, useful for noise removal. gaussian // Lanczos is a high-quality resampling filter, it's slower than cubic filters. lanczos ) var filters = map[int]transform.ResampleFilter{ nearestNeighbor: transform.NearestNeighbor, box: transform.Box, linear: transform.Linear, mitchellNetravali: transform.MitchellNetravali, catmullRom: transform.CatmullRom, gaussian: transform.Gaussian, lanczos: transform.Lanczos, } func resize(img image.Image, width, height int, filter transform.ResampleFilter) *image.RGBA { dstW, dstH := width, height srcW := img.Bounds().Dx() srcH := img.Bounds().Dy() if dstW == 0 { tmpW := float64(dstH) * float64(srcW) / float64(srcH) dstW = int(math.Max(1.0, math.Floor(tmpW+0.5))) } if dstH == 0 { tmpH := float64(dstW) * float64(srcH) / float64(srcW) dstH = int(math.Max(1.0, math.Floor(tmpH+0.5))) } if srcW == dstW && srcH == dstH { return imageToRGBA(img) } return transform.Resize(img, dstW, dstH, filter) } func fit(img image.Image, width, height int, filter transform.ResampleFilter) *image.RGBA { maxW, maxH := width, height b := img.Bounds() srcW := b.Dx() srcH := b.Dy() if srcW <= maxW && srcH <= maxH { return imageToRGBA(img) } srcAspectRatio := float64(srcW) / float64(srcH) maxAspectRatio := float64(maxW) / float64(maxH) var dstW, dstH int if srcAspectRatio > maxAspectRatio { dstW = maxW dstH = int(float64(dstW) / srcAspectRatio) } else { dstH = maxH dstW = int(float64(dstH) * srcAspectRatio) } return resize(img, dstW, dstH, filter) } func rotate(img image.Image, angle float64) *image.RGBA { return transform.Rotate(img, angle, &transform.RotationOptions{ResizeBounds: true, Pivot: &image.Point{}}) } func brightness(img image.Image, change float64) *image.RGBA { return adjust.Brightness(img, change/100) } func contrast(img image.Image, change float64) *image.RGBA { return adjust.Contrast(img, change/100) } // imageToRGBA converts an image.Image to *image.RGBA. func imageToRGBA(src image.Image) *image.RGBA { if dst, ok := src.(*image.RGBA); ok { return dst } b := src.Bounds() dst := image.NewRGBA(b) draw.Draw(dst, dst.Bounds(), src, b.Min, draw.Src) return dst } // imageToGray converts an image.Image to *image.Gray. func imageToGray(src image.Image) *image.Gray { if dst, ok := src.(*image.Gray); ok { return dst } b := src.Bounds() dst := image.NewGray(b) draw.Draw(dst, dst.Bounds(), src, b.Min, draw.Src) return dst } // isGrayScale checks if image is grayscale. func isGrayScale(img image.Image) bool { model := img.ColorModel() if model == color.GrayModel || model == color.Gray16Model { return true } return false } var colors16 = []color.Color{ color.RGBA{0, 0, 0, 255}, color.RGBA{17, 17, 17, 255}, color.RGBA{34, 34, 34, 255}, color.RGBA{51, 51, 51, 255}, color.RGBA{68, 68, 68, 255}, color.RGBA{85, 85, 85, 255}, color.RGBA{102, 102, 102, 255}, color.RGBA{119, 119, 119, 255}, color.RGBA{136, 136, 136, 255}, color.RGBA{153, 153, 153, 255}, color.RGBA{170, 170, 170, 255}, color.RGBA{187, 187, 187, 255}, color.RGBA{204, 204, 204, 255}, color.RGBA{221, 221, 221, 255}, color.RGBA{238, 238, 238, 255}, color.RGBA{255, 255, 255, 255}, } // imageToPaletted converts an image.Image to *image.Paletted using 16-color palette. func imageToPaletted(src image.Image) *image.Paletted { b := src.Bounds() dst := image.NewPaletted(b, colors16) draw.Draw(dst, dst.Bounds(), src, b.Min, draw.Src) return dst }