package blurhash import ( "fmt" "github.com/buckket/go-blurhash/base83" "image" "image/color" "math" ) // An InvalidHashError occurs when the given hash is either too short or the length does not match its size flag. type InvalidHashError string func (e InvalidHashError) Error() string { return fmt.Sprintf("blurhash: %s", string(e)) } // Components decodes and returns the number of x and y components in the given BlurHash. func Components(hash string) (xComponents, yComponents int, err error) { if len(hash) < 6 { return 0, 0, InvalidHashError("hash is invalid (too short)") } sizeFlag, err := base83.Decode(string(hash[0])) if err != nil { return 0, 0, err } yComponents = (sizeFlag / 9) + 1 xComponents = (sizeFlag % 9) + 1 if len(hash) != 4+2*xComponents*yComponents { return 0, 0, InvalidHashError("hash is invalid (length mismatch)") } return xComponents, yComponents, nil } // Decode generates an image of the given BlurHash with a size of width and height. // Punch is a multiplier that adjusts the contrast of the resulting image. func Decode(hash string, width, height, punch int) (image.Image, error) { xComp, yComp, err := Components(hash) if err != nil { return nil, err } quantisedMaximumValue, err := base83.Decode(string(hash[1])) if err != nil { return nil, err } maximumValue := (float64(quantisedMaximumValue) + 1) / 166 if punch == 0 { punch = 1 } colors := make([][3]float64, xComp*yComp) for i := range colors { if i == 0 { value, err := base83.Decode(hash[2:6]) if err != nil { return nil, err } colors[i] = decodeDC(value) } else { value, err := base83.Decode(hash[4+i*2 : 6+i*2]) if err != nil { return nil, err } colors[i] = decodeAC(value, maximumValue*float64(punch)) } } img := image.NewNRGBA(image.Rect(0, 0, width, height)) for y := 0; y < height; y++ { for x := 0; x < width; x++ { var r, g, b float64 for j := 0; j < yComp; j++ { for i := 0; i < xComp; i++ { basis := math.Cos(math.Pi*float64(x)*float64(i)/float64(width)) * math.Cos(math.Pi*float64(y)*float64(j)/float64(height)) pcolor := colors[i+j*xComp] r += pcolor[0] * basis g += pcolor[1] * basis b += pcolor[2] * basis } } img.SetNRGBA(x, y, color.NRGBA{R: uint8(linearTosRGB(r)), G: uint8(linearTosRGB(g)), B: uint8(linearTosRGB(b)), A: 255}) } } return img, nil } func decodeDC(value int) [3]float64 { return [3]float64{sRGBToLinear(value >> 16), sRGBToLinear(value >> 8 & 255), sRGBToLinear(value & 255)} } func decodeAC(value int, maximumValue float64) [3]float64 { quantR := math.Floor(float64(value) / (19 * 19)) quantG := math.Mod(math.Floor(float64(value)/19), 19) quantB := math.Mod(float64(value), 19) sp := func(quant float64) float64 { return signPow((quant-9)/9, 2.0) * maximumValue } return [3]float64{sp(quantR), sp(quantG), sp(quantB)} }