package captcha import ( "image" "image/png" "io" "os" "rand" ) const ( // Standard width and height for captcha image StdWidth = 300 StdHeight = 80 maxSkew = 2 ) type CaptchaImage struct { *image.NRGBA primaryColor image.NRGBAColor numberWidth int numberHeight int dotSize int } // NewImage returns a new captcha image of the given width and height with the // given slice of numbers, where each number must be in range 0-9. func NewImage(numbers []byte, width, height int) *CaptchaImage { img := new(CaptchaImage) img.NRGBA = image.NewNRGBA(width, height) img.primaryColor = image.NRGBAColor{uint8(rand.Intn(50)), uint8(rand.Intn(50)), uint8(rand.Intn(128)), 0xFF} // We need some space, so calculate border var border int if width > height { border = height / 5 } else { border = width / 5 } bwidth := width - border*2 bheight := height - border*2 img.calculateSizes(bwidth, bheight, len(numbers)) // Background img.fillWithCircles(10, img.dotSize) maxx := width - (img.numberWidth+img.dotSize)*len(numbers) - img.dotSize maxy := height - img.numberHeight - img.dotSize*2 x := rnd(img.dotSize*2, maxx) y := rnd(img.dotSize*2, maxy) setRandomBrightness(&img.primaryColor, 180) for _, n := range numbers { img.drawNumber(font[n], x, y) x += img.numberWidth + img.dotSize } img.strikeThrough() return img } // NewRandomImage generates random numbers and returns a new captcha image of // the given width and height with those numbers printed on it, and the numbers // themselves. func NewRandomImage(width, height int) (img *CaptchaImage, numbers []byte) { numbers = randomNumbers() img = NewImage(numbers, width, height) return } // PNGEncode writes captcha image in PNG format into the given writer. func (img *CaptchaImage) PNGEncode(w io.Writer) os.Error { return png.Encode(w, img) } func (img *CaptchaImage) calculateSizes(width, height, ncount int) { // Goal: fit all numbers into the image. // Convert everything to floats for calculations. w := float64(width) h := float64(height) // fontWidth includes 1-dot spacing between numbers fw := float64(fontWidth) + 1 fh := float64(fontHeight) nc := float64(ncount) // Calculate width of a sigle number if we only take into // account the width nw := w / nc // Calculate the number height from this width nh := nw * fh / fw // Number height too large? if nh > h { // Fit numbers based on height nh = h nw = fw / fh * nh } // Calculate dot size img.dotSize = int(nh / fh) // Save everything, making actual width smaller by 1 dot, // to account for spacing between numbers img.numberWidth = int(nw) img.numberHeight = int(nh) - img.dotSize } func (img *CaptchaImage) drawHorizLine(color image.Color, fromX, toX, y int) { for x := fromX; x <= toX; x++ { img.Set(x, y, color) } } func (img *CaptchaImage) drawCircle(color image.Color, x, y, radius int) { f := 1 - radius dfx := 1 dfy := -2 * radius xx := 0 yy := radius img.Set(x, y+radius, color) img.Set(x, y-radius, color) img.drawHorizLine(color, x-radius, x+radius, y) for xx < yy { if f >= 0 { yy-- dfy += 2 f += dfy } xx++ dfx += 2 f += dfx img.drawHorizLine(color, x-xx, x+xx, y+yy) img.drawHorizLine(color, x-xx, x+xx, y-yy) img.drawHorizLine(color, x-yy, x+yy, y+xx) img.drawHorizLine(color, x-yy, x+yy, y-xx) } } func min3(x, y, z uint8) (o uint8) { o = x if y < o { o = y } if z < o { o = z } return } func max3(x, y, z uint8) (o uint8) { o = x if y > o { o = y } if z > o { o = z } return } func setRandomBrightness(c *image.NRGBAColor, max uint8) { minc := min3(c.R, c.G, c.B) maxc := max3(c.R, c.G, c.B) if maxc > max { return } n := rand.Intn(int(max-maxc)) - int(minc) c.R = uint8(int(c.R) + n) c.G = uint8(int(c.G) + n) c.B = uint8(int(c.B) + n) } func rnd(from, to int) int { return rand.Intn(to+1-from) + from } func (img *CaptchaImage) fillWithCircles(n, maxradius int) { color := img.primaryColor maxx := img.Bounds().Max.X maxy := img.Bounds().Max.Y for i := 0; i < n; i++ { setRandomBrightness(&color, 255) r := rnd(1, maxradius) img.drawCircle(color, rnd(r, maxx-r), rnd(r, maxy-r), r) } } func (img *CaptchaImage) strikeThrough() { r := 0 maxx := img.Bounds().Max.X maxy := img.Bounds().Max.Y y := rnd(maxy/3, maxy-maxy/3) for x := 0; x < maxx; x += r { r = rnd(1, img.dotSize/2-1) y += rnd(-img.dotSize/2, img.dotSize/2) if y <= 0 || y >= maxy { y = rnd(maxy/3, maxy-maxy/3) } img.drawCircle(img.primaryColor, x, y, r) } } func (img *CaptchaImage) drawNumber(number []byte, x, y int) { skf := rand.Float64() * float64(rnd(-maxSkew, maxSkew)) xs := float64(x) minr := img.dotSize / 2 // minumum radius maxr := img.dotSize/2 + img.dotSize/4 // maximum radius y += rnd(-minr, minr) for yy := 0; yy < fontHeight; yy++ { for xx := 0; xx < fontWidth; xx++ { if number[yy*fontWidth+xx] != 1 { continue } // introduce random variations or := rnd(minr, maxr) ox := x + (xx * img.dotSize) + rnd(0, or/2) oy := y + (yy * img.dotSize) + rnd(0, or/2) img.drawCircle(img.primaryColor, ox, oy, or) } xs += skf x = int(xs) } }