golang 六宫格、九宫格头像生成

时间:2023-01-29 17:39:26

图片示例就不传了,在原WordPress上。

//Merge6Grid 6宫格
//rule NO1:至少3张图 最多6张图
// NO2:第一张大小 60*60 其他大小 28*28 间隔4px 合成图大小102*102
// NO3:排列顺序 从左至右 从上到小 再 从右到左
// ++|
// ++|
// --|
func Merge6Grid(src []io.Reader, dst io.Writer) error {
defer func() {
if r := recover(); r != nil {
log.Println("Merge.recover:", r)
}
}()
if len(src) < 3 || len(src) > 6 {
panic("the pic num is between 3 and 6")
}
var err error
imagePoints := getXy6Grid(len(src)) //创建背景大图
background := image.NewRGBA(image.Rect(0, 0, 100, 100))
//设置背景为灰色
for m := 0; m < 100; m++ {
for n := 0; n < 100; n++ {
//rgba := GetRGBA(0xC8CED4)
background.SetRGBA(m, n, color.RGBA{127, 127, 127, 0})
}
} //背景图矩形圆角
newBg, err := CreateRoundRectWithRGBA(background, 10)
if err != nil {
return err
} //开始合成
var width int
for i, v := range imagePoints {
x := v.x
y := v.y if i == 0 {
width = 60
} else {
width = 28
}
fOut := memory.NewWriter() //先缩略
err = Scale(src[i], fOut, width, width, 100)
if err != nil {
return err
} //矩形圆角
rgba, err := CreateRoundRectWithoutColor(fOut, 6)
if err != nil {
return err
} draw.Draw(newBg, newBg.Bounds(), rgba, rgba.Bounds().Min.Sub(image.Pt(x, y)), draw.Src)
} return png.Encode(dst, newBg)
//return jpeg.Encode(dst, newBg, nil)
} //CreateRoundRect 创建圆角矩形 r为输入图像 r为圆角半径 color为圆角颜色
func CreateRoundRect(rd io.Reader, r int, c *color.RGBA) (*image.RGBA, error) {
src, _, err := image.Decode(rd)
if err != nil {
return nil, err
} b := src.Bounds()
x := b.Dx()
y := b.Dy()
dst := image.NewRGBA(b)
draw.Draw(dst, b, src, src.Bounds().Min, draw.Src) p1 := image.Point{r, r}
p2 := image.Point{x - r, r}
p3 := image.Point{r, y - r}
p4 := image.Point{x - r, y - r} for m := 0; m < x; m++ {
for n := 0; n < y; n++ {
if (p1.X-m)*(p1.X-m)+(p1.Y-n)*(p1.Y-n) > r*r && m <= p1.X && n <= p1.Y {
dst.Set(m, n, c)
} else if (p2.X-m)*(p2.X-m)+(p2.Y-n)*(p2.Y-n) > r*r && m > p2.X && n <= p2.Y {
dst.Set(m, n, c)
} else if (p3.X-m)*(p3.X-m)+(p3.Y-n)*(p3.Y-n) > r*r && m <= p3.X && n > p3.Y {
dst.Set(m, n, c)
} else if (p4.X-m)*(p4.X-m)+(p4.Y-n)*(p4.Y-n) > r*r && m > p4.X && n > p4.Y {
dst.Set(m, n, c)
}
}
}
return dst, nil
} func CreateRoundRectWithoutColor(rd io.Reader, r int) (*image.RGBA, error) {
src, _, err := image.Decode(rd)
if err != nil {
return nil, err
} b := src.Bounds()
x := b.Dx()
y := b.Dy()
dst := image.NewRGBA(b) p1 := image.Point{r, r}
p2 := image.Point{x - r, r}
p3 := image.Point{r, y - r}
p4 := image.Point{x - r, y - r} for m := 0; m < x; m++ {
for n := 0; n < y; n++ {
if (p1.X-m)*(p1.X-m)+(p1.Y-n)*(p1.Y-n) > r*r && m <= p1.X && n <= p1.Y {
} else if (p2.X-m)*(p2.X-m)+(p2.Y-n)*(p2.Y-n) > r*r && m > p2.X && n <= p2.Y {
} else if (p3.X-m)*(p3.X-m)+(p3.Y-n)*(p3.Y-n) > r*r && m <= p3.X && n > p3.Y {
} else if (p4.X-m)*(p4.X-m)+(p4.Y-n)*(p4.Y-n) > r*r && m > p4.X && n > p4.Y {
} else {
dst.Set(m, n, src.At(m, n))
}
}
}
return dst, nil
} func CreateRoundRectWithRGBA(src *image.RGBA, r int) (*image.RGBA, error) {
b := src.Bounds()
x := b.Dx()
y := b.Dy()
dst := image.NewRGBA(b) p1 := image.Point{r, r}
p2 := image.Point{x - r, r}
p3 := image.Point{r, y - r}
p4 := image.Point{x - r, y - r} for m := 0; m < x; m++ {
for n := 0; n < y; n++ {
if (p1.X-m)*(p1.X-m)+(p1.Y-n)*(p1.Y-n) > r*r && m <= p1.X && n <= p1.Y {
} else if (p2.X-m)*(p2.X-m)+(p2.Y-n)*(p2.Y-n) > r*r && m > p2.X && n <= p2.Y {
} else if (p3.X-m)*(p3.X-m)+(p3.Y-n)*(p3.Y-n) > r*r && m <= p3.X && n > p3.Y {
} else if (p4.X-m)*(p4.X-m)+(p4.Y-n)*(p4.Y-n) > r*r && m > p4.X && n > p4.Y {
} else {
dst.Set(m, n, src.At(m, n))
}
}
}
return dst, nil
} //0xC8CED4
func GetRGBA(c int) *color.RGBA {
var cl color.RGBA
cl.R = uint8((c >> 16) & 0xFF)
cl.G = uint8((c >> 8) & 0xFF)
cl.B = uint8(c & 0xFF)
return &cl
}
func getXy6Grid(size int) []*Point {
s := make([]*Point, size)
_x, _y := 4, 4
s[0] = &Point{_x, _y}
s[1] = &Point{60 + 2*_x, _y}
s[2] = &Point{60 + 2*_x, 28 + 2*_y}
if size >= 4 {
s[3] = &Point{60 + 2*_x, 28*2 + 3*_y}
}
if size >= 5 {
s[4] = &Point{28 + 2*_x, 60 + 2*_y}
}
if size >= 6 {
s[5] = &Point{_x, 60 + 2*_y}
} return s
}

以下是仿微信群头像


//Merge 九宫格头像合成 固定新图大小132*132px 间隙3px
//至少一张图片
func Merge(src []io.Reader, dst io.Writer) error {
defer func() {
if r := recover(); r != nil {
log.Println("Merge.recover:", r)
}
}()
var err error
imagePoints := getXy(len(src))
width := getWidth(len(src)) //创建背景图
background := image.NewRGBA(image.Rect(0, 0, 132, 132)) //设置背景为灰色
for m := 0; m < 132; m++ {
for n := 0; n < 132; n++ {
background.SetRGBA(m, n, color.RGBA{127, 127, 127, 0})
}
} for i, v := range imagePoints {
x := v.x
y := v.y fOut := memory.NewWriter() err = Scale(src[i], fOut, width, width, 100)
if err != nil {
return err
} //file2draw, err := jpeg.Decode(fOut)
file2draw, _, err := image.Decode(fOut)
if err != nil {
return err
}
draw.Draw(background, background.Bounds(), file2draw, file2draw.Bounds().Min.Sub(image.Pt(x, y)), draw.Src)
} return jpeg.Encode(dst, background, nil)
} type Point struct {
x, y int
} func getXy(size int) []*Point {
s := make([]*Point, size)
var _x, _y int if size == 1 {
_x, _y = 6, 6
s[0] = &Point{_x, _y}
}
if size == 2 {
_x, _y = 4, 4
s[0] = &Point{_x, 132/2 - 60/2}
s[1] = &Point{60 + 2*_x, 132/2 - 60/2}
}
if size == 3 {
_x, _y = 4, 4
s[0] = &Point{132/2 - 60/2, _y}
s[1] = &Point{_x, 60 + 2*_y}
s[2] = &Point{60 + 2*_y, 60 + 2*_y}
}
if size == 4 {
_x, _y = 4, 4
s[0] = &Point{_x, _y}
s[1] = &Point{_x*2 + 60, _y}
s[2] = &Point{_x, 60 + 2*_y}
s[3] = &Point{60 + 2*_y, 60 + 2*_y}
}
if size == 5 {
_x, _y = 3, 3
s[0] = &Point{(132 - 40*2 - _x) / 2, (132 - 40*2 - _y) / 2}
s[1] = &Point{((132-40*2-_x)/2 + 40 + _x), (132 - 40*2 - _y) / 2}
s[2] = &Point{_x, ((132-40*2-_x)/2 + 40 + _y)}
s[3] = &Point{(_x*2 + 40), ((132-40*2-_x)/2 + 40 + _y)}
s[4] = &Point{(_x*3 + 40*2), ((132-40*2-_x)/2 + 40 + _y)}
}
if size == 6 {
_x, _y = 3, 3
s[0] = &Point{_x, ((132 - 40*2 - _x) / 2)}
s[1] = &Point{(_x*2 + 40), ((132 - 40*2 - _x) / 2)}
s[2] = &Point{(_x*3 + 40*2), ((132 - 40*2 - _x) / 2)}
s[3] = &Point{_x, ((132-40*2-_x)/2 + 40 + _y)}
s[4] = &Point{(_x*2 + 40), ((132-40*2-_x)/2 + 40 + _y)}
s[5] = &Point{(_x*3 + 40*2), ((132-40*2-_x)/2 + 40 + _y)}
} if size == 7 {
_x, _y = 3, 3
s[0] = &Point{(132 - 40) / 2, _y}
s[1] = &Point{_x, (_y*2 + 40)}
s[2] = &Point{(_x*2 + 40), (_y*2 + 40)}
s[3] = &Point{(_x*3 + 40*2), (_y*2 + 40)}
s[4] = &Point{_x, (_y*3 + 40*2)}
s[5] = &Point{(_x*2 + 40), (_y*3 + 40*2)}
s[6] = &Point{(_x*3 + 40*2), (_y*3 + 40*2)}
}
if size == 8 {
_x, _y = 3, 3
s[0] = &Point{(132 - 80 - _x) / 2, _y}
s[1] = &Point{((132-80-_x)/2 + _x + 40), _y}
s[2] = &Point{_x, (_y*2 + 40)}
s[3] = &Point{(_x*2 + 40), (_y*2 + 40)}
s[4] = &Point{(_x*3 + 40*2), (_y*2 + 40)}
s[5] = &Point{_x, (_y*3 + 40*2)}
s[6] = &Point{(_x*2 + 40), (_y*3 + 40*2)}
s[7] = &Point{(_x*3 + 40*2), (_y*3 + 40*2)}
}
if size == 9 {
_x, _y = 3, 3
s[0] = &Point{_x, _y}
s[1] = &Point{_x*2 + 40, _y}
s[2] = &Point{_x*3 + 40*2, _y}
s[3] = &Point{_x, (_y*2 + 40)}
s[4] = &Point{(_x*2 + 40), (_y*2 + 40)}
s[5] = &Point{(_x*3 + 40*2), (_y*2 + 40)}
s[6] = &Point{_x, (_y*3 + 40*2)}
s[7] = &Point{(_x*2 + 40), (_y*3 + 40*2)}
s[8] = &Point{(_x*3 + 40*2), (_y*3 + 40*2)}
}
return s
} func getWidth(size int) int {
var width int
if size == 1 {
width = 120
}
if size > 1 && size <= 4 {
width = 60
}
if size >= 5 {
width = 40
}
return width
}