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|
package imaging
import (
"image"
"image/color"
"math"
)
// FlipH flips the image horizontally (from left to right) and returns the transformed image.
func FlipH(img image.Image) *image.NRGBA {
src := toNRGBA(img)
srcW := src.Bounds().Max.X
srcH := src.Bounds().Max.Y
dstW := srcW
dstH := srcH
dst := image.NewNRGBA(image.Rect(0, 0, dstW, dstH))
parallel(dstH, func(partStart, partEnd int) {
for dstY := partStart; dstY < partEnd; dstY++ {
for dstX := 0; dstX < dstW; dstX++ {
srcX := dstW - dstX - 1
srcY := dstY
srcOff := srcY*src.Stride + srcX*4
dstOff := dstY*dst.Stride + dstX*4
copy(dst.Pix[dstOff:dstOff+4], src.Pix[srcOff:srcOff+4])
}
}
})
return dst
}
// FlipV flips the image vertically (from top to bottom) and returns the transformed image.
func FlipV(img image.Image) *image.NRGBA {
src := toNRGBA(img)
srcW := src.Bounds().Max.X
srcH := src.Bounds().Max.Y
dstW := srcW
dstH := srcH
dst := image.NewNRGBA(image.Rect(0, 0, dstW, dstH))
parallel(dstH, func(partStart, partEnd int) {
for dstY := partStart; dstY < partEnd; dstY++ {
for dstX := 0; dstX < dstW; dstX++ {
srcX := dstX
srcY := dstH - dstY - 1
srcOff := srcY*src.Stride + srcX*4
dstOff := dstY*dst.Stride + dstX*4
copy(dst.Pix[dstOff:dstOff+4], src.Pix[srcOff:srcOff+4])
}
}
})
return dst
}
// Transpose flips the image horizontally and rotates 90 degrees counter-clockwise.
func Transpose(img image.Image) *image.NRGBA {
src := toNRGBA(img)
srcW := src.Bounds().Max.X
srcH := src.Bounds().Max.Y
dstW := srcH
dstH := srcW
dst := image.NewNRGBA(image.Rect(0, 0, dstW, dstH))
parallel(dstH, func(partStart, partEnd int) {
for dstY := partStart; dstY < partEnd; dstY++ {
for dstX := 0; dstX < dstW; dstX++ {
srcX := dstY
srcY := dstX
srcOff := srcY*src.Stride + srcX*4
dstOff := dstY*dst.Stride + dstX*4
copy(dst.Pix[dstOff:dstOff+4], src.Pix[srcOff:srcOff+4])
}
}
})
return dst
}
// Transverse flips the image vertically and rotates 90 degrees counter-clockwise.
func Transverse(img image.Image) *image.NRGBA {
src := toNRGBA(img)
srcW := src.Bounds().Max.X
srcH := src.Bounds().Max.Y
dstW := srcH
dstH := srcW
dst := image.NewNRGBA(image.Rect(0, 0, dstW, dstH))
parallel(dstH, func(partStart, partEnd int) {
for dstY := partStart; dstY < partEnd; dstY++ {
for dstX := 0; dstX < dstW; dstX++ {
srcX := dstH - dstY - 1
srcY := dstW - dstX - 1
srcOff := srcY*src.Stride + srcX*4
dstOff := dstY*dst.Stride + dstX*4
copy(dst.Pix[dstOff:dstOff+4], src.Pix[srcOff:srcOff+4])
}
}
})
return dst
}
// Rotate90 rotates the image 90 degrees counterclockwise and returns the transformed image.
func Rotate90(img image.Image) *image.NRGBA {
src := toNRGBA(img)
srcW := src.Bounds().Max.X
srcH := src.Bounds().Max.Y
dstW := srcH
dstH := srcW
dst := image.NewNRGBA(image.Rect(0, 0, dstW, dstH))
parallel(dstH, func(partStart, partEnd int) {
for dstY := partStart; dstY < partEnd; dstY++ {
for dstX := 0; dstX < dstW; dstX++ {
srcX := dstH - dstY - 1
srcY := dstX
srcOff := srcY*src.Stride + srcX*4
dstOff := dstY*dst.Stride + dstX*4
copy(dst.Pix[dstOff:dstOff+4], src.Pix[srcOff:srcOff+4])
}
}
})
return dst
}
// Rotate180 rotates the image 180 degrees counterclockwise and returns the transformed image.
func Rotate180(img image.Image) *image.NRGBA {
src := toNRGBA(img)
srcW := src.Bounds().Max.X
srcH := src.Bounds().Max.Y
dstW := srcW
dstH := srcH
dst := image.NewNRGBA(image.Rect(0, 0, dstW, dstH))
parallel(dstH, func(partStart, partEnd int) {
for dstY := partStart; dstY < partEnd; dstY++ {
for dstX := 0; dstX < dstW; dstX++ {
srcX := dstW - dstX - 1
srcY := dstH - dstY - 1
srcOff := srcY*src.Stride + srcX*4
dstOff := dstY*dst.Stride + dstX*4
copy(dst.Pix[dstOff:dstOff+4], src.Pix[srcOff:srcOff+4])
}
}
})
return dst
}
// Rotate270 rotates the image 270 degrees counterclockwise and returns the transformed image.
func Rotate270(img image.Image) *image.NRGBA {
src := toNRGBA(img)
srcW := src.Bounds().Max.X
srcH := src.Bounds().Max.Y
dstW := srcH
dstH := srcW
dst := image.NewNRGBA(image.Rect(0, 0, dstW, dstH))
parallel(dstH, func(partStart, partEnd int) {
for dstY := partStart; dstY < partEnd; dstY++ {
for dstX := 0; dstX < dstW; dstX++ {
srcX := dstY
srcY := dstW - dstX - 1
srcOff := srcY*src.Stride + srcX*4
dstOff := dstY*dst.Stride + dstX*4
copy(dst.Pix[dstOff:dstOff+4], src.Pix[srcOff:srcOff+4])
}
}
})
return dst
}
// Rotate rotates an image by the given angle counter-clockwise .
// The angle parameter is the rotation angle in degrees.
// The bgColor parameter specifies the color of the uncovered zone after the rotation.
func Rotate(img image.Image, angle float64, bgColor color.Color) *image.NRGBA {
angle = angle - math.Floor(angle/360)*360
switch angle {
case 0:
return Clone(img)
case 90:
return Rotate90(img)
case 180:
return Rotate180(img)
case 270:
return Rotate270(img)
}
src := toNRGBA(img)
srcW := src.Bounds().Max.X
srcH := src.Bounds().Max.Y
dstW, dstH := rotatedSize(srcW, srcH, angle)
dst := image.NewNRGBA(image.Rect(0, 0, dstW, dstH))
if dstW <= 0 || dstH <= 0 {
return dst
}
srcXOff := float64(srcW)/2 - 0.5
srcYOff := float64(srcH)/2 - 0.5
dstXOff := float64(dstW)/2 - 0.5
dstYOff := float64(dstH)/2 - 0.5
bgColorNRGBA := color.NRGBAModel.Convert(bgColor).(color.NRGBA)
sin, cos := math.Sincos(math.Pi * float64(angle) / 180)
parallel(dstH, func(partStart, partEnd int) {
for dstY := partStart; dstY < partEnd; dstY++ {
for dstX := 0; dstX < dstW; dstX++ {
xf, yf := rotatePoint(float64(dstX)-dstXOff, float64(dstY)-dstYOff, sin, cos)
xf, yf = xf+srcXOff, yf+srcYOff
interpolatePoint(dst, dstX, dstY, src, xf, yf, bgColorNRGBA)
}
}
})
return dst
}
func rotatePoint(x, y, sin, cos float64) (float64, float64) {
return x*cos - y*sin, x*sin + y*cos
}
func rotatedSize(w, h int, angle float64) (int, int) {
if w <= 0 || h <= 0 {
return 0, 0
}
sin, cos := math.Sincos(math.Pi * float64(angle) / 180)
x1, y1 := rotatePoint(float64(w-1), 0, sin, cos)
x2, y2 := rotatePoint(float64(w-1), float64(h-1), sin, cos)
x3, y3 := rotatePoint(0, float64(h-1), sin, cos)
minx := math.Min(x1, math.Min(x2, math.Min(x3, 0)))
maxx := math.Max(x1, math.Max(x2, math.Max(x3, 0)))
miny := math.Min(y1, math.Min(y2, math.Min(y3, 0)))
maxy := math.Max(y1, math.Max(y2, math.Max(y3, 0)))
neww := maxx - minx + 1
if neww-math.Floor(neww) > 0.1 {
neww++
}
newh := maxy - miny + 1
if newh-math.Floor(newh) > 0.1 {
newh++
}
return int(neww), int(newh)
}
func interpolatePoint(dst *image.NRGBA, dstX, dstY int, src *image.NRGBA, xf, yf float64, bgColor color.NRGBA) {
dstIndex := dstY*dst.Stride + dstX*4
x0 := int(math.Floor(xf))
y0 := int(math.Floor(yf))
bounds := src.Bounds()
if !image.Pt(x0, y0).In(image.Rect(bounds.Min.X-1, bounds.Min.Y-1, bounds.Max.X, bounds.Max.Y)) {
dst.Pix[dstIndex+0] = bgColor.R
dst.Pix[dstIndex+1] = bgColor.G
dst.Pix[dstIndex+2] = bgColor.B
dst.Pix[dstIndex+3] = bgColor.A
return
}
xq := xf - float64(x0)
yq := yf - float64(y0)
var pxs [4]color.NRGBA
var cfs [4]float64
for i := 0; i < 2; i++ {
for j := 0; j < 2; j++ {
k := i*2 + j
pt := image.Pt(x0+j, y0+i)
if pt.In(bounds) {
l := pt.Y*src.Stride + pt.X*4
pxs[k].R = src.Pix[l+0]
pxs[k].G = src.Pix[l+1]
pxs[k].B = src.Pix[l+2]
pxs[k].A = src.Pix[l+3]
} else {
pxs[k] = bgColor
}
}
}
cfs[0] = (1 - xq) * (1 - yq)
cfs[1] = xq * (1 - yq)
cfs[2] = (1 - xq) * yq
cfs[3] = xq * yq
var r, g, b, a float64
for i := range pxs {
wa := float64(pxs[i].A) * cfs[i]
r += float64(pxs[i].R) * wa
g += float64(pxs[i].G) * wa
b += float64(pxs[i].B) * wa
a += wa
}
if a != 0 {
r /= a
g /= a
b /= a
}
dst.Pix[dstIndex+0] = clamp(r)
dst.Pix[dstIndex+1] = clamp(g)
dst.Pix[dstIndex+2] = clamp(b)
dst.Pix[dstIndex+3] = clamp(a)
}
|
