golang-image/draw/impl.go

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// generated by "go run gen.go". DO NOT EDIT.
package draw
import (
"image"
"image/color"
)
func (z *nnScaler) Scale(dst Image, dp image.Point, src image.Image, sp image.Point) {
if z.dw <= 0 || z.dh <= 0 || z.sw <= 0 || z.sh <= 0 {
return
}
// dr is the affected destination pixels, relative to dp.
dr := dst.Bounds().Sub(dp).Intersect(image.Rectangle{Max: image.Point{int(z.dw), int(z.dh)}})
if dr.Empty() {
return
}
// sr is the source pixels. If it extends beyond the src bounds,
// we cannot use the type-specific fast paths, as they access
// the Pix fields directly without bounds checking.
if sr := (image.Rectangle{sp, sp.Add(image.Point{int(z.sw), int(z.sh)})}); !sr.In(src.Bounds()) {
z.scale_Image_Image(dst, dp, dr, src, sp)
} else {
switch dst := dst.(type) {
case *image.RGBA:
switch src := src.(type) {
case *image.Gray:
z.scale_RGBA_Gray(dst, dp, dr, src, sp)
case *image.NRGBA:
z.scale_RGBA_NRGBA(dst, dp, dr, src, sp)
case *image.RGBA:
z.scale_RGBA_RGBA(dst, dp, dr, src, sp)
case *image.Uniform:
z.scale_RGBA_Uniform(dst, dp, dr, src, sp)
case *image.YCbCr:
z.scale_RGBA_YCbCr(dst, dp, dr, src, sp)
default:
z.scale_RGBA_Image(dst, dp, dr, src, sp)
}
default:
switch src := src.(type) {
default:
z.scale_Image_Image(dst, dp, dr, src, sp)
}
}
}
}
func (z *nnScaler) scale_RGBA_Gray(dst *image.RGBA, dp image.Point, dr image.Rectangle, src *image.Gray, sp image.Point) {
for dy := int32(dr.Min.Y); dy < int32(dr.Max.Y); dy++ {
sy := (2*uint64(dy) + 1) * uint64(z.sh) / (2 * uint64(z.dh))
d := dst.PixOffset(dp.X+dr.Min.X, dp.Y+int(dy))
for dx := int32(dr.Min.X); dx < int32(dr.Max.X); dx++ {
sx := (2*uint64(dx) + 1) * uint64(z.sw) / (2 * uint64(z.dw))
pr, pg, pb, pa := src.At(sp.X+int(sx), sp.Y+int(sy)).RGBA()
dst.Pix[d+0] = uint8(uint32(pr) >> 8)
dst.Pix[d+1] = uint8(uint32(pg) >> 8)
dst.Pix[d+2] = uint8(uint32(pb) >> 8)
dst.Pix[d+3] = uint8(uint32(pa) >> 8)
d += 4
}
}
}
func (z *nnScaler) scale_RGBA_NRGBA(dst *image.RGBA, dp image.Point, dr image.Rectangle, src *image.NRGBA, sp image.Point) {
for dy := int32(dr.Min.Y); dy < int32(dr.Max.Y); dy++ {
sy := (2*uint64(dy) + 1) * uint64(z.sh) / (2 * uint64(z.dh))
d := dst.PixOffset(dp.X+dr.Min.X, dp.Y+int(dy))
for dx := int32(dr.Min.X); dx < int32(dr.Max.X); dx++ {
sx := (2*uint64(dx) + 1) * uint64(z.sw) / (2 * uint64(z.dw))
pr, pg, pb, pa := src.At(sp.X+int(sx), sp.Y+int(sy)).RGBA()
dst.Pix[d+0] = uint8(uint32(pr) >> 8)
dst.Pix[d+1] = uint8(uint32(pg) >> 8)
dst.Pix[d+2] = uint8(uint32(pb) >> 8)
dst.Pix[d+3] = uint8(uint32(pa) >> 8)
d += 4
}
}
}
func (z *nnScaler) scale_RGBA_RGBA(dst *image.RGBA, dp image.Point, dr image.Rectangle, src *image.RGBA, sp image.Point) {
for dy := int32(dr.Min.Y); dy < int32(dr.Max.Y); dy++ {
sy := (2*uint64(dy) + 1) * uint64(z.sh) / (2 * uint64(z.dh))
d := dst.PixOffset(dp.X+dr.Min.X, dp.Y+int(dy))
for dx := int32(dr.Min.X); dx < int32(dr.Max.X); dx++ {
sx := (2*uint64(dx) + 1) * uint64(z.sw) / (2 * uint64(z.dw))
pi := src.PixOffset(sp.X+int(sx), sp.Y+int(sy))
pr := uint32(src.Pix[pi+0]) * 0x101
pg := uint32(src.Pix[pi+1]) * 0x101
pb := uint32(src.Pix[pi+2]) * 0x101
pa := uint32(src.Pix[pi+3]) * 0x101
dst.Pix[d+0] = uint8(uint32(pr) >> 8)
dst.Pix[d+1] = uint8(uint32(pg) >> 8)
dst.Pix[d+2] = uint8(uint32(pb) >> 8)
dst.Pix[d+3] = uint8(uint32(pa) >> 8)
d += 4
}
}
}
func (z *nnScaler) scale_RGBA_Uniform(dst *image.RGBA, dp image.Point, dr image.Rectangle, src *image.Uniform, sp image.Point) {
for dy := int32(dr.Min.Y); dy < int32(dr.Max.Y); dy++ {
sy := (2*uint64(dy) + 1) * uint64(z.sh) / (2 * uint64(z.dh))
d := dst.PixOffset(dp.X+dr.Min.X, dp.Y+int(dy))
for dx := int32(dr.Min.X); dx < int32(dr.Max.X); dx++ {
sx := (2*uint64(dx) + 1) * uint64(z.sw) / (2 * uint64(z.dw))
pr, pg, pb, pa := src.At(sp.X+int(sx), sp.Y+int(sy)).RGBA()
dst.Pix[d+0] = uint8(uint32(pr) >> 8)
dst.Pix[d+1] = uint8(uint32(pg) >> 8)
dst.Pix[d+2] = uint8(uint32(pb) >> 8)
dst.Pix[d+3] = uint8(uint32(pa) >> 8)
d += 4
}
}
}
func (z *nnScaler) scale_RGBA_YCbCr(dst *image.RGBA, dp image.Point, dr image.Rectangle, src *image.YCbCr, sp image.Point) {
for dy := int32(dr.Min.Y); dy < int32(dr.Max.Y); dy++ {
sy := (2*uint64(dy) + 1) * uint64(z.sh) / (2 * uint64(z.dh))
d := dst.PixOffset(dp.X+dr.Min.X, dp.Y+int(dy))
for dx := int32(dr.Min.X); dx < int32(dr.Max.X); dx++ {
sx := (2*uint64(dx) + 1) * uint64(z.sw) / (2 * uint64(z.dw))
pr, pg, pb, pa := src.At(sp.X+int(sx), sp.Y+int(sy)).RGBA()
dst.Pix[d+0] = uint8(uint32(pr) >> 8)
dst.Pix[d+1] = uint8(uint32(pg) >> 8)
dst.Pix[d+2] = uint8(uint32(pb) >> 8)
dst.Pix[d+3] = uint8(uint32(pa) >> 8)
d += 4
}
}
}
func (z *nnScaler) scale_RGBA_Image(dst *image.RGBA, dp image.Point, dr image.Rectangle, src image.Image, sp image.Point) {
for dy := int32(dr.Min.Y); dy < int32(dr.Max.Y); dy++ {
sy := (2*uint64(dy) + 1) * uint64(z.sh) / (2 * uint64(z.dh))
d := dst.PixOffset(dp.X+dr.Min.X, dp.Y+int(dy))
for dx := int32(dr.Min.X); dx < int32(dr.Max.X); dx++ {
sx := (2*uint64(dx) + 1) * uint64(z.sw) / (2 * uint64(z.dw))
pr, pg, pb, pa := src.At(sp.X+int(sx), sp.Y+int(sy)).RGBA()
dst.Pix[d+0] = uint8(uint32(pr) >> 8)
dst.Pix[d+1] = uint8(uint32(pg) >> 8)
dst.Pix[d+2] = uint8(uint32(pb) >> 8)
dst.Pix[d+3] = uint8(uint32(pa) >> 8)
d += 4
}
}
}
func (z *nnScaler) scale_Image_Image(dst Image, dp image.Point, dr image.Rectangle, src image.Image, sp image.Point) {
dstColorRGBA64 := &color.RGBA64{}
dstColor := color.Color(dstColorRGBA64)
for dy := int32(dr.Min.Y); dy < int32(dr.Max.Y); dy++ {
sy := (2*uint64(dy) + 1) * uint64(z.sh) / (2 * uint64(z.dh))
for dx := int32(dr.Min.X); dx < int32(dr.Max.X); dx++ {
sx := (2*uint64(dx) + 1) * uint64(z.sw) / (2 * uint64(z.dw))
pr, pg, pb, pa := src.At(sp.X+int(sx), sp.Y+int(sy)).RGBA()
dstColorRGBA64.R = uint16(pr)
dstColorRGBA64.G = uint16(pg)
dstColorRGBA64.B = uint16(pb)
dstColorRGBA64.A = uint16(pa)
dst.Set(dp.X+int(dx), dp.Y+int(dy), dstColor)
}
}
}
func (z *ablScaler) Scale(dst Image, dp image.Point, src image.Image, sp image.Point) {
if z.dw <= 0 || z.dh <= 0 || z.sw <= 0 || z.sh <= 0 {
return
}
// dr is the affected destination pixels, relative to dp.
dr := dst.Bounds().Sub(dp).Intersect(image.Rectangle{Max: image.Point{int(z.dw), int(z.dh)}})
if dr.Empty() {
return
}
// sr is the source pixels. If it extends beyond the src bounds,
// we cannot use the type-specific fast paths, as they access
// the Pix fields directly without bounds checking.
if sr := (image.Rectangle{sp, sp.Add(image.Point{int(z.sw), int(z.sh)})}); !sr.In(src.Bounds()) {
z.scale_Image_Image(dst, dp, dr, src, sp)
} else {
switch dst := dst.(type) {
case *image.RGBA:
switch src := src.(type) {
case *image.Gray:
z.scale_RGBA_Gray(dst, dp, dr, src, sp)
case *image.NRGBA:
z.scale_RGBA_NRGBA(dst, dp, dr, src, sp)
case *image.RGBA:
z.scale_RGBA_RGBA(dst, dp, dr, src, sp)
case *image.Uniform:
z.scale_RGBA_Uniform(dst, dp, dr, src, sp)
case *image.YCbCr:
z.scale_RGBA_YCbCr(dst, dp, dr, src, sp)
default:
z.scale_RGBA_Image(dst, dp, dr, src, sp)
}
default:
switch src := src.(type) {
default:
z.scale_Image_Image(dst, dp, dr, src, sp)
}
}
}
}
func (z *ablScaler) scale_RGBA_Gray(dst *image.RGBA, dp image.Point, dr image.Rectangle, src *image.Gray, sp image.Point) {
yscale := float64(z.sh) / float64(z.dh)
xscale := float64(z.sw) / float64(z.dw)
for dy := int32(dr.Min.Y); dy < int32(dr.Max.Y); dy++ {
sy := (float64(dy)+0.5)*yscale - 0.5
sy0 := int32(sy)
yFrac0 := sy - float64(sy0)
yFrac1 := 1 - yFrac0
sy1 := sy0 + 1
if sy < 0 {
sy0, sy1 = 0, 0
yFrac0, yFrac1 = 0, 1
} else if sy1 >= z.sh {
sy1 = sy0
yFrac0, yFrac1 = 1, 0
}
d := dst.PixOffset(dp.X+dr.Min.X, dp.Y+int(dy))
for dx := int32(dr.Min.X); dx < int32(dr.Max.X); dx++ {
sx := (float64(dx)+0.5)*xscale - 0.5
sx0 := int32(sx)
xFrac0 := sx - float64(sx0)
xFrac1 := 1 - xFrac0
sx1 := sx0 + 1
if sx < 0 {
sx0, sx1 = 0, 0
xFrac0, xFrac1 = 0, 1
} else if sx1 >= z.sw {
sx1 = sx0
xFrac0, xFrac1 = 1, 0
}
s00ru, s00gu, s00bu, s00au := src.At(sp.X+int(sx0), sp.Y+int(sy0)).RGBA()
s00r := float64(s00ru)
s00g := float64(s00gu)
s00b := float64(s00bu)
s00a := float64(s00au)
s10ru, s10gu, s10bu, s10au := src.At(sp.X+int(sx1), sp.Y+int(sy0)).RGBA()
s10r := float64(s10ru)
s10g := float64(s10gu)
s10b := float64(s10bu)
s10a := float64(s10au)
s10r = xFrac1*s00r + xFrac0*s10r
s10g = xFrac1*s00g + xFrac0*s10g
s10b = xFrac1*s00b + xFrac0*s10b
s10a = xFrac1*s00a + xFrac0*s10a
s01ru, s01gu, s01bu, s01au := src.At(sp.X+int(sx0), sp.Y+int(sy1)).RGBA()
s01r := float64(s01ru)
s01g := float64(s01gu)
s01b := float64(s01bu)
s01a := float64(s01au)
s11ru, s11gu, s11bu, s11au := src.At(sp.X+int(sx1), sp.Y+int(sy1)).RGBA()
s11r := float64(s11ru)
s11g := float64(s11gu)
s11b := float64(s11bu)
s11a := float64(s11au)
s11r = xFrac1*s01r + xFrac0*s11r
s11g = xFrac1*s01g + xFrac0*s11g
s11b = xFrac1*s01b + xFrac0*s11b
s11a = xFrac1*s01a + xFrac0*s11a
s11r = yFrac1*s10r + yFrac0*s11r
s11g = yFrac1*s10g + yFrac0*s11g
s11b = yFrac1*s10b + yFrac0*s11b
s11a = yFrac1*s10a + yFrac0*s11a
dst.Pix[d+0] = uint8(uint32(s11r) >> 8)
dst.Pix[d+1] = uint8(uint32(s11g) >> 8)
dst.Pix[d+2] = uint8(uint32(s11b) >> 8)
dst.Pix[d+3] = uint8(uint32(s11a) >> 8)
d += 4
}
}
}
func (z *ablScaler) scale_RGBA_NRGBA(dst *image.RGBA, dp image.Point, dr image.Rectangle, src *image.NRGBA, sp image.Point) {
yscale := float64(z.sh) / float64(z.dh)
xscale := float64(z.sw) / float64(z.dw)
for dy := int32(dr.Min.Y); dy < int32(dr.Max.Y); dy++ {
sy := (float64(dy)+0.5)*yscale - 0.5
sy0 := int32(sy)
yFrac0 := sy - float64(sy0)
yFrac1 := 1 - yFrac0
sy1 := sy0 + 1
if sy < 0 {
sy0, sy1 = 0, 0
yFrac0, yFrac1 = 0, 1
} else if sy1 >= z.sh {
sy1 = sy0
yFrac0, yFrac1 = 1, 0
}
d := dst.PixOffset(dp.X+dr.Min.X, dp.Y+int(dy))
for dx := int32(dr.Min.X); dx < int32(dr.Max.X); dx++ {
sx := (float64(dx)+0.5)*xscale - 0.5
sx0 := int32(sx)
xFrac0 := sx - float64(sx0)
xFrac1 := 1 - xFrac0
sx1 := sx0 + 1
if sx < 0 {
sx0, sx1 = 0, 0
xFrac0, xFrac1 = 0, 1
} else if sx1 >= z.sw {
sx1 = sx0
xFrac0, xFrac1 = 1, 0
}
s00ru, s00gu, s00bu, s00au := src.At(sp.X+int(sx0), sp.Y+int(sy0)).RGBA()
s00r := float64(s00ru)
s00g := float64(s00gu)
s00b := float64(s00bu)
s00a := float64(s00au)
s10ru, s10gu, s10bu, s10au := src.At(sp.X+int(sx1), sp.Y+int(sy0)).RGBA()
s10r := float64(s10ru)
s10g := float64(s10gu)
s10b := float64(s10bu)
s10a := float64(s10au)
s10r = xFrac1*s00r + xFrac0*s10r
s10g = xFrac1*s00g + xFrac0*s10g
s10b = xFrac1*s00b + xFrac0*s10b
s10a = xFrac1*s00a + xFrac0*s10a
s01ru, s01gu, s01bu, s01au := src.At(sp.X+int(sx0), sp.Y+int(sy1)).RGBA()
s01r := float64(s01ru)
s01g := float64(s01gu)
s01b := float64(s01bu)
s01a := float64(s01au)
s11ru, s11gu, s11bu, s11au := src.At(sp.X+int(sx1), sp.Y+int(sy1)).RGBA()
s11r := float64(s11ru)
s11g := float64(s11gu)
s11b := float64(s11bu)
s11a := float64(s11au)
s11r = xFrac1*s01r + xFrac0*s11r
s11g = xFrac1*s01g + xFrac0*s11g
s11b = xFrac1*s01b + xFrac0*s11b
s11a = xFrac1*s01a + xFrac0*s11a
s11r = yFrac1*s10r + yFrac0*s11r
s11g = yFrac1*s10g + yFrac0*s11g
s11b = yFrac1*s10b + yFrac0*s11b
s11a = yFrac1*s10a + yFrac0*s11a
dst.Pix[d+0] = uint8(uint32(s11r) >> 8)
dst.Pix[d+1] = uint8(uint32(s11g) >> 8)
dst.Pix[d+2] = uint8(uint32(s11b) >> 8)
dst.Pix[d+3] = uint8(uint32(s11a) >> 8)
d += 4
}
}
}
func (z *ablScaler) scale_RGBA_RGBA(dst *image.RGBA, dp image.Point, dr image.Rectangle, src *image.RGBA, sp image.Point) {
yscale := float64(z.sh) / float64(z.dh)
xscale := float64(z.sw) / float64(z.dw)
for dy := int32(dr.Min.Y); dy < int32(dr.Max.Y); dy++ {
sy := (float64(dy)+0.5)*yscale - 0.5
sy0 := int32(sy)
yFrac0 := sy - float64(sy0)
yFrac1 := 1 - yFrac0
sy1 := sy0 + 1
if sy < 0 {
sy0, sy1 = 0, 0
yFrac0, yFrac1 = 0, 1
} else if sy1 >= z.sh {
sy1 = sy0
yFrac0, yFrac1 = 1, 0
}
d := dst.PixOffset(dp.X+dr.Min.X, dp.Y+int(dy))
for dx := int32(dr.Min.X); dx < int32(dr.Max.X); dx++ {
sx := (float64(dx)+0.5)*xscale - 0.5
sx0 := int32(sx)
xFrac0 := sx - float64(sx0)
xFrac1 := 1 - xFrac0
sx1 := sx0 + 1
if sx < 0 {
sx0, sx1 = 0, 0
xFrac0, xFrac1 = 0, 1
} else if sx1 >= z.sw {
sx1 = sx0
xFrac0, xFrac1 = 1, 0
}
s00i := src.PixOffset(sp.X+int(sx0), sp.Y+int(sy0))
s00ru := uint32(src.Pix[s00i+0]) * 0x101
s00gu := uint32(src.Pix[s00i+1]) * 0x101
s00bu := uint32(src.Pix[s00i+2]) * 0x101
s00au := uint32(src.Pix[s00i+3]) * 0x101
s00r := float64(s00ru)
s00g := float64(s00gu)
s00b := float64(s00bu)
s00a := float64(s00au)
s10i := src.PixOffset(sp.X+int(sx1), sp.Y+int(sy0))
s10ru := uint32(src.Pix[s10i+0]) * 0x101
s10gu := uint32(src.Pix[s10i+1]) * 0x101
s10bu := uint32(src.Pix[s10i+2]) * 0x101
s10au := uint32(src.Pix[s10i+3]) * 0x101
s10r := float64(s10ru)
s10g := float64(s10gu)
s10b := float64(s10bu)
s10a := float64(s10au)
s10r = xFrac1*s00r + xFrac0*s10r
s10g = xFrac1*s00g + xFrac0*s10g
s10b = xFrac1*s00b + xFrac0*s10b
s10a = xFrac1*s00a + xFrac0*s10a
s01i := src.PixOffset(sp.X+int(sx0), sp.Y+int(sy1))
s01ru := uint32(src.Pix[s01i+0]) * 0x101
s01gu := uint32(src.Pix[s01i+1]) * 0x101
s01bu := uint32(src.Pix[s01i+2]) * 0x101
s01au := uint32(src.Pix[s01i+3]) * 0x101
s01r := float64(s01ru)
s01g := float64(s01gu)
s01b := float64(s01bu)
s01a := float64(s01au)
s11i := src.PixOffset(sp.X+int(sx1), sp.Y+int(sy1))
s11ru := uint32(src.Pix[s11i+0]) * 0x101
s11gu := uint32(src.Pix[s11i+1]) * 0x101
s11bu := uint32(src.Pix[s11i+2]) * 0x101
s11au := uint32(src.Pix[s11i+3]) * 0x101
s11r := float64(s11ru)
s11g := float64(s11gu)
s11b := float64(s11bu)
s11a := float64(s11au)
s11r = xFrac1*s01r + xFrac0*s11r
s11g = xFrac1*s01g + xFrac0*s11g
s11b = xFrac1*s01b + xFrac0*s11b
s11a = xFrac1*s01a + xFrac0*s11a
s11r = yFrac1*s10r + yFrac0*s11r
s11g = yFrac1*s10g + yFrac0*s11g
s11b = yFrac1*s10b + yFrac0*s11b
s11a = yFrac1*s10a + yFrac0*s11a
dst.Pix[d+0] = uint8(uint32(s11r) >> 8)
dst.Pix[d+1] = uint8(uint32(s11g) >> 8)
dst.Pix[d+2] = uint8(uint32(s11b) >> 8)
dst.Pix[d+3] = uint8(uint32(s11a) >> 8)
d += 4
}
}
}
func (z *ablScaler) scale_RGBA_Uniform(dst *image.RGBA, dp image.Point, dr image.Rectangle, src *image.Uniform, sp image.Point) {
yscale := float64(z.sh) / float64(z.dh)
xscale := float64(z.sw) / float64(z.dw)
for dy := int32(dr.Min.Y); dy < int32(dr.Max.Y); dy++ {
sy := (float64(dy)+0.5)*yscale - 0.5
sy0 := int32(sy)
yFrac0 := sy - float64(sy0)
yFrac1 := 1 - yFrac0
sy1 := sy0 + 1
if sy < 0 {
sy0, sy1 = 0, 0
yFrac0, yFrac1 = 0, 1
} else if sy1 >= z.sh {
sy1 = sy0
yFrac0, yFrac1 = 1, 0
}
d := dst.PixOffset(dp.X+dr.Min.X, dp.Y+int(dy))
for dx := int32(dr.Min.X); dx < int32(dr.Max.X); dx++ {
sx := (float64(dx)+0.5)*xscale - 0.5
sx0 := int32(sx)
xFrac0 := sx - float64(sx0)
xFrac1 := 1 - xFrac0
sx1 := sx0 + 1
if sx < 0 {
sx0, sx1 = 0, 0
xFrac0, xFrac1 = 0, 1
} else if sx1 >= z.sw {
sx1 = sx0
xFrac0, xFrac1 = 1, 0
}
s00ru, s00gu, s00bu, s00au := src.At(sp.X+int(sx0), sp.Y+int(sy0)).RGBA()
s00r := float64(s00ru)
s00g := float64(s00gu)
s00b := float64(s00bu)
s00a := float64(s00au)
s10ru, s10gu, s10bu, s10au := src.At(sp.X+int(sx1), sp.Y+int(sy0)).RGBA()
s10r := float64(s10ru)
s10g := float64(s10gu)
s10b := float64(s10bu)
s10a := float64(s10au)
s10r = xFrac1*s00r + xFrac0*s10r
s10g = xFrac1*s00g + xFrac0*s10g
s10b = xFrac1*s00b + xFrac0*s10b
s10a = xFrac1*s00a + xFrac0*s10a
s01ru, s01gu, s01bu, s01au := src.At(sp.X+int(sx0), sp.Y+int(sy1)).RGBA()
s01r := float64(s01ru)
s01g := float64(s01gu)
s01b := float64(s01bu)
s01a := float64(s01au)
s11ru, s11gu, s11bu, s11au := src.At(sp.X+int(sx1), sp.Y+int(sy1)).RGBA()
s11r := float64(s11ru)
s11g := float64(s11gu)
s11b := float64(s11bu)
s11a := float64(s11au)
s11r = xFrac1*s01r + xFrac0*s11r
s11g = xFrac1*s01g + xFrac0*s11g
s11b = xFrac1*s01b + xFrac0*s11b
s11a = xFrac1*s01a + xFrac0*s11a
s11r = yFrac1*s10r + yFrac0*s11r
s11g = yFrac1*s10g + yFrac0*s11g
s11b = yFrac1*s10b + yFrac0*s11b
s11a = yFrac1*s10a + yFrac0*s11a
dst.Pix[d+0] = uint8(uint32(s11r) >> 8)
dst.Pix[d+1] = uint8(uint32(s11g) >> 8)
dst.Pix[d+2] = uint8(uint32(s11b) >> 8)
dst.Pix[d+3] = uint8(uint32(s11a) >> 8)
d += 4
}
}
}
func (z *ablScaler) scale_RGBA_YCbCr(dst *image.RGBA, dp image.Point, dr image.Rectangle, src *image.YCbCr, sp image.Point) {
yscale := float64(z.sh) / float64(z.dh)
xscale := float64(z.sw) / float64(z.dw)
for dy := int32(dr.Min.Y); dy < int32(dr.Max.Y); dy++ {
sy := (float64(dy)+0.5)*yscale - 0.5
sy0 := int32(sy)
yFrac0 := sy - float64(sy0)
yFrac1 := 1 - yFrac0
sy1 := sy0 + 1
if sy < 0 {
sy0, sy1 = 0, 0
yFrac0, yFrac1 = 0, 1
} else if sy1 >= z.sh {
sy1 = sy0
yFrac0, yFrac1 = 1, 0
}
d := dst.PixOffset(dp.X+dr.Min.X, dp.Y+int(dy))
for dx := int32(dr.Min.X); dx < int32(dr.Max.X); dx++ {
sx := (float64(dx)+0.5)*xscale - 0.5
sx0 := int32(sx)
xFrac0 := sx - float64(sx0)
xFrac1 := 1 - xFrac0
sx1 := sx0 + 1
if sx < 0 {
sx0, sx1 = 0, 0
xFrac0, xFrac1 = 0, 1
} else if sx1 >= z.sw {
sx1 = sx0
xFrac0, xFrac1 = 1, 0
}
s00ru, s00gu, s00bu, s00au := src.At(sp.X+int(sx0), sp.Y+int(sy0)).RGBA()
s00r := float64(s00ru)
s00g := float64(s00gu)
s00b := float64(s00bu)
s00a := float64(s00au)
s10ru, s10gu, s10bu, s10au := src.At(sp.X+int(sx1), sp.Y+int(sy0)).RGBA()
s10r := float64(s10ru)
s10g := float64(s10gu)
s10b := float64(s10bu)
s10a := float64(s10au)
s10r = xFrac1*s00r + xFrac0*s10r
s10g = xFrac1*s00g + xFrac0*s10g
s10b = xFrac1*s00b + xFrac0*s10b
s10a = xFrac1*s00a + xFrac0*s10a
s01ru, s01gu, s01bu, s01au := src.At(sp.X+int(sx0), sp.Y+int(sy1)).RGBA()
s01r := float64(s01ru)
s01g := float64(s01gu)
s01b := float64(s01bu)
s01a := float64(s01au)
s11ru, s11gu, s11bu, s11au := src.At(sp.X+int(sx1), sp.Y+int(sy1)).RGBA()
s11r := float64(s11ru)
s11g := float64(s11gu)
s11b := float64(s11bu)
s11a := float64(s11au)
s11r = xFrac1*s01r + xFrac0*s11r
s11g = xFrac1*s01g + xFrac0*s11g
s11b = xFrac1*s01b + xFrac0*s11b
s11a = xFrac1*s01a + xFrac0*s11a
s11r = yFrac1*s10r + yFrac0*s11r
s11g = yFrac1*s10g + yFrac0*s11g
s11b = yFrac1*s10b + yFrac0*s11b
s11a = yFrac1*s10a + yFrac0*s11a
dst.Pix[d+0] = uint8(uint32(s11r) >> 8)
dst.Pix[d+1] = uint8(uint32(s11g) >> 8)
dst.Pix[d+2] = uint8(uint32(s11b) >> 8)
dst.Pix[d+3] = uint8(uint32(s11a) >> 8)
d += 4
}
}
}
func (z *ablScaler) scale_RGBA_Image(dst *image.RGBA, dp image.Point, dr image.Rectangle, src image.Image, sp image.Point) {
yscale := float64(z.sh) / float64(z.dh)
xscale := float64(z.sw) / float64(z.dw)
for dy := int32(dr.Min.Y); dy < int32(dr.Max.Y); dy++ {
sy := (float64(dy)+0.5)*yscale - 0.5
sy0 := int32(sy)
yFrac0 := sy - float64(sy0)
yFrac1 := 1 - yFrac0
sy1 := sy0 + 1
if sy < 0 {
sy0, sy1 = 0, 0
yFrac0, yFrac1 = 0, 1
} else if sy1 >= z.sh {
sy1 = sy0
yFrac0, yFrac1 = 1, 0
}
d := dst.PixOffset(dp.X+dr.Min.X, dp.Y+int(dy))
for dx := int32(dr.Min.X); dx < int32(dr.Max.X); dx++ {
sx := (float64(dx)+0.5)*xscale - 0.5
sx0 := int32(sx)
xFrac0 := sx - float64(sx0)
xFrac1 := 1 - xFrac0
sx1 := sx0 + 1
if sx < 0 {
sx0, sx1 = 0, 0
xFrac0, xFrac1 = 0, 1
} else if sx1 >= z.sw {
sx1 = sx0
xFrac0, xFrac1 = 1, 0
}
s00ru, s00gu, s00bu, s00au := src.At(sp.X+int(sx0), sp.Y+int(sy0)).RGBA()
s00r := float64(s00ru)
s00g := float64(s00gu)
s00b := float64(s00bu)
s00a := float64(s00au)
s10ru, s10gu, s10bu, s10au := src.At(sp.X+int(sx1), sp.Y+int(sy0)).RGBA()
s10r := float64(s10ru)
s10g := float64(s10gu)
s10b := float64(s10bu)
s10a := float64(s10au)
s10r = xFrac1*s00r + xFrac0*s10r
s10g = xFrac1*s00g + xFrac0*s10g
s10b = xFrac1*s00b + xFrac0*s10b
s10a = xFrac1*s00a + xFrac0*s10a
s01ru, s01gu, s01bu, s01au := src.At(sp.X+int(sx0), sp.Y+int(sy1)).RGBA()
s01r := float64(s01ru)
s01g := float64(s01gu)
s01b := float64(s01bu)
s01a := float64(s01au)
s11ru, s11gu, s11bu, s11au := src.At(sp.X+int(sx1), sp.Y+int(sy1)).RGBA()
s11r := float64(s11ru)
s11g := float64(s11gu)
s11b := float64(s11bu)
s11a := float64(s11au)
s11r = xFrac1*s01r + xFrac0*s11r
s11g = xFrac1*s01g + xFrac0*s11g
s11b = xFrac1*s01b + xFrac0*s11b
s11a = xFrac1*s01a + xFrac0*s11a
s11r = yFrac1*s10r + yFrac0*s11r
s11g = yFrac1*s10g + yFrac0*s11g
s11b = yFrac1*s10b + yFrac0*s11b
s11a = yFrac1*s10a + yFrac0*s11a
dst.Pix[d+0] = uint8(uint32(s11r) >> 8)
dst.Pix[d+1] = uint8(uint32(s11g) >> 8)
dst.Pix[d+2] = uint8(uint32(s11b) >> 8)
dst.Pix[d+3] = uint8(uint32(s11a) >> 8)
d += 4
}
}
}
func (z *ablScaler) scale_Image_Image(dst Image, dp image.Point, dr image.Rectangle, src image.Image, sp image.Point) {
yscale := float64(z.sh) / float64(z.dh)
xscale := float64(z.sw) / float64(z.dw)
dstColorRGBA64 := &color.RGBA64{}
dstColor := color.Color(dstColorRGBA64)
for dy := int32(dr.Min.Y); dy < int32(dr.Max.Y); dy++ {
sy := (float64(dy)+0.5)*yscale - 0.5
sy0 := int32(sy)
yFrac0 := sy - float64(sy0)
yFrac1 := 1 - yFrac0
sy1 := sy0 + 1
if sy < 0 {
sy0, sy1 = 0, 0
yFrac0, yFrac1 = 0, 1
} else if sy1 >= z.sh {
sy1 = sy0
yFrac0, yFrac1 = 1, 0
}
for dx := int32(dr.Min.X); dx < int32(dr.Max.X); dx++ {
sx := (float64(dx)+0.5)*xscale - 0.5
sx0 := int32(sx)
xFrac0 := sx - float64(sx0)
xFrac1 := 1 - xFrac0
sx1 := sx0 + 1
if sx < 0 {
sx0, sx1 = 0, 0
xFrac0, xFrac1 = 0, 1
} else if sx1 >= z.sw {
sx1 = sx0
xFrac0, xFrac1 = 1, 0
}
s00ru, s00gu, s00bu, s00au := src.At(sp.X+int(sx0), sp.Y+int(sy0)).RGBA()
s00r := float64(s00ru)
s00g := float64(s00gu)
s00b := float64(s00bu)
s00a := float64(s00au)
s10ru, s10gu, s10bu, s10au := src.At(sp.X+int(sx1), sp.Y+int(sy0)).RGBA()
s10r := float64(s10ru)
s10g := float64(s10gu)
s10b := float64(s10bu)
s10a := float64(s10au)
s10r = xFrac1*s00r + xFrac0*s10r
s10g = xFrac1*s00g + xFrac0*s10g
s10b = xFrac1*s00b + xFrac0*s10b
s10a = xFrac1*s00a + xFrac0*s10a
s01ru, s01gu, s01bu, s01au := src.At(sp.X+int(sx0), sp.Y+int(sy1)).RGBA()
s01r := float64(s01ru)
s01g := float64(s01gu)
s01b := float64(s01bu)
s01a := float64(s01au)
s11ru, s11gu, s11bu, s11au := src.At(sp.X+int(sx1), sp.Y+int(sy1)).RGBA()
s11r := float64(s11ru)
s11g := float64(s11gu)
s11b := float64(s11bu)
s11a := float64(s11au)
s11r = xFrac1*s01r + xFrac0*s11r
s11g = xFrac1*s01g + xFrac0*s11g
s11b = xFrac1*s01b + xFrac0*s11b
s11a = xFrac1*s01a + xFrac0*s11a
s11r = yFrac1*s10r + yFrac0*s11r
s11g = yFrac1*s10g + yFrac0*s11g
s11b = yFrac1*s10b + yFrac0*s11b
s11a = yFrac1*s10a + yFrac0*s11a
dstColorRGBA64.R = uint16(s11r)
dstColorRGBA64.G = uint16(s11g)
dstColorRGBA64.B = uint16(s11b)
dstColorRGBA64.A = uint16(s11a)
dst.Set(dp.X+int(dx), dp.Y+int(dy), dstColor)
}
}
}
func (z *kernelScaler) Scale(dst Image, dp image.Point, src image.Image, sp image.Point) {
if z.dw <= 0 || z.dh <= 0 || z.sw <= 0 || z.sh <= 0 {
return
}
// dr is the affected destination pixels, relative to dp.
dr := dst.Bounds().Sub(dp).Intersect(image.Rectangle{Max: image.Point{int(z.dw), int(z.dh)}})
if dr.Empty() {
return
}
// Create a temporary buffer:
// scaleX distributes the source image's columns over the temporary image.
// scaleY distributes the temporary image's rows over the destination image.
// TODO: is it worth having a sync.Pool for this temporary buffer?
tmp := make([][4]float64, z.dw*z.sh)
// sr is the source pixels. If it extends beyond the src bounds,
// we cannot use the type-specific fast paths, as they access
// the Pix fields directly without bounds checking.
if sr := (image.Rectangle{sp, sp.Add(image.Point{int(z.sw), int(z.sh)})}); !sr.In(src.Bounds()) {
z.scaleX_Image(tmp, src, sp)
} else {
switch src := src.(type) {
case *image.Gray:
z.scaleX_Gray(tmp, src, sp)
case *image.NRGBA:
z.scaleX_NRGBA(tmp, src, sp)
case *image.RGBA:
z.scaleX_RGBA(tmp, src, sp)
case *image.Uniform:
z.scaleX_Uniform(tmp, src, sp)
case *image.YCbCr:
z.scaleX_YCbCr(tmp, src, sp)
default:
z.scaleX_Image(tmp, src, sp)
}
}
switch dst := dst.(type) {
case *image.RGBA:
z.scaleY_RGBA(dst, dp, dr, tmp)
default:
z.scaleY_Image(dst, dp, dr, tmp)
}
}
func (z *kernelScaler) scaleX_Gray(tmp [][4]float64, src *image.Gray, sp image.Point) {
t := 0
for y := int32(0); y < z.sh; y++ {
for _, s := range z.horizontal.sources {
var pr, pg, pb, pa float64
for _, c := range z.horizontal.contribs[s.i:s.j] {
pru, pgu, pbu, pau := src.At(sp.X+int(c.coord), sp.Y+int(y)).RGBA()
pr += float64(pru) * c.weight
pg += float64(pgu) * c.weight
pb += float64(pbu) * c.weight
pa += float64(pau) * c.weight
}
tmp[t] = [4]float64{
pr * s.invTotalWeightFFFF,
pg * s.invTotalWeightFFFF,
pb * s.invTotalWeightFFFF,
pa * s.invTotalWeightFFFF,
}
t++
}
}
}
func (z *kernelScaler) scaleX_NRGBA(tmp [][4]float64, src *image.NRGBA, sp image.Point) {
t := 0
for y := int32(0); y < z.sh; y++ {
for _, s := range z.horizontal.sources {
var pr, pg, pb, pa float64
for _, c := range z.horizontal.contribs[s.i:s.j] {
pru, pgu, pbu, pau := src.At(sp.X+int(c.coord), sp.Y+int(y)).RGBA()
pr += float64(pru) * c.weight
pg += float64(pgu) * c.weight
pb += float64(pbu) * c.weight
pa += float64(pau) * c.weight
}
tmp[t] = [4]float64{
pr * s.invTotalWeightFFFF,
pg * s.invTotalWeightFFFF,
pb * s.invTotalWeightFFFF,
pa * s.invTotalWeightFFFF,
}
t++
}
}
}
func (z *kernelScaler) scaleX_RGBA(tmp [][4]float64, src *image.RGBA, sp image.Point) {
t := 0
for y := int32(0); y < z.sh; y++ {
for _, s := range z.horizontal.sources {
var pr, pg, pb, pa float64
for _, c := range z.horizontal.contribs[s.i:s.j] {
pi := src.PixOffset(sp.X+int(c.coord), sp.Y+int(y))
pru := uint32(src.Pix[pi+0]) * 0x101
pgu := uint32(src.Pix[pi+1]) * 0x101
pbu := uint32(src.Pix[pi+2]) * 0x101
pau := uint32(src.Pix[pi+3]) * 0x101
pr += float64(pru) * c.weight
pg += float64(pgu) * c.weight
pb += float64(pbu) * c.weight
pa += float64(pau) * c.weight
}
tmp[t] = [4]float64{
pr * s.invTotalWeightFFFF,
pg * s.invTotalWeightFFFF,
pb * s.invTotalWeightFFFF,
pa * s.invTotalWeightFFFF,
}
t++
}
}
}
func (z *kernelScaler) scaleX_Uniform(tmp [][4]float64, src *image.Uniform, sp image.Point) {
t := 0
for y := int32(0); y < z.sh; y++ {
for _, s := range z.horizontal.sources {
var pr, pg, pb, pa float64
for _, c := range z.horizontal.contribs[s.i:s.j] {
pru, pgu, pbu, pau := src.At(sp.X+int(c.coord), sp.Y+int(y)).RGBA()
pr += float64(pru) * c.weight
pg += float64(pgu) * c.weight
pb += float64(pbu) * c.weight
pa += float64(pau) * c.weight
}
tmp[t] = [4]float64{
pr * s.invTotalWeightFFFF,
pg * s.invTotalWeightFFFF,
pb * s.invTotalWeightFFFF,
pa * s.invTotalWeightFFFF,
}
t++
}
}
}
func (z *kernelScaler) scaleX_YCbCr(tmp [][4]float64, src *image.YCbCr, sp image.Point) {
t := 0
for y := int32(0); y < z.sh; y++ {
for _, s := range z.horizontal.sources {
var pr, pg, pb, pa float64
for _, c := range z.horizontal.contribs[s.i:s.j] {
pru, pgu, pbu, pau := src.At(sp.X+int(c.coord), sp.Y+int(y)).RGBA()
pr += float64(pru) * c.weight
pg += float64(pgu) * c.weight
pb += float64(pbu) * c.weight
pa += float64(pau) * c.weight
}
tmp[t] = [4]float64{
pr * s.invTotalWeightFFFF,
pg * s.invTotalWeightFFFF,
pb * s.invTotalWeightFFFF,
pa * s.invTotalWeightFFFF,
}
t++
}
}
}
func (z *kernelScaler) scaleX_Image(tmp [][4]float64, src image.Image, sp image.Point) {
t := 0
for y := int32(0); y < z.sh; y++ {
for _, s := range z.horizontal.sources {
var pr, pg, pb, pa float64
for _, c := range z.horizontal.contribs[s.i:s.j] {
pru, pgu, pbu, pau := src.At(sp.X+int(c.coord), sp.Y+int(y)).RGBA()
pr += float64(pru) * c.weight
pg += float64(pgu) * c.weight
pb += float64(pbu) * c.weight
pa += float64(pau) * c.weight
}
tmp[t] = [4]float64{
pr * s.invTotalWeightFFFF,
pg * s.invTotalWeightFFFF,
pb * s.invTotalWeightFFFF,
pa * s.invTotalWeightFFFF,
}
t++
}
}
}
func (z *kernelScaler) scaleY_RGBA(dst *image.RGBA, dp image.Point, dr image.Rectangle, tmp [][4]float64) {
for dx := int32(dr.Min.X); dx < int32(dr.Max.X); dx++ {
d := dst.PixOffset(dp.X+int(dx), dp.Y+dr.Min.Y)
for _, s := range z.vertical.sources[dr.Min.Y:dr.Max.Y] {
var pr, pg, pb, pa float64
for _, c := range z.vertical.contribs[s.i:s.j] {
p := &tmp[c.coord*z.dw+dx]
pr += p[0] * c.weight
pg += p[1] * c.weight
pb += p[2] * c.weight
pa += p[3] * c.weight
}
dst.Pix[d+0] = uint8(ftou(pr*s.invTotalWeight) >> 8)
dst.Pix[d+1] = uint8(ftou(pg*s.invTotalWeight) >> 8)
dst.Pix[d+2] = uint8(ftou(pb*s.invTotalWeight) >> 8)
dst.Pix[d+3] = uint8(ftou(pa*s.invTotalWeight) >> 8)
d += dst.Stride
}
}
}
func (z *kernelScaler) scaleY_Image(dst Image, dp image.Point, dr image.Rectangle, tmp [][4]float64) {
dstColorRGBA64 := &color.RGBA64{}
dstColor := color.Color(dstColorRGBA64)
for dx := int32(dr.Min.X); dx < int32(dr.Max.X); dx++ {
for dy, s := range z.vertical.sources[dr.Min.Y:dr.Max.Y] {
var pr, pg, pb, pa float64
for _, c := range z.vertical.contribs[s.i:s.j] {
p := &tmp[c.coord*z.dw+dx]
pr += p[0] * c.weight
pg += p[1] * c.weight
pb += p[2] * c.weight
pa += p[3] * c.weight
}
dstColorRGBA64.R = ftou(pr * s.invTotalWeight)
dstColorRGBA64.G = ftou(pg * s.invTotalWeight)
dstColorRGBA64.B = ftou(pb * s.invTotalWeight)
dstColorRGBA64.A = ftou(pa * s.invTotalWeight)
dst.Set(dp.X+int(dx), dp.Y+int(dr.Min.Y+dy), dstColor)
}
}
}