Casting float to int has the same properties as math.Floor
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d93161631c
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524fd851ea
19
filters.go
19
filters.go
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@ -19,7 +19,6 @@ package resize
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import (
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"image"
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"image/color"
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"math"
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)
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// color.RGBA64 as array
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@ -44,14 +43,14 @@ func clampToUint16(x float32) (y uint16) {
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// Nearest-neighbor interpolation.
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// Approximates a value by returning the value of the nearest point.
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func NearestNeighbor(x, y float32, img image.Image) color.RGBA64 {
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xn, yn := int(x), int(y)
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xn, yn := int(float32(int(x))+0.5), int(float32(int(y))+0.5)
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c := toRGBA(img.At(xn, yn))
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return color.RGBA64{c[0], c[1], c[2], c[3]}
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}
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// Linear interpolation.
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func linearInterp(x float32, p *[2]RGBA) (c RGBA) {
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x -= float32(math.Floor(float64(x)))
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x -= float32(int(x))
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for i := range c {
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c[i] = clampToUint16(float32(p[0][i])*(1.0-x) + x*float32(p[1][i]))
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}
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@ -60,7 +59,7 @@ func linearInterp(x float32, p *[2]RGBA) (c RGBA) {
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// Bilinear interpolation.
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func Bilinear(x, y float32, img image.Image) color.RGBA64 {
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xf, yf := int(math.Floor(float64(x))), int(math.Floor(float64(y)))
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xf, yf := int(x), int(y)
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var row [2]RGBA
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var col [2]RGBA
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@ -75,7 +74,7 @@ func Bilinear(x, y float32, img image.Image) color.RGBA64 {
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// cubic interpolation
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func cubicInterp(x float32, p *[4]RGBA) (c RGBA) {
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x -= float32(math.Floor(float64(x)))
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x -= float32(int(x))
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for i := range c {
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c[i] = clampToUint16(float32(p[1][i]) + 0.5*x*(float32(p[2][i])-float32(p[0][i])+x*(2.0*float32(p[0][i])-5.0*float32(p[1][i])+4.0*float32(p[2][i])-float32(p[3][i])+x*(3.0*(float32(p[1][i])-float32(p[2][i]))+float32(p[3][i])-float32(p[0][i])))))
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}
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@ -84,7 +83,7 @@ func cubicInterp(x float32, p *[4]RGBA) (c RGBA) {
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// Bicubic interpolation.
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func Bicubic(x, y float32, img image.Image) color.RGBA64 {
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xf, yf := int(math.Floor(float64(x))), int(math.Floor(float64(y)))
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xf, yf := int(x), int(y)
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var row [4]RGBA
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var col [4]RGBA
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@ -99,7 +98,7 @@ func Bicubic(x, y float32, img image.Image) color.RGBA64 {
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// 1-d convolution with windowed sinc for a=2.
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func lanczos2_x(x float32, p *[4]RGBA) (c RGBA) {
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x -= float32(math.Floor(float64(x)))
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x -= float32(int(x))
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var kernel float32
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var sum float32 = 0 // for kernel normalization
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@ -120,7 +119,7 @@ func lanczos2_x(x float32, p *[4]RGBA) (c RGBA) {
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// Lanczos interpolation (a=2).
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func Lanczos2(x, y float32, img image.Image) color.RGBA64 {
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xf, yf := int(math.Floor(float64(x))), int(math.Floor(float64(y)))
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xf, yf := int(x), int(y)
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var row [4]RGBA
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var col [4]RGBA
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@ -135,7 +134,7 @@ func Lanczos2(x, y float32, img image.Image) color.RGBA64 {
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// 1-d convolution with windowed sinc for a=3.
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func lanczos3_x(x float32, p *[6]RGBA) (c RGBA) {
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x -= float32(math.Floor(float64(x)))
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x -= float32(int(x))
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var kernel float32
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var sum float32 = 0 // for kernel normalization
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@ -156,7 +155,7 @@ func lanczos3_x(x float32, p *[6]RGBA) (c RGBA) {
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// Lanczos interpolation (a=3).
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func Lanczos3(x, y float32, img image.Image) color.RGBA64 {
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xf, yf := int(math.Floor(float64(x))), int(math.Floor(float64(y)))
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xf, yf := int(x), int(y)
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var row [6]RGBA
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var col [6]RGBA
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