// License: GPLv3 Copyright: 2023, Kovid Goyal, package images import ( "fmt" "image" "image/color" "math" ) var _ = fmt.Print type scanner struct { image image.Image w, h int palette []color.NRGBA } func (s scanner) bytes_per_pixel() int { return 4 } func (s scanner) bounds() image.Rectangle { return s.image.Bounds() } func newScanner(img image.Image) *scanner { s := &scanner{ image: img, w: img.Bounds().Dx(), h: img.Bounds().Dy(), } if img, ok := img.(*image.Paletted); ok { s.palette = make([]color.NRGBA, len(img.Palette)) for i := 0; i < len(img.Palette); i++ { s.palette[i] = color.NRGBAModel.Convert(img.Palette[i]).(color.NRGBA) } } return s } // scan scans the given rectangular region of the image into dst. func (s *scanner) scan(x1, y1, x2, y2 int, dst []uint8) { switch img := s.image.(type) { case *image.NRGBA: size := (x2 - x1) * 4 j := 0 i := y1*img.Stride + x1*4 if size == 4 { for y := y1; y < y2; y++ { d := dst[j : j+4 : j+4] s := img.Pix[i : i+4 : i+4] d[0] = s[0] d[1] = s[1] d[2] = s[2] d[3] = s[3] j += size i += img.Stride } } else { for y := y1; y < y2; y++ { copy(dst[j:j+size], img.Pix[i:i+size]) j += size i += img.Stride } } case *image.NRGBA64: j := 0 for y := y1; y < y2; y++ { i := y*img.Stride + x1*8 for x := x1; x < x2; x++ { s := img.Pix[i : i+8 : i+8] d := dst[j : j+4 : j+4] d[0] = s[0] d[1] = s[2] d[2] = s[4] d[3] = s[6] j += 4 i += 8 } } case *image.RGBA: j := 0 for y := y1; y < y2; y++ { i := y*img.Stride + x1*4 for x := x1; x < x2; x++ { d := dst[j : j+4 : j+4] a := img.Pix[i+3] switch a { case 0: d[0] = 0 d[1] = 0 d[2] = 0 d[3] = a case 0xff: s := img.Pix[i : i+4 : i+4] d[0] = s[0] d[1] = s[1] d[2] = s[2] d[3] = a default: s := img.Pix[i : i+4 : i+4] r16 := uint16(s[0]) g16 := uint16(s[1]) b16 := uint16(s[2]) a16 := uint16(a) d[0] = uint8(r16 * 0xff / a16) d[1] = uint8(g16 * 0xff / a16) d[2] = uint8(b16 * 0xff / a16) d[3] = a } j += 4 i += 4 } } case *image.RGBA64: j := 0 for y := y1; y < y2; y++ { i := y*img.Stride + x1*8 for x := x1; x < x2; x++ { s := img.Pix[i : i+8 : i+8] d := dst[j : j+4 : j+4] a := s[6] switch a { case 0: d[0] = 0 d[1] = 0 d[2] = 0 case 0xff: d[0] = s[0] d[1] = s[2] d[2] = s[4] default: r32 := uint32(s[0])<<8 | uint32(s[1]) g32 := uint32(s[2])<<8 | uint32(s[3]) b32 := uint32(s[4])<<8 | uint32(s[5]) a32 := uint32(s[6])<<8 | uint32(s[7]) d[0] = uint8((r32 * 0xffff / a32) >> 8) d[1] = uint8((g32 * 0xffff / a32) >> 8) d[2] = uint8((b32 * 0xffff / a32) >> 8) } d[3] = a j += 4 i += 8 } } case *image.Gray: j := 0 for y := y1; y < y2; y++ { i := y*img.Stride + x1 for x := x1; x < x2; x++ { c := img.Pix[i] d := dst[j : j+4 : j+4] d[0] = c d[1] = c d[2] = c d[3] = 0xff j += 4 i++ } } case *image.Gray16: j := 0 for y := y1; y < y2; y++ { i := y*img.Stride + x1*2 for x := x1; x < x2; x++ { c := img.Pix[i] d := dst[j : j+4 : j+4] d[0] = c d[1] = c d[2] = c d[3] = 0xff j += 4 i += 2 } } case *image.YCbCr: j := 0 x1 += img.Rect.Min.X x2 += img.Rect.Min.X y1 += img.Rect.Min.Y y2 += img.Rect.Min.Y hy := img.Rect.Min.Y / 2 hx := img.Rect.Min.X / 2 for y := y1; y < y2; y++ { iy := (y-img.Rect.Min.Y)*img.YStride + (x1 - img.Rect.Min.X) var yBase int switch img.SubsampleRatio { case image.YCbCrSubsampleRatio444, image.YCbCrSubsampleRatio422: yBase = (y - img.Rect.Min.Y) * img.CStride case image.YCbCrSubsampleRatio420, image.YCbCrSubsampleRatio440: yBase = (y/2 - hy) * img.CStride } for x := x1; x < x2; x++ { var ic int switch img.SubsampleRatio { case image.YCbCrSubsampleRatio444, image.YCbCrSubsampleRatio440: ic = yBase + (x - img.Rect.Min.X) case image.YCbCrSubsampleRatio422, image.YCbCrSubsampleRatio420: ic = yBase + (x/2 - hx) default: ic = img.COffset(x, y) } yy1 := int32(img.Y[iy]) * 0x10101 cb1 := int32(img.Cb[ic]) - 128 cr1 := int32(img.Cr[ic]) - 128 r := yy1 + 91881*cr1 if uint32(r)&0xff000000 == 0 { r >>= 16 } else { r = ^(r >> 31) } g := yy1 - 22554*cb1 - 46802*cr1 if uint32(g)&0xff000000 == 0 { g >>= 16 } else { g = ^(g >> 31) } b := yy1 + 116130*cb1 if uint32(b)&0xff000000 == 0 { b >>= 16 } else { b = ^(b >> 31) } d := dst[j : j+4 : j+4] d[0] = uint8(r) d[1] = uint8(g) d[2] = uint8(b) d[3] = 0xff iy++ j += 4 } } case *image.Paletted: j := 0 for y := y1; y < y2; y++ { i := y*img.Stride + x1 for x := x1; x < x2; x++ { c := s.palette[img.Pix[i]] d := dst[j : j+4 : j+4] d[0] = c.R d[1] = c.G d[2] = c.B d[3] = c.A j += 4 i++ } } default: j := 0 b := s.image.Bounds() x1 += b.Min.X x2 += b.Min.X y1 += b.Min.Y y2 += b.Min.Y for y := y1; y < y2; y++ { for x := x1; x < x2; x++ { r16, g16, b16, a16 := s.image.At(x, y).RGBA() d := dst[j : j+4 : j+4] switch a16 { case 0xffff: d[0] = uint8(r16 >> 8) d[1] = uint8(g16 >> 8) d[2] = uint8(b16 >> 8) d[3] = 0xff case 0: d[0] = 0 d[1] = 0 d[2] = 0 d[3] = 0 default: d[0] = uint8(((r16 * 0xffff) / a16) >> 8) d[1] = uint8(((g16 * 0xffff) / a16) >> 8) d[2] = uint8(((b16 * 0xffff) / a16) >> 8) d[3] = uint8(a16 >> 8) } j += 4 } } } } type Scanner interface { scan(x1, y1, x2, y2 int, dst []uint8) bytes_per_pixel() int bounds() image.Rectangle } func (self *Context) run_paste(src Scanner, background image.Image, pos image.Point, postprocess func([]byte)) { pos = pos.Sub(background.Bounds().Min) pasteRect := image.Rectangle{Min: pos, Max: pos.Add(src.bounds().Size())} interRect := pasteRect.Intersect(background.Bounds()) if interRect.Empty() { return } bytes_per_pixel := src.bytes_per_pixel() var stride int var pix []uint8 switch v := background.(type) { case *image.NRGBA: i := background.(*image.NRGBA) stride = i.Stride pix = i.Pix case *NRGB: i := background.(*NRGB) stride = i.Stride pix = i.Pix default: panic(fmt.Sprintf("Unsupported image type: %v", v)) } self.Parallel(interRect.Min.Y, interRect.Max.Y, func(ys <-chan int) { for y := range ys { x1 := interRect.Min.X - pasteRect.Min.X x2 := interRect.Max.X - pasteRect.Min.X y1 := y - pasteRect.Min.Y y2 := y1 + 1 i1 := y*stride + interRect.Min.X*bytes_per_pixel i2 := i1 + interRect.Dx()*bytes_per_pixel dst := pix[i1:i2] src.scan(x1, y1, x2, y2, dst) postprocess(dst) } }) } func (self *Context) paste_nrgba_onto_opaque(background *image.NRGBA, img image.Image, pos image.Point, bgcol *NRGBColor) { src := newScanner(img) if bgcol == nil { self.run_paste(src, background, pos, func([]byte) {}) return } bg := [3]float64{float64(bgcol.R), float64(bgcol.G), float64(bgcol.B)} self.run_paste(src, background, pos, func(dst []byte) { for len(dst) > 0 { a := float64(dst[3]) / 255.0 for i := range dst[:3] { // uint8() automatically converts floats greater than 255 but less than 256 to 255 dst[i] = uint8(float64(dst[i])*a + bg[i]*(1-a)) } dst[3] = 255 dst = dst[4:] } }) } // Paste pastes the img image to the background image at the specified position. Optionally composing onto the specified opaque color. func (self *Context) Paste(background image.Image, img image.Image, pos image.Point, opaque_bg *NRGBColor) { switch background.(type) { case *image.NRGBA: self.paste_nrgba_onto_opaque(background.(*image.NRGBA), img, pos, opaque_bg) case *NRGB: self.paste_nrgb_onto_opaque(background.(*NRGB), img, pos, opaque_bg) default: panic("Unsupported background image type") } } // PasteCenter pastes the img image to the center of the background image. Optionally composing onto the specified opaque color. func (self *Context) PasteCenter(background image.Image, img image.Image, opaque_bg *NRGBColor) { bgBounds := background.Bounds() bgW := bgBounds.Dx() bgH := bgBounds.Dy() bgMinX := bgBounds.Min.X bgMinY := bgBounds.Min.Y centerX := bgMinX + bgW/2 centerY := bgMinY + bgH/2 x0 := centerX - img.Bounds().Dx()/2 y0 := centerY - img.Bounds().Dy()/2 self.Paste(background, img, image.Pt(x0, y0), opaque_bg) } func FitImage(width, height, pwidth, pheight int) (final_width int, final_height int) { if height > pheight { corrf := float64(pheight) / float64(height) width, height = int(math.Floor(corrf*float64(width))), pheight } if width > pwidth { corrf := float64(pwidth) / float64(width) width, height = pwidth, int(math.Floor(corrf*float64(height))) } if height > pheight { corrf := float64(pheight) / float64(height) width, height = int(math.Floor(corrf*float64(width))), pheight } return width, height }