goimagehash/yuv.fancy.upscaling.go

package goimagehash

import (
	"image"
)

type WebPUpsampleLinePairFunc func(top_y []uint8, bottom_y []uint8,
	top_u []uint8, top_v []uint8,
	bottom_u []uint8, bottom_v []uint8,
	top_dst []uint8, bottom_dst []uint8, len int)

func FancyUpscale(yuv *image.YCbCr) *image.RGBA {
	rgb := image.NewRGBA(image.Rect(0, 0, yuv.Rect.Dx(), yuv.Rect.Dy()))
	var (
		upsample WebPUpsampleLinePairFunc = UpsampleRgbaLinePair

		last_row int = yuv.Rect.Dy()
		mb_w     int = yuv.Rect.Dx()
	)
	// First line is special cased. We mirror the u/v samples at boundary.
	upsample(yuv.Y[:yuv.YStride], nil,
		yuv.Cb[:yuv.CStride], yuv.Cr[:yuv.CStride],
		yuv.Cb[:yuv.CStride], yuv.Cr[:yuv.CStride],
		rgb.Pix[:rgb.Stride], nil,
		mb_w,
	)

	var (
		top_c      int
		bottom_c   int
		top_y      int
		bottom_y   int
		top_dst    int
		bottom_dst int
	)
	// Loop over each output pairs of row.
	for row := 1; row+1 < last_row; row += 2 {
		top_c = yuv.COffset(0, row)
		bottom_c = top_c + yuv.CStride

		top_y = yuv.YOffset(0, row)
		bottom_y = top_y + yuv.YStride

		top_dst = rgb.PixOffset(0, row)
		bottom_dst = top_dst + rgb.Stride

		upsample(yuv.Y[top_y:bottom_y], yuv.Y[bottom_y:bottom_y+yuv.YStride],
			yuv.Cb[top_c:bottom_c], yuv.Cr[top_c:bottom_c],
			yuv.Cb[bottom_c:bottom_c+yuv.CStride], yuv.Cr[bottom_c:bottom_c+yuv.CStride],
			rgb.Pix[top_dst:bottom_dst], rgb.Pix[bottom_dst:bottom_dst+rgb.Stride],
			mb_w,
		)

	}

	// Process the very last row of even-sized picture
	if last_row%2 == 0 {
		upsample(yuv.Y[len(yuv.Y)-yuv.YStride:], nil,
			yuv.Cb[len(yuv.Cb)-yuv.CStride:], yuv.Cr[len(yuv.Cr)-yuv.CStride:],
			yuv.Cb[len(yuv.Cb)-yuv.CStride:], yuv.Cr[len(yuv.Cr)-yuv.CStride:],
			rgb.Pix[len(rgb.Pix)-rgb.Stride:], nil,
			mb_w,
		)
	}
	return rgb
}

func UpsampleRgbaLinePair(top_y []uint8, bottom_y []uint8,
	top_u []uint8, top_v []uint8,
	bottom_u []uint8, bottom_v []uint8,
	top_dst []uint8, bottom_dst []uint8, rowLength int,
) {
	var (
		x               int
		last_pixel_pair int    = (rowLength - 1) >> 1
		tl_uv           uint32 = (uint32(top_u[0]) | (uint32(top_v[0]) << 16))       /* top-left sample */
		l_uv            uint32 = (uint32(bottom_u[0]) | (uint32(bottom_v[0]) << 16)) /* left-sample */
	)
	{
		var uv0 uint32 = (3*tl_uv + l_uv + 0x00020002) >> 2
		dst := VP8YuvToRgba(top_y[0], uint8(uv0&0xff), uint8((uv0 >> 16)))
		copy(top_dst[0:], dst[:])
	}
	if bottom_y != nil {
		var uv0 uint32 = (3*l_uv + tl_uv + 0x00020002) >> 2
		dst := VP8YuvToRgba(bottom_y[0], uint8(uv0&0xff), uint8(uv0>>16))
		copy(bottom_dst[0:], dst[:])
	}

	for x = 1; x <= last_pixel_pair; x++ {
		var (
			t_uv uint32 = (uint32(top_u[x]) | (uint32(top_v[x]) << 16))       /* top sample */
			uv   uint32 = (uint32(bottom_u[x]) | (uint32(bottom_v[x]) << 16)) /* sample */

			/* precompute invariant values associated with first and second diagonals*/
			avg     uint32 = tl_uv + t_uv + l_uv + uv + 0x00080008
			diag_12 uint32 = (avg + 2*(t_uv+l_uv)) >> 3
			diag_03 uint32 = (avg + 2*(tl_uv+uv)) >> 3
		)
		{
			var (
				uv0 uint32 = (diag_12 + tl_uv) >> 1
				uv1 uint32 = (diag_03 + t_uv) >> 1
			)
			dst := VP8YuvToRgba(top_y[2*x-1], uint8(uv0&0xff), uint8(uv0>>16))
			copy(top_dst[(2*x-1)*4:], dst[:])
			dst = VP8YuvToRgba(top_y[2*x-0], uint8(uv1&0xff), uint8(uv1>>16))
			copy(top_dst[(2*x-0)*4:], dst[:])
		}
		if bottom_y != nil {
			var (
				uv0 uint32 = (diag_03 + l_uv) >> 1
				uv1 uint32 = (diag_12 + uv) >> 1
			)
			dst := VP8YuvToRgba(bottom_y[2*x-1], uint8(uv0&0xff), uint8(uv0>>16))
			copy(bottom_dst[(2*x-1)*4:], dst[:])
			dst = VP8YuvToRgba(bottom_y[2*x+0], uint8(uv1&0xff), uint8(uv1>>16))
			copy(bottom_dst[(2*x+0)*4:], dst[:])
		}
		tl_uv = t_uv
		l_uv = uv
	}
	if rowLength%2 == 0 {
		{
			var uv0 uint32 = (3*tl_uv + l_uv + 0x00020002) >> 2
			dst := VP8YuvToRgba(top_y[rowLength-1], uint8(uv0&0xff), uint8(uv0>>16))
			copy(top_dst[(rowLength-1)*4:], dst[:])
		}
		if bottom_y != nil {
			var uv0 uint32 = (3*l_uv + tl_uv + 0x00020002) >> 2
			dst := VP8YuvToRgba(bottom_y[rowLength-1], uint8(uv0&0xff), uint8(uv0>>16))
			copy(bottom_dst[(rowLength-1)*4:], dst[:])
		}
	}
}
Make compliant with python imagehash 2024-04-05 16:29:03 -07:00			`package goimagehash`

			`import (`
			`"image"`
			`)`

			`type WebPUpsampleLinePairFunc func(top_y []uint8, bottom_y []uint8,`
			`top_u []uint8, top_v []uint8,`
			`bottom_u []uint8, bottom_v []uint8,`
			`top_dst []uint8, bottom_dst []uint8, len int)`

			`func FancyUpscale(yuv image.YCbCr) image.RGBA {`
			`rgb := image.NewRGBA(image.Rect(0, 0, yuv.Rect.Dx(), yuv.Rect.Dy()))`
			`var (`
			`upsample WebPUpsampleLinePairFunc = UpsampleRgbaLinePair`

			`last_row int = yuv.Rect.Dy()`
			`mb_w int = yuv.Rect.Dx()`
			`)`
			`// First line is special cased. We mirror the u/v samples at boundary.`
			`upsample(yuv.Y[:yuv.YStride], nil,`
			`yuv.Cb[:yuv.CStride], yuv.Cr[:yuv.CStride],`
			`yuv.Cb[:yuv.CStride], yuv.Cr[:yuv.CStride],`
			`rgb.Pix[:rgb.Stride], nil,`
			`mb_w,`
			`)`

			`var (`
			`top_c int`
			`bottom_c int`
			`top_y int`
			`bottom_y int`
			`top_dst int`
			`bottom_dst int`
			`)`
			`// Loop over each output pairs of row.`
			`for row := 1; row+1 < last_row; row += 2 {`
			`top_c = yuv.COffset(0, row)`
			`bottom_c = top_c + yuv.CStride`

			`top_y = yuv.YOffset(0, row)`
			`bottom_y = top_y + yuv.YStride`

			`top_dst = rgb.PixOffset(0, row)`
			`bottom_dst = top_dst + rgb.Stride`

			`upsample(yuv.Y[top_y:bottom_y], yuv.Y[bottom_y:bottom_y+yuv.YStride],`
			`yuv.Cb[top_c:bottom_c], yuv.Cr[top_c:bottom_c],`
			`yuv.Cb[bottom_c:bottom_c+yuv.CStride], yuv.Cr[bottom_c:bottom_c+yuv.CStride],`
			`rgb.Pix[top_dst:bottom_dst], rgb.Pix[bottom_dst:bottom_dst+rgb.Stride],`
			`mb_w,`
			`)`

			`}`

			`// Process the very last row of even-sized picture`
			`if last_row%2 == 0 {`
			`upsample(yuv.Y[len(yuv.Y)-yuv.YStride:], nil,`
			`yuv.Cb[len(yuv.Cb)-yuv.CStride:], yuv.Cr[len(yuv.Cr)-yuv.CStride:],`
			`yuv.Cb[len(yuv.Cb)-yuv.CStride:], yuv.Cr[len(yuv.Cr)-yuv.CStride:],`
			`rgb.Pix[len(rgb.Pix)-rgb.Stride:], nil,`
			`mb_w,`
			`)`
			`}`
			`return rgb`
			`}`

			`func UpsampleRgbaLinePair(top_y []uint8, bottom_y []uint8,`
			`top_u []uint8, top_v []uint8,`
			`bottom_u []uint8, bottom_v []uint8,`
			`top_dst []uint8, bottom_dst []uint8, rowLength int,`
			`) {`
			`var (`
			`x int`
			`last_pixel_pair int = (rowLength - 1) >> 1`
			`tl_uv uint32 = (uint32(top_u[0]) \| (uint32(top_v[0]) << 16)) /* top-left sample */`
			`l_uv uint32 = (uint32(bottom_u[0]) \| (uint32(bottom_v[0]) << 16)) /* left-sample */`
			`)`
			`{`
			`var uv0 uint32 = (3*tl_uv + l_uv + 0x00020002) >> 2`
			`dst := VP8YuvToRgba(top_y[0], uint8(uv0&0xff), uint8((uv0 >> 16)))`
			`copy(top_dst[0:], dst[:])`
			`}`
			`if bottom_y != nil {`
			`var uv0 uint32 = (3*l_uv + tl_uv + 0x00020002) >> 2`
			`dst := VP8YuvToRgba(bottom_y[0], uint8(uv0&0xff), uint8(uv0>>16))`
			`copy(bottom_dst[0:], dst[:])`
			`}`

			`for x = 1; x <= last_pixel_pair; x++ {`
			`var (`
			`t_uv uint32 = (uint32(top_u[x]) \| (uint32(top_v[x]) << 16)) /* top sample */`
			`uv uint32 = (uint32(bottom_u[x]) \| (uint32(bottom_v[x]) << 16)) /* sample */`

			`/* precompute invariant values associated with first and second diagonals*/`
			`avg uint32 = tl_uv + t_uv + l_uv + uv + 0x00080008`
			`diag_12 uint32 = (avg + 2*(t_uv+l_uv)) >> 3`
			`diag_03 uint32 = (avg + 2*(tl_uv+uv)) >> 3`
			`)`
			`{`
			`var (`
			`uv0 uint32 = (diag_12 + tl_uv) >> 1`
			`uv1 uint32 = (diag_03 + t_uv) >> 1`
			`)`
			`dst := VP8YuvToRgba(top_y[2*x-1], uint8(uv0&0xff), uint8(uv0>>16))`
			`copy(top_dst[(2x-1)4:], dst[:])`
			`dst = VP8YuvToRgba(top_y[2*x-0], uint8(uv1&0xff), uint8(uv1>>16))`
			`copy(top_dst[(2x-0)4:], dst[:])`
			`}`
			`if bottom_y != nil {`
			`var (`
			`uv0 uint32 = (diag_03 + l_uv) >> 1`
			`uv1 uint32 = (diag_12 + uv) >> 1`
			`)`
			`dst := VP8YuvToRgba(bottom_y[2*x-1], uint8(uv0&0xff), uint8(uv0>>16))`
			`copy(bottom_dst[(2x-1)4:], dst[:])`
			`dst = VP8YuvToRgba(bottom_y[2*x+0], uint8(uv1&0xff), uint8(uv1>>16))`
			`copy(bottom_dst[(2x+0)4:], dst[:])`
			`}`
			`tl_uv = t_uv`
			`l_uv = uv`
			`}`
			`if rowLength%2 == 0 {`
			`{`
			`var uv0 uint32 = (3*tl_uv + l_uv + 0x00020002) >> 2`
			`dst := VP8YuvToRgba(top_y[rowLength-1], uint8(uv0&0xff), uint8(uv0>>16))`
			`copy(top_dst[(rowLength-1)*4:], dst[:])`
			`}`
			`if bottom_y != nil {`
			`var uv0 uint32 = (3*l_uv + tl_uv + 0x00020002) >> 2`
			`dst := VP8YuvToRgba(bottom_y[rowLength-1], uint8(uv0&0xff), uint8(uv0>>16))`
			`copy(bottom_dst[(rowLength-1)*4:], dst[:])`
			`}`
			`}`
			`}`