noita-mapcap/bin/stitch/blend-methods.go

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// Copyright (c) 2022 David Vogel
//
// This software is released under the MIT License.
// https://opensource.org/licenses/MIT
package main
import (
"image"
"image/color"
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"math"
"sort"
)
// BlendMethodMedian takes the given tiles and median blends them into destImage.
type BlendMethodMedian struct {
BlendTileLimit int // If larger than 0, limits median blending to the n newest tiles by file modification time.
}
// Draw implements the StitchedImageBlendMethod interface.
func (b BlendMethodMedian) Draw(tiles []*ImageTile, destImage *image.RGBA) {
bounds := destImage.Bounds()
if b.BlendTileLimit > 0 {
// Sort tiles by date.
sort.Slice(tiles, func(i, j int) bool { return tiles[i].modTime.After(tiles[j].modTime) })
}
// List of images corresponding with every tile.
// Can contain empty/nil entries for images that failed to load.
images := []*image.RGBA{}
for _, tile := range tiles {
images = append(images, tile.GetImage())
}
// Create arrays to be reused every pixel.
rListEmpty, gListEmpty, bListEmpty := make([]uint8, 0, len(tiles)), make([]uint8, 0, len(tiles)), make([]uint8, 0, len(tiles))
for iy := bounds.Min.Y; iy < bounds.Max.Y; iy++ {
for ix := bounds.Min.X; ix < bounds.Max.X; ix++ {
rList, gList, bList := rListEmpty, gListEmpty, bListEmpty
point := image.Point{ix, iy}
count := 0
// Iterate through all images and create a list of colors.
for _, img := range images {
if img != nil {
if point.In(img.Bounds()) {
col := img.RGBAAt(point.X, point.Y)
rList, gList, bList = append(rList, col.R), append(gList, col.G), append(bList, col.B)
count++
// Limit number of tiles to median blend.
// Will be ignored if the blend tile limit is 0.
if count == b.BlendTileLimit {
break
}
}
}
}
switch count {
case 0: // If there were no images to get data from, ignore the pixel.
continue
case 1: // Only a single tile for this pixel.
r, g, b := uint8(rList[0]), uint8(gList[0]), uint8(bList[0])
destImage.SetRGBA(ix, iy, color.RGBA{r, g, b, 255})
default: // Multiple overlapping tiles, median blend them.
var r, g, b uint8
switch count % 2 {
case 0: // Even.
r = uint8((int(QuickSelectUInt8(rList, count/2-1)) + int(QuickSelectUInt8(rList, count/2))) / 2)
g = uint8((int(QuickSelectUInt8(gList, count/2-1)) + int(QuickSelectUInt8(gList, count/2))) / 2)
b = uint8((int(QuickSelectUInt8(bList, count/2-1)) + int(QuickSelectUInt8(bList, count/2))) / 2)
default: // Odd.
r = QuickSelectUInt8(rList, count/2)
g = QuickSelectUInt8(gList, count/2)
b = QuickSelectUInt8(bList, count/2)
}
destImage.SetRGBA(ix, iy, color.RGBA{r, g, b, 255})
}
}
}
}
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// BlendMethodVoronoi maps every pixel to the tile with the closest center point distance.
// The result is basically a Voronoi partitioning.
type BlendMethodVoronoi struct {
BlendTileLimit int // If larger than 0, limits blending to the n newest tiles by file modification time.
}
// Draw implements the StitchedImageBlendMethod interface.
func (b BlendMethodVoronoi) Draw(tiles []*ImageTile, destImage *image.RGBA) {
bounds := destImage.Bounds()
if b.BlendTileLimit > 0 {
// Sort tiles by date.
sort.Slice(tiles, func(i, j int) bool { return tiles[i].modTime.After(tiles[j].modTime) })
}
// List of images corresponding to the "tiles" list.
// Can contain empty/nil entries for images that failed to load.
images := []*image.RGBA{}
for _, tile := range tiles {
images = append(images, tile.GetImage())
}
// Create arrays to be reused every pixel.
var col color.RGBA
var centerDistSqrMin int
for iy := bounds.Min.Y; iy < bounds.Max.Y; iy++ {
for ix := bounds.Min.X; ix < bounds.Max.X; ix++ {
point := image.Point{ix, iy}
count := 0
centerDistSqrMin = math.MaxInt
// Iterate through all images and create a list of colors.
for _, img := range images {
if img != nil {
if point.In(img.Bounds()) {
center := img.Bounds().Min.Add(img.Bounds().Max).Div(2)
centerDiff := point.Sub(center)
distSqr := centerDiff.X*centerDiff.X + centerDiff.Y*centerDiff.Y
if centerDistSqrMin > distSqr {
centerDistSqrMin = distSqr
col = img.RGBAAt(point.X, point.Y)
}
count++
// Limit number of tiles to blend.
// Will be ignored if the blend tile limit is 0.
if count == b.BlendTileLimit {
break
}
}
}
}
// If there were no images to get data from, ignore the pixel.
if count == 0 {
continue
}
col.A = 255
destImage.SetRGBA(ix, iy, col)
}
}
}