// has a rectangular window (visionW*visionH) // walking range per frame is a circle with radius "range" sclass G22Walker { // configuration (set) int range = 1; // how far we can walk in each frame double roundingPolicy = .9; // for making the range circle (between 0 and 1) int visionW = 3, visionH = 3; // window rectangle size (both should be odd) // current position (set/get) Pt position; // current position (center), not null // the ideal image it is looking for (set/get) byte[] rememberedImage; // size visionW*visionH // status variables (read) bool stuck; // can neither stay nor move anywhere for some reason int guessWork; // how many "optimal" new positions we chose from void move(IBWImage image) { stuck = false; guessWork = 0; // How far can I move until I hit the image's borders Rect movement1 = rectFromPoints(visionW/2, visionH/2, image.getWidth()-(visionW+1)/2, (visionH+1)/2); // How far can I walk in one frame Rect movement2 = rectAroundPt(position, range*2+1); Rect movement = intersectRects(movement1, movement2); if (empty(movement)) ret with set stuck; printVars(+movement, +movement1, +movement2); if (rememberedImage == null) ret with rememberImage(image); Rect r = window_uncropped(); new MultiBest<Pt> bestPositions; int mx1 = movement.x1(), mx2 = movement.x2(); int my1 = movement.y1(), my2 = movement.y2(); for (int y = my1; y < my2; y++) for (int x = mx1; x < mx2; x++) { var newPos = pt(x, y); bestPositions.put(newPos, scorePosition(newPos, image)); } var best = bestPositions!; guessWork = l(best); position = random(best); // It's actually a question how often we grab a fresh image. // For now, every time. rememberImage(image); } // only works when we already have a rememberedImage double scorePosition(Pt pos, IBWImage image) { int vx = pos.x-visionW, vy = pos.y-visionH, i = 0; int diff = 0; for y to visionH: for x to visionW: diff += abs(ubyteToInt(rememberedImage[i++])-image.getInt(vx+x, vy+y)); ret -diff; } void rememberImage(IBWImage image) { if (rememberedImage == null) rememberedImage = new byte[visionW*visionH]; int vx = visionX1(), vy = visionY1(), i = 0; for y to visionH: for x to visionW: rememberedImage[i++] = clampToUByte(image.getInt(vx+x, vy+y)); } int visionX1() { ret position.x-visionW; } int visionY1() { ret position.y-visionH; } Rect window_uncropped(Pt center default position) { ret rectAroundPt(center, visionW, visionH); } }
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Snippet ID: | #1034419 |
Snippet name: | G22BWWalker [dev.] |
Eternal ID of this version: | #1034419/1 |
Text MD5: | 01a26ef3ca8f8d06918024ba3a062814 |
Author: | stefan |
Category: | javax / imaging |
Type: | JavaX fragment (include) |
Public (visible to everyone): | Yes |
Archived (hidden from active list): | No |
Created/modified: | 2022-02-06 03:56:08 |
Source code size: | 2794 bytes / 84 lines |
Pitched / IR pitched: | No / No |
Views / Downloads: | 162 / 177 |
Referenced in: | -