var scrambler223 = (function(circle, get8Perm) { var cmv = []; var cprun = []; function initCornerMoveTable() { var g = [], temp; for (var i = 0; i < 40320; i++) { cmv[i] = []; } for (var i = 0; i < 40320; i++) { mathlib.set8Perm(g, i); circle(g, 0, 1, 2, 3); temp = cmv[0][i] = get8Perm(g); //U circle(g, 4, 5, 6, 7); temp = cmv[1][temp] = get8Perm(g); //D circle(g, 2, 5)(g, 3, 6); temp = cmv[2][temp] = get8Perm(g); //R circle(g, 0, 5)(g, 3, 4); cmv[3][temp] = get8Perm(g); //F } } function doEdgeMove(idx, m) { if (m < 2) { return idx; } var g = []; mathlib.set8Perm(g, idx, 3); if (m == 2) { circle(g, 0, 1); } else if (m == 3) { circle(g, 0, 2); } return get8Perm(g, 3); } // function doMv(idx, m) { // return cmv[~~(idx / 6)][m] * 6 + doEdgeMove(idx % 6, m); // } function init() { initCornerMoveTable(); mathlib.createPrun(cprun, 0, 40320, 12, cmv, 4, 3); // mathlib.createPrun([], 0, 40320 * 6, 15, doMv, 4, 3); } function search(corner, edge, maxl, lm, sol) { if (maxl == 0) { return corner + edge == 0; } if (mathlib.getPruning(cprun, corner) > maxl) return false; var h, g, f, i; for (i = 0; i < 4; i++) { if (i != lm) { h = corner; g = edge; for (f = 0; f < (i < 2 ? 3 : 1); f++) { h = cmv[i][h]; g = doEdgeMove(g, i); if (search(h, g, maxl - 1, i, sol)) { sol.push(["U", "D", "R2", "F2"][i] + (i < 2 ? " 2'".charAt(f) : "")); return true; } } } } } function generateScramble() { init(); var d = []; var a = 0, b, c; do { c = mathlib.rn(40320); b = mathlib.rn(6); } while (b + c == 0) for (a = 0; a < 99; a++) { if (search(c, b, a, -1, d)) { break; } } return d.reverse().join(" ") } return { get223scramble: generateScramble, } //scramble.reg('223', generateScramble); })(mathlib.circle, mathlib.get8Perm);