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f0336037
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Leszek Koltunski
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///////////////////////////////////////////////////////////////////////////////////////////////////
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// Copyright 2020 Leszek Koltunski //
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// //
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// This file is part of Magic Cube. //
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// //
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// Magic Cube is free software: you can redistribute it and/or modify //
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// it under the terms of the GNU General Public License as published by //
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// the Free Software Foundation, either version 2 of the License, or //
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// (at your option) any later version. //
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// //
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// Magic Cube is distributed in the hope that it will be useful, //
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// but WITHOUT ANY WARRANTY; without even the implied warranty of //
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the //
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// GNU General Public License for more details. //
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// //
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// You should have received a copy of the GNU General Public License //
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// along with Magic Cube. If not, see <http://www.gnu.org/licenses/>. //
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///////////////////////////////////////////////////////////////////////////////////////////////////
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package org.distorted.solvers;
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import android.content.res.Resources;
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318c0a7d
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Leszek Koltunski
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import org.distorted.objectlib.main.ObjectType;
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import org.distorted.objectlib.main.TwistyObject;
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f0336037
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Leszek Koltunski
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import org.distorted.main.R;
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Leszek Koltunski
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import org.distorted.screens.ScreenList;
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import org.distorted.screens.RubikScreenSolver;
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f0336037
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Leszek Koltunski
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///////////////////////////////////////////////////////////////////////////////////////////////////
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a304ee64
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Leszek Koltunski
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public class SolverMain implements Runnable
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{
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private final Resources mRes;
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private final TwistyObject mObject;
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Leszek Koltunski
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///////////////////////////////////////////////////////////////////////////////////////////////////
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public SolverMain(Resources res, TwistyObject object)
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{
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mRes = res;
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mObject= object;
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f0336037
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Leszek Koltunski
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}
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///////////////////////////////////////////////////////////////////////////////////////////////////
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// certain objects have certain cubits locked - for example, the Cube3's centers of
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// sides always have the same color.
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// If a certain cubit is locked, return the color (index into it's FACE_COLORS array) it
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// must have. Otherwise return -1.
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public static int cubitIsLocked(ObjectType object, int cubit)
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{
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if( object == ObjectType.CUBE_3 )
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{
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if( cubit==20 ) return 0; // center of the right face
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if( cubit==21 ) return 1; // center of the left face
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if( cubit==22 ) return 2; // center of the up face
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if( cubit==23 ) return 3; // center of the bottom face
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if( cubit==24 ) return 4; // center of the front face
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if( cubit==25 ) return 5; // center of the back face
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}
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return -1;
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}
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///////////////////////////////////////////////////////////////////////////////////////////////////
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private void solveCube3(RubikScreenSolver solver)
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{
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String result;
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if( !org.distorted.solvers.cube3.Search.prepare(mRes) )
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result= "Error 9";
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else
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{
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String objectPosition = prepareCube3position();
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result = org.distorted.solvers.cube3.Search.solution(objectPosition, 24, 20);
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}
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if (result.contains("Error"))
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{
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switch (result.charAt(result.length() - 1))
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{
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case '1': result = mRes.getString(R.string.solver_cube3_error1); break;
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case '2': result = mRes.getString(R.string.solver_cube3_error2); break;
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case '3': result = mRes.getString(R.string.solver_cube3_error3); break;
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case '4': result = mRes.getString(R.string.solver_cube3_error4); break;
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case '5': result = mRes.getString(R.string.solver_cube3_error5); break;
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case '6': result = mRes.getString(R.string.solver_cube3_error6); break;
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case '7': result = mRes.getString(R.string.solver_cube3_error7); break;
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case '8': result = mRes.getString(R.string.solver_cube3_error8); break;
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case '9': result = mRes.getString(R.string.solver_cube3_error9); break;
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}
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solver.displayErrorDialog(result);
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}
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else
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{
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solver.setSolved(result);
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}
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}
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///////////////////////////////////////////////////////////////////////////////////////////////////
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private int mapCubitToFace(int cubit, int face)
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{
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if( cubit<8 ) return face;
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if( cubit>19) return 4;
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switch(face)
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{
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case 0: return cubit==15 || cubit==18 ? 3 : 5;
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case 1: return cubit==13 || cubit==16 ? 3 : 5;
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case 2: return cubit==10 ? 5 : 3;
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case 3: return cubit== 8 ? 3 : 5;
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case 4: return cubit== 9 ? 3 : 5;
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case 5: return cubit== 8 ? 5 : 3;
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}
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return -1;
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}
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ecf3f149
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Leszek Koltunski
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///////////////////////////////////////////////////////////////////////////////////////////////////
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// order: Up --> Right --> Front --> Down --> Left --> Back
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// (because the first implemented Solver - the two-phase Cube3 one - expects such order)
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//
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// Solved 3x3x3 Cube maps to "UUUUUUUUURRRRRRRRRFFFFFFFFFDDDDDDDDDLLLLLLLLLBBBBBBBBB"
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private String prepareCube3position()
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{
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StringBuilder objectString = new StringBuilder();
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final int R = 0;
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final int L = 1;
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final int U = 2;
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final int D = 3;
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final int F = 4;
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final int B = 5;
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// 'I' - interior, theoretically can happen
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final char[] FACE_NAMES = { 'R', 'L', 'U', 'D', 'F', 'B', 'I'};
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final int[] U_INDEX = { 2,10, 6,17,22,19, 3,11, 7};
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final int[] R_INDEX = { 7,19, 6,15,20,14, 5,18, 4};
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final int[] F_INDEX = { 3,11, 7,13,24,15, 1, 9, 5};
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final int[] D_INDEX = { 1, 9, 5,16,23,18, 0, 8, 4};
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final int[] L_INDEX = { 2,17, 3,12,21,13, 0,16, 1};
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final int[] B_INDEX = { 6,10, 2,14,25,12, 4, 8, 0};
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for(int i=0; i<9; i++)
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{
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int face = mapCubitToFace(U_INDEX[i],U);
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int color = mObject.getCubitFaceColorIndex(U_INDEX[i], face);
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objectString.append(FACE_NAMES[color]);
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}
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for(int i=0; i<9; i++)
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{
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int face = mapCubitToFace(R_INDEX[i],R);
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int color = mObject.getCubitFaceColorIndex(R_INDEX[i], face);
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objectString.append(FACE_NAMES[color]);
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}
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for(int i=0; i<9; i++)
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{
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int face = mapCubitToFace(F_INDEX[i],F);
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int color = mObject.getCubitFaceColorIndex(F_INDEX[i], face);
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objectString.append(FACE_NAMES[color]);
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}
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for(int i=0; i<9; i++)
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{
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int face = mapCubitToFace(D_INDEX[i],D);
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int color = mObject.getCubitFaceColorIndex(D_INDEX[i], face);
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objectString.append(FACE_NAMES[color]);
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}
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for(int i=0; i<9; i++)
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{
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int face = mapCubitToFace(L_INDEX[i],L);
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int color = mObject.getCubitFaceColorIndex(L_INDEX[i], face);
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objectString.append(FACE_NAMES[color]);
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}
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for(int i=0; i<9; i++)
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{
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int face = mapCubitToFace(B_INDEX[i],B);
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int color = mObject.getCubitFaceColorIndex(B_INDEX[i], face);
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ecf3f149
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objectString.append(FACE_NAMES[color]);
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}
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return objectString.toString();
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}
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f0336037
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Leszek Koltunski
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///////////////////////////////////////////////////////////////////////////////////////////////////
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private void interruptCube3()
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{
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org.distorted.solvers.cube3.Search.interrupt();
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}
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Leszek Koltunski
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///////////////////////////////////////////////////////////////////////////////////////////////////
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public void start()
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{
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Thread thr = new Thread(this);
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thr.start();
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}
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///////////////////////////////////////////////////////////////////////////////////////////////////
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public void run()
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{
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RubikScreenSolver solver = (RubikScreenSolver) ScreenList.SVER.getScreenClass();
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if( mObject!=null && mObject.getObjectType()==ObjectType.CUBE_3 )
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{
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solveCube3(solver);
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f0336037
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}
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else
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{
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solver.displayErrorDialog(mRes.getString(R.string.solver_generic_error1));
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}
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}
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}
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