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///////////////////////////////////////////////////////////////////////////////////////////////////
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// Copyright 2023 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 proprietary software licensed under an EULA which you should have received //
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// along with the code. If not, check https://distorted.org/magic/License-Magic-Cube.html //
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///////////////////////////////////////////////////////////////////////////////////////////////////
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package org.distorted.objectlib.tablebases;
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import android.content.res.Resources;
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import java.io.ByteArrayOutputStream;
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import java.io.IOException;
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import java.io.InputStream;
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///////////////////////////////////////////////////////////////////////////////////////////////////
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public abstract class TablebasesPruning extends TablebasesAbstract
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{
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private final int mGodsNumber;
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private boolean mInitialized;
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private PruningTable[] mHighTables;
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private PruningTable[] mMidTables;
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private int mLowestHigh, mHighestMid, mLowestMid;
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///////////////////////////////////////////////////////////////////////////////////////////////////
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abstract int[] getMidPruningLevels();
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abstract int[] getHighPruningLevels();
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abstract int getGodsNumber();
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abstract boolean moveCanProceed(int lastA, int lastL, int currA, int currL);
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///////////////////////////////////////////////////////////////////////////////////////////////////
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private PruningTable createPruningTable(Resources res, int id)
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{
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InputStream stream = res.openRawResource(id);
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ByteArrayOutputStream buffer = new ByteArrayOutputStream();
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int nRead;
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byte[] tmp = new byte[16384];
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try
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{
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while ((nRead = stream.read(tmp, 0, tmp.length)) != -1)
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{
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buffer.write(tmp, 0, nRead);
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}
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stream.close();
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byte[] data = buffer.toByteArray();
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buffer.close();
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return new PruningTable(data);
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}
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catch(IOException ex)
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{
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mInitialized = false;
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return null;
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}
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}
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///////////////////////////////////////////////////////////////////////////////////////////////////
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public TablebasesPruning()
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{
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super();
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mGodsNumber = getGodsNumber();
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mInitialized = false;
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}
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///////////////////////////////////////////////////////////////////////////////////////////////////
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public TablebasesPruning(Resources res, int[] midIDs, int[] highIDs)
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{
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super();
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int mid = midIDs !=null ? midIDs.length : 0;
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int high= highIDs!=null ? highIDs.length : 0;
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mMidTables = mid >0 ? new PruningTable[mid] : null;
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mHighTables= high>0 ? new PruningTable[high]: null;
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mGodsNumber = getGodsNumber();
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mInitialized = true;
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for(int i=0; i<mid ; i++) mMidTables[i] = createPruningTable(res,midIDs[i] );
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for(int i=0; i<high; i++) mHighTables[i]= createPruningTable(res,highIDs[i]);
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computeLowHigh();
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}
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///////////////////////////////////////////////////////////////////////////////////////////////////
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public byte[][] getPacked()
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{
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if( !mInitialized )
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{
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int[] midLevels = getMidPruningLevels();
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int numMidLevels= midLevels!=null ? midLevels.length : 0;
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int[] highLevels = getHighPruningLevels();
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int numHighLevels= highLevels!=null ? highLevels.length : 0;
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int maxLevel = 0;
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if( highLevels!=null )
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{
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for( int l : highLevels )
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if( l>maxLevel ) maxLevel = l;
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}
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else
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{
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if( midLevels!=null )
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for( int l : midLevels )
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if( l>maxLevel ) maxLevel = l;
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}
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createTablebase(maxLevel);
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mMidTables = numMidLevels >0 ? new PruningTable[numMidLevels ] : null;
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mHighTables= numHighLevels>0 ? new PruningTable[numHighLevels] : null;
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for(int i=0; i<numMidLevels; i++)
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mMidTables[i] = new PruningTable(mTablebase,midLevels[i]);
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for(int i=0; i<numHighLevels; i++)
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mHighTables[i] = new PruningTable(mTablebase,highLevels[i]);
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computeLowHigh();
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mInitialized = true;
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}
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int midNum = mMidTables !=null ? mMidTables.length : 0;
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int highNum = mHighTables!=null ? mHighTables.length : 0;
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byte[][] data = new byte[midNum+highNum][];
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for(int i=0; i<midNum ; i++) data[i ] = mMidTables[i].getPacked();
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for(int i=0; i<highNum; i++) data[i+midNum] = mHighTables[i].getPacked();
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return data;
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}
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///////////////////////////////////////////////////////////////////////////////////////////////////
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private void computeLowHigh()
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{
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mLowestHigh = mGodsNumber+1;
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int numHigh = mHighTables==null ? 0 : mHighTables.length;
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for( int i=0; i<numHigh; i++ )
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{
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int level = mHighTables[i].getLevel();
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if( i==0 || level<mLowestHigh ) mLowestHigh=level;
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}
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mLowestMid = 0;
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mHighestMid= 0;
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int numMid = mMidTables==null ? 0 : mMidTables.length;
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for( int i=0; i<numMid; i++ )
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{
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int level = mMidTables[i].getLevel();
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if( i==0 || level<mLowestMid ) mLowestMid =level;
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if( i==0 || level>mHighestMid ) mHighestMid=level;
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}
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}
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///////////////////////////////////////////////////////////////////////////////////////////////////
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public int traverseDownTable(int index, PruningTable[] tables, int tableIndex, int lastA, int lastR, int[] move, int[] tmpQuats)
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{
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int[] quats = getQuats(index);
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int numQuats = quats.length;
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move[0]=0;
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move[1]=0;
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move[2]=1;
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move[3]=1;
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for(int ax=0; ax<mNumAxis; ax++)
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for(int cubit=0; cubit<mNumCubits; cubit++)
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mRotRow[cubit][ax] = computeRow(mPosition[cubit],quats[cubit],ax);
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for(int s=0; s<mScalingFactor; s++)
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{
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int ax = move[0];
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int layer = move[1];
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int quat = move[3];
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if( mRotatable[ax][layer] && moveCanProceed(lastA,lastR,move[0],move[1]) )
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{
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int bitLayer = (1<<layer);
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System.arraycopy(quats, 0, tmpQuats, 0, numQuats);
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for(int cubit=0; cubit<mNumCubits; cubit++)
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if( mRotRow[cubit][ax]==bitLayer )
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{
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int currQuat = tmpQuats[cubit];
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int newQuat = getMultQuat(quat,currQuat);
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tmpQuats[cubit] = newQuat;
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}
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int childIndex = getIndex(tmpQuats);
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if( tableIndex>0 )
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{
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if( tables[tableIndex-1].contains(childIndex) ) return childIndex;
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}
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else if( !tables[0].contains(childIndex) )
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{
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if( tables.length<=1 || !tables[1].contains(childIndex) ) return childIndex;
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}
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}
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getNextAxisLayerAngleQuat(move);
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}
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return -1;
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}
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///////////////////////////////////////////////////////////////////////////////////////////////////
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private int traversePruningBlock(int[][] moves, PruningTable[] tables, int tableIndex, int index, int lastA, int lastR)
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{
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int movesIndex = 1;
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int[] move = moves[movesIndex];
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int[] tmpQuats = new int[4];
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do
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{
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index = traverseDownTable(index,tables,tableIndex,lastA,lastR,move,tmpQuats);
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lastA = move[0];
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lastR = move[1];
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tableIndex--;
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movesIndex++;
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move = moves[movesIndex];
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}
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while( tableIndex>=0 );
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return index;
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}
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///////////////////////////////////////////////////////////////////////////////////////////////////
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// ret: [0][] --> (new index,new depth,?,?) ; [1...N-1][] --> moves. (or null if index not in High)
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private int[][] traverseBlock(int index, PruningTable[] tables, int lastA, int lastR)
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{
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int num = (tables==null) ? 0 : tables.length;
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int tableIndex = -1;
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for( int i=0; i<num; i++ )
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if( tables[i].contains(index) )
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{
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tableIndex = i;
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break;
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}
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if( tableIndex<0 ) return null;
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int[][] ret = new int[tableIndex+2][4];
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ret[0][1] = tables[0].getLevel()-1;
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ret[0][0] = traversePruningBlock(ret,tables,tableIndex,index,lastA, lastR);
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return ret;
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}
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///////////////////////////////////////////////////////////////////////////////////////////////////
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private int midTablesContain(int index)
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{
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int num = mMidTables.length;
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for( int i=0; i<num; i++ )
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if( mMidTables[i].contains(index) )
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return i;
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return -1;
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}
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///////////////////////////////////////////////////////////////////////////////////////////////////
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private boolean jumpMidZeroRecursive(int index, int jump, int depth, int lastA, int lastR, int[][] solution)
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{
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int[] quats = getQuats(index);
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int numQuats = quats.length;
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int[] move = solution[depth];
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int[] tmp = new int[mNumCubits];
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move[0]=0;
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move[1]=0;
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move[2]=1;
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move[3]=1;
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for(int ax=0; ax<mNumAxis; ax++)
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for(int cubit=0; cubit<mNumCubits; cubit++)
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mRotRow[cubit][ax] = computeRow(mPosition[cubit],quats[cubit],ax);
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for(int s=0; s<mScalingFactor; s++)
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{
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int ax = move[0];
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int layer = move[1];
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int quat = move[3];
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if( mRotatable[ax][layer] && moveCanProceed(lastA,lastR,ax,layer) )
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{
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int bitLayer = (1<<layer);
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System.arraycopy(quats, 0, tmp, 0, numQuats);
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for(int cubit=0; cubit<mNumCubits; cubit++)
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if( mRotRow[cubit][ax]==bitLayer )
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{
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int currQuat = tmp[cubit];
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int newQuat = getMultQuat(quat,currQuat);
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tmp[cubit] = newQuat;
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}
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int childIndex = getIndex(tmp);
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if( childIndex==0 )
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{
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solution[0][0] = childIndex;
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solution[0][1] = 0;
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return true;
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}
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int containingTable = midTablesContain(childIndex);
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if( containingTable>=0 )
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{
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solution[0][0] = childIndex;
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solution[0][1] = mMidTables[containingTable].getLevel();
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return true;
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}
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if( jump>1 && jumpMidZeroRecursive(childIndex, jump-1, depth+1, ax, layer, solution) )
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{
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return true;
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}
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}
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338
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getNextAxisLayerAngleQuat(move);
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340
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}
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341
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return false;
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343
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}
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344
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345
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///////////////////////////////////////////////////////////////////////////////////////////////////
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346
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// ret: [0][] --> (?,old depth,?,?) ; [1...N-1][] --> moves.
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347
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348
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private int[][] jumpToMidOrZero(int index, int maxJump, int lastA, int lastR)
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{
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350
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int[][] solution = new int[maxJump+1][4];
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351
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for(int i=1; i<maxJump; i++)
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if( jumpMidZeroRecursive(index,i,1,lastA,lastR,solution) )
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return solution;
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355
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return null;
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}
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358
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359
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///////////////////////////////////////////////////////////////////////////////////////////////////
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360
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361
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private boolean jumpZeroRecursive(int index, int jump, int depth, int lastA, int lastR, int[][] solution)
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362
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{
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363
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int[] quats = getQuats(index);
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int numQuats = quats.length;
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365
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int[] move = solution[depth];
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int[] tmp = new int[mNumCubits];
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367
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368
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android.util.Log.e("D", "trying 0rec: index="+index);
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369
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move[0]=0;
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move[1]=0;
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move[2]=1;
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move[3]=1;
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374
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for(int ax=0; ax<mNumAxis; ax++)
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for(int cubit=0; cubit<mNumCubits; cubit++)
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mRotRow[cubit][ax] = computeRow(mPosition[cubit],quats[cubit],ax);
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378
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379
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for(int s=0; s<mScalingFactor; s++)
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380
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{
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381
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int ax = move[0];
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382
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int layer = move[1];
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383
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int quat = move[3];
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384
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385
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if( mRotatable[ax][layer] && moveCanProceed(lastA,lastR,move[0],move[1]) )
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386
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{
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387
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int bitLayer = (1<<layer);
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388
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System.arraycopy(quats, 0, tmp, 0, numQuats);
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389
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390
|
for(int cubit=0; cubit<mNumCubits; cubit++)
|
|
391
|
if( mRotRow[cubit][ax]==bitLayer )
|
|
392
|
{
|
|
393
|
int currQuat = tmp[cubit];
|
|
394
|
int newQuat = getMultQuat(quat,currQuat);
|
|
395
|
tmp[cubit] = newQuat;
|
|
396
|
}
|
|
397
|
|
|
398
|
int childIndex = getIndex(tmp);
|
|
399
|
if( childIndex==0 )
|
|
400
|
{
|
|
401
|
android.util.Log.e("D", "END: ax="+ax+" layer="+layer+" angle: "+move[2]);
|
|
402
|
return true;
|
|
403
|
}
|
|
404
|
if( jump>1 && jumpZeroRecursive(childIndex, jump-1, depth+1, ax, layer, solution) )
|
|
405
|
{
|
|
406
|
android.util.Log.e("D", "REC: ax="+ax+" layer="+layer+" angle: "+move[2]);
|
|
407
|
return true;
|
|
408
|
}
|
|
409
|
}
|
|
410
|
|
|
411
|
getNextAxisLayerAngleQuat(move);
|
|
412
|
}
|
|
413
|
|
|
414
|
return false;
|
|
415
|
}
|
|
416
|
|
|
417
|
///////////////////////////////////////////////////////////////////////////////////////////////////
|
|
418
|
// ret: [0][] --> (?,old depth,?,?) ; [1...N-1][] --> moves.
|
|
419
|
|
|
420
|
private int[][] jumpToZero(int index, int maxJump, int lastA, int lastR)
|
|
421
|
{
|
|
422
|
int[][] solution = new int[maxJump+1][4];
|
|
423
|
|
|
424
|
for(int i=1; i<maxJump; i++)
|
|
425
|
if( jumpZeroRecursive(index,i,1,lastA,lastR,solution) )
|
|
426
|
return solution;
|
|
427
|
|
|
428
|
return null;
|
|
429
|
}
|
|
430
|
|
|
431
|
///////////////////////////////////////////////////////////////////////////////////////////////////
|
|
432
|
|
|
433
|
private int[][] concatenateMoves(int[][] high, int[][] jump1, int[][] mid, int[][] jump2)
|
|
434
|
{
|
|
435
|
int len1 = high ==null ? 0 : high.length-1;
|
|
436
|
int len2 = jump1==null ? 0 : jump1[0][1];
|
|
437
|
int len3 = mid ==null ? 0 : mid.length-1;
|
|
438
|
int len4 = jump2==null ? 0 : jump2[0][1];
|
|
439
|
|
|
440
|
int[][] moves = new int[len1+len2+len3+len4][];
|
|
441
|
int index = 0;
|
|
442
|
|
|
443
|
for(int i=0; i<len1; i++) moves[index++] = high[i+1];
|
|
444
|
for(int i=0; i<len2; i++) moves[index++] = jump1[i+1];
|
|
445
|
for(int i=0; i<len3; i++) moves[index++] = mid[i+1];
|
|
446
|
for(int i=0; i<len4; i++) moves[index++] = jump2[i+1];
|
|
447
|
|
|
448
|
convertMoves(moves);
|
|
449
|
|
|
450
|
return moves;
|
|
451
|
}
|
|
452
|
|
|
453
|
///////////////////////////////////////////////////////////////////////////////////////////////////
|
|
454
|
|
|
455
|
public int[][] solution(int index, int[] extra)
|
|
456
|
{
|
|
457
|
if( index==0 ) return null;
|
|
458
|
int lastA=-1, lastR=0;
|
|
459
|
int[][] highMoves = traverseBlock(index,mHighTables,lastA,lastR);
|
|
460
|
|
|
461
|
if( highMoves!=null )
|
|
462
|
{
|
|
463
|
index = highMoves[0][0];
|
|
464
|
int len = highMoves.length;
|
|
465
|
lastA = highMoves[len-1][0];
|
|
466
|
lastR = highMoves[len-1][1];
|
|
467
|
}
|
|
468
|
|
|
469
|
int maxJump = Math.max(mLowestHigh-1-mHighestMid,mLowestMid/2);
|
|
470
|
int[][] jump1Moves = jumpToMidOrZero(index,maxJump,lastA,lastR);
|
|
471
|
|
|
472
|
if( jump1Moves!=null )
|
|
473
|
{
|
|
474
|
if( jump1Moves[0][0]==0 )
|
|
475
|
{
|
|
476
|
return concatenateMoves(null,null,null,jump1Moves);
|
|
477
|
}
|
|
478
|
if( jump1Moves[0][1]==mLowestMid )
|
|
479
|
{
|
|
480
|
int[][] jump2Moves = jumpToZero(index,mLowestMid-1,-1,0);
|
|
481
|
if( jump2Moves==null ) throw new RuntimeException("1 error jumping to 0");
|
|
482
|
return concatenateMoves(null,null,null,jump2Moves);
|
|
483
|
}
|
|
484
|
|
|
485
|
index = jump1Moves[0][0];
|
|
486
|
int len = jump1Moves.length;
|
|
487
|
lastA = jump1Moves[len-1][0];
|
|
488
|
lastR = jump1Moves[len-1][1];
|
|
489
|
}
|
|
490
|
|
|
491
|
int[][] midMoves = traverseBlock(index,mMidTables,lastA,lastR);
|
|
492
|
if( midMoves!=null )
|
|
493
|
{
|
|
494
|
index = midMoves[0][0];
|
|
495
|
int len = midMoves.length;
|
|
496
|
lastA = midMoves[len-1][0];
|
|
497
|
lastR = midMoves[len-1][1];
|
|
498
|
}
|
|
499
|
else throw new RuntimeException("error traversing mid Tables");
|
|
500
|
|
|
501
|
int[][] jump2Moves = jumpToZero(index,mLowestMid-1,lastA,lastR);
|
|
502
|
if( jump2Moves==null ) throw new RuntimeException("2 error jumping to 0");
|
|
503
|
return concatenateMoves(highMoves,jump1Moves,midMoves,jump2Moves);
|
|
504
|
}
|
|
505
|
}
|