/src/main/java/org/distorted/objectlib/objects/TwistySkewb.java - TwistyPuzzleLib - Distorted Android

distorted-objectlib / src / main / java / org / distorted / objectlib / objects / TwistySkewb.java @ 2dffaf22

       ///////////////////////////////////////////////////////////////////////////////////////////////////
       // Copyright 2020 Leszek Koltunski                                                               //
       //                                                                                               //
       // This file is part of Magic Cube.                                                              //
       //                                                                                               //
       // Magic Cube is proprietary software licensed under an EULA which you should have received      //
       // along with the code. If not, check https://distorted.org/magic/License-Magic-Cube.html        //
       ///////////////////////////////////////////////////////////////////////////////////////////////////
       package org.distorted.objectlib.objects;
       import static org.distorted.objectlib.touchcontrol.TouchControl.TC_HEXAHEDRON;
       import static org.distorted.objectlib.touchcontrol.TouchControl.TYPE_SPLIT_CORNER;
       import java.io.InputStream;
       import org.distorted.library.type.Static3D;
       import org.distorted.library.type.Static4D;
       import org.distorted.objectlib.helpers.FactoryCubit;
       import org.distorted.objectlib.helpers.ObjectFaceShape;
       import org.distorted.objectlib.helpers.ObjectSignature;
       import org.distorted.objectlib.helpers.ObjectVertexEffects;
       import org.distorted.objectlib.main.ObjectSignatures;
       import org.distorted.objectlib.scrambling.ScrambleEdgeGenerator;
       import org.distorted.objectlib.main.InitData;
       import org.distorted.objectlib.touchcontrol.TouchControlHexahedron;
       import org.distorted.objectlib.main.ObjectType;
       import org.distorted.objectlib.helpers.ObjectShape;
       import org.distorted.objectlib.shape.ShapeHexahedron;
       ///////////////////////////////////////////////////////////////////////////////////////////////////
       public class TwistySkewb extends ShapeHexahedron
+      {
         static final Static3D[] ROT_AXIS = new Static3D[]
+               {
                  new Static3D( SQ3/3, SQ3/3, SQ3/3),
                  new Static3D( SQ3/3, SQ3/3,-SQ3/3),
                  new Static3D( SQ3/3,-SQ3/3, SQ3/3),
                  new Static3D( SQ3/3,-SQ3/3,-SQ3/3)
                };
         private int[][] mEdges;
         private int[][] mBasicAngle;
         private float[][] mCuts;
         private float[][] mPositions;
       ///////////////////////////////////////////////////////////////////////////////////////////////////
         public TwistySkewb(InitData data, int meshState, int iconMode, Static4D quat, Static3D move, float scale, InputStream stream)
+          {
           super(data, meshState, iconMode, 2*data.getNumLayers()[0]-2, quat, move, scale, stream);
+          }
       ///////////////////////////////////////////////////////////////////////////////////////////////////
         public int[][] getScrambleEdges()
+          {
           if( mEdges==null ) mEdges = ScrambleEdgeGenerator.getScrambleEdgesSingle(mBasicAngle);
           return mEdges;
+          }
       ///////////////////////////////////////////////////////////////////////////////////////////////////
         private int getNumCorners()
+          {
           return 8;
+          }
       ///////////////////////////////////////////////////////////////////////////////////////////////////
         private int getNumEdges(int numLayers)
+          {
           return (numLayers-2)*12;
+          }
       ///////////////////////////////////////////////////////////////////////////////////////////////////
         private int getNumCentersPerFace(int numLayers)
+          {
           return ((numLayers-2)*(numLayers-2) + (numLayers-1)*(numLayers-1));
+          }
       ///////////////////////////////////////////////////////////////////////////////////////////////////
         public float[][] getCuts(int[] numLayers)
+          {
           if( mCuts==null )
+            {
             float[] c = numLayers[0]==2 ? (new float[] {0.0f}) : (new float[] {-SQ3/6, SQ3/6});
             mCuts = new float[][] {c,c,c,c};
+            }
           return mCuts;
+          }
       ///////////////////////////////////////////////////////////////////////////////////////////////////
         public boolean[][] getLayerRotatable(int[] numLayers)
+          {
           boolean[] tmp = numLayers[0]==2 ? (new boolean[] {true,true}) : (new boolean[] {true,false,true});
           return new boolean[][] { tmp,tmp,tmp,tmp };
+          }
       ///////////////////////////////////////////////////////////////////////////////////////////////////
         public int getTouchControlType()
+          {
           return TC_HEXAHEDRON;
+          }
       ///////////////////////////////////////////////////////////////////////////////////////////////////
         public int getTouchControlSplit()
+          {
           return TYPE_SPLIT_CORNER;
+          }
       ///////////////////////////////////////////////////////////////////////////////////////////////////
         public int[][][] getEnabled()
+          {
           return new int[][][]
+            {
                 {{0,1},{3,1},{2,3},{0,2}},
                 {{2,3},{3,1},{0,1},{0,2}},
                 {{1,2},{0,1},{0,3},{2,3}},
                 {{1,2},{2,3},{0,3},{0,1}},
                 {{0,3},{0,2},{1,2},{1,3}},
                 {{1,2},{0,2},{0,3},{1,3}},
             };
+          }
       ///////////////////////////////////////////////////////////////////////////////////////////////////
         public float[] getDist3D(int[] numLayers)
+          {
           return TouchControlHexahedron.D3D;
+          }
       ///////////////////////////////////////////////////////////////////////////////////////////////////
         public Static3D[] getFaceAxis()
+          {
           return TouchControlHexahedron.FACE_AXIS;
+          }
       ///////////////////////////////////////////////////////////////////////////////////////////////////
         public float[][] getCubitPositions(int[] numLayers)
+          {
           if( mPositions==null )
+            {
             int numL = numLayers[0];
             final float DIST_CORNER = numL-1;
             final float DIST_EDGE   = numL-1;
             final float DIST_CENTER = numL-1;
             final int numCorners = getNumCorners();
             final int numEdges   = getNumEdges(numL);
             final int numCenters = 6*getNumCentersPerFace(numL);
             mPositions = new float[numCorners+numEdges+numCenters][];
             /// CORNERS //////////////////////////////////////////////
             mPositions[0] = new float[] { DIST_CORNER, DIST_CORNER, DIST_CORNER };
             mPositions[1] = new float[] { DIST_CORNER, DIST_CORNER,-DIST_CORNER };
             mPositions[2] = new float[] { DIST_CORNER,-DIST_CORNER, DIST_CORNER };
             mPositions[3] = new float[] { DIST_CORNER,-DIST_CORNER,-DIST_CORNER };
             mPositions[4] = new float[] {-DIST_CORNER, DIST_CORNER, DIST_CORNER };
             mPositions[5] = new float[] {-DIST_CORNER, DIST_CORNER,-DIST_CORNER };
             mPositions[6] = new float[] {-DIST_CORNER,-DIST_CORNER, DIST_CORNER };
             mPositions[7] = new float[] {-DIST_CORNER,-DIST_CORNER,-DIST_CORNER };
             /// CENTERS //////////////////////////////////////////////
             int index=8;
             final float X= -1000.0f;
             final float Y= -1001.0f;
             final float[][]  centerTable =
+              {
                   {X,Y,+DIST_CENTER},
                   {X,Y,-DIST_CENTER},
                   {X,+DIST_CENTER,Y},
                   {X,-DIST_CENTER,Y},
                   {+DIST_CENTER,X,Y},
                   {-DIST_CENTER,X,Y},
               };
             float x,y, cen0, cen1, cen2;
             for( float[] centers : centerTable )
+              {
               x = 2-numL;
               for(int i=0; i<numL-1; i++, x+=2)
+                {
                 y = 2-numL;
                 for(int j=0; j<numL-1; j++, y+=2, index++)
+                  {
                        if( centers[0]==Y ) cen0 = y;
                   else if( centers[0]==X ) cen0 = x;
                   else                     cen0 = centers[0];
                        if( centers[1]==Y ) cen1 = y;
                   else if( centers[1]==X ) cen1 = x;
                   else                     cen1 = centers[1];
                        if( centers[2]==Y ) cen2 = y;
                   else if( centers[2]==X ) cen2 = x;
                   else                     cen2 = centers[2];
                   mPositions[index] = new float[] {cen0,cen1,cen2};
+                  }
+                }
               x = 3-numL;
               for(int i=0; i<numL-2; i++, x+=2)
+                {
                 y = 3-numL;
                 for(int j=0; j<numL-2; j++, y+=2, index++)
+                  {
                        if( centers[0]==Y ) cen0 = y;
                   else if( centers[0]==X ) cen0 = x;
                   else                     cen0 = centers[0];
                        if( centers[1]==Y ) cen1 = y;
                   else if( centers[1]==X ) cen1 = x;
                   else                     cen1 = centers[1];
                        if( centers[2]==Y ) cen2 = y;
                   else if( centers[2]==X ) cen2 = x;
                   else                     cen2 = centers[2];
                   mPositions[index] = new float[] {cen0,cen1,cen2};
+                  }
+                }
+              }
             /// EDGES ///////////////////////////////////////////////
             final float[][]  edgeTable =
+              {
                   {0,+DIST_EDGE,+DIST_EDGE},
                   {+DIST_EDGE,0,+DIST_EDGE},
                   {0,-DIST_EDGE,+DIST_EDGE},
                   {-DIST_EDGE,0,+DIST_EDGE},
                   {+DIST_EDGE,+DIST_EDGE,0},
                   {+DIST_EDGE,-DIST_EDGE,0},
                   {-DIST_EDGE,-DIST_EDGE,0},
                   {-DIST_EDGE,+DIST_EDGE,0},
                   {0,+DIST_EDGE,-DIST_EDGE},
                   {+DIST_EDGE,0,-DIST_EDGE},
                   {0,-DIST_EDGE,-DIST_EDGE},
                   {-DIST_EDGE,0,-DIST_EDGE}
               };
             for (float[] edges : edgeTable)
+              {
               float c = 3-numL;
               for (int j=0; j<numL-2; j++, c+=2, index++)
+                {
                 mPositions[index] = new float[] { edges[0]==0 ? c : edges[0] ,
                                                   edges[1]==0 ? c : edges[1] ,
                                                   edges[2]==0 ? c : edges[2] };
+                }
+              }
+            }
           return mPositions;
+          }
       ///////////////////////////////////////////////////////////////////////////////////////////////////
         public Static4D getCubitQuats(int cubit, int[] numLayers)
+          {
           int numL = numLayers[0];
           int numCorners = getNumCorners();
           int numCentersPerFace = getNumCentersPerFace(numL);
           int numCenters = 6*numCentersPerFace;
           if( cubit<numCorners )
+            {
             switch(cubit)
+              {
               case  0: return mObjectQuats[0];                   //  unit quat
               case  1: return new Static4D( SQ2/2,0,0,SQ2/2);    //  90 along X
               case  2: return new Static4D(-SQ2/2,0,0,SQ2/2);    // -90 along X
               case  3: return mObjectQuats[9];                   // 180 along X
               case  4: return new Static4D(0, SQ2/2,0,SQ2/2);    //  90 along Y
               case  5: return mObjectQuats[11];                  // 180 along Y
               case  6: return mObjectQuats[10];                  // 180 along Z
               case  7: return new Static4D(SQ2/2,0,-SQ2/2,0);    // 180 along (SQ2/2,0,-SQ2/2)
+              }
+            }
           else if( cubit<numCorners+numCenters )
+            {
             int center = (cubit-numCorners)/numCentersPerFace;
             switch(center)
+              {
               case 0: return mObjectQuats[0];
               case 1: return mObjectQuats[9];
               case 2: return mObjectQuats[1];
               case 3: return mObjectQuats[4];
               case 4: return mObjectQuats[2];
               case 5: return mObjectQuats[3];
+              }
+            }
           else
+            {
             int edge = (cubit-numCorners-numCenters)/(numL-2);
             switch(edge)
+              {
               case  0: return mObjectQuats[ 0];
               case  1: return mObjectQuats[ 2];
               case  2: return mObjectQuats[10];
               case  3: return mObjectQuats[ 8];
               case  4: return mObjectQuats[ 1];
               case  5: return mObjectQuats[ 4];
               case  6: return mObjectQuats[ 6];
               case  7: return mObjectQuats[ 7];
               case  8: return mObjectQuats[11];
               case  9: return mObjectQuats[ 5];
               case 10: return mObjectQuats[ 9];
               case 11: return mObjectQuats[ 3];
+              }
+            }
           return null;
+          }
       ///////////////////////////////////////////////////////////////////////////////////////////////////
         private float[][] getVertices(int variant)
+          {
           if( variant==0 )
+            {
             return new float[][] { {-1,0,0},{0,-1,0},{0,0,-1},{-1,-1,-1},{0,0,0} };
+            }
           else if( variant==1 )
+            {
             return new float[][] { {-1,0,0},{0,-1,0},{1,0,0},{0,1,0},{0,0,-1} };
+            }
           else
+            {
             return new float[][] { {-1,0,0},{1,0,0},{0,-1,0},{0,0,-1} };
+            }
+          }
       ///////////////////////////////////////////////////////////////////////////////////////////////////
         public ObjectShape getObjectShape(int variant)
+          {
           if( variant==0 )
+            {
             int[][] indices = { {0,1,4},{2,0,4},{1,2,4},{3,1,0},{3,2,1},{3,0,2} };
             return new ObjectShape(getVertices(variant), indices);
+            }
           else if( variant==1 )
+            {
             int[][] indices = { {0,1,2,3},{4,1,0},{4,2,1},{4,3,2},{4,0,3} };
             return new ObjectShape(getVertices(variant), indices);
+            }
           else
+            {
             int[][] indices = { {2,1,0},{3,0,1},{2,3,1},{3,2,0} };
             return new ObjectShape(getVertices(variant), indices);
+            }
+          }
       ///////////////////////////////////////////////////////////////////////////////////////////////////
         public ObjectFaceShape getObjectFaceShape(int variant)
+          {
           int numL = getNumLayers()[0];
           if( variant==0 )
+            {
             int N = numL==2 ? 7:5;
             int E1= numL==2 ? 3:2;
             int E2= numL==2 ? 5:3;
             float height = isInIconMode() ? 0.001f : 0.02f;
             float[][] bands = { {height,35,0.16f,0.7f,N,E1,E1}, {0.001f, 35,1.00f,0.0f,3,1,E2} };
             int[] indices   = { 0,0,0,1,1,1 };
             return new ObjectFaceShape(bands,indices,null);
+            }
           else if( variant==1 )
+            {
             int N = numL==2 ? 7:6;
             int E = numL==2 ? 3:1;
             float height = isInIconMode() ? 0.001f : 0.04f;
             float[][] bands = { {height,35,SQ2/8,0.9f,N,E,E}, {0.001f,35,1,0.0f,3,0,0} };
             int[] indices   = { 0,1,1,1,1 };
             return new ObjectFaceShape(bands,indices,null);
+            }
           else
+            {
             int N = numL==2 ? 7:5;
             int E = numL==2 ? 5:2;
             float h1 = isInIconMode() ? 0.001f : 0.035f;
             float h2 = isInIconMode() ? 0.001f : 0.020f;
             float[][] bands = { {h1,30,0.16f,0.8f,N,2,E}, {h2,45,0.16f,0.2f,3,1,2} };
             int[] indices   = { 0,0,1,1 };
             return new ObjectFaceShape(bands,indices,null);
+            }
+          }
       ///////////////////////////////////////////////////////////////////////////////////////////////////
         public ObjectVertexEffects getVertexEffects(int variant)
+          {
           if( variant==0 )
+            {
             float[][] corners   = { {0.05f,0.25f}, {0.05f,0.20f} };
             int[] cornerIndices = { 1,1,1,0,0 };
             float[][] centers   = { {-0.5f, -0.5f, -0.5f} };
             int[] centerIndices = { 0,0,0,-1,0 };
              return FactoryCubit.generateVertexEffect(getVertices(variant),corners,cornerIndices,centers,centerIndices);
+            }
           else if( variant==1 )
+            {
             float[][] corners   = { {0.06f,0.15f} };
             int[] cornerIndices = { 0,0,0,0,0 };
             float[][] centers   = { {0,0,-0.4f} };
             int[] centerIndices = { 0,0,0,0,-1 };
              return FactoryCubit.generateVertexEffect(getVertices(variant),corners,cornerIndices,centers,centerIndices);
+            }
           else
+            {
             float[][] corners   = { {0.07f,0.20f}, {0.02f,0.30f} };
             int[] cornerIndices = { 0,0,1,1 };
             float[][] centers   = { {0.0f, -0.5f, -0.5f} };
             int[] centerIndices = { 0,0,0,0 };
             return FactoryCubit.generateVertexEffect(getVertices(variant),corners,cornerIndices,centers,centerIndices);
+            }
+          }
       ///////////////////////////////////////////////////////////////////////////////////////////////////
         public int getNumCubitVariants(int[] numLayers)
+          {
           return numLayers[0]==2 ? 2:3;
+          }
       ///////////////////////////////////////////////////////////////////////////////////////////////////
         public int getCubitVariant(int cubit, int[] numLayers)
+          {
           return cubit<8 ? 0 : (cubit<8+6*getNumCentersPerFace(numLayers[0]) ? 1:2);
+          }
       ///////////////////////////////////////////////////////////////////////////////////////////////////
         public float getStickerRadius()
+          {
           return 0.08f;
+          }
       ///////////////////////////////////////////////////////////////////////////////////////////////////
         public float getStickerStroke()
+          {
           float stroke = 0.08f;
           if( isInIconMode() )
+            {
             int[] numLayers = getNumLayers();
             stroke *= (numLayers[0]==2 ? 2.0f : 2.7f);
+            }
           return stroke;
+          }
       ///////////////////////////////////////////////////////////////////////////////////////////////////
         public float[][] getStickerAngles()
+          {
           return null;
+          }
       ///////////////////////////////////////////////////////////////////////////////////////////////////
       // PUBLIC API
         public Static3D[] getRotationAxis()
+          {
           return ROT_AXIS;
+          }
       ///////////////////////////////////////////////////////////////////////////////////////////////////
         public int[][] getBasicAngles()
+          {
           if( mBasicAngle ==null )
+            {
             int num = getNumLayers()[0];
             int[] tmp = new int[num];
             for(int i=0; i<num; i++) tmp[i] = 3;
             mBasicAngle = new int[][] { tmp,tmp,tmp,tmp };
+            }
           return mBasicAngle;
+          }
       ///////////////////////////////////////////////////////////////////////////////////////////////////
         public String getShortName()
+          {
           switch(getNumLayers()[0])
+            {
             case 2: return ObjectType.SKEW_2.name();
             case 3: return ObjectType.SKEW_3.name();
+            }
           return ObjectType.SKEW_2.name();
+          }
       ///////////////////////////////////////////////////////////////////////////////////////////////////
         public ObjectSignature getSignature()
+          {
           switch(getNumLayers()[0])
+            {
             case 2: return new ObjectSignature(ObjectSignatures.SKEW_2);
             case 3: return new ObjectSignature(ObjectSignatures.SKEW_3);
+            }
           return null;
+          }
       ///////////////////////////////////////////////////////////////////////////////////////////////////
         public String getObjectName()
+          {
           switch(getNumLayers()[0])
+            {
             case 2: return "Skewb";
             case 3: return "Master Skewb";
+            }
           return null;
+          }
       ///////////////////////////////////////////////////////////////////////////////////////////////////
         public String getInventor()
+          {
           switch(getNumLayers()[0])
+            {
             case 2: return "Tony Durham";
             case 3: return "Katsuhiko Okamoto";
+            }
           return null;
+          }
       ///////////////////////////////////////////////////////////////////////////////////////////////////
         public int getYearOfInvention()
+          {
           switch(getNumLayers()[0])
+            {
             case 2: return 1982;
             case 3: return 2003;
+            }
           return 1982;
+          }
       ///////////////////////////////////////////////////////////////////////////////////////////////////
         public int getComplexity()
+          {
           switch(getNumLayers()[0])
+            {
             case 2: return 1;
             case 3: return 3;
+            }
           return 5;
+          }
       ///////////////////////////////////////////////////////////////////////////////////////////////////
         public String[][] getTutorials()
+          {
           int[] numLayers = getNumLayers();
           switch(numLayers[0])
+            {
             case 2: return new String[][] {
                                 {"gb","I6132yshkeU","How to Solve the Skewb","Z3"},
                                 {"es","wxQX3HhPgds","Resolver Skewb (Principiantes)","Cuby"},
                                 {"ru","EICw3aqn6Bc","Как собрать Скьюб?","Алексей Ярыгин"},
                                 {"fr","lR-GuIroh4k","Comment réussir le skewb","Rachma Nikov"},
                                 {"de","7RX6D5pznOk","Skewb lösen","Pezcraft"},
                                 {"pl","ofRu1fByNpk","Jak ułożyć: Skewb","DżoDżo"},
                                 {"br","mNycauwshWs","Como resolver o Skewb","Pedro Filho"},
                                 {"kr","5R3sU-_bMAI","SKEWB 초보 공식","iamzoone"},
                                 {"vn","Db5mXuqgQP8","Tutorial N.5 - Skewb","Duy Thích Rubik"},
                            //   {"tw","8srf9xhsS9k","Skewb斜轉方塊解法","1hrBLD"},
                                };
             case 3: return new String[][] {
                                 {"gb","Jiuf7zQyPYI","Master Skewb Cube Tutorial","Bearded Cubing"},
                                 {"es","8TP6p63KQCA","Master Skewb en Español","jorlozCubes"},
                                 {"ru","7155QSp3T74","часть 1: Как собрать мастер Скьюб","Иван Циков"},
                                 {"ru","14ey-RihjgY","часть 2: Как собрать мастер Скьюб","Иван Циков"},
                                 {"ru","watq6TLa5_E","часть 2.5: Как собрать мастер Скьюб","Иван Циков"},
                                 {"ru","UnsvseFBXmo","часть 3: Как собрать мастер Скьюб","Иван Циков"},
                                 {"fr","tYMoY4EOHVA","Résolution du Master Skewb","Asthalis"},
                                 {"de","LSErzqGNElI","Master Skewb lösen","JamesKnopf"},
                                 {"pl","Y7l3AYFvDJI","Master Skewb TUTORIAL PL","MrUk"},
                                 {"kr","ycR-WmXJCG0","마스터 스큐브 3번째 해법","듀나메스 큐브 해법연구소"},
                                 {"vn","uG8H0ZQTZgw","Tutorial N.35 - Master Skewb","Duy Thích Rubik"},
                                };
+            }
           return null;
+          }
+      }

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distorted-objectlib / src / main / java / org / distorted / objectlib / objects / TwistySkewb.java @ 2dffaf22