/src/main/java/org/distorted/objects/TwistyMegaminx.java - Annotate - Magic Cube - Distorted Android

magiccube / src / main / java / org / distorted / objects / TwistyMegaminx.java @ bbbfb6af

1	a64e07d0	Leszek Koltunski	///////////////////////////////////////////////////////////////////////////////////////////////////
2			// Copyright 2020 Leszek Koltunski //
3			// //
4			// This file is part of Magic Cube. //
5			// //
6			// Magic Cube is free software: you can redistribute it and/or modify //
7			// it under the terms of the GNU General Public License as published by //
8			// the Free Software Foundation, either version 2 of the License, or //
9			// (at your option) any later version. //
10			// //
11			// Magic Cube is distributed in the hope that it will be useful, //
12			// but WITHOUT ANY WARRANTY; without even the implied warranty of //
13			// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the //
14			// GNU General Public License for more details. //
15			// //
16			// You should have received a copy of the GNU General Public License //
17			// along with Magic Cube. If not, see <http://www.gnu.org/licenses/>. //
18			///////////////////////////////////////////////////////////////////////////////////////////////////
19
20			package org.distorted.objects;
21
22			import android.content.res.Resources;
23
24	8e4a3670	Leszek Koltunski	import org.distorted.helpers.ObjectShape;
25	9c06394a	Leszek Koltunski	import org.distorted.helpers.ObjectSticker;
26	b9d4aa3b	Leszek Koltunski	import org.distorted.helpers.QuatHelper;
27	a64e07d0	Leszek Koltunski	import org.distorted.library.main.DistortedEffects;
28			import org.distorted.library.main.DistortedTexture;
29			import org.distorted.library.mesh.MeshSquare;
30			import org.distorted.library.type.Static4D;
31			import org.distorted.main.R;
32
33			///////////////////////////////////////////////////////////////////////////////////////////////////
34
35			public class TwistyMegaminx extends TwistyMinx
36			{
37	e4bf4d02	Leszek Koltunski	static final float MEGA_D = 0.04f;
38	a64e07d0	Leszek Koltunski
39	e4bf4d02	Leszek Koltunski	private static final int[] QUAT_CENTER_INDICES =
40			{
41			16, 18, 22, 1, 20, 13, 14, 15, 0, 12, 2, 3
42			};
43
44	bb11be2a	Leszek Koltunski	private static final float[][] STICKERS = new float[][]
45			{
46			{ -0.36327127f, -0.5f, 0.36327127f, -0.26393202f, 0.36327127f, 0.5f, -0.36327127f, 0.26393202f },
47			{ -0.5f, -0.0914315f, 0.5f, -0.4163512f, 0.5f, 0.4163512f, -0.5f, 0.0914315f },
48			{ -0.49233657f, -0.18006028f, 0.49233657f, -0.5f, 0.49233657f, 0.5f, -0.49233657f, 0.18006028f },
49			{ -0.3002273f, -0.30490047f, 0.3002273f, -0.5f, 0.3002273f, 0.5f, -0.3002273f, 0.30490047f },
50			{ -0.29389262f, 0.4045085f, -0.47552824f, -0.1545085f, 0.0f, -0.5f, 0.47552824f, -0.1545085f, 0.29389262f, 0.4045085f }
51			};
52
53	9c06394a	Leszek Koltunski	private static final ObjectSticker[] mStickers;
54			static
55			{
56			mStickers = new ObjectSticker[STICKERS.length];
57
58			final float R0 = 0.08f;
59			final float R1 = 0.12f;
60			final float R2 = 0.12f;
61			final float R3 = 0.08f;
62			final float R4 = 0.10f;
63			final float[][] radii = { {R0,R0,R0,R0},{R1,R1,R1,R1},{R2,R2,R2,R2},{R3,R3,R3,R3},{R4,R4,R4,R4,R4} };
64			final float[] strokes = { 0.10f,0.12f,0.12f,0.08f,0.07f };
65
66			for(int s=0; s<STICKERS.length; s++)
67			{
68			mStickers[s] = new ObjectSticker(STICKERS[s],null,radii[s],strokes[s]);
69			}
70			}
71
72	a64e07d0	Leszek Koltunski	///////////////////////////////////////////////////////////////////////////////////////////////////
73
74			TwistyMegaminx(int size, Static4D quat, DistortedTexture texture, MeshSquare mesh,
75			DistortedEffects effects, int[][] moves, Resources res, int scrWidth)
76			{
77			super(size, size, quat, texture, mesh, effects, moves, ObjectList.MEGA, res, scrWidth);
78			}
79
80			///////////////////////////////////////////////////////////////////////////////////////////////////
81
82			private int numCubitsPerCorner(int numLayers)
83			{
84			return 3((numLayers-1)/2)((numLayers-3)/2) + 1;
85			}
86
87			///////////////////////////////////////////////////////////////////////////////////////////////////
88
89			private int numCubitsPerEdge(int numLayers)
90			{
91			return numLayers-2;
92			}
93
94	ab210d63	Leszek Koltunski	///////////////////////////////////////////////////////////////////////////////////////////////////
95
96			float getScreenRatio()
97			{
98			return 1.07f;
99			}
100
101	a64e07d0	Leszek Koltunski	///////////////////////////////////////////////////////////////////////////////////////////////////
102
103			int getNumStickerTypes(int numLayers)
104			{
105	e4bf4d02	Leszek Koltunski	return (numLayers+3)/2;
106	a64e07d0	Leszek Koltunski	}
107
108			///////////////////////////////////////////////////////////////////////////////////////////////////
109
110	e6734aa9	Leszek Koltunski	float[][] getCuts(int numLayers)
111	a64e07d0	Leszek Koltunski	{
112	e6734aa9	Leszek Koltunski	float[][] cuts = new float[6][numLayers-1];
113	ede1b68c	Leszek Koltunski	float D = numLayers*MovementMinx.DIST3D;
114	bb11be2a	Leszek Koltunski	float E = 2*SIN54;
115	a64e07d0	Leszek Koltunski	float X = 2DE/(1+2*E); // height of the 'upper' part of a dodecahedron, i.e. put it on a table,
116	ede1b68c	Leszek Koltunski	// its height is then D2DIST3D, it has one 'lower' part of height X, one
117	a64e07d0	Leszek Koltunski	// 'middle' part of height Y and one upper part of height X again.
118			// It's edge length = numLayers/3.0f.
119			int num = (numLayers-1)/2;
120			float G = X*(0.5f-MEGA_D)/num; // height of one Layer
121
122			for(int i=0; i<num; i++)
123			{
124	e6734aa9	Leszek Koltunski	float cut = -D + (i+0.5f)*G;
125			int j = 2*num-1-i;
126			cuts[0][i] = +cut;
127			cuts[0][j] = -cut;
128			cuts[1][i] = +cut;
129			cuts[1][j] = -cut;
130			cuts[2][i] = +cut;
131			cuts[2][j] = -cut;
132			cuts[3][i] = +cut;
133			cuts[3][j] = -cut;
134			cuts[4][i] = +cut;
135			cuts[4][j] = -cut;
136			cuts[5][i] = +cut;
137			cuts[5][j] = -cut;
138	a64e07d0	Leszek Koltunski	}
139
140			return cuts;
141			}
142
143			///////////////////////////////////////////////////////////////////////////////////////////////////
144
145	e6cf7283	Leszek Koltunski	private float[] computeCenter(int center, int numLayers)
146	a64e07d0	Leszek Koltunski	{
147	d38f1397	Leszek Koltunski	float[] coords = mCenterCoords[center];
148	e4bf4d02	Leszek Koltunski	float A = numLayers/3.0f;
149
150	e6cf7283	Leszek Koltunski	return new float[] { Acoords[0], Acoords[1], A*coords[2] };
151	a64e07d0	Leszek Koltunski	}
152
153			///////////////////////////////////////////////////////////////////////////////////////////////////
154	d38f1397	Leszek Koltunski	// Fill out mCurrCorner{X,Y,Z} by applying appropriate Quat to mBasicCorner{X,Y,Z}
155	a64e07d0	Leszek Koltunski	// Appropriate one: QUATS[QUAT_INDICES[corner]].
156
157	d38f1397	Leszek Koltunski	private void computeBasicCornerVectors(int corner)
158	a64e07d0	Leszek Koltunski	{
159	d38f1397	Leszek Koltunski	Static4D quat = QUATS[QUAT_CORNER_INDICES[corner]];
160	a64e07d0	Leszek Koltunski
161	b9d4aa3b	Leszek Koltunski	mCurrCornerV[0] = QuatHelper.rotateVectorByQuat(mBasicCornerV[0],quat);
162			mCurrCornerV[1] = QuatHelper.rotateVectorByQuat(mBasicCornerV[1],quat);
163			mCurrCornerV[2] = QuatHelper.rotateVectorByQuat(mBasicCornerV[2],quat);
164	a64e07d0	Leszek Koltunski	}
165
166			///////////////////////////////////////////////////////////////////////////////////////////////////
167
168	e6cf7283	Leszek Koltunski	private float[] computeCorner(int numCubitsPerCorner, int numLayers, int corner, int part)
169	a64e07d0	Leszek Koltunski	{
170			float D = numLayers/3.0f;
171	e6cf7283	Leszek Koltunski	float[] corn = CORNERS[corner];
172	a64e07d0	Leszek Koltunski
173			if( part==0 )
174			{
175	e6cf7283	Leszek Koltunski	return new float[] { corn[0]D, corn[1]D, corn[2]*D };
176	a64e07d0	Leszek Koltunski	}
177			else
178			{
179	ead91342	Leszek Koltunski	float E = 2.0fD(0.5f-MEGA_D)/(0.5f*(numLayers-1));
180	a64e07d0	Leszek Koltunski	int N = (numCubitsPerCorner-1)/3;
181	6e7146df	Leszek Koltunski	int block = (part-1) % N;
182			int index = (part-1) / N;
183	d38f1397	Leszek Koltunski	Static4D pri = mCurrCornerV[index];
184			Static4D sec = mCurrCornerV[(index+2)%3];
185	a64e07d0	Leszek Koltunski
186	7764a67a	Leszek Koltunski	int layers= (numLayers-3)/2;
187	ead91342	Leszek Koltunski	int multP = (block % layers) + 1;
188			int multS = (block / layers);
189	a64e07d0	Leszek Koltunski
190	e6cf7283	Leszek Koltunski	return new float[] {
191			corn[0]D + (pri.get0()multP + sec.get0()multS)E,
192			corn[1]D + (pri.get1()multP + sec.get1()multS)E,
193			corn[2]D + (pri.get2()multP + sec.get2()multS)E
194			};
195	a64e07d0	Leszek Koltunski	}
196			}
197
198			///////////////////////////////////////////////////////////////////////////////////////////////////
199
200	d38f1397	Leszek Koltunski	private int computeEdgeType(int cubit, int numCubitsPerCorner, int numCubitsPerEdge)
201	a64e07d0	Leszek Koltunski	{
202	d38f1397	Leszek Koltunski	int part = (cubit - NUM_CORNERS*numCubitsPerCorner) % numCubitsPerEdge;
203			return (part+1)/2;
204			}
205	a64e07d0	Leszek Koltunski
206	d38f1397	Leszek Koltunski	///////////////////////////////////////////////////////////////////////////////////////////////////
207
208	e6cf7283	Leszek Koltunski	private float[] computeEdge(int numLayers, int edge, int part)
209	d38f1397	Leszek Koltunski	{
210	ead91342	Leszek Koltunski	float D = numLayers/3.0f;
211	3d8237cc	Leszek Koltunski
212	e6cf7283	Leszek Koltunski	float[] c1 = CORNERS[ mEdgeMap[edge][0] ];
213			float[] c2 = CORNERS[ mEdgeMap[edge][1] ];
214	ead91342	Leszek Koltunski	float x = D * (c1[0]+c2[0]) / 2;
215			float y = D * (c1[1]+c2[1]) / 2;
216			float z = D * (c1[2]+c2[2]) / 2;
217	d38f1397	Leszek Koltunski
218			if( part==0 )
219			{
220	e6cf7283	Leszek Koltunski	return new float[] { x, y, z };
221	d38f1397	Leszek Koltunski	}
222			else
223			{
224			int mult = (part+1)/2;
225			int dir = (part+1)%2;
226			float[] center = mCenterCoords[ mEdgeMap[edge][dir+2] ];
227
228	ead91342	Leszek Koltunski	float vX = D*center[0] - x;
229			float vY = D*center[1] - y;
230			float vZ = D*center[2] - z;
231	d38f1397	Leszek Koltunski
232	ead91342	Leszek Koltunski	float A = multD(0.5f-MEGA_D)COS18/((numLayers-1)0.5f);
233			A /= (float)Math.sqrt(vXvX+vYvY+vZ*vZ);
234	d38f1397	Leszek Koltunski
235	e6cf7283	Leszek Koltunski	return new float[] { x+AvX, y+AvY, z+A*vZ };
236	d38f1397	Leszek Koltunski	}
237	a64e07d0	Leszek Koltunski	}
238
239			///////////////////////////////////////////////////////////////////////////////////////////////////
240
241	e6cf7283	Leszek Koltunski	float[][] getCubitPositions(int numLayers)
242	a64e07d0	Leszek Koltunski	{
243			int numCubitsPerCorner = numCubitsPerCorner(numLayers);
244	d38f1397	Leszek Koltunski	int numCubitsPerEdge = numCubitsPerEdge(numLayers);
245	e4bf4d02	Leszek Koltunski	int numCubits = NUM_CORNERSnumCubitsPerCorner + NUM_EDGESnumCubitsPerEdge + NUM_CENTERS;
246	a64e07d0	Leszek Koltunski	int index=0;
247
248	e6cf7283	Leszek Koltunski	final float[][] CENTERS = new float[numCubits][];
249	a64e07d0	Leszek Koltunski
250			for(int corner=0; corner<NUM_CORNERS; corner++)
251			{
252	d38f1397	Leszek Koltunski	computeBasicCornerVectors(corner);
253	a64e07d0	Leszek Koltunski
254			for(int part=0; part<numCubitsPerCorner; part++, index++)
255			{
256	e6cf7283	Leszek Koltunski	CENTERS[index] = computeCorner(numCubitsPerCorner,numLayers,corner,part);
257	a64e07d0	Leszek Koltunski	}
258			}
259	d38f1397	Leszek Koltunski
260	a64e07d0	Leszek Koltunski	for(int edge=0; edge<NUM_EDGES; edge++)
261			{
262			for(int part=0; part<numCubitsPerEdge; part++, index++)
263			{
264	e6cf7283	Leszek Koltunski	CENTERS[index] = computeEdge(numLayers, edge, part );
265	a64e07d0	Leszek Koltunski	}
266			}
267	e4bf4d02	Leszek Koltunski
268	a64e07d0	Leszek Koltunski	for(int center=0; center<NUM_CENTERS; center++, index++)
269			{
270	e6cf7283	Leszek Koltunski	CENTERS[index] = computeCenter(center, numLayers);
271	a64e07d0	Leszek Koltunski	}
272	e4bf4d02	Leszek Koltunski
273	a64e07d0	Leszek Koltunski	return CENTERS;
274			}
275
276			///////////////////////////////////////////////////////////////////////////////////////////////////
277
278	e4bf4d02	Leszek Koltunski	private int getQuat(int cubit, int numCubitsPerCorner, int numCubitsPerEdge)
279	a64e07d0	Leszek Koltunski	{
280			if( cubit < NUM_CORNERS*numCubitsPerCorner )
281			{
282			int corner = cubit/numCubitsPerCorner;
283	d38f1397	Leszek Koltunski	return QUAT_CORNER_INDICES[corner];
284	a64e07d0	Leszek Koltunski	}
285
286	d38f1397	Leszek Koltunski	if( cubit < NUM_CORNERSnumCubitsPerCorner + NUM_EDGESnumCubitsPerEdge )
287			{
288			int edge = (cubit-NUM_CORNERS*numCubitsPerCorner)/numCubitsPerEdge;
289			return QUAT_EDGE_INDICES[edge];
290			}
291
292	e4bf4d02	Leszek Koltunski	int center = cubit - NUM_CORNERSnumCubitsPerCorner - NUM_EDGESnumCubitsPerEdge;
293			return QUAT_CENTER_INDICES[center];
294	a64e07d0	Leszek Koltunski	}
295
296	bb11be2a	Leszek Koltunski	///////////////////////////////////////////////////////////////////////////////////////////////////
297
298	8e4a3670	Leszek Koltunski	ObjectShape getObjectShape(int cubit, int numLayers)
299	bb11be2a	Leszek Koltunski	{
300	8e4a3670	Leszek Koltunski	int variant = getCubitVariant(cubit,numLayers);
301			int numVariants = getNumCubitVariants(numLayers);
302	bb11be2a	Leszek Koltunski
303	8e4a3670	Leszek Koltunski	if( variant==0 )
304			{
305			float width = (numLayers/3.0f)(0.5f-MEGA_D)/(0.5f(numLayers-1));
306			float A = (2SQ3/3)SIN54;
307			float B = 0.4f;
308			double X = widthCOS18SIN_HALFD;
309			double Y = width*SIN18;
310			double Z = widthCOS18COS_HALFD;
311			int N = numLayers==3 ? 1:0;
312
313			double[][] vertices = new double[][]
314			{
315			{ 0.0, 0.0 , 0.0 },
316			{ X, Y , -Z },
317			{ 0.0, 2Y ,-2Z },
318			{ -X, Y , -Z },
319			{ 0.0, 0.0-width, 0.0 },
320			{ X, Y-width, -Z },
321			{ 0.0, 2Y-width,-2Z },
322			{ -X, Y-width, -Z },
323			};
324
325			int[][] vertIndexes = new int[][]
326			{
327			{4,5,1,0},
328			{7,4,0,3},
329			{0,1,2,3},
330			{4,5,6,7},
331			{6,5,1,2},
332			{7,6,2,3}
333			};
334
335			float[][] bands = new float[][]
336			{
337			{0.04f,34,0.3f,0.2f, 3, N, 0},
338			{0.00f, 0,0.0f,0.0f, 2, N, 0}
339			};
340
341			int[] bandIndices = new int[] { 0,0,0,1,1,1};
342			float[][] corners = new float[][] { {0.04f,0.10f} };
343			int[] cornerIndices = new int[] { 0,-1,-1,-1,-1,-1,-1,-1 };
344			float[][] centers = new float[][] { {0.0f, -(float)Math.sqrt(1-AA)B,-A*B} };
345			int[] centerIndices = new int[] { 0,-1,-1,-1,-1,-1,-1,-1 };
346
347			return new ObjectShape(vertices,vertIndexes,bands,bandIndices,corners,cornerIndices,centers,centerIndices,getNumCubitFaces(), null);
348			}
349			if( variant<numVariants-1 )
350			{
351			int numCubitsPerCorner = numCubitsPerCorner(numLayers);
352			int numCubitsPerEdge = numCubitsPerEdge(numLayers);
353			int type = computeEdgeType(cubit,numCubitsPerCorner,numCubitsPerEdge);
354			float height= (numLayers/3.0f)(0.5f-MEGA_D)COS18/((numLayers-1)*0.5f);
355			float width = (numLayers/3.0f)2MEGA_D + 2typeheight*SIN18/COS18;
356
357			double W = width/2;
358			double X = height*SIN_HALFD;
359			double Y = height*SIN18/COS18;
360			double Z = height*COS_HALFD;
361
362			double[][] vertices = new double[][]
363	bb11be2a	Leszek Koltunski	{
364			{ 0.0, W , 0.0 },
365			{ X, W+Y , -Z },
366			{ 0.0, W+2Y ,-2Z },
367			{ -X, W+Y , -Z },
368			{ 0.0, -W , 0.0 },
369			{ X,-W-Y , -Z },
370			{ 0.0,-W-2Y ,-2Z },
371			{ -X,-W-Y , -Z },
372			};
373
374	8e4a3670	Leszek Koltunski	int[][] vertIndexes = new int[][]
375	bb11be2a	Leszek Koltunski	{
376			{4,5,1,0},
377			{7,4,0,3},
378			{7,6,2,3},
379			{6,5,1,2},
380			{0,1,2,3},
381			{4,5,6,7}
382			};
383
384	8e4a3670	Leszek Koltunski	int N = numLayers<=5 ? 5 : 3;
385	bb11be2a	Leszek Koltunski
386	8e4a3670	Leszek Koltunski	float[][] bands = new float[][]
387			{
388	bb11be2a	Leszek Koltunski	{0.04f,34,0.2f,0.2f,N,0,0},
389			{0.00f, 0,0.3f,0.2f,2,0,0}
390	8e4a3670	Leszek Koltunski	};
391			int[] bandIndices = new int[] { 0,0,1,1,1,1};
392			float[][] corners = new float[][] { {0.04f,0.10f} };
393			int[] cornerIndices = new int[] { -1,-1,-1,-1, -1,-1,-1,-1 };
394			float[][] centers = new float[][] { {0.0f, 0.0f, (float)(-2*Z)} };
395			int[] centerIndices = new int[] { -1,-1,-1,-1, -1,-1,-1,-1 };
396	bb11be2a	Leszek Koltunski
397	8e4a3670	Leszek Koltunski	return new ObjectShape(vertices,vertIndexes,bands,bandIndices,corners,cornerIndices,centers,centerIndices,getNumCubitFaces(), null);
398			}
399			else
400	bb11be2a	Leszek Koltunski	{
401	8e4a3670	Leszek Koltunski	float width = 2 * (numLayers/3.0f) * (MEGA_D+(0.5f-MEGA_D)*SIN18);
402			final double V = 0.83; // ??
403			final double ANGLE = V*Math.PI;
404			final double cosA = Math.cos(ANGLE);
405			final double sinA = Math.sin(ANGLE);
406
407			float R = 0.5f*width/COS54;
408			float X1 = R*COS54;
409			float Y1 = R*SIN54;
410			float X2 = R*COS18;
411			float Y2 = R*SIN18;
412
413			double[][] vertices = new double[][]
414			{
415	bb11be2a	Leszek Koltunski	{-X1,+Y1sinA, Y1cosA},
416			{-X2,-Y2sinA,-Y2cosA},
417			{0.0f,-RsinA, -RcosA},
418			{+X2,-Y2sinA,-Y2cosA},
419			{+X1,+Y1sinA, Y1cosA}
420	8e4a3670	Leszek Koltunski	};
421	bb11be2a	Leszek Koltunski
422	8e4a3670	Leszek Koltunski	int[][] vertIndexes = new int[][]
423			{
424	bb11be2a	Leszek Koltunski	{0,1,2,3,4},
425			{0,1,2,3,4}
426	8e4a3670	Leszek Koltunski	};
427	bb11be2a	Leszek Koltunski
428	8e4a3670	Leszek Koltunski	int N = numLayers==3 ? 4 : 3;
429	bb11be2a	Leszek Koltunski
430	8e4a3670	Leszek Koltunski	float[][] bands = new float[][]
431			{
432	bb11be2a	Leszek Koltunski	{0.04f,45, R/3,0.2f,N,0,0},
433			{0.00f, 0, R/3,0.2f,2,0,0}
434	8e4a3670	Leszek Koltunski	};
435
436			int[] bandIndices = new int[] { 0,1 };
437			float[][] corners = new float[][] { {0.04f,0.10f} };
438			int[] cornerIndices = new int[] { -1,-1,-1,-1, -1 };
439			float[][] centers = new float[][] { {0.0f, 0.0f, 0.0f} };
440			int[] centerIndices = new int[] { -1,-1,-1,-1, -1 };
441
442			return new ObjectShape(vertices,vertIndexes,bands,bandIndices,corners,cornerIndices,centers,centerIndices,getNumCubitFaces(), null);
443			}
444	bb11be2a	Leszek Koltunski	}
445
446	8e4a3670	Leszek Koltunski
447	a64e07d0	Leszek Koltunski	///////////////////////////////////////////////////////////////////////////////////////////////////
448
449	3e605536	Leszek Koltunski	Static4D getQuat(int cubit, int numLayers)
450	a64e07d0	Leszek Koltunski	{
451			int numCubitsPerCorner = numCubitsPerCorner(numLayers);
452			int numCubitsPerEdge = numCubitsPerEdge(numLayers);
453	8e4a3670	Leszek Koltunski
454			return QUATS[getQuat(cubit,numCubitsPerCorner,numCubitsPerEdge)];
455			}
456
457			///////////////////////////////////////////////////////////////////////////////////////////////////
458
459	3e605536	Leszek Koltunski	int getNumCubitVariants(int numLayers)
460	8e4a3670	Leszek Koltunski	{
461	db608887	Leszek Koltunski	int[] sizes = ObjectList.MEGA.getSizes();
462			int variants = sizes.length;
463	a64e07d0	Leszek Koltunski
464	8e4a3670	Leszek Koltunski	return 2+(sizes[variants-1]-1)/2;
465			}
466
467			///////////////////////////////////////////////////////////////////////////////////////////////////
468	28b54fe3	Leszek Koltunski
469	8e4a3670	Leszek Koltunski	int getCubitVariant(int cubit, int numLayers)
470			{
471			int numCubitsPerCorner = numCubitsPerCorner(numLayers);
472
473			if( cubit<NUM_CORNERS*numCubitsPerCorner ) return 0;
474
475			int numCubitsPerEdge = numCubitsPerEdge(numLayers);
476
477			if( cubit<NUM_CORNERSnumCubitsPerCorner + NUM_EDGESnumCubitsPerEdge )
478	a64e07d0	Leszek Koltunski	{
479	d38f1397	Leszek Koltunski	int type = computeEdgeType(cubit,numCubitsPerCorner,numCubitsPerEdge);
480	8e4a3670	Leszek Koltunski	return type+1;
481			}
482	d38f1397	Leszek Koltunski
483	8e4a3670	Leszek Koltunski	int[] sizes = ObjectList.MEGA.getSizes();
484			int variants = sizes.length;
485			int numShapes = 2+(sizes[variants-1]-1)/2;
486	3d8237cc	Leszek Koltunski
487	8e4a3670	Leszek Koltunski	return numShapes-1;
488			}
489
490	a64e07d0	Leszek Koltunski	///////////////////////////////////////////////////////////////////////////////////////////////////
491
492	d38f1397	Leszek Koltunski	int getCornerColor(int cubit, int cubitface, int numLayers, int numCubitsPerCorner)
493	a64e07d0	Leszek Koltunski	{
494	0e7a13b4	Leszek Koltunski	if( cubitface<0 \|\| cubitface>2 ) return NUM_TEXTURES;
495	6e7146df	Leszek Koltunski
496			int part = cubit % numCubitsPerCorner;
497	a64e07d0	Leszek Koltunski	int corner= cubit / numCubitsPerCorner;
498
499	6e7146df	Leszek Koltunski	if( part==0 )
500	a64e07d0	Leszek Koltunski	{
501	6e7146df	Leszek Koltunski	return mCornerFaceMap[corner][cubitface];
502	a64e07d0	Leszek Koltunski	}
503			else
504			{
505			int N = (numCubitsPerCorner-1)/3;
506	6e7146df	Leszek Koltunski	int block = (part-1) % N;
507			int index = (part-1) / N;
508	a64e07d0	Leszek Koltunski
509	0e7a13b4	Leszek Koltunski	if( block< (numLayers-3)/2 )
510	a64e07d0	Leszek Koltunski	{
511	6e7146df	Leszek Koltunski	switch(index)
512			{
513	0e7a13b4	Leszek Koltunski	case 0: return cubitface==1 ? NUM_TEXTURES : mCornerFaceMap[corner][cubitface];
514			case 1: return cubitface==0 ? NUM_TEXTURES : mCornerFaceMap[corner][cubitface];
515			case 2: return cubitface==2 ? NUM_TEXTURES : mCornerFaceMap[corner][cubitface];
516	6e7146df	Leszek Koltunski	}
517	a64e07d0	Leszek Koltunski	}
518			else
519			{
520	6e7146df	Leszek Koltunski	switch(index)
521			{
522	0e7a13b4	Leszek Koltunski	case 0: return cubitface==0 ? mCornerFaceMap[corner][cubitface] : NUM_TEXTURES;
523			case 1: return cubitface==2 ? mCornerFaceMap[corner][cubitface] : NUM_TEXTURES;
524			case 2: return cubitface==1 ? mCornerFaceMap[corner][cubitface] : NUM_TEXTURES;
525	6e7146df	Leszek Koltunski	}
526	a64e07d0	Leszek Koltunski	}
527			}
528	6e7146df	Leszek Koltunski
529	0e7a13b4	Leszek Koltunski	return NUM_TEXTURES;
530	a64e07d0	Leszek Koltunski	}
531
532	d38f1397	Leszek Koltunski	///////////////////////////////////////////////////////////////////////////////////////////////////
533
534	e4bf4d02	Leszek Koltunski	int getEdgeColor(int edge, int cubitface, int numCubitsPerEdge)
535	d38f1397	Leszek Koltunski	{
536	0e7a13b4	Leszek Koltunski	if( cubitface<0 \|\| cubitface>1 ) return NUM_TEXTURES;
537	d38f1397	Leszek Koltunski
538	e4bf4d02	Leszek Koltunski	int part = edge % numCubitsPerEdge;
539			int variant = edge / numCubitsPerEdge;
540	d38f1397	Leszek Koltunski
541	51df47f3	Leszek Koltunski	return (part==0 \|\| cubitface==((part+1)%2)) ? mEdgeMap[variant][cubitface+2] + ((part+3)/2)*NUM_FACES : NUM_TEXTURES;
542	d38f1397	Leszek Koltunski	}
543
544			///////////////////////////////////////////////////////////////////////////////////////////////////
545
546	e4bf4d02	Leszek Koltunski	int getCenterColor(int center, int cubitface, int numLayers)
547	d38f1397	Leszek Koltunski	{
548	e4bf4d02	Leszek Koltunski	return cubitface>0 ? NUM_TEXTURES : center + NUM_FACES*(numLayers+1)/2;
549	d38f1397	Leszek Koltunski	}
550
551			///////////////////////////////////////////////////////////////////////////////////////////////////
552
553			int getFaceColor(int cubit, int cubitface, int numLayers)
554			{
555			int numCubitsPerCorner = numCubitsPerCorner(numLayers);
556			int numCubitsPerEdge = numCubitsPerEdge(numLayers);
557
558			if( cubit < NUM_CORNERS*numCubitsPerCorner )
559			{
560			return getCornerColor(cubit,cubitface,numLayers,numCubitsPerCorner);
561			}
562			else if( cubit<NUM_CORNERSnumCubitsPerCorner + NUM_EDGESnumCubitsPerEdge )
563			{
564	e4bf4d02	Leszek Koltunski	int edge = cubit - NUM_CORNERS*numCubitsPerCorner;
565			return getEdgeColor(edge,cubitface,numCubitsPerEdge);
566	d38f1397	Leszek Koltunski	}
567			else
568			{
569	e4bf4d02	Leszek Koltunski	int center = cubit-NUM_CORNERSnumCubitsPerCorner-NUM_EDGESnumCubitsPerEdge;
570			return getCenterColor( center, cubitface, numLayers);
571	d38f1397	Leszek Koltunski	}
572			}
573
574	a64e07d0	Leszek Koltunski	///////////////////////////////////////////////////////////////////////////////////////////////////
575
576	9c06394a	Leszek Koltunski	int getColor(int face)
577	a64e07d0	Leszek Koltunski	{
578	9c06394a	Leszek Koltunski	return FACE_COLORS[face];
579			}
580	ede1b68c	Leszek Koltunski
581	9c06394a	Leszek Koltunski	///////////////////////////////////////////////////////////////////////////////////////////////////
582
583			ObjectSticker retSticker(int face)
584			{
585			return mStickers[getStickerIndex(face)];
586			}
587
588			///////////////////////////////////////////////////////////////////////////////////////////////////
589
590			private int getStickerIndex(int face)
591			{
592			int variant = face/NUM_FACES;
593	ede1b68c	Leszek Koltunski
594	9c06394a	Leszek Koltunski	if( variant==0 ) return 0;
595
596			int numLayers = getNumLayers();
597
598			if( variant < (numLayers+1)/2 )
599			{
600			if( numLayers==3 ) return 1;
601			else
602	ede1b68c	Leszek Koltunski	{
603	9c06394a	Leszek Koltunski	if( variant==1 ) return 2;
604			else return 3;
605	ede1b68c	Leszek Koltunski	}
606			}
607
608	9c06394a	Leszek Koltunski	return 4;
609	a64e07d0	Leszek Koltunski	}
610
611			///////////////////////////////////////////////////////////////////////////////////////////////////
612
613			public int getObjectName(int numLayers)
614			{
615			if( numLayers==3 ) return R.string.minx3;
616	f6e46300	Leszek Koltunski	if( numLayers==5 ) return R.string.minx5;
617	a64e07d0	Leszek Koltunski
618			return 0;
619			}
620
621			///////////////////////////////////////////////////////////////////////////////////////////////////
622
623			public int getInventor(int numLayers)
624			{
625			if( numLayers==3 ) return R.string.minx3_inventor;
626	f6e46300	Leszek Koltunski	if( numLayers==5 ) return R.string.minx5_inventor;
627	a64e07d0	Leszek Koltunski
628			return 0;
629			}
630
631			///////////////////////////////////////////////////////////////////////////////////////////////////
632
633			public int getComplexity(int numLayers)
634			{
635			if( numLayers==3 ) return 4;
636
637			return 5;
638			}
639			}

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magiccube / src / main / java / org / distorted / objects / TwistyMegaminx.java @ bbbfb6af