1
|
///////////////////////////////////////////////////////////////////////////////////////////////////
|
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.objectlib.main;
|
21
|
|
22
|
import java.io.InputStream;
|
23
|
|
24
|
import org.distorted.library.type.Static3D;
|
25
|
import org.distorted.library.type.Static4D;
|
26
|
|
27
|
import org.distorted.objectlib.R;
|
28
|
import org.distorted.objectlib.objects.*;
|
29
|
|
30
|
///////////////////////////////////////////////////////////////////////////////////////////////////
|
31
|
|
32
|
public enum ObjectType
|
33
|
{
|
34
|
CUBE_2 ( new int[] {2,2,2} , 12, R.drawable.cube_2s, R.drawable.cube_2m, R.drawable.cube_2b, R.drawable.cube_2h),
|
35
|
CUBE_3 ( new int[] {3,3,3} , 17, R.drawable.cube_3s, R.drawable.cube_3m, R.drawable.cube_3b, R.drawable.cube_3h),
|
36
|
CUBE_4 ( new int[] {4,4,4} , 24, R.drawable.cube_4s, R.drawable.cube_4m, R.drawable.cube_4b, R.drawable.cube_4h),
|
37
|
CUBE_5 ( new int[] {5,5,5} , 28, R.drawable.cube_5s, R.drawable.cube_5m, R.drawable.cube_5b, R.drawable.cube_5h),
|
38
|
CUBE_6 ( new int[] {6,6,6} , 35, R.drawable.cube_6s, R.drawable.cube_6m, R.drawable.cube_6b, R.drawable.cube_6h),
|
39
|
CUBE_7 ( new int[] {7,7,7} , 42, R.drawable.cube_7s, R.drawable.cube_7m, R.drawable.cube_7b, R.drawable.cube_7h),
|
40
|
MIRR_2 ( new int[] {2,2,2} , 12, R.drawable.mirr_2s, R.drawable.mirr_2m, R.drawable.mirr_2b, R.drawable.mirr_2h),
|
41
|
MIRR_3 ( new int[] {3,3,3} , 17, R.drawable.mirr_3s, R.drawable.mirr_3m, R.drawable.mirr_3b, R.drawable.mirr_3h),
|
42
|
JING_2 ( new int[] {2,2,2,2} , 11, R.drawable.jing_2s, R.drawable.jing_2m, R.drawable.jing_2b, R.drawable.jing_2h),
|
43
|
PYRA_3 ( new int[] {3,3,3,3} , 10, R.drawable.pyra_3s, R.drawable.pyra_3m, R.drawable.pyra_3b, R.drawable.pyra_3h),
|
44
|
PYRA_4 ( new int[] {4,4,4,4} , 17, R.drawable.pyra_4s, R.drawable.pyra_4m, R.drawable.pyra_4b, R.drawable.pyra_4h),
|
45
|
PYRA_5 ( new int[] {5,5,5,5} , 23, R.drawable.pyra_5s, R.drawable.pyra_5m, R.drawable.pyra_5b, R.drawable.pyra_5h),
|
46
|
KILO_3 ( new int[] {3,3,3,3,3,3}, 18, R.drawable.kilo_3s, R.drawable.kilo_3m, R.drawable.kilo_3b, R.drawable.kilo_3h),
|
47
|
KILO_5 ( new int[] {5,5,5,5,5,5}, 33, R.drawable.kilo_5s, R.drawable.kilo_5m, R.drawable.kilo_5b, R.drawable.kilo_5h),
|
48
|
MEGA_3 ( new int[] {3,3,3,3,3,3}, 21, R.drawable.mega_3s, R.drawable.mega_3m, R.drawable.mega_3b, R.drawable.mega_3h),
|
49
|
MEGA_5 ( new int[] {5,5,5,5,5,5}, 37, R.drawable.mega_5s, R.drawable.mega_5m, R.drawable.mega_5b, R.drawable.mega_5h),
|
50
|
ULTI_2 ( new int[] {2,2,2,2} , 18, R.drawable.ulti_2s, R.drawable.ulti_2m, R.drawable.ulti_2b, R.drawable.ulti_2h),
|
51
|
DIAM_2 ( new int[] {2,2,2,2} , 12, R.drawable.diam_2s, R.drawable.diam_2m, R.drawable.diam_2b, R.drawable.diam_2h),
|
52
|
DIAM_3 ( new int[] {3,3,3,3} , 24, R.drawable.diam_3s, R.drawable.diam_3m, R.drawable.diam_3b, R.drawable.diam_3h),
|
53
|
DIAM_4 ( new int[] {4,4,4,4} , 32, R.drawable.diam_4s, R.drawable.diam_4m, R.drawable.diam_4b, R.drawable.diam_4h),
|
54
|
DINO_3 ( new int[] {3,3,3,3} , 10, R.drawable.dino_3s, R.drawable.dino_3m, R.drawable.dino_3b, R.drawable.dino_3h),
|
55
|
DIN4_3 ( new int[] {3,3,3,3} , 7, R.drawable.din4_3s, R.drawable.din4_3m, R.drawable.din4_3b, R.drawable.din4_3h),
|
56
|
REDI_3 ( new int[] {3,3,3,3} , 16, R.drawable.redi_3s, R.drawable.redi_3m, R.drawable.redi_3b, R.drawable.redi_3h),
|
57
|
HELI_3 ( new int[] {3,3,3,3,3,3}, 20, R.drawable.heli_3s, R.drawable.heli_3m, R.drawable.heli_3b, R.drawable.heli_3h),
|
58
|
SKEW_2 ( new int[] {2,2,2,2} , 11, R.drawable.skew_2s, R.drawable.skew_2m, R.drawable.skew_2b, R.drawable.skew_2h),
|
59
|
SKEW_3 ( new int[] {3,3,3,3} , 21, R.drawable.skew_3s, R.drawable.skew_3m, R.drawable.skew_3b, R.drawable.skew_3h),
|
60
|
IVY_2 ( new int[] {2,2,2,2} , 8, R.drawable.ivy_2s , R.drawable.ivy_2m , R.drawable.ivy_2b , R.drawable.ivy_2h ),
|
61
|
REX_3 ( new int[] {3,3,3,3} , 19, R.drawable.rex_3s , R.drawable.rex_3m , R.drawable.rex_3b , R.drawable.rex_3h ),
|
62
|
BAN1_3 ( new int[] {3,3,3} , 16, R.drawable.ban1_3s, R.drawable.ban1_3m, R.drawable.ban1_3b, R.drawable.ban1_3h),
|
63
|
BAN2_3 ( new int[] {3,3,3} , 16, R.drawable.ban2_3s, R.drawable.ban2_3m, R.drawable.ban2_3b, R.drawable.ban2_3h),
|
64
|
BAN3_3 ( new int[] {3,3,3} , 16, R.drawable.ban3_3s, R.drawable.ban3_3m, R.drawable.ban3_3b, R.drawable.ban3_3h),
|
65
|
BAN4_3 ( new int[] {3,3,3} , 16, R.drawable.ban4_3s, R.drawable.ban4_3m, R.drawable.ban4_3b, R.drawable.ban4_3h),
|
66
|
SQU1_3 ( new int[] {3,2,3} , 24, R.drawable.squ1_3s, R.drawable.squ1_3m, R.drawable.squ1_3b, R.drawable.squ1_3h),
|
67
|
SQU2_3 ( new int[] {3,2,3} , 24, R.drawable.squ2_3s, R.drawable.squ2_3m, R.drawable.squ2_3b, R.drawable.squ2_3h),
|
68
|
CU_323 ( new int[] {3,2,3} , 15, R.drawable.cu_323s, R.drawable.cu_323m, R.drawable.cu_323b, R.drawable.cu_323h),
|
69
|
CU_232 ( new int[] {2,3,2} , 16, R.drawable.cu_232s, R.drawable.cu_232m, R.drawable.cu_232b, R.drawable.cu_232h),
|
70
|
CU_343 ( new int[] {3,4,3} , 23, R.drawable.cu_343s, R.drawable.cu_343m, R.drawable.cu_343b, R.drawable.cu_343h),
|
71
|
;
|
72
|
|
73
|
public static final int NUM_OBJECTS = values().length;
|
74
|
private static final ObjectType[] objects;
|
75
|
|
76
|
private final int[] mNumLayers;
|
77
|
private final int mNumScrambles;
|
78
|
private final int mSmallIcon, mMediumIcon, mBigIcon, mHugeIcon;
|
79
|
|
80
|
static
|
81
|
{
|
82
|
int i = 0;
|
83
|
objects = new ObjectType[NUM_OBJECTS];
|
84
|
for(ObjectType object: ObjectType.values()) objects[i++] = object;
|
85
|
}
|
86
|
|
87
|
///////////////////////////////////////////////////////////////////////////////////////////////////
|
88
|
|
89
|
public static ObjectType getObject(int ordinal)
|
90
|
{
|
91
|
return ordinal>=0 && ordinal<NUM_OBJECTS ? objects[ordinal] : CUBE_3;
|
92
|
}
|
93
|
|
94
|
///////////////////////////////////////////////////////////////////////////////////////////////////
|
95
|
|
96
|
public static int getOrdinal(String name)
|
97
|
{
|
98
|
for(int i=0; i<NUM_OBJECTS; i++)
|
99
|
{
|
100
|
if( objects[i].name().equals(name) ) return i;
|
101
|
}
|
102
|
|
103
|
return -1;
|
104
|
}
|
105
|
|
106
|
///////////////////////////////////////////////////////////////////////////////////////////////////
|
107
|
|
108
|
ObjectType(int[] numLayers, int scrambles, int sIcon, int mIcon, int bIcon, int hIcon)
|
109
|
{
|
110
|
mNumLayers = numLayers;
|
111
|
mNumScrambles= scrambles;
|
112
|
mSmallIcon = sIcon;
|
113
|
mMediumIcon = mIcon;
|
114
|
mBigIcon = bIcon;
|
115
|
mHugeIcon = hIcon;
|
116
|
}
|
117
|
|
118
|
///////////////////////////////////////////////////////////////////////////////////////////////////
|
119
|
|
120
|
public int getIconID(int size)
|
121
|
{
|
122
|
switch(size)
|
123
|
{
|
124
|
case 0: return mSmallIcon;
|
125
|
case 1: return mMediumIcon;
|
126
|
case 2: return mBigIcon;
|
127
|
case 3: return mHugeIcon;
|
128
|
}
|
129
|
|
130
|
return mSmallIcon;
|
131
|
}
|
132
|
|
133
|
///////////////////////////////////////////////////////////////////////////////////////////////////
|
134
|
|
135
|
public int getNumScramble()
|
136
|
{
|
137
|
return mNumScrambles;
|
138
|
}
|
139
|
|
140
|
///////////////////////////////////////////////////////////////////////////////////////////////////
|
141
|
|
142
|
public static TwistyObject create(int ordinal, Static4D quat, Static3D move, float scale, InputStream meshStream)
|
143
|
{
|
144
|
int[] numL= objects[ordinal].mNumLayers;
|
145
|
|
146
|
switch(ordinal)
|
147
|
{
|
148
|
case 0:
|
149
|
case 1:
|
150
|
case 2:
|
151
|
case 3:
|
152
|
case 4:
|
153
|
case 5: return new TwistyCuboid (numL, quat, move, scale, meshStream);
|
154
|
case 6:
|
155
|
case 7: return new TwistyMirror (numL, quat, move, scale, meshStream);
|
156
|
case 8: return new TwistyJing (numL, quat, move, scale, meshStream);
|
157
|
case 9:
|
158
|
case 10:
|
159
|
case 11: return new TwistyPyraminx (numL, quat, move, scale, meshStream);
|
160
|
case 12:
|
161
|
case 13: return new TwistyKilominx (numL, quat, move, scale, meshStream);
|
162
|
case 14:
|
163
|
case 15: return new TwistyMegaminx (numL, quat, move, scale, meshStream);
|
164
|
case 16: return new TwistyUltimate (numL, quat, move, scale, meshStream);
|
165
|
case 17:
|
166
|
case 18:
|
167
|
case 19: return new TwistyDiamond (numL, quat, move, scale, meshStream);
|
168
|
|
169
|
case 20: return new TwistyDino6 (numL, quat, move, scale, meshStream);
|
170
|
case 21: return new TwistyDino4 (numL, quat, move, scale, meshStream);
|
171
|
case 22: return new TwistyRedi (numL, quat, move, scale, meshStream);
|
172
|
case 23: return new TwistyHelicopter (numL, quat, move, scale, meshStream);
|
173
|
case 24:
|
174
|
case 25: return new TwistySkewb (numL, quat, move, scale, meshStream);
|
175
|
case 26: return new TwistyIvy (numL, quat, move, scale, meshStream);
|
176
|
case 27: return new TwistyRex (numL, quat, move, scale, meshStream);
|
177
|
case 28: return new TwistyBandagedFused (numL, quat, move, scale, meshStream);
|
178
|
case 29: return new TwistyBandaged2Bar (numL, quat, move, scale, meshStream);
|
179
|
case 30: return new TwistyBandaged3Plate(numL, quat, move, scale, meshStream);
|
180
|
case 31: return new TwistyBandagedEvil (numL, quat, move, scale, meshStream);
|
181
|
case 32: return new TwistySquare1 (numL, quat, move, scale, meshStream);
|
182
|
case 33: return new TwistySquare2 (numL, quat, move, scale, meshStream);
|
183
|
case 34:
|
184
|
case 35:
|
185
|
case 36: return new TwistyCuboid (numL, quat, move, scale, meshStream);
|
186
|
}
|
187
|
|
188
|
return null;
|
189
|
}
|
190
|
}
|