/src/main/java/org/distorted/magic/RubikSurfaceView.java - Annotate - Magic Cube - Distorted Android

magiccube / src / main / java / org / distorted / magic / RubikSurfaceView.java @ 4c0cd600

1	0c52af30	Leszek Koltunski	///////////////////////////////////////////////////////////////////////////////////////////////////
2			// Copyright 2019 Leszek Koltunski //
3			// //
4	fdec60a3	Leszek Koltunski	// This file is part of Magic Cube. //
5	0c52af30	Leszek Koltunski	// //
6	fdec60a3	Leszek Koltunski	// Magic Cube is free software: you can redistribute it and/or modify //
7	0c52af30	Leszek Koltunski	// 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	fdec60a3	Leszek Koltunski	// Magic Cube is distributed in the hope that it will be useful, //
12	0c52af30	Leszek Koltunski	// 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	fdec60a3	Leszek Koltunski	// along with Magic Cube. If not, see <http://www.gnu.org/licenses/>. //
18	0c52af30	Leszek Koltunski	///////////////////////////////////////////////////////////////////////////////////////////////////
19
20			package org.distorted.magic;
21
22			import android.app.ActivityManager;
23			import android.content.Context;
24			import android.content.pm.ConfigurationInfo;
25			import android.opengl.GLSurfaceView;
26			import android.util.AttributeSet;
27			import android.view.MotionEvent;
28
29	775e675d	Leszek Koltunski	import org.distorted.library.type.Static2D;
30	12ad3fca	Leszek Koltunski	import org.distorted.library.type.Static3D;
31	0c52af30	Leszek Koltunski	import org.distorted.library.type.Static4D;
32	27a70eae	Leszek Koltunski	import org.distorted.object.RubikObject;
33			import org.distorted.object.RubikObjectMovement;
34	0333d81e	Leszek Koltunski	import org.distorted.uistate.RubikState;
35			import org.distorted.uistate.RubikStateSolving;
36	0c52af30	Leszek Koltunski
37			///////////////////////////////////////////////////////////////////////////////////////////////////
38
39	beb325a0	Leszek Koltunski	public class RubikSurfaceView extends GLSurfaceView
40	0c52af30	Leszek Koltunski	{
41	775e675d	Leszek Koltunski	// Moving the finger from the middle of the vertical screen to the right edge will rotate a
42			// given face by SWIPING_SENSITIVITY/2 degrees.
43			private final static int SWIPING_SENSITIVITY = 240;
44	14a4712f	Leszek Koltunski	// Moving the finger by 1/15 the distance of min(scrWidth,scrHeight) will start a Rotation.
45			private final static int ROTATION_SENSITIVITY = 15;
46	eac805bd	Leszek Koltunski	// Every 1/12 the distance of min(scrWidth,scrHeight) the direction of cube rotation will reset.
47			private final static int DIRECTION_SENSITIVITY= 12;
48
49	84ddf691	Leszek Koltunski	// Where did we get this sqrt(3)/2 ? From the (default, i.e. 60 degrees - see InternalOutputSurface!)
50			// FOV of the projection matrix of the Node onto the Screen.
51			// Take a look how the CAMERA_POINT is used in onTouchEvent - (x,y) there are expressed in sort of
52			// 'half-NDC' coordinates i.e. they range from +0.5 to -0.5; thus CAMERA_POINT also needs to be
53			// in 'half-NDC'. Since in this coordinate system the height of the screen is equal to 1, then the
54			// Z-distance from the center of the object to the camera is equal to (scrHeight/2)/tan(FOV/2) =
55			// 0.5/tan(30) = sqrt(3)/2.
56			// Why is the Z-distance between the camera and the object equal to (scrHeight/2)/tan(FOV/2)?
57			// Because of the way the View part of the ModelView matrix is constructed in EffectQueueMatrix.send().
58			private final Static4D CAMERA_POINT = new Static4D(0, 0, (float)Math.sqrt(3)*0.5f, 0);
59	86c73a69	Leszek Koltunski
60	beb325a0	Leszek Koltunski	private RubikRenderer mRenderer;
61	27a70eae	Leszek Koltunski	private RubikObjectMovement mMovement;
62	0c52af30	Leszek Koltunski	private boolean mDragging, mBeginningRotation, mContinuingRotation;
63	beb325a0	Leszek Koltunski	private int mScreenWidth, mScreenHeight, mScreenMin;
64	0c52af30	Leszek Koltunski
65	12ad3fca	Leszek Koltunski	private float mX, mY;
66			private float mStartRotX, mStartRotY;
67			private float mAxisX, mAxisY;
68	e46e17fb	Leszek Koltunski	private float mRotationFactor;
69	12ad3fca	Leszek Koltunski
70	45686da2	Leszek Koltunski	private static Static4D mQuatCurrent = new Static4D(0,0,0,1);
71			private static Static4D mQuatAccumulated= new Static4D(-0.25189602f,0.3546389f,0.009657208f,0.90038127f);
72			private static Static4D mTempCurrent = new Static4D(0,0,0,1);
73			private static Static4D mTempAccumulated= new Static4D(0,0,0,1);
74	ee5c2ae1	Leszek Koltunski
75	0fd3ac1f	Leszek Koltunski	///////////////////////////////////////////////////////////////////////////////////////////////////
76
77			void setScreenSize(int width, int height)
78			{
79			mScreenWidth = width;
80			mScreenHeight= height;
81
82	12ad3fca	Leszek Koltunski	mScreenMin = Math.min(width, height);
83	0fd3ac1f	Leszek Koltunski	}
84
85	4c0cd600	Leszek Koltunski	///////////////////////////////////////////////////////////////////////////////////////////////////
86
87			boolean isVertical()
88			{
89			return mScreenHeight>mScreenWidth;
90			}
91
92	0fd3ac1f	Leszek Koltunski	///////////////////////////////////////////////////////////////////////////////////////////////////
93
94			RubikRenderer getRenderer()
95			{
96			return mRenderer;
97			}
98
99			///////////////////////////////////////////////////////////////////////////////////////////////////
100
101			void setQuatAccumulated()
102			{
103			mQuatAccumulated.set(mTempAccumulated);
104			}
105
106			///////////////////////////////////////////////////////////////////////////////////////////////////
107
108			void setQuatCurrent()
109			{
110			mQuatCurrent.set(mTempCurrent);
111			}
112
113			///////////////////////////////////////////////////////////////////////////////////////////////////
114
115			Static4D getQuatAccumulated()
116			{
117			return mQuatAccumulated;
118			}
119
120			///////////////////////////////////////////////////////////////////////////////////////////////////
121
122			Static4D getQuatCurrent()
123			{
124			return mQuatCurrent;
125			}
126
127	27a70eae	Leszek Koltunski	///////////////////////////////////////////////////////////////////////////////////////////////////
128
129			void setMovement(RubikObjectMovement movement)
130			{
131			mMovement = movement;
132			}
133
134	0fd3ac1f	Leszek Koltunski	///////////////////////////////////////////////////////////////////////////////////////////////////
135
136			private Static4D quatFromDrag(float dragX, float dragY)
137			{
138			float axisX = dragY; // inverted X and Y - rotation axis is perpendicular to (dragX,dragY)
139			float axisY = dragX; // Why not (-dragY, dragX) ? because Y axis is also inverted!
140			float axisZ = 0;
141			float axisL = (float)Math.sqrt(axisXaxisX + axisYaxisY + axisZ*axisZ);
142
143			if( axisL>0 )
144			{
145			axisX /= axisL;
146			axisY /= axisL;
147			axisZ /= axisL;
148
149			float ratio = axisL;
150			ratio = ratio - (int)ratio; // the cos() is only valid in (0,Pi)
151
152			float cosA = (float)Math.cos(Math.PI*ratio);
153			float sinA = (float)Math.sqrt(1-cosA*cosA);
154
155			return new Static4D(axisXsinA, axisYsinA, axisZ*sinA, cosA);
156			}
157
158			return new Static4D(0f, 0f, 0f, 1f);
159			}
160
161	12ad3fca	Leszek Koltunski	///////////////////////////////////////////////////////////////////////////////////////////////////
162
163			private void setUpDragOrRotate(float x, float y)
164			{
165			Static4D touchPoint1 = new Static4D(x, y, 0, 0);
166			Static4D rotatedTouchPoint1= rotateVectorByInvertedQuat(touchPoint1, mQuatAccumulated);
167			Static4D rotatedCamera= rotateVectorByInvertedQuat(CAMERA_POINT, mQuatAccumulated);
168
169			if( mMovement!=null && mMovement.faceTouched(rotatedTouchPoint1,rotatedCamera) )
170			{
171			mDragging = false;
172			mBeginningRotation = mRenderer.canRotate();
173			mContinuingRotation = false;
174			}
175			else
176			{
177			mDragging = mRenderer.canDrag();
178			mBeginningRotation = false;
179			mContinuingRotation = false;
180			}
181			}
182
183			///////////////////////////////////////////////////////////////////////////////////////////////////
184			// cast the 3D axis we are currently rotating along to the 2D in-screen-surface axis
185
186			private void computeCurrentAxis(Static3D axis)
187			{
188			Static4D axis4D = new Static4D(axis.get0(), axis.get1(), axis.get2(), 0);
189			Static4D result = rotateVectorByQuat(axis4D, mQuatAccumulated);
190
191			mAxisX =result.get0();
192			mAxisY =result.get1();
193
194			float len = (float)Math.sqrt(mAxisXmAxisX + mAxisYmAxisY);
195			mAxisX /= len;
196			mAxisY /= len;
197
198	167ba2d6	Leszek Koltunski	// android.util.Log.e("axis", "axis 2D: "+mAxisX+" , "+mAxisY);
199	12ad3fca	Leszek Koltunski	}
200
201			///////////////////////////////////////////////////////////////////////////////////////////////////
202
203			private float continueRotation(float dx, float dy)
204			{
205			float alpha = dxmAxisX + dymAxisY;
206			float x = dx - alpha*mAxisX;
207			float y = dy - alpha*mAxisY;
208
209			float len = (float)Math.sqrt(xx + yy);
210
211	167ba2d6	Leszek Koltunski	// we have the length of 1D vector 'angle', now the direction:
212			float tmp = mAxisY==0 ? -mAxisXy : mAxisYx;
213	12ad3fca	Leszek Koltunski
214	e46e17fb	Leszek Koltunski	return (tmp>0 ? 1:-1)lenmRotationFactor;
215	12ad3fca	Leszek Koltunski	}
216
217	0c52af30	Leszek Koltunski	///////////////////////////////////////////////////////////////////////////////////////////////////
218	47ba5ddc	Leszek Koltunski	// return quat1*quat2
219	0c52af30	Leszek Koltunski
220	beb325a0	Leszek Koltunski	public static Static4D quatMultiply( Static4D quat1, Static4D quat2 )
221	45686da2	Leszek Koltunski	{
222	348dfe69	Leszek Koltunski	float qx = quat1.get0();
223			float qy = quat1.get1();
224			float qz = quat1.get2();
225			float qw = quat1.get3();
226	45686da2	Leszek Koltunski
227	348dfe69	Leszek Koltunski	float rx = quat2.get0();
228			float ry = quat2.get1();
229			float rz = quat2.get2();
230			float rw = quat2.get3();
231	45686da2	Leszek Koltunski
232	47ba5ddc	Leszek Koltunski	float tx = rwqx - rzqy + ryqz + rxqw;
233			float ty = rwqy + rzqx + ryqw - rxqz;
234			float tz = rwqz + rzqw - ryqx + rxqy;
235			float tw = rwqw - rzqz - ryqy - rxqx;
236	45686da2	Leszek Koltunski
237	47ba5ddc	Leszek Koltunski	return new Static4D(tx,ty,tz,tw);
238	45686da2	Leszek Koltunski	}
239
240			///////////////////////////////////////////////////////////////////////////////////////////////////
241	beb325a0	Leszek Koltunski	// rotate 'vector' by quat ( i.e. return quatvector(quat^-1) )
242	45686da2	Leszek Koltunski
243	beb325a0	Leszek Koltunski	public static Static4D rotateVectorByQuat(Static4D vector, Static4D quat)
244	45686da2	Leszek Koltunski	{
245	348dfe69	Leszek Koltunski	float qx = quat.get0();
246			float qy = quat.get1();
247			float qz = quat.get2();
248			float qw = quat.get3();
249	45686da2	Leszek Koltunski
250	47ba5ddc	Leszek Koltunski	Static4D quatInverted= new Static4D(-qx,-qy,-qz,qw);
251	beb325a0	Leszek Koltunski	Static4D tmp = quatMultiply(quat,vector);
252	0c52af30	Leszek Koltunski
253	beb325a0	Leszek Koltunski	return quatMultiply(tmp,quatInverted);
254	0c52af30	Leszek Koltunski	}
255
256			///////////////////////////////////////////////////////////////////////////////////////////////////
257	beb325a0	Leszek Koltunski	// rotate 'vector' by quat^(-1) ( i.e. return (quat^-1)vectorquat )
258	0c52af30	Leszek Koltunski
259	beb325a0	Leszek Koltunski	public static Static4D rotateVectorByInvertedQuat(Static4D vector, Static4D quat)
260	0c52af30	Leszek Koltunski	{
261	348dfe69	Leszek Koltunski	float qx = quat.get0();
262			float qy = quat.get1();
263			float qz = quat.get2();
264			float qw = quat.get3();
265	0c52af30	Leszek Koltunski
266	47ba5ddc	Leszek Koltunski	Static4D quatInverted= new Static4D(-qx,-qy,-qz,qw);
267	beb325a0	Leszek Koltunski	Static4D tmp = quatMultiply(quatInverted,vector);
268	0c52af30	Leszek Koltunski
269	beb325a0	Leszek Koltunski	return quatMultiply(tmp,quat);
270	0c52af30	Leszek Koltunski	}
271
272	47ba5ddc	Leszek Koltunski	///////////////////////////////////////////////////////////////////////////////////////////////////
273			// PUBLIC API
274			///////////////////////////////////////////////////////////////////////////////////////////////////
275
276			public RubikSurfaceView(Context context, AttributeSet attrs)
277			{
278			super(context,attrs);
279
280			if(!isInEditMode())
281			{
282			mRenderer = new RubikRenderer(this);
283
284			final ActivityManager activityManager = (ActivityManager) context.getSystemService(Context.ACTIVITY_SERVICE);
285			final ConfigurationInfo configurationInfo = activityManager.getDeviceConfigurationInfo();
286			setEGLContextClientVersion( (configurationInfo.reqGlEsVersion>>16) >= 3 ? 3:2 );
287			setRenderer(mRenderer);
288			}
289			}
290
291			///////////////////////////////////////////////////////////////////////////////////////////////////
292
293			@Override
294			public boolean onTouchEvent(MotionEvent event)
295			{
296			int action = event.getAction();
297	775e675d	Leszek Koltunski	float x = (event.getX() - mScreenWidth*0.5f)/mScreenMin;
298			float y = (mScreenHeight*0.5f -event.getY())/mScreenMin;
299	47ba5ddc	Leszek Koltunski
300			switch(action)
301			{
302			case MotionEvent.ACTION_DOWN: mX = x;
303			mY = y;
304	bef47287	Leszek Koltunski	setUpDragOrRotate(x,y);
305	47ba5ddc	Leszek Koltunski	break;
306	517f9fb9	Leszek Koltunski	case MotionEvent.ACTION_MOVE: if( mBeginningRotation )
307	47ba5ddc	Leszek Koltunski	{
308	775e675d	Leszek Koltunski	if( (mX-x)(mX-x)+(mY-y)(mY-y) > 1.0f/(ROTATION_SENSITIVITY*ROTATION_SENSITIVITY) )
309	47ba5ddc	Leszek Koltunski	{
310	12ad3fca	Leszek Koltunski	mStartRotX = x;
311			mStartRotY = y;
312
313	86c73a69	Leszek Koltunski	Static4D touchPoint2 = new Static4D(x, y, 0, 0);
314			Static4D rotatedTouchPoint2= rotateVectorByInvertedQuat(touchPoint2, mQuatAccumulated);
315
316	e46e17fb	Leszek Koltunski	Static2D res = mMovement.newRotation(rotatedTouchPoint2);
317	27a70eae	Leszek Koltunski	RubikObject object = mRenderer.getObject();
318	775e675d	Leszek Koltunski
319	e46e17fb	Leszek Koltunski	int axis = (int)res.get0();
320			float offset = res.get1();
321	12ad3fca	Leszek Koltunski	computeCurrentAxis( object.getRotationAxis()[axis] );
322	e46e17fb	Leszek Koltunski	mRotationFactor = object.returnRotationFactor(offset);
323	12ad3fca	Leszek Koltunski
324	e46e17fb	Leszek Koltunski	object.beginNewRotation( axis, object.returnRowFromOffset(offset) );
325	775e675d	Leszek Koltunski
326	0333d81e	Leszek Koltunski	if( RubikState.getCurrentState()==RubikState.SOLV )
327			{
328			RubikStateSolving solving = (RubikStateSolving)RubikState.SOLV.getStateClass();
329			solving.startCounting( (RubikActivity)getContext() );
330			}
331
332	47ba5ddc	Leszek Koltunski	mBeginningRotation = false;
333			mContinuingRotation= true;
334			}
335			}
336			else if( mContinuingRotation )
337			{
338	12ad3fca	Leszek Koltunski	float angle = continueRotation(x-mStartRotX,y-mStartRotY);
339	27a70eae	Leszek Koltunski	mRenderer.getObject().continueRotation(SWIPING_SENSITIVITY*angle);
340	47ba5ddc	Leszek Koltunski	}
341	bef47287	Leszek Koltunski	else if( mDragging )
342	517f9fb9	Leszek Koltunski	{
343			mTempCurrent.set(quatFromDrag(mX-x,y-mY));
344			mRenderer.setQuatCurrentOnNextRender();
345
346			if( (mX-x)(mX-x) + (mY-y)(mY-y) > 1.0f/(DIRECTION_SENSITIVITY*DIRECTION_SENSITIVITY) )
347			{
348			mX = x;
349			mY = y;
350			mTempAccumulated.set(quatMultiply(mQuatCurrent, mQuatAccumulated));
351			mTempCurrent.set(0f, 0f, 0f, 1f);
352			mRenderer.setQuatCurrentOnNextRender();
353			mRenderer.setQuatAccumulatedOnNextRender();
354			}
355			}
356	8e2295ad	Leszek Koltunski	else if( mRenderer.canRotate() \|\| mRenderer.canDrag() )
357	bef47287	Leszek Koltunski	{
358			setUpDragOrRotate(x,y);
359			}
360	47ba5ddc	Leszek Koltunski	break;
361			case MotionEvent.ACTION_UP : if( mDragging )
362			{
363			mTempAccumulated.set(quatMultiply(mQuatCurrent, mQuatAccumulated));
364			mTempCurrent.set(0f, 0f, 0f, 1f);
365			mRenderer.setQuatCurrentOnNextRender();
366			mRenderer.setQuatAccumulatedOnNextRender();
367			}
368
369			if( mContinuingRotation )
370			{
371	beb325a0	Leszek Koltunski	mRenderer.finishRotation();
372	47ba5ddc	Leszek Koltunski	}
373			break;
374			}
375
376			return true;
377			}
378	0c52af30	Leszek Koltunski	}

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magiccube / src / main / java / org / distorted / magic / RubikSurfaceView.java @ 4c0cd600