/src/main/java/org/distorted/library/main/DistortedOutputSurface.java - Annotate - Distorted Android

library / src / main / java / org / distorted / library / main / DistortedOutputSurface.java @ 8b7b2398

1	c5369f1b	leszek	///////////////////////////////////////////////////////////////////////////////////////////////////
2			// Copyright 2016 Leszek Koltunski //
3			// //
4			// This file is part of Distorted. //
5			// //
6			// Distorted 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			// Distorted 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 Distorted. If not, see <http://www.gnu.org/licenses/>. //
18			///////////////////////////////////////////////////////////////////////////////////////////////////
19
20	fe82a979	Leszek Koltunski	package org.distorted.library.main;
21	c5369f1b	leszek
22	e6519ac8	Leszek Koltunski	import android.opengl.GLES31;
23	af4cc5db	Leszek Koltunski	import android.opengl.Matrix;
24	86e99907	leszek
25	3521c6fe	leszek	import org.distorted.library.effect.EffectQuality;
26	715e7726	Leszek Koltunski	import org.distorted.library.mesh.MeshBase;
27	3521c6fe	leszek
28	a09ada4c	Leszek Koltunski	import java.util.ArrayList;
29	af4cc5db	Leszek Koltunski
30			///////////////////////////////////////////////////////////////////////////////////////////////////
31	70b6a155	Leszek Koltunski	/**
32			* This is not really part of the public API.
33			*
34			* @y.exclude
35			*/
36			public abstract class DistortedOutputSurface extends DistortedSurface implements DistortedMaster.Slave
37	af4cc5db	Leszek Koltunski	{
38	89de975c	leszek	/**
39			* Do not create DEPTH or STENCIL attachment
40			*/
41	23eecbd9	Leszek Koltunski	public static final int NO_DEPTH_NO_STENCIL = 0;
42	89de975c	leszek	/**
43			* Create DEPTH, but not STENCIL
44			*/
45	23eecbd9	Leszek Koltunski	public static final int DEPTH_NO_STENCIL = 1;
46	89de975c	leszek	/**
47			* Create both DEPTH and STENCIL
48			*/
49	23eecbd9	Leszek Koltunski	public static final int BOTH_DEPTH_STENCIL = 2;
50	89de975c	leszek
51	efe3d8fe	leszek	private static final int ATTACH = 0;
52			private static final int DETACH = 1;
53			private static final int DETALL = 2;
54			private static final int SORT = 3;
55
56	a09ada4c	Leszek Koltunski	private ArrayList<DistortedNode> mChildren;
57			private int mNumChildren; // ==mChildren.length(), but we only create mChildren if the first one gets added
58	406e2f6b	Leszek Koltunski	private boolean mRenderWayOIT;
59	a09ada4c	Leszek Koltunski
60	efe3d8fe	leszek	private class Job
61			{
62			int type;
63			DistortedNode node;
64
65	ffbe7ecf	Leszek Koltunski	Job(int t, DistortedNode n)
66	efe3d8fe	leszek	{
67			type = t;
68			node = n;
69			}
70			}
71
72			private ArrayList<Job> mJobs = new ArrayList<>();
73
74	baa3989b	Leszek Koltunski	// Global buffers used for postprocessing.
75	9e771d06	Leszek Koltunski	private static DistortedFramebuffer[] mBuffer=null;
76	60c1c622	leszek
77	b1058021	Leszek Koltunski	float mFOV;
78	c2c08950	leszek	float mDistance, mNear;
79	af4cc5db	Leszek Koltunski	float[] mProjectionMatrix;
80
81	89de975c	leszek	int mDepthStencilCreated;
82			int mDepthStencil;
83	8ebbc730	Leszek Koltunski	int[] mDepthStencilH;
84			int[] mFBOH;
85			private long[] mTime;
86	a436ccc5	leszek
87	a9f41fa3	leszek	private float mClearR, mClearG, mClearB, mClearA;
88			private float mClearDepth;
89	23eecbd9	Leszek Koltunski	private int mClearStencil;
90	ad16ed3b	Leszek Koltunski	private int mClear;
91	78db8663	Leszek Koltunski	float mMipmap;
92
93	61441ce2	Leszek Koltunski	int mRealWidth; // the Surface can be backed up with a texture that is
94			int mRealHeight; // larger than the viewport we have to it.
95			// mWidth,mHeight are the sizes of the Viewport, those -
96			// sizes of the backing up texture.
97	a4b182d4	Leszek Koltunski
98	5f7e4f2c	Leszek Koltunski	int mCurrFBO; // internal current FBO (see Distorted.FBO_QUEUE_SIZE)
99
100	af4cc5db	Leszek Koltunski	///////////////////////////////////////////////////////////////////////////////////////////////////
101
102	8ebbc730	Leszek Koltunski	DistortedOutputSurface(int width, int height, int createColor, int numfbos, int numcolors, int depthStencil, int fbo, int type)
103	af4cc5db	Leszek Koltunski	{
104	8ebbc730	Leszek Koltunski	super(width,height,createColor,numfbos,numcolors,type);
105
106	406e2f6b	Leszek Koltunski	mRenderWayOIT = false;
107	5f7e4f2c	Leszek Koltunski	mCurrFBO = 0;
108	406e2f6b	Leszek Koltunski
109	8ebbc730	Leszek Koltunski	mDepthStencilH = new int[numfbos];
110			mFBOH = new int[numfbos];
111
112			mTime = new long[numfbos];
113			for(int i=0; i<mNumFBOs;i++) mTime[i]=0;
114	af4cc5db	Leszek Koltunski
115	a4b182d4	Leszek Koltunski	mRealWidth = width;
116			mRealHeight= height;
117
118	af4cc5db	Leszek Koltunski	mProjectionMatrix = new float[16];
119
120			mFOV = 60.0f;
121	54fe333a	leszek	mNear= 0.5f;
122	af4cc5db	Leszek Koltunski
123	23eecbd9	Leszek Koltunski	mDepthStencilCreated= (depthStencil== NO_DEPTH_NO_STENCIL ? DONT_CREATE:NOT_CREATED_YET);
124	89de975c	leszek	mDepthStencil = depthStencil;
125
126			mFBOH[0] = fbo;
127			mDepthStencilH[0]= 0;
128	a436ccc5	leszek
129	a9f41fa3	leszek	mClearR = 0.0f;
130			mClearG = 0.0f;
131			mClearB = 0.0f;
132			mClearA = 0.0f;
133
134			mClearDepth = 1.0f;
135	23eecbd9	Leszek Koltunski	mClearStencil = 0;
136	e6519ac8	Leszek Koltunski	mClear = GLES31.GL_DEPTH_BUFFER_BIT \| GLES31.GL_COLOR_BUFFER_BIT;
137	a9f41fa3	leszek
138	8426bd6a	Leszek Koltunski	mMipmap = 1.0f;
139	78db8663	Leszek Koltunski
140	af4cc5db	Leszek Koltunski	createProjection();
141			}
142
143	c5369f1b	leszek	///////////////////////////////////////////////////////////////////////////////////////////////////
144
145	be60d4ff	leszek	private void createProjection()
146	af4cc5db	Leszek Koltunski	{
147			if( mWidth>0 && mHeight>1 )
148			{
149			if( mFOV>0.0f ) // perspective projection
150			{
151	54fe333a	leszek	float a = 2.0f(float)Math.tan(mFOVMath.PI/360);
152	8426bd6a	Leszek Koltunski	float q = mWidth*mNear;
153			float c = mHeight*mNear;
154	54fe333a	leszek
155	c2c08950	leszek	float left = -q/2;
156			float right = +q/2;
157			float bottom = -c/2;
158			float top = +c/2;
159			float near = c/a;
160	54fe333a	leszek
161	8426bd6a	Leszek Koltunski	mDistance = mHeight/a;
162	af4cc5db	Leszek Koltunski	float far = 2*mDistance-near;
163
164			Matrix.frustumM(mProjectionMatrix, 0, left, right, bottom, top, near, far);
165			}
166			else // parallel projection
167			{
168	8426bd6a	Leszek Koltunski	float left = -mWidth/2.0f;
169			float right = +mWidth/2.0f;
170			float bottom = -mHeight/2.0f;
171			float top = +mHeight/2.0f;
172			float near = mWidth+mHeight-mHeight*(1.0f-mNear);
173			mDistance = mWidth+mHeight;
174			float far = mWidth+mHeight+mHeight*(1.0f-mNear);
175	af4cc5db	Leszek Koltunski
176			Matrix.orthoM(mProjectionMatrix, 0, left, right, bottom, top, near, far);
177			}
178			}
179			}
180
181	1d6d261e	Leszek Koltunski	///////////////////////////////////////////////////////////////////////////////////////////////////
182
183	56c6ca24	Leszek Koltunski	private static void createPostprocessingBuffers(int width, int height, float near)
184	1d6d261e	Leszek Koltunski	{
185	8b7b2398	Leszek Koltunski	final float CLEAR_R = 1.0f;
186			final float CLEAR_G = 1.0f;
187			final float CLEAR_B = 1.0f;
188			final float CLEAR_A = 0.0f;
189			final float CLEAR_D = 1.0f;
190			final int CLEAR_S = 0;
191
192	9e771d06	Leszek Koltunski	mBuffer = new DistortedFramebuffer[EffectQuality.LENGTH];
193	1d6d261e	Leszek Koltunski	float mipmap=1.0f;
194
195	baa3989b	Leszek Koltunski	for (int j=0; j<EffectQuality.LENGTH; j++)
196	1d6d261e	Leszek Koltunski	{
197	586b5fa1	Leszek Koltunski	mBuffer[j] = new DistortedFramebuffer(Distorted.FBO_QUEUE_SIZE,2,BOTH_DEPTH_STENCIL,TYPE_SYST, (int)(widthmipmap), (int)(heightmipmap) );
198	baa3989b	Leszek Koltunski	mBuffer[j].mMipmap = mipmap;
199			mBuffer[j].mNear = near; // copy mNear as well (for blitting- see PostprocessEffect.apply() )
200	8b7b2398	Leszek Koltunski	mBuffer[j].glClearColor(CLEAR_R, CLEAR_G, CLEAR_B, CLEAR_A);
201	a4b182d4	Leszek Koltunski
202	1d6d261e	Leszek Koltunski	mipmap *= EffectQuality.MULTIPLIER;
203			}
204
205			DistortedObject.toDo(); // create the FBOs immediately. This is safe as we must be holding the OpenGL context now.
206
207	8b7b2398	Leszek Koltunski	DistortedRenderState.colorDepthStencilOn();
208			GLES31.glClearColor(CLEAR_R, CLEAR_G, CLEAR_B, CLEAR_A);
209			GLES31.glClearDepthf(CLEAR_D);
210			GLES31.glClearStencil(CLEAR_S);
211	1d6d261e	Leszek Koltunski
212	baa3989b	Leszek Koltunski	for (int j=0; j<EffectQuality.LENGTH; j++)
213	1d6d261e	Leszek Koltunski	{
214	586b5fa1	Leszek Koltunski	for(int k=0; k<Distorted.FBO_QUEUE_SIZE; k++)
215			{
216			GLES31.glBindFramebuffer(GLES31.GL_FRAMEBUFFER, mBuffer[j].mFBOH[k]);
217			GLES31.glFramebufferTexture2D(GLES31.GL_FRAMEBUFFER, GLES31.GL_COLOR_ATTACHMENT0, GLES31.GL_TEXTURE_2D, mBuffer[j].mColorH[2*k+1], 0);
218			GLES31.glClear(GLES31.GL_COLOR_BUFFER_BIT \| GLES31.GL_DEPTH_BUFFER_BIT \| GLES31.GL_STENCIL_BUFFER_BIT);
219			GLES31.glFramebufferTexture2D(GLES31.GL_FRAMEBUFFER, GLES31.GL_COLOR_ATTACHMENT0, GLES31.GL_TEXTURE_2D, mBuffer[j].mColorH[2*k ], 0);
220			GLES31.glClear(GLES31.GL_COLOR_BUFFER_BIT);
221			}
222	1d6d261e	Leszek Koltunski	}
223	586b5fa1	Leszek Koltunski
224	8b7b2398	Leszek Koltunski	DistortedRenderState.colorDepthStencilRestore();
225
226	586b5fa1	Leszek Koltunski	GLES31.glBindFramebuffer(GLES31.GL_FRAMEBUFFER, 0);
227	1d6d261e	Leszek Koltunski	}
228
229	a4b182d4	Leszek Koltunski	///////////////////////////////////////////////////////////////////////////////////////////////////
230
231	ce154014	Leszek Koltunski	static synchronized void onDestroy()
232	a4b182d4	Leszek Koltunski	{
233	df5f8dd9	Leszek Koltunski	if( mBuffer!=null )
234	ce154014	Leszek Koltunski	{
235	df5f8dd9	Leszek Koltunski	for (int j = 0; j < EffectQuality.LENGTH; j++)
236			{
237			mBuffer[j] = null;
238			}
239
240			mBuffer = null;
241	ce154014	Leszek Koltunski	}
242			}
243	a4b182d4	Leszek Koltunski
244	ce154014	Leszek Koltunski	///////////////////////////////////////////////////////////////////////////////////////////////////
245	ae2802b1	Leszek Koltunski	// The postprocessing buffers mBuffer[] are generally speaking too large (there's just one static
246	2aef1f4d	Leszek Koltunski	// set of them) so before we use them for output, we need to adjust the Viewport as if they were
247	ae2802b1	Leszek Koltunski	// smaller. That takes care of outputting pixels to them. When we use them as input, we have to
248			// adjust the texture coords - see the get{Width\|Height}Correction functions.
249	b1058021	Leszek Koltunski	//
250			// Also, adjust the Buffers so their Projection is the same like the surface we are supposed to be
251			// rendering to.
252	a4b182d4	Leszek Koltunski
253	b1058021	Leszek Koltunski	private static void clonePostprocessingViewportAndProjection(DistortedOutputSurface from)
254	ce154014	Leszek Koltunski	{
255	b1058021	Leszek Koltunski	if( mBuffer[0].mWidth != from.mWidth \|\| mBuffer[0].mHeight != from.mHeight \|\|
256			mBuffer[0].mFOV != from.mFOV \|\| mBuffer[0].mNear != from.mNear )
257	a4b182d4	Leszek Koltunski	{
258	ce154014	Leszek Koltunski	DistortedOutputSurface surface;
259
260			for(int i=0; i<EffectQuality.LENGTH; i++)
261			{
262	baa3989b	Leszek Koltunski	surface = mBuffer[i];
263	ce154014	Leszek Koltunski
264	baa3989b	Leszek Koltunski	surface.mWidth = (int)(from.mWidth *surface.mMipmap);
265			surface.mHeight = (int)(from.mHeight*surface.mMipmap);
266	b1058021	Leszek Koltunski	surface.mFOV = from.mFOV;
267	baa3989b	Leszek Koltunski	surface.mNear = from.mNear; // Near plane is independent of the mipmap level
268	ce154014	Leszek Koltunski
269	baa3989b	Leszek Koltunski	surface.createProjection();
270	ce154014	Leszek Koltunski
271	baa3989b	Leszek Koltunski	int maxw = surface.mWidth > surface.mRealWidth ? surface.mWidth : surface.mRealWidth;
272			int maxh = surface.mHeight > surface.mRealHeight ? surface.mHeight : surface.mRealHeight;
273	a4b182d4	Leszek Koltunski
274	baa3989b	Leszek Koltunski	if (maxw > surface.mRealWidth \|\| maxh > surface.mRealHeight)
275			{
276			surface.mRealWidth = maxw;
277			surface.mRealHeight = maxh;
278	ce154014	Leszek Koltunski
279	baa3989b	Leszek Koltunski	surface.recreate();
280			surface.create();
281	ce154014	Leszek Koltunski	}
282			}
283	a4b182d4	Leszek Koltunski	}
284			}
285
286	97020807	Leszek Koltunski	///////////////////////////////////////////////////////////////////////////////////////////////////
287
288			private int blitWithDepth(long currTime, DistortedOutputSurface buffer,int fbo)
289			{
290			GLES31.glViewport(0, 0, mWidth, mHeight);
291	5f7e4f2c	Leszek Koltunski	setAsOutput(currTime);
292	97020807	Leszek Koltunski	GLES31.glActiveTexture(GLES31.GL_TEXTURE0);
293			GLES31.glBindTexture(GLES31.GL_TEXTURE_2D, buffer.mColorH[2*fbo]);
294			GLES31.glActiveTexture(GLES31.GL_TEXTURE1);
295			GLES31.glBindTexture(GLES31.GL_TEXTURE_2D, buffer.mDepthStencilH[fbo]);
296
297			GLES31.glDisable(GLES31.GL_STENCIL_TEST);
298			GLES31.glStencilMask(0x00);
299
300			DistortedEffects.blitDepthPriv(this, buffer.getWidthCorrection(), buffer.getHeightCorrection() );
301			GLES31.glActiveTexture(GLES31.GL_TEXTURE0);
302			GLES31.glBindTexture(GLES31.GL_TEXTURE_2D, 0);
303			GLES31.glActiveTexture(GLES31.GL_TEXTURE1);
304			GLES31.glBindTexture(GLES31.GL_TEXTURE_2D, 0);
305
306			// clear buffers
307			GLES31.glStencilMask(0xff);
308			GLES31.glDepthMask(true);
309			GLES31.glColorMask(true,true,true,true);
310	8b7b2398	Leszek Koltunski	GLES31.glClearColor(buffer.mClearR,buffer.mClearG,buffer.mClearB,buffer.mClearA);
311			GLES31.glClearDepthf(buffer.mClearDepth);
312			GLES31.glClearStencil(buffer.mClearStencil);
313	97020807	Leszek Koltunski
314	5f7e4f2c	Leszek Koltunski	buffer.setAsOutput();
315	97020807	Leszek Koltunski	GLES31.glFramebufferTexture2D(GLES31.GL_FRAMEBUFFER, GLES31.GL_COLOR_ATTACHMENT0, GLES31.GL_TEXTURE_2D, buffer.mColorH[2*fbo+1], 0);
316			GLES31.glClear(GLES31.GL_COLOR_BUFFER_BIT\|GLES31.GL_DEPTH_BUFFER_BIT\|GLES31.GL_STENCIL_BUFFER_BIT);
317			GLES31.glFramebufferTexture2D(GLES31.GL_FRAMEBUFFER, GLES31.GL_COLOR_ATTACHMENT0, GLES31.GL_TEXTURE_2D, buffer.mColorH[2*fbo ], 0);
318			GLES31.glClear(GLES31.GL_COLOR_BUFFER_BIT);
319
320			return 1;
321			}
322
323	66a0fa17	Leszek Koltunski	///////////////////////////////////////////////////////////////////////////////////////////////////
324
325			private static void oitClear(DistortedOutputSurface buffer)
326			{
327	12f9e4bb	Leszek Koltunski	int counter = DistortedEffects.zeroOutAtomic();
328			DistortedEffects.oitClear(buffer,counter);
329	66a0fa17	Leszek Koltunski	GLES31.glMemoryBarrier(GLES31.GL_SHADER_STORAGE_BARRIER_BIT\|GLES31.GL_ATOMIC_COUNTER_BARRIER_BIT);
330			}
331
332	6b962e80	Leszek Koltunski	///////////////////////////////////////////////////////////////////////////////////////////////////
333
334	8ebbc730	Leszek Koltunski	private int oitBuild(long time, DistortedOutputSurface buffer, int fbo)
335	6b962e80	Leszek Koltunski	{
336	e6519ac8	Leszek Koltunski	GLES31.glViewport(0, 0, mWidth, mHeight);
337	5f7e4f2c	Leszek Koltunski	setAsOutput(time);
338	e6519ac8	Leszek Koltunski	GLES31.glActiveTexture(GLES31.GL_TEXTURE0);
339	586b5fa1	Leszek Koltunski	GLES31.glBindTexture(GLES31.GL_TEXTURE_2D, buffer.mColorH[2*fbo]);
340	e6519ac8	Leszek Koltunski	GLES31.glActiveTexture(GLES31.GL_TEXTURE1);
341	586b5fa1	Leszek Koltunski	GLES31.glBindTexture(GLES31.GL_TEXTURE_2D, buffer.mDepthStencilH[fbo]);
342	6b962e80	Leszek Koltunski
343	56c6ca24	Leszek Koltunski	DistortedRenderState.colorDepthStencilOn();
344			DistortedRenderState.enableDepthTest();
345	6b962e80	Leszek Koltunski
346	56c6ca24	Leszek Koltunski	DistortedEffects.oitBuild(this, buffer.getWidthCorrection(), buffer.getHeightCorrection() );
347	e6519ac8	Leszek Koltunski	GLES31.glActiveTexture(GLES31.GL_TEXTURE0);
348			GLES31.glBindTexture(GLES31.GL_TEXTURE_2D, 0);
349			GLES31.glActiveTexture(GLES31.GL_TEXTURE1);
350			GLES31.glBindTexture(GLES31.GL_TEXTURE_2D, 0);
351	6b962e80	Leszek Koltunski
352	56c6ca24	Leszek Koltunski	DistortedRenderState.colorDepthStencilRestore();
353			DistortedRenderState.restoreDepthTest();
354
355	8777ce17	Leszek Koltunski	return 1;
356			}
357
358			///////////////////////////////////////////////////////////////////////////////////////////////////
359	baa3989b	Leszek Koltunski	// two phases: 1. collapse the SSBO 2. blend the ssbo's color
360	8777ce17	Leszek Koltunski
361	1f19fba8	Leszek Koltunski	private int oitRender(long currTime, int fbo)
362	8777ce17	Leszek Koltunski	{
363	c207da02	Leszek Koltunski	float corrW = getWidthCorrection();
364			float corrH = getHeightCorrection();
365	c8d70463	Leszek Koltunski
366	5fdae11d	Leszek Koltunski	// Do the Collapse Pass only if we do have a Depth attachment.
367			// Otherwise there's no point (in fact we then would create a feedback loop!)
368	88c7b603	Leszek Koltunski
369	1f19fba8	Leszek Koltunski	if( mDepthStencilH[fbo] != 0 )
370	5fdae11d	Leszek Koltunski	{
371			GLES31.glBindFramebuffer(GLES31.GL_FRAMEBUFFER, 0);
372			GLES31.glActiveTexture(GLES31.GL_TEXTURE1);
373	1f19fba8	Leszek Koltunski	GLES31.glBindTexture(GLES31.GL_TEXTURE_2D, mDepthStencilH[fbo]);
374	5fdae11d	Leszek Koltunski	DistortedRenderState.switchOffColorDepthStencil();
375			DistortedEffects.oitCollapse(this, corrW, corrH);
376			GLES31.glBindTexture(GLES31.GL_TEXTURE_2D, 0);
377			}
378	8777ce17	Leszek Koltunski
379	5f7e4f2c	Leszek Koltunski	setAsOutput(currTime);
380	33f59f22	Leszek Koltunski	DistortedRenderState.switchColorDepthOnStencilOff();
381			DistortedEffects.oitRender(this, corrW, corrH);
382			DistortedRenderState.restoreColorDepthStencil();
383
384	8777ce17	Leszek Koltunski	return 1;
385			}
386
387	88c7b603	Leszek Koltunski	///////////////////////////////////////////////////////////////////////////////////////////////////
388
389			void clear()
390			{
391			DistortedRenderState.colorDepthStencilOn();
392			GLES31.glClearColor(mClearR, mClearG, mClearB, mClearA);
393			GLES31.glClearDepthf(mClearDepth);
394			GLES31.glClearStencil(mClearStencil);
395			GLES31.glClear(mClear);
396			DistortedRenderState.colorDepthStencilRestore();
397			}
398
399	5f7e4f2c	Leszek Koltunski	///////////////////////////////////////////////////////////////////////////////////////////////////
400
401			void setCurrFBO(int fbo)
402			{
403			mCurrFBO = fbo;
404			}
405
406	af4cc5db	Leszek Koltunski	///////////////////////////////////////////////////////////////////////////////////////////////////
407	e02264ff	leszek	// Render all children, one by one. If there are no postprocessing effects, just render to THIS.
408			// Otherwise, render to a buffer and on each change of Postprocessing Bucket, apply the postprocessing
409	9a3607b3	Leszek Koltunski	// to a whole buffer (lastQueue.postprocess) and merge it (this.oitBuild or blitWithDepth - depending
410			// on the type of rendering)
411	39086ebb	leszek
412	406e2f6b	Leszek Koltunski	int renderChildren(long time, int numChildren, ArrayList<DistortedNode> children, int fbo, boolean oit)
413	b2939df4	Leszek Koltunski	{
414	2386a081	Leszek Koltunski	int quality=0, numRenders=0, bucketChange=0;
415			DistortedNode child;
416	70b6a155	Leszek Koltunski	EffectQueuePostprocess lastQueue=null, currQueue;
417	33f59f22	Leszek Koltunski	long lastBucket=0, currBucket;
418	9e771d06	Leszek Koltunski	boolean renderDirectly=false;
419	56c6ca24	Leszek Koltunski
420	5f7e4f2c	Leszek Koltunski	setCurrFBO(fbo);
421
422			if( mBuffer!=null )
423			{
424	9e771d06	Leszek Koltunski	for (int i=0; i<EffectQuality.LENGTH; i++) mBuffer[i].setCurrFBO(fbo);
425	5f7e4f2c	Leszek Koltunski	}
426
427	c1a38ba3	Leszek Koltunski	if( oit && numChildren>0 )
428			{
429			oitClear(this);
430			}
431
432	8e28b6ff	leszek	for(int i=0; i<numChildren; i++)
433	39086ebb	leszek	{
434	2386a081	Leszek Koltunski	child = children.get(i);
435			currQueue = child.getPostprocessQueue();
436	70b6a155	Leszek Koltunski	currBucket= currQueue.getID();
437	b9798977	leszek
438	56c6ca24	Leszek Koltunski	if( currBucket==0 )
439			{
440	5f7e4f2c	Leszek Koltunski	setAsOutput(time);
441	c1a38ba3	Leszek Koltunski
442			if( oit )
443			{
444	2386a081	Leszek Koltunski	numRenders += child.drawOIT(time, this);
445	c1a38ba3	Leszek Koltunski	GLES31.glMemoryBarrier(GLES31.GL_SHADER_STORAGE_BARRIER_BIT \| GLES31.GL_ATOMIC_COUNTER_BARRIER_BIT);
446			}
447			else
448			{
449	2386a081	Leszek Koltunski	numRenders += child.draw(time, this);
450	c1a38ba3	Leszek Koltunski	}
451	56c6ca24	Leszek Koltunski	}
452	60c1c622	leszek	else
453			{
454	5f7e4f2c	Leszek Koltunski	if( mBuffer==null )
455			{
456			createPostprocessingBuffers(mWidth,mHeight,mNear);
457	9e771d06	Leszek Koltunski	for (int j=0; j<EffectQuality.LENGTH; j++) mBuffer[j].setCurrFBO(fbo);
458	5f7e4f2c	Leszek Koltunski	}
459	c9a24bfb	Leszek Koltunski
460	915b7b2b	leszek	if( lastBucket!=currBucket )
461	c9a24bfb	Leszek Koltunski	{
462	375b3950	Leszek Koltunski	if( lastBucket==0 )
463			{
464	b1058021	Leszek Koltunski	clonePostprocessingViewportAndProjection(this);
465	375b3950	Leszek Koltunski	}
466			else
467	c9a24bfb	Leszek Koltunski	{
468	9e771d06	Leszek Koltunski	for(int j=bucketChange; j<i; j++) numRenders += lastQueue.preprocess( mBuffer[quality],children.get(j) );
469			numRenders += lastQueue.postprocess(mBuffer[quality]);
470	406e2f6b	Leszek Koltunski
471			if( oit )
472			{
473			numRenders += oitBuild(time, mBuffer[quality], fbo);
474			GLES31.glMemoryBarrier(GLES31.GL_SHADER_STORAGE_BARRIER_BIT \| GLES31.GL_ATOMIC_COUNTER_BARRIER_BIT);
475			}
476			else
477			{
478			numRenders += blitWithDepth(time, mBuffer[quality],fbo);
479			}
480	61ce8e90	Leszek Koltunski	mBuffer[quality].clearBuffer(fbo);
481	c9a24bfb	Leszek Koltunski	}
482	660cd468	leszek
483	9e771d06	Leszek Koltunski	quality= currQueue.getQuality();
484	2386a081	Leszek Koltunski	bucketChange= i;
485	9e771d06	Leszek Koltunski	renderDirectly = currQueue.getRender();
486	c9a24bfb	Leszek Koltunski	}
487
488	9e771d06	Leszek Koltunski	if( renderDirectly )
489			{
490			setAsOutput(time);
491
492			if( oit )
493			{
494			numRenders += child.drawOIT(time, this);
495			GLES31.glMemoryBarrier(GLES31.GL_SHADER_STORAGE_BARRIER_BIT \| GLES31.GL_ATOMIC_COUNTER_BARRIER_BIT);
496			}
497			else
498			{
499			numRenders += child.draw(time, this);
500			}
501			}
502			else
503			{
504			mBuffer[quality].setAsOutput(time);
505			child.drawNoBlend(time, mBuffer[quality]);
506			}
507	c9a24bfb	Leszek Koltunski
508	8e28b6ff	leszek	if( i==numChildren-1 )
509	cf7394cc	leszek	{
510	9e771d06	Leszek Koltunski	for(int j=bucketChange; j<numChildren; j++) numRenders += currQueue.preprocess( mBuffer[quality],children.get(j) );
511			numRenders += currQueue.postprocess(mBuffer[quality]);
512	406e2f6b	Leszek Koltunski
513			if( oit )
514			{
515			numRenders += oitBuild(time, mBuffer[quality], fbo);
516			GLES31.glMemoryBarrier(GLES31.GL_SHADER_STORAGE_BARRIER_BIT \| GLES31.GL_ATOMIC_COUNTER_BARRIER_BIT);
517			mBuffer[quality].clearBuffer(fbo);
518			}
519			else
520			{
521			numRenders += blitWithDepth(time, mBuffer[quality],fbo);
522			}
523	cf7394cc	leszek	}
524	56c6ca24	Leszek Koltunski	} // end else (postprocessed child)
525	b9798977	leszek
526	70b6a155	Leszek Koltunski	lastQueue = currQueue;
527			lastBucket= currBucket;
528	56c6ca24	Leszek Koltunski	} // end main for loop
529
530	c1a38ba3	Leszek Koltunski	if( oit && numChildren>0 )
531			{
532			numRenders += oitRender(time, fbo); // merge the OIT linked list
533			}
534
535	39086ebb	leszek	return numRenders;
536			}
537
538	be60d4ff	leszek	///////////////////////////////////////////////////////////////////////////////////////////////////
539
540	26a4e5f6	leszek	ArrayList<DistortedNode> getChildren()
541	be60d4ff	leszek	{
542	26a4e5f6	leszek	return mChildren;
543	be60d4ff	leszek	}
544
545	ae2802b1	Leszek Koltunski	///////////////////////////////////////////////////////////////////////////////////////////////////
546			/**
547			* Not part of the Public API.
548			*
549			* @y.exclude
550			*/
551			public float getWidthCorrection()
552			{
553			return (float)mWidth/mRealWidth;
554			}
555
556			///////////////////////////////////////////////////////////////////////////////////////////////////
557			/**
558			* Not part of the Public API.
559			*
560			* @y.exclude
561			*/
562			public float getHeightCorrection()
563			{
564			return (float)mHeight/mRealHeight;
565			}
566
567	61ce8e90	Leszek Koltunski	///////////////////////////////////////////////////////////////////////////////////////////////////
568
569	9e771d06	Leszek Koltunski	void clearBuffer(int fbo)
570	61ce8e90	Leszek Koltunski	{
571	a07e0204	Leszek Koltunski	DistortedRenderState.colorDepthStencilOn();
572
573			GLES31.glClearColor(mClearR, mClearG, mClearB, mClearA);
574			GLES31.glClearDepthf(mClearDepth);
575			GLES31.glClearStencil(mClearStencil);
576	61ce8e90	Leszek Koltunski
577			GLES31.glBindFramebuffer(GLES31.GL_FRAMEBUFFER, mFBOH[fbo]);
578			GLES31.glFramebufferTexture2D(GLES31.GL_FRAMEBUFFER, GLES31.GL_COLOR_ATTACHMENT0, GLES31.GL_TEXTURE_2D, mColorH[2*fbo+1], 0);
579			GLES31.glClear(GLES31.GL_COLOR_BUFFER_BIT\|GLES31.GL_DEPTH_BUFFER_BIT\|GLES31.GL_STENCIL_BUFFER_BIT);
580			GLES31.glFramebufferTexture2D(GLES31.GL_FRAMEBUFFER, GLES31.GL_COLOR_ATTACHMENT0, GLES31.GL_TEXTURE_2D, mColorH[2*fbo ], 0);
581			GLES31.glClear(GLES31.GL_COLOR_BUFFER_BIT);
582	a07e0204	Leszek Koltunski
583			DistortedRenderState.colorDepthStencilRestore();
584	61ce8e90	Leszek Koltunski	}
585
586	b2939df4	Leszek Koltunski	///////////////////////////////////////////////////////////////////////////////////////////////////
587			// PUBLIC API
588	39086ebb	leszek	///////////////////////////////////////////////////////////////////////////////////////////////////
589	c5369f1b	leszek	/**
590	8ebbc730	Leszek Koltunski	* Draws all the attached children to this OutputSurface's 0th FBO.
591	af4cc5db	Leszek Koltunski	* <p>
592			* Must be called from a thread holding OpenGL Context.
593			*
594	d9706fd2	Leszek Koltunski	* @param time Current time, in milliseconds. This will be passed to all the Effects stored in the children Nodes.
595	7691a39f	leszek	* @return Number of objects rendered.
596	c5369f1b	leszek	*/
597	b2939df4	Leszek Koltunski	public int render(long time)
598	8ebbc730	Leszek Koltunski	{
599			return render(time,0);
600			}
601
602			///////////////////////////////////////////////////////////////////////////////////////////////////
603			/**
604			* Draws all the attached children to this OutputSurface.
605			* <p>
606			* Must be called from a thread holding OpenGL Context.
607			*
608			* @param time Current time, in milliseconds. This will be passed to all the Effects stored in the children Nodes.
609			* @param fbo The surface can have many FBOs backing it up - render this to FBO number 'fbo'.
610			* @return Number of objects rendered.
611			*/
612			public int render(long time, int fbo)
613	af4cc5db	Leszek Koltunski	{
614	c204c69d	leszek	// change tree topology (attach and detach children)
615	889cce10	Leszek Koltunski	/*
616	42571056	Leszek Koltunski	boolean changed1 =
617	889cce10	Leszek Koltunski	*/
618	efe3d8fe	leszek	DistortedMaster.toDo();
619	eadf0859	leszek	/*
620	42571056	Leszek Koltunski	if( changed1 )
621	c204c69d	leszek	{
622			for(int i=0; i<mNumChildren; i++)
623			{
624	af27df87	leszek	mChildren.get(i).debug(0);
625	c204c69d	leszek	}
626	af27df87	leszek
627	7691a39f	leszek	DistortedNode.debugMap();
628	c204c69d	leszek	}
629	eadf0859	leszek	*/
630	09ab7524	Leszek Koltunski	// create and delete all underlying OpenGL resources
631			// Watch out: FIRST change topology, only then deal
632			// with OpenGL resources. That's because changing Tree
633			// can result in additional Framebuffers that would need
634			// to be created immediately, before the calls to drawRecursive()
635	42571056	Leszek Koltunski	/*
636			boolean changed2 =
637			*/
638	f8377ef8	leszek	toDo();
639	eadf0859	leszek	/*
640	42571056	Leszek Koltunski	if( changed2 )
641	af27df87	leszek	{
642	226144d0	leszek	DistortedObject.debugLists();
643	42571056	Leszek Koltunski	}
644	eadf0859	leszek	*/
645	c834348d	leszek	// mark OpenGL state as unknown
646			DistortedRenderState.reset();
647	2ed1c692	leszek
648	b2939df4	Leszek Koltunski	int numRenders=0;
649	7691a39f	leszek
650	d9706fd2	Leszek Koltunski	for(int i=0; i<mNumChildren; i++)
651	af4cc5db	Leszek Koltunski	{
652	b2939df4	Leszek Koltunski	numRenders += mChildren.get(i).renderRecursive(time);
653	af4cc5db	Leszek Koltunski	}
654	7691a39f	leszek
655	406e2f6b	Leszek Koltunski	numRenders += renderChildren(time,mNumChildren,mChildren,fbo, mRenderWayOIT);
656	b2939df4	Leszek Koltunski
657	7691a39f	leszek	return numRenders;
658	af4cc5db	Leszek Koltunski	}
659
660			///////////////////////////////////////////////////////////////////////////////////////////////////
661	c5369f1b	leszek	/**
662			* Bind this Surface as a Framebuffer we can render to.
663	02ab6f9d	leszek	*
664			* @param time Present time, in milliseconds. The point: looking at this param the library can figure
665			* out if this is the first time during present frame that this FBO is being set as output.
666			* If so, the library, in addition to binding the Surface for output, also clears the
667			* Surface's color and depth attachments.
668	c5369f1b	leszek	*/
669	95c441a2	leszek	public void setAsOutput(long time)
670	a436ccc5	leszek	{
671	5f7e4f2c	Leszek Koltunski	GLES31.glBindFramebuffer(GLES31.GL_FRAMEBUFFER, mFBOH[mCurrFBO]);
672	95c441a2	leszek
673	5f7e4f2c	Leszek Koltunski	if( mTime[mCurrFBO]!=time )
674	95c441a2	leszek	{
675	5f7e4f2c	Leszek Koltunski	mTime[mCurrFBO] = time;
676	88c7b603	Leszek Koltunski	clear();
677	95c441a2	leszek	}
678	a436ccc5	leszek	}
679	af4cc5db	Leszek Koltunski
680	1dfc9074	leszek	///////////////////////////////////////////////////////////////////////////////////////////////////
681			/**
682			* Bind this Surface as a Framebuffer we can render to.
683			* <p>
684			* This version does not attempt to clear anything.
685			*/
686			public void setAsOutput()
687			{
688	5f7e4f2c	Leszek Koltunski	GLES31.glBindFramebuffer(GLES31.GL_FRAMEBUFFER, mFBOH[mCurrFBO]);
689	1dfc9074	leszek	}
690
691			///////////////////////////////////////////////////////////////////////////////////////////////////
692			/**
693			* Return the Near plane of the Projection included in the Surface.
694			*
695			* @return the Near plane.
696			*/
697			public float getNear()
698			{
699			return mNear;
700			}
701
702	638b5b5c	leszek	///////////////////////////////////////////////////////////////////////////////////////////////////
703			/**
704			* Set mipmap level.
705			* <p>
706			* Trick for speeding up your renders - one can create a pyramid of OutputSurface objects, each next
707			* one some constant FACTOR smaller than the previous (0.5 is the common value), then set the Mipmap
708			* Level of the i-th object to be FACTOR^i (we start counting from 0). When rendering any scene into
709			* such prepared OutputSurface, the library will make sure to scale any Effects used so that the end
710			* scene will end up looking identical no matter which object we render to. Identical, that is, except
711			* for the loss of quality and gain in speed associated with rendering to a smaller Surface.
712	8426bd6a	Leszek Koltunski	* <p>
713			* Example: if you create two FBOs, one 1000x1000 and another 500x500 in size, and set the second one
714			* mipmap to 0.5 (the first one's is 1.0 by default), define Effects to be a single move by (100,100),
715			* and render a skinned Mesh into both FBO, the end result will look proportionally the same, because
716			* in the second case the move vector (100,100) will be auto-scaled to (50,50).
717	638b5b5c	leszek	*
718			* @param mipmap The mipmap level. Acceptable range: 0<mipmap<infinity, although mipmap>1
719			* does not make any sense (that would result in loss of speed and no gain in quality)
720			*/
721			public void setMipmap(float mipmap)
722			{
723			mMipmap = mipmap;
724			}
725
726	a9f41fa3	leszek	///////////////////////////////////////////////////////////////////////////////////////////////////
727			/**
728	e6519ac8	Leszek Koltunski	* Set the (R,G,B,A) values of GLES31.glClearColor() to set up color with which to clear
729	ad16ed3b	Leszek Koltunski	* this Surface at the beginning of each frame.
730	a9f41fa3	leszek	*
731			* @param r the Red component. Default: 0.0f
732			* @param g the Green component. Default: 0.0f
733			* @param b the Blue component. Default: 0.0f
734			* @param a the Alpha component. Default: 0.0f
735			*/
736			public void glClearColor(float r, float g, float b, float a)
737			{
738			mClearR = r;
739			mClearG = g;
740			mClearB = b;
741			mClearA = a;
742			}
743
744			///////////////////////////////////////////////////////////////////////////////////////////////////
745			/**
746	23eecbd9	Leszek Koltunski	* Uses glClearDepthf() to set up a value with which to clear
747			* the Depth buffer of our Surface at the beginning of each frame.
748	a9f41fa3	leszek	*
749			* @param d the Depth. Default: 1.0f
750			*/
751			public void glClearDepthf(float d)
752			{
753			mClearDepth = d;
754			}
755
756	23eecbd9	Leszek Koltunski	///////////////////////////////////////////////////////////////////////////////////////////////////
757			/**
758			* Uses glClearStencil() to set up a value with which to clear the
759			* Stencil buffer of our Surface at the beginning of each frame.
760			*
761			* @param s the Stencil. Default: 0
762			*/
763			public void glClearStencil(int s)
764			{
765			mClearStencil = s;
766			}
767
768	ad16ed3b	Leszek Koltunski	///////////////////////////////////////////////////////////////////////////////////////////////////
769			/**
770			* Which buffers to Clear at the beginning of each frame?
771			* <p>
772			* Valid values: 0, or bitwise OR of one or more values from the set GL_COLOR_BUFFER_BIT,
773			* GL_DEPTH_BUFFER_BIT, GL_STENCIL_BUFFER_BIT.
774			* Default: GL_DEPTH_BUFFER_BIT \| GL_COLOR_BUFFER_BIT.
775			*
776			* @param mask bitwise OR of BUFFER_BITs to clear.
777			*/
778			public void glClear(int mask)
779			{
780			mClear = mask;
781			}
782
783	af4cc5db	Leszek Koltunski	///////////////////////////////////////////////////////////////////////////////////////////////////
784			/**
785			* Create new Projection matrix.
786			*
787			* @param fov Vertical 'field of view' of the Projection frustrum (in degrees).
788	54fe333a	leszek	* Valid values: 0<=fov<180. FOV==0 means 'parallel projection'.
789			* @param near Distance between the screen plane and the near plane.
790	61441ce2	Leszek Koltunski	* Valid vaules: 0<near<1. When near==0 (illegal!), the Near Plane is exactly at the tip of
791			* the pyramid. When near==1 (illegal!) the near plane is equivalent to the screen plane.
792	af4cc5db	Leszek Koltunski	*/
793	54fe333a	leszek	public void setProjection(float fov, float near)
794	af4cc5db	Leszek Koltunski	{
795	8069e806	Leszek Koltunski	if( fov < 180.0f && fov >=0.0f )
796			{
797			mFOV = fov;
798			}
799
800			if( near< 1.0f && near> 0.0f )
801			{
802			mNear= near;
803			}
804			else if( near<=0.0f )
805			{
806			mNear = 0.01f;
807			}
808			else if( near>=1.0f )
809			{
810			mNear=0.99f;
811			}
812	af4cc5db	Leszek Koltunski
813	61ce8e90	Leszek Koltunski	if( mBuffer!=null )
814			{
815			for(int j=0; j<EffectQuality.LENGTH; j++) mBuffer[j].mNear = mNear;
816			}
817
818	af4cc5db	Leszek Koltunski	createProjection();
819			}
820
821			///////////////////////////////////////////////////////////////////////////////////////////////////
822	c5369f1b	leszek	/**
823	af4cc5db	Leszek Koltunski	* Resize the underlying Framebuffer.
824	c7da4e65	leszek	* <p>
825			* This method can be safely called mid-render as it doesn't interfere with rendering.
826	af4cc5db	Leszek Koltunski	*
827			* @param width The new width.
828			* @param height The new height.
829	c5369f1b	leszek	*/
830	af4cc5db	Leszek Koltunski	public void resize(int width, int height)
831			{
832			if( mWidth!=width \|\| mHeight!=height )
833			{
834	a4b182d4	Leszek Koltunski	mWidth = mRealWidth = width;
835			mHeight= mRealHeight= height;
836	f8377ef8	leszek
837			createProjection();
838
839	c7da4e65	leszek	if( mColorCreated==CREATED )
840	f8377ef8	leszek	{
841	f28fffc2	Leszek Koltunski	markForCreation();
842	f8377ef8	leszek	recreate();
843			}
844	af4cc5db	Leszek Koltunski	}
845			}
846	a09ada4c	Leszek Koltunski
847	a436ccc5	leszek	///////////////////////////////////////////////////////////////////////////////////////////////////
848			/**
849	89de975c	leszek	* Return true if the Surface contains a DEPTH attachment.
850	a436ccc5	leszek	*
851	89de975c	leszek	* @return <bold>true</bold> if the Surface contains a DEPTH attachment.
852	a436ccc5	leszek	*/
853	89de975c	leszek	public boolean hasDepth()
854	a436ccc5	leszek	{
855	89de975c	leszek	return mDepthStencilCreated==CREATED;
856	a436ccc5	leszek	}
857
858			///////////////////////////////////////////////////////////////////////////////////////////////////
859			/**
860	89de975c	leszek	* Return true if the Surface contains a STENCIL attachment.
861	a436ccc5	leszek	*
862	89de975c	leszek	* @return <bold>true</bold> if the Surface contains a STENCIL attachment.
863	a436ccc5	leszek	*/
864	89de975c	leszek	public boolean hasStencil()
865	a436ccc5	leszek	{
866	89de975c	leszek	return (mDepthStencilCreated==CREATED && mDepthStencil==BOTH_DEPTH_STENCIL);
867	a436ccc5	leszek	}
868
869	406e2f6b	Leszek Koltunski	///////////////////////////////////////////////////////////////////////////////////////////////////
870			/**
871			* When rendering this Node, should we use the Order Independent Transparency render more?
872			* <p>
873			* There are two modes of rendering: the fast 'normal' way, which however renders transparent
874			* fragments in different ways depending on which fragments get rendered first, or the slower
875			* 'oit' way, which renders transparent fragments correctly regardless of their order.
876			*
877			* @param oit True if we want to render more slowly, but in a way which accounts for transparency.
878			*/
879			public void setOrderIndependentTransparency(boolean oit)
880			{
881			mRenderWayOIT = oit;
882			}
883
884	12f9e4bb	Leszek Koltunski	///////////////////////////////////////////////////////////////////////////////////////////////////
885			/**
886			* When rendering this Node, should we use the Order Independent Transparency render more?
887			* <p>
888			* There are two modes of rendering: the fast 'normal' way, which however renders transparent
889			* fragments in different ways depending on which fragments get rendered first, or the slower
890			* 'oit' way, which renders transparent fragments correctly regardless of their order.
891			*
892			* @param oit True if we want to render more slowly, but in a way which accounts for transparency.
893			* @param initialSize Initial number of transparent fragments we expect, in screenfuls.
894			* I.e '1.0' means 'the scene we are going to render contains about 1 screen
895			* worth of transparent fragments'. Valid values: 0.0 < initialSize < 10.0
896			* Even if you get this wrong, the library will detect that there are more
897			* transparent fragments than it has space for and readjust its internal buffers,
898			* but only after a few frames during which one will probably see missing objects.
899			*/
900			public void setOrderIndependentTransparency(boolean oit, float initialSize)
901			{
902			mRenderWayOIT = oit;
903
904			if( initialSize>0.0f && initialSize<10.0f )
905			DistortedEffects.setSSBOSize(initialSize);
906			}
907
908	a09ada4c	Leszek Koltunski	///////////////////////////////////////////////////////////////////////////////////////////////////
909			/**
910			* Adds a new child to the last position in the list of our Surface's children.
911	c204c69d	leszek	* <p>
912			* We cannot do this mid-render - actual attachment will be done just before the next render, by the
913	efe3d8fe	leszek	* DistortedMaster (by calling doWork())
914	a09ada4c	Leszek Koltunski	*
915			* @param node The new Node to add.
916			*/
917	c204c69d	leszek	public void attach(DistortedNode node)
918	a09ada4c	Leszek Koltunski	{
919	ffbe7ecf	Leszek Koltunski	mJobs.add(new Job(ATTACH,node));
920	efe3d8fe	leszek	DistortedMaster.newSlave(this);
921	a09ada4c	Leszek Koltunski	}
922
923			///////////////////////////////////////////////////////////////////////////////////////////////////
924			/**
925			* Adds a new child to the last position in the list of our Surface's children.
926	c204c69d	leszek	* <p>
927			* We cannot do this mid-render - actual attachment will be done just before the next render, by the
928	efe3d8fe	leszek	* DistortedMaster (by calling doWork())
929	a09ada4c	Leszek Koltunski	*
930			* @param surface InputSurface to initialize our child Node with.
931			* @param effects DistortedEffects to initialize our child Node with.
932	715e7726	Leszek Koltunski	* @param mesh MeshBase to initialize our child Node with.
933	a09ada4c	Leszek Koltunski	* @return the newly constructed child Node, or null if we couldn't allocate resources.
934			*/
935	715e7726	Leszek Koltunski	public DistortedNode attach(DistortedSurface surface, DistortedEffects effects, MeshBase mesh)
936	a09ada4c	Leszek Koltunski	{
937			DistortedNode node = new DistortedNode(surface,effects,mesh);
938	ffbe7ecf	Leszek Koltunski	mJobs.add(new Job(ATTACH,node));
939	efe3d8fe	leszek	DistortedMaster.newSlave(this);
940	c204c69d	leszek	return node;
941			}
942
943	af27df87	leszek	///////////////////////////////////////////////////////////////////////////////////////////////////
944			/**
945			* Removes the first occurrence of a specified child from the list of children of our Surface.
946			* <p>
947			* A bit questionable method as there can be many different Nodes attached as children, some
948			* of them having the same Effects but - for instance - different Mesh. Use with care.
949			* <p>
950			* We cannot do this mid-render - actual detachment will be done just before the next render, by the
951	efe3d8fe	leszek	* DistortedMaster (by calling doWork())
952	af27df87	leszek	*
953			* @param effects DistortedEffects to remove.
954			*/
955			public void detach(DistortedEffects effects)
956			{
957			long id = effects.getID();
958			DistortedNode node;
959	8baa1fe6	Leszek Koltunski	boolean detached = false;
960	af27df87	leszek
961			for(int i=0; i<mNumChildren; i++)
962			{
963			node = mChildren.get(i);
964
965			if( node.getEffects().getID()==id )
966			{
967	8baa1fe6	Leszek Koltunski	detached = true;
968	ffbe7ecf	Leszek Koltunski	mJobs.add(new Job(DETACH,node));
969	efe3d8fe	leszek	DistortedMaster.newSlave(this);
970	af27df87	leszek	break;
971			}
972			}
973	8baa1fe6	Leszek Koltunski
974			if( !detached )
975			{
976			// if we failed to detach any, it still might be the case that
977	efe3d8fe	leszek	// there's an ATTACH job that we need to cancel.
978			int num = mJobs.size();
979			Job job;
980
981			for(int i=0; i<num; i++)
982			{
983			job = mJobs.get(i);
984
985			if( job.type==ATTACH && job.node.getEffects()==effects )
986			{
987			mJobs.remove(i);
988			break;
989			}
990			}
991	8baa1fe6	Leszek Koltunski	}
992	af27df87	leszek	}
993
994	a09ada4c	Leszek Koltunski	///////////////////////////////////////////////////////////////////////////////////////////////////
995			/**
996			* Removes the first occurrence of a specified child from the list of children of our Surface.
997	c204c69d	leszek	* <p>
998			* We cannot do this mid-render - actual attachment will be done just before the next render, by the
999	efe3d8fe	leszek	* DistortedMaster (by calling doWork())
1000	c204c69d	leszek	*
1001			* @param node The Node to remove.
1002			*/
1003			public void detach(DistortedNode node)
1004			{
1005	ffbe7ecf	Leszek Koltunski	mJobs.add(new Job(DETACH,node));
1006	efe3d8fe	leszek	DistortedMaster.newSlave(this);
1007	a09ada4c	Leszek Koltunski	}
1008
1009			///////////////////////////////////////////////////////////////////////////////////////////////////
1010			/**
1011			* Removes all children Nodes.
1012	c204c69d	leszek	* <p>
1013			* We cannot do this mid-render - actual attachment will be done just before the next render, by the
1014	efe3d8fe	leszek	* DistortedMaster (by calling doWork())
1015	c204c69d	leszek	*/
1016			public void detachAll()
1017			{
1018	ffbe7ecf	Leszek Koltunski	mJobs.add(new Job(DETALL,null));
1019	efe3d8fe	leszek	DistortedMaster.newSlave(this);
1020	c204c69d	leszek	}
1021
1022			///////////////////////////////////////////////////////////////////////////////////////////////////
1023			/**
1024			* This is not really part of the public API. Has to be public only because it is a part of the
1025	efe3d8fe	leszek	* DistortedSlave interface, which should really be a class that we extend here instead but
1026	c204c69d	leszek	* Java has no multiple inheritance.
1027	43fbf0dd	leszek	*
1028			* @y.exclude
1029	a09ada4c	Leszek Koltunski	*/
1030	efe3d8fe	leszek	public void doWork()
1031	a09ada4c	Leszek Koltunski	{
1032	efe3d8fe	leszek	int num = mJobs.size();
1033			Job job;
1034
1035			for(int i=0; i<num; i++)
1036			{
1037			job = mJobs.remove(0);
1038
1039			switch(job.type)
1040			{
1041	be60d4ff	leszek	case ATTACH: if( mChildren==null ) mChildren = new ArrayList<>(2);
1042			job.node.setSurfaceParent(this);
1043	85bfeb7a	Leszek Koltunski	DistortedMaster.addSortingByBuckets(mChildren,job.node);
1044	efe3d8fe	leszek	mNumChildren++;
1045			break;
1046	be60d4ff	leszek	case DETACH: if( mNumChildren>0 && mChildren.remove(job.node) )
1047	efe3d8fe	leszek	{
1048	be60d4ff	leszek	job.node.setSurfaceParent(null);
1049	efe3d8fe	leszek	mNumChildren--;
1050			}
1051			break;
1052	be60d4ff	leszek	case DETALL: if( mNumChildren>0 )
1053	efe3d8fe	leszek	{
1054	be60d4ff	leszek	DistortedNode tmp;
1055
1056			for(int j=mNumChildren-1; j>=0; j--)
1057			{
1058			tmp = mChildren.remove(j);
1059			tmp.setSurfaceParent(null);
1060			}
1061
1062	efe3d8fe	leszek	mNumChildren = 0;
1063			}
1064			break;
1065	ffbe7ecf	Leszek Koltunski	case SORT : mChildren.remove(job.node);
1066	85bfeb7a	Leszek Koltunski	DistortedMaster.addSortingByBuckets(mChildren,job.node);
1067	efe3d8fe	leszek	break;
1068			}
1069			}
1070	a09ada4c	Leszek Koltunski	}
1071	af4cc5db	Leszek Koltunski	}

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library / src / main / java / org / distorted / library / main / DistortedOutputSurface.java @ 8b7b2398