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view src/com/aurellem/capture/video/AbstractVideoRecorder.java @ 39:784a3f4e6202

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updating capture-video
author Robert McIntyre <rlm@mit.edu>
date Thu, 03 Nov 2011 16:00:46 -0700
parents 5dfc9e768816
children 6a1b28f060e6
line wrap: on
line source
     1 package com.aurellem.capture.video;



     2 



     3 import java.awt.image.BufferedImage;



     4 import java.io.File;



     5 import java.io.IOException;



     6 import java.nio.ByteBuffer;



     7 



     8 import com.aurellem.capture.IsoTimer;



     9 import com.jme3.app.Application;



    10 import com.jme3.app.state.AppState;



    11 import com.jme3.app.state.AppStateManager;



    12 import com.jme3.post.SceneProcessor;



    13 import com.jme3.renderer.Camera;



    14 import com.jme3.renderer.RenderManager;



    15 import com.jme3.renderer.ViewPort;



    16 import com.jme3.renderer.queue.RenderQueue;



    17 import com.jme3.texture.FrameBuffer;



    18 import com.jme3.util.BufferUtils;



    19 import com.jme3.util.Screenshots;



    20 



    21 /**



    22  * <code>VideoRecorder</code> copies the frames it receives to video. 



    23  * To ensure smooth video at a constant framerate, you should set your 



    24  * application's timer to a new <code>IsoTimer</code>.  This class will 



    25  * auto-determine the framerate of the video based on the time difference 



    26  * between the first two frames it receives, although you can manually set 



    27  * the framerate by calling <code>setFps(newFramerate)</code>.  Be sure to 



    28  * place this processor *after* any other processors whose effects you want 



    29  * to be included in the output video. You can attach multiple 



    30  * <code>VideoProcessor</code>s to the same <code>ViewPort</code>.



    31  * 



    32  * For example,



    33  * <code>



    34  * someViewPort.addProcessor(new VideoProcessor(file1));



    35  * someViewPort.addProcessor(someShadowRenderer);



    36  * someViewPort.addProcessor(new VideoProcessor(file2));



    37  * </code>



    38  * 



    39  * will output a video without shadows to <code>file1</code> and a video 



    40  * with shadows to <code>file2</code>



    41  * 



    42  * @author Robert McIntyre



    43  *



    44  */



    45 



    46 public abstract class AbstractVideoRecorder 



    47 	implements SceneProcessor, VideoRecorder, AppState{



    48 



    49 	final File output;



    50 	Camera camera;



    51 	int width;



    52 	int height;



    53 	String targetFileName;



    54 	FrameBuffer frameBuffer;



    55 	Double fps = null;



    56 	RenderManager renderManager;



    57 	ByteBuffer byteBuffer;



    58 	BufferedImage rawFrame;



    59 	boolean isInitilized = false;



    60 	boolean paused = false;



    61 	



    62 	public AbstractVideoRecorder(File output) throws IOException {



    63 		this.output = output;



    64 		this.targetFileName = this.output.getCanonicalPath();	



    65 	}



    66 	



    67 		



    68 	public double getFps() {return this.fps;}



    69 	



    70 	public AbstractVideoRecorder setFps(double fps) {



    71 		this.fps = fps;



    72 		return this;



    73 	}



    74 	



    75 	public void initialize(RenderManager rm, ViewPort viewPort) {



    76 		Camera camera = viewPort.getCamera();



    77 		this.width = camera.getWidth();



    78 		this.height = camera.getHeight();



    79 				



    80 		rawFrame = new BufferedImage(width, height, 



    81 				BufferedImage.TYPE_4BYTE_ABGR);		



    82 		byteBuffer = BufferUtils.createByteBuffer(width * height * 4 );



    83 		this.renderManager = rm;



    84 		this.isInitilized = true;



    85 	}



    86 



    87 	public void reshape(ViewPort vp, int w, int h) {}



    88 	



    89 	public boolean isInitialized() {return this.isInitilized;}



    90 



    91 	public void preFrame(float tpf) {



    92 		if (null == this.fps){



    93 			this.setFps(1.0 / tpf);}



    94 	}	



    95 	



    96 	public void postQueue(RenderQueue rq) {}



    97 



    98 	public void postFrame(FrameBuffer out) {



    99 		if (!this.paused){



   100 			byteBuffer.clear();



   101 			renderManager.getRenderer().readFrameBuffer(out, byteBuffer);



   102 			Screenshots.convertScreenShot(byteBuffer, rawFrame);



   103 			record(rawFrame);



   104 		}



   105 	}



   106 			



   107 	public void cleanup(){



   108 		this.pause();



   109 		this.finish();



   110 	};



   111 	



   112 	public void pause(){



   113 		this.paused = true;



   114 	}



   115 	



   116 	public void start(){



   117 		this.paused = false;



   118 	}



   119 



   120 	// methods from AppState



   121 	public void initialize(AppStateManager stateManager, Application app) {}



   122 



   123 	public void setEnabled(boolean active) {



   124 		if (active) {this.start();}



   125 		else {this.pause();}



   126 	}



   127 



   128 	public boolean isEnabled() {



   129 		return this.paused;



   130 	}



   131 



   132 	public void stateAttached(AppStateManager stateManager) {}



   133 



   134 



   135 	public void stateDetached(AppStateManager stateManager) {



   136 		this.pause();



   137 		this.finish();



   138 	}



   139 



   140 	public void update(float tpf) {}	



   141 	public void render(RenderManager rm) {}



   142 	public void postRender() {}



   143 	



   144 }