本文实例讲述了java读取wav文件(波形文件)并绘制波形图的方法。分享给大家供大家参考。具体如下:
因为最近有不少网友询问我波形文件读写方面的问题,出于让大家更方便以及让代码能够得到更好的改进,我将这部分(波形文件的读写)代码开源在GitHub上面。
地址为https://github.com/sintrb/WaveAccess/,最新的代码、例子、文档都在那上面,我会在我时间精力允许的前提下对该项目进行维护,同时也希望对这方面有兴趣的网友能够加入到该开源项目上。
以下内容基本都过期了,你可以直接去GitHub上面阅读、下载该项目。
因项目需要读取.wav文件(波形文件)并绘制波形图,因此简单的做了这方面的封装。
其实主要是对wav文件读取的封装,下面是一个wav文件读取器的封装:
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// filename: WaveFileReader.java // RobinTang // 2012-08-23 import java.io.*; public class WaveFileReader { private String filename = null ; private int [][] data = null ; private int len = 0 ; private String chunkdescriptor = null ; static private int lenchunkdescriptor = 4 ; private long chunksize = 0 ; static private int lenchunksize = 4 ; private String waveflag = null ; static private int lenwaveflag = 4 ; private String fmtubchunk = null ; static private int lenfmtubchunk = 4 ; private long subchunk1size = 0 ; static private int lensubchunk1size = 4 ; private int audioformat = 0 ; static private int lenaudioformat = 2 ; private int numchannels = 0 ; static private int lennumchannels = 2 ; private long samplerate = 0 ; static private int lensamplerate = 2 ; private long byterate = 0 ; static private int lenbyterate = 4 ; private int blockalign = 0 ; static private int lenblockling = 2 ; private int bitspersample = 0 ; static private int lenbitspersample = 2 ; private String datasubchunk = null ; static private int lendatasubchunk = 4 ; private long subchunk2size = 0 ; static private int lensubchunk2size = 4 ; private FileInputStream fis = null ; private BufferedInputStream bis = null ; private boolean issuccess = false ; public WaveFileReader(String filename) { this .initReader(filename); } // 判断是否创建wav读取器成功 public boolean isSuccess() { return issuccess; } // 获取每个采样的编码长度,8bit或者16bit public int getBitPerSample(){ return this .bitspersample; } // 获取采样率 public long getSampleRate(){ return this .samplerate; } // 获取声道个数,1代表单声道 2代表立体声 public int getNumChannels(){ return this .numchannels; } // 获取数据长度,也就是一共采样多少个 public int getDataLen(){ return this .len; } // 获取数据 // 数据是一个二维数组,[n][m]代表第n个声道的第m个采样值 public int [][] getData(){ return this .data; } private void initReader(String filename){ this .filename = filename; try { fis = new FileInputStream( this .filename); bis = new BufferedInputStream(fis); this .chunkdescriptor = readString(lenchunkdescriptor); if (!chunkdescriptor.endsWith( "RIFF" )) throw new IllegalArgumentException( "RIFF miss, " + filename + " is not a wave file." ); this .chunksize = readLong(); this .waveflag = readString(lenwaveflag); if (!waveflag.endsWith( "WAVE" )) throw new IllegalArgumentException( "WAVE miss, " + filename + " is not a wave file." ); this .fmtubchunk = readString(lenfmtubchunk); if (!fmtubchunk.endsWith( "fmt " )) throw new IllegalArgumentException( "fmt miss, " + filename + " is not a wave file." ); this .subchunk1size = readLong(); this .audioformat = readInt(); this .numchannels = readInt(); this .samplerate = readLong(); this .byterate = readLong(); this .blockalign = readInt(); this .bitspersample = readInt(); this .datasubchunk = readString(lendatasubchunk); if (!datasubchunk.endsWith( "data" )) throw new IllegalArgumentException( "data miss, " + filename + " is not a wave file." ); this .subchunk2size = readLong(); this .len = ( int )( this .subchunk2size/( this .bitspersample/ 8 )/ this .numchannels); this .data = new int [ this .numchannels][ this .len]; for ( int i= 0 ; i< this .len; ++i){ for ( int n= 0 ; n< this .numchannels; ++n){ if ( this .bitspersample == 8 ){ this .data[n][i] = bis.read(); } else if ( this .bitspersample == 16 ){ this .data[n][i] = this .readInt(); } } } issuccess = true ; } catch (Exception e) { e.printStackTrace(); } finally { try { if (bis != null ) bis.close(); if (fis != null ) fis.close(); } catch (Exception e1){ e1.printStackTrace(); } } } private String readString( int len){ byte [] buf = new byte [len]; try { if (bis.read(buf)!=len) throw new IOException( "no more data!!!" ); } catch (IOException e) { e.printStackTrace(); } return new String(buf); } private int readInt(){ byte [] buf = new byte [ 2 ]; int res = 0 ; try { if (bis.read(buf)!= 2 ) throw new IOException( "no more data!!!" ); res = (buf[ 0 ]& 0x000000FF ) | ((( int )buf[ 1 ])<< 8 ); } catch (IOException e) { e.printStackTrace(); } return res; } private long readLong(){ long res = 0 ; try { long [] l = new long [ 4 ]; for ( int i= 0 ; i< 4 ; ++i){ l[i] = bis.read(); if (l[i]==- 1 ){ throw new IOException( "no more data!!!" ); } } res = l[ 0 ] | (l[ 1 ]<< 8 ) | (l[ 2 ]<< 16 ) | (l[ 3 ]<< 24 ); } catch (IOException e) { e.printStackTrace(); } return res; } private byte [] readBytes( int len){ byte [] buf = new byte [len]; try { if (bis.read(buf)!=len) throw new IOException( "no more data!!!" ); } catch (IOException e) { e.printStackTrace(); } return buf; } } |
为了绘制波形,因此做了一个从JPanel教程而来的波形绘制面板:
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// filename: DrawPanel.java // RobinTang // 2012-08-23 import java.awt.Color; import java.awt.Graphics; import javax.swing.JPanel; @SuppressWarnings ( "serial" ) public class DrawPanel extends JPanel { private int [] data = null ; public DrawPanel( int [] data) { this .data = data; } @Override protected void paintComponent(Graphics g) { int ww = getWidth(); int hh = getHeight(); g.setColor(Color.WHITE); g.fillRect( 0 , 0 , ww, hh); int len = data.length; int step = len/ww; if (step== 0 ) step = 1 ; int prex = 0 , prey = 0 ; //上一个坐标 int x = 0 , y = 0 ; g.setColor(Color.RED); double k = hh/ 2.0 / 32768.0 ; for ( int i= 0 ; i<ww; ++i){ x = i; // 下面是个三点取出并绘制 // 实际中应该按照采样率来设置间隔 y = hh-( int )(data[i* 3 ]*k+hh/ 2 ); System.out.print(y); System.out.print( " " ); if (i!= 0 ){ g.drawLine(x, y, prex, prey); } prex = x; prey = y; } } } |
有了这些之后就可以调用绘制了,简单的:
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// WaveFileReadDemo.java // RobinTang // 2012-08-23 import javax.swing.JFrame; public class WaveFileReadDemo { /** * @param args */ public static void main(String[] args) { // TODO Auto-generated method stub String filename = "file.wav" ; JFrame frame = new JFrame(); WaveFileReader reader = new WaveFileReader(filename); if (reader.isSuccess()){ int [] data = reader.getData()[ 0 ]; //获取第一声道 DrawPanel drawPanel = new DrawPanel(data); // 创建一个绘制波形的面板 frame.add(drawPanel); frame.setTitle(filename); frame.setSize( 800 , 400 ); frame.setLocationRelativeTo( null ); frame.setDefaultCloseOperation(JFrame.EXIT_ON_CLOSE); frame.setVisible( true ); } else { System.err.println(filename + "不是一个正常的wav文件" ); } } } |
工程的源代码可以在我的百度网盘上找到,直接到开源JAVA
放上效果图一张:
希望本文所述对大家的java程序设计有所帮助。