本文实例讲述了java生成缩略图的方法。分享给大家供大家参考,具体如下:
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package com.util; import java.awt.image.BufferedImage; import java.io.File; import java.io.IOException; import javax.imageio.ImageIO; /** * 生成压缩图 * */ public class ImageScale { private int width; private int height; private int scaleWidth; double support = ( double ) 3.0 ; double PI = ( double ) 3.14159265358978 ; double [] contrib; double [] normContrib; double [] tmpContrib; int startContrib, stopContrib; int nDots; int nHalfDots; /** * Start: Use Lanczos filter to replace the original algorithm for image * scaling. Lanczos improves quality of the scaled image modify by :blade */ public BufferedImage imageZoomOut(BufferedImage srcBufferImage, int w, int h) { width = srcBufferImage.getWidth(); height = srcBufferImage.getHeight(); scaleWidth = w; if (DetermineResultSize(w, h) == 1 ) { return srcBufferImage; } CalContrib(); BufferedImage pbOut = HorizontalFiltering(srcBufferImage, w); BufferedImage pbFinalOut = VerticalFiltering(pbOut, h); return pbFinalOut; } /** * 决定图像尺寸 */ private int DetermineResultSize( int w, int h) { double scaleH, scaleV; // update by libra double wt = w > width ? width : w; double ht = h > height ? height : h; scaleH = ( double ) wt / ( double ) width; scaleV = ( double ) ht / ( double ) height; // 需要判断一下scaleH,scaleV,不做放大操作 if (scaleH >= 1.0 && scaleV >= 1.0 ) { return 1 ; } return 0 ; } // end of DetermineResultSize() private double Lanczos( int i, int inWidth, int outWidth, double Support) { double x; x = ( double ) i * ( double ) outWidth / ( double ) inWidth; return Math.sin(x * PI) / (x * PI) * Math.sin(x * PI / Support) / (x * PI / Support); } // end of Lanczos() // // Assumption: same horizontal and vertical scaling factor // private void CalContrib() { nHalfDots = ( int ) (( double ) width * support / ( double ) scaleWidth); nDots = nHalfDots * 2 + 1 ; try { contrib = new double [nDots]; normContrib = new double [nDots]; tmpContrib = new double [nDots]; } catch (Exception e) { System.out.println( "init contrib,normContrib,tmpContrib" + e); } int center = nHalfDots; contrib[center] = 1.0 ; double weight = 0.0 ; int i = 0 ; for (i = 1 ; i <= center; i++) { contrib[center + i] = Lanczos(i, width, scaleWidth, support); weight += contrib[center + i]; } for (i = center - 1 ; i >= 0 ; i--) { contrib[i] = contrib[center * 2 - i]; } weight = weight * 2 + 1.0 ; for (i = 0 ; i <= center; i++) { normContrib[i] = contrib[i] / weight; } for (i = center + 1 ; i < nDots; i++) { normContrib[i] = normContrib[center * 2 - i]; } } // end of CalContrib() // 处理边缘 private void CalTempContrib( int start, int stop) { double weight = 0 ; int i = 0 ; for (i = start; i <= stop; i++) { weight += contrib[i]; } for (i = start; i <= stop; i++) { tmpContrib[i] = contrib[i] / weight; } } // end of CalTempContrib() private int GetRedValue( int rgbValue) { int temp = rgbValue & 0x00ff0000 ; return temp >> 16 ; } private int GetGreenValue( int rgbValue) { int temp = rgbValue & 0x0000ff00 ; return temp >> 8 ; } private int GetBlueValue( int rgbValue) { return rgbValue & 0x000000ff ; } private int ComRGB( int redValue, int greenValue, int blueValue) { return (redValue << 16 ) + (greenValue << 8 ) + blueValue; } // 行水平滤波 private int HorizontalFilter(BufferedImage bufImg, int startX, int stopX, int start, int stop, int y, double [] pContrib) { double valueRed = 0.0 ; double valueGreen = 0.0 ; double valueBlue = 0.0 ; int valueRGB = 0 ; int i, j; for (i = startX, j = start; i <= stopX; i++, j++) { valueRGB = bufImg.getRGB(i, y); valueRed += GetRedValue(valueRGB) * pContrib[j]; valueGreen += GetGreenValue(valueRGB) * pContrib[j]; valueBlue += GetBlueValue(valueRGB) * pContrib[j]; } valueRGB = ComRGB(Clip(( int ) valueRed), Clip(( int ) valueGreen), Clip(( int ) valueBlue)); return valueRGB; } // end of HorizontalFilter() // 图片水平滤波 private BufferedImage HorizontalFiltering(BufferedImage bufImage, int iOutW) { int dwInW = bufImage.getWidth(); int dwInH = bufImage.getHeight(); int value = 0 ; BufferedImage pbOut = new BufferedImage(iOutW, dwInH, BufferedImage.TYPE_INT_RGB); for ( int x = 0 ; x < iOutW; x++) { int startX; int start; int X = ( int ) ((( double ) x) * (( double ) dwInW) / (( double ) iOutW) + 0.5 ); int y = 0 ; startX = X - nHalfDots; if (startX < 0 ) { startX = 0 ; start = nHalfDots - X; } else { start = 0 ; } int stop; int stopX = X + nHalfDots; if (stopX > (dwInW - 1 )) { stopX = dwInW - 1 ; stop = nHalfDots + (dwInW - 1 - X); } else { stop = nHalfDots * 2 ; } if (start > 0 || stop < nDots - 1 ) { CalTempContrib(start, stop); for (y = 0 ; y < dwInH; y++) { value = HorizontalFilter(bufImage, startX, stopX, start, stop, y, tmpContrib); pbOut.setRGB(x, y, value); } } else { for (y = 0 ; y < dwInH; y++) { value = HorizontalFilter(bufImage, startX, stopX, start, stop, y, normContrib); pbOut.setRGB(x, y, value); } } } return pbOut; } // end of HorizontalFiltering() private int VerticalFilter(BufferedImage pbInImage, int startY, int stopY, int start, int stop, int x, double [] pContrib) { double valueRed = 0.0 ; double valueGreen = 0.0 ; double valueBlue = 0.0 ; int valueRGB = 0 ; int i, j; for (i = startY, j = start; i <= stopY; i++, j++) { valueRGB = pbInImage.getRGB(x, i); valueRed += GetRedValue(valueRGB) * pContrib[j]; valueGreen += GetGreenValue(valueRGB) * pContrib[j]; valueBlue += GetBlueValue(valueRGB) * pContrib[j]; // System.out.println(valueRed+"->"+Clip((int)valueRed)+"<-"); // // System.out.println(valueGreen+"->"+Clip((int)valueGreen)+"<-"); // System.out.println(valueBlue+"->"+Clip((int)valueBlue)+"<-"+"-->"); } valueRGB = ComRGB(Clip(( int ) valueRed), Clip(( int ) valueGreen), Clip(( int ) valueBlue)); // System.out.println(valueRGB); return valueRGB; } // end of VerticalFilter() private BufferedImage VerticalFiltering(BufferedImage pbImage, int iOutH) { int iW = pbImage.getWidth(); int iH = pbImage.getHeight(); int value = 0 ; BufferedImage pbOut = new BufferedImage(iW, iOutH, BufferedImage.TYPE_INT_RGB); for ( int y = 0 ; y < iOutH; y++) { int startY; int start; int Y = ( int ) ((( double ) y) * (( double ) iH) / (( double ) iOutH) + 0.5 ); startY = Y - nHalfDots; if (startY < 0 ) { startY = 0 ; start = nHalfDots - Y; } else { start = 0 ; } int stop; int stopY = Y + nHalfDots; if (stopY > ( int ) (iH - 1 )) { stopY = iH - 1 ; stop = nHalfDots + (iH - 1 - Y); } else { stop = nHalfDots * 2 ; } if (start > 0 || stop < nDots - 1 ) { CalTempContrib(start, stop); for ( int x = 0 ; x < iW; x++) { value = VerticalFilter(pbImage, startY, stopY, start, stop, x, tmpContrib); pbOut.setRGB(x, y, value); } } else { for ( int x = 0 ; x < iW; x++) { value = VerticalFilter(pbImage, startY, stopY, start, stop, x, normContrib); pbOut.setRGB(x, y, value); } } } return pbOut; } // end of VerticalFiltering() int Clip( int x) { if (x < 0 ) return 0 ; if (x > 255 ) return 255 ; return x; } /** * End: Use Lanczos filter to replace the original algorithm for image * scaling. Lanczos improves quality of the scaled image modify by :blade */ public boolean scale(String source, String target, int width, int height) { File f = new File(source); try { BufferedImage bi = ImageIO.read(f); BufferedImage out = null ; ImageScale scal = new ImageScale(); int _width = bi.getWidth(); // add int _height = bi.getHeight(); // add int [] _arr = this .getImageWidthAndHeight(_width, _height, width, height); // add // out = scal.imageZoomOut(bi, width, height); out = scal.imageZoomOut(bi, _arr[ 0 ], _arr[ 1 ]); File t = new File(target); ImageIO.write(out, "jpg" , t); return true ; } catch (IOException e) { e.printStackTrace(); return false ; } } /** * 得到放大或者缩小后的比例 * * @param W * 图片原宽 * @param H * 原高 * @param tarW * 转换后的宽 * @param zoom * 放大还是缩小 * @return 返回宽和高的数组 */ private static int [] getImageWidthAndHeight( int orgW, int orgH, int avW, int avH) { int width = 0 ; int height = 0 ; if (orgW > 0 && orgH > 0 ) { if (orgW / orgH >= avW / avH) { if (orgW > avW) { width = avW; height = (orgH * avW) / orgW; } else { width = orgW; height = orgH; } System.out.println( "++Widht:" + width + " Height" + height); } else { if (orgH > avH) { height = avH; width = (orgW * avH) / orgH; } else { width = orgW; height = orgH; } System.out.println( "++Widht:" + width + " Height" + height); } } int [] arr = new int [ 2 ]; arr[ 0 ] = width; arr[ 1 ] = height; // long start = System.currentTimeMillis(); // int width = 0; // int height = 0; // if ((W / tarW) >= (H / tarH)) {// 宽的缩小比例大于高的 // width = tarW; // height = H * tarW / W; // System.out.println(width + " " + height); // } else { // height = tarH; // width = W * tarH / H; // System.out.println(width + " " + height); // } // int[] arr = new int[2]; // arr[0] = width; // arr[1] = height; // long end = System.currentTimeMillis(); // System.out.println("宽高处理:" + (end - start)); return arr; } public void picscale(String source, String target, int w, int h) { File f = new File(source); int width = 0 ; int height = 0 ; try { BufferedImage bi = ImageIO.read(f); int [] arr = getImageWidthAndHeight(bi.getWidth(), bi.getHeight(), w, h); width = arr[ 0 ]; height = arr[ 1 ]; BufferedImage out = null ; ImageScale scal = new ImageScale(); out = scal.imageZoomOut(bi, width, height); File t = new File(target); ImageIO.write(out, "jpg" , t); } catch (IOException e) { e.printStackTrace(); } } /** * *调用scale(源文件路径,保存路径,最大宽,最大高) * * */ public static void main(String[] args) { ImageScale is = new ImageScale(); long start = System.currentTimeMillis(); is.scale( "D:/nie.jpg" , "D:/t6.jpg" , 250 , 194 ); long end = System.currentTimeMillis(); System.out.println( "时间:" + (end - start)); } } |
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