Java OCR tesseract 图像智能文字字符识别技术实例代码
作者:鸿洋_
这篇文章主要介绍了Java OCR tesseract 图像智能文字字符识别技术实例代码,非常具有实用价值,需要的朋友可以参考下
接着上一篇OCR所说的,上一篇给大家介绍了tesseract 在命令行的简单用法,当然了要继承到我们的程序中,还是需要代码实现的,下面给大家分享下Java实现的例子。
拿代码扫描上面的图片,然后输出结果。主要思想就是利用Java调用系统任务。
下面是核心代码:
package com.zhy.test; import java.io.BufferedReader; import java.io.File; import java.io.FileInputStream; import java.io.InputStreamReader; import java.util.ArrayList; import java.util.List; import org.jdesktop.swingx.util.OS; public class OCRHelper { private final String LANG_OPTION = "-l"; private final String EOL = System.getProperty("line.separator"); /** * 文件位置我防止在,项目同一路径 */ private String tessPath = new File("tesseract").getAbsolutePath(); /** * @param imageFile * 传入的图像文件 * @param imageFormat * 传入的图像格式 * @return 识别后的字符串 */ public String recognizeText(File imageFile) throws Exception { /** * 设置输出文件的保存的文件目录 */ File outputFile = new File(imageFile.getParentFile(), "output"); StringBuffer strB = new StringBuffer(); List<String> cmd = new ArrayList<String>(); if (OS.isWindowsXP()) { cmd.add(tessPath + "\\tesseract"); } else if (OS.isLinux()) { cmd.add("tesseract"); } else { cmd.add(tessPath + "\\tesseract"); } cmd.add(""); cmd.add(outputFile.getName()); cmd.add(LANG_OPTION); // cmd.add("chi_sim"); cmd.add("eng"); ProcessBuilder pb = new ProcessBuilder(); /** *Sets this process builder's working directory. */ pb.directory(imageFile.getParentFile()); cmd.set(1, imageFile.getName()); pb.command(cmd); pb.redirectErrorStream(true); Process process = pb.start(); // tesseract.exe 1.jpg 1 -l chi_sim // Runtime.getRuntime().exec("tesseract.exe 1.jpg 1 -l chi_sim"); /** * the exit value of the process. By convention, 0 indicates normal * termination. */ // System.out.println(cmd.toString()); int w = process.waitFor(); if (w == 0)// 0代表正常退出 { BufferedReader in = new BufferedReader(new InputStreamReader( new FileInputStream(outputFile.getAbsolutePath() + ".txt"), "UTF-8")); String str; while ((str = in.readLine()) != null) { strB.append(str).append(EOL); } in.close(); } else { String msg; switch (w) { case 1: msg = "Errors accessing files. There may be spaces in your image's filename."; break; case 29: msg = "Cannot recognize the image or its selected region."; break; case 31: msg = "Unsupported image format."; break; default: msg = "Errors occurred."; } throw new RuntimeException(msg); } new File(outputFile.getAbsolutePath() + ".txt").delete(); return strB.toString().replaceAll("\\s*", ""); } }
代码很简单,中间那部分ProcessBuilder其实就类似Runtime.getRuntime().exec("tesseract.exe 1.jpg 1 -l chi_sim"),大家不习惯的可以使用Runtime。
测试代码:
package com.zhy.test; import java.io.File; public class Test { public static void main(String[] args) { try { File testDataDir = new File("testdata"); System.out.println(testDataDir.listFiles().length); int i = 0 ; for(File file :testDataDir.listFiles()) { i++ ; String recognizeText = new OCRHelper().recognizeText(file); System.out.print(recognizeText+"\t"); if( i % 5 == 0 ) { System.out.println(); } } } catch (Exception e) { e.printStackTrace(); } } }
输出结果:
对比第一张图片,是不是很完美~哈哈 ,当然了如果你只需要实现验证码的读写,那么上面就足够了。下面继续普及图像处理的知识。
当然了,有时候图片被扭曲或者模糊的很厉害,很不容易识别,所以下面我给大家介绍一个去噪的辅助类,绝对碉堡了,先看下效果图。
来张特写:
一个类,不依赖任何jar,把图像中的干扰线消灭了,是不是很给力,然后再拿这样的图片去识别,会不会效果更好呢,嘿嘿,大家自己实验~
代码:
package com.zhy.test; import java.awt.Color; import java.awt.image.BufferedImage; import java.io.File; import java.io.IOException; import javax.imageio.ImageIO; public class ClearImageHelper { public static void main(String[] args) throws IOException { File testDataDir = new File("testdata"); final String destDir = testDataDir.getAbsolutePath()+"/tmp"; for (File file : testDataDir.listFiles()) { cleanImage(file, destDir); } } /** * * @param sfile * 需要去噪的图像 * @param destDir * 去噪后的图像保存地址 * @throws IOException */ public static void cleanImage(File sfile, String destDir) throws IOException { File destF = new File(destDir); if (!destF.exists()) { destF.mkdirs(); } BufferedImage bufferedImage = ImageIO.read(sfile); int h = bufferedImage.getHeight(); int w = bufferedImage.getWidth(); // 灰度化 int[][] gray = new int[w][h]; for (int x = 0; x < w; x++) { for (int y = 0; y < h; y++) { int argb = bufferedImage.getRGB(x, y); // 图像加亮(调整亮度识别率非常高) int r = (int) (((argb >> 16) & 0xFF) * 1.1 + 30); int g = (int) (((argb >> 8) & 0xFF) * 1.1 + 30); int b = (int) (((argb >> 0) & 0xFF) * 1.1 + 30); if (r >= 255) { r = 255; } if (g >= 255) { g = 255; } if (b >= 255) { b = 255; } gray[x][y] = (int) Math .pow((Math.pow(r, 2.2) * 0.2973 + Math.pow(g, 2.2) * 0.6274 + Math.pow(b, 2.2) * 0.0753), 1 / 2.2); } } // 二值化 int threshold = ostu(gray, w, h); BufferedImage binaryBufferedImage = new BufferedImage(w, h, BufferedImage.TYPE_BYTE_BINARY); for (int x = 0; x < w; x++) { for (int y = 0; y < h; y++) { if (gray[x][y] > threshold) { gray[x][y] |= 0x00FFFF; } else { gray[x][y] &= 0xFF0000; } binaryBufferedImage.setRGB(x, y, gray[x][y]); } } // 矩阵打印 for (int y = 0; y < h; y++) { for (int x = 0; x < w; x++) { if (isBlack(binaryBufferedImage.getRGB(x, y))) { System.out.print("*"); } else { System.out.print(" "); } } System.out.println(); } ImageIO.write(binaryBufferedImage, "jpg", new File(destDir, sfile .getName())); } public static boolean isBlack(int colorInt) { Color color = new Color(colorInt); if (color.getRed() + color.getGreen() + color.getBlue() <= 300) { return true; } return false; } public static boolean isWhite(int colorInt) { Color color = new Color(colorInt); if (color.getRed() + color.getGreen() + color.getBlue() > 300) { return true; } return false; } public static int isBlackOrWhite(int colorInt) { if (getColorBright(colorInt) < 30 || getColorBright(colorInt) > 730) { return 1; } return 0; } public static int getColorBright(int colorInt) { Color color = new Color(colorInt); return color.getRed() + color.getGreen() + color.getBlue(); } public static int ostu(int[][] gray, int w, int h) { int[] histData = new int[w * h]; // Calculate histogram for (int x = 0; x < w; x++) { for (int y = 0; y < h; y++) { int red = 0xFF & gray[x][y]; histData[red]++; } } // Total number of pixels int total = w * h; float sum = 0; for (int t = 0; t < 256; t++) sum += t * histData[t]; float sumB = 0; int wB = 0; int wF = 0; float varMax = 0; int threshold = 0; for (int t = 0; t < 256; t++) { wB += histData[t]; // Weight Background if (wB == 0) continue; wF = total - wB; // Weight Foreground if (wF == 0) break; sumB += (float) (t * histData[t]); float mB = sumB / wB; // Mean Background float mF = (sum - sumB) / wF; // Mean Foreground // Calculate Between Class Variance float varBetween = (float) wB * (float) wF * (mB - mF) * (mB - mF); // Check if new maximum found if (varBetween > varMax) { varMax = varBetween; threshold = t; } } return threshold; } }
以上就是本文的全部内容,希望对大家的学习有所帮助,也希望大家多多支持脚本之家。