一、android图片压缩器特点

1.压缩比可以选择控制。

2.高效率的多线程压缩

3.支持批量压缩

二、实现过程

2.1 压缩任务线程类

该类是用于实现多线程压缩任务，利用CountDownLatch 计数计数实现多线程任务等待机制,核心代码如下：

/**

 * Created by caizhiming on 2016/6/2.

 * 图片压缩任务线程

 */

public class CompressTask extends Thread{

    CountDownLatch mLatch;

    Boolean mRet;

    String mInFilePath;

    String mOutFilePath;

    boolean mIsNeedCompress;

    public CompressTask(CountDownLatch latch,Boolean ret,String inFilePath,String outFilePath,boolean isNeedCompress){

        mLatch = latch;

        mRet = ret;

        mInFilePath = inFilePath;

        mOutFilePath = outFilePath;

        mIsNeedCompress = isNeedCompress;

    }

    @Override

    public void run() {

        if(mIsNeedCompress) {

            mRet = NativeBitmapUtil.syncCompressBitmap(mInFilePath,mOutFilePath);

            mLatch.countDown();

        }else{

            mRet = true;

            mLatch.countDown();

        }

    }

}

2.2 图片图像工具类

该工具类主要对Bitmap图像处理做了一些封装，比如Bitmap旋转，获取旋转角度等，核心代码如下：

/**

 * 获取旋转后的图片

 * @param path

 * @return

 */

public static Bitmap getRotateBitmapByPath(String path) {

    return rotateBitmapByDegree(BitmapFactory.decodeFile(path), getBitmapDegree(path));

}

/**

 * 获取旋转后的图片

 * @param path

 * @return

 */

public static Bitmap getRotateBitmapByPath(String path,final int maxSize) {

    BitmapFactory.Options  options= new BitmapFactory.Options();

    options.inJustDecodeBounds = true;

    BitmapFactory.decodeFile(path, options);

    options.inSampleSize = BitmapUtils.calculateInSampleSize(options,maxSize,maxSize);

    options.inJustDecodeBounds = false;

    return rotateBitmapByDegree(BitmapFactory.decodeFile(path,options), getBitmapDegree(path));

}

/**

 * 将图片按照某个角度进行旋转

 *

 * @param bm

 *            需要旋转的图片

 * @param degree

 *            旋转角度

 * @return 旋转后的图片

 */

public static Bitmap rotateBitmapByDegree(Bitmap bm, int degree) {

    Bitmap returnBm = null;

    // 根据旋转角度，生成旋转矩阵

    Matrix matrix = new Matrix();

    matrix.postRotate(degree);

    try {

        if (bm != null) {

            // 将原始图片按照旋转矩阵进行旋转，并得到新的图片

            returnBm = Bitmap.createBitmap(bm, 0, 0, bm.getWidth(), bm.getHeight(), matrix, true);

        }

    } catch (OutOfMemoryError e) {

    }

    if (returnBm == null) {

        returnBm = bm;

    }

    if (bm != returnBm) {

        bm.recycle();

    }

    return returnBm;

}

/**

 * 读取图片的旋转的角度

 *

 * @param path

 *            图片绝对路径

 * @return 图片的旋转角度

 */

public static int getBitmapDegree(String path) {

    int degree = 0;

    try {

        // 从指定路径下读取图片，并获取其EXIF信息

        ExifInterface exifInterface = new ExifInterface(path);

        // 获取图片的旋转信息

        int orientation = exifInterface.getAttributeInt(ExifInterface.TAG_ORIENTATION,

                ExifInterface.ORIENTATION_NORMAL);

        switch (orientation) {

            case ExifInterface.ORIENTATION_ROTATE_90:

                degree = 90;

                break;

            case ExifInterface.ORIENTATION_ROTATE_180:

                degree = 180;

                break;

            case ExifInterface.ORIENTATION_ROTATE_270:

                degree = 270;

                break;

        }

    } catch (IOException e) {

        e.printStackTrace();

    }

    return degree;

}

2.3 压缩器类的实现

该功能类只要实现多线程文件压缩功能，支持异步压缩单张图片和多张图片等特性。

2.3.1首先定义图片压缩状态监听接口，如下：

/**

 * 图片压缩监听器

 */

public interface ImageCompressListener {

    void onSuccess(List<String> outFilePathList);

    void onFailure(String message);

}

2.3.2 其次提供是否压缩判断方案：

public static long MAX_FILE_SIZE = 1024 * 1024;

/**

 * 是否压缩图片：大于 1280*1280的 图片 需要压缩 或者 大小大于1M

 * @param inFilePath

 * @return isNeedCompress

 */

public static boolean isNeedCompress(String inFilePath){

    boolean ret = true;

    File file = new File(inFilePath);

    if(file != null && file.exists()){

        BitmapFactory.Options  options= new BitmapFactory.Options();

        options.inJustDecodeBounds = true;

        BitmapFactory.decodeFile(inFilePath,options);

        if(options.outWidth <= BitmapUtil.MAX_SIZE

                && options.outHeight <= BitmapUtil.MAX_SIZE){

            ret = false;

        }

        if(file.length() > MAX_FILE_SIZE){

            ret = true;

        }

    }

    return ret;

}

2.3.3 最后实现异步压缩功能，核心代码如下：

/**

 * 异步压缩多张图片

 * @param inFilePathList：需要压缩的图片的路径列表

 * @param outList：压缩后输出的新图片的路径列表

 * @param listener：压缩监听器

 */

public static void compress(final List<String> inFilePathList, final List<String> outList

        , final ImageCompressListener listener) {

    final List<String> outFilePathList = (outList == null) ? createOutFilePathList(inFilePathList) : outList;

    new AsyncTask<Void, Void, Boolean>() {

        @Override

        protected Boolean doInBackground(Void... params) {

            boolean isSuccess = true;

            CountDownLatch singal = new CountDownLatch(inFilePathList.size());

            List<Boolean> retList = new ArrayList<>();

            for (int i = 0; i < inFilePathList.size(); i++) {

                retList.add(i, Boolean.TRUE);

                boolean isNeedCompress = isNeedCompress(inFilePathList.get(i));

                if(!isNeedCompress){

                    outFilePathList.set(i,inFilePathList.get(i));

                }

                CompressTask compressTask = new CompressTask(singal, retList.get(i)

                        , inFilePathList.get(i), outFilePathList.get(i),isNeedCompress);

                compressTask.start();

            }

            try {

                singal.await();

                for (Boolean ret : retList) {

                    if(!ret) isSuccess = false;

                }

            } catch (InterruptedException e) {

                e.printStackTrace();

                isSuccess = false;

            }finally {

                if(!isSuccess) {

                    String failErrorMsg = "";

                    for(int i =0;i < retList.size();i++){

                        if(!retList.get(i)){

                            failErrorMsg += "\nCompress error: "+inFilePathList.get(i);

                        }

                    }

                }

                return isSuccess;

            }

        }

        @Override

        protected void onPostExecute(Boolean result) {

            super.onPostExecute(result);

            if(listener != null){

                if(result) {

                    listener.onSuccess(outFilePathList);

                    for(String path :outFilePathList){

                        Log.v("czm","outFilePath="+path);

                    }

                }else{

                    listener.onFailure("图片压缩失败！！");

                }

            }

        }

    }.execute();

}

三、使用方法

3.1 使用该压缩器很简单，直接一个方法搞定：

    List<String> srcFilePathList = new ArrayList<>();

    List<String> outputFilePathList = new ArrayList<>();

    //默认压缩方法

    XCImageCompressor.compress(srcFilePathList, new XCImageCompressor.ImageCompressListener() {

        @Override

        public void onSuccess(List<String> outFilePathList) {

        }

        @Override

        public void onFailure(String message) {

        }

    });

    //支持压缩后的输出目录的压缩方法

    XCImageCompressor.compress(srcFilePathList, outputFilePathList,new XCImageCompressor.ImageCompressListener() {

        @Override

        public void onSuccess(List<String> outFilePathList) {

        }

        @Override

        public void onFailure(String message) {

        }

    });

四、源码目录截图