前言
时光飞逝,从事Android系统开发已经两年了,总想写点什么来安慰自己。思考了很久总是无法下笔,觉得没什么好写的。现在终于决定写一些符合大多数人需求的东西,想必使用过Android手机的人们一定对“图库”(以下简称Gallery)这个应用非常熟悉。在Android市场里面有各种关于图库的应用,他们的最初原型其实就是Android系统原生“图库”,只是做了不同的差异化而已(UI差异化)。在研究Gallery源码之前,我们需要对设计模式有一定的了解,根据自己对Gallery的了解,Gallery的设计就好比是一座设计精良的并且高效运转的机器(32个攒)。毫不夸张地说,在Android市场里,没有一款“图库”应用的设计设计能够和Gallery媲美。接下来的一段时间,就让我们共同来揭开Gallery的神秘面纱。
数据加载
在研究Gallery之前,我们还是来欣赏一下Gallery的整体效果,具体见图1-1所示:
图1-1
首先我们先来看一下Gallery的发展历史,在Android2.3之前Android系统的“图库”名为Gallery3D,在Android2.3之后系统将之前的Gallery3D更改为Gallery2,一直沿用到目前最新版本(4.4),Gallery2在UI和功能上面做了质的飞跃,是目前Android源码中非常优秀的模块,对于Android应用开发者来说是非常好的开源项目,其中的设计新思想和设计模式都值得我们借鉴。
现在回到我们研究的主题-数据加载,我们先来看一下Gallery2在源码中的路径(package/app/Gallery2/),在该路径下包含了“图库”使用的资源和源码。我们在设计一款软件的时候首先考虑的是数据的存储和访问,因此我们也按照这样的设计思路来探究Gallery2的数据加载过程。说到这儿稍微提一下我分析源码的方式,可能大家对Android源码稍微有一点了解的同学应该知道,Android源码是非常庞大的,因此选择分析程序的切入点大致可以分为两类:第一种是按照操程序操作步骤分析源码——适用于界面跳转清晰的程序;第二种是根据打印的Log信息分析程序的运行逻辑——适用于复杂的操作逻辑。
首先我们先来看一下BucketHelper.java类(/src/com/android/gallery3d/data/BucketHelper.java),该类主要是负责读取MediaProvider数据库中Image和Video数据,具体代码如下所示:
- package com.android.gallery3d.data;
- import android.annotation.TargetApi;
- import android.content.ContentResolver;
- import android.database.Cursor;
- import android.net.Uri;
- import android.provider.MediaStore.Files;
- import android.provider.MediaStore.Files.FileColumns;
- import android.provider.MediaStore.Images;
- import android.provider.MediaStore.Images.ImageColumns;
- import android.provider.MediaStore.Video;
- import android.util.Log;
- import com.android.gallery3d.common.ApiHelper;
- import com.android.gallery3d.common.Utils;
- import com.android.gallery3d.util.ThreadPool.JobContext;
- import java.util.ArrayList;
- import java.util.Arrays;
- import java.util.Comparator;
- import java.util.HashMap;
- class BucketHelper {
- private static final String TAG = "BucketHelper";
- private static final String EXTERNAL_MEDIA = "external";
- // BUCKET_DISPLAY_NAME is a string like "Camera" which is the directory
- // name of where an image or video is in. BUCKET_ID is a hash of the path
- // name of that directory (see computeBucketValues() in MediaProvider for
- // details). MEDIA_TYPE is video, image, audio, etc.
- // BUCKET_DISPLAY_NAME字段为文件目录名称 BUCKET_ID字段为目录路径(path)的HASH值
- // The "albums" are not explicitly recorded in the database, but each image
- // or video has the two columns (BUCKET_ID, MEDIA_TYPE). We define an
- // "album" to be the collection of images/videos which have the same value
- // for the two columns.
- // "专辑"的划分方式为:当文件具有相同的目录(BUCKET_ID)和多媒体类型(MEDIA_TYPE)即属于同一专辑
- // The goal of the query (used in loadSubMediaSetsFromFilesTable()) is to
- // find all albums, that is, all unique values for (BUCKET_ID, MEDIA_TYPE).
- // In the meantime sort them by the timestamp of the latest image/video in
- // each of the album.
- //
- // The order of columns below is important: it must match to the index in
- // MediaStore.
- private static final String[] PROJECTION_BUCKET = {
- ImageColumns.BUCKET_ID,
- FileColumns.MEDIA_TYPE,
- ImageColumns.BUCKET_DISPLAY_NAME};
- // The indices should match the above projections.
- private static final int INDEX_BUCKET_ID = 0;
- private static final int INDEX_MEDIA_TYPE = 1;
- private static final int INDEX_BUCKET_NAME = 2;
- // We want to order the albums by reverse chronological order. We abuse the
- // "WHERE" parameter to insert a "GROUP BY" clause into the SQL statement.
- // The template for "WHERE" parameter is like:
- // SELECT ... FROM ... WHERE (%s)
- // and we make it look like:
- // SELECT ... FROM ... WHERE (1) GROUP BY 1,(2)
- // The "(1)" means true. The "1,(2)" means the first two columns specified
- // after SELECT. Note that because there is a ")" in the template, we use
- // "(2" to match it.
- private static final String BUCKET_GROUP_BY = "1) GROUP BY 1,(2";
- private static final String BUCKET_ORDER_BY = "MAX(datetaken) DESC";
- // Before HoneyComb there is no Files table. Thus, we need to query the
- // bucket info from the Images and Video tables and then merge them
- // together.
- //
- // A bucket can exist in both tables. In this case, we need to find the
- // latest timestamp from the two tables and sort ourselves. So we add the
- // MAX(date_taken) to the projection and remove the media_type since we
- // already know the media type from the table we query from.
- private static final String[] PROJECTION_BUCKET_IN_ONE_TABLE = {
- ImageColumns.BUCKET_ID,
- "MAX(datetaken)",
- ImageColumns.BUCKET_DISPLAY_NAME};
- // We keep the INDEX_BUCKET_ID and INDEX_BUCKET_NAME the same as
- // PROJECTION_BUCKET so we can reuse the values defined before.
- private static final int INDEX_DATE_TAKEN = 1;
- // When query from the Images or Video tables, we only need to group by BUCKET_ID.
- private static final String BUCKET_GROUP_BY_IN_ONE_TABLE = "1) GROUP BY (1";
- public static BucketEntry[] loadBucketEntries(
- JobContext jc, ContentResolver resolver, int type) {
- if (ApiHelper.HAS_MEDIA_PROVIDER_FILES_TABLE) { //当API1>= 11(即Android3.0版本之后)
- return loadBucketEntriesFromFilesTable(jc, resolver, type);//获取MediaScanner数据库中多媒体文件(图片和视频)的目录路径和目录名称
- } else { //Android3.0之前版本
- return loadBucketEntriesFromImagesAndVideoTable(jc, resolver, type);
- }
- }
- private static void updateBucketEntriesFromTable(JobContext jc,
- ContentResolver resolver, Uri tableUri, HashMap<Integer, BucketEntry> buckets) {
- Cursor cursor = resolver.query(tableUri, PROJECTION_BUCKET_IN_ONE_TABLE,
- BUCKET_GROUP_BY_IN_ONE_TABLE, null, null);
- if (cursor == null) {
- Log.w(TAG, "cannot open media database: " + tableUri);
- return;
- }
- try {
- while (cursor.moveToNext()) {
- int bucketId = cursor.getInt(INDEX_BUCKET_ID);
- int dateTaken = cursor.getInt(INDEX_DATE_TAKEN);
- BucketEntry entry = buckets.get(bucketId);
- if (entry == null) {
- entry = new BucketEntry(bucketId, cursor.getString(INDEX_BUCKET_NAME));
- buckets.put(bucketId, entry);
- entry.dateTaken = dateTaken;
- } else {
- entry.dateTaken = Math.max(entry.dateTaken, dateTaken);
- }
- }
- } finally {
- Utils.closeSilently(cursor);
- }
- }
- private static BucketEntry[] loadBucketEntriesFromImagesAndVideoTable(
- JobContext jc, ContentResolver resolver, int type) {
- HashMap<Integer, BucketEntry> buckets = new HashMap<Integer, BucketEntry>(64);
- if ((type & MediaObject.MEDIA_TYPE_IMAGE) != 0) {
- updateBucketEntriesFromTable(
- jc, resolver, Images.Media.EXTERNAL_CONTENT_URI, buckets);
- }
- if ((type & MediaObject.MEDIA_TYPE_VIDEO) != 0) {
- updateBucketEntriesFromTable(
- jc, resolver, Video.Media.EXTERNAL_CONTENT_URI, buckets);
- }
- BucketEntry[] entries = buckets.values().toArray(new BucketEntry[buckets.size()]);
- Arrays.sort(entries, new Comparator<BucketEntry>() {
- @Override
- public int compare(BucketEntry a, BucketEntry b) {
- // sorted by dateTaken in descending order
- return b.dateTaken - a.dateTaken;
- }
- });
- return entries;
- }
- private static BucketEntry[] loadBucketEntriesFromFilesTable(
- JobContext jc, ContentResolver resolver, int type) {
- Uri uri = getFilesContentUri();
- Cursor cursor = resolver.query(uri,
- PROJECTION_BUCKET, BUCKET_GROUP_BY,
- null, BUCKET_ORDER_BY);
- if (cursor == null) {
- Log.w(TAG, "cannot open local database: " + uri);
- return new BucketEntry[0];
- }
- ArrayList<BucketEntry> buffer = new ArrayList<BucketEntry>();
- int typeBits = 0;
- if ((type & MediaObject.MEDIA_TYPE_IMAGE) != 0) {
- typeBits |= (1 << FileColumns.MEDIA_TYPE_IMAGE);
- }
- if ((type & MediaObject.MEDIA_TYPE_VIDEO) != 0) {
- typeBits |= (1 << FileColumns.MEDIA_TYPE_VIDEO);
- }
- try {
- while (cursor.moveToNext()) {
- if ((typeBits & (1 << cursor.getInt(INDEX_MEDIA_TYPE))) != 0) {
- BucketEntry entry = new BucketEntry(
- cursor.getInt(INDEX_BUCKET_ID),
- cursor.getString(INDEX_BUCKET_NAME));//构造元数据BucketEntry
- if (!buffer.contains(entry)) {
- buffer.add(entry);//添加数据信息
- }
- }
- if (jc.isCancelled()) return null;
- }
- } finally {
- Utils.closeSilently(cursor);
- }
- return buffer.toArray(new BucketEntry[buffer.size()]);
- }
- private static String getBucketNameInTable(
- ContentResolver resolver, Uri tableUri, int bucketId) {
- String selectionArgs[] = new String[] {String.valueOf(bucketId)};
- Uri uri = tableUri.buildUpon()
- .appendQueryParameter("limit", "1")
- .build();
- Cursor cursor = resolver.query(uri, PROJECTION_BUCKET_IN_ONE_TABLE,
- "bucket_id = ?", selectionArgs, null);
- try {
- if (cursor != null && cursor.moveToNext()) {
- return cursor.getString(INDEX_BUCKET_NAME);
- }
- } finally {
- Utils.closeSilently(cursor);
- }
- return null;
- }
- @TargetApi(ApiHelper.VERSION_CODES.HONEYCOMB)
- private static Uri getFilesContentUri() {
- return Files.getContentUri(EXTERNAL_MEDIA);
- }
- public static String getBucketName(ContentResolver resolver, int bucketId) {
- if (ApiHelper.HAS_MEDIA_PROVIDER_FILES_TABLE) {
- String result = getBucketNameInTable(resolver, getFilesContentUri(), bucketId);
- return result == null ? "" : result;
- } else {
- String result = getBucketNameInTable(
- resolver, Images.Media.EXTERNAL_CONTENT_URI, bucketId);
- if (result != null) return result;
- result = getBucketNameInTable(
- resolver, Video.Media.EXTERNAL_CONTENT_URI, bucketId);
- return result == null ? "" : result;
- }
- }
- public static class BucketEntry {
- public String bucketName;
- public int bucketId;
- public int dateTaken;
- public BucketEntry(int id, String name) {
- bucketId = id;
- bucketName = Utils.ensureNotNull(name);
- }
- @Override
- public int hashCode() {
- return bucketId;
- }
- @Override
- public boolean equals(Object object) {
- if (!(object instanceof BucketEntry)) return false;
- BucketEntry entry = (BucketEntry) object;
- return bucketId == entry.bucketId;
- }
- }
- }
接下来我们再来看看BucketHelper类的调用关系的时序图,具体如1-2所示:
到目前为止我们大致了解了Gallery数据加载的一个大体流程,接下来的文章将分析Album数据的读取以及数据封装。