Flutter cached_network_image 图片加
前言
一天测试小姐姐拿着手机过来说,你这里图片下载有问题呀,为什么没有网络(开飞行模式)也弹Toast
提示下载成功呀?
下意识反应,肯定是Toast
提示弹早了,刚点击按钮,还没开始下载就弹了Toast
,赶紧拿手机过来操作验证一波。确实没有网络,弹了下载完成提示,去相册检查一下,嗯?图片下载成功了,还有这种操作?赶紧检查一下代码,发现项目中使用的cached_network_image
三方库加载的图片,从名字上可以判断,这是一个缓存网络图片的加载框架。所以应该是图片显示出来以后就被缓存到本地了,实际下载的流程并未走网络请求,为了验证想法,看了下框架加载图片流程,总结出下文。
使用
组件CachedNetworkImage可以支持直接使用或者通过ImageProvider
。
引入依赖
dependencies:
cached_network_image: ^3.1.0
执行flutter pub get
,项目中使用
Import it
import 'package:cached_network_image/cached_network_image.dart';
添加占位图
CachedNetworkImage(
imageUrl: "http://via.placeholder.com/350x150",
placeholder: (context, url) => CircularProgressIndicator(),
errorWidget: (context, url, error) => Icon(Icons.error),
),
进度条展示
CachedNetworkImage(
imageUrl: "http://via.placeholder.com/350x150",
progressIndicatorBuilder: (context, url, downloadProgress) =>
CircularProgressIndicator(value: downloadProgress.progress),
errorWidget: (context, url, error) => Icon(Icons.error),
),
原生组件Image配合
Image(image: CachedNetworkImageProvider(url))
使用占位图并提供provider给其他组件使用
CachedNetworkImage(
imageUrl: "http://via.placeholder.com/200x150",
imageBuilder: (context, imageProvider) => Container(
decoration: BoxDecoration(
image: DecorationImage(
image: imageProvider,
fit: BoxFit.cover,
colorFilter:
ColorFilter.mode(Colors.red, BlendMode.colorBurn)),
),
),
placeholder: (context, url) => CircularProgressIndicator(),
errorWidget: (context, url, error) => Icon(Icons.error),
),
这样就可以加载网络图片了,而且,图片加载完成时,就被缓存到本地了,首先看下图片的加载流程
官网说了,它现在不包含缓存,缓存功能实际上是另一个库
flutter_cache_manager
中实现的
原理
加载&显示
这里我们仅梳理图片加载和缓存的主流程,对于一些其他分支流程,或无关参数不做过多分析
首先,页面上使用的构造函数接收了一个必传参数imageUrl,用于生成ImageProvider提供图片加载
class CachedNetworkImage extends StatelessWidget{
/// image提供
final CachedNetworkImageProvider _image;
/// 构造函数
CachedNetworkImage({
Key key,
@required this.imageUrl,
/// 省略部分
this.cacheManager,
/// ...
}) : assert(imageUrl != null),
/// ...
_image = CachedNetworkImageProvider(
imageUrl,
headers: httpHeaders,
cacheManager: cacheManager,
cacheKey: cacheKey,
imageRenderMethodForWeb: imageRenderMethodForWeb,
maxWidth: maxWidthDiskCache,
maxHeight: maxHeightDiskCache,
),
super(key: key);
@override
Widget build(BuildContext context) {
var octoPlaceholderBuilder =
placeholder != null ? _octoPlaceholderBuilder : null;
var octoProgressIndicatorBuilder =
progressIndicatorBuilder != null ? _octoProgressIndicatorBuilder : null;
/// ...
return OctoImage(
image: _image,
/// ...
);
}
}
这里可以看到,构造函数初始化了一个本地变量_image
类型是CachedNetworkImageProvider
,它继承ImageProvider提供图片加载,看下它的构造函数
/// 提供网络图片加载Provider并缓存
abstract class CachedNetworkImageProvider
extends ImageProvider<CachedNetworkImageProvider> {
/// Creates an object that fetches the image at the given URL.
const factory CachedNetworkImageProvider(
String url, {
int maxHeight,
int maxWidth,
String cacheKey,
double scale,
@Deprecated('ErrorListener is deprecated, use listeners on the imagestream')
ErrorListener errorListener,
Map<String, String> headers,
BaseCacheManager cacheManager,
ImageRenderMethodForWeb imageRenderMethodForWeb,
}) = image_provider.CachedNetworkImageProvider;
/// 可选cacheManager. 默认使用 DefaultCacheManager()
/// 当运行在web时,cacheManager没有使用.
BaseCacheManager get cacheManager;
/// 请求url.
String get url;
/// 缓存key
String get cacheKey;
/// ...
@override
ImageStreamCompleter load(
CachedNetworkImageProvider key, DecoderCallback decode);
}
它的构造函数调用了image_provider.CachedNetworkImageProvider
的实例在_image_provider_io.dart
中是加载的具体实现类
/// IO implementation of the CachedNetworkImageProvider; the ImageProvider to
/// load network images using a cache.
class CachedNetworkImageProvider
extends ImageProvider<image_provider.CachedNetworkImageProvider>
implements image_provider.CachedNetworkImageProvider {
/// Creates an ImageProvider which loads an image from the [url], using the [scale].
/// When the image fails to load [errorListener] is called.
const CachedNetworkImageProvider(
this.url, {
/// ...
}) : assert(url != null),
assert(scale != null);
@override
final BaseCacheManager cacheManager;
/// ...
@override
Future<CachedNetworkImageProvider> obtainKey(
ImageConfiguration configuration) {
return SynchronousFuture<CachedNetworkImageProvider>(this);
}
/// 核心方法加载图片入口
@override
ImageStreamCompleter load(
image_provider.CachedNetworkImageProvider key, DecoderCallback decode) {
final chunkEvents = StreamController<ImageChunkEvent>();
/// 多图加载
return MultiImageStreamCompleter(
codec: _loadAsync(key, chunkEvents, decode),
chunkEvents: chunkEvents.stream,
scale: key.scale,
informationCollector: () sync* {
yield DiagnosticsProeperty<ImageProvider>(
'Image provider: $this \n Image key: $key',
this,
style: DiagnosticsTreeStyle.errorProperty,
);
},
);
}
这里的load方法即是图片加载的启动入口,它会在页面可见时被调用
它返回了一个MultiImageStreamCompleter
传入_loadAsync
,看下这个方法
/// 异步加载
Stream<ui.Codec> _loadAsync(
CachedNetworkImageProvider key,
StreamController<ImageChunkEvent> chunkEvents,
DecoderCallback decode,
) async* {
assert(key == this);
try {
/// 默认缓存管理器
var mngr = cacheManager ?? DefaultCacheManager();
assert(
mngr is ImageCacheManager || (maxWidth == null && maxHeight == null),
'To resize the image with a CacheManager the '
'CacheManager needs to be an ImageCacheManager. maxWidth and '
'maxHeight will be ignored when a normal CacheManager is used.');
/// 下载逻辑放在ImageCacheManager,得到下载stream
var stream = mngr is ImageCacheManager
? mngr.getImageFile(key.url,
maxHeight: maxHeight,
maxWidth: maxWidth,
withProgress: true,
headers: headers,
key: key.cacheKey)
: mngr.getFileStream(key.url,
withProgress: true, headers: headers, key: key.cacheKey);
await for (var result in stream) {
if (result is FileInfo) {
var file = result.file;
var bytes = await file.readAsBytes();
var decoded = await decode(bytes);
/// 下载完成返回结果
yield decoded;
}
}
} catch (e) {
/// ...
} finally {
await chunkEvents.close();
}
}
}
这里我们看到了默认缓存管理器cacheManager
创建的地方,为DefaultCacheManager
,那么它如何缓存的呢,后边再分析。
下载的逻辑也是放在了ImageCacheManager
下了,返回结果是一个stream
完成多图下载的支持,下载完成通过yield 返回给ui解码最终显示。
MultiImageStreamCompleter
支持多图加载继承自ImageStreamCompleter
/// An ImageStreamCompleter with support for loading multiple images.
class MultiImageStreamCompleter extends ImageStreamCompleter {
/// The constructor to create an MultiImageStreamCompleter. The [codec]
/// should be a stream with the images that should be shown. The
/// [chunkEvents] should indicate the [ImageChunkEvent]s of the first image
/// to show.
MultiImageStreamCompleter({
@required Stream<ui.Codec> codec,
@required double scale,
Stream<ImageChunkEvent> chunkEvents,
InformationCollector informationCollector,
}) : assert(codec != null),
_informationCollector = informationCollector,
_scale = scale {
/// 显示逻辑
codec.listen((event) {
if (_timer != null) {
_nextImageCodec = event;
} else {
_handleCodecReady(event);
}
}, onError: (dynamic error, StackTrace stack) {
reportError(
context: ErrorDescription('resolving an image codec'),
exception: error,
stack: stack,
informationCollector: informationCollector,
silent: true,
);
});
/// ...
}
}
/// 处理解码完成
void _handleCodecReady(ui.Codec codec) {
_codec = codec;
assert(_codec != null);
if (hasListeners) {
_decodeNextFrameAndSchedule();
}
}
/// 解码下一帧并绘制
Future<void> _decodeNextFrameAndSchedule() async {
try {
_nextFrame = await _codec.getNextFrame();
} catch (exception, stack) {
reportError(
context: ErrorDescription('resolving an image frame'),
exception: exception,
stack: stack,
informationCollector: _informationCollector,
silent: true,
);
return;
}
if (_codec.frameCount == 1) {
// ImageStreamCompleter listeners removed while waiting for next frame to
// be decoded.
// There's no reason to emit the frame without active listeners.
if (!hasListeners) {
return;
}
// This is not an animated image, just return it and don't schedule more
// frames.
_emitFrame(ImageInfo(image: _nextFrame.image, scale: _scale));
return;
}
_scheduleAppFrame();
}
}
这里做了显示逻辑,和最终转化成flutter上帧的处理,_scheduleAppFrame
完成发送帧的处理
下载&缓存
上边的mngr
调用了ImageCacheManager
中的getImageFile
方法现在就到了flutter_cache_manager
这个三方库当中,它是被隐式依赖的,文件是image_cache_manager.dart
mixin ImageCacheManager on BaseCacheManager {
Stream<FileResponse> getImageFile(
String url, {
String key,
Map<String, String> headers,
bool withProgress,
int maxHeight,
int maxWidth,
}) async* {
if (maxHeight == null && maxWidth == null) {
yield* getFileStream(url,
key: key, headers: headers, withProgress: withProgress);
return;
}
/// ...
}
/// ...
}
getFileStream
方法实现在子类cache_manager.dart
文件中的CacheManager
class CacheManager implements BaseCacheManager {
/// 缓存管理
CacheStore _store;
/// Get the underlying store helper
CacheStore get store => _store;
/// 下载管理
WebHelper _webHelper;
/// Get the underlying web helper
WebHelper get webHelper => _webHelper;
/// 从下载或者缓存读取file返回stream
@override
Stream<FileResponse> getFileStream(String url,
{String key, Map<String, String> headers, bool withProgress}) {
key ??= url;
final streamController = StreamController<FileResponse>();
_pushFileToStream(
streamController, url, key, headers, withProgress ?? false);
return streamController.stream;
}
Future<void> _pushFileToStream(StreamController streamController, String url,
String key, Map<String, String> headers, bool withProgress) async {
key ??= url;
FileInfo cacheFile;
try {
/// 缓存判断
cacheFile = await getFileFromCache(key);
if (cacheFile != null) {
/// 有缓存直接返回
streamController.add(cacheFile);
withProgress = false;
}
} catch (e) {
print(
'CacheManager: Failed to load cached file for $url with error:\n$e');
}
/// 没有缓存或者过期下载
if (cacheFile == null || cacheFile.validTill.isBefore(DateTime.now())) {
try {
await for (var response
in _webHelper.downloadFile(url, key: key, authHeaders: headers)) {
if (response is DownloadProgress && withProgress) {
streamController.add(response);
}
if (response is FileInfo) {
streamController.add(response);
}
}
} catch (e) {
assert(() {
print(
'CacheManager: Failed to download file from $url with error:\n$e');
return true;
}());
if (cacheFile == null && streamController.hasListener) {
streamController.addError(e);
}
}
}
unawaited(streamController.close());
}
}
缓存判断逻辑在CacheStore
提供两级缓存
class CacheStore {
Duration cleanupRunMinInterval = const Duration(seconds: 10);
/// 未下载完成缓存
final _futureCache = <String, Future<CacheObject>>{};
/// 已下载完缓存
final _memCache = <String, CacheObject>{};
/// ...
Future<FileInfo> getFile(String key, {bool ignoreMemCache = false}) async {
final cacheObject =
await retrieveCacheData(key, ignoreMemCache: ignoreMemCache);
if (cacheObject == null || cacheObject.relativePath == null) {
return null;
}
final file = await fileSystem.createFile(cacheObject.relativePath);
return FileInfo(
file,
FileSource.Cache,
cacheObject.validTill,
cacheObject.url,
);
}
Future<void> putFile(CacheObject cacheObject) async {
_memCache[cacheObject.key] = cacheObject;
await _updateCacheDataInDatabase(cacheObject);
}
Future<CacheObject> retrieveCacheData(String key,
{bool ignoreMemCache = false}) async {
/// 判断是否已缓存过
if (!ignoreMemCache && _memCache.containsKey(key)) {
if (await _fileExists(_memCache[key])) {
return _memCache[key];
}
}
/// 未缓存的 已加入futureCache中的key直接返回
if (!_futureCache.containsKey(key)) {
final completer = Completer<CacheObject>();
/// 未加入的添加到futureCache
unawaited(_getCacheDataFromDatabase(key).then((cacheObject) async {
if (cacheObject != null && !await _fileExists(cacheObject)) {
final provider = await _cacheInfoRepository;
await provider.delete(cacheObject.id);
cacheObject = null;
}
_memCache[key] = cacheObject;
completer.complete(cacheObject);
unawaited(_futureCache.remove(key));
}));
_futureCache[key] = completer.future;
}
return _futureCache[key];
}
/// ...
/// 更新到数据库
Future<dynamic> _updateCacheDataInDatabase(CacheObject cacheObject) async {
final provider = await _cacheInfoRepository;
return provider.updateOrInsert(cacheObject);
}
}
_cacheInfoRepository
缓存仓库是CacheObjectProvider
使用的数据库缓存对象
class CacheObjectProvider extends CacheInfoRepository
with CacheInfoRepositoryHelperMethods {
Database db;
String _path;
String databaseName;
CacheObjectProvider({String path, this.databaseName}) : _path = path;
/// 打开
@override
Future<bool> open() async {
if (!shouldOpenOnNewConnection()) {
return openCompleter.future;
}
var path = await _getPath();
await File(path).parent.create(recursive: true);
db = await openDatabase(path, version: 3,
onCreate: (Database db, int version) async {
await db.execute('''
create table $_tableCacheObject (
${CacheObject.columnId} integer primary key,
${CacheObject.columnUrl} text,
${CacheObject.columnKey} text,
${CacheObject.columnPath} text,
${CacheObject.columnETag} text,
${CacheObject.columnValidTill} integer,
${CacheObject.columnTouched} integer,
${CacheObject.columnLength} integer
);
create unique index $_tableCacheObject${CacheObject.columnKey}
ON $_tableCacheObject (${CacheObject.columnKey});
''');
}, onUpgrade: (Database db, int oldVersion, int newVersion) async {
/// ...
return opened();
}
@override
Future<dynamic> updateOrInsert(CacheObject cacheObject) {
if (cacheObject.id == null) {
return insert(cacheObject);
} else {
return update(cacheObject);
}
}
@override
Future<CacheObject> insert(CacheObject cacheObject,
{bool setTouchedToNow = true}) async {
var id = await db.insert(
_tableCacheObject,
cacheObject.toMap(setTouchedToNow: setTouchedToNow),
);
return cacheObject.copyWith(id: id);
}
@override
Future<CacheObject> get(String key) async {
List<Map> maps = await db.query(_tableCacheObject,
columns: null, where: '${CacheObject.columnKey} = ?', whereArgs: [key]);
if (maps.isNotEmpty) {
return CacheObject.fromMap(maps.first.cast<String, dynamic>());
}
return null;
}
@override
Future<int> delete(int id) {
return db.delete(_tableCacheObject,
where: '${CacheObject.columnId} = ?', whereArgs: [id]);
}
}
可见数据库缓存的是CacheObject
对象,保存了url、key、relativePath等信息
class CacheObject {
static const columnId = '_id';
static const columnUrl = 'url';
static const columnKey = 'key';
static const columnPath = 'relativePath';
static const columnETag = 'eTag';
static const columnValidTill = 'validTill';
static const columnTouched = 'touched';
static const columnLength = 'length';
}
没有缓存下调用了_webHelper.downloadFile
方法
class WebHelper {
WebHelper(this._store, FileService fileFetcher)
: _memCache = {},
fileFetcher = fileFetcher ?? HttpFileService();
final CacheStore _store;
@visibleForTesting
final FileService fileFetcher;
final Map<String, BehaviorSubject<FileResponse>> _memCache;
final Queue<QueueItem> _queue = Queue();
///Download the file from the url
Stream<FileResponse> downloadFile(String url,
{String key,
Map<String, String> authHeaders,
bool ignoreMemCache = false}) {
key ??= url;
if (!_memCache.containsKey(key) || ignoreMemCache) {
var subject = BehaviorSubject<FileResponse>();
_memCache[key] = subject;
/// 下载或者加入队列
unawaited(_downloadOrAddToQueue(url, key, authHeaders));
}
return _memCache[key].stream;
}
Future<void> _downloadOrAddToQueue(
String url,
String key,
Map<String, String> authHeaders,
) async {
//如果太多请求被执行,加入队列等待
if (concurrentCalls >= fileFetcher.concurrentFetches) {
_queue.add(QueueItem(url, key, authHeaders));
return;
}
concurrentCalls++;
var subject = _memCache[key];
try {
await for (var result
in _updateFile(url, key, authHeaders: authHeaders)) {
subject.add(result);
}
} catch (e, stackTrace) {
subject.addError(e, stackTrace);
} finally {
concurrentCalls--;
await subject.close();
_memCache.remove(key);
_checkQueue();
}
}
///下载资源
Stream<FileResponse> _updateFile(String url, String key,
{Map<String, String> authHeaders}) async* {
var cacheObject = await _store.retrieveCacheData(key);
cacheObject = cacheObject == null
? CacheObject(url, key: key)
: cacheObject.copyWith(url: url);
/// 请求得到response
final response = await _download(cacheObject, authHeaders);
yield* _manageResponse(cacheObject, response);
}
Stream<FileResponse> _manageResponse(
CacheObject cacheObject, FileServiceResponse response) async* {
/// ...
if (statusCodesNewFile.contains(response.statusCode)) {
int savedBytes;
await for (var progress in _saveFile(newCacheObject, response)) {
savedBytes = progress;
yield DownloadProgress(
cacheObject.url, response.contentLength, progress);
}
newCacheObject = newCacheObject.copyWith(length: savedBytes);
}
/// 加入缓存
unawaited(_store.putFile(newCacheObject).then((_) {
if (newCacheObject.relativePath != oldCacheObject.relativePath) {
_removeOldFile(oldCacheObject.relativePath);
}
}));
final file = await _store.fileSystem.createFile(
newCacheObject.relativePath,
);
yield FileInfo(
file,
FileSource.Online,
newCacheObject.validTill,
newCacheObject.url,
);
}
Stream<int> _saveFile(CacheObject cacheObject, FileServiceResponse response) {
var receivedBytesResultController = StreamController<int>();
unawaited(_saveFileAndPostUpdates(
receivedBytesResultController,
cacheObject,
response,
));
return receivedBytesResultController.stream;
}
Future _saveFileAndPostUpdates(
StreamController<int> receivedBytesResultController,
CacheObject cacheObject,
FileServiceResponse response) async {
/// 根据路径创建file
final file = await _store.fileSystem.createFile(cacheObject.relativePath);
try {
var receivedBytes = 0;
/// 写文件
final sink = file.openWrite();
await response.content.map((s) {
receivedBytes += s.length;
receivedBytesResultController.add(receivedBytes);
return s;
}).pipe(sink);
} catch (e, stacktrace) {
receivedBytesResultController.addError(e, stacktrace);
}
await receivedBytesResultController.close();
}
}
总结
cached_network_image
图片加载流程依赖ImageProvider
,缓存和下载逻辑放在另一个库flutter_cache_manager
下载文件在WebHelper
中提供队列管理,依赖传入FileService
做具体获取文件方便扩展默认实现HttpFileService
,下载完成后路径保存在CacheObject
保存在sqflite
数据库