Skip to content
Permalink
Branch: master
Find file Copy path
Find file Copy path
8 contributors

Users who have contributed to this file

@a14n @szakarias @mraleph @Hixie @yjbanov @jonahwilliams @jason-simmons @fmatosqg
294 lines (271 sloc) 11 KB
// Copyright 2016 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
import 'dart:async';
import 'dart:collection';
import 'dart:convert';
import 'dart:ui' show hashValues;
import 'package:flutter/foundation.dart';
import 'package:flutter/services.dart';
import 'image_provider.dart';
const String _kAssetManifestFileName = 'AssetManifest.json';
/// Fetches an image from an [AssetBundle], having determined the exact image to
/// use based on the context.
///
/// Given a main asset and a set of variants, AssetImage chooses the most
/// appropriate asset for the current context, based on the device pixel ratio
/// and size given in the configuration passed to [resolve].
///
/// To show a specific image from a bundle without any asset resolution, use an
/// [AssetBundleImageProvider].
///
/// ## Naming assets for matching with different pixel densities
///
/// Main assets are presumed to match a nominal pixel ratio of 1.0. To specify
/// assets targeting different pixel ratios, place the variant assets in
/// the application bundle under subdirectories named in the form "Nx", where
/// N is the nominal device pixel ratio for that asset.
///
/// For example, suppose an application wants to use an icon named
/// "heart.png". This icon has representations at 1.0 (the main icon), as well
/// as 1.5 and 2.0 pixel ratios (variants). The asset bundle should then contain
/// the following assets:
///
/// ```
/// heart.png
/// 1.5x/heart.png
/// 2.0x/heart.png
/// ```
///
/// On a device with a 1.0 device pixel ratio, the image chosen would be
/// heart.png; on a device with a 1.3 device pixel ratio, the image chosen
/// would be 1.5x/heart.png.
///
/// The directory level of the asset does not matter as long as the variants are
/// at the equivalent level; that is, the following is also a valid bundle
/// structure:
///
/// ```
/// icons/heart.png
/// icons/1.5x/heart.png
/// icons/2.0x/heart.png
/// ```
///
/// assets/icons/3.0x/heart.png would be a valid variant of
/// assets/icons/heart.png.
///
///
/// ## Fetching assets
///
/// When fetching an image provided by the app itself, use the [assetName]
/// argument to name the asset to choose. For instance, consider the structure
/// above. First, the `pubspec.yaml` of the project should specify its assets in
/// the `flutter` section:
///
/// ```yaml
/// flutter:
/// assets:
/// - icons/heart.png
/// ```
///
/// Then, to fetch the image, use
/// ```dart
/// AssetImage('icons/heart.png')
/// ```
///
/// ## Assets in packages
///
/// To fetch an asset from a package, the [package] argument must be provided.
/// For instance, suppose the structure above is inside a package called
/// `my_icons`. Then to fetch the image, use:
///
/// ```dart
/// AssetImage('icons/heart.png', package: 'my_icons')
/// ```
///
/// Assets used by the package itself should also be fetched using the [package]
/// argument as above.
///
/// If the desired asset is specified in the `pubspec.yaml` of the package, it
/// is bundled automatically with the app. In particular, assets used by the
/// package itself must be specified in its `pubspec.yaml`.
///
/// A package can also choose to have assets in its 'lib/' folder that are not
/// specified in its `pubspec.yaml`. In this case for those images to be
/// bundled, the app has to specify which ones to include. For instance a
/// package named `fancy_backgrounds` could have:
///
/// ```
/// lib/backgrounds/background1.png
/// lib/backgrounds/background2.png
/// lib/backgrounds/background3.png
/// ```
///
/// To include, say the first image, the `pubspec.yaml` of the app should specify
/// it in the `assets` section:
///
/// ```yaml
/// assets:
/// - packages/fancy_backgrounds/backgrounds/background1.png
/// ```
///
/// The `lib/` is implied, so it should not be included in the asset path.
///
/// See also:
///
/// * [Image.asset] for a shorthand of an [Image] widget backed by [AssetImage]
/// when used without a scale.
class AssetImage extends AssetBundleImageProvider {
/// Creates an object that fetches an image from an asset bundle.
///
/// The [assetName] argument must not be null. It should name the main asset
/// from the set of images to choose from. The [package] argument must be
/// non-null when fetching an asset that is included in package. See the
/// documentation for the [AssetImage] class itself for details.
const AssetImage(
this.assetName, {
this.bundle,
this.package,
}) : assert(assetName != null);
/// The name of the main asset from the set of images to choose from. See the
/// documentation for the [AssetImage] class itself for details.
final String assetName;
/// The name used to generate the key to obtain the asset. For local assets
/// this is [assetName], and for assets from packages the [assetName] is
/// prefixed 'packages/<package_name>/'.
String get keyName => package == null ? assetName : 'packages/$package/$assetName';
/// The bundle from which the image will be obtained.
///
/// If the provided [bundle] is null, the bundle provided in the
/// [ImageConfiguration] passed to the [resolve] call will be used instead. If
/// that is also null, the [rootBundle] is used.
///
/// The image is obtained by calling [AssetBundle.load] on the given [bundle]
/// using the key given by [keyName].
final AssetBundle bundle;
/// The name of the package from which the image is included. See the
/// documentation for the [AssetImage] class itself for details.
final String package;
// We assume the main asset is designed for a device pixel ratio of 1.0
static const double _naturalResolution = 1.0;
@override
Future<AssetBundleImageKey> obtainKey(ImageConfiguration configuration) {
// This function tries to return a SynchronousFuture if possible. We do this
// because otherwise showing an image would always take at least one frame,
// which would be sad. (This code is called from inside build/layout/paint,
// which all happens in one call frame; using native Futures would guarantee
// that we resolve each future in a new call frame, and thus not in this
// build/layout/paint sequence.)
final AssetBundle chosenBundle = bundle ?? configuration.bundle ?? rootBundle;
Completer<AssetBundleImageKey> completer;
Future<AssetBundleImageKey> result;
chosenBundle.loadStructuredData<Map<String, List<String>>>(_kAssetManifestFileName, _manifestParser).then<void>(
(Map<String, List<String>> manifest) {
final String chosenName = _chooseVariant(
keyName,
configuration,
manifest == null ? null : manifest[keyName],
);
final double chosenScale = _parseScale(chosenName);
final AssetBundleImageKey key = AssetBundleImageKey(
bundle: chosenBundle,
name: chosenName,
scale: chosenScale,
);
if (completer != null) {
// We already returned from this function, which means we are in the
// asynchronous mode. Pass the value to the completer. The completer's
// future is what we returned.
completer.complete(key);
} else {
// We haven't yet returned, so we must have been called synchronously
// just after loadStructuredData returned (which means it provided us
// with a SynchronousFuture). Let's return a SynchronousFuture
// ourselves.
result = SynchronousFuture<AssetBundleImageKey>(key);
}
}
).catchError((dynamic error, StackTrace stack) {
// We had an error. (This guarantees we weren't called synchronously.)
// Forward the error to the caller.
assert(completer != null);
assert(result == null);
completer.completeError(error, stack);
});
if (result != null) {
// The code above ran synchronously, and came up with an answer.
// Return the SynchronousFuture that we created above.
return result;
}
// The code above hasn't yet run its "then" handler yet. Let's prepare a
// completer for it to use when it does run.
completer = Completer<AssetBundleImageKey>();
return completer.future;
}
static Future<Map<String, List<String>>> _manifestParser(String jsonData) {
if (jsonData == null)
return SynchronousFuture<Map<String, List<String>>>(null);
// TODO(ianh): JSON decoding really shouldn't be on the main thread.
final Map<String, dynamic> parsedJson = json.decode(jsonData);
final Iterable<String> keys = parsedJson.keys;
final Map<String, List<String>> parsedManifest =
Map<String, List<String>>.fromIterables(keys,
keys.map<List<String>>((String key) => List<String>.from(parsedJson[key])));
// TODO(ianh): convert that data structure to the right types.
return SynchronousFuture<Map<String, List<String>>>(parsedManifest);
}
String _chooseVariant(String main, ImageConfiguration config, List<String> candidates) {
if (config.devicePixelRatio == null || candidates == null || candidates.isEmpty)
return main;
// TODO(ianh): Consider moving this parsing logic into _manifestParser.
final SplayTreeMap<double, String> mapping = SplayTreeMap<double, String>();
for (String candidate in candidates)
mapping[_parseScale(candidate)] = candidate;
// TODO(ianh): implement support for config.locale, config.textDirection,
// config.size, config.platform (then document this over in the Image.asset
// docs)
return _findNearest(mapping, config.devicePixelRatio);
}
// Return the value for the key in a [SplayTreeMap] nearest the provided key.
String _findNearest(SplayTreeMap<double, String> candidates, double value) {
if (candidates.containsKey(value))
return candidates[value];
final double lower = candidates.lastKeyBefore(value);
final double upper = candidates.firstKeyAfter(value);
if (lower == null)
return candidates[upper];
if (upper == null)
return candidates[lower];
if (value > (lower + upper) / 2)
return candidates[upper];
else
return candidates[lower];
}
static final RegExp _extractRatioRegExp = RegExp(r'/?(\d+(\.\d*)?)x$');
double _parseScale(String key) {
if (key == assetName) {
return _naturalResolution;
}
final Uri assetUri = Uri.parse(key);
String directoryPath = '';
if (assetUri.pathSegments.length > 1) {
directoryPath = assetUri.pathSegments[assetUri.pathSegments.length - 2];
}
final Match match = _extractRatioRegExp.firstMatch(directoryPath);
if (match != null && match.groupCount > 0)
return double.parse(match.group(1));
return _naturalResolution; // i.e. default to 1.0x
}
@override
bool operator ==(dynamic other) {
if (other.runtimeType != runtimeType)
return false;
final AssetImage typedOther = other;
return keyName == typedOther.keyName
&& bundle == typedOther.bundle;
}
@override
int get hashCode => hashValues(keyName, bundle);
@override
String toString() => '$runtimeType(bundle: $bundle, name: "$keyName")';
}
You can’t perform that action at this time.