功能和 API 概览

Android 14 面向开发者引入了一些出色的功能和 API。以下内容可帮助您了解适用于您的应用的功能并开始使用相关 API。

如需查看新增、修改和移除的 API 的详细列表,请参阅 API 差异报告。如需详细了解添加的 API,请访问 Android API 参考文档。对于 Android 14,请查找在 API 级别 34 中添加的 API。如需了解平台变更可能会在哪些方面影响您的应用,请务必查看会影响以 Android 14 为目标平台的应用所有应用的 Android 14 行为变更。

国际化

单个应用语言设置

Android 14 expands on the per-app language features that were introduced in Android 13 (API level 33) with these additional capabilities:

  • Automatically generate an app's localeConfig: Starting with Android Studio Giraffe Canary 7 and AGP 8.1.0-alpha07, you can configure your app to support per-app language preferences automatically. Based on your project resources, the Android Gradle plugin generates the LocaleConfig file and adds a reference to it in the final manifest file, so you no longer have to create or update the file manually. AGP uses the resources in the res folders of your app modules and any library module dependencies to determine the locales to include in the LocaleConfig file.

  • Dynamic updates for an app's localeConfig: Use the setOverrideLocaleConfig() and getOverrideLocaleConfig() methods in LocaleManager to dynamically update your app's list of supported languages in the device's system settings. Use this flexibility to customize the list of supported languages per region, run A/B experiments, or provide an updated list of locales if your app utilizes server-side pushes for localization.

  • App language visibility for input method editors (IMEs): IMEs can utilize the getApplicationLocales() method to check the language of the current app and match the IME language to that language.

Grammatical Inflection API

有 30 亿人在使用区分性别的语言,此类语言的语法类别(例如名词、动词、形容词和介词)会根据您交谈所涉及的人或物的性别而变化。传统上,许多区分性别的语言使用阳性语法性别作为默认或通用性别。

以错误的语法性别来称呼用户,例如以阳性语法性别来称呼女性,可能会对她们的表现和态度产生负面影响。相比之下,界面语言如果能正确反映用户的语法性别,就可以提高用户互动度,并提供更个性化、更自然的用户体验。

为帮助您针对区分性别的语言构建以用户为中心的界面,Android 14 引入了 Grammatical Inflection API,让您无需重构应用便能添加对语法性别的支持。

地区偏好设置

Regional preferences enable users to personalize temperature units, the first day of the week, and numbering systems. A European living in the United States might prefer temperature units to be in Celsius rather than Fahrenheit and for apps to treat Monday as the beginning of the week instead of the US default of Sunday.

New Android Settings menus for these preferences provide users with a discoverable and centralized location to change app preferences. These preferences also persist through backup and restore. Several APIs and intents—such as getTemperatureUnit and getFirstDayOfWeek— grant your app read access to user preferences, so your app can adjust how it displays information. You can also register a BroadcastReceiver on ACTION_LOCALE_CHANGED to handle locale configuration changes when regional preferences change.

To find these settings, open the Settings app and navigate to System > Languages & input > Regional preferences.

Regional preferences screen in Android system settings.
Temperature options for regional preferences in Android system settings.

无障碍

非线性字体放大至 200%

Starting in Android 14, the system supports font scaling up to 200%, providing low-vision users with additional accessibility options that align with Web Content Accessibility Guidelines (WCAG).

To prevent large text elements on screen from scaling too large, the system applies a nonlinear scaling curve. This scaling strategy means that large text doesn't scale at the same rate as smaller text. Nonlinear font scaling helps preserve the proportional hierarchy between elements of different sizes while mitigating issues with linear text scaling at high degrees (such as text being cut off or text that becomes harder to read due to an extremely large display sizes).

Test your app with nonlinear font scaling

Enable the maximum font size in a device's accessibility settings to test your app.

If you already use scaled pixels (sp) units to define text sizing, then these additional options and scaling improvements are applied automatically to the text in your app. However, you should still perform UI testing with the maximum font size enabled (200%) to ensure that your app applies the font sizes correctly and can accommodate larger font sizes without impacting usability.

To enable 200% font size, follow these steps:

  1. Open the Settings app and navigate to Accessibility > Display size and text.
  2. For the Font size option, tap the plus (+) icon until the maximum font size setting is enabled, as shown in the image that accompanies this section.

Use scaled pixel (sp) units for text-sizes

Remember to always specify text sizes in sp units. When your app uses sp units, Android can apply the user's preferred text size and scale it appropriately.

Don't use sp units for padding or define view heights assuming implicit padding: with nonlinear font scaling sp dimensions might not be proportional, so 4sp + 20sp might not equal 24sp.

Convert scaled pixel (sp) units

Use TypedValue.applyDimension() to convert from sp units to pixels, and use TypedValue.deriveDimension() to convert pixels to sp. These methods apply the appropriate nonlinear scaling curve automatically.

Avoid hardcoding equations using Configuration.fontScale or DisplayMetrics.scaledDensity. Because font scaling is nonlinear, the scaledDensity field is no longer accurate. The fontScale field should be used for informational purposes only because fonts are no longer scaled with a single scalar value.

Use sp units for lineHeight

Always define android:lineHeight using sp units instead of dp, so the line height scales along with your text. Otherwise, if your text is sp but your lineHeight is in dp or px, it doesn't scale and looks cramped. TextView automatically corrects the lineHeight so that your intended proportions are preserved, but only if both textSize and lineHeight are defined in sp units.

摄像头和媒体

图片 Ultra HDR

标准动态范围 (SDR) 与高动态范围 (HDR) 图片质量对比示意图。

Android 14 新增了对高动态范围 (HDR) 图片的支持,可在拍摄照片时保留更多来自传感器的信息,从而实现鲜艳的色彩和更高的对比度。Android 使用 Ultra HDR 格式,该格式与 JPEG 图片完全向后兼容,可让应用与 HDR 图片无缝互操作,并根据需要以标准动态范围 (SDR) 显示这些图片。

当您的应用选择为其 activity 窗口使用 HDR 界面(通过清单条目或通过在运行时调用 Window.setColorMode())时,框架会自动在界面中以 HDR 格式渲染这些图片。您还可以在受支持的设备上拍摄压缩的 Ultra HDR 静态图片。从传感器中恢复的颜色越多,后期编辑的灵活性就越高。与 Ultra HDR 图片关联的 Gainmap 可用于使用 OpenGL 或 Vulkan 渲染这些图片。

相机扩展中的缩放、对焦、postview 等功能

Android 14 升级并改进了相机扩展程序,让应用能够处理更长的处理时间,从而支持在受支持的设备上使用计算密集型算法(例如弱光摄影)来改善图片。这些功能可让用户在使用相机扩展功能时获得更出色的体验。这些改进的示例包括:

传感器内变焦

CameraCharacteristics 中的 REQUEST_AVAILABLE_CAPABILITIES_STREAM_USE_CASE 包含 SCALER_AVAILABLE_STREAM_USE_CASES_CROPPED_RAW 时,您的应用可以使用高级传感器功能,将剪裁后的 RAW 数据流的像素与全视野范围相同,方法是将 CaptureRequest 与将数据流用例设置为 CameraMetadata.SCALER_AVAILABLE_STREAM_USE_CASES_CROPPED_RAW 的 RAW 目标搭配使用。通过实现请求替换控件,更新后的相机可让用户在其他相机控件准备就绪之前使用缩放控件。

无损 USB 音频

Android 14 支持无损音频格式,可通过 USB 有线耳机提供发烧友级体验。您可以查询 USB 设备的首选混音器属性,注册监听器以监听首选混音器属性的更改,以及使用 AudioMixerAttributes 类配置混音器属性。此类表示音频混音器的格式,例如声道掩码、采样率和行为。该类允许直接发送音频,而无需混音、调节音量或处理效果。

开发者工作效率和工具

Credential Manager

Android 14 将 Credential Manager 添加为平台 API,并通过使用 Google Play 服务的 Jetpack 库,向后额外支持 Android 4.4(API 级别 19)设备。Credential Manager 旨在通过 API 使用用户配置的凭据提供程序检索和存储凭据,让用户更轻松地登录。Credential Manager 在单个 API 中支持多种登录方法,包括用户名和密码、通行密钥和联合登录解决方案(如“使用 Google 账号登录”)。

通行密钥具有许多优势。例如,通行密钥是基于业界标准构建的,可在各种不同的操作系统和浏览器生态系统中使用,并且可用于网站和应用。

如需了解详情,请参阅 Credential Manager 和通行密钥文档以及介绍 Credential Manager 和通行密钥的博文

健康数据共享

Health Connect 是用户健康与健身数据的设备端仓库。借助该功能,用户可以在一个位置控制要与这些应用共享哪些数据,并在自己喜爱的应用之间共享数据。

在搭载 Android 14 之前的 Android 版本的设备上,Health Connect 可作为应用从 Google Play 商店下载。从 Android 14 开始,Health Connect 将成为 Android 平台的一部分,并通过 Google Play 系统更新接收更新,而无需单独下载。这样一来,Health Connect 就可以频繁更新,您的应用可以依赖于搭载 Android 14 或更高版本的设备上提供的 Health Connect。用户可以通过设备的“设置”访问 Health Connect,隐私控制功能集成到系统设置中。

用户无需在搭载 Android 14 或更高版本的设备上单独下载应用,即可开始使用 Health Connect。
用户可以通过系统设置控制哪些应用可以访问其健康与健身数据。

Health Connect 在 Android 14 中包含多项新功能,例如锻炼路线,可让用户分享可在地图上直观呈现的锻炼路线。路线定义为在一定时间范围内保存的位置列表,您的应用可以将路线插入锻炼时段,将它们关联起来。为确保用户能够完全控制此类敏感数据,用户必须允许与其他应用共享单个路线。

如需了解详情,请参阅 Health Connect 文档以及有关 Android Health 中的新功能的博文。

OpenJDK 17 更新

Android 14 将继续更新 Android 的核心库,以与最新 OpenJDK LTS 版本中的功能保持一致,包括适合应用和平台开发者的库更新和 Java 17 语言支持。

其中包含以下功能和改进:

  • 将大约 300 个 java.base 类更新为支持 Java 17。
  • 文本块 - 为 Java 编程语言引入了多行字符串字面量。
  • instanceof 模式匹配:可让对象在 instanceof 中被视为具有特定类型,而无需任何额外的变量。
  • 密封类:允许您限制哪些类和接口可以扩展或实现它们。

得益于 Google Play 系统更新 (Project Mainline),6 亿多台设备能够接收包含这些更改的最新 Android 运行时 (ART) 更新。我们致力于为应用提供更加一致、安全的跨设备环境,并为用户提供独立于平台版本的新功能。

Java 和 OpenJDK 是 Oracle 及/或其关联公司的商标或注册商标。

针对应用商店的改进

Android 14 introduces several PackageInstaller APIs that allow app stores to improve their user experience.

Request install approval before downloading

Installing or updating an app might require user approval. For example, when an installer making use of the REQUEST_INSTALL_PACKAGES permission attempts to install a new app. In prior Android versions, app stores can only request user approval after APKs are written to the install session and the session is committed.

Starting with Android 14, the requestUserPreapproval() method lets installers request user approval before committing the install session. This improvement lets an app store defer downloading any APKs until after the installation has been approved by the user. Furthermore, once a user has approved installation, the app store can download and install the app in the background without interrupting the user.

Claim responsibility for future updates

The setRequestUpdateOwnership() method allows an installer to indicate to the system that it intends to be responsible for future updates to an app it is installing. This capability enables update ownership enforcement, meaning that only the update owner is permitted to install automatic updates to the app. Update ownership enforcement helps to ensure that users receive updates only from the expected app store.

Any other installer, including those making use of the INSTALL_PACKAGES permission, must receive explicit user approval in order to install an update. If a user decides to proceed with an update from another source, update ownership is lost.

Update apps at less-disruptive times

App stores typically want to avoid updating an app that is actively in use because this leads to the app's running processes being killed, which potentially interrupts what the user was doing.

Starting with Android 14, the InstallConstraints API gives installers a way to ensure that their app updates happen at an opportune moment. For example, an app store can call the commitSessionAfterInstallConstraintsAreMet() method to make sure that an update is only committed when the user is no longer interacting with the app in question.

Seamlessly install optional splits

With split APKs, features of an app can be delivered in separate APK files, rather than as a monolithic APK. Split APKs allow app stores to optimize the delivery of different app components. For example, app stores might optimize based on the properties of the target device. The PackageInstaller API has supported splits since its introduction in API level 22.

In Android 14, the setDontKillApp() method allows an installer to indicate that the app's running processes shouldn't be killed when new splits are installed. App stores can use this feature to seamlessly install new features of an app while the user is using the app.

应用元数据软件包

从 Android 14 开始,Android 软件包安装程序可让您指定应用元数据(例如数据安全做法),以在 Google Play 等应用商店页面上架。

检测用户何时截取设备屏幕截图

为了打造更加标准化的屏幕截图检测体验,Android 14 引入了可保护隐私的屏幕截图检测 API。借助此 API,应用可以按 activity 注册回调。如果用户在该 activity 可见时截取屏幕截图,系统会调用这些回调并通知用户。

用户体验

Sharesheet 自定义操作和经过改进的排名系统

Android 14 updates the system sharesheet to support custom app actions and more informative preview results for users.

Add custom actions

With Android 14, your app can add custom actions to the system sharesheet it invokes.

Screenshot of custom actions on the sharesheet.

Improve ranking of Direct Share targets

Android 14 uses more signals from apps to determine the ranking of the direct share targets to provide more helpful results for the user. To provide the most useful signal for ranking, follow the guidance for improving rankings of your Direct Share targets. Communication apps can also report shortcut usage for outgoing and incoming messages.

Direct Share row in the sharesheet, as shown by 1

支持内置和自定义预测性返回动画

视频:预测性返回动画

Android 13 在开发者选项背后引入了预测性“返回主屏幕”动画。在已启用开发者选项的受支持应用中使用时,滑回手势会显示动画,表明返回手势会使应用退回到主屏幕。

Android 14 包含针对“预测性返回”的多项改进和新指南:

在此 Android 14 预览版中,所有预测性返回功能都是位于开发者选项背后。请参阅与将您的应用迁移到预测性返回有关的开发者指南,以及与创建自定义应用内转换有关的开发者指南

大屏设备制造商按应用替换项

借助按应用替换项,设备制造商可以更改应用在大屏设备上的行为。例如,FORCE_RESIZE_APP 替换项会指示系统调整应用大小以适应显示屏尺寸(避免进入尺寸兼容模式),即使在应用清单中设置了 resizeableActivity="false" 也是如此。

替换项旨在改善大屏设备上的用户体验。

借助新的清单属性,您可以为应用停用某些设备制造商替换项。

大屏设备用户按应用替换项

按应用替换项会更改应用在大屏设备上的行为。例如,无论应用的配置如何,OVERRIDE_MIN_ASPECT_RATIO_LARGE 设备制造商替换项都会将应用宽高比设置为 16:9。

借助 Android 14 QPR1,用户可以在大屏设备上通过新的设置菜单应用按应用替换项。

应用屏幕共享

借助应用界面共享功能,用户可以在录制屏幕内容时共享应用窗口,而不是整个设备屏幕。

在应用屏幕共享模式下,状态栏、导航栏、通知和其他系统界面元素会从共享显示屏中排除。系统只会分享所选应用的内容。

应用屏幕共享功能可让用户运行多个应用,但将内容共享限制为单个应用,从而提高工作效率并保护隐私。

Pixel 8 Pro 上由 LLM 提供支持的 Gboard 智能回复功能

在搭载 12 月功能分块的 Pixel 8 Pro 设备上,开发者可以在 Gboard 中试用质量更高的智能回复,这些回复由在 Google Tensor 上运行的设备端大语言模型 (LLM) 提供支持。

此功能目前仅在 WhatsApp、Line 和 KakaoTalk 中以美式英语的形式提供给用户进行小范围测试。此功能需要使用 Pixel 8 Pro 设备,并将 Gboard 用作键盘。

如需试用此功能,请先依次前往设置 > 开发者选项 > AiCore 设置 > 启用 Aicore 持久性,启用该功能。

接下来,在受支持的应用中打开对话,即可在 Gboard 的建议栏中看到依托 LLM 的智能回复,以便回复收到的消息。

Gboard 利用设备端 LLM 提供更高质量的智能回复。

图形

路径可查询和插值

Android's Path API is a powerful and flexible mechanism for creating and rendering vector graphics, with the ability to stroke or fill a path, construct a path from line segments or quadratic or cubic curves, perform boolean operations to get even more complex shapes, or all of these simultaneously. One limitation is the ability to find out what is actually in a Path object; the internals of the object are opaque to callers after creation.

To create a Path, you call methods such as moveTo(), lineTo(), and cubicTo() to add path segments. But there has been no way to ask that path what the segments are, so you must retain that information at creation time.

Starting in Android 14, you can query paths to find out what's inside of them. First, you need to get a PathIterator object using the Path.getPathIterator API:

Kotlin

val path = Path().apply {
    moveTo(1.0f, 1.0f)
    lineTo(2.0f, 2.0f)
    close()
}
val pathIterator = path.pathIterator

Java

Path path = new Path();
path.moveTo(1.0F, 1.0F);
path.lineTo(2.0F, 2.0F);
path.close();
PathIterator pathIterator = path.getPathIterator();

Next, you can call PathIterator to iterate through the segments one by one, retrieving all of the necessary data for each segment. This example uses PathIterator.Segment objects, which packages up the data for you:

Kotlin

for (segment in pathIterator) {
    println("segment: ${segment.verb}, ${segment.points}")
}

Java

while (pathIterator.hasNext()) {
    PathIterator.Segment segment = pathIterator.next();
    Log.i(LOG_TAG, "segment: " + segment.getVerb() + ", " + segment.getPoints());
}

PathIterator also has a non-allocating version of next() where you can pass in a buffer to hold the point data.

One of the important use cases of querying Path data is interpolation. For example, you might want to animate (or morph) between two different paths. To further simplify that use case, Android 14 also includes the interpolate() method on Path. Assuming the two paths have the same internal structure, the interpolate() method creates a new Path with that interpolated result. This example returns a path whose shape is halfway (a linear interpolation of .5) between path and otherPath:

Kotlin

val interpolatedResult = Path()
if (path.isInterpolatable(otherPath)) {
    path.interpolate(otherPath, .5f, interpolatedResult)
}

Java

Path interpolatedResult = new Path();
if (path.isInterpolatable(otherPath)) {
    path.interpolate(otherPath, 0.5F, interpolatedResult);
}

The Jetpack graphics-path library enables similar APIs for earlier versions of Android as well.

使用顶点着色器和片段着色器的自定义网格

Android 长期以来一直支持使用自定义着色绘制三角网格,但输入网格格式仅限于一些预定义的属性组合。Android 14 增加了对自定义网格的支持,可将其定义为三角形三角形条,并且可以选择是否编入索引。这些网格是使用自定义属性、顶点步长、可变以及使用 AGSL 编写的顶点着色器和片段着色器指定的。

顶点着色器定义了位置和颜色等变量,而片段着色器可以选择为像素定义颜色,通常是使用顶点着色器创建的变量。如果片段着色器提供颜色,则系统会使用绘制网格时选择的混合模式将其与当前 Paint 颜色混合。Uniform 可以传递到片段着色器和顶点着色器,以提高灵活性。

Canvas 的硬件缓冲区渲染器

协助使用 Android 的 Canvas API 通过 硬件加速至 HardwareBuffer、Android 14 引入了 HardwareBufferRenderer。如果您的用例涉及通过 SurfaceControl 与系统合成器通信以实现低延迟绘制,此 API 特别有用。