Android 16 面向开发者引入了一些出色的新功能和 API。以下部分总结了这些功能,可帮助您开始使用相关 API。
如需详细了解新增、修改和移除的 API,请参阅 API 差异报告。如需详细了解新的 API,请访问 Android API 参考文档,新 API 会突出显示以方便查看。您还应查看平台变更可能会在哪些方面影响您的应用。如需了解详情,请参阅以下页面:
核心功能
Android 包含可扩展 Android 系统核心功能的新 API。
2025 年发布了两个 Android API
- This preview is for the next major release of Android with a planned launch in Q2 of 2025. This release is similar to all of our API releases in the past, where we can have planned behavior changes that are often tied to a targetSdkVersion.
- We're planning the major release a quarter earlier (Q2 rather than Q3 in prior years) to better align with the schedule of device launches across our ecosystem, so more devices can get the major release of Android sooner. With the major release coming in Q2, you'll need to do your annual compatibility testing a few months earlier than in previous years to make sure your apps are ready.
- We plan to have another release in Q4 of 2025 which also will include new developer APIs. The Q2 major release will be the only release in 2025 to include planned behavior changes that could affect apps.
In addition to new developer APIs, the Q4 minor release will pick up feature updates, optimizations, and bug fixes; it will not include any app-impacting behavior changes.

We'll continue to have quarterly Android releases. The Q1 and Q3 updates in-between the API releases will provide incremental updates to help ensure continuous quality. We're actively working with our device partners to bring the Q2 release to as many devices as possible.
Using new APIs with major and minor releases
Guarding a code block with a check for API level is done today using
the SDK_INT
constant with
VERSION_CODES
. This will continue
to be supported for major Android releases.
if (SDK_INT >= VERSION_CODES.BAKLAVA) {
// Use APIs introduced in Android 16
}
The new SDK_INT_FULL
constant can be used for API checks against both major and minor versions with
the new VERSION_CODES_FULL
enumeration.
if (SDK_INT_FULL >= VERSION_CODES_FULL.[MAJOR or MINOR RELEASE]) {
// Use APIs introduced in a major or minor release
}
You can also use the
Build.getMinorSdkVersion()
method to get just the minor SDK version.
val minorSdkVersion = Build.getMinorSdkVersion(VERSION_CODES_FULL.BAKLAVA)
These APIs have not yet been finalized and are subject to change, so please send us feedback if you have any concerns.
用户体验和系统界面
Android 16 让应用开发者和用户可以更灵活地控制设备配置,以满足他们的需求。
以进度为中心的通知
Android 16 引入了以进度为中心的通知,可帮助用户顺畅地跟踪用户发起的端到端历程。
Notification.ProgressStyle
是一种新的通知样式,可让您创建以进度为中心的通知。主要用例包括共享车辆、送货和导航。在 Notification.ProgressStyle
类中,您可以使用点和细分来表示用户体验历程中的状态和里程碑。
如需了解详情,请参阅以进度为中心的通知文档页面。


预测性返回更新
Android 16 adds new APIs to help you enable predictive back system animations in
gesture navigation such as the back-to-home animation. Registering the
onBackInvokedCallback
with the new
PRIORITY_SYSTEM_NAVIGATION_OBSERVER
allows your app to
receive the regular onBackInvoked
call whenever the
system handles a back navigation without impacting the normal back navigation
flow.
Android 16 additionally adds the
finishAndRemoveTaskCallback()
and
moveTaskToBackCallback
. By registering these callbacks
with the OnBackInvokedDispatcher
, the system can trigger
specific behaviors and play corresponding ahead-of-time animations when the back
gesture is invoked.
更丰富的触感反馈
Android has exposed control over the haptic actuator ever since its inception.
Android 11 added support for more complex haptic effects that more advanced
actuators could support through
VibrationEffect.Compositions
of device-defined semantic
primitives.
Android 16 adds haptic APIs that let apps define the amplitude and frequency curves of a haptic effect while abstracting away differences between device capabilities.
开发者工作效率和工具
虽然我们为提高开发者效率所做的大部分工作都集中在 Android Studio、Jetpack Compose 和 Android Jetpack 库等工具上,但我们始终在寻找各种方法,通过平台帮助您实现愿景。
动态壁纸的内容处理
In Android 16, the live wallpaper framework is gaining a new content API to
address the challenges of dynamic, user-driven wallpapers. Currently, live
wallpapers incorporating user-provided content require complex, service-specific
implementations. Android 16 introduces
WallpaperDescription
and
WallpaperInstance
. WallpaperDescription lets you
identify distinct instances of a live wallpaper from the same service. For
example, a wallpaper that has instances on both the home screen and on the lock
screen may have unique content in both places. The wallpaper picker and
WallpaperManager
use this metadata to better present
wallpapers to users, streamlining the process for you to create diverse and
personalized live wallpaper experiences.
性能和电池
Android 16 引入了一些 API,可帮助您收集有关应用的数据分析。
系统触发的性能分析
ProfilingManager
was
added in Android 15, giving apps the ability to
request profiling data collection using Perfetto on public devices in the field.
However, since this profiling must be started from the app, critical flows such
as startups or ANRs would be difficult or impossible for apps to capture.
To help with this, Android 16 introduces system-triggered profiling to
ProfilingManager
. Apps can register interest in receiving traces for certain
triggers such as cold start reportFullyDrawn
or ANRs, and then the system starts and stops a trace on the app's behalf. After
the trace completes, the results are delivered to the app's data directory.
在 ApplicationStartInfo 中启动组件
ApplicationStartInfo
was added in Android
15, allowing an app to see reasons
for process start, start type, start times, throttling, and other useful
diagnostic data. Android 16 adds
getStartComponent()
to distinguish what component type triggered the start, which can be helpful for
optimizing the startup flow of your app.
改进了作业自省
JobScheduler#getPendingJobReason()
API 会返回作业可能处于待处理状态的原因。不过,作业处于待处理状态的原因可能有多种。
在 Android 16 中,我们引入了一个新 API JobScheduler#getPendingJobReasons(int jobId)
,该 API 会返回作业处于待处理状态的多种原因,包括开发者设置的显式约束条件和系统设置的隐式约束条件。
我们还引入了 JobScheduler#getPendingJobReasonsHistory(int jobId)
,用于返回最新约束条件更改的列表。
我们建议您使用该 API 来调试作业可能无法执行的原因,尤其是在您发现某些任务的成功率降低或某些作业完成延迟存在 bug 时。例如,未能在后台更新微件,或在应用启动之前未能调用预加载作业。
这还有助于您更好地了解某些作业是否因系统定义的约束条件而无法完成,而不是因明确设置的约束条件而无法完成。
自适应刷新率
Android 15 中引入的自适应刷新率 (ARR) 可让受支持硬件上的显示屏刷新率使用离散的 VSync 步长来适应内容帧速率。这不仅降低了功耗,还无需进行可能导致卡顿的模式切换。
Android 16 引入了 hasArrSupport()
和 getSuggestedFrameRate(int)
,同时恢复了 getSupportedRefreshRates()
,以便您的应用更轻松地利用 ARR。RecyclerView 1.4 在从快速滑动或平滑滚动中稳定下来时会在内部支持 ARR,我们将继续努力,将 ARR 支持添加到更多 Jetpack 库中。这篇帧速率文章介绍了许多可用于设置帧速率的 API,以便您的应用可以直接使用 ARR。
ADPF 中的 Headroom API
The SystemHealthManager
introduces the
getCpuHeadroom
and
getGpuHeadroom
APIs, designed to provide games and
resource-intensive apps with estimates of available CPU and GPU resources. These
methods offer a way for you to gauge how your app or game can best improve
system health, particularly when used in conjunction with other Android Dynamic
Performance Framework (ADPF) APIs that detect thermal
throttling.
By using CpuHeadroomParams
and
GpuHeadroomParams
on supported devices, you can
customize the time window used to compute the headroom and select between
average or minimum resource availability. This can help you reduce your CPU or
GPU resource usage accordingly, leading to better user experiences and improved
battery life.
无障碍
Android 16 添加了新的无障碍功能 API 和功能,可帮助您面向每位用户提供应用。
改进了无障碍功能 API
Android 16 adds additional APIs to enhance UI semantics that help improve consistency for users that rely on accessibility services, such as TalkBack.
Outline text for maximum text contrast
Users with low vision often have reduced contrast sensitivity, making it challenging to distinguish objects from their backgrounds. To help these users, Android 16 introduces outline text, replacing high contrast text, which draws a larger contrasting area around text to greatly improve legibility.
Android 16 contains new AccessibilityManager
APIs to let
your apps check or register a listener to
see if this mode is enabled. This is primarily for UI Toolkits like Compose to
offer a similar visual experience. If you maintain a UI Toolkit library or your
app performs custom text rendering that bypasses the
android.text.Layout
class then you can use this to know
when outline text is enabled.

Duration added to TtsSpan
Android 16 extends TtsSpan
with a TYPE_DURATION
,
consisting of ARG_HOURS
, ARG_MINUTES
,
and ARG_SECONDS
. This lets you directly annotate time
duration, ensuring accurate and consistent text-to-speech output with services
like TalkBack.
Support elements with multiple labels
Android currently allows UI elements to derive their accessibility label from
another, and now offers the ability for multiple labels to be associated, a
common scenario in web content. By introducing a list-based API within
AccessibilityNodeInfo
, Android can directly support these
multi-label relationships. As part of this change, we've deprecated
AccessibilityNodeInfo#setLabeledBy
and
#getLabeledBy
in favor of
#addLabeledBy
, #removeLabeledBy
, and
#getLabeledByList
.
Improved support for expandable elements
Android 16 adds accessibility APIs that allow you to convey the expanded or
collapsed state of interactive elements, such as menus and expandable lists. By
setting the expanded state using setExpandedState
and
dispatching TYPE_WINDOW_CONTENT_CHANGED AccessibilityEvents
with a CONTENT_CHANGE_TYPE_EXPANDED
content change type,
you can ensure that screen readers like TalkBack announce
state changes, providing a more intuitive and inclusive user experience.
Indeterminate ProgressBars
Android 16 adds RANGE_TYPE_INDETERMINATE
, giving a way for
you to expose RangeInfo
for both determinate and
indeterminate ProgressBar
widgets, allowing services like
TalkBack to more consistently provide feedback for progress
indicators.
Tri-state CheckBox
The new AccessibilityNodeInfo
getChecked
and setChecked(int)
methods in Android 16 now support a "partially checked" state in addition to
"checked" and "unchecked." This replaces the deprecated boolean
isChecked
and setChecked(boolean)
.
Supplemental descriptions
When an accessibility service describes a ViewGroup
, it
combines content labels from its child views. If you provide a
contentDescription
for the ViewGroup
, accessibility services assume you are
also overriding the description of non-focusable child views. This can be
problematic if you want to label things like a drop-down (for example, "Font
Family") while preserving the current selection for accessibility (for example,
"Roboto"). Android 16 adds setSupplementalDescription
so
you can provide text that provides information about a ViewGroup
without
overriding information from its children.
Required form fields
Android 16 adds setFieldRequired
to
AccessibilityNodeInfo
so apps can tell an accessibility
service that input to a form field is required. This is an important scenario
for users filling out many types of forms, even things as simple as a required
terms and conditions checkbox, helping users to consistently identify and
quickly navigate between required fields.
使用 LEA 助听器进行语音通话时,将手机用作麦克风输入
Android 16 新增了一项功能,让 LE Audio 助听器用户能够在助听器的内置麦克风和手机上的麦克风之间切换,以进行语音通话。在嘈杂的环境或助听器麦克风可能无法正常工作的其他情况下,这会很有帮助。
LEA 助听器的环境音量控制
Android 16 adds the capability for users of LE Audio hearing aids to adjust the volume of ambient sound that is picked up by the hearing aid's microphones. This can be helpful in situations where background noise is too loud or too quiet.
相机
Android 16 增强了对专业相机用户的支持,支持混合自动曝光以及精确的色温和色调调整。新的夜间模式指示器可帮助应用了解何时切换到夜间模式相机会话以及何时从夜间模式相机会话切换出去。新的 Intent
操作让您可以更轻松地拍摄动态照片,我们还将继续改进 UltraHDR 图片,使其支持 HEIC 编码和 ISO 21496-1 草稿标准中的新参数。
混合自动曝光
Android 16 向 Camera2 添加了新的混合自动曝光模式,让您可以手动控制曝光的特定方面,同时让自动曝光 (AE) 算法处理其余部分。您可以控制 ISO + AE 和曝光时间 + AE,与当前方法(您要么完全手动控制,要么完全依赖自动曝光)相比,可提供更大的灵活性。
public void setISOPriority() {
...
int[] availablePriorityModes =
mStaticInfo.getCharacteristics().get(CameraCharacteristics.
COLOR_AE_AVAILABLE_PRIORITY_MODES);
...
// Turn on AE mode to set priority mode
reqBuilder.set(CaptureRequest.CONTROL_AE_MODE,
CameraMetadata.CONTROL_AE_MODE_ON);
reqBuilder.set(CaptureRequest.CONTROL_AE_PRIORITY_MODE,
CameraMetadata.CONTROL_AE_PRIORITY_MODE_SENSOR_SENSITIVITY);
reqBuilder.set(CaptureRequest.SENSOR_SENSITIVITY,
TEST_SENSITIVITY_VALUE);
CaptureRequest request = reqBuilder.build();
...
}
精确调整色温和色调
Android 16 adds camera support for fine color temperature and tint adjustments
to better support professional video recording applications. In previous Android
versions, you could control white balance settings through
CONTROL_AWB_MODE
, which contains options limited to a
preset list, such as Incandescent,
Cloudy, and Twilight. The
COLOR_CORRECTION_MODE_CCT
enables the use of
COLOR_CORRECTION_COLOR_TEMPERATURE
and
COLOR_CORRECTION_COLOR_TINT
for precise adjustments of
white balance based on the correlated color temperature.
fun setCCT() {
// ... (Your existing code before this point) ...
val colorTemperatureRange: Range<Int> =
mStaticInfo.characteristics[CameraCharacteristics.COLOR_CORRECTION_COLOR_TEMPERATURE_RANGE]
// Set to manual mode to enable CCT mode
reqBuilder[CaptureRequest.CONTROL_AWB_MODE] = CameraMetadata.CONTROL_AWB_MODE_OFF
reqBuilder[CaptureRequest.COLOR_CORRECTION_MODE] = CameraMetadata.COLOR_CORRECTION_MODE_CCT
reqBuilder[CaptureRequest.COLOR_CORRECTION_COLOR_TEMPERATURE] = 5000
reqBuilder[CaptureRequest.COLOR_CORRECTION_COLOR_TINT] = 30
val request: CaptureRequest = reqBuilder.build()
// ... (Your existing code after this point) ...
}
The following examples show how a photo would look after applying different color temperature and tint adjustments:





相机夜间模式场景检测
为了帮助应用了解何时切换到夜间模式相机会话以及何时从夜间模式相机会话切换出,Android 16 添加了 EXTENSION_NIGHT_MODE_INDICATOR
。如果受支持,则可在 Camera2 内的 CaptureResult
中使用。
这是我们在Instagram 如何让用户拍出令人惊艳的低光照片博文中提到的即将推出的 API。该博文提供了有关如何实现夜间模式的实用指南,并附有一份案例研究,该案例研究将应用内夜间模式照片质量的提升与通过应用内相机分享的照片数量的增加联系起来。
动态照片拍摄 intent 操作
Android 16 添加了标准 intent 操作 ACTION_MOTION_PHOTO_CAPTURE
和 ACTION_MOTION_PHOTO_CAPTURE_SECURE
,用于请求相机应用拍摄动态照片并将其返回。
您必须传递额外的 EXTRA_OUTPUT
来控制将图片写入的位置,或者通过 Intent.setClipData(ClipData)
传递 Uri
。如果您未设置 ClipData
,系统会在调用 Context.startActivity(Intent)
时将其复制到该位置。
UltraHDR 图片美化

Android 16 继续致力于通过 UltraHDR 图片提供出色的图片质量。它添加了对 HEIC 文件格式的 UltraHDR 图片的支持。这些图片将获得 ImageFormat
类型 HEIC_ULTRAHDR
,并包含类似于现有 UltraHDR JPEG 格式的嵌入式增益图。我们还在努力为 UltraHDR 添加 AVIF 支持,敬请期待。
此外,Android 16 在 UltraHDR 中实现了 ISO 21496-1 草稿标准中的其他参数,包括能够获取和设置应应用增益图算法的色彩空间,以及支持使用 SDR 增益图的 HDR 编码基础图片。
图形
Android 16 包含最新的图形改进,例如使用 AGSL 的自定义图形效果。
使用 AGSL 实现自定义图形效果
Android 16 adds RuntimeColorFilter
and
RuntimeXfermode
, allowing you to author complex effects like
Threshold, Sepia, and Hue Saturation and apply them to draw calls. Since Android
13, you've been able to use AGSL to create custom
RuntimeShaders that extend Shader
. The new API
mirrors this, adding an AGSL-powered RuntimeColorFilter
that
extends ColorFilter
, and a Xfermode
effect that
lets you implement AGSL-based custom compositing and blending between source and
destination pixels.
private val thresholdEffectString = """
uniform half threshold;
half4 main(half4 c) {
half luminosity = dot(c.rgb, half3(0.2126, 0.7152, 0.0722));
half bw = step(threshold, luminosity);
return bw.xxx1 * c.a;
}"""
fun setCustomColorFilter(paint: Paint) {
val filter = RuntimeColorFilter(thresholdEffectString)
filter.setFloatUniform(0.5);
paint.colorFilter = filter
}
连接
Android 16 更新了平台,让您的应用可以使用通信和无线技术的最新进展。
增强型安全范围测算
Android 16 adds support for robust security features in Wi-Fi location on supported devices with Wi-Fi 6's 802.11az, allowing apps to combine the higher accuracy, greater scalability, and dynamic scheduling of the protocol with security enhancements including AES-256-based encryption and protection against MITM attacks. This allows it to be used more safely in proximity use cases, such as unlocking a laptop or a vehicle door. 802.11az is integrated with the Wi-Fi 6 standard, leveraging its infrastructure and capabilities for wider adoption and easier deployment.
通用测距 API
Android 16 包含新的 RangingManager
,它提供了在受支持的硬件上确定本地设备与远程设备之间的距离和角度的方法。RangingManager
支持使用各种测距技术,例如 BLE 信道声音探测、基于 BLE RSSI 的测距、超宽带和 Wi-Fi 往返时间。
配套设备管理器设备存在性
In Android 16, new APIs are being introduced for binding your companion app
service. Service will be bound when BLE is in range and Bluetooth is connected
and service will be unbound when BLE is out of range or Bluetooth is
disconnected. App will receives a new
'onDevicePresenceEvent()' callback based on various
of DevicePresenceEvent
.
More details can be found in
'startObservingDevicePresence(ObservingDevicePresenceRequest)'.
媒体
Android 16 包含多种可改善媒体体验的功能。
改进了照片选择器
The photo picker provides a safe, built-in way for users to grant your app access to selected images and videos from both local and cloud storage, instead of their entire media library. Using a combination of Modular System Components through Google System Updates and Google Play services, it's supported back to Android 4.4 (API level 19). Integration requires just a few lines of code with the associated Android Jetpack library.
Android 16 includes the following improvements to the photo picker:
- Embedded photo picker: New APIs that enable apps to embed the photo picker into their view hierarchy. This allows it to feel like a more integrated part of the app while still leveraging the process isolation that allows users to select media without the app needing overly broad permissions. To maximize compatibility across platform versions and simplify your integration, you'll want to use the forthcoming Android Jetpack library if you want to integrate the embedded photo picker.
- Cloud search in photo picker: New APIs that enable searching from the cloud media provider for the Android photo picker. Search functionality in the photo picker is coming soon.
高级专业视频
Android 16 引入了对高级专业视频 (APV) 编解码器的支持,该编解码器专为专业级高品质视频录制和后期制作而设计。
APV 编解码器标准具有以下特点:
- 感知上无损的视频画质(接近原始视频画质)
- 复杂度低且吞吐量高的仅帧内编码(无像素域预测),以更好地支持编辑工作流
- 支持高比特率范围(最高几十 Gbps),适用于 2K、4K 和 8K 分辨率内容,由轻量级熵编码方案实现
- 帧平铺,用于沉浸式内容和启用并行编码和解码
- 支持各种色度采样格式和位深
- 支持多次解码和重新编码,且不会严重降低视觉质量
- 支持多视图视频和辅助视频,例如深度、Alpha 和预览
- 支持 HDR10/10+ 和用户定义的元数据
OpenAPV 项目提供了 APV 的参考实现。Android 16 将实现对 APV 422-10 配置文件的支持,该配置文件提供 YUV 422 色彩采样以及 10 位编码,并且目标比特率最高可达 2 Gbps。
隐私设置
Android 16 包含多种功能,可帮助应用开发者保护用户隐私。
健康数据共享更新
Health Connect 添加了 ACTIVITY_INTENSITY
,这是一种根据世界卫生组织关于中等强度和剧烈强度活动的指南定义的数据类型。每个记录都需要提供开始时间、结束时间以及活动强度(中等或剧烈)。
Health Connect 还包含支持医疗记录的更新版 API。这样一来,应用便可在征得用户明确同意的情况下,读取和写入 FHIR 格式的医疗记录。
Privacy Sandbox on Android
Android 16 incorporates the latest version of the Privacy Sandbox on Android, part of our ongoing work to develop technologies where users know their privacy is protected. Our website has more about the Privacy Sandbox on Android developer beta program to help you get started. Check out the SDK Runtime which allows SDKs to run in a dedicated runtime environment separate from the app they are serving, providing stronger safeguards around user data collection and sharing.
安全
Android 16 包含一些功能,可帮助您增强应用的安全性并保护应用的数据。
密钥共享 API
Android 16 adds APIs that support sharing access to
Android Keystore keys with other apps. The new
KeyStoreManager
class supports
granting and revoking access to keys
by app uid, and includes an API for apps to access shared
keys.
设备规格
Android 16 为您的应用提供了支持,可让应用充分利用 Android 的设备规格。
适用于电视的标准化画质和音质框架
Android 16 中的新 MediaQuality
软件包公开了一组标准化 API,用于访问音频和图片配置文件以及与硬件相关的设置。这样,在线播放应用就可以查询配置文件并将其动态应用于媒体:
- 使用更大动态范围进行母版制作的电影需要更高的色彩准确度,才能看清阴影中的细微细节并根据环境光线进行调整,因此,最好使用色彩准确度优先于亮度的配置文件。
- 体育赛事直播通常采用较窄的动态范围进行母版制作,但通常是在白天观看,因此偏向亮度而非色彩准确度的配置文件可以获得更好的效果。
- 完全交互式内容需要尽可能减少处理以缩短延迟时间,并且需要更高的帧速率,因此许多电视都附带游戏配置文件。
借助此 API,应用可以在个人资料之间切换,用户可以享受调整支持的电视,以便尽可能适合其内容。
国际化
Android 16 添加了一些功能,可在用户使用不同语言使用设备时完善用户体验。
垂直文本
Android 16 添加了对垂直渲染和测量文本的低级支持,以便为库开发者提供基本的垂直书写支持。这对于日语等通常使用竖向书写系统的语言特别有用。Paint
类中添加了一个新标志 VERTICAL_TEXT_FLAG
。使用 Paint.setFlags
设置此标志后,Paint 的文本测量 API 将报告垂直进度,而不是水平进度,并且 Canvas
将垂直绘制文本。
val text = "「春は、曙。」"
Box(
Modifier.padding(innerPadding).background(Color.White).fillMaxSize().drawWithContent {
drawIntoCanvas { canvas ->
val paint = Paint().apply { textSize = 64.sp.toPx() }
// Draw text vertically
paint.flags = paint.flags or VERTICAL_TEXT_FLAG
val height = paint.measureText(text)
canvas.nativeCanvas.drawText(
text,
0,
text.length,
size.width / 2,
(size.height - height) / 2,
paint
)
}
}
) {}
自定义衡量系统
用户现在可以在“设置”中的地区偏好设置中自定义测量系统。用户偏好设置包含在语言区域代码中,因此您可以在 ACTION_LOCALE_CHANGED
上注册 BroadcastReceiver
,以便在地区偏好设置发生更改时处理语言区域配置更改。
使用格式设置程序有助于提供符合当地体验的服务。例如,对于将手机设置为英语(丹麦)或将手机设置为英语(美国)并将公制作为首选测量系统的用户,“0.5 in”的英语(美国)对应于“12,7 mm”。
如需找到这些设置,请打开“设置”应用,然后依次前往系统 > 语言和地区。