valnewConfig=session.config.copy(planeTracking=Config.PlaneTrackingMode.HORIZONTAL_AND_VERTICAL,)when(valresult=session.configure(newConfig)){isSessionConfigureConfigurationNotSupported->
TODO(/* Some combinations of configurations are not valid. Handle this failure case. */)isSessionConfigureSuccess->TODO(/* Success! */)else->
TODO(/* A different unhandled exception was thrown. */)}
valresults=androidx.xr.arcore.hitTest(session,ray)// When interested in the first Table hit:valtableHit=results.firstOrNull{valtrackable=it.trackabletrackableisPlane && trackable.state.value.label==Plane.Label.TABLE}
[null,null,["最后更新时间 (UTC):2025-08-23。"],[],[],null,["# Detect planes using ARCore for Jetpack XR\n\nARCore for Jetpack XR can detect flat surfaces in the user's environment and\nprovide information on them such as their pose, size, and orientation. This can\nhelp your app find surfaces like tables to place objects on.\n\nCreate an ARCore for Jetpack XR session\n---------------------------------------\n\nAccess plane information through an ARCore for Jetpack XR session. See\n[Understand a Session's lifecycle](/develop/xr/jetpack-xr-sdk/work-with-arcore#session-lifecycle) to obtain a [`Session`](/reference/kotlin/androidx/xr/runtime/Session).\n\nConfigure the Session\n---------------------\n\nPlane detection is not enabled by default on XR sessions. To enable plane\ntracking, configure the session and set the\n[`PlaneTrackingMode.HORIZONTAL_AND_VERTICAL`](/reference/kotlin/androidx/xr/runtime/Config.PlaneTrackingMode#HORIZONTAL_AND_VERTICAL()) mode:\n\n\n```kotlin\nval newConfig = session.config.copy(\n planeTracking = Config.PlaneTrackingMode.HORIZONTAL_AND_VERTICAL,\n)\nwhen (val result = session.configure(newConfig)) {\n is SessionConfigureConfigurationNotSupported -\u003e\n TODO(/* Some combinations of configurations are not valid. Handle this failure case. */)\n is SessionConfigureSuccess -\u003e TODO(/* Success! */)\n else -\u003e\n TODO(/* A different unhandled exception was thrown. */)\n}https://github.com/android/snippets/blob/dd30aee903e8c247786c064faab1a9ca8d10b46e/xr/src/main/java/com/example/xr/arcore/Planes.kt#L30-L39\n```\n\n\u003cbr /\u003e\n\n| **Note:** Plane tracking requires the `android.permission.SCENE_UNDERSTANDING_COARSE` [runtime permission](/training/permissions/requesting) to be granted to your app.\n\nRetrieve the state of perceived planes\n--------------------------------------\n\nARCore for Jetpack XR provides the state of planes through a\n[`StateFlow`](https://kotlinlang.org/api/kotlinx.coroutines/kotlinx-coroutines-core/kotlinx.coroutines.flow/-state-flow/) that emits the state of planes. Subscribing to\nplanes in a session notifies your app when planes are added, updated, or\nremoved.\n\n\n```kotlin\nPlane.subscribe(session).collect { planes -\u003e\n // Planes have changed; update plane rendering\n}https://github.com/android/snippets/blob/dd30aee903e8c247786c064faab1a9ca8d10b46e/xr/src/main/java/com/example/xr/arcore/Planes.kt#L45-L47\n```\n\n\u003cbr /\u003e\n\nA plane has the following properties:\n\n- [`label`](/reference/kotlin/androidx/xr/arcore/Plane.State#label()): a semantic description of a given [`Plane`](/reference/kotlin/androidx/xr/arcore/Plane). Could be a [`WALL`](/reference/kotlin/androidx/xr/arcore/Plane.Label#WALL()), [`FLOOR`](/reference/kotlin/androidx/xr/arcore/Plane.Label#FLOOR()), [`CEILING`](/reference/kotlin/androidx/xr/arcore/Plane.Label#CEILING()), or [`TABLE`](/reference/kotlin/androidx/xr/arcore/Plane.Label#TABLE()).\n- [`centerPose`](/reference/kotlin/androidx/xr/arcore/Plane.State#centerPose()): The pose of the center of the detected plane.\n- [`extents`](/reference/kotlin/androidx/xr/arcore/Plane.State#extents()): The dimensions of the detected plane, in meters.\n- [`vertices`](/reference/kotlin/androidx/xr/arcore/Plane.State#vertices()): A list of vertices of a convex polygon that approximates the plane.\n\n### Perform a hit-test against planes\n\nA hit-test is a method of calculating the intersection of a ray with objects\ntracked by the session. A common application of a hit-test is to point at a\ntable and place an object at that location. Conducting a hit-test results in a\nlist of hit objects. In other words, a hit-test doesn't stop at the first object\nhit. However, often you may only be interested in the first object hit of a\ngiven type.\n\nTo perform a hit-test, use [`Interaction.hitTest()`](/reference/kotlin/androidx/xr/arcore/package-summary#hittest) with a [`Ray`](/reference/kotlin/androidx/xr/runtime/math/Ray):\n\n\n```kotlin\nval results = androidx.xr.arcore.hitTest(session, ray)\n// When interested in the first Table hit:\nval tableHit = results.firstOrNull {\n val trackable = it.trackable\n trackable is Plane && trackable.state.value.label == Plane.Label.TABLE\n}https://github.com/android/snippets/blob/dd30aee903e8c247786c064faab1a9ca8d10b46e/xr/src/main/java/com/example/xr/arcore/Planes.kt#L55-L60\n```\n\n\u003cbr /\u003e"]]
