Scopri come utilizzare l'API per il posizionamento immediato nelle tue app.
Prerequisiti
Prima di procedere, assicurati di comprendere i concetti fondamentali della realtà aumentata e come configurare una sessione ARCore.
Configurare una nuova sessione con il posizionamento immediato
In una nuova sessione ARCore, attiva la modalità di posizionamento immediato .
Java
// Create the ARCore session.
public void createSession() {
session = new Session(applicationContext);
Config config = new Config(session);
// Set the Instant Placement mode.
config.setInstantPlacementMode(InstantPlacementMode.LOCAL_Y_UP);
session.configure(config);
}
Kotlin
// Create the ARCore session.
fun createSession() {
session = Session(applicationContext);
val config = Config(session)
// Set the Instant Placement mode.
config.instantPlacementMode = Config.InstantPlacementMode.LOCAL_Y_UP
session.configure(config)
}
Posizionare un oggetto
Utilizza Frame.hitTestInstantPlacement()
per creare un punto di posizionamento immediato rilevabile in base alla posizione del tocco sullo schermo.
Recupera la posa attuale con il getPose() metodo.
Java
private placementIsDone = false;
public void onDrawFrame(GL10 gl) {
Frame frame = session.update();
// Place an object on tap.
if (!placementIsDone && didUserTap()) {
// Use estimated distance from the user's device to the real world, based
// on expected user interaction and behavior.
float approximateDistanceMeters = 2.0f;
// Performs a ray cast given a screen tap position.
List<HitResult> results =
frame.hitTestInstantPlacement(tapX, tapY, approximateDistanceMeters);
if (!results.isEmpty()) {
InstantPlacementPoint point = (InstantPlacementPoint) results.get(0).getTrackable();
// Create an Anchor from the point's pose.
Anchor anchor = point.createAnchor(point.getPose());
placementIsDone = true;
disableInstantPlacement();
}
}
}
Kotlin
var placementIsDone = false;
fun onDrawFrame(gl: GL10) {
val frame = session.update();
// Place an object on tap.
if (!placementIsDone && didUserTap()) {
// Use estimated distance from the user's device to the real world, based
// on expected user interaction and behavior.
val approximateDistanceMeters = 2.0f;
// Performs a ray cast given a screen tap position.
val results = frame.hitTestInstantPlacement(tapX, tapY, approximateDistanceMeters)
if (results.isNotEmpty()) {
val point = results[0].trackable as InstantPlacementPoint
// Create an Anchor from the point's pose.
val anchor = point.createAnchor(point.pose)
placementIsDone = true
disableInstantPlacement()
}
}
}
Il posizionamento immediato supporta
il rilevamento dello spazio dello schermo con una distanza approssimativa,
passando automaticamente al rilevamento completo una volta che il punto di posizionamento immediato è
ancorato nel mondo reale. Recupera la posa attuale con
getPose().
Ottieni il metodo di rilevamento attuale con
getTrackingMethod().
Sebbene ARCore possa eseguire test di rilevamento del posizionamento immediato su superfici di qualsiasi orientamento, i risultati del rilevamento restituiranno sempre una posa con +Y verso l'alto, in direzione della gravità. Sulle superfici orizzontali, i test di rilevamento restituiscono posizioni accurate molto più velocemente.
Uniformare la transizione del metodo di rilevamento
Quando la profondità reale diventa disponibile, ARCore cambia il metodo di rilevamento di un InstantPlacementPoint's da
SCREENSPACE_WITH_APPROXIMATE_DISTANCE a FULL_TRACKING.
Anche la posa del punto cambierà per riflettere la profondità reale.
Ciò potrebbe far sembrare che l'oggetto cresca o si rimpicciolisca improvvisamente.
Per evitare questo cambiamento improvviso, aggiungi un wrapper InstantPlacementPoint.
Java
// Wrapper class to track state to reduce sudden visual changes in object size
class WrappedInstantPlacement {
public InstantPlacementPoint point;
public InstantPlacementPoint.TrackingMethod previousTrackingMethod;
public float previousDistanceToCamera;
public float scaleFactor = 1.0f;
public WrappedInstantPlacement(
InstantPlacementPoint point,
InstantPlacementPoint.TrackingMethod previousTrackingMethod,
float previousDistanceToCamera) {
this.point = point;
this.previousTrackingMethod = previousTrackingMethod;
this.previousDistanceToCamera = previousDistanceToCamera;
}
}
Kotlin
// Wrapper class to track state to reduce sudden visual changes in object size
class WrappedInstantPlacement(
var point: InstantPlacementPoint,
var previousTrackingMethod: InstantPlacementPoint.TrackingMethod,
var previousDistanceToCamera: Float,
var scaleFactor: Float = 1.0f
)
Poi, aggiungi quanto segue alla tua attività.
Java
List<WrappedInstantPlacement> wrappedPoints = new ArrayList<>();
public void onDrawFrame(GL10 gl) {
Frame frame = session.update();
Camera camera = frame.getCamera();
// Place an object on tap.
if (didUserTap()) {
// Instant Placement should only be applied if no results are available through hitTest.
List<HitResult> results = frame.hitTest(tapX, tapY);
if (results.isEmpty()) {
// Use the estimated distance from the user's device to the closest
// available surface, based on expected user interaction and behavior.
float approximateDistanceMeters = 2.0f;
// Returns a single result if the hit test was successful.
results =
frame.hitTestInstantPlacement(tapX, tapY, approximateDistanceMeters);
if (!results.isEmpty()) {
// Instant placement was successful.
InstantPlacementPoint point = (InstantPlacementPoint) results.get(0).getTrackable();
wrappedPoints.add(new WrappedInstantPlacement(point, point.getTrackingMethod(),
distance(camera.getPose(), point.getPose())));
}
} else {
// results contain valid hit tests which can be used directly, so instant placement is not required.
}
}
for (WrappedInstantPlacement wrappedPoint : wrappedPoints) {
InstantPlacementPoint point = wrappedPoint.point;
if (point.getTrackingState() == TrackingState.STOPPED) {
wrappedPoints.remove(wrappedPoint);
continue;
}
if (point.getTrackingState() == TrackingState.PAUSED) {
continue;
}
if (point.getTrackingMethod() == TrackingMethod.SCREENSPACE_WITH_APPROXIMATE_DISTANCE) {
// Continue to use the estimated depth and pose. Record the distance to
// the camera for use in the next frame if the transition to full
// tracking happens.
wrappedPoint.previousDistanceToCamera = distance(point.getPose(), camera.getPose());
}
else if (point.getTrackingMethod() == TrackingMethod.FULL_TRACKING) {
if (wrappedPoint.previousTrackingMethod == TrackingMethod.SCREENSPACE_WITH_APPROXIMATE_DISTANCE) {
// Change from the estimated pose to the accurate pose. Adjust the
// object scale to counteract the apparent change due to pose jump.
wrappedPoint.scaleFactor = distance(point.getPose(), camera.getPose()) /
wrappedPoint.previousDistanceToCamera;
// Apply the scale factor to the model.
// ...
wrappedPoint.previousTrackingMethod = TrackingMethod.FULL_TRACKING;
}
}
}
}
float distance(Pose p, Pose q) {
return Math.sqrt(Math.pow(p.tx() - q.tx(), 2) + Math.pow(p.ty() - q.ty(), 2) + Math.pow(p.tz() - q.tz(), 2));
}
Kotlin
var wrappedPoints = mutableListOf<WrappedInstantPlacement>()
fun onDrawFrame(gl: GL10?) {
val frame = session.update()
val camera = frame.camera
// Place an object on tap.
if (didUserTap()) {
// Instant Placement should only be applied if no results are available through hitTest.
var results = frame.hitTest(tapX, tapY);
if (results.isEmpty()) {
// Use the estimated distance from the user's device to the closest
// available surface, based on expected user interaction and behavior.
val approximateDistanceMeters = 2.0f;
// Returns a single result if the hit test was successful.
results = frame.hitTestInstantPlacement(tapX, tapY, approximateDistanceMeters);
if (results.isNotEmpty()) {
// Instant placement was successful.
val point = results[0].trackable as InstantPlacementPoint
val wrapped = WrappedInstantPlacement(point, point.trackingMethod, point.pose.distance(camera.pose))
wrappedPoints.add(wrapped)
}
} else {
// Results contain valid hit tests which can be used directly, so Instant Placement
// is not required.
}
}
loop@ for (wrappedPoint in wrappedPoints) {
val point = wrappedPoint.point
when {
point.trackingState == TrackingState.STOPPED -> {
wrappedPoints.remove(wrappedPoint)
continue@loop
}
point.trackingState == TrackingState.PAUSED -> continue@loop
point.trackingMethod == TrackingMethod.SCREENSPACE_WITH_APPROXIMATE_DISTANCE -> {
// Continue to use the estimated depth and pose. Record the distance to
// the camera for use in the next frame if the transition to full
// tracking happens.
wrappedPoint.previousDistanceToCamera = point.pose.distance(camera.pose)
}
wrappedPoint.previousTrackingMethod == TrackingMethod.SCREENSPACE_WITH_APPROXIMATE_DISTANCE &&
point.trackingMethod == TrackingMethod.FULL_TRACKING -> {
// Change from the estimated pose to the accurate pose. Adjust the
// object scale to counteract the apparent change due to pose jump.
wrappedPoint.scaleFactor =
point.pose.distance(camera.pose) / wrappedPoint.previousDistanceToCamera
// Apply the scale factor to the model.
// ...
wrappedPoint.previousTrackingMethod = TrackingMethod.FULL_TRACKING
}
}
}
}
fun Pose.distance(other: Pose) = sqrt(
(tx() - other.tx()).pow(2.0f) + (ty() - other.ty()).pow(2.0f) + (tz() - other.tz()).pow(2.0f)
)
Aumentare l'efficienza dopo il posizionamento dell'oggetto
Disattiva il posizionamento immediato quando l'oggetto è posizionato correttamente per risparmiare cicli di CPU ed energia.
Java
void disableInstantPlacement() {
Config config = new Config(session);
config.setInstantPlacementMode(Config.InstantPlacementMode.DISABLED);
session.configure(config);
}
Kotlin
fun disableInstantPlacement() {
val config = Config(session)
// Set the Instant Placement mode.
config.instantPlacementMode = Config.InstantPlacementMode.DISABLED
session.configure(config)
}