515 lines
20 KiB
C#
515 lines
20 KiB
C#
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// Copyright 2017 Google Inc. All rights reserved.
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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using UnityEngine;
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using UnityEngine.EventSystems;
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/// This abstract class should be implemented for pointer based input, and used with
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/// the GvrPointerInputModule script.
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///
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/// It provides methods called on pointer interaction with in-game objects and UI,
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/// trigger events, and 'BaseInputModule' class state changes.
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///
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/// To have the methods called, an instance of this (implemented) class must be
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/// registered with the **GvrPointerManager** script in 'Start' by calling
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/// GvrPointerInputModule.OnPointerCreated.
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///
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/// This abstract class should be implemented by pointers doing 1 of 2 things:
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/// 1. Responding to movement of the users head (Cardboard gaze-based-pointer).
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/// 2. Responding to the movement of the daydream controller (Daydream 3D pointer).
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public abstract class GvrBasePointer : MonoBehaviour, IGvrControllerInputDeviceReceiver {
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public enum RaycastMode {
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/// Casts a ray from the camera through the target of the pointer.
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/// This is ideal for reticles that are always rendered on top.
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/// The object that is selected will always be the object that appears
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/// underneath the reticle from the perspective of the camera.
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/// This also prevents the reticle from appearing to "jump" when it starts/stops hitting an object.
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///
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/// Recommended for reticles that are always rendered on top such as the GvrReticlePointer
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/// prefab which is used for cardboard apps.
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///
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/// Note: This will prevent the user from pointing around an object to hit something that is out of sight.
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/// This isn't a problem in a typical use case.
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///
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/// When used with the standard daydream controller,
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/// the hit detection will not account for the laser correctly for objects that are closer to the
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/// camera than the end of the laser.
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/// In that case, it is recommended to do one of the following things:
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///
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/// 1. Hide the laser.
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/// 2. Use a full-length laser pointer in Direct mode.
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/// 3. Use the Hybrid raycast mode.
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Camera,
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/// Cast a ray directly from the pointer origin.
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///
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/// Recommended for full-length laser pointers.
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Direct,
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/// Default method for casting ray.
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///
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/// Combines the Camera and Direct raycast modes.
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/// Uses a Direct ray up until the CameraRayIntersectionDistance, and then switches to use
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/// a Camera ray starting from the point where the two rays intersect.
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///
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/// Recommended for use with the standard settings of the GvrControllerPointer prefab.
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/// This is the most versatile raycast mode. Like Camera mode, this prevents the reticle
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/// appearing jumpy. Additionally, it still allows the user to target objects that are close
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/// to them by using the laser as a visual reference.
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Hybrid,
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}
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/// Represents a ray segment for a series of intersecting rays.
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/// This is useful for Hybrid raycast mode, which uses two sequential rays.
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public struct PointerRay {
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/// The ray for this segment of the pointer.
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public Ray ray;
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/// The distance along the pointer from the origin of the first ray to this ray.
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public float distanceFromStart;
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/// Distance that this ray extends to.
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public float distance;
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}
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/// Determines which raycast mode to use for this raycaster.
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/// • Camera - Ray is cast from the camera through the pointer.
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/// • Direct - Ray is cast forward from the pointer.
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/// • Hybrid - Begins with a Direct ray and transitions to a Camera ray.
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[Tooltip("Determines which raycast mode to use for this raycaster.\n" +
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" • Camera - Ray is cast from camera.\n" +
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" • Direct - Ray is cast from pointer.\n" +
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" • Hybrid - Transitions from Direct ray to Camera ray.")]
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public RaycastMode raycastMode = RaycastMode.Hybrid;
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/// Determines the eventCamera for _GvrPointerPhysicsRaycaster_ and _GvrPointerGraphicRaycaster_.
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/// Additionaly, this is used to control what camera to use when calculating the Camera ray for
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/// the Hybrid and Camera raycast modes.
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[Tooltip("Optional: Use a camera other than Camera.main.")]
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public Camera overridePointerCamera;
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#if UNITY_EDITOR
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/// Determines if the rays used for raycasting will be drawn in the editor.
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[Tooltip("Determines if the rays used for raycasting will be drawn in the editor.")]
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public bool drawDebugRays = false;
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#endif // UNITY_EDITOR
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/// Convenience function to access what the pointer is currently hitting.
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public RaycastResult CurrentRaycastResult {
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get {
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return GvrPointerInputModule.CurrentRaycastResult;
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}
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}
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[System.Obsolete("Replaced by CurrentRaycastResult.worldPosition")]
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public Vector3 PointerIntersection {
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get {
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RaycastResult raycastResult = CurrentRaycastResult;
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return raycastResult.worldPosition;
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}
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}
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[System.Obsolete("Replaced by CurrentRaycastResult.gameObject != null")]
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public bool IsPointerIntersecting {
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get {
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RaycastResult raycastResult = CurrentRaycastResult;
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return raycastResult.gameObject != null;
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}
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}
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/// This is used to determine if the enterRadius or the exitRadius should be used for the raycast.
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/// It is set by GvrPointerInputModule and doesn't need to be controlled manually.
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public bool ShouldUseExitRadiusForRaycast { get; set; }
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/// If ShouldUseExitRadiusForRaycast is true, returns the exitRadius.
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/// Otherwise, returns the enterRadius.
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public float CurrentPointerRadius {
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get {
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float enterRadius, exitRadius;
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GetPointerRadius(out enterRadius, out exitRadius);
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if (ShouldUseExitRadiusForRaycast) {
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return exitRadius;
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} else {
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return enterRadius;
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}
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}
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}
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/// Returns the transform that represents this pointer.
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/// It is used by GvrBasePointerRaycaster as the origin of the ray.
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public virtual Transform PointerTransform {
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get {
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return transform;
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}
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}
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public GvrControllerInputDevice ControllerInputDevice { get; set; }
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/// If true, the trigger was just pressed. This is an event flag:
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/// it will be true for only one frame after the event happens.
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/// Defaults to mouse button 0 down on Cardboard or
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/// ControllerInputDevice.GetButtonDown(TouchPadButton) on Daydream.
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/// Can be overridden to change the trigger.
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public virtual bool TriggerDown {
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get {
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bool isTriggerDown = Input.GetMouseButtonDown(0);
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if (ControllerInputDevice != null) {
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isTriggerDown |=
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ControllerInputDevice.GetButtonDown(GvrControllerButton.TouchPadButton);
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}
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return isTriggerDown;
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}
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}
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/// If true, the trigger is currently being pressed. This is not
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/// an event: it represents the trigger's state (it remains true while the trigger is being
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/// pressed).
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/// Defaults to mouse button 0 state on Cardboard or
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/// ControllerInputDevice.GetButton(TouchPadButton) on Daydream.
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/// Can be overridden to change the trigger.
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public virtual bool Triggering {
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get {
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bool isTriggering = Input.GetMouseButton(0);
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if (ControllerInputDevice != null) {
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isTriggering |=
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ControllerInputDevice.GetButton(GvrControllerButton.TouchPadButton);
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}
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return isTriggering;
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}
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}
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/// If true, the trigger was just released. This is an event flag:
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/// it will be true for only one frame after the event happens.
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/// Defaults to mouse button 0 up on Cardboard or
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/// ControllerInputDevice.GetButtonUp(TouchPadButton) on Daydream.
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/// Can be overridden to change the trigger.
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public virtual bool TriggerUp {
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get {
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bool isTriggerUp = Input.GetMouseButtonUp(0);
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if (ControllerInputDevice == null) {
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isTriggerUp |=
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ControllerInputDevice.GetButtonUp(GvrControllerButton.TouchPadButton);
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}
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return isTriggerUp;
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}
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}
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/// If true, the user just started touching the touchpad. This is an event flag (it is true
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/// for only one frame after the event happens, then reverts to false).
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/// Used by _GvrPointerScrollInput_ to generate OnScroll events using Unity's Event System.
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/// Defaults to ControllerInputDevice.GetButtonDown(TouchPadTouch), can be overridden to change
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/// the input source.
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public virtual bool TouchDown {
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get {
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if (ControllerInputDevice == null) {
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return false;
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} else {
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return ControllerInputDevice.GetButtonDown(GvrControllerButton.TouchPadTouch);
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}
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}
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}
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/// If true, the user is currently touching the touchpad.
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/// Used by _GvrPointerScrollInput_ to generate OnScroll events using Unity's Event System.
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/// Defaults to ControllerInputDevice.GetButton(TouchPadTouch), can be overridden to change
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/// the input source.
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public virtual bool IsTouching {
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get {
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if (ControllerInputDevice == null) {
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return false;
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} else {
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return ControllerInputDevice.GetButton(GvrControllerButton.TouchPadTouch);
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}
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}
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}
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/// If true, the user just stopped touching the touchpad. This is an event flag (it is true
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/// for only one frame after the event happens, then reverts to false).
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/// Used by _GvrPointerScrollInput_ to generate OnScroll events using Unity's Event System.
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/// Defaults to ControllerInputDevice.GetButtonUp(TouchPadTouch), can be overridden to change
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/// the input source.
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public virtual bool TouchUp {
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get {
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if (ControllerInputDevice == null) {
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return false;
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} else {
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return ControllerInputDevice.GetButtonUp(GvrControllerButton.TouchPadTouch);
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}
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}
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}
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/// Position of the current touch, if touching the touchpad.
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/// If not touching, this is the position of the last touch (when the finger left the touchpad).
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/// The X and Y range is from 0 to 1.
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/// (0, 0) is the top left of the touchpad and (1, 1) is the bottom right of the touchpad.
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/// Used by `GvrPointerScrollInput` to generate OnScroll events using Unity's Event System.
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/// Defaults to `ControllerInputDevice.TouchPos` but translated to top-left-relative coordinates
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/// for backwards compatibility. Can be overridden to change the input source.
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public virtual Vector2 TouchPos {
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get {
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if (ControllerInputDevice == null) {
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return Vector2.zero;
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} else {
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Vector2 touchPos = ControllerInputDevice.TouchPos;
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touchPos.x = (touchPos.x / 2.0f) + 0.5f;
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touchPos.y = (-touchPos.y / 2.0f) + 0.5f;
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return touchPos;
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}
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}
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}
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/// Returns the end point of the pointer when it is MaxPointerDistance away from the origin.
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public virtual Vector3 MaxPointerEndPoint {
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get {
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Transform pointerTransform = PointerTransform;
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if (pointerTransform == null) {
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return Vector3.zero;
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}
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Vector3 maxEndPoint = GetPointAlongPointer(MaxPointerDistance);
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return maxEndPoint;
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}
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}
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/// If true, the pointer will be used for generating input events by _GvrPointerInputModule_.
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public virtual bool IsAvailable {
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get {
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Transform pointerTransform = PointerTransform;
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if (pointerTransform == null) {
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return false;
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}
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if (!enabled) {
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return false;
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}
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return pointerTransform.gameObject.activeInHierarchy;
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}
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}
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/// When using the Camera raycast mode, this is used to calculate
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/// where the ray from the pointer will intersect with the ray from the camera.
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public virtual float CameraRayIntersectionDistance {
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get {
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return MaxPointerDistance;
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}
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}
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public Camera PointerCamera {
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get {
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if (overridePointerCamera != null) {
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return overridePointerCamera;
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}
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return Camera.main;
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}
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}
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/// Returns the max distance from the pointer that raycast hits will be detected.
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public abstract float MaxPointerDistance { get; }
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/// Called when the pointer is facing a valid GameObject. This can be a 3D
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/// or UI element.
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///
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/// **raycastResult** is the hit detection result for the object being pointed at.
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/// **isInteractive** is true if the object being pointed at is interactive.
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public abstract void OnPointerEnter(RaycastResult raycastResult, bool isInteractive);
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/// Called every frame the user is still pointing at a valid GameObject. This
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/// can be a 3D or UI element.
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///
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/// **raycastResult** is the hit detection result for the object being pointed at.
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/// **isInteractive** is true if the object being pointed at is interactive.
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public abstract void OnPointerHover(RaycastResult raycastResultResult, bool isInteractive);
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/// Called when the pointer no longer faces an object previously
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/// intersected with a ray projected from the camera.
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/// This is also called just before **OnInputModuleDisabled**
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/// previousObject will be null in this case.
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///
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/// **previousObject** is the object that was being pointed at the previous frame.
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public abstract void OnPointerExit(GameObject previousObject);
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/// Called when a click is initiated.
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public abstract void OnPointerClickDown();
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/// Called when click is finished.
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public abstract void OnPointerClickUp();
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/// Return the radius of the pointer. It is used by GvrPointerPhysicsRaycaster when
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/// searching for valid pointer targets. If a radius is 0, then a ray is used to find
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/// a valid pointer target. Otherwise it will use a SphereCast.
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/// The *enterRadius* is used for finding new targets while the *exitRadius*
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/// is used to see if you are still nearby the object currently pointed at
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/// to avoid a flickering effect when just at the border of the intersection.
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///
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/// NOTE: This is only works with GvrPointerPhysicsRaycaster. To use it with uGUI,
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/// add 3D colliders to your canvas elements.
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public abstract void GetPointerRadius(out float enterRadius, out float exitRadius);
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/// Returns a point in worldspace a specified distance along the pointer.
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/// What this point will be is different depending on the raycastMode.
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///
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/// Because raycast modes differ, use this function instead of manually calculating a point
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/// projected from the pointer.
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public Vector3 GetPointAlongPointer(float distance) {
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PointerRay pointerRay = GetRayForDistance(distance);
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return pointerRay.ray.GetPoint(distance - pointerRay.distanceFromStart);
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}
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/// Returns the ray used for projecting points out of the pointer for the given distance.
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/// In Hybrid raycast mode, the ray will be different depending upon the distance.
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/// In Camera or Direct raycast mode, the ray will always be the same.
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public PointerRay GetRayForDistance(float distance) {
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PointerRay result = new PointerRay();
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if (raycastMode == RaycastMode.Hybrid) {
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float directDistance = CameraRayIntersectionDistance;
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if (distance < directDistance) {
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result = CalculateHybridRay(this, RaycastMode.Direct);
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} else {
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result = CalculateHybridRay(this, RaycastMode.Camera);
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}
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} else {
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result = CalculateRay(this, raycastMode);
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}
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return result;
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}
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/// Calculates the ray for a given Raycast mode.
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/// Will throw an exception if the raycast mode Hybrid is passed in.
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/// If you need to calculate the ray for the direct or camera segment of the Hybrid raycast,
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/// use CalculateHybridRay instead.
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public static PointerRay CalculateRay(GvrBasePointer pointer, RaycastMode mode) {
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PointerRay result = new PointerRay();
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if (pointer == null || !pointer.IsAvailable) {
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Debug.LogError("Cannot calculate ray when the pointer isn't available.");
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return result;
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}
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Transform pointerTransform = pointer.PointerTransform;
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|
if (pointerTransform == null) {
|
|||
|
Debug.LogError("Cannot calculate ray when pointerTransform is null.");
|
|||
|
return result;
|
|||
|
}
|
|||
|
|
|||
|
result.distance = pointer.MaxPointerDistance;
|
|||
|
|
|||
|
switch (mode) {
|
|||
|
case RaycastMode.Camera:
|
|||
|
Camera camera = pointer.PointerCamera;
|
|||
|
if (camera == null) {
|
|||
|
Debug.LogError("Cannot calculate ray because pointer.PointerCamera is null." +
|
|||
|
"To fix this, either tag a Camera as \"MainCamera\" or set overridePointerCamera.");
|
|||
|
return result;
|
|||
|
}
|
|||
|
|
|||
|
Vector3 rayPointerStart = pointerTransform.position;
|
|||
|
Vector3 rayPointerEnd = rayPointerStart +
|
|||
|
(pointerTransform.forward * pointer.CameraRayIntersectionDistance);
|
|||
|
|
|||
|
Vector3 cameraLocation = camera.transform.position;
|
|||
|
Vector3 finalRayDirection = rayPointerEnd - cameraLocation;
|
|||
|
finalRayDirection.Normalize();
|
|||
|
|
|||
|
Vector3 finalRayStart = cameraLocation + (finalRayDirection * camera.nearClipPlane);
|
|||
|
|
|||
|
result.ray = new Ray(finalRayStart, finalRayDirection);
|
|||
|
break;
|
|||
|
case RaycastMode.Direct:
|
|||
|
result.ray = new Ray(pointerTransform.position, pointerTransform.forward);
|
|||
|
break;
|
|||
|
default:
|
|||
|
throw new UnityException("Invalid RaycastMode " + mode + " passed into CalculateRay.");
|
|||
|
}
|
|||
|
|
|||
|
return result;
|
|||
|
}
|
|||
|
|
|||
|
/// Calculates the ray for the segment of the Hybrid raycast determined by the raycast mode
|
|||
|
/// passed in. Throws an exception if Hybrid is passed in.
|
|||
|
public static PointerRay CalculateHybridRay(GvrBasePointer pointer, RaycastMode hybridMode) {
|
|||
|
PointerRay result;
|
|||
|
|
|||
|
switch (hybridMode) {
|
|||
|
case RaycastMode.Direct:
|
|||
|
result = CalculateRay(pointer, hybridMode);
|
|||
|
result.distance = pointer.CameraRayIntersectionDistance;
|
|||
|
break;
|
|||
|
case RaycastMode.Camera:
|
|||
|
result = CalculateRay(pointer, hybridMode);
|
|||
|
PointerRay directRay = CalculateHybridRay(pointer, RaycastMode.Direct);
|
|||
|
result.ray.origin = directRay.ray.GetPoint(directRay.distance);
|
|||
|
result.distanceFromStart = directRay.distance;
|
|||
|
result.distance = pointer.MaxPointerDistance - directRay.distance;
|
|||
|
break;
|
|||
|
default:
|
|||
|
throw new UnityException("Invalid RaycastMode " + hybridMode + " passed into CalculateHybridRay.");
|
|||
|
}
|
|||
|
|
|||
|
return result;
|
|||
|
}
|
|||
|
|
|||
|
protected virtual void Start() {
|
|||
|
GvrPointerInputModule.OnPointerCreated(this);
|
|||
|
}
|
|||
|
|
|||
|
#if UNITY_EDITOR
|
|||
|
protected virtual void OnDrawGizmos() {
|
|||
|
if (drawDebugRays && Application.isPlaying && isActiveAndEnabled) {
|
|||
|
switch (raycastMode) {
|
|||
|
case RaycastMode.Camera:
|
|||
|
// Camera line.
|
|||
|
Gizmos.color = Color.green;
|
|||
|
PointerRay pointerRay = CalculateRay(this, RaycastMode.Camera);
|
|||
|
Gizmos.DrawLine(pointerRay.ray.origin, pointerRay.ray.GetPoint(pointerRay.distance));
|
|||
|
Camera camera = PointerCamera;
|
|||
|
|
|||
|
// Pointer to intersection dotted line.
|
|||
|
Vector3 intersection =
|
|||
|
PointerTransform.position + (PointerTransform.forward * CameraRayIntersectionDistance);
|
|||
|
UnityEditor.Handles.DrawDottedLine(PointerTransform.position, intersection, 1.0f);
|
|||
|
break;
|
|||
|
case RaycastMode.Direct:
|
|||
|
// Direct line.
|
|||
|
Gizmos.color = Color.blue;
|
|||
|
pointerRay = CalculateRay(this, RaycastMode.Direct);
|
|||
|
Gizmos.DrawLine(pointerRay.ray.origin, pointerRay.ray.GetPoint(pointerRay.distance));
|
|||
|
break;
|
|||
|
case RaycastMode.Hybrid:
|
|||
|
// Direct line.
|
|||
|
Gizmos.color = Color.blue;
|
|||
|
pointerRay = CalculateHybridRay(this, RaycastMode.Direct);
|
|||
|
Gizmos.DrawLine(pointerRay.ray.origin, pointerRay.ray.GetPoint(pointerRay.distance));
|
|||
|
|
|||
|
// Camera line.
|
|||
|
Gizmos.color = Color.green;
|
|||
|
pointerRay = CalculateHybridRay(this, RaycastMode.Camera);
|
|||
|
Gizmos.DrawLine(pointerRay.ray.origin, pointerRay.ray.GetPoint(pointerRay.distance));
|
|||
|
|
|||
|
// Camera to intersection dotted line.
|
|||
|
camera = PointerCamera;
|
|||
|
if (camera != null) {
|
|||
|
UnityEditor.Handles.DrawDottedLine(camera.transform.position, pointerRay.ray.origin, 1.0f);
|
|||
|
}
|
|||
|
break;
|
|||
|
default:
|
|||
|
break;
|
|||
|
}
|
|||
|
}
|
|||
|
}
|
|||
|
#endif // UNITY_EDITOR
|
|||
|
}
|