campfire/Assets/SteamVR/Scripts/SteamVR_TrackedCamera.cs

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2020-04-29 19:40:05 +02:00
//======= Copyright (c) Valve Corporation, All rights reserved. ===============
//
// Purpose: Provides access to video feed and poses of tracked cameras.
//
// Usage:
// var source = SteamVR_TrackedCamera.Distorted();
// var source = SteamVR_TrackedCamera.Undistorted();
// or
// var undistorted = true; // or false
// var source = SteamVR_TrackedCamera.Source(undistorted);
//
// - Distorted feeds are the decoded images from the camera.
// - Undistorted feeds correct for the camera lens distortion (a.k.a. fisheye)
// to make straight lines straight.
//
// VideoStreamTexture objects must be symmetrically Acquired and Released to
// ensure the video stream is activated, and shutdown properly once there are
// no more consumers. You only need to Acquire once when starting to use a
// stream, and Release when you are done using it (as opposed to every frame).
//
//=============================================================================
using UnityEngine;
using Valve.VR;
namespace Valve.VR
{
public class SteamVR_TrackedCamera
{
public class VideoStreamTexture
{
public VideoStreamTexture(uint deviceIndex, bool undistorted)
{
this.undistorted = undistorted;
videostream = Stream(deviceIndex);
}
public bool undistorted { get; private set; }
public uint deviceIndex { get { return videostream.deviceIndex; } }
public bool hasCamera { get { return videostream.hasCamera; } }
public bool hasTracking { get { Update(); return header.trackedDevicePose.bPoseIsValid; } }
public uint frameId { get { Update(); return header.nFrameSequence; } }
public VRTextureBounds_t frameBounds { get; private set; }
public EVRTrackedCameraFrameType frameType { get { return undistorted ? EVRTrackedCameraFrameType.Undistorted : EVRTrackedCameraFrameType.Distorted; } }
Texture2D _texture;
public Texture2D texture { get { Update(); return _texture; } }
public SteamVR_Utils.RigidTransform transform { get { Update(); return new SteamVR_Utils.RigidTransform(header.trackedDevicePose.mDeviceToAbsoluteTracking); } }
public Vector3 velocity { get { Update(); var pose = header.trackedDevicePose; return new Vector3(pose.vVelocity.v0, pose.vVelocity.v1, -pose.vVelocity.v2); } }
public Vector3 angularVelocity { get { Update(); var pose = header.trackedDevicePose; return new Vector3(-pose.vAngularVelocity.v0, -pose.vAngularVelocity.v1, pose.vAngularVelocity.v2); } }
public TrackedDevicePose_t GetPose() { Update(); return header.trackedDevicePose; }
public ulong Acquire()
{
return videostream.Acquire();
}
public ulong Release()
{
var result = videostream.Release();
if (videostream.handle == 0)
{
Object.Destroy(_texture);
_texture = null;
}
return result;
}
int prevFrameCount = -1;
void Update()
{
if (Time.frameCount == prevFrameCount)
return;
prevFrameCount = Time.frameCount;
if (videostream.handle == 0)
return;
var vr = SteamVR.instance;
if (vr == null)
return;
var trackedCamera = OpenVR.TrackedCamera;
if (trackedCamera == null)
return;
var nativeTex = System.IntPtr.Zero;
var deviceTexture = (_texture != null) ? _texture : new Texture2D(2, 2);
var headerSize = (uint)System.Runtime.InteropServices.Marshal.SizeOf(header.GetType());
if (vr.textureType == ETextureType.OpenGL)
{
if (glTextureId != 0)
trackedCamera.ReleaseVideoStreamTextureGL(videostream.handle, glTextureId);
if (trackedCamera.GetVideoStreamTextureGL(videostream.handle, frameType, ref glTextureId, ref header, headerSize) != EVRTrackedCameraError.None)
return;
nativeTex = (System.IntPtr)glTextureId;
}
else if (vr.textureType == ETextureType.DirectX)
{
if (trackedCamera.GetVideoStreamTextureD3D11(videostream.handle, frameType, deviceTexture.GetNativeTexturePtr(), ref nativeTex, ref header, headerSize) != EVRTrackedCameraError.None)
return;
}
if (_texture == null)
{
_texture = Texture2D.CreateExternalTexture((int)header.nWidth, (int)header.nHeight, TextureFormat.RGBA32, false, false, nativeTex);
uint width = 0, height = 0;
var frameBounds = new VRTextureBounds_t();
if (trackedCamera.GetVideoStreamTextureSize(deviceIndex, frameType, ref frameBounds, ref width, ref height) == EVRTrackedCameraError.None)
{
// Account for textures being upside-down in Unity.
frameBounds.vMin = 1.0f - frameBounds.vMin;
frameBounds.vMax = 1.0f - frameBounds.vMax;
this.frameBounds = frameBounds;
}
}
else
{
_texture.UpdateExternalTexture(nativeTex);
}
}
uint glTextureId;
VideoStream videostream;
CameraVideoStreamFrameHeader_t header;
}
#region Top level accessors.
public static VideoStreamTexture Distorted(int deviceIndex = (int)OpenVR.k_unTrackedDeviceIndex_Hmd)
{
if (distorted == null)
distorted = new VideoStreamTexture[OpenVR.k_unMaxTrackedDeviceCount];
if (distorted[deviceIndex] == null)
distorted[deviceIndex] = new VideoStreamTexture((uint)deviceIndex, false);
return distorted[deviceIndex];
}
public static VideoStreamTexture Undistorted(int deviceIndex = (int)OpenVR.k_unTrackedDeviceIndex_Hmd)
{
if (undistorted == null)
undistorted = new VideoStreamTexture[OpenVR.k_unMaxTrackedDeviceCount];
if (undistorted[deviceIndex] == null)
undistorted[deviceIndex] = new VideoStreamTexture((uint)deviceIndex, true);
return undistorted[deviceIndex];
}
public static VideoStreamTexture Source(bool undistorted, int deviceIndex = (int)OpenVR.k_unTrackedDeviceIndex_Hmd)
{
return undistorted ? Undistorted(deviceIndex) : Distorted(deviceIndex);
}
private static VideoStreamTexture[] distorted, undistorted;
#endregion
#region Internal class to manage lifetime of video streams (per device).
class VideoStream
{
public VideoStream(uint deviceIndex)
{
this.deviceIndex = deviceIndex;
var trackedCamera = OpenVR.TrackedCamera;
if (trackedCamera != null)
trackedCamera.HasCamera(deviceIndex, ref _hasCamera);
}
public uint deviceIndex { get; private set; }
ulong _handle;
public ulong handle { get { return _handle; } }
bool _hasCamera;
public bool hasCamera { get { return _hasCamera; } }
ulong refCount;
public ulong Acquire()
{
if (_handle == 0 && hasCamera)
{
var trackedCamera = OpenVR.TrackedCamera;
if (trackedCamera != null)
trackedCamera.AcquireVideoStreamingService(deviceIndex, ref _handle);
}
return ++refCount;
}
public ulong Release()
{
if (refCount > 0 && --refCount == 0 && _handle != 0)
{
var trackedCamera = OpenVR.TrackedCamera;
if (trackedCamera != null)
trackedCamera.ReleaseVideoStreamingService(_handle);
_handle = 0;
}
return refCount;
}
}
static VideoStream Stream(uint deviceIndex)
{
if (videostreams == null)
videostreams = new VideoStream[OpenVR.k_unMaxTrackedDeviceCount];
if (videostreams[deviceIndex] == null)
videostreams[deviceIndex] = new VideoStream(deviceIndex);
return videostreams[deviceIndex];
}
static VideoStream[] videostreams;
#endregion
}
}