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soundvision/UnityProject/Assets/ThridParty/AzureKinectExamples/KinectScripts/UserMeshRendererGpu.cs
Chikashi Miyama e764e1e546 move azure kinect sample to Third party folder
2019-10-26 22:49:14 +02:00

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using System.Collections;
using System.Collections.Generic;
using UnityEngine;
using com.rfilkov.kinect;
namespace com.rfilkov.components
{
/// <summary>
/// UserMeshRendererGpu renders virtual mesh of a user in the scene, as detected by the given sensor. This component uses GPU for mesh processing rather than CPU.
/// </summary>
public class UserMeshRendererGpu : MonoBehaviour
{
[Tooltip("Index of the player, tracked by this component. 0 - the 1st player only, 1 - the 2nd player only, etc.")]
public int playerIndex = 0;
[Tooltip("Depth sensor index - 0 is the 1st one, 1 - the 2nd one, etc.")]
public int sensorIndex = 0;
[Tooltip("Resolution of the images used to generate the scene.")]
private DepthSensorBase.PointCloudResolution sourceImageResolution = DepthSensorBase.PointCloudResolution.DepthCameraResolution;
[Tooltip("Whether to show the mesh as point cloud, or as solid mesh.")]
public bool showAsPointCloud = true;
[Tooltip("Mesh coarse factor.")]
[Range(1, 4)]
public int coarseFactor = 1;
[Tooltip("Time interval between scene mesh updates, in seconds. 0 means no wait.")]
private float updateMeshInterval = 0f;
[Tooltip("Time interval between mesh-collider updates, in seconds. 0 means no mesh-collider updates.")]
private float updateColliderInterval = 0f;
// reference to object's mesh
private Mesh mesh = null;
private Transform trans = null;
// references to KM and data
private KinectManager kinectManager = null;
private KinectInterop.SensorData sensorData = null;
private DepthSensorBase sensorInt = null;
//private Vector3 spaceScale = Vector3.zero;
private Material meshShaderMat = null;
// space table
private Vector3[] spaceTable = null;
private ComputeBuffer spaceTableBuffer = null;
// render textures
private RenderTexture colorTexture = null;
private RenderTexture colorTextureCopy = null;
private bool colorTextureCreated = false;
private bool depthBufferCreated = false;
private bool bodyIndexBufferCreated = false;
// times
private ulong lastDepthFrameTime = 0;
private float lastMeshUpdateTime = 0f;
private float lastColliderUpdateTime = 0f;
// user parameters
private ulong userId = 0;
private int userBodyIndex = 255;
private Vector3 userBodyPos = Vector3.zero;
// image parameters
private int imageWidth = 0;
private int imageHeight = 0;
// mesh parameters
private bool bMeshInited = false;
private int meshParamsCache = 0;
void Start()
{
// get sensor data
kinectManager = KinectManager.Instance;
sensorData = (kinectManager != null && kinectManager.IsInitialized()) ? kinectManager.GetSensorData(sensorIndex) : null;
}
void OnDestroy()
{
if (bMeshInited)
{
// release the mesh-related resources
FinishMesh();
}
}
void Update()
{
if (mesh == null && sensorData != null && sensorData.depthCamIntr != null)
{
// init mesh and its related data
InitMesh();
}
if (bMeshInited)
{
// user params
userId = kinectManager.GetUserIdByIndex(playerIndex);
userBodyIndex = userId != 0 ? kinectManager.GetBodyIndexByUserId(userId) : 255;
userBodyPos = userId != 0 ? kinectManager.GetUserKinectPosition(userId, true) : Vector3.zero;
// update the mesh
UpdateMesh();
}
}
// inits the mesh and related data
private void InitMesh()
{
// create mesh
mesh = new Mesh
{
name = "User" + playerIndex + "Mesh-S" + sensorIndex,
indexFormat = UnityEngine.Rendering.IndexFormat.UInt32
};
MeshFilter meshFilter = GetComponent<MeshFilter>();
if (meshFilter != null)
{
meshFilter.mesh = mesh;
}
else
{
Debug.LogWarning("MeshFilter not found! You may not see the mesh on screen");
}
// create depth image buffer
if (sensorData.depthImageBuffer == null)
{
int depthBufferLength = sensorData.depthImageWidth * sensorData.depthImageHeight / 2;
sensorData.depthImageBuffer = KinectInterop.CreateComputeBuffer(sensorData.depthImageBuffer, depthBufferLength, sizeof(uint));
depthBufferCreated = true;
}
// create body index buffer
if (sensorData.bodyIndexBuffer == null)
{
int bodyIndexBufferLength = sensorData.depthImageWidth * sensorData.depthImageHeight / 4;
sensorData.bodyIndexBuffer = KinectInterop.CreateComputeBuffer(sensorData.bodyIndexBuffer, bodyIndexBufferLength, sizeof(uint));
bodyIndexBufferCreated = true;
}
// create point cloud color texture
if (sensorData != null && sensorData.sensorInterface != null)
{
sensorInt = (DepthSensorBase)sensorData.sensorInterface;
Vector2Int imageRes = Vector2Int.zero;
if (sensorInt.pointCloudColorTexture == null)
{
sensorInt.pointCloudResolution = sourceImageResolution;
imageRes = sensorInt.GetPointCloudTexResolution(sensorData);
colorTexture = KinectInterop.CreateRenderTexture(colorTexture, imageRes.x, imageRes.y, RenderTextureFormat.ARGB32);
sensorInt.pointCloudColorTexture = colorTexture;
colorTextureCreated = true;
}
else
{
imageRes = sensorInt.GetPointCloudTexResolution(sensorData);
colorTexture = sensorInt.pointCloudColorTexture;
colorTextureCreated = false;
}
// create space table
spaceTable = sensorInt.pointCloudResolution == DepthSensorBase.PointCloudResolution.DepthCameraResolution ?
sensorInt.GetDepthCameraSpaceTable(sensorData) : sensorInt.GetColorCameraSpaceTable(sensorData);
int spaceBufferLength = imageRes.x * imageRes.y * 3;
spaceTableBuffer = new ComputeBuffer(spaceBufferLength, sizeof(float));
spaceTableBuffer.SetData(spaceTable);
spaceTable = null;
// create copy texture
colorTextureCopy = KinectInterop.CreateRenderTexture(colorTextureCopy, imageRes.x, imageRes.y, RenderTextureFormat.ARGB32);
// set the color texture
Renderer meshRenderer = GetComponent<Renderer>();
if (meshRenderer && meshRenderer.material /**&& meshRenderer.material.mainTexture == null*/)
{
meshShaderMat = meshRenderer.material;
}
// get reference to the transform
trans = GetComponent<Transform>();
// image width & height
imageWidth = imageRes.x;
imageHeight = imageRes.y;
// create mesh vertices & indices
CreateMeshVertInd();
bMeshInited = true;
}
}
// creates the mesh vertices and indices
private void CreateMeshVertInd()
{
int xVerts = (imageWidth / coarseFactor); // + 1;
int yVerts = (imageHeight / coarseFactor); // + 1;
int vCount = xVerts * yVerts;
// mesh vertices
mesh.Clear();
mesh.indexFormat = UnityEngine.Rendering.IndexFormat.UInt32;
Vector3[] meshVertices = new Vector3[xVerts * yVerts];
Vector3[] meshNormals = new Vector3[xVerts * yVerts];
float vsx = (float)coarseFactor / (float)imageWidth;
float vsy = (float)coarseFactor / (float)imageHeight;
for (int y = 0, vi = 0; y < yVerts; y++)
{
for (int x = 0; x < xVerts; x++, vi++)
{
meshVertices[vi] = new Vector3(x * vsx, y * vsy, 0f);
meshNormals[vi] = new Vector3(0f, 1f, 0f); // 0f, 0f, -1f
}
}
mesh.vertices = meshVertices;
mesh.normals = meshNormals;
// mesh indices
if (showAsPointCloud)
{
int[] meshIndices = new int[vCount];
for (int i = 0; i < vCount; i++)
meshIndices[i] = i;
mesh.SetIndices(meshIndices, MeshTopology.Points, 0);
}
else
{
int[] meshIndices = new int[(xVerts - 1) * (yVerts - 1) * 6];
for (int y = 0, ii = 0; y < (yVerts - 1); y++)
{
for (int x = 0; x < (xVerts - 1); x++)
{
meshIndices[ii++] = (y + 1) * xVerts + x;
meshIndices[ii++] = y * xVerts + x + 1;
meshIndices[ii++] = y * xVerts + x;
meshIndices[ii++] = (y + 1) * xVerts + x + 1;
meshIndices[ii++] = y * xVerts + x + 1;
meshIndices[ii++] = (y + 1) * xVerts + x;
}
}
mesh.SetIndices(meshIndices, MeshTopology.Triangles, 0);
}
meshParamsCache = coarseFactor + (showAsPointCloud ? 10 : 0);
}
// releases mesh-related resources
private void FinishMesh()
{
if (sensorInt)
{
sensorInt.pointCloudColorTexture = null;
}
if(sensorData.depthImageBuffer != null && depthBufferCreated)
{
sensorData.depthImageBuffer.Release();
sensorData.depthImageBuffer.Dispose();
sensorData.depthImageBuffer = null;
}
if (sensorData.bodyIndexBuffer != null && bodyIndexBufferCreated)
{
sensorData.bodyIndexBuffer.Release();
sensorData.bodyIndexBuffer.Dispose();
sensorData.bodyIndexBuffer = null;
}
if (colorTexture && colorTextureCreated)
{
colorTexture.Release();
colorTexture = null;
}
if (colorTextureCopy)
{
colorTextureCopy.Release();
colorTextureCopy = null;
}
if (spaceTableBuffer != null)
{
spaceTableBuffer.Dispose();
spaceTableBuffer = null;
}
bMeshInited = false;
}
// updates the mesh according to current depth frame
private void UpdateMesh()
{
if (bMeshInited && colorTexture != null && sensorData.depthImage != null && sensorData.depthCamIntr != null && meshShaderMat != null &&
lastDepthFrameTime != sensorData.lastDepthFrameTime && (Time.time - lastMeshUpdateTime) >= updateMeshInterval)
{
lastDepthFrameTime = sensorData.lastDepthFrameTime;
lastMeshUpdateTime = Time.time;
int paramsCache = coarseFactor + (showAsPointCloud ? 10 : 0);
if(meshParamsCache != paramsCache)
{
//Debug.Log("Mesh params changed. Recreating...");
CreateMeshVertInd();
}
if (sensorData.depthImageBuffer != null && sensorData.depthImage != null && depthBufferCreated)
{
int depthBufferLength = sensorData.depthImageWidth * sensorData.depthImageHeight / 2;
KinectInterop.SetComputeBufferData(sensorData.depthImageBuffer, sensorData.depthImage, depthBufferLength, sizeof(uint));
}
if (sensorData.bodyIndexBuffer != null && sensorData.bodyIndexImage != null && bodyIndexBufferCreated)
{
int bodyIndexBufferLength = sensorData.depthImageWidth * sensorData.depthImageHeight / 4;
KinectInterop.SetComputeBufferData(sensorData.bodyIndexBuffer, sensorData.bodyIndexImage, bodyIndexBufferLength, sizeof(uint));
}
Graphics.CopyTexture(colorTexture, colorTextureCopy);
meshShaderMat.SetBuffer("_DepthMap", sensorData.depthImageBuffer);
meshShaderMat.SetBuffer("_BodyIndexMap", sensorData.bodyIndexBuffer);
meshShaderMat.SetInt("_CoarseFactor", coarseFactor);
meshShaderMat.SetInt("_UserBodyIndex", userBodyIndex);
meshShaderMat.SetVector("_UserBodyPos", userBodyPos);
meshShaderMat.SetMatrix("_Transform", sensorInt.GetSensorToWorldMatrix());
meshShaderMat.SetVector("_TexRes", new Vector2(imageWidth, imageHeight));
meshShaderMat.SetVector("_Cxy", new Vector2(sensorData.depthCamIntr.ppx, sensorData.depthCamIntr.ppy));
meshShaderMat.SetVector("_Fxy", new Vector2(sensorData.depthCamIntr.fx, sensorData.depthCamIntr.fy));
meshShaderMat.SetTexture("_ColorTex", colorTextureCopy);
meshShaderMat.SetVector("_SpaceScale", kinectManager.GetSensorSpaceScale(sensorIndex)); // kinectManager.GetDepthImageScale(sensorIndex)
meshShaderMat.SetBuffer("_SpaceTable", spaceTableBuffer);
// mesh bounds
if (kinectManager.GetUserBoundingBox(userId, null, sensorIndex, Rect.zero, out Vector3 posMin, out Vector3 posMax))
{
Vector3 boundsCenter = new Vector3((posMax.x - posMin.x) / 2f, (posMax.y - posMin.y) / 2f, (posMax.z - posMin.z) / 2f);
Vector3 boundsSize = new Vector3((posMax.x - posMin.x), (posMax.y - posMin.y), (posMax.z - posMin.z));
mesh.bounds = new Bounds(boundsCenter, boundsSize);
}
if (updateColliderInterval > 0 && (Time.time - lastColliderUpdateTime) >= updateColliderInterval)
{
lastColliderUpdateTime = Time.time;
MeshCollider meshCollider = GetComponent<MeshCollider>();
if (meshCollider)
{
meshCollider.sharedMesh = null;
meshCollider.sharedMesh = mesh;
}
}
}
}
}
}
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