KinectBodyView.cs

//------------------------------------------------------------------------------
// <copyright file="KinectBodyView.cs" company="Microsoft">
//     Copyright (c) Microsoft Corporation.  All rights reserved.
// </copyright>
//------------------------------------------------------------------------------

namespace Microsoft.Samples.Kinect.ContinuousGestureBasics
{
    using System;
    using System.Collections.Generic;
    using System.Windows;
    using System.Windows.Media;
    using Microsoft.Kinect;

    /// <summary>
    /// Visualizes the Kinect Body stream for display in the UI
    /// </summary>
    public sealed class KinectBodyView
    {
        /// <summary> Radius of drawn hand circles </summary>
        private const double HandSize = 30;

        /// <summary> Thickness of drawn joint lines </summary>
        private const double JointThickness = 3;

        /// <summary> Thickness of clip edge rectangles </summary>
        private const double ClipBoundsThickness = 10;

        /// <summary> Constant for clamping Z values of camera space points from being negative </summary>
        private const float InferredZPositionClamp = 0.1f;

        /// <summary> Brush used for drawing hands that are currently tracked as closed </summary>
        private readonly Brush handClosedBrush = new SolidColorBrush(Color.FromArgb(128, 255, 0, 0));

        /// <summary> Brush used for drawing hands that are currently tracked as opened </summary>
        private readonly Brush handOpenBrush = new SolidColorBrush(Color.FromArgb(128, 0, 255, 0));

        /// <summary> Brush used for drawing hands that are currently tracked as in lasso (pointer) position </summary>
        private readonly Brush handLassoBrush = new SolidColorBrush(Color.FromArgb(128, 0, 0, 255));

        /// <summary> Brush used for drawing joints that are currently tracked </summary>
        private readonly Brush trackedJointBrush = new SolidColorBrush(Color.FromArgb(255, 68, 192, 68));

        /// <summary> Brush used for drawing joints that are currently inferred </summary>        
        private readonly Brush inferredJointBrush = Brushes.Yellow;

        /// <summary> Pen used for drawing bones that are currently inferred </summary>        
        private readonly Pen inferredBonePen = new Pen(Brushes.Gray, 1);

        /// <summary> Pen used for drawing non-inferred bones </summary>
        private readonly Pen bonePen = new Pen(Brushes.Red, 6);

        /// <summary> Drawing group for body rendering output </summary>
        private DrawingGroup drawingGroup;

        /// <summary> Drawing image that we will display </summary>
        private DrawingImage imageSource;

        /// <summary> Coordinate mapper to map one type of point to another </summary>
        private CoordinateMapper coordinateMapper = null;

        /// <summary> Definition of bones </summary>
        private List<Tuple<JointType, JointType>> bones;

        /// <summary> Width of display (depth space) </summary>
        private int displayWidth;

        /// <summary> Height of display (depth space) </summary>
        private int displayHeight;

        /// <summary>
        /// Initializes a new instance of the KinectBodyView class
        /// </summary>
        /// <param name="kinectSensor">Active instance of the KinectSensor</param>
        public KinectBodyView(KinectSensor kinectSensor)
        {
            if (kinectSensor == null)
            {
                throw new ArgumentNullException("kinectSensor");
            }

            // get the coordinate mapper
            this.coordinateMapper = kinectSensor.CoordinateMapper;

            // get the depth (display) extents
            FrameDescription frameDescription = kinectSensor.DepthFrameSource.FrameDescription;

            // get size of joint space
            this.displayWidth = frameDescription.Width;
            this.displayHeight = frameDescription.Height;

            // a bone defined as a line between two joints
            this.bones = new List<Tuple<JointType, JointType>>();

            // Torso
            this.bones.Add(new Tuple<JointType, JointType>(JointType.Head, JointType.Neck));
            this.bones.Add(new Tuple<JointType, JointType>(JointType.Neck, JointType.SpineShoulder));
            this.bones.Add(new Tuple<JointType, JointType>(JointType.SpineShoulder, JointType.SpineMid));
            this.bones.Add(new Tuple<JointType, JointType>(JointType.SpineMid, JointType.SpineBase));
            this.bones.Add(new Tuple<JointType, JointType>(JointType.SpineShoulder, JointType.ShoulderRight));
            this.bones.Add(new Tuple<JointType, JointType>(JointType.SpineShoulder, JointType.ShoulderLeft));
            this.bones.Add(new Tuple<JointType, JointType>(JointType.SpineBase, JointType.HipRight));
            this.bones.Add(new Tuple<JointType, JointType>(JointType.SpineBase, JointType.HipLeft));

            // Right Arm
            this.bones.Add(new Tuple<JointType, JointType>(JointType.ShoulderRight, JointType.ElbowRight));
            this.bones.Add(new Tuple<JointType, JointType>(JointType.ElbowRight, JointType.WristRight));
            this.bones.Add(new Tuple<JointType, JointType>(JointType.WristRight, JointType.HandRight));
            this.bones.Add(new Tuple<JointType, JointType>(JointType.HandRight, JointType.HandTipRight));
            this.bones.Add(new Tuple<JointType, JointType>(JointType.WristRight, JointType.ThumbRight));

            // Left Arm
            this.bones.Add(new Tuple<JointType, JointType>(JointType.ShoulderLeft, JointType.ElbowLeft));
            this.bones.Add(new Tuple<JointType, JointType>(JointType.ElbowLeft, JointType.WristLeft));
            this.bones.Add(new Tuple<JointType, JointType>(JointType.WristLeft, JointType.HandLeft));
            this.bones.Add(new Tuple<JointType, JointType>(JointType.HandLeft, JointType.HandTipLeft));
            this.bones.Add(new Tuple<JointType, JointType>(JointType.WristLeft, JointType.ThumbLeft));

            // Right Leg
            this.bones.Add(new Tuple<JointType, JointType>(JointType.HipRight, JointType.KneeRight));
            this.bones.Add(new Tuple<JointType, JointType>(JointType.KneeRight, JointType.AnkleRight));
            this.bones.Add(new Tuple<JointType, JointType>(JointType.AnkleRight, JointType.FootRight));

            // Left Leg
            this.bones.Add(new Tuple<JointType, JointType>(JointType.HipLeft, JointType.KneeLeft));
            this.bones.Add(new Tuple<JointType, JointType>(JointType.KneeLeft, JointType.AnkleLeft));
            this.bones.Add(new Tuple<JointType, JointType>(JointType.AnkleLeft, JointType.FootLeft));

            // Create the drawing group we'll use for drawing
            this.drawingGroup = new DrawingGroup();

            // Create an image source that we can use in our image control
            this.imageSource = new DrawingImage(this.drawingGroup);
        }

        /// <summary>
        /// Gets the bitmap to display
        /// </summary>
        public ImageSource ImageSource
        {
            get
            {
                return this.imageSource;
            }
        }

        /// <summary>
        /// Updates the body image with new information from the sensor
        /// Should be called whenever AcquireLatestFrame is called
        /// </summary>
        /// <param name="body">Body object to update in UI</param>
        public void UpdateBodyData(Body body)
        {
            if (body != null)
            {
                using (DrawingContext dc = this.drawingGroup.Open())
                {
                    // Draw a transparent background to set the render size
                    dc.DrawRectangle(Brushes.Black, null, new Rect(0.0, 0.0, this.displayWidth, this.displayHeight));

                    if (body.IsTracked)
                    {
                        this.DrawClippedEdges(body, dc);

                        IReadOnlyDictionary<JointType, Joint> joints = body.Joints;

                        // convert the joint points to depth (display) space
                        Dictionary<JointType, Point> jointPoints = new Dictionary<JointType, Point>();

                        foreach (JointType jointType in joints.Keys)
                        {
                            // sometimes the depth(Z) of an inferred joint may show as negative
                            // clamp down to 0.1f to prevent coordinatemapper from returning (-Infinity, -Infinity)
                            CameraSpacePoint position = joints[jointType].Position;
                            if (position.Z < 0)
                            {
                                position.Z = InferredZPositionClamp;
                            }

                            DepthSpacePoint depthSpacePoint = this.coordinateMapper.MapCameraPointToDepthSpace(position);
                            jointPoints[jointType] = new Point(depthSpacePoint.X, depthSpacePoint.Y);
                        }

                        this.DrawBody(joints, jointPoints, dc, this.bonePen);

                        this.DrawHand(body.HandLeftState, jointPoints[JointType.HandLeft], dc);
                        this.DrawHand(body.HandRightState, jointPoints[JointType.HandRight], dc);
                    }

                    // prevent drawing outside of our render area
                    this.drawingGroup.ClipGeometry = new RectangleGeometry(new Rect(0.0, 0.0, this.displayWidth, this.displayHeight));
                }
            }
        }

        /// <summary>
        /// Draws a body
        /// </summary>
        /// <param name="joints">joints to draw</param>
        /// <param name="jointPoints">translated positions of joints to draw</param>
        /// <param name="drawingContext">drawing context to draw to</param>
        /// <param name="drawingPen">specifies color to draw a specific body</param>
        private void DrawBody(IReadOnlyDictionary<JointType, Joint> joints, IDictionary<JointType, Point> jointPoints, DrawingContext drawingContext, Pen drawingPen)
        {
            // Draw the bones
            foreach (var bone in this.bones)
            {
                this.DrawBone(joints, jointPoints, bone.Item1, bone.Item2, drawingContext, drawingPen);
            }

            // Draw the joints
            foreach (JointType jointType in joints.Keys)
            {
                Brush drawBrush = null;

                TrackingState trackingState = joints[jointType].TrackingState;

                if (trackingState == TrackingState.Tracked)
                {
                    drawBrush = this.trackedJointBrush;
                }
                else if (trackingState == TrackingState.Inferred)
                {
                    drawBrush = this.inferredJointBrush;
                }

                if (drawBrush != null)
                {
                    drawingContext.DrawEllipse(drawBrush, null, jointPoints[jointType], JointThickness, JointThickness);
                }
            }
        }

        /// <summary>
        /// Draws one bone of a body (joint to joint)
        /// </summary>
        /// <param name="joints">joints to draw</param>
        /// <param name="jointPoints">translated positions of joints to draw</param>
        /// <param name="jointType0">first joint of bone to draw</param>
        /// <param name="jointType1">second joint of bone to draw</param>
        /// <param name="drawingContext">drawing context to draw to</param>
        /// /// <param name="drawingPen">specifies color to draw a specific bone</param>
        private void DrawBone(IReadOnlyDictionary<JointType, Joint> joints, IDictionary<JointType, Point> jointPoints, JointType jointType0, JointType jointType1, DrawingContext drawingContext, Pen drawingPen)
        {
            Joint joint0 = joints[jointType0];
            Joint joint1 = joints[jointType1];

            // If we can't find either of these joints, exit
            if (joint0.TrackingState == TrackingState.NotTracked ||
                joint1.TrackingState == TrackingState.NotTracked)
            {
                return;
            }

            // We assume all drawn bones are inferred unless BOTH joints are tracked
            Pen drawPen = this.inferredBonePen;
            if ((joint0.TrackingState == TrackingState.Tracked) && (joint1.TrackingState == TrackingState.Tracked))
            {
                drawPen = drawingPen;
            }

            drawingContext.DrawLine(drawPen, jointPoints[jointType0], jointPoints[jointType1]);
        }

        /// <summary>
        /// Draws a hand symbol if the hand is tracked: red circle = closed, green circle = opened; blue circle = lasso
        /// </summary>
        /// <param name="handState">state of the hand</param>
        /// <param name="handPosition">position of the hand</param>
        /// <param name="drawingContext">drawing context to draw to</param>
        private void DrawHand(HandState handState, Point handPosition, DrawingContext drawingContext)
        {
            switch (handState)
            {
                case HandState.Closed:
                    drawingContext.DrawEllipse(this.handClosedBrush, null, handPosition, HandSize, HandSize);
                    break;

                case HandState.Open:
                    drawingContext.DrawEllipse(this.handOpenBrush, null, handPosition, HandSize, HandSize);
                    break;

                case HandState.Lasso:
                    drawingContext.DrawEllipse(this.handLassoBrush, null, handPosition, HandSize, HandSize);
                    break;
            }
        }

        /// <summary>
        /// Draws indicators to show which edges are clipping body data
        /// </summary>
        /// <param name="body">body to draw clipping information for</param>
        /// <param name="drawingContext">drawing context to draw to</param>
        private void DrawClippedEdges(Body body, DrawingContext drawingContext)
        {
            FrameEdges clippedEdges = body.ClippedEdges;

            if (clippedEdges.HasFlag(FrameEdges.Bottom))
            {
                drawingContext.DrawRectangle(
                    Brushes.Red,
                    null,
                    new Rect(0, this.displayHeight - ClipBoundsThickness, this.displayWidth, ClipBoundsThickness));
            }

            if (clippedEdges.HasFlag(FrameEdges.Top))
            {
                drawingContext.DrawRectangle(
                    Brushes.Red,
                    null,
                    new Rect(0, 0, this.displayWidth, ClipBoundsThickness));
            }

            if (clippedEdges.HasFlag(FrameEdges.Left))
            {
                drawingContext.DrawRectangle(
                    Brushes.Red,
                    null,
                    new Rect(0, 0, ClipBoundsThickness, this.displayHeight));
            }

            if (clippedEdges.HasFlag(FrameEdges.Right))
            {
                drawingContext.DrawRectangle(
                    Brushes.Red,
                    null,
                    new Rect(this.displayWidth - ClipBoundsThickness, 0, ClipBoundsThickness, this.displayHeight));
            }
        }
    }
}