MagCalib.cs

using System;
using System.Collections.Generic;
using System.Windows.Forms;
using System.IO;
using System.Collections;
using netDxf.Entities;
using netDxf.Tables;
using System.Reflection;
using log4net;
using MissionPlanner.Log;
using MissionPlanner.Controls;
using MissionPlanner.Utilities;
using MissionPlanner.HIL;

namespace MissionPlanner
{
    public class MagCalib
    {
        private static readonly ILog log = LogManager.GetLogger(MethodBase.GetCurrentMethod().DeclaringType);

        static double error = 99;
        static double error2 = 99;
        static double error3 = 99;
        static double[] ans;
        static double[] ans2;
        static double[] ans3;

        static string GetColour(int pitch, int yaw)
        {
            // yaw doesnt matter with these 2
            if (pitch == 0)
                return "DarkBlue";

            if (pitch == 180)
                return "Yellow";

            // select hemisphere
            if (pitch < 90)
            {
                if (yaw < 90 || yaw > 270)
                    return "DarkBlue-Red";
                if (yaw < 180)
                    return "DarkBlue-Blue";
                if (yaw < 270)
                    return "DarkBlue-Pink";
            }
            else
            {
                if (yaw < 90 || yaw > 270)
                    return "Yellow-Green";
                if (yaw < 180)
                    return "Yellow-Blue";
                if (yaw < 270)
                    return "Yellow-Pink";
            }

            return "";
        }


        /*
         *      // pitch, yaw
                // 0 , 0 is directly up dark blue axis
                // 60, 360 is red and blue
                // 60, 180 is dark blue and blue
                // 90, 180 is light blue axis
                // 90, 90 green axis
                // 90, 270 pink axis
                // 90, 360 red axis
                // 180, 0 yellow axis

              0,0,
                0,120,
                0,240,
                0,360,
                60,0,
                60,120,
                60,240,
                60,360,
                120,0,
                120,120,
                120,240,
                120,360,
                180,0,
                180,120,
                180,240,
                180,360,
         */


        /// <summary>
        /// Self contained process tlog and save/display offsets
        /// </summary>
        public static void ProcessLog(int throttleThreshold = 0)
        {
            using (OpenFileDialog openFileDialog1 = new OpenFileDialog())
            {
                openFileDialog1.Filter = "Log Files|*.tlog;*.log;*.bin";
                openFileDialog1.FilterIndex = 2;
                openFileDialog1.RestoreDirectory = true;
                openFileDialog1.Multiselect = true;
                try
                {
                    openFileDialog1.InitialDirectory = Settings.Instance.LogDir + Path.DirectorySeparatorChar;
                }
                catch
                {
                } // incase dir doesnt exist

                if (openFileDialog1.ShowDialog() == DialogResult.OK)
                {
                    try
                    {
                        double[] ans;

                        if (openFileDialog1.FileName.ToLower().EndsWith("tlog"))
                        {
                            ans = getOffsets(openFileDialog1.FileName, throttleThreshold);
                        }
                        else
                        {
                            ans = getOffsetsLog(openFileDialog1.FileName);
                        }

                        if (ans.Length != 1)
                            SaveOffsets(ans);
                    }
                    catch (Exception ex)
                    {
                        log.Debug(ex.ToString());
                    }
                }
            }
        }


        public static void DoGUIMagCalib(bool dointro = true)
        {
            ans = null;
            filtercompass1.Clear();
            datacompass1.Clear();
            datacompass2.Clear();
            filtercompass2.Clear();
            filtercompass3.Clear();
            datacompass3.Clear();
            error = 99;
            error2 = 99;
            error3 = 99;

            if (dointro)
                CustomMessageBox.Show(Strings.MagCalibMsg);

            using (ProgressReporterSphere prd = new ProgressReporterSphere())
            {
                prd.btnCancel.Text = "Done";

                Utilities.ThemeManager.ApplyThemeTo(prd);

                prd.DoWork += prd_DoWork;

                prd.RunBackgroundOperationAsync();
            }

            if (ans != null)
                MagCalib.SaveOffsets(ans);

            if (ans2 != null)
                MagCalib.SaveOffsets2(ans2);

            if (ans3 != null)
                MagCalib.SaveOffsets3(ans3);
        }

        // filter data points to only x number per quadrant
        static int div = 20;
        static Hashtable filtercompass1 = new Hashtable();
        static Hashtable filtercompass2 = new Hashtable();
        static Hashtable filtercompass3 = new Hashtable();

        // list of x,y,z 's
        static List<Tuple<float, float, float>> datacompass1 = new List<Tuple<float, float, float>>();

        // list no 2
        static List<Tuple<float, float, float>> datacompass2 = new List<Tuple<float, float, float>>();

        static List<Tuple<float, float, float>> datacompass3 = new List<Tuple<float, float, float>>();

        private static object _locker = new object();

        static bool ReceviedPacket(MAVLink.MAVLinkMessage rawpacket)
        {
            if (rawpacket.msgid == (byte) MAVLink.MAVLINK_MSG_ID.SCALED_IMU2)
            {
                MAVLink.mavlink_scaled_imu2_t packet = rawpacket.ToStructure<MAVLink.mavlink_scaled_imu2_t>();

                // filter dataset
                string item = (int) (packet.xmag/div) + "," +
                              (int) (packet.ymag/div) + "," +
                              (int) (packet.zmag/div);

                if (filtercompass2.ContainsKey(item))
                {
                    filtercompass2[item] = (int) filtercompass2[item] + 1;

                    if ((int) filtercompass2[item] > 3)
                        return false;
                }
                else
                {
                    filtercompass2[item] = 1;
                }

                // values - offsets are 0
                float rawmx = packet.xmag;
                float rawmy = packet.ymag;
                float rawmz = packet.zmag;

                // add data
                lock (_locker)
                {
                    if (rawmx == 0 || rawmy == 0 || rawmz == 0)
                        return true;

                    datacompass2.Add(new Tuple<float, float, float>(rawmx, rawmy, rawmz));
                }

                return true;
            }
            else if (rawpacket.msgid == (byte) MAVLink.MAVLINK_MSG_ID.SCALED_IMU3)
            {
                MAVLink.mavlink_scaled_imu3_t packet = rawpacket.ToStructure<MAVLink.mavlink_scaled_imu3_t>();

                // filter dataset
                string item = (int) (packet.xmag/div) + "," +
                              (int) (packet.ymag/div) + "," +
                              (int) (packet.zmag/div);

                if (filtercompass3.ContainsKey(item))
                {
                    filtercompass3[item] = (int) filtercompass3[item] + 1;

                    if ((int) filtercompass3[item] > 3)
                        return false;
                }
                else
                {
                    filtercompass3[item] = 1;
                }

                // values - offsets are 0
                float rawmx = packet.xmag;
                float rawmy = packet.ymag;
                float rawmz = packet.zmag;

                // add data
                lock (_locker)
                {
                    if (rawmx == 0 || rawmy == 0 || rawmz == 0)
                        return true;

                    datacompass3.Add(new Tuple<float, float, float>(rawmx, rawmy, rawmz));
                }

                return true;
            }
            else if (rawpacket.msgid == (byte) MAVLink.MAVLINK_MSG_ID.RAW_IMU)
            {
                MAVLink.mavlink_raw_imu_t packet = rawpacket.ToStructure<MAVLink.mavlink_raw_imu_t>();

                if (packet.xmag == 0 && packet.ymag == 0)
                    return false;

                // filter dataset
                string item = (int) (packet.xmag/div) + "," +
                              (int) (packet.ymag/div) + "," +
                              (int) (packet.zmag/div);

                if (filtercompass1.ContainsKey(item))
                {
                    filtercompass1[item] = (int) filtercompass1[item] + 1;

                    if ((int) filtercompass1[item] > 3)
                        return false;
                }
                else
                {
                    filtercompass1[item] = 1;
                }

                // values
                float rawmx = packet.xmag - (float) MainV2.comPort.MAV.cs.mag_ofs_x;
                float rawmy = packet.ymag - (float) MainV2.comPort.MAV.cs.mag_ofs_y;
                float rawmz = packet.zmag - (float) MainV2.comPort.MAV.cs.mag_ofs_z;

                // add data
                lock (_locker)
                {
                    datacompass1.Add(new Tuple<float, float, float>(rawmx, rawmy, rawmz));
                }

                return true;
            }

            return true;
        }

        public static void test()
        {
            getOffsets(@"C:\Users\michael\Downloads\2017-12-03 19-26-47.tlog");

            CompassCalibrator com = new CompassCalibrator();

            com.start(true, 0, 999);
            bool test = false;

            using (MAVLinkInterface mine = new MAVLinkInterface())
            {
                try
                {
                    mine.logplaybackfile =
                        new BinaryReader(File.Open(@"C:\Users\michael\Downloads\2017-12-03 19-26-47.tlog", FileMode.Open, FileAccess.Read, FileShare.Read));
                }
                catch (Exception ex)
                {
                    log.Debug(ex.ToString());
                    CustomMessageBox.Show("Log Can not be opened. Are you still connected?");
                    return;
                }

                mine.logreadmode = true;

                var sub = mine.SubscribeToPacketType(MAVLink.MAVLINK_MSG_ID.RAW_IMU, message =>
                {
                    var imu = message.ToStructure<MAVLink.mavlink_raw_imu_t>();
                    com.new_sample(new Vector3f(imu.xmag, imu.ymag, imu.zmag));
                    return true;
                });

                Vector3f offsets = null;
                Vector3f diagonals = null;
                Vector3f offdiagonals = null;

                // gather data
                while (mine.logplaybackfile.BaseStream.Position < mine.logplaybackfile.BaseStream.Length)
                {
                    MAVLink.MAVLinkMessage packetraw = mine.readPacket();

                    com.update(ref test);

                    com.get_calibration(ref offsets, ref diagonals, ref offdiagonals);

                    if (com.get_completion_percent() == 100)
                    {
                        Console.WriteLine("{0} {1} {2} {3}", com.get_completion_percent(), offsets.ToString(),
                            diagonals.ToString(), offdiagonals.ToString());
                        break;
                    }
                }
            }
        }

        static void prd_DoWork(object sender, ProgressWorkerEventArgs e, object passdata = null)
        {
            var prsphere = sender as ProgressReporterSphere;

            // turn learning off
            MainV2.comPort.setParam("COMPASS_LEARN", 0);

            bool havecompass2 = false;
            bool havecompass3 = false;

            if (MainV2.comPort.MAV.param.ContainsKey("COMPASS_OFS_X"))
            {
                MainV2.comPort.setParam("COMPASS_OFS_X", 0, true);
                MainV2.comPort.setParam("COMPASS_OFS_Y", 0, true);
                MainV2.comPort.setParam("COMPASS_OFS_Z", 0, true);

                MainV2.comPort.setParam("COMPASS_DIA_X", 1, true);
                MainV2.comPort.setParam("COMPASS_DIA_Y", 1, true);
                MainV2.comPort.setParam("COMPASS_DIA_Z", 1, true);

                MainV2.comPort.setParam("COMPASS_ODI_X", 0, true);
                MainV2.comPort.setParam("COMPASS_ODI_Y", 0, true);
                MainV2.comPort.setParam("COMPASS_ODI_Z", 0, true);
            }

            //compass2 get mag2 offsets
            if (MainV2.comPort.MAV.param.ContainsKey("COMPASS_OFS2_X"))
            {
                MainV2.comPort.setParam("COMPASS_OFS2_X", 0, true);
                MainV2.comPort.setParam("COMPASS_OFS2_Y", 0, true);
                MainV2.comPort.setParam("COMPASS_OFS2_Z", 0, true);

                MainV2.comPort.setParam("COMPASS_DIA2_X", 1, true);
                MainV2.comPort.setParam("COMPASS_DIA2_Y", 1, true);
                MainV2.comPort.setParam("COMPASS_DIA2_Z", 1, true);

                MainV2.comPort.setParam("COMPASS_ODI2_X", 0, true);
                MainV2.comPort.setParam("COMPASS_ODI2_Y", 0, true);
                MainV2.comPort.setParam("COMPASS_ODI2_Z", 0, true);

                havecompass2 = true;
            }

            //compass3
            if (MainV2.comPort.MAV.param.ContainsKey("COMPASS_OFS3_X"))
            {
                MainV2.comPort.setParam("COMPASS_OFS3_X", 0, true);
                MainV2.comPort.setParam("COMPASS_OFS3_Y", 0, true);
                MainV2.comPort.setParam("COMPASS_OFS3_Z", 0, true);

                MainV2.comPort.setParam("COMPASS_DIA3_X", 1, true);
                MainV2.comPort.setParam("COMPASS_DIA3_Y", 1, true);
                MainV2.comPort.setParam("COMPASS_DIA3_Z", 1, true);

                MainV2.comPort.setParam("COMPASS_ODI3_X", 0, true);
                MainV2.comPort.setParam("COMPASS_ODI3_Y", 0, true);
                MainV2.comPort.setParam("COMPASS_ODI3_Z", 0, true);

                havecompass3 = true;
            }

            int hittarget = 14; // int.Parse(File.ReadAllText("magtarget.txt"));

            // old method
            float minx = 0;
            float maxx = 0;
            float miny = 0;
            float maxy = 0;
            float minz = 0;
            float maxz = 0;

            // backup current rate and set
            byte backupratesens = MainV2.comPort.MAV.cs.ratesensors;

            byte backuprateatt = MainV2.comPort.MAV.cs.rateattitude;
            byte backupratepos = MainV2.comPort.MAV.cs.rateposition;

            MainV2.comPort.MAV.cs.ratesensors = 2;
            MainV2.comPort.MAV.cs.rateattitude = 0;
            MainV2.comPort.MAV.cs.rateposition = 0;

            MainV2.comPort.requestDatastream(MAVLink.MAV_DATA_STREAM.ALL, 0);
            MainV2.comPort.requestDatastream(MAVLink.MAV_DATA_STREAM.RAW_SENSORS, 50);

            // subscribe to data packets
            var sub = MainV2.comPort.SubscribeToPacketType(MAVLink.MAVLINK_MSG_ID.RAW_IMU, ReceviedPacket);

            var sub2 = MainV2.comPort.SubscribeToPacketType(MAVLink.MAVLINK_MSG_ID.SCALED_IMU2, ReceviedPacket);

            var sub3 = MainV2.comPort.SubscribeToPacketType(MAVLink.MAVLINK_MSG_ID.SCALED_IMU3, ReceviedPacket);

            string extramsg = "";

            // clear any old data
            prsphere.sphere1.Clear();
            prsphere.sphere2.Clear();
            prsphere.sphere3.Clear();

            // keep track of data count and last lsq run
            int lastcount = 0;
            DateTime lastlsq = DateTime.MinValue;
            DateTime lastlsq2 = DateTime.MinValue;
            DateTime lastlsq3 = DateTime.MinValue;

            Vector3 centre = new Vector3();

            while (true)
            {
                // slow down execution
                System.Threading.Thread.Sleep(10);

                string str = "Got + " + datacompass1.Count + " samples\n" +
                             "Compass 1 error: " + error;
                if (havecompass2)
                    str += "\nCompass 2 error: " + error2;
                if (havecompass3)
                    str += "\nCompass 3 error: " + error3;
                str += "\n" + extramsg;

                prsphere.UpdateProgressAndStatus(-1, str);

                if (e.CancelRequested)
                {
                    e.CancelAcknowledged = false;
                    e.CancelRequested = false;
                    break;
                }

                if (datacompass1.Count == 0)
                    continue;

                float rawmx = datacompass1[datacompass1.Count - 1].Item1;
                float rawmy = datacompass1[datacompass1.Count - 1].Item2;
                float rawmz = datacompass1[datacompass1.Count - 1].Item3;

                // for old method
                setMinorMax(rawmx, ref minx, ref maxx);
                setMinorMax(rawmy, ref miny, ref maxy);
                setMinorMax(rawmz, ref minz, ref maxz);

                // get the current estimated centerpoint
                //new HIL.Vector3((float)-((maxx + minx) / 2), (float)-((maxy + miny) / 2), (float)-((maxz + minz) / 2));

                //Console.WriteLine("1 " + DateTime.Now.Millisecond);

                // run lsq every second when more than 100 datapoints
                if (datacompass1.Count > 100 && lastlsq.Second != DateTime.Now.Second)
                {
                    MainV2.comPort.requestDatastream(MAVLink.MAV_DATA_STREAM.RAW_SENSORS, 50);

                    lastlsq = DateTime.Now;
                    lock (_locker)
                    {
                        var lsq = MagCalib.LeastSq(datacompass1, false);
                        // simple validation
                        if (Math.Abs(lsq[0]) < 999)
                        {
                            centre = new Vector3(lsq[0], lsq[1], lsq[2]);
                            log.Info("new centre " + centre.ToString());

                            prsphere.sphere1.CenterPoint = new OpenTK.Vector3(
                                (float) centre.x, (float) centre.y, (float) centre.z);
                        }
                    }
                }

                // run lsq every second when more than 100 datapoints
                if (datacompass2.Count > 100 && lastlsq2.Second != DateTime.Now.Second)
                {
                    lastlsq2 = DateTime.Now;
                    lock (_locker)
                    {
                        var lsq = MagCalib.LeastSq(datacompass2, false);
                        // simple validation
                        if (Math.Abs(lsq[0]) < 999)
                        {
                            Vector3 centre2 = new Vector3(lsq[0], lsq[1], lsq[2]);
                            log.Info("new centre2 " + centre2.ToString());

                            prsphere.sphere2.CenterPoint = new OpenTK.Vector3(
                                (float) centre2.x, (float) centre2.y, (float) centre2.z);
                        }
                    }
                }

                // run lsq every second when more than 100 datapoints
                if (datacompass3.Count > 100 && lastlsq3.Second != DateTime.Now.Second)
                {
                    lastlsq3 = DateTime.Now;
                    lock (_locker)
                    {
                        var lsq = MagCalib.LeastSq(datacompass3, false);
                        // simple validation
                        if (Math.Abs(lsq[0]) < 999)
                        {
                            Vector3 centre3 = new Vector3(lsq[0], lsq[1], lsq[2]);
                            log.Info("new centre2 " + centre3.ToString());

                            prsphere.sphere3.CenterPoint = new OpenTK.Vector3(
                                (float) centre3.x, (float) centre3.y, (float) centre3.z);
                        }
                    }
                }

                //Console.WriteLine("1a " + DateTime.Now.Millisecond);

                // dont use dup data
                if (lastcount == datacompass1.Count)
                    continue;

                lastcount = datacompass1.Count;

                // add to sphere with center correction
                prsphere.sphere1.AddPoint(new OpenTK.Vector3(rawmx, rawmy, rawmz));
                prsphere.sphere1.AimClear();

                if (datacompass2.Count > 30)
                {
                    float raw2mx = datacompass2[datacompass2.Count - 1].Item1;
                    float raw2my = datacompass2[datacompass2.Count - 1].Item2;
                    float raw2mz = datacompass2[datacompass2.Count - 1].Item3;

                    prsphere.sphere2.AddPoint(new OpenTK.Vector3(raw2mx, raw2my, raw2mz));
                    prsphere.sphere2.AimClear();
                }

                if (datacompass3.Count > 30)
                {
                    float raw3mx = datacompass3[datacompass3.Count - 1].Item1;
                    float raw3my = datacompass3[datacompass3.Count - 1].Item2;
                    float raw3mz = datacompass3[datacompass3.Count - 1].Item3;

                    prsphere.sphere3.AddPoint(new OpenTK.Vector3(raw3mx, raw3my, raw3mz));
                    prsphere.sphere3.AimClear();
                }

                //Console.WriteLine("2 " + DateTime.Now.Millisecond);

                Vector3 point;

                point = new Vector3(rawmx, rawmy, rawmz) + centre;

                //find the mean radius                    
                float radius = 0;
                for (int i = 0; i < datacompass1.Count; i++)
                {
                    point = new Vector3(datacompass1[i].Item1, datacompass1[i].Item2, datacompass1[i].Item3);
                    radius += (float) (point + centre).length();
                }
                radius /= datacompass1.Count;

                //test that we can find one point near a set of points all around the sphere surface
                int pointshit = 0;
                string displayresult = "";
                int factor = 3; // pitch
                int factor2 = 4; // yaw
                float max_distance = radius/3; //pretty generouse
                for (int j = 0; j <= factor; j++)
                {
                    double theta = (Math.PI*(j + 0.5))/factor;

                    for (int i = 0; i <= factor2; i++)
                    {
                        double phi = (2*Math.PI*i)/factor2;

                        Vector3 point_sphere = new Vector3(
                            (float) (Math.Sin(theta)*Math.Cos(phi)*radius),
                            (float) (Math.Sin(theta)*Math.Sin(phi)*radius),
                            (float) (Math.Cos(theta)*radius)) - centre;

                        //log.InfoFormat("magcalib check - {0} {1} dist {2}", theta * MathHelper.rad2deg, phi * MathHelper.rad2deg, max_distance);

                        bool found = false;
                        for (int k = 0; k < datacompass1.Count; k++)
                        {
                            point = new Vector3(datacompass1[k].Item1, datacompass1[k].Item2, datacompass1[k].Item3);
                            double d = (point_sphere - point).length();
                            if (d < max_distance)
                            {
                                pointshit++;
                                found = true;
                                break;
                            }
                        }
                        // draw them all
                        //((ProgressReporterSphere)sender).sphere1.AimFor(new OpenTK.Vector3((float)point_sphere.x, (float)point_sphere.y, (float)point_sphere.z));
                        if (!found)
                        {
                            displayresult = "more data needed Aim For " +
                                            GetColour((int) (theta*MathHelper.rad2deg), (int) (phi*MathHelper.rad2deg));
                            prsphere.sphere1.AimFor(new OpenTK.Vector3((float) point_sphere.x,
                                (float) point_sphere.y, (float) point_sphere.z));
                            //j = factor;
                            //break;
                        }
                    }
                }
                extramsg = displayresult;

                //Console.WriteLine("3 "+ DateTime.Now.Millisecond);

                // check primary compass error
                if (error < 0.2 && pointshit > hittarget && prsphere.autoaccept)
                {
                    extramsg = "";
                    break;
                }
            }

            MainV2.comPort.UnSubscribeToPacketType(sub);
            MainV2.comPort.UnSubscribeToPacketType(sub2);
            MainV2.comPort.UnSubscribeToPacketType(sub3);

            // restore old sensor rate
            MainV2.comPort.MAV.cs.ratesensors = backupratesens;
            MainV2.comPort.MAV.cs.rateattitude = backuprateatt;
            MainV2.comPort.MAV.cs.rateposition = backupratepos;
            MainV2.comPort.requestDatastream(MAVLink.MAV_DATA_STREAM.RAW_SENSORS, MainV2.comPort.MAV.cs.ratesensors);

            MainV2.comPort.requestDatastream(MAVLink.MAV_DATA_STREAM.POSITION, MainV2.comPort.MAV.cs.rateposition);
                // request gps
            MainV2.comPort.requestDatastream(MAVLink.MAV_DATA_STREAM.EXTRA1, MainV2.comPort.MAV.cs.rateattitude);
                // request attitude
            MainV2.comPort.requestDatastream(MAVLink.MAV_DATA_STREAM.EXTRA2, MainV2.comPort.MAV.cs.rateattitude);
                // request vfr
            MainV2.comPort.requestDatastream(MAVLink.MAV_DATA_STREAM.EXTRA3, MainV2.comPort.MAV.cs.ratesensors);
                // request extra stuff - tridge
            MainV2.comPort.requestDatastream(MAVLink.MAV_DATA_STREAM.RAW_SENSORS, MainV2.comPort.MAV.cs.ratesensors);
                // request raw sensor
            MainV2.comPort.requestDatastream(MAVLink.MAV_DATA_STREAM.RC_CHANNELS, MainV2.comPort.MAV.cs.raterc);
                // request rc info

            if (MainV2.speechEnable)
            {
                MainV2.speechEngine.SpeakAsync("Compass Calibration Complete");
            }
            else
            {
                Console.Beep();
            }

            if (minx > 0 && maxx > 0 || minx < 0 && maxx < 0 || miny > 0 && maxy > 0 || miny < 0 && maxy < 0 ||
                minz > 0 && maxz > 0 || minz < 0 && maxz < 0)
            {
                e.ErrorMessage = "Bad compass raw values. Check for magnetic interferance.";
                ans = null;
                ans2 = null;
                return;
            }

            if (extramsg != "")
            {
                if (CustomMessageBox.Show(Strings.MissingDataPoints, Strings.RunAnyway, MessageBoxButtons.YesNo) ==
                    DialogResult.No)
                {
                    e.CancelAcknowledged = true;
                    e.CancelRequested = true;
                    ans = null;
                    ans2 = null;
                    ans3 = null;
                    return;
                }
            }

            // remove outlyers
            RemoveOutliers(ref datacompass1);
            if (havecompass2 && datacompass2.Count > 0)
            {
                RemoveOutliers(ref datacompass2);
            }
            if (havecompass3 && datacompass3.Count > 0)
            {
                RemoveOutliers(ref datacompass3);
            }

            if (datacompass1.Count < 10)
            {
                e.ErrorMessage = "Log does not contain enough data";
                ans = null;
                ans2 = null;
                return;
            }

            bool ellipsoid = false;

            if (MainV2.comPort.MAV.param.ContainsKey("COMPASS_DIA_X"))
            {
                ellipsoid = true;
            }

            log.Info("Compass 1");
            ans = MagCalib.LeastSq(datacompass1, ellipsoid);

            if (havecompass2 && datacompass2.Count > 0)
            {
                log.Info("Compass 2");
                ans2 = MagCalib.LeastSq(datacompass2, ellipsoid);
            }

            if (havecompass3 && datacompass3.Count > 0)
            {
                log.Info("Compass 3");
                ans3 = MagCalib.LeastSq(datacompass3, ellipsoid);
            }
        }

        static void RemoveOutliers(ref List<Tuple<float, float, float>> data)
        {
            // remove outlyers
            data.Sort(
                delegate(Tuple<float, float, float> d1, Tuple<float, float, float> d2)
                {
                    // get distance from 0,0,0
                    double ans1 = Math.Sqrt(d1.Item1*d1.Item1 + d1.Item2*d1.Item2 + d1.Item3*d1.Item3);
                    double ans2 = Math.Sqrt(d2.Item1*d2.Item1 + d2.Item2*d2.Item2 + d2.Item3*d2.Item3);
                    if (ans1 > ans2)
                        return 1;
                    if (ans1 < ans2)
                        return -1;
                    return 0;
                }
                );

            data.RemoveRange(data.Count - (data.Count/16), data.Count/16);
        }

        public static double[] getOffsetsLog(string fn)
        {
            // this is for a dxf
            PolylineVertex vertex;
            List<PolylineVertex> vertexes = new List<PolylineVertex>();

            List<Tuple<float, float, float>> data = new List<Tuple<float, float, float>>();

            List<Tuple<float, float, float>> data2 = new List<Tuple<float, float, float>>();

            List<Tuple<float, float, float>> data3 = new List<Tuple<float, float, float>>();

            double[] ofsDoubles = new double[3];
            double[] ofsDoubles2 = new double[3];
            double[] ofsDoubles3 = new double[3];

            CollectionBuffer logdata = new CollectionBuffer(File.OpenRead(fn));

            var dflog = logdata.dflog;
            
            foreach (var line in logdata.GetEnumeratorType(new[]{"MAG","MAG2","MAG3"}))
            {
                if (line.msgtype == "MAG" || line.msgtype == "MAG2" || line.msgtype == "MAG3")
                {
                    int indexmagx = dflog.FindMessageOffset(line.msgtype, "MagX");
                    int indexmagy = dflog.FindMessageOffset(line.msgtype, "MagY");
                    int indexmagz = dflog.FindMessageOffset(line.msgtype, "MagZ");

                    int indexoffsetx = dflog.FindMessageOffset(line.msgtype, "OfsX");
                    int indexoffsety = dflog.FindMessageOffset(line.msgtype, "OfsY");
                    int indexoffsetz = dflog.FindMessageOffset(line.msgtype, "OfsZ");

                    if (indexmagx != -1 && indexoffsetx != -1)
                    {
                        float magx = float.Parse(line.items[indexmagx]);
                        float magy = float.Parse(line.items[indexmagy]);
                        float magz = float.Parse(line.items[indexmagz]);

                        float offsetx = float.Parse(line.items[indexoffsetx]);
                        float offsety = float.Parse(line.items[indexoffsety]);
                        float offsetz = float.Parse(line.items[indexoffsetz]);

                        //offsetx = offsety = offsetz = 0;

                        if (line.msgtype == "MAG")
                        {
                            data.Add(new Tuple<float, float, float>(
                                magx - offsetx,
                                magy - offsety,
                                magz - offsetz));

                            ofsDoubles[0] = offsetx;
                            ofsDoubles[1] = offsety;
                            ofsDoubles[2] = offsetz;

                            // fox dxf
                            vertex = new PolylineVertex(new netDxf.Vector3(magx - offsetx,
                                magy - offsety,
                                magz - offsetz)
                                );
                            vertexes.Add(vertex);
                        }
                        else if (line.msgtype == "MAG2")
                        {
                            data2.Add(new Tuple<float, float, float>(
                                magx - offsetx,
                                magy - offsety,
                                magz - offsetz));

                            ofsDoubles2[0] = offsetx;
                            ofsDoubles2[1] = offsety;
                            ofsDoubles2[2] = offsetz;
                        }
                        else if (line.msgtype == "MAG3")
                        {
                            data3.Add(new Tuple<float, float, float>(
                                magx - offsetx,
                                magy - offsety,
                                magz - offsetz));

                            ofsDoubles3[0] = offsetx;
                            ofsDoubles3[1] = offsety;
                            ofsDoubles3[2] = offsetz;
                        }
                    }
                }
            }

            double[] x = LeastSq(data, false);

            log.InfoFormat("magcal 1 ofs {0},{1},{2} strength {3} old ofs {4},{5},{6}", x[0], x[1], x[2], x[3], ofsDoubles[0], ofsDoubles[1], ofsDoubles[2]);
            
            x = LeastSq(data,true);

            log.InfoFormat("magcalel 1 ofs {0},{1},{2} strength {3} old ofs {4},{5},{6}", x[0], x[1], x[2], x[3], ofsDoubles[0], ofsDoubles[1], ofsDoubles[2]);

            if (data2.Count > 0)
            {
                double[] x2 = LeastSq(data2, false);
                log.InfoFormat("magcal 2 ofs {0},{1},{2} strength {3} old ofs {4},{5},{6}", x2[0], x2[1], x2[2], x2[3], ofsDoubles2[0], ofsDoubles2[1], ofsDoubles2[2]);
                x2 = LeastSq(data2, true);
                log.InfoFormat("magcalel 2 ofs {0},{1},{2} strength {3} old ofs {4},{5},{6}", x2[0], x2[1], x2[2], x2[3], ofsDoubles2[0], ofsDoubles2[1], ofsDoubles2[2]);
            }

            if (data3.Count > 0)
            {
                double[] x3 = LeastSq(data3, false);
                log.InfoFormat("magcal 3 ofs {0},{1},{2} strength {3} old ofs {4},{5},{6}", x3[0], x3[1], x3[2], x3[3], ofsDoubles3[0], ofsDoubles3[1], ofsDoubles3[2]);
                x3 = LeastSq(data3, true);
                log.InfoFormat("magcalel 3 ofs {0},{1},{2} strength {3} old ofs {4},{5},{6}", x3[0], x3[1], x3[2], x3[3], ofsDoubles3[0], ofsDoubles3[1], ofsDoubles3[2]);
            }


            log.Info("Least Sq Done " + DateTime.Now);

            doDXF(vertexes, x);

            Array.Resize<double>(ref x, 3);

            return x;
        }

        /// <summary>
        /// Processes a tlog to get the offsets - creates dxf of data
        /// </summary>
        /// <param name="fn">Filename</param>
        /// <returns>Offsets</returns>
        public static double[] getOffsets(string fn, int throttleThreshold = 0)
        {
            // based off tridge's work
            string logfile = fn;

            // old method
            float minx = 0;
            float maxx = 0;
            float miny = 0;
            float maxy = 0;
            float minz = 0;
            float maxz = 0;

            // this is for a dxf
            PolylineVertex vertex;
            List<PolylineVertex> vertexes = new List<PolylineVertex>();

            // data storage
            Tuple<float, float, float> offset = new Tuple<float, float, float>(0, 0, 0);
            List<Tuple<float, float, float>> data = new List<Tuple<float, float, float>>();

            Hashtable filter = new Hashtable();

            // track data to use
            bool useData = false;

            if (throttleThreshold <= 0)
                useData = true;

            log.Info("Start log: " + DateTime.Now);

            using (MAVLinkInterface mine = new MAVLinkInterface())
            {
                try
                {
                    mine.logplaybackfile =
                        new BinaryReader(File.Open(logfile, FileMode.Open, FileAccess.Read, FileShare.Read));
                }
                catch (Exception ex)
                {
                    log.Debug(ex.ToString());
                    CustomMessageBox.Show("Log Can not be opened. Are you still connected?");
                    return new double[] {0};
                }

                mine.logreadmode = true;

                // gather data
                while (mine.logplaybackfile.BaseStream.Position < mine.logplaybackfile.BaseStream.Length)
                {
                    MAVLink.MAVLinkMessage packetraw = mine.readPacket();

                    var packet = mine.DebugPacket(packetraw, false);

                    // this is for packets we dont know about
                    if (packet == null)
                        continue;

                    if (packet.GetType() == typeof (MAVLink.mavlink_vfr_hud_t))
                    {
                        if (((MAVLink.mavlink_vfr_hud_t) packet).throttle >= throttleThreshold)
                        {
                            useData = true;
                        }
                        else
                        {
                            useData = false;
                        }
                    }

                    if (packet.GetType() == typeof (MAVLink.mavlink_sensor_offsets_t))
                    {
                        offset = new Tuple<float, float, float>(
                            ((MAVLink.mavlink_sensor_offsets_t) packet).mag_ofs_x,
                            ((MAVLink.mavlink_sensor_offsets_t) packet).mag_ofs_y,
                            ((MAVLink.mavlink_sensor_offsets_t) packet).mag_ofs_z);
                    }
                    else if (packet.GetType() == typeof (MAVLink.mavlink_raw_imu_t) && useData)
                    {
                        int div = 20;

                        // fox dxf
                        vertex = new PolylineVertex(new netDxf.Vector3(
                            ((MAVLink.mavlink_raw_imu_t) packet).xmag - offset.Item1,
                            ((MAVLink.mavlink_raw_imu_t) packet).ymag - offset.Item2,
                            ((MAVLink.mavlink_raw_imu_t) packet).zmag - offset.Item3)
                            );
                        vertexes.Add(vertex);


                        // for old method
                        setMinorMax(((MAVLink.mavlink_raw_imu_t) packet).xmag - offset.Item1, ref minx, ref maxx);
                        setMinorMax(((MAVLink.mavlink_raw_imu_t) packet).ymag - offset.Item2, ref miny, ref maxy);
                        setMinorMax(((MAVLink.mavlink_raw_imu_t) packet).zmag - offset.Item3, ref minz, ref maxz);

                        // for new lease sq
                        string item = (int) (((MAVLink.mavlink_raw_imu_t) packet).xmag/div) + "," +
                                      (int) (((MAVLink.mavlink_raw_imu_t) packet).ymag/div) + "," +
                                      (int) (((MAVLink.mavlink_raw_imu_t) packet).zmag/div);

                        if (filter.ContainsKey(item))
                        {
                            filter[item] = (int) filter[item] + 1;

                            if ((int) filter[item] > 3)
                                continue;
                        }
                        else
                        {
                            filter[item] = 1;
                        }


                        data.Add(new Tuple<float, float, float>(
                            ((MAVLink.mavlink_raw_imu_t) packet).xmag - offset.Item1,
                            ((MAVLink.mavlink_raw_imu_t) packet).ymag - offset.Item2,
                            ((MAVLink.mavlink_raw_imu_t) packet).zmag - offset.Item3));
                    }
                }

                log.Info("Log Processed " + DateTime.Now);

                Console.WriteLine("Extracted " + data.Count + " data points");
                Console.WriteLine("Current offset: " + offset);

                mine.logreadmode = false;
                mine.logplaybackfile.Close();
                mine.logplaybackfile = null;
            }

            if (data.Count < 10)
            {
                CustomMessageBox.Show("Log does not contain enough data");
                throw new Exception("Not Enough Data");
            }

            data.Sort(
                delegate(Tuple<float, float, float> d1, Tuple<float, float, float> d2)
                {
                    // get distance from 0,0,0
                    double ans1 = Math.Sqrt(d1.Item1*d1.Item1 + d1.Item2*d1.Item2 + d1.Item3*d1.Item3);
                    double ans2 = Math.Sqrt(d2.Item1*d2.Item1 + d2.Item2*d2.Item2 + d2.Item3*d2.Item3);
                    if (ans1 > ans2)
                        return 1;
                    if (ans1 < ans2)
                        return -1;
                    return 0;
                }
                );

            data.RemoveRange(data.Count - (data.Count/16), data.Count/16);

            System.Console.WriteLine("Old Method {0} {1} {2}", -(maxx + minx)/2, -(maxy + miny)/2, -(maxz + minz)/2);

            double[] x = LeastSq(data);

            log.InfoFormat("magcal 1 ofs {0},{1},{2} strength {3} ", x[0], x[1], x[2], x[3]);

            x = LeastSq(data, true);

            log.InfoFormat("magcalel 1 ofs {0},{1},{2} di {3},{4},{5} di {6} {7} {8} rad {9}", x[0], x[1], x[2], x[3], x[4], x[5], x[6], x[7], x[8],rad);

            x = doLSQ(data, sphere_ellipsoid_error, new double[] {x[0], x[1], x[2], 1, 1, 1, 0, 0, 0});

            log.InfoFormat("magcalel 2 ofs {0},{1},{2} di {3},{4},{5} di {6} {7} {8} rad {9}", x[0], x[1], x[2], x[3], x[4], x[5], x[6], x[7], x[8], rad);

            log.Info("Least Sq Done " + DateTime.Now);

            doDXF(vertexes, x);

            Array.Resize<double>(ref x, 3);

            return x;
        }

        static void doDXF(List<PolylineVertex> vertexes, double[] x)
        {
            // create a dxf for those who want to "see" the calibration
            netDxf.DxfDocument dxf = new netDxf.DxfDocument();

            Polyline polyline = new Polyline(vertexes, true);
            polyline.Layer = new Layer("polyline");
            polyline.Layer.Color.Index = 24;
            dxf.AddEntity(polyline);

            var pnt = new Point(new netDxf.Vector3(-(float) x[0], -(float) x[1], -(float) x[2]));
            pnt.Layer = new Layer("new offset");
            pnt.Layer.Color.Index = 21;
            dxf.AddEntity(pnt);

            dxf.Save(Settings.GetUserDataDirectory() + "magoffset.dxf");

            log.Info("dxf Done " + DateTime.Now);
        }

        static double avg_samples = 0;

        static double calcRadius(List<Tuple<float, float, float>> data)
        {
            var avg_samples = 0.0;
            foreach (var item in data)
            {
                avg_samples += Math.Sqrt(Math.Pow(item.Item1, 2) + Math.Pow(item.Item2, 2) + Math.Pow(item.Item3, 2));
            }

            avg_samples /= data.Count;

            return avg_samples;
        }

        /// <summary>
        /// Does the least sq adjustment to find the center of the sphere
        /// </summary>
        /// <param name="data">list of x,y,z data</param>
        /// <returns>offsets</returns>
        public static double[] LeastSq(List<Tuple<float, float, float>> data, bool ellipsoid = false)
        {
            avg_samples = calcRadius(data);

            log.Info("lsq avg " + avg_samples + " count " + data.Count);

            double[] x;

            //
            x = new double[] {0, 0, 0, avg_samples};

            x = doLSQ(data, sphere_error, x);

            rad = avg_samples;//x[3];

            Array.Resize(ref x, 4);

            log.Info("lsq rad " + rad);

            if (ellipsoid)
            {
                // offsets + diagonals
                x = new double[] {x[0], x[1], x[2], 1, 1, 1};

                x = doLSQ(data, sphere_ellipsoid_error, x);

                // offsets + diagonals + offdiagonals
                x = new double[] {x[0], x[1], x[2], x[3], x[4], x[5], 0, 0, 0};

                x = doLSQ(data, sphere_ellipsoid_error, x);
            }

            return x;
        }

        static double[] doLSQ(List<Tuple<float, float, float>> data, Action<double[], double[], object> fitalgo,
            double[] x)
        {
            double epsg = 0.0001;
            double epsf = 0;
            double epsx = 0;
            int maxits = 100;

            alglib.minlmstate state;
            alglib.minlmreport rep;

            alglib.minlmcreatev(data.Count, x, 0.1, out state);
            alglib.minlmsetcond(state, epsg, epsf, epsx, maxits);

            var t1 = new alglib.ndimensional_fvec(fitalgo);

            alglib.minlmoptimize(state, t1, null, data);

            alglib.minlmresults(state, out x, out rep);

            log.InfoFormat("passes {0}", rep.iterationscount);
            log.InfoFormat("term type {0}", rep.terminationtype);
            log.InfoFormat("njac {0}", rep.njac);
            log.InfoFormat("ncholesky {0}", rep.ncholesky);
            log.InfoFormat("nfunc{0}", rep.nfunc);
            log.InfoFormat("ngrad {0}", rep.ngrad);
            log.InfoFormat("ans {0}", alglib.ap.format(x, 4));

            if (data == datacompass1)
            {
                error = 0;

                foreach (var item in state.fi)
                {
                    error += item;
                }

                error = Math.Round(Math.Sqrt(Math.Abs(error)), 2);
            }


            if (data == datacompass2)
            {
                error2 = 0;

                foreach (var item in state.fi)
                {
                    error2 += item;
                }

                error2 = Math.Round(Math.Sqrt(Math.Abs(error2)), 2);
            }

            if (data == datacompass3)
            {
                error3 = 0;

                foreach (var item in state.fi)
                {
                    error3 += item;
                }

                error3 = Math.Round(Math.Sqrt(Math.Abs(error3)), 2);
            }

            return x;
        }

        /// <summary>
        /// saves the offests to eeprom, os displays if cant
        /// </summary>
        /// <param name="ofs">offsets</param>
        public static void SaveOffsets(double[] ofs)
        {
            if (MainV2.comPort.MAV.param.ContainsKey("COMPASS_OFS_X") && MainV2.comPort.BaseStream.IsOpen)
            {
                try
                {
                    // disable learning
                    MainV2.comPort.setParam("COMPASS_LEARN", 0);

                    if (
                        !MainV2.comPort.SetSensorOffsets(MAVLinkInterface.sensoroffsetsenum.magnetometer, (float) ofs[0],
                            (float) ofs[1], (float) ofs[2]))
                    {
                        // set values
                        MainV2.comPort.setParam("COMPASS_OFS_X", (float) ofs[0]);
                        MainV2.comPort.setParam("COMPASS_OFS_Y", (float) ofs[1]);
                        MainV2.comPort.setParam("COMPASS_OFS_Z", (float) ofs[2]);
                    }
                    else
                    {
                        // Need to reload these params into the param list if SetSensorOffsets() was used
                        MainV2.comPort.GetParam("COMPASS_OFS_X");
                        MainV2.comPort.GetParam("COMPASS_OFS_Y");
                        MainV2.comPort.GetParam("COMPASS_OFS_Z");
                    }

                    if (ofs.Length > 5 && MainV2.comPort.MAV.param.ContainsKey("COMPASS_DIA_X"))
                    {
                        // ellipsoid
                        MainV2.comPort.setParam("COMPASS_DIA_X", (float)ofs[3]);
                        MainV2.comPort.setParam("COMPASS_DIA_Y", (float)ofs[4]);
                        MainV2.comPort.setParam("COMPASS_DIA_Z", (float)ofs[5]);

                        MainV2.comPort.setParam("COMPASS_ODI_X", (float)ofs[6]);
                        MainV2.comPort.setParam("COMPASS_ODI_Y", (float)ofs[7]);
                        MainV2.comPort.setParam("COMPASS_ODI_Z", (float)ofs[8]);
                    }
                }
                catch
                {
                    CustomMessageBox.Show("Setting new offsets for compass #1 failed");
                    return;
                }

                CustomMessageBox.Show(
                    "New offsets for compass #1 are " + ofs[0].ToString("0") + " " + ofs[1].ToString("0") + " " +
                    ofs[2].ToString("0") + "\nThese have been saved for you.", "New Mag Offsets");
            }
            else
            {
                CustomMessageBox.Show(
                    "New offsets for compass #1 are " + ofs[0].ToString("0") + " " + ofs[1].ToString("0") + " " +
                    ofs[2].ToString("0") + "\n\nPlease write these down for manual entry", "New Mag Offsets");
            }
        }

        public static void SaveOffsets2(double[] ofs)
        {
            if (MainV2.comPort.MAV.param.ContainsKey("COMPASS_OFS2_X") && MainV2.comPort.BaseStream.IsOpen)
            {
                try
                {
                    // disable learning
                    MainV2.comPort.setParam("COMPASS_LEARN", 0);

                    if (
                        !MainV2.comPort.SetSensorOffsets(MAVLinkInterface.sensoroffsetsenum.second_magnetometer,
                            (float) ofs[0], (float) ofs[1], (float) ofs[2]))
                    {
                        // set values
                        MainV2.comPort.setParam("COMPASS_OFS2_X", (float) ofs[0]);
                        MainV2.comPort.setParam("COMPASS_OFS2_Y", (float) ofs[1]);
                        MainV2.comPort.setParam("COMPASS_OFS2_Z", (float) ofs[2]);
                    }
                    else
                    {
                        // Need to reload these params into the param list if SetSensorOffsets() was used
                        MainV2.comPort.GetParam("COMPASS_OFS2_X");
                        MainV2.comPort.GetParam("COMPASS_OFS2_Y");
                        MainV2.comPort.GetParam("COMPASS_OFS2_Z");
                    }
                    if (ofs.Length > 5 && MainV2.comPort.MAV.param.ContainsKey("COMPASS_DIA2_X"))
                    {
                        // ellipsoid
                        MainV2.comPort.setParam("COMPASS_DIA2_X", (float)ofs[3]);
                        MainV2.comPort.setParam("COMPASS_DIA2_Y", (float)ofs[4]);
                        MainV2.comPort.setParam("COMPASS_DIA2_Z", (float)ofs[5]);

                        MainV2.comPort.setParam("COMPASS_ODI2_X", (float)ofs[6]);
                        MainV2.comPort.setParam("COMPASS_ODI2_Y", (float)ofs[7]);
                        MainV2.comPort.setParam("COMPASS_ODI2_Z", (float)ofs[8]);
                    }
                }
                catch
                {
                    CustomMessageBox.Show("Setting new offsets for compass #2 failed");
                    return;
                }

                CustomMessageBox.Show(
                    "New offsets for compass #2 are " + ofs[0].ToString("0") + " " + ofs[1].ToString("0") + " " +
                    ofs[2].ToString("0") + "\nThese have been saved for you.", "New Mag Offsets");
            }
            else
            {
                CustomMessageBox.Show(
                    "New offsets for compass #2 are " + ofs[0].ToString("0") + " " + ofs[1].ToString("0") + " " +
                    ofs[2].ToString("0") + "\n\nPlease write these down for manual entry", "New Mag Offsets");
            }
        }

        public static void SaveOffsets3(double[] ofs)
        {
            if (MainV2.comPort.MAV.param.ContainsKey("COMPASS_OFS3_X") && MainV2.comPort.BaseStream.IsOpen)
            {
                try
                {
                    // disable learning
                    MainV2.comPort.setParam("COMPASS_LEARN", 0);
                    {
                        MainV2.comPort.setParam("COMPASS_OFS3_X", (float)ofs[0]);
                        MainV2.comPort.setParam("COMPASS_OFS3_Y", (float)ofs[1]);
                        MainV2.comPort.setParam("COMPASS_OFS3_Z", (float)ofs[2]);
                    }
                    if (ofs.Length > 5 && MainV2.comPort.MAV.param.ContainsKey("COMPASS_DIA3_X"))
                    {
                        // ellipsoid
                        MainV2.comPort.setParam("COMPASS_DIA3_X", (float)ofs[3]);
                        MainV2.comPort.setParam("COMPASS_DIA3_Y", (float)ofs[4]);
                        MainV2.comPort.setParam("COMPASS_DIA3_Z", (float)ofs[5]);

                        MainV2.comPort.setParam("COMPASS_ODI3_X", (float)ofs[6]);
                        MainV2.comPort.setParam("COMPASS_ODI3_Y", (float)ofs[7]);
                        MainV2.comPort.setParam("COMPASS_ODI3_Z", (float)ofs[8]);
                    }
                }
                catch
                {
                    CustomMessageBox.Show("Setting new offsets for compass #3 failed");
                    return;
                }

                CustomMessageBox.Show(
                    "New offsets for compass #3 are " + ofs[0].ToString("0") + " " + ofs[1].ToString("0") + " " +
                    ofs[2].ToString("0") + "\nThese have been saved for you.", "New Mag Offsets");
            }
            else
            {
                CustomMessageBox.Show(
                    "New compass3 offsets are " + ofs[0].ToString("0") + " " + ofs[1].ToString("0") + " " +
                    ofs[2].ToString("0") + "\n\nPlease write these down for manual entry", "New Mag Offsets");
            }
        }

        /// <summary>
        /// Min or max finder
        /// </summary>
        /// <param name="value">value to process</param>
        /// <param name="min">current min</param>
        /// <param name="max">current max</param>
        private static void setMinorMax(float value, ref float min, ref float max)
        {
            if (value > max)
                max = value;
            if (value < min)
                min = value;
        }

        static double rad = 0;

        static void sphere_ellipsoid_error(double[] p1, double[] fi, object obj)
        {
            var data = (List<Tuple<float, float, float>>) obj;
            var offsets = new Vector3(0,0,0);//(p1[0], p1[1], p1[2]);
            var diagonals = new Vector3(1.0, 1.0, 1.0);
            var offdiagonals = new Vector3(0.0, 0.0, 0.0);
            if (p1.Length >= 6)
            {
                diagonals = new Vector3(p1[3], p1[4], p1[5]);
                diagonals = diagonals.normalized() * Math.Sqrt(3);
                p1[3] = diagonals.x;
                p1[4] = diagonals.y;
                p1[5] = diagonals.z;
            }
            if (p1.Length >= 8)
            {
                offdiagonals = new Vector3(p1[6], p1[7], p1[8]);
            }

            int a = 0;
            foreach (var d in data)
            {
                var mag = new Vector3(d.Item1, d.Item2, d.Item3);
                double err = rad - radius(mag, offsets, diagonals, offdiagonals);
                fi[a] = err;
                a++;
            }
        }

        static double radius(Vector3 mag, Vector3 offsets, Vector3 diagonals, Vector3 offdiagonals)
        {
            //'''return radius give data point and offsets'''
            Vector3 mag2 = mag + offsets;
            var rot = new Matrix3(new Vector3(diagonals.x, offdiagonals.x, offdiagonals.y),
                new Vector3(offdiagonals.x, diagonals.y, offdiagonals.z),
                new Vector3(offdiagonals.y, offdiagonals.z, diagonals.z));
            mag2 = rot*mag2;
            return mag2.length();
        }


        static void sphere_error(double[] xi, double[] fi, object obj)
        {
            double xofs = xi[0];
            double yofs = xi[1];
            double zofs = xi[2];
            double r = xi[3];
            int a = 0;
            foreach (var d in (List<Tuple<float, float, float>>) obj)
            {
                double x = d.Item1;
                double y = d.Item2;
                double z = d.Item3;
                double err = r - Math.Sqrt(Math.Pow((x + xofs), 2) + Math.Pow((y + yofs), 2) + Math.Pow((z + zofs), 2));
                fi[a] = err;
                a++;
            }
        }

        static void sphere_scale_error(double[] xi, double[] fi, object obj)
        {
            double xofs = xi[0];
            double yofs = xi[1];
            double zofs = xi[2];
            double xscale = xi[3];
            double yscale = xi[4];
            double zscale = xi[5];
            // double avg_samples = xi[6];

            // scale out of range
            //if (xscale < 0.8 || yscale < 0.8 || zscale < 0.8)
            //  xscale = yscale = zscale = 1;

            int a = 0;
            foreach (var d in (List<Tuple<float, float, float>>) obj)
            {
                double x = d.Item1;
                double y = d.Item2;
                double z = d.Item3;

                double err = avg_samples -
                             Math.Sqrt(Math.Pow((x + xofs)*xscale, 2) + Math.Pow((y + yofs)*yscale, 2) +
                                       Math.Pow((z + zofs)*zscale, 2));
                fi[a] = err;
                a++;
            }
        }
    }
}