コード例 #1
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 public GnomonicAzimuthalProjection(double projectionLatitude, double projectionLongitude)
     : base(projectionLatitude, projectionLongitude)
 {
     MinLatitude = ProjectionMath.ToRadians(0);
     MaxLatitude = ProjectionMath.ToRadians(90);
     Initialize();
 }
コード例 #2
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        public override Coordinate ProjectInverse(double x, double y, Coordinate lp)
        {
            int    i;
            double t, t1;

            lp.X = x / FXC;
            lp.Y = Math.Abs(y / FYC);
            if (lp.Y >= 1.0)
            {
                if (lp.Y > 1.000001)
                {
                    throw new ProjectionException();
                }
                else
                {
                    lp.Y  = y < 0.0 ? -ProjectionMath.PiHalf : ProjectionMath.PiHalf;
                    lp.X /= X[4 * NODES];
                }
            }
            else
            {
                for (i = 4 * (int)Math.Floor(lp.Y * NODES); ;)
                {
                    if (Y[i] > lp.Y)
                    {
                        i -= 4;
                    }
                    else if (Y[i + 4] <= lp.Y)
                    {
                        i += 4;
                    }
                    else
                    {
                        break;
                    }
                }
                t = 5.0 * (lp.Y - Y[i]) / (Y[i + 4] - Y[i]);
                double Tc0 = Y[i];
                double Tc1 = Y[i + 1];
                double Tc2 = Y[i + 2];
                double Tc3 = Y[i + 3];
                t    = 5.0 * (lp.Y - Tc0) / (Y[i + 1] - Tc0);
                Tc0 -= lp.Y;
                for (; ;)
                { // Newton-Raphson
                    t -= t1 = (Tc0 + t * (Tc1 + t * (Tc2 + t * Tc3))) / (Tc1 + t * (Tc2 + Tc2 + t * 3.0 * Tc3));
                    if (Math.Abs(t1) < EPS)
                    {
                        break;
                    }
                }
                lp.Y = ProjectionMath.ToRadians(5 * i + t);
                if (y < 0.0)
                {
                    lp.Y = -lp.Y;
                }
                lp.X /= poly(X, i, t);
            }
            return(lp);
        }
コード例 #3
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ファイル: LlaGridTableLoader.cs プロジェクト: jugstalt/gview5 
        internal override bool ReadHeader(GridTable table)
        {
            using (var sr = new StreamReader(OpenGridTableStream()))
            {
                table.Name = sr.ReadLine();
                var definition = sr.ReadLine();
                if (string.IsNullOrEmpty(definition))
                {
                    return(false);
                }

                var definitionParts = definition.Split(new[] { ' ' }, StringSplitOptions.RemoveEmptyEntries);
                table.NumLambdas = int.Parse(definitionParts[0], NumberStyles.Integer);
                table.NumPhis    = int.Parse(definitionParts[0], NumberStyles.Integer);
                table.LowerLeft  = new PhiLambda
                {
                    Lambda = ProjectionMath.ToRadians(double.Parse(definitionParts[3], CultureInfo.InvariantCulture)),
                    Phi    = ProjectionMath.ToRadians(double.Parse(definitionParts[5], CultureInfo.InvariantCulture))
                };
                table.SizeOfGridCell = new PhiLambda
                {
                    Lambda = ProjectionMath.ToRadians(double.Parse(definitionParts[4], CultureInfo.InvariantCulture)),
                    Phi    = ProjectionMath.ToRadians(double.Parse(definitionParts[6], CultureInfo.InvariantCulture))
                };
                table.UpperRight = table.LowerLeft +
                                   table.SizeOfGridCell.Times(table.NumPhis, table.NumLambdas);

                return(true);
            }
        }
コード例 #4
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 public CassiniProjection()
 {
     ProjectionLatitude  = ProjectionMath.ToRadians(0);
     ProjectionLongitude = ProjectionMath.ToRadians(0);
     MinLongitude        = ProjectionMath.ToRadians(-90);
     MaxLongitude        = ProjectionMath.ToRadians(90);
     Initialize();
 }
コード例 #5
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        //protected double projectionLatitude1 = MapMath.degToRad(45.5);
        //protected double projectionLatitude2 = MapMath.degToRad(29.5);

        public AlbersProjection()
        {
            MinLatitude         = ProjectionMath.ToRadians(0);
            MaxLatitude         = ProjectionMath.ToRadians(80);
            ProjectionLatitude1 = ProjectionMath.ToRadians(45.5);
            ProjectionLatitude2 = ProjectionMath.ToRadians(29.5);
            Initialize();
        }
コード例 #6
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ファイル: PhiLambda.cs プロジェクト: softempire/proj4net 
 public static PhiLambda DegreesToRadians(PhiLambda plInDegrees)
 {
     return(new PhiLambda
     {
         Lambda = ProjectionMath.ToRadians(plInDegrees.Lambda),
         Phi = ProjectionMath.ToRadians(plInDegrees.Phi)
     });
 }
コード例 #7
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 public BipolarProjection()
 {
     MinLatitude         = ProjectionMath.ToRadians(-80);
     MaxLatitude         = ProjectionMath.ToRadians(80);
     ProjectionLongitude = ProjectionMath.ToRadians(-90);
     MinLongitude        = ProjectionMath.ToRadians(-90);
     MaxLongitude        = ProjectionMath.ToRadians(90);
 }
コード例 #8
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 public PolyconicProjection()
 {
     MinLatitude  = ProjectionMath.ToRadians(0);
     MaxLatitude  = ProjectionMath.ToRadians(80);
     MinLongitude = ProjectionMath.ToRadians(-60);
     MaxLongitude = ProjectionMath.ToRadians(60);
     Initialize();
 }
コード例 #9
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 public LambertEqualAreaConicProjection(Boolean south)
 {
     MinLatitude         = ProjectionMath.ToRadians(0);
     MaxLatitude         = ProjectionMath.ToRadians(90);
     ProjectionLatitude1 = south ? -ProjectionMath.PiFourth : ProjectionMath.PiFourth;
     ProjectionLatitude2 = south ? -ProjectionMath.PiHalf : ProjectionMath.PiHalf;
     Initialize();
 }
コード例 #10
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ファイル: AiryProjection.cs プロジェクト: softempire/proj4net 
// ReSharper restore InconsistentNaming

        public AiryProjection()
        {
            _minLatitude  = ProjectionMath.ToRadians(-60);
            _maxLatitude  = ProjectionMath.ToRadians(60);
            _minLongitude = ProjectionMath.ToRadians(-90);
            _maxLongitude = ProjectionMath.ToRadians(90);
            Initialize();
        }
コード例 #11
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 public LambertEqualAreaConicProjection(Boolean south)
 {
     MinLatitude         = ProjectionMath.ToRadians(0);
     MaxLatitude         = ProjectionMath.ToRadians(90);
     ProjectionLatitude1 = south ? -ProjectionMath.QuarterPI : ProjectionMath.QuarterPI;
     ProjectionLatitude2 = south ? -ProjectionMath.HalfPI : ProjectionMath.HalfPI;
     Initialize();
 }
コード例 #12
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 public TransverseMercatorProjection()
 {
     Ellipsoid           = Ellipsoid.GRS80;
     ProjectionLatitude  = ProjectionMath.ToRadians(0);
     ProjectionLongitude = ProjectionMath.ToRadians(0);
     MinLongitude        = ProjectionMath.ToRadians(-90);
     MaxLongitude        = ProjectionMath.ToRadians(90);
     Initialize();
 }
コード例 #13
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 public LambertConformalConicProjection()
 {
     MinLatitude         = ProjectionMath.ToRadians(0);
     MaxLatitude         = ProjectionMath.ToRadians(80.0);
     ProjectionLatitude  = ProjectionMath.PiFourth;
     ProjectionLatitude1 = 0;
     ProjectionLatitude2 = 0;
     Initialize();
 }
コード例 #14
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        public EquidistantConicProjection()
        {
            MinLatitude        = ProjectionMath.ToRadians(10);
            MaxLatitude        = ProjectionMath.ToRadians(70);
            MinLongitude       = ProjectionMath.ToRadians(-90);
            MaxLongitude       = ProjectionMath.ToRadians(90);
            _standardLatitude1 = ProjectionMath.ToDegrees(60); //???
            _standardLatitude2 = ProjectionMath.ToDegrees(20); //???

            Initialize(ProjectionMath.ToRadians(0), ProjectionMath.ToRadians(37.5), _standardLatitude1, _standardLatitude2);
        }
コード例 #15
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 public ObliqueMercatorProjection()
 {
     Ellipsoid           = new Ellipsoid("WGS84", 6378137.0, 0.0, 298.257223563, "WGS 84");//WGS84;
     ProjectionLatitude  = ProjectionMath.ToRadians(0);
     ProjectionLongitude = ProjectionMath.ToRadians(0);
     MinLongitude        = ProjectionMath.ToRadians(-60);
     MaxLongitude        = ProjectionMath.ToRadians(60);
     MinLatitude         = ProjectionMath.ToRadians(-80);
     MaxLatitude         = ProjectionMath.ToRadians(80);
     Alpha = ProjectionMath.ToRadians(-45);//FIXME
     Initialize();
 }
コード例 #16
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        /// <summary>
        /// Factory method to create meridians by their <see cref="NamedMeridian"/>
        /// </summary>
        /// <param name="meridan">The named meridian</param>
        /// <returns>The meridian</returns>
        public static Meridian CreateByNamedMeridian(NamedMeridian meridan)
        {
            switch (meridan)
            {
            case NamedMeridian.Greenwich:
                return(new Meridian(meridan, 0));

            case NamedMeridian.Lisbon:
                return(new Meridian(meridan, ProjectionMath.ToRadians(-9.131906111)));

            case NamedMeridian.Paris:
                return(new Meridian(meridan, ProjectionMath.ToRadians(2.337229167)));

            case NamedMeridian.Bogota:
                return(new Meridian(meridan, ProjectionMath.ToRadians(-74.08091667)));

            case NamedMeridian.Madrid:
                return(new Meridian(meridan, ProjectionMath.ToRadians(-3.687938889)));

            case NamedMeridian.Rome:
                return(new Meridian(meridan, ProjectionMath.ToRadians(12.45233333)));

            case NamedMeridian.Bern:
                return(new Meridian(meridan, ProjectionMath.ToRadians(7.439583333)));

            case NamedMeridian.Jakarta:
                return(new Meridian(meridan, ProjectionMath.ToRadians(106.8077194)));

            case NamedMeridian.Ferro:
                return(new Meridian(meridan, ProjectionMath.ToRadians(-17.66666667)));

            case NamedMeridian.Brussels:
                return(new Meridian(meridan, ProjectionMath.ToRadians(4.367975)));

            case NamedMeridian.Stockholm:
                return(new Meridian(meridan, ProjectionMath.ToRadians(18.05827778)));

            case NamedMeridian.Athens:
                return(new Meridian(meridan, ProjectionMath.ToRadians(23.7163375)));

            case NamedMeridian.Oslo:
                return(new Meridian(meridan, ProjectionMath.ToRadians(10.72291667)));
            }
            throw new ArgumentOutOfRangeException("meridan");
        }
コード例 #17
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 public override Boolean Inside(double lon, double lat)
 {
     return(ProjectionMath.GreatCircleDistance(
                ProjectionMath.ToRadians(lon), ProjectionMath.ToRadians(lat), ProjectionLongitude,
                ProjectionLatitude) < ProjectionMath.ToRadians(_mapRadius));
 }
コード例 #18
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 /// <summary>
 /// Factory method to create meridians by their degree value
 /// </summary>
 /// <param name="degree">The longitude of the meridian in degrees</param>
 /// <returns>The meridian</returns>
 public static Meridian CreateByDegree(double degree)
 {
     return(new Meridian(NamedMeridian.Undefined, ProjectionMath.ToRadians(degree)));
 }
コード例 #19
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        //private double sinphi0, cosphi0;

        public EquidistantAzimuthalProjection()
            : this(ProjectionMath.ToRadians(90.0), ProjectionMath.ToRadians(0.0))
        {
        }
コード例 #20
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 protected AzimuthalProjection()
     : this(ProjectionMath.ToRadians(45.0), ProjectionMath.ToRadians(45.0))
 {
 }
コード例 #21
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 public StereographicAzimuthalProjection() : this(ProjectionMath.ToRadians(90.0), ProjectionMath.ToRadians(0.0))
 {
 }
コード例 #22
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        public Double Parse(String text)
        {
            double  d = 0, m = 0, s = 0;
            double  result;
            Boolean negate = false;
            int     length = text.Length;

            if (length > 0)
            {
                char c = text[length - 1];
                switch (c)
                {
                case 'W':
                case 'S':
                    negate = true;
                    text   = text.Substring(0, text.Length - 1);
                    break;

                case 'E':
                case 'N':
                    text = text.Substring(0, text.Length - 1);
                    break;
                }
            }

            int i = text.IndexOf('d');

            if (i == -1)
            {
                i = text.IndexOf('\u00b0');
            }
            if (i != -1)
            {
                String dd   = text.Substring(0, i);
                String mmss = text.Substring(i + 1);
                d = Convert.ToDouble(dd, CultureInfo.InvariantCulture);
                i = mmss.IndexOf('m');
                if (i == -1)
                {
                    i = mmss.IndexOf('\'');
                }
                if (i != -1)
                {
                    if (i != 0)
                    {
                        String mm = mmss.Substring(0, i);
                        m = Convert.ToDouble(mm, CultureInfo.InvariantCulture);
                    }
                    if (mmss.EndsWith("s") || mmss.EndsWith("\""))
                    {
                        mmss = mmss.Substring(0, mmss.Length - 1);
                    }
                    if (i != mmss.Length - 1)
                    {
                        String ss = mmss.Substring(i + 1);
                        s = Convert.ToDouble(ss, CultureInfo.InvariantCulture);
                    }
#if SILVERLIGHT
                    if (m < 0 || m > 59)
                    {
                        throw new ArgumentOutOfRangeException("m", "Minutes must be between 0 and 59");
                    }
                    if (s < 0 || s >= 60)
                    {
                        throw new ArgumentOutOfRangeException("s", "Seconds must be between 0 and 59");
                    }
#else
                    if (m < 0 || m > 59)
                    {
                        throw new ArgumentOutOfRangeException("m", m, "Minutes must be between 0 and 59");
                    }
                    if (s < 0 || s >= 60)
                    {
                        throw new ArgumentOutOfRangeException("s", s, "Seconds must be between 0 and 59");
                    }
#endif
                }
                else if (i != 0)
                {
                    m = Convert.ToDouble(mmss, CultureInfo.InvariantCulture);
                }
                if (_isDegrees)
                {
                    result = ProjectionMath.DegreesMinutesSecondsToDegrees(d, m, s);
                }
                else
                {
                    result = ProjectionMath.DegreesMinutesSecondsToRadians(d, m, s);
                }
            }
            else
            {
                result = Convert.ToDouble(text, CultureInfo.InvariantCulture);
                if (!_isDegrees)
                {
                    result = ProjectionMath.ToRadians(result);
                }
            }

            if (negate)
            {
                result = -result;
            }

            return(result);
        }
コード例 #23
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 public SimpleConicProjection(ConicTypes type)
 {
     _type       = type;
     MinLatitude = ProjectionMath.ToRadians(0);
     MaxLatitude = ProjectionMath.ToRadians(80);
 }
コード例 #24
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 public TransverseCentralCylindricalProjection()
 {
     MinLongitude = ProjectionMath.ToRadians(-60);
     MaxLongitude = ProjectionMath.ToRadians(60);
 }
コード例 #25
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 public GnomonicAzimuthalProjection()
     : this(ProjectionMath.ToRadians(90.0), ProjectionMath.ToRadians(0.0))
 {
 }
コード例 #26
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        public override void Initialize()
        {
            base.Initialize();
            double cs, dummy;

            /* get common factors for simple conics */
            double p1, p2, d, s;
            int    err = 0;

            /*FIXME
             *      if (!pj_param(params, "tlat_1").i ||
             *          !pj_param(params, "tlat_2").i) {
             *          err = -41;
             *      } else {
             *          p1 = pj_param(params, "rlat_1").f;
             *          p2 = pj_param(params, "rlat_2").f;
             * del = 0.5 * (p2 - p1);
             *          _sig = 0.5 * (p2 + p1);
             *          err = (Math.abs(*del) < EPS10 || Math.abs(_sig) < EPS10) ? -42 : 0;
             * del = *del;
             *      }
             */
            p1 = ProjectionMath.ToRadians(30); //FIXME
            p2 = ProjectionMath.ToRadians(60); //FIXME
            var del = 0.5 * (p2 - p1);

            _sig = 0.5 * (p2 + p1);
            err  = (Math.Abs(del) < EPS10 || Math.Abs(_sig) < EPS10) ? -42 : 0;
            del  = del;

            if (err != 0)
            {
                throw new ProjectionException("Error " + err);
            }

            switch (ConicType)
            {
            case ConicTypes.Tissot:
                _n    = Math.Sin(_sig);
                cs    = Math.Cos(del);
                _rhoC = _n / cs + cs / _n;
                _rho0 = Math.Sqrt((_rhoC - 2 * Math.Sin(ProjectionLatitude)) / _n);
                break;

            case ConicTypes.Murdoch1:
                _rhoC = Math.Sin(del) / (del * Math.Tan(_sig)) + _sig;
                _rho0 = _rhoC - ProjectionLatitude;
                _n    = Math.Sin(_sig);
                break;

            case ConicTypes.Murdoch2:
                _rhoC = (cs = Math.Sqrt(Math.Cos(del))) / Math.Tan(_sig);
                _rho0 = _rhoC + Math.Tan(_sig - ProjectionLatitude);
                _n    = Math.Sin(_sig) * cs;
                break;

            case ConicTypes.Murdoch3:
                _rhoC = del / (Math.Tan(_sig) * Math.Tan(del)) + _sig;
                _rho0 = _rhoC - ProjectionLatitude;
                _n    = Math.Sin(_sig) * Math.Sin(del) * Math.Tan(del) / (del * del);
                break;

            case ConicTypes.Euler:
                _n    = Math.Sin(_sig) * Math.Sin(del) / del;
                del  *= 0.5;
                _rhoC = del / (Math.Tan(del) * Math.Tan(_sig)) + _sig;
                _rho0 = _rhoC - ProjectionLatitude;
                break;

            case ConicTypes.PerspectiveConic:
                _n  = Math.Sin(_sig);
                _c2 = Math.Cos(del);
                _c1 = 1.0 / Math.Tan(_sig);
                if (Math.Abs(del = ProjectionLatitude - _sig) - EPS10 >= ProjectionMath.PiHalf)
                {
                    throw new ProjectionException("-43");
                }
                _rho0       = _c2 * (_c1 - Math.Tan(del));
                MaxLatitude = ProjectionMath.ToRadians(60);    //FIXME
                break;

            case ConicTypes.Vitkovsky1:
                _n    = (cs = Math.Tan(del)) * Math.Sin(_sig) / del;
                _rhoC = del / (cs * Math.Tan(_sig)) + _sig;
                _rho0 = _rhoC - ProjectionLatitude;
                break;
            }
        }
コード例 #27
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 public MercatorProjection()
 {
     MinLatitude = ProjectionMath.ToRadians(-85);
     MaxLatitude = ProjectionMath.ToRadians(85);
 }
コード例 #28
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        //private double _ap;

        //private final static double EPS10 = 1.e-10;

        public CentralCylindricalProjection()
        {
            MinLatitude = ProjectionMath.ToRadians(-80);
            MaxLatitude = ProjectionMath.ToRadians(80);
        }
コード例 #29
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 public LoximuthalProjection()
 {
     phi1    = ProjectionMath.ToRadians(40.0); //FIXME - param
     cosphi1 = Math.Cos(phi1);
     tanphi1 = Math.Tan(ProjectionMath.PiFourth + 0.5 * phi1);
 }