1 | // License: GPL. Copyright 2007 by Immanuel Scholz and others
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2 | package org.openstreetmap.josm.data.coor;
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3 |
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4 | import static java.lang.Math.PI;
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5 | import static java.lang.Math.asin;
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6 | import static java.lang.Math.cos;
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7 | import static java.lang.Math.sin;
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8 | import static java.lang.Math.sqrt;
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9 | import static java.lang.Math.toRadians;
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10 | import static org.openstreetmap.josm.tools.I18n.tr;
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11 |
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12 | import java.text.DecimalFormat;
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13 | import java.text.NumberFormat;
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14 |
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15 | import org.openstreetmap.josm.Main;
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16 | import org.openstreetmap.josm.data.Bounds;
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17 | import org.openstreetmap.josm.data.projection.Projection;
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18 |
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19 | /**
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20 | * LatLon are unprojected latitude / longitude coordinates.
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21 | *
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22 | * This class is immutable.
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23 | *
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24 | * @author Imi
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25 | */
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26 | public class LatLon extends Coordinate {
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27 |
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28 | private static DecimalFormat cDmsMinuteFormatter = new DecimalFormat("00");
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29 | private static DecimalFormat cDmsSecondFormatter = new DecimalFormat("00.0");
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30 | private static DecimalFormat cDdFormatter = new DecimalFormat("###0.0000");
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31 |
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32 | /**
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33 | * Replies true if lat is in the range [-90,90]
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34 | *
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35 | * @param lat the latitude
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36 | * @return true if lat is in the range [-90,90]
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37 | */
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38 | public static boolean isValidLat(double lat) {
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39 | return lat >= -90d && lat <= 90d;
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40 | }
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41 |
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42 | /**
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43 | * Replies true if lon is in the range [-180,180]
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44 | *
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45 | * @param lon the longitude
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46 | * @return true if lon is in the range [-180,180]
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47 | */
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48 | public static boolean isValidLon(double lon) {
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49 | return lon >= -180d && lon <= 180d;
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50 | }
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51 |
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52 | public static String dms(double pCoordinate) {
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53 |
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54 | double tAbsCoord = Math.abs(pCoordinate);
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55 | int tDegree = (int) tAbsCoord;
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56 | double tTmpMinutes = (tAbsCoord - tDegree) * 60;
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57 | int tMinutes = (int) tTmpMinutes;
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58 | double tSeconds = (tTmpMinutes - tMinutes) * 60;
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59 |
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60 | return tDegree + "\u00B0" + cDmsMinuteFormatter.format(tMinutes) + "\'"
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61 | + cDmsSecondFormatter.format(tSeconds) + "\"";
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62 | }
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63 |
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64 | public LatLon(double lat, double lon) {
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65 | super(lon, lat);
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66 | }
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67 |
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68 | public LatLon(LatLon coor) {
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69 | super(coor.lon(), coor.lat());
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70 | }
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71 |
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72 | public double lat() {
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73 | return y;
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74 | }
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75 |
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76 | public String latToString(CoordinateFormat d) {
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77 | switch(d) {
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78 | case DECIMAL_DEGREES: return cDdFormatter.format(y);
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79 | case DEGREES_MINUTES_SECONDS: return dms(y) + ((y < 0) ?
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80 | /* short symbol for South */ tr("S") :
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81 | /* short symbol for North */ tr("N"));
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82 | default: return "ERR";
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83 | }
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84 | }
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85 |
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86 | public double lon() {
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87 | return x;
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88 | }
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89 |
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90 | public String lonToString(CoordinateFormat d) {
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91 | switch(d) {
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92 | case DECIMAL_DEGREES: return cDdFormatter.format(x);
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93 | case DEGREES_MINUTES_SECONDS: return dms(x) + ((x < 0) ?
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94 | /* short symbol for West */ tr("W") :
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95 | /* short symbol for East */ tr("E"));
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96 | default: return "ERR";
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97 | }
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98 | }
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99 |
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100 | /**
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101 | * @return <code>true</code> if the other point has almost the same lat/lon
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102 | * values, only differing by no more than
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103 | * 1 / {@link org.openstreetmap.josm.data.projection.Projection#MAX_SERVER_PRECISION MAX_SERVER_PRECISION}.
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104 | */
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105 | public boolean equalsEpsilon(LatLon other) {
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106 | final double p = Projection.MAX_SERVER_PRECISION;
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107 | return Math.abs(lat()-other.lat()) <= p && Math.abs(lon()-other.lon()) <= p;
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108 | }
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109 |
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110 | /**
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111 | * @return <code>true</code>, if the coordinate is outside the world, compared
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112 | * by using lat/lon.
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113 | */
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114 | public boolean isOutSideWorld() {
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115 | Bounds b = Main.proj.getWorldBoundsLatLon();
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116 | return lat() < b.getMin().lat() || lat() > b.getMax().lat() ||
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117 | lon() < b.getMin().lon() || lon() > b.getMax().lon();
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118 | }
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119 |
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120 | /**
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121 | * @return <code>true</code> if this is within the given bounding box.
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122 | */
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123 | public boolean isWithin(Bounds b) {
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124 | return lat() >= b.getMin().lat() && lat() <= b.getMax().lat() && lon() > b.getMin().lon() && lon() < b.getMax().lon();
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125 | }
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126 |
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127 | /**
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128 | * Computes the distance between this lat/lon and another point on the earth.
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129 | * Uses Haversine formular.
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130 | * @param other the other point.
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131 | * @return distance in metres.
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132 | */
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133 | public double greatCircleDistance(LatLon other) {
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134 | double R = 6378135;
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135 | double sinHalfLat = sin(toRadians(other.lat() - this.lat()) / 2);
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136 | double sinHalfLon = sin(toRadians(other.lon() - this.lon()) / 2);
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137 | double d = 2 * R * asin(
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138 | sqrt(sinHalfLat*sinHalfLat +
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139 | cos(toRadians(this.lat()))*cos(toRadians(other.lat()))*sinHalfLon*sinHalfLon));
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140 | // For points opposite to each other on the sphere,
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141 | // rounding errors could make the argument of asin greater than 1
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142 | // (This should almost never happen.)
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143 | if (java.lang.Double.isNaN(d)) {
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144 | System.err.println("Error: NaN in greatCircleDistance");
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145 | d = PI * R;
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146 | }
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147 | return d;
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148 | }
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149 |
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150 | /**
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151 | * Returns the heading, in radians, that you have to use to get from
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152 | * this lat/lon to another.
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153 | *
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154 | * @param other the "destination" position
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155 | * @return heading
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156 | */
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157 | public double heading(LatLon other) {
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158 | double rv;
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159 | if (other.lat() == lat()) {
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160 | rv = (other.lon()>lon() ? Math.PI / 2 : Math.PI * 3 / 2);
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161 | } else {
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162 | rv = Math.atan((other.lon()-lon())/(other.lat()-lat()));
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163 | if (rv < 0) {
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164 | rv += Math.PI;
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165 | }
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166 | if (other.lon() < lon()) {
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167 | rv += Math.PI;
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168 | }
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169 | }
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170 | return rv;
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171 | }
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172 |
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173 | /**
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174 | * Returns this lat/lon pair in human-readable format.
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175 | *
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176 | * @return String in the format "lat=1.23456°, lon=2.34567°"
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177 | */
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178 | public String toDisplayString() {
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179 | NumberFormat nf = NumberFormat.getInstance();
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180 | nf.setMaximumFractionDigits(5);
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181 | return "lat=" + nf.format(lat()) + "\u00B0, lon=" + nf.format(lon()) + "\u00B0";
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182 | }
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183 |
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184 | public LatLon interpolate(LatLon ll2, double proportion) {
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185 | return new LatLon(this.lat() + proportion * (ll2.lat() - this.lat()),
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186 | this.lon() + proportion * (ll2.lon() - this.lon()));
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187 | }
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188 |
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189 | public LatLon getCenter(LatLon ll2) {
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190 | return new LatLon((this.lat() + ll2.lat())/2.0, (this.lon() + ll2.lon())/2.0);
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191 | }
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192 |
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193 | @Override public String toString() {
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194 | return "LatLon[lat="+lat()+",lon="+lon()+"]";
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195 | }
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196 |
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197 | /**
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198 | * Replies a clone of this lat LatLon, rounded to OSM precisions, i.e. to
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199 | * 10^-7
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200 | *
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201 | * @return a clone of this lat LatLon
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202 | */
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203 | public LatLon getRoundedToOsmPrecision() {
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204 | return new LatLon(
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205 | Math.round(lat() * 10e6) / 10e6d,
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206 | Math.round(lon() * 10e6) / 10e6d
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207 | );
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208 | }
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209 |
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210 |
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211 | @Override
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212 | public int hashCode() {
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213 | final int prime = 31;
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214 | int result = super.hashCode();
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215 | long temp;
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216 | temp = java.lang.Double.doubleToLongBits(x);
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217 | result = prime * result + (int) (temp ^ (temp >>> 32));
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218 | temp = java.lang.Double.doubleToLongBits(y);
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219 | result = prime * result + (int) (temp ^ (temp >>> 32));
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220 | return result;
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221 | }
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222 |
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223 | @Override
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224 | public boolean equals(Object obj) {
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225 | if (this == obj)
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226 | return true;
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227 | if (!super.equals(obj))
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228 | return false;
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229 | if (getClass() != obj.getClass())
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230 | return false;
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231 | Coordinate other = (Coordinate) obj;
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232 | if (java.lang.Double.doubleToLongBits(x) != java.lang.Double.doubleToLongBits(other.x))
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233 | return false;
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234 | if (java.lang.Double.doubleToLongBits(y) != java.lang.Double.doubleToLongBits(other.y))
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235 | return false;
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236 | return true;
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237 | }
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238 | }
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