1 | package relcontext.actions;
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2 |
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3 | import java.util.*;
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4 | import javax.swing.JOptionPane;
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5 | import org.openstreetmap.josm.Main;
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6 | import org.openstreetmap.josm.command.*;
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7 | import org.openstreetmap.josm.data.coor.EastNorth;
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8 | import org.openstreetmap.josm.data.osm.*;
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9 | import org.openstreetmap.josm.tools.Geometry;
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10 | import org.openstreetmap.josm.tools.Geometry.PolygonIntersection;
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11 |
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12 | /**
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13 | * One ring that contains segments forming an outer way of multipolygon.
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14 | * This class is used in {@link CreateMultipolygonAction#makeManySimpleMultipolygons(java.util.Collection)}.
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15 | *
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16 | * @author Zverik
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17 | */
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18 | public class TheRing {
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19 | private static final String PREF_MULTIPOLY = "reltoolbox.multipolygon.";
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20 |
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21 | private Way source;
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22 | private List<RingSegment> segments;
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23 | private Relation relation = null;
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24 |
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25 | public TheRing( Way source ) {
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26 | this.source = source;
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27 | segments = new ArrayList<RingSegment>(1);
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28 | segments.add(new RingSegment(source));
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29 | }
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30 |
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31 | public static boolean areAllOfThoseRings( Collection<Way> ways ) {
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32 | List<Way> rings = new ArrayList<Way>();
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33 | for( Way way : ways ) {
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34 | if( way.isClosed() )
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35 | rings.add(way);
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36 | else
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37 | return false;
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38 | }
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39 | if( rings.isEmpty() || ways.size() == 1 )
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40 | return false;
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41 |
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42 | // check for non-containment of rings
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43 | for( int i = 0; i < rings.size() - 1; i++ ) {
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44 | for( int j = i + 1; j < rings.size(); j++ ) {
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45 | PolygonIntersection intersection = Geometry.polygonIntersection(rings.get(i).getNodes(), rings.get(j).getNodes());
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46 | if( intersection == PolygonIntersection.FIRST_INSIDE_SECOND || intersection == PolygonIntersection.SECOND_INSIDE_FIRST )
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47 | return false;
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48 | }
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49 | }
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50 |
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51 | return true;
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52 | }
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53 |
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54 | /**
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55 | * Creates ALOT of Multipolygons and pets him gently.
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56 | * @return list of new relations.
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57 | */
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58 | public static List<Relation> makeManySimpleMultipolygons( Collection<Way> selection, List<Command> commands ) {
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59 | System.out.println("---------------------------------------");
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60 | List<TheRing> rings = new ArrayList<TheRing>(selection.size());
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61 | for( Way w : selection )
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62 | rings.add(new TheRing(w));
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63 | for( int i = 0; i < rings.size() - 1; i++ )
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64 | for( int j = i + 1; j < rings.size(); j++ )
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65 | rings.get(i).collide(rings.get(j));
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66 | redistributeSegments(rings);
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67 | List<Relation> relations = new ArrayList<Relation>();
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68 | Map<Relation, Relation> relationCache = new HashMap<Relation, Relation>();
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69 | for( TheRing r : rings ) {
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70 | commands.addAll(r.getCommands(relationCache));
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71 | relations.add(r.getRelation());
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72 | }
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73 | updateCommandsWithRelations(commands, relationCache);
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74 | return relations;
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75 | }
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76 |
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77 | public void collide( TheRing other ) {
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78 | boolean collideNoted = false;
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79 | for( int i = 0; i < segments.size(); i++ ) {
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80 | RingSegment segment1 = segments.get(i);
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81 | if( !segment1.isReference() ) {
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82 | for( int j = 0; j < other.segments.size(); j++ ) {
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83 | RingSegment segment2 = other.segments.get(j);
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84 | if( !segment2.isReference() ) {
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85 | System.out.println("Comparing " + segment1 + " and " + segment2);
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86 | Node[] split = getSplitNodes(segment1.getNodes(), segment2.getNodes(), segment1.isRing(), segment2.isRing());
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87 | if( split != null ) {
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88 | if( !collideNoted ) {
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89 | System.out.println("Rings for ways " + source.getUniqueId() + " and " + other.source.getUniqueId() + " collide.");
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90 | collideNoted = true;
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91 | }
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92 | RingSegment segment = splitRingAt(i, split[0], split[1]);
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93 | RingSegment otherSegment = other.splitRingAt(j, split[2], split[3]);
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94 | if( !areSegmentsEqual(segment, otherSegment) )
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95 | throw new IllegalArgumentException("Error: algorithm gave incorrect segments: " + segment + " and " + otherSegment);
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96 | segment.makeReference(otherSegment);
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97 | }
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98 | }
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99 | if( segment1.isReference() )
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100 | break;
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101 | }
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102 | }
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103 | }
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104 | }
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105 |
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106 | /**
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107 | * Returns array of {start1, last1, start2, last2} or null if there is no common nodes.
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108 | */
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109 | public static Node[] getSplitNodes( List<Node> nodes1, List<Node> nodes2, boolean isRing1, boolean isRing2 ) {
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110 | int pos = 0;
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111 | while( pos < nodes1.size() && !nodes2.contains(nodes1.get(pos)) )
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112 | pos++;
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113 | boolean collideFound = pos == nodes1.size();
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114 | if( pos == 0 && isRing1 ) {
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115 | // rewind a bit
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116 | pos = nodes1.size() - 1;
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117 | while( pos > 0 && nodes2.contains(nodes1.get(pos)) )
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118 | pos--;
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119 | if( pos == 0 ) {
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120 | JOptionPane.showMessageDialog(Main.parent, "Two rings are equal, and this must not be.", "Multipolygon from rings", JOptionPane.ERROR_MESSAGE);
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121 | return null;
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122 | }
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123 | pos = pos == nodes1.size() - 1 ? 0 : pos + 1;
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124 | }
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125 | int firstPos = isRing1 ? pos : nodes1.size();
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126 | while( !collideFound ) {
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127 | System.out.println("pos=" + pos);
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128 | int start1 = pos;
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129 | int start2 = nodes2.indexOf(nodes1.get(start1));
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130 | int last1 = incrementBy(start1, 1, nodes1.size(), isRing1);
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131 | int last2 = start2;
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132 | int increment2 = 0;
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133 | if( last1 >= 0 ) {
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134 | last2 = incrementBy(start2, -1, nodes2.size(), isRing2);
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135 | if( last2 >= 0 && nodes1.get(last1).equals(nodes2.get(last2)) )
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136 | increment2 = -1;
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137 | else {
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138 | last2 = incrementBy(start2, 1, nodes2.size(), isRing2);
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139 | if( last2 >= 0 && nodes1.get(last1).equals(nodes2.get(last2)) )
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140 | increment2 = 1;
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141 | }
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142 | }
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143 | System.out.println("last1=" + last1 + " last2=" + last2 + " increment2=" + increment2);
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144 | if( increment2 != 0 ) {
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145 | // find the first nodes
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146 | boolean reachedEnd = false;
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147 | while( !reachedEnd ) {
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148 | int newLast1 = incrementBy(last1, 1, nodes1.size(), isRing1);
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149 | int newLast2 = incrementBy(last2, increment2, nodes2.size(), isRing2);
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150 | if( newLast1 < 0 || newLast2 < 0 || !nodes1.get(newLast1).equals(nodes2.get(newLast2)) )
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151 | reachedEnd = true;
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152 | else {
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153 | last1 = newLast1;
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154 | last2 = newLast2;
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155 | }
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156 | }
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157 | System.out.println("last1=" + last1 + " last2=" + last2);
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158 | if( increment2 < 0 ) {
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159 | int tmp = start2;
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160 | start2 = last2;
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161 | last2 = tmp;
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162 | }
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163 | return new Node[] {nodes1.get(start1), nodes1.get(last1), nodes2.get(start2), nodes2.get(last2)};
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164 | } else {
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165 | pos = last1;
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166 | while( pos != firstPos && pos >= 0 && !nodes2.contains(nodes1.get(pos)) )
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167 | pos = incrementBy(pos, 1, nodes1.size(), isRing1);
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168 | if( pos < 0 || pos == firstPos || !nodes2.contains(nodes1.get(pos)) )
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169 | collideFound = true;
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170 | }
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171 | }
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172 | return null;
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173 | }
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174 |
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175 | private static int incrementBy( int value, int increment, int limit1, boolean isRing ) {
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176 | int result = value + increment;
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177 | if( result < 0 )
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178 | return isRing ? result + limit1 : -1;
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179 | else if( result >= limit1 )
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180 | return isRing ? result - limit1 : -1;
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181 | else
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182 | return result;
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183 | }
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184 |
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185 | private boolean areSegmentsEqual( RingSegment seg1, RingSegment seg2 ) {
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186 | List<Node> nodes1 = seg1.getNodes();
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187 | List<Node> nodes2 = seg2.getNodes();
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188 | int size = nodes1.size();
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189 | if( size != nodes2.size() )
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190 | return false;
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191 | boolean reverse = size > 1 && !nodes1.get(0).equals(nodes2.get(0));
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192 | for( int i = 0; i < size; i++ )
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193 | if( !nodes1.get(i).equals(nodes2.get(reverse ? size-1-i : i)) )
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194 | return false;
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195 | return true;
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196 | }
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197 |
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198 | /**
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199 | * Split the segment in this ring at those nodes.
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200 | * @return The segment between nodes.
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201 | */
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202 | private RingSegment splitRingAt( int segmentIndex, Node n1, Node n2 ) {
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203 | if( n1.equals(n2) )
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204 | throw new IllegalArgumentException("Both nodes are equal, id=" + n1.getUniqueId());
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205 | RingSegment segment = segments.get(segmentIndex);
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206 | boolean isRing = segment.isRing();
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207 | System.out.println("Split segment " + segment + " at nodes " + n1.getUniqueId() + " and " + n2.getUniqueId());
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208 | boolean reversed = segment.getNodes().indexOf(n2) < segment.getNodes().indexOf(n1);
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209 | if( reversed && !isRing ) {
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210 | // order nodes
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211 | Node tmp = n1;
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212 | n1 = n2;
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213 | n2 = tmp;
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214 | }
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215 | RingSegment secondPart = isRing ? segment.split(n1, n2) : segment.split(n1);
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216 | // if secondPart == null, then n1 == firstNode
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217 | RingSegment thirdPart = isRing ? null : secondPart == null ? segment.split(n2) : secondPart.split(n2);
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218 | // if secondPart == null, then thirdPart is between n1 and n2
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219 | // otherwise, thirdPart is between n2 and lastNode
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220 | // if thirdPart == null, then n2 == lastNode
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221 | int pos = segmentIndex + 1;
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222 | if( secondPart != null )
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223 | segments.add(pos++, secondPart);
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224 | if( thirdPart != null )
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225 | segments.add(pos++, thirdPart);
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226 | return isRing || secondPart == null ? segment : secondPart;
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227 | }
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228 |
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229 | /**
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230 | * Tries to arrange segments in order for each ring to have at least one.
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231 | * Also, sets source way for all rings.
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232 | *
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233 | * If this method is not called, do not forget to call {@link #putSourceWayFirst()} for all rings.
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234 | */
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235 | public static void redistributeSegments( List<TheRing> rings ) {
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236 | // build segments map
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237 | Map<RingSegment, TheRing> segmentMap = new HashMap<RingSegment, TheRing>();
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238 | for( TheRing ring : rings )
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239 | for( RingSegment seg : ring.segments )
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240 | if( !seg.isReference() )
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241 | segmentMap.put(seg, ring);
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242 |
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243 | // rearrange references
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244 | for( int i = 0; i < rings.size(); i++ ) {
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245 | TheRing ring = rings.get(i);
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246 | if( ring.countNonReferenceSegments() == 0 ) {
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247 | // need to find one non-reference segment
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248 | for( RingSegment seg : ring.segments ) {
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249 | TheRing otherRing = segmentMap.get(seg.references);
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250 | if( otherRing.countNonReferenceSegments() > 1 ) {
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251 | // we could check for >0, but it is prone to deadlocking
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252 | seg.swapReference();
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253 | }
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254 | }
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255 | }
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256 | }
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257 |
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258 | // initializing source way for each ring
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259 | for( TheRing ring : rings )
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260 | ring.putSourceWayFirst();
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261 | }
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262 |
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263 | private int countNonReferenceSegments() {
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264 | int count = 0;
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265 | for( RingSegment seg : segments )
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266 | if( !seg.isReference() )
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267 | count++;
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268 | return count;
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269 | }
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270 |
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271 | public void putSourceWayFirst() {
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272 | for( RingSegment seg : segments ) {
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273 | if( !seg.isReference() ) {
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274 | seg.overrideWay(source);
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275 | return;
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276 | }
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277 | }
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278 | }
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279 |
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280 | public List<Command> getCommands() {
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281 | return getCommands(true, null);
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282 | }
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283 |
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284 | public List<Command> getCommands( Map<Relation, Relation> relationChangeMap ) {
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285 | return getCommands(true, relationChangeMap);
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286 | }
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287 |
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288 | /**
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289 | * Returns a list of commands to make a new relation and all newly created ways.
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290 | * The first way is copied from the source one, ChangeCommand is issued in this case.
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291 | */
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292 | public List<Command> getCommands( boolean createMultipolygon, Map<Relation, Relation> relationChangeMap ) {
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293 | Way sourceCopy = new Way(source);
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294 | if( createMultipolygon ) {
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295 | Collection<String> linearTags = Main.pref.getCollection(PREF_MULTIPOLY + "lineartags", CreateMultipolygonAction.DEFAULT_LINEAR_TAGS);
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296 | relation = new Relation();
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297 | relation.put("type", "multipolygon");
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298 | for( String key : sourceCopy.keySet() ) {
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299 | if( !linearTags.contains(key) ) {
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300 | relation.put(key, sourceCopy.get(key));
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301 | sourceCopy.remove(key);
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302 | }
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303 | }
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304 | }
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305 |
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306 | // build a map of referencing relations
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307 | Map<Relation, Integer> referencingRelations = new HashMap<Relation, Integer>();
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308 | List<Command> relationCommands = new ArrayList<Command>();
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309 | for( OsmPrimitive p : source.getReferrers() ) {
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310 | if( p instanceof Relation ) {
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311 | Relation rel = null;
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312 | if( relationChangeMap != null ) {
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313 | if( relationChangeMap.containsKey((Relation)p) )
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314 | rel = relationChangeMap.get((Relation)p);
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315 | else {
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316 | rel = new Relation((Relation)p);
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317 | relationChangeMap.put((Relation)p, rel);
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318 | }
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319 | } else {
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320 | rel = new Relation((Relation)p);
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321 | relationCommands.add(new ChangeCommand((Relation)p, rel));
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322 | }
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323 | for( int i = 0; i < rel.getMembersCount(); i++ )
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324 | if( rel.getMember(i).getMember().equals(source) )
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325 | referencingRelations.put(rel, Integer.valueOf(i));
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326 | }
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327 | }
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328 | // todo: когда два кольца меняют одно и то же отношение, в список команд добавляется
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329 | // изменение базового отношения на новое, а не предыдущего
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330 | // поэтому сохраняется только первое изменение
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331 |
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332 | List<Command> commands = new ArrayList<Command>();
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333 | boolean foundOwnWay = false;
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334 | for( RingSegment seg : segments ) {
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335 | boolean needAdding = !seg.isWayConstructed();
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336 | Way w = seg.constructWay(seg.isReference() ? null : sourceCopy);
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337 | if( needAdding )
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338 | commands.add(new AddCommand(w));
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339 | if( w.equals(source) ) {
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340 | if( createMultipolygon || !seg.getWayNodes().equals(source.getNodes()) ) {
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341 | sourceCopy.setNodes(seg.getWayNodes());
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342 | commands.add(new ChangeCommand(source, sourceCopy));
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343 | }
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344 | foundOwnWay = true;
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345 | } else {
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346 | for( Relation rel : referencingRelations.keySet() ) {
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347 | int relIndex = referencingRelations.get(rel);
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348 | rel.addMember(new RelationMember(rel.getMember(relIndex).getRole(), w));
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349 | }
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350 | }
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351 | if( createMultipolygon )
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352 | relation.addMember(new RelationMember("outer", w));
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353 | }
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354 | if( !foundOwnWay )
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355 | commands.add(new DeleteCommand(source));
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356 | commands.addAll(relationCommands);
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357 | if( createMultipolygon )
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358 | commands.add(new AddCommand(relation));
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359 | return commands;
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360 | }
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361 |
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362 | public static void updateCommandsWithRelations( List<Command> commands, Map<Relation, Relation> relationCache ) {
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363 | for( Relation src : relationCache.keySet() )
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364 | commands.add(new ChangeCommand(src, relationCache.get(src)));
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365 | }
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366 |
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367 | /**
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368 | * Returns the relation created in {@link #getCommands()}.
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369 | */
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370 | public Relation getRelation() {
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371 | return relation;
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372 | }
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373 |
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374 | @Override
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375 | public String toString() {
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376 | StringBuilder sb = new StringBuilder("TheRing@");
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377 | sb.append(this.hashCode()).append('[').append("wayId: ").append(source == null ? "null" : source.getUniqueId()).append("; segments: ");
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378 | if( segments.isEmpty() )
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379 | sb.append("empty");
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380 | else {
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381 | sb.append(segments.get(0));
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382 | for( int i = 1; i < segments.size(); i++ )
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383 | sb.append(", ").append(segments.get(i));
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384 | }
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385 | return sb.append(']').toString();
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386 | }
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387 |
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388 | /**
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389 | * Appends "append" to "base" so the closed polygon forms.
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390 | */
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391 | private static void closePolygon( List<Node> base, List<Node> append ) {
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392 | if( append.get(0).equals(base.get(0)) && append.get(append.size() - 1).equals(base.get(base.size() - 1)) ) {
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393 | List<Node> ap2 = new ArrayList<Node>(append);
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394 | Collections.reverse(ap2);
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395 | append = ap2;
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396 | }
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397 | base.remove(base.size() - 1);
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398 | base.addAll(append);
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399 | }
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400 |
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401 | /**
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402 | * Checks if a middle point between two nodes is inside a polygon. Useful to check if the way is inside.
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403 | */
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404 | private static boolean segmentInsidePolygon( Node n1, Node n2, List<Node> polygon ) {
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405 | EastNorth en1 = n1.getEastNorth();
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406 | EastNorth en2 = n2.getEastNorth();
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407 | Node testNode = new Node(new EastNorth((en1.east() + en2.east()) / 2.0, (en1.north() + en2.north()) / 2.0));
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408 | return Geometry.nodeInsidePolygon(testNode, polygon);
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409 | }
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410 |
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411 | private static class RingSegment {
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412 | private List<Node> nodes;
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413 | private RingSegment references;
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414 | private Way resultingWay = null;
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415 | private boolean wasTemplateApplied = false;
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416 | private boolean isRing;
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417 |
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418 | private RingSegment() {
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419 | }
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420 |
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421 | public RingSegment( Way w ) {
|
---|
422 | this(w.getNodes());
|
---|
423 | }
|
---|
424 |
|
---|
425 | public RingSegment( List<Node> nodes ) {
|
---|
426 | this.nodes = nodes;
|
---|
427 | isRing = nodes.size() > 1 && nodes.get(0).equals(nodes.get(nodes.size() - 1));
|
---|
428 | if( isRing )
|
---|
429 | nodes.remove(nodes.size() - 1);
|
---|
430 | references = null;
|
---|
431 | }
|
---|
432 |
|
---|
433 | public RingSegment( RingSegment ref ) {
|
---|
434 | this.nodes = null;
|
---|
435 | this.references = ref;
|
---|
436 | }
|
---|
437 |
|
---|
438 | /**
|
---|
439 | * Splits this segment at node n. Retains nodes 0..n and moves
|
---|
440 | * nodes n..N to a separate segment that is returned.
|
---|
441 | * @param n node at which to split.
|
---|
442 | * @return new segment, {@code null} if splitting is unnecessary.
|
---|
443 | */
|
---|
444 | public RingSegment split( Node n ) {
|
---|
445 | if( nodes == null )
|
---|
446 | throw new IllegalArgumentException("Cannot split segment: it is a reference");
|
---|
447 | int pos = nodes.indexOf(n);
|
---|
448 | if( pos <= 0 || pos >= nodes.size() - 1 )
|
---|
449 | return null;
|
---|
450 | List<Node> newNodes = new ArrayList<Node>(nodes.subList(pos, nodes.size()));
|
---|
451 | nodes.subList(pos + 1, nodes.size()).clear();
|
---|
452 | return new RingSegment(newNodes);
|
---|
453 | }
|
---|
454 |
|
---|
455 | /**
|
---|
456 | * Split this segment as a way at two nodes. If one of them is null or at the end,
|
---|
457 | * split as an arc. Note: order of nodes is important.
|
---|
458 | * @return A new segment from n2 to n1.
|
---|
459 | */
|
---|
460 | public RingSegment split( Node n1, Node n2 ) {
|
---|
461 | if( nodes == null )
|
---|
462 | throw new IllegalArgumentException("Cannot split segment: it is a reference");
|
---|
463 | if( !isRing ) {
|
---|
464 | if( n1 == null || nodes.get(0).equals(n1) || nodes.get(nodes.size() - 1).equals(n1) )
|
---|
465 | return split(n2);
|
---|
466 | if( n2 == null || nodes.get(0).equals(n2) || nodes.get(nodes.size() - 1).equals(n2) )
|
---|
467 | return split(n1);
|
---|
468 | throw new IllegalArgumentException("Split for two nodes is called for not-ring: " + this);
|
---|
469 | }
|
---|
470 | int pos1 = nodes.indexOf(n1);
|
---|
471 | int pos2 = nodes.indexOf(n2);
|
---|
472 | if( pos1 == pos2 )
|
---|
473 | return null;
|
---|
474 |
|
---|
475 | List<Node> newNodes = new ArrayList<Node>();
|
---|
476 | if( pos2 > pos1 ) {
|
---|
477 | newNodes.addAll(nodes.subList(pos2, nodes.size()));
|
---|
478 | newNodes.addAll(nodes.subList(0, pos1 + 1));
|
---|
479 | if( pos2 + 1 < nodes.size() )
|
---|
480 | nodes.subList(pos2 + 1, nodes.size()).clear();
|
---|
481 | if( pos1 > 0 )
|
---|
482 | nodes.subList(0, pos1).clear();
|
---|
483 | } else {
|
---|
484 | newNodes.addAll(nodes.subList(pos2, pos1 + 1));
|
---|
485 | nodes.addAll(new ArrayList<Node>(nodes.subList(0, pos2 + 1)));
|
---|
486 | nodes.subList(0, pos1).clear();
|
---|
487 | }
|
---|
488 | isRing = false;
|
---|
489 | return new RingSegment(newNodes);
|
---|
490 | }
|
---|
491 |
|
---|
492 | public List<Node> getNodes() {
|
---|
493 | return nodes == null ? references.nodes : nodes;
|
---|
494 | }
|
---|
495 |
|
---|
496 | public List<Node> getWayNodes() {
|
---|
497 | if( nodes == null )
|
---|
498 | throw new IllegalArgumentException("Won't give you wayNodes: it is a reference");
|
---|
499 | List<Node> wayNodes = new ArrayList<Node>(nodes);
|
---|
500 | if( isRing )
|
---|
501 | wayNodes.add(wayNodes.get(0));
|
---|
502 | return wayNodes;
|
---|
503 | }
|
---|
504 |
|
---|
505 | public boolean isReference() {
|
---|
506 | return nodes == null;
|
---|
507 | }
|
---|
508 |
|
---|
509 | public boolean isRing() {
|
---|
510 | return isRing;
|
---|
511 | }
|
---|
512 |
|
---|
513 | public void makeReference( RingSegment segment ) {
|
---|
514 | System.out.println(this + " was made a reference to " + segment);
|
---|
515 | this.nodes = null;
|
---|
516 | this.references = segment;
|
---|
517 | }
|
---|
518 |
|
---|
519 | public void swapReference() {
|
---|
520 | this.nodes = references.nodes;
|
---|
521 | references.nodes = null;
|
---|
522 | references.references = this;
|
---|
523 | this.references = null;
|
---|
524 | }
|
---|
525 |
|
---|
526 | public boolean isWayConstructed() {
|
---|
527 | return isReference() ? references.isWayConstructed() : resultingWay != null;
|
---|
528 | }
|
---|
529 |
|
---|
530 | public Way constructWay( Way template ) {
|
---|
531 | if( isReference() )
|
---|
532 | return references.constructWay(template);
|
---|
533 | if( resultingWay == null ) {
|
---|
534 | resultingWay = new Way();
|
---|
535 | resultingWay.setNodes(getWayNodes());
|
---|
536 | }
|
---|
537 | if( template != null && !wasTemplateApplied ) {
|
---|
538 | resultingWay.setKeys(template.getKeys());
|
---|
539 | wasTemplateApplied = true;
|
---|
540 | }
|
---|
541 | return resultingWay;
|
---|
542 | }
|
---|
543 |
|
---|
544 | public void overrideWay( Way source ) {
|
---|
545 | if( isReference() )
|
---|
546 | references.overrideWay(source);
|
---|
547 | else {
|
---|
548 | resultingWay = source;
|
---|
549 | wasTemplateApplied = true;
|
---|
550 | }
|
---|
551 | }
|
---|
552 |
|
---|
553 | /**
|
---|
554 | * Compares two segments with respect to referencing.
|
---|
555 | * @return true if ways are equals, or one references another.
|
---|
556 | */
|
---|
557 | public boolean isReferencingEqual( RingSegment other ) {
|
---|
558 | return this.equals(other) || (other.isReference() && other.references == this) || (isReference() && references == other);
|
---|
559 | }
|
---|
560 |
|
---|
561 | @Override
|
---|
562 | public String toString() {
|
---|
563 | StringBuilder sb = new StringBuilder("RingSegment@");
|
---|
564 | sb.append(this.hashCode()).append('[');
|
---|
565 | if( isReference() )
|
---|
566 | sb.append("references ").append(references.hashCode());
|
---|
567 | else if( nodes.isEmpty() )
|
---|
568 | sb.append("empty");
|
---|
569 | else {
|
---|
570 | if( isRing )
|
---|
571 | sb.append("ring:");
|
---|
572 | sb.append(nodes.get(0).getUniqueId());
|
---|
573 | for( int i = 1; i < nodes.size(); i++ )
|
---|
574 | sb.append(',').append(nodes.get(i).getUniqueId());
|
---|
575 | }
|
---|
576 | return sb.append(']').toString();
|
---|
577 | }
|
---|
578 | }
|
---|
579 | }
|
---|