Changeset 26815 in osm for applications/editors/josm/plugins/reltoolbox/src/relcontext
- Timestamp:
- 2011-10-09T20:55:07+02:00 (13 years ago)
- File:
-
- 1 edited
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- Unmodified
- Added
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applications/editors/josm/plugins/reltoolbox/src/relcontext/actions/CreateMultipolygonAction.java
r26812 r26815 459 459 for( int j = i+1; j < rings.size(); j++ ) 460 460 rings.get(i).collide(rings.get(j)); 461 redistributeSegments(rings);461 TheRing.redistributeSegments(rings); 462 462 List<Command> commands = new ArrayList<Command>(); 463 463 List<Relation> relations = new ArrayList<Relation>(); … … 911 911 } 912 912 913 /**914 * Tries to arrange segments in order for each ring to have at least one.915 */916 public static void redistributeSegments( List<TheRing> rings ) {917 // todo918 }919 920 913 public static class TheRing { 921 914 private Way source; … … 930 923 931 924 public void collide( TheRing other ) { 932 System.out.println("Ring 1: " + this);933 System.out.println("Ring 2: " + other);934 925 List<Node> intersectionNodes = new ArrayList<Node>(); 935 926 List<RingSegment> segmentsList1 = new ArrayList<RingSegment>(segments); 936 927 List<RingSegment> segmentsList2 = new ArrayList<RingSegment>(other.segments); 928 boolean collideNoted = false; 937 929 for( int i = 0; i < segmentsList1.size(); i++ ) { 938 930 if( !segmentsList1.get(i).isReference() ) … … 953 945 if( colliding ) 954 946 intersectionNodes.add(nodes2.get(nodes2.size()-1)); 955 // todo:when an intersection of two rings spans a ring's beginning947 // when an intersection of two rings spans a ring's beginning 956 948 if( segmentsList1.get(i).isRing() && segmentsList2.get(j).isRing() && intersectionNodes.contains(nodes2.get(0)) && intersectionNodes.contains(nodes2.get(nodes2.size()-1)) ) { 957 949 intersectionNodes.remove(0); … … 959 951 intersectionNodes.add(intersectionNodes.get(0)); 960 952 intersectionNodes.remove(0); 953 } 954 if( !collideNoted && !intersectionNodes.isEmpty() ) { 955 System.out.println("Rings " + this + " and " + other + " collide."); 956 collideNoted = true; 961 957 } 962 958 System.out.print("Intersection nodes for segments " + segmentsList1.get(i) + " and " + segmentsList2.get(j) + ": "); … … 977 973 while( ni+1 < intersectionNodes.size() ) { 978 974 if( !segmentsList1.get(i).isReferencingEqual(segmentsList2.get(j)) ) { 979 System.out.println("Splitting segment 1: " + segmentsList1.get(i));980 System.out.println("Splitting segment 2: " + segmentsList2.get(j));981 975 boolean[] isarc = new boolean[] { 982 976 segments.size() == 1 && !segments.get(0).isRing(), … … 985 979 RingSegment segment = splitRingAt(i, intersectionNodes.get(ni), intersectionNodes.get(ni+1)); 986 980 RingSegment otherSegment = other.splitRingAt(j, intersectionNodes.get(ni), intersectionNodes.get(ni+1)); 987 if( !isarc[0] && !isarc[1] ) 988 segment.makeReference(otherSegment); 989 else { 981 if( !isarc[0] && !isarc[1] ) { 982 if( segments.size() > 2 ) 983 segment.makeReference(otherSegment); 984 else { 985 // this ring was a ring, and we're not sure "segment" is a correct segment 986 if( segments.get(0).getNodes().size() == otherSegment.getNodes().size() && 987 (segments.get(0).getNodes().get(1).equals(otherSegment.getNodes().get(1))) || 988 (segments.get(0).getNodes().get(segments.get(0).getNodes().size()-2).equals(otherSegment.getNodes().get(1)))) 989 segments.get(0).makeReference(otherSegment); 990 else 991 segments.get(1).makeReference(otherSegment); 992 } 993 } else { 990 994 // 1. A ring is an arc. It should have only 2 segments after this 991 995 // 2. But it has one, so add otherSegment as the second. 992 // todo:determine which segment!996 // 3. determine which segment! 993 997 if( isarc[0] ) { 994 998 if( other.segments.size() > 2 ) … … 1020 1024 } 1021 1025 } 1022 System.out.println("Resulting ring 1: " + this);1023 System.out.println("Resulting ring 2: " + other);1024 1026 } 1025 1027 … … 1052 1054 if( thirdPart != null ) 1053 1055 segments.add(pos++, thirdPart); 1054 for( int i = segmentIndex; i < pos; i++ )1055 System.out.println("Split result "+(i-segmentIndex+1) + ": "+segments.get(i));1056 1056 RingSegment result = isRing || secondPart == null ? segment : secondPart; 1057 1057 System.out.println("Returning segment " + result); 1058 1058 return result; 1059 } 1060 1061 /** 1062 * Tries to arrange segments in order for each ring to have at least one. 1063 * Also, sets source way for all rings. 1064 * 1065 * This method should be called, even if there is just one ring. 1066 */ 1067 public static void redistributeSegments( List<TheRing> rings ) { 1068 // build segments map 1069 Map<RingSegment, TheRing> segmentMap = new HashMap<RingSegment, TheRing>(); 1070 for( TheRing ring : rings ) 1071 for( RingSegment seg : ring.segments ) 1072 if( !seg.isReference()) 1073 segmentMap.put(seg, ring); 1074 1075 // rearrange references 1076 for( int i = 0; i < rings.size(); i++) { 1077 TheRing ring = rings.get(i); 1078 if( ring.countNonReferenceSegments() == 0 ) { 1079 // need to find one non-reference segment 1080 for( RingSegment seg : ring.segments ) { 1081 TheRing otherRing = segmentMap.get(seg.references); 1082 if( otherRing.countNonReferenceSegments() > 1 ) { 1083 // we could check for >0, but it is prone to deadlocking 1084 seg.swapReference(); 1085 } 1086 } 1087 } 1088 } 1089 1090 // initializing source way for each ring 1091 for( TheRing ring : rings ) 1092 ring.putSourceWayFirst(); 1093 } 1094 1095 private int countNonReferenceSegments() { 1096 int count = 0; 1097 for( RingSegment seg : segments ) 1098 if( !seg.isReference() ) 1099 count++; 1100 return count; 1101 } 1102 1103 private void putSourceWayFirst() { 1104 for( RingSegment seg : segments ) { 1105 if( !seg.isReference() ) { 1106 seg.overrideWay(source); 1107 return; 1108 } 1109 } 1059 1110 } 1060 1111 … … 1076 1127 } 1077 1128 1078 // todo: copy relations from source to all new ways 1079 1129 // build a map of referencing relations 1130 Map<Relation, Integer> referencingRelations = new HashMap<Relation, Integer>(); 1131 List<Command> relationCommands = new ArrayList<Command>(); 1132 for( OsmPrimitive p : source.getReferrers() ) { 1133 if( p instanceof Relation ) { 1134 Relation rel = new Relation((Relation)p); 1135 relationCommands.add(new ChangeCommand((Relation)p, rel)); 1136 for( int i = 0; i < rel.getMembersCount(); i++ ) 1137 if( rel.getMember(i).getMember().equals(source) ) 1138 referencingRelations.put(rel, Integer.valueOf(i)); 1139 } 1140 } 1141 1080 1142 List<Command> commands = new ArrayList<Command>(); 1081 1143 boolean foundOwnWay = false; 1082 Way w;1083 1144 for( RingSegment seg : segments ) { 1084 if( seg.isWayConstructed() || seg.isReference() || foundOwnWay ) { 1085 boolean needAdding = !seg.isWayConstructed(); 1086 w = seg.constructWay(seg.isReference() ? null : sourceCopy); 1087 if( needAdding ) 1088 commands.add(new AddCommand(w)); 1089 } else { 1090 w = source; 1145 boolean needAdding = !seg.isWayConstructed(); 1146 Way w = seg.constructWay(seg.isReference() ? null : sourceCopy); 1147 if( needAdding ) 1148 commands.add(new AddCommand(w)); 1149 if( w.equals(source) ) { 1091 1150 if( segments.size() == 1 ) { 1092 1151 // one segment means that it is a ring … … 1096 1155 } else 1097 1156 sourceCopy.setNodes(seg.getNodes()); 1098 seg.overrideWay(source);1099 1157 commands.add(new ChangeCommand(source, sourceCopy)); 1100 1158 foundOwnWay = true; 1159 } else { 1160 for( Relation rel : referencingRelations.keySet() ) { 1161 int relIndex = referencingRelations.get(rel); 1162 rel.addMember(new RelationMember(rel.getMember(relIndex).getRole(), w)); 1163 } 1101 1164 } 1102 1165 relation.addMember(new RelationMember("outer", w)); … … 1104 1167 if( !foundOwnWay ) 1105 1168 commands.add(new DeleteCommand(source)); 1169 commands.addAll(relationCommands); 1106 1170 commands.add(new AddCommand(relation)); 1107 1171 return commands; 1108 }1109 1110 private List<Node> constructRing() {1111 List<Node> result = new ArrayList<Node>();1112 for( RingSegment segment : segments )1113 result.addAll(segment.getNodes());1114 return result;1115 1172 } 1116 1173
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