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Slightly improve ring validation

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This commit is contained in:
Victor Shcherb 2012-09-24 21:50:06 +02:00
parent 3da9366685
commit a64904469f
1 changed files with 56 additions and 130 deletions
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182
DataExtractionOSM/src/net/osmand/data/Ring.java
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@ -11,8 +11,6 @@ import net.osmand.osm.Way;
/**
* A ring is a list of ways that form a simple boundary or an area. <p />
*
*
*
* @author sander
*
*/
@ -91,7 +89,6 @@ public class Ring implements Comparable<Ring> {
if (border != null) return;
//make a copy of the ways
List<Way> ways = new ArrayList<Way>(getWays());
@ -116,54 +113,25 @@ public class Ring implements Comparable<Ring> {
Way newWay = null;
Way addedTo = null;
// merge the Way w with the first borderway suitable;
for (Way borderWay : borderWays) {
if (w.getFirstNodeId() == borderWay.getFirstNodeId()) {
newWay = combineTwoWays(w, borderWay, true, true);
newWay = combineTwoWaysIfHasPoints(w, borderWay);
if(newWay != null) {
addedTo = borderWay;
break;
} else if (w.getFirstNodeId() == borderWay.getLastNodeId()) {
newWay = combineTwoWays(w, borderWay, true, false);
addedTo = borderWay;
break;
} else if (w.getLastNodeId() == borderWay.getLastNodeId()) {
newWay = combineTwoWays(w, borderWay, false, false);
addedTo = borderWay;
break;
} else if (w.getLastNodeId() == borderWay.getFirstNodeId()) {
newWay = combineTwoWays(w, borderWay, false, true);
addedTo = borderWay;
break;
}
}
if (newWay == null) {
// no suitable borderWay has been found, add this way as one of the boundaries
borderWays.add(w);
} else {
// ways are combined, remove the original borderway
borderWays.remove(addedTo);
addedTo = null;
// search if it can be combined with something else
for (Way borderWay : borderWays) {
if (newWay.getFirstNodeId() == borderWay.getFirstNodeId()) {
newWay = combineTwoWays(newWay, borderWay, true, true);
newWay = combineTwoWaysIfHasPoints(newWay, borderWay);
if(newWay != null) {
addedTo = borderWay;
break;
} else if (newWay.getFirstNodeId() == borderWay.getLastNodeId()) {
newWay = combineTwoWays(newWay, borderWay, true, false);
addedTo = borderWay;
break;
} else if (newWay.getLastNodeId() == borderWay.getLastNodeId()) {
newWay = combineTwoWays(newWay, borderWay, false, false);
addedTo = borderWay;
break;
} else if (newWay.getLastNodeId() == borderWay.getFirstNodeId()) {
newWay = combineTwoWays(newWay, borderWay, false, true);
addedTo = borderWay;
break;
}
}
@ -179,7 +147,7 @@ public class Ring implements Comparable<Ring> {
}
if (borderWays.size() != 1) {
border = new Way(randId());
border = new Way(nextRandId());
return;
}
@ -364,19 +332,12 @@ public class Ring implements Comparable<Ring> {
@Override
/**
* @param r the ring to compare with
* @return -1 if this is smaller than r <br />
* 1 if r is smaller than this <br />
* 0 if they have the same size
* Use area size as comparable metric
*/
@Override
public int compareTo(Ring r) {
double thisArea = getArea();
double rArea = r.getArea();
if (thisArea < rArea) return -1;
if (rArea < thisArea) return 1;
return 0;
return Double.compare(getArea(), r.getArea());
}
/**
@ -470,8 +431,6 @@ public class Ring implements Comparable<Ring> {
// only the case addedTo == 2 remains
// two multiLines have to be merged
if (firstMultiLine.get(firstMultiLine.size() - 1) == secondMultiLine.get(0)) {
// add the second to the first
secondMultiLine.remove(0) ;
@ -529,102 +488,69 @@ public class Ring implements Comparable<Ring> {
return result;
}
private static long initialValue = -1000;
private final static long randomInterval = 5000;
/**
* get a random long number
* @return
*/
private static long randId() {
return Math.round(Math.random()*Long.MIN_VALUE);
private static long nextRandId() {
// exclude duplicates in one session (!) and be quazirandom every run
long val = initialValue - Math.round(Math.random()*randomInterval);
initialValue = val;
return val;
}
/**
* make a new Way with the nodes from two other ways
* @param w1 the first way
* @param w2 the second way
* @param firstNodeW1 set true if the first node of w1 is also in the other way
* @param firstNodeW2 set true if the first node of w2 is also in the other way
* @return null if it is not possible
*/
private static Way combineTwoWays(Way w1, Way w2, boolean firstNodeW1, boolean firstNodeW2) {
Way newWay = new Way(randId());
if(w1.getNodes() != null || w1.getNodes().size() != 0) {
if (firstNodeW1 && firstNodeW2) {
// add the nodes of w1 in reversed order, without the first node
for (int i = w1.getNodes().size() - 1; i>0; i--) {
newWay.addNode(w1.getNodes().get(i));
}
//add the nodes from w2
for (Node n : w2.getNodes()) {
newWay.addNode(n);
}
} else if (firstNodeW1 && !firstNodeW2) {
// add all nodes from w2
for (Node n : w2.getNodes()) {
newWay.addNode(n);
}
// add the nodes from w1, except the first one
for (int i = 1; i < w1.getNodes().size(); i++) {
newWay.addNode(w1.getNodes().get(i));
}
} else if (!firstNodeW1 && firstNodeW2) {
// add all nodes from w1
for (Node n : w1.getNodes()) {
newWay.addNode(n);
}
// add the nodes from w2, except the first one
for (int i = 1; i < w2.getNodes().size(); i++) {
newWay.addNode(w2.getNodes().get(i));
}
} else if (!firstNodeW1 && !firstNodeW2) {
// add all nodes from w1
for (Node n : w1.getNodes()) {
newWay.addNode(n);
}
// add the nodes from w2 in reversed order, except the last one
for (int i = w2.getNodes().size() -2 ; i >= 0; i--) {
newWay.addNode(w2.getNodes().get(i));
}
}
private static Way combineTwoWaysIfHasPoints(Way w1, Way w2) {
boolean combine = true;
boolean firstReverse = false;
boolean secondReverse = false;
if(w1.getFirstNodeId() == w2.getFirstNodeId()) {
firstReverse = true;
secondReverse = false;
} else if(w1.getLastNodeId() == w2.getFirstNodeId()) {
firstReverse = false;
secondReverse = false;
} else if(w1.getLastNodeId() == w2.getLastNodeId()) {
firstReverse = false;
secondReverse = true;
} else if(w1.getFirstNodeId() == w2.getLastNodeId()) {
firstReverse = true;
secondReverse = true;
} else {
if (firstNodeW1 && firstNodeW2) {
// add the nodes of w1 in reversed order, without the first node
for (int i = w1.getNodeIds().size() - 1; i>0; i--) {
newWay.addNode(w1.getNodeIds().get(i));
combine = false;
}
//add the nodes from w2
for (int i = 0; i < w2.getNodeIds().size(); i++) {
newWay.addNode(w2.getNodeIds().get(i));
}
} else if (firstNodeW1 && !firstNodeW2) {
// add all nodes from w2
for (int i = 0; i < w2.getNodeIds().size(); i++) {
newWay.addNode(w2.getNodeIds().get(i));
}
// add the nodes from w1, except the first one
for (int i = 1; i < w1.getNodeIds().size(); i++) {
newWay.addNode(w1.getNodeIds().get(i));
}
} else if (!firstNodeW1 && firstNodeW2) {
// add all nodes from w1
for (int i = 0; i < w1.getNodeIds().size(); i++) {
newWay.addNode(w1.getNodeIds().get(i));
}
// add the nodes from w2, except the first one
for (int i = 1; i < w2.getNodeIds().size(); i++) {
newWay.addNode(w2.getNodeIds().get(i));
}
} else if (!firstNodeW1 && !firstNodeW2) {
// add all nodes from w1
for (int i = 0; i < w1.getNodeIds().size(); i++) {
newWay.addNode(w1.getNodeIds().get(i));
}
// add the nodes from w2 in reversed order, except the last one
for (int i = w2.getNodeIds().size() -2 ; i >= 0; i--) {
newWay.addNode(w2.getNodeIds().get(i));
if (combine) {
Way newWay = new Way(nextRandId());
boolean nodePresent = w1.getNodes() != null || w1.getNodes().size() != 0;
int w1size = nodePresent ? w1.getNodes().size() : w1.getNodeIds().size();
for (int i = 0; i < w1size; i++) {
int ind = firstReverse ? (w1size - 1 - i) : i;
if (nodePresent) {
newWay.addNode(w1.getNodes().get(ind));
} else {
newWay.addNode(w1.getNodeIds().get(ind));
}
}
int w2size = nodePresent ? w2.getNodes().size() : w2.getNodeIds().size();
for (int i = 1; i < w2size; i++) {
int ind = secondReverse ? (w2size - 1 - i) : i;
if (nodePresent) {
newWay.addNode(w2.getNodes().get(ind));
} else {
newWay.addNode(w2.getNodeIds().get(ind));
}
}
return newWay;
}
return null;
}