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/*
* Copyright (C) 2007 Steve Ratcliffe
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 as
* published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
*
* Author: Steve Ratcliffe
* Create date: Dec 1, 2007
*/
package uk.me.parabola.mkgmap.filters;
import java.util.ArrayList;
import java.util.List;
import uk.me.parabola.imgfmt.app.Coord;
import uk.me.parabola.log.Logger;
import uk.me.parabola.mkgmap.general.MapElement;
import uk.me.parabola.mkgmap.general.MapLine;
import uk.me.parabola.mkgmap.general.MapRoad;
import uk.me.parabola.mkgmap.general.MapShape;
/**
* A filter that ensures that a line does not exceed the allowed number of
* points that a line can have. If the line is split, the last part
* will have at least 50 points to avoid that too small parts are filtered later.
*
* @author Steve Ratcliffe
*/
public class LineSplitterFilter
implements MapFilter
{
private static final Logger log =
Logger.
getLogger(LineSplitterFilter.
class);
// Not sure of the value, probably 255. Say 250 here.
public static final int MAX_POINTS_IN_LINE =
250;
public static final int MIN_POINTS_IN_LINE =
50;
private int level
;
private boolean isRoutable
;
public void init
(FilterConfig config
) {
this.
level = config.
getLevel();
this.
isRoutable = config.
isRoutable();
}
/**
* If the line is short enough then we just pass it on straight away.
* Otherwise we cut it into pieces that are short enough and hand them
* on.
*
* @param element A map element.
* @param next This is used to pass the possibly transformed element onward.
*/
public void doFilter
(MapElement element, MapFilterChain next
) {
// We do not deal with shapes.
assert !(element
instanceof MapShape
) && element
instanceof MapLine
;
MapLine line =
(MapLine
) element
;
List<Coord
> points = line.
getPoints();
int npoints = points.
size();
if (npoints
<= MAX_POINTS_IN_LINE
) {
next.
doFilter(element
);
return;
}
log.
debug("line has too many points, splitting");
if(line.
isRoad() && level ==
0 && isRoutable
) {
MapRoad road =
((MapRoad
)line
);
if (log.
isDebugEnabled())
log.
debug("Way " + road.
getRoadDef() +
" has more than "+ MAX_POINTS_IN_LINE +
" points and is about to be split");
}
MapLine l = line.
copy();
List<Coord
> coords =
new ArrayList<Coord
>();
int count =
0;
boolean first =
true;
int remaining = points.
size();
int wantedSize =
(remaining
< MAX_POINTS_IN_LINE + MIN_POINTS_IN_LINE
) ? remaining /
2 +
10 : MAX_POINTS_IN_LINE
;
for (Coord co : points
) {
coords.
add(co
);
--remaining
;
if (++count
>= wantedSize
) {
if (first
)
log.
debug("saving first part");
else
log.
debug("saving next part");
l.
setPoints(coords
);
if (l
instanceof MapRoad
){
((MapRoad
)l
).
setSegmentsFollowing(true);
}
next.
doFilter(l
);
l = line.
copy();
count =
0;
first =
false;
coords =
new ArrayList<Coord
>();
coords.
add(co
);
// make sure that the last part has at least 50 points
if (remaining
> MAX_POINTS_IN_LINE
&& remaining
< MAX_POINTS_IN_LINE + MIN_POINTS_IN_LINE
)
wantedSize = remaining /
2 +
10;
}
}
if (count
!=
0) {
log.
debug("saving a final part");
l.
setPoints(coords
);
next.
doFilter(l
);
}
}
}