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/*
* Copyright (c) 2009.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 3 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.
*/
package uk.me.parabola.splitter;
import java.awt.Point;
import java.awt.Polygon;
import java.awt.Rectangle;
import java.awt.geom.Path2D;
import java.awt.geom.PathIterator;
import java.io.BufferedInputStream;
import java.io.File;
import java.io.FileInputStream;
import java.io.IOException;
import java.io.InputStream;
import java.io.InputStreamReader;
import java.io.Reader;
import java.nio.charset.Charset;
import java.text.NumberFormat;
import java.util.ArrayList;
import java.util.List;
import java.util.zip.GZIPInputStream;
import java.util.zip.ZipEntry;
import java.util.zip.ZipInputStream;
import org.apache.tools.bzip2.CBZip2InputStream;
/**
* Some miscellaneous functions that are used within the .img code.
*
* @author Steve Ratcliffe
*/
public class Utils
{
private static final NumberFormat FORMATTER =
NumberFormat.
getIntegerInstance();
public static String format
(int number
) {
return FORMATTER.
format(number
);
}
public static String format
(long number
) {
return FORMATTER.
format(number
);
}
public static double toDegrees
(int val
) {
return (double) val /
((1 << 24) /
360.0);
}
/**
* A map unit is an integer value that is 1/(2^24) degrees of latitude or
* longitude.
*
* @param l The lat or long as decimal degrees.
* @return An integer value in map units.
*/
public static int toMapUnit
(double l
) {
double DELTA =
0.000001; // TODO check if we really mean this
if (l
> 0)
return (int) ((l + DELTA
) * (1 << 24)/
360);
else
return (int) ((l - DELTA
) * (1 << 24)/
360);
}
public static double toRadians
(int latitude
) {
return toDegrees
(latitude
) * Math.
PI /
180;
}
/**
* @param n the integer to test
* @return {@code true} if the integer is a power of two, {@code false} otherwise.
*/
public static boolean isPowerOfTwo
(int n
) {
return ((n
& (n -
1)) ==
0) && n
> 0;
}
/**
* Open a file and apply filters necessary to reading it such as decompression.
*
* @param name The file to open. gz, zip, bz2 are supported.
* @return A stream that will read the file, positioned at the beginning.
* @throws IOException If the file cannot be opened for any reason.
*/
@
SuppressWarnings("resource")
public static Reader openFile
(String name,
boolean backgroundReader
) throws IOException {
InputStream is =
new BufferedInputStream(new FileInputStream(name
),
8192);
if (name.
endsWith(".gz")) {
try {
is =
new GZIPInputStream(is
);
} catch (IOException e
) {
throw new IOException( "Could not read " + name +
" as a gz compressed file", e
);
}
} else if (name.
endsWith(".bz2")) {
try {
is.
read(); is.
read();
is =
new CBZip2InputStream
(is
);
} catch (IOException e
) {
throw new IOException( "Could not read " + name +
" as a bz2 compressed file", e
);
}
} else if (name.
endsWith(".zip")) {
ZipInputStream zis =
new ZipInputStream(is
);
name =
new File(name
).
getName(); // Strip off any path
ZipEntry entry
;
while ((entry = zis.
getNextEntry()) !=
null) {
if (entry.
getName().
startsWith(name.
substring(0, name.
length() -
4))) {
is = zis
;
break;
}
}
if (is
!= zis
) {
zis.
close();
throw new IOException("Unable to find a file inside " + name +
" that starts with " + name.
substring(0, name.
length() -
4));
}
}
if (backgroundReader
) {
is =
new BackgroundInputStream
(is
);
}
return new InputStreamReader(is,
Charset.
forName("UTF-8"));
}
public static Rectangle area2Rectangle
(Area area,
int overlap
){
return new Rectangle(area.
getMinLong()-overlap, area.
getMinLat()-overlap,area.
getWidth()+
2*overlap,area.
getHeight()+
2*overlap
);
}
/**
* Convert area into a list of polygons each represented by a list
* of points. It is possible that the area contains multiple discontinuous
* polygons, so you may append more than one shape to the output list.<br/>
* <b>Attention:</b> The outline of the polygon has clockwise order whereas
* holes in the polygon have counterclockwise order.
*
* Taken from Java2DConverter by WanMil in mkgmap
* @param area The area to be converted.
* @return a list of closed polygons
*/
public static List<List<Point>> areaToShapes
(java.
awt.
geom.
Area area
) {
List<List<Point>> outputs =
new ArrayList<List<Point>>(4);
float[] res =
new float[6];
PathIterator pit = area.
getPathIterator(null);
List<Point> points =
null;
int iPrevLat =
Integer.
MIN_VALUE;
int iPrevLong =
Integer.
MIN_VALUE;
while (!pit.
isDone()) {
int type = pit.
currentSegment(res
);
float fLat = res
[1];
float fLon = res
[0];
int iLat =
Math.
round(fLat
);
int iLon =
Math.
round(fLon
);
switch (type
) {
case PathIterator.
SEG_LINETO:
if (iPrevLat
!= iLat || iPrevLong
!= iLon
)
points.
add(new Point(iLon,iLat
));
iPrevLat = iLat
;
iPrevLong = iLon
;
break;
case PathIterator.
SEG_MOVETO:
case PathIterator.
SEG_CLOSE:
if ((type ==
PathIterator.
SEG_MOVETO && points
!=
null) || type ==
PathIterator.
SEG_CLOSE) {
if (points.
size() > 2 && points.
get(0).
equals(points.
get(points.
size() -
1)) ==
false) {
points.
add(points.
get(0));
}
if (points.
size() > 3){
outputs.
add(points
);
}
}
if (type ==
PathIterator.
SEG_MOVETO){
points =
new ArrayList<Point>();
points.
add(new Point(iLon,iLat
));
iPrevLat = iLat
;
iPrevLong = iLon
;
} else {
points =
null;
iPrevLat =
Integer.
MIN_VALUE;
iPrevLong =
Integer.
MIN_VALUE;
}
break;
default:
System.
out.
println("Unsupported path iterator type " + type
+
". This is an mkgmap error.");
}
pit.
next();
}
return outputs
;
}
/**
* Convert list of points which describe a closed polygon to an area
* Taken from Java2DConverter by WanMil in mkgmap
* @param shape
* @return
*/
public static java.
awt.
geom.
Area shapeToArea
(List<Point> shape
){
Polygon polygon =
new Polygon();
for (Point point : shape
) {
polygon.
addPoint(point.
x, point.
y);
}
return new java.
awt.
geom.
Area(polygon
);
}
/**
* Convert area with coordinates in degrees to area in MapUnits
* @param area
* @return
*/
public static java.
awt.
geom.
Area AreaDegreesToMapUnit
(java.
awt.
geom.
Area area
){
if (area ==
null)
return null;
double[] res =
new double[6];
Path2D path =
new Path2D.
Double();
PathIterator pit = area.
getPathIterator(null);
while (!pit.
isDone()) {
int type = pit.
currentSegment(res
);
double fLat = res
[1];
double fLon = res
[0];
int lat = toMapUnit
(fLat
);
int lon = toMapUnit
(fLon
);
switch (type
) {
case PathIterator.
SEG_LINETO:
path.
lineTo(lon, lat
);
break;
case PathIterator.
SEG_MOVETO:
path.
moveTo(lon, lat
);
break;
case PathIterator.
SEG_CLOSE:
path.
closePath();
break;
default:
System.
out.
println("Unsupported path iterator type " + type
+
". This is an mkgmap error.");
}
pit.
next();
}
return new java.
awt.
geom.
Area(path
);
}
// returns true if the way is a closed polygon with a clockwise
// direction
public static boolean clockwise
(List<Point> points
) {
if(points.
size() < 3 ||
!points.
get(0).
equals(points.
get(points.
size() -
1)))
return false;
long area =
0;
Point p1 = points.
get(0);
for(int i =
1; i
< points.
size(); ++i
) {
Point p2 = points.
get(i
);
area +=
((long)p1.
x * p2.
y-
(long)p2.
x * p1.
y);
p1 = p2
;
}
// this test looks to be inverted but gives the expected result!
// empty linear areas are defined as clockwise
return area
<=
0;
}
public static void printMem
(){
long maxMem =
Runtime.
getRuntime().
maxMemory() /
1024 /
1024;
long totalMem =
Runtime.
getRuntime().
totalMemory() /
1024 /
1024;
long freeMem =
Runtime.
getRuntime().
freeMemory() /
1024 /
1024;
long usedMem = totalMem - freeMem
;
System.
out.
println(" JVM Memory Info: Current " + totalMem +
"MB (" + usedMem +
"MB used, " + freeMem +
"MB free) Max " + maxMem +
"MB");
}
}