Revised set_bucket implementation.
- sink some inline methods into the .cxx file - add isValid test to SGBucket - sgGetBuckets won't return invalid buckets near the poles - additional unit tests
This commit is contained in:
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748b13850a
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5fa0931a89
@ -27,17 +27,41 @@
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# include <simgear_config.h>
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#endif
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#include <math.h>
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#include <cmath>
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#include <iostream>
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#include <simgear/misc/sg_path.hxx>
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#include <simgear/debug/logstream.hxx>
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#include "newbucket.hxx"
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// default constructor
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SGBucket::SGBucket() {
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SGBucket::SGBucket() :
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lon(-1000),
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lat(-1000),
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x(0),
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y(0)
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{
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}
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bool SGBucket::isValid() const
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{
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// The most northerly valid latitude is 89, not 90. There is no tile
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// whose *bottom* latitude is 90. Similar there is no tile whose left egde
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// is 180 longitude.
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return (lon >= -180) &&
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(lon < 180) &&
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(lat >= -90) &&
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(lat < 90) &&
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(x < 8) && (y < 8);
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}
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void SGBucket::make_bad()
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{
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lon = -1000;
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lat = -1000;
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}
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// constructor for specified location
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SGBucket::SGBucket(const double dlon, const double dlat) {
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@ -45,18 +69,10 @@ SGBucket::SGBucket(const double dlon, const double dlat) {
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}
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SGBucket::SGBucket(const SGGeod& geod) {
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set_bucket(geod);
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set_bucket(geod.getLongitudeDeg(),
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geod.getLatitudeDeg());
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}
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// create an impossible bucket if false
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SGBucket::SGBucket(const bool is_good) {
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set_bucket(0.0, 0.0);
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if ( !is_good ) {
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lon = -1000;
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}
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}
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// Parse a unique scenery tile index and find the lon, lat, x, and y
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SGBucket::SGBucket(const long int bindex) {
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long int index = bindex;
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@ -75,38 +91,45 @@ SGBucket::SGBucket(const long int bindex) {
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x = index;
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}
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// Set the bucket params for the specified lat and lon
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void SGBucket::set_bucket( double dlon, double dlat ) {
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//
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// latitude first
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//
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double span = sg_bucket_span( dlat );
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double diff = dlon - (double)(int)dlon;
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// cout << "diff = " << diff << " span = " << span << endl;
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/* Calculate the greatest integral longitude less than
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* or equal to the given longitude (floor(dlon)),
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* but attribute coordinates near the east border
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* to the next tile.
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/* Calculate the greatest integral value less than
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* or equal to the given value (floor(x)),
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* but attribute coordinates close to the boundary to the next
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* (increasing) integral
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*/
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if ( (dlon >= 0) || (fabs(diff) < SG_EPSILON) ) {
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lon = (int)dlon;
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static int floorWithEpsilon(double x)
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{
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double diff = x - static_cast<int>(x);
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if ( (x >= 0.0) || (fabs(diff) < SG_EPSILON) ) {
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return static_cast<int>(x);
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} else {
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lon = (int)dlon - 1;
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return static_cast<int>(x) - 1;
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}
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}
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// Set the bucket params for the specified lat and lon
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void SGBucket::set_bucket( double dlon, double dlat )
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{
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if ((dlon < -180.0) || (dlon >= 180.0)) {
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SG_LOG(SG_TERRAIN, SG_WARN, "SGBucket::set_bucket: passed longitude:" << dlon);
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dlon = SGMiscd::normalizePeriodic(-180.0, 180.0, dlon);
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}
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if ((dlat < -90.0) || (dlat > 90.0)) {
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SG_LOG(SG_TERRAIN, SG_WARN, "SGBucket::set_bucket: passed latitude" << dlat);
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dlat = SGMiscd::clip(dlat, -90.0, 90.0);
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}
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//
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// longitude first
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//
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double span = sg_bucket_span( dlat );
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// we do NOT need to special case lon=180 here, since
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// normalizePeriodic will never return 180; it will
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// return -180, which is what we want.
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lon = floorWithEpsilon(dlon);
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// find subdivision or super lon if needed
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if ( span < SG_EPSILON ) {
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/* sg_bucket_span() never returns 0.0
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* or anything near it, so this really
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* should not occur at any time.
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*/
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// polar cap
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lon = 0;
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x = 0;
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} else if ( span <= 1.0 ) {
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if ( span <= 1.0 ) {
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/* We have more than one tile per degree of
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* longitude, so we need an x offset.
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*/
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@ -123,44 +146,29 @@ void SGBucket::set_bucket( double dlon, double dlat ) {
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*
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* That way, the Greenwich Meridian is always
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* a tile border.
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*
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* This gets us into trouble with the polar caps,
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* which have width 360 and thus either span
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* the range from 0 to 360 or from -360 to 0
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* degrees, depending on whether lon is positive
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* or negative!
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*
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* We also get into trouble with the 8 degree tiles
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* north of 88N and south of 88S, because the west-
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* and east-most tiles in that range will cover 184W
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* to 176W and 176E to 184E respectively, with their
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* center at 180E/W!
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*/
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lon=(int)floor(floor((lon+SG_EPSILON)/span)*span);
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/* Correct the polar cap issue */
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if ( lon < -180 ) {
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lon = -180;
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}
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lon=static_cast<int>(floor(lon / span) * span);
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x = 0;
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}
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//
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// then latitude
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//
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diff = dlat - (double)(int)dlat;
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lat = floorWithEpsilon(dlat);
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/* Again, a modified floor() function (see longitude) */
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if ( (dlat >= 0) || (fabs(diff) < SG_EPSILON) ) {
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lat = (int)dlat;
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// special case when passing in the north pole point (possibly due to
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// clipping latitude above). Ensures we generate a valid bucket in this
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// scenario
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if (lat == 90) {
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lat = 89;
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y = 7;
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} else {
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lat = (int)dlat - 1;
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}
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/* Latitude base and offset are easier, as
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* tiles always are 1/8 degree of latitude wide.
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*/
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y = (int)((dlat - lat) * 8);
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}
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}
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void SGBucket::set_bucket(const SGGeod& geod)
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{
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@ -256,7 +264,18 @@ double SGBucket::get_height_m() const {
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SGBucket SGBucket::sibling(int dx, int dy) const
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{
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if (!isValid()) {
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SG_LOG(SG_TERRAIN, SG_WARN, "SGBucket::sibling: requesting sibling of invalid bucket");
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return SGBucket();
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}
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double clat = get_center_lat() + dy * SG_BUCKET_SPAN;
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// return invalid here instead of clipping, so callers can discard
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// invalid buckets without having to check if it's an existing one
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if ((clat < -90.0) || (clat > 90.0)) {
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return SGBucket();
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}
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// find the lon span for the new latitude
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double span = sg_bucket_span( clat );
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@ -265,6 +284,15 @@ SGBucket SGBucket::sibling(int dx, int dy) const
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return SGBucket(tmp, clat);
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}
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std::string SGBucket::gen_index_str() const
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{
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char tmp[20];
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std::snprintf(tmp, 20, "%ld",
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(((long)lon + 180) << 14) + ((lat + 90) << 6)
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+ (y << 3) + x);
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return (std::string)tmp;
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}
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// find the bucket which is offset by the specified tile units in the
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// X & Y direction. We need the current lon and lat to resolve
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// ambiguities when going from a wider tile to a narrower one above or
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@ -354,8 +382,20 @@ void sgGetBuckets( const SGGeod& min, const SGGeod& max, std::vector<SGBucket>&
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for (lat = min.getLatitudeDeg(); lat <= max.getLatitudeDeg(); lat += SG_BUCKET_SPAN) {
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span = sg_bucket_span( lat );
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for (lon = min.getLongitudeDeg(); lon <= max.getLongitudeDeg(); lon += span) {
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list.push_back( SGBucket(lon , lat) );
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for (lon = min.getLongitudeDeg(); lon <= max.getLongitudeDeg(); lon += span)
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{
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SGBucket b(lon, lat);
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if (!b.isValid()) {
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continue;
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}
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list.push_back(b);
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}
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}
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}
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std::ostream& operator<< ( std::ostream& out, const SGBucket& b )
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{
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return out << b.lon << ":" << (int)b.x << ", " << b.lat << ":" << (int)b.y;
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}
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@ -39,9 +39,8 @@
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#include <simgear/math/SGMath.hxx>
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#include <cmath>
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#include <cstdio> // sprintf()
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#include <ostream>
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#include <string>
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#include <iosfwd>
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#include <vector>
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/**
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@ -99,16 +98,21 @@ class SGBucket {
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private:
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short lon; // longitude index (-180 to 179)
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short lat; // latitude index (-90 to 89)
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char x; // x subdivision (0 to 7)
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char y; // y subdivision (0 to 7)
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unsigned char x; // x subdivision (0 to 7)
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unsigned char y; // y subdivision (0 to 7)
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public:
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/**
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* Default constructor.
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* Default constructor, creates an invalid SGBucket
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*/
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SGBucket();
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/**
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* Check if this bucket refers to a valid tile, or not.
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*/
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bool isValid() const;
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/**
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* Construct a bucket given a specific location.
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* @param dlon longitude specified in degrees
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@ -123,14 +127,6 @@ public:
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*/
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SGBucket(const SGGeod& geod);
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/** Construct a bucket.
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* @param is_good if false, create an invalid bucket. This is
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* useful * if you are comparing cur_bucket to last_bucket and
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* you want to * make sure last_bucket starts out as something
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* impossible.
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*/
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SGBucket(const bool is_good);
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/** Construct a bucket given a unique bucket index number.
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* @param bindex unique bucket index
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*/
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@ -156,10 +152,7 @@ public:
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* and you want to make sure last_bucket starts out as something
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* impossible.
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*/
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inline void make_bad() {
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set_bucket(0.0, 0.0);
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lon = -1000;
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}
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void make_bad();
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/**
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* Generate the unique scenery tile index for this bucket
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@ -185,13 +178,7 @@ public:
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* string form.
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* @return tile index in string form
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*/
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inline std::string gen_index_str() const {
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char tmp[20];
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std::sprintf(tmp, "%ld",
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(((long)lon + 180) << 14) + ((lat + 90) << 6)
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+ (y << 3) + x);
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return (std::string)tmp;
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}
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std::string gen_index_str() const;
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/**
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* Build the base path name for this bucket.
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@ -335,12 +322,7 @@ void sgGetBuckets( const SGGeod& min, const SGGeod& max, std::vector<SGBucket>&
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* @param out output stream
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* @param b bucket
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*/
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inline std::ostream&
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operator<< ( std::ostream& out, const SGBucket& b )
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{
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return out << b.lon << ":" << (int)b.x << ", " << b.lat << ":" << (int)b.y;
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}
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std::ostream& operator<< ( std::ostream& out, const SGBucket& b );
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/**
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* Compare two bucket structures for equality.
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@ -52,6 +52,7 @@ void testBasic()
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COMPARE(b1.get_y(), 0);
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COMPARE(b1.gen_index(), 3040320);
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COMPARE(b1.gen_base_path(), "e000n50/e005n55");
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VERIFY(b1.isValid());
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SGBucket b2(-10.1, -43.8);
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COMPARE(b2.get_chunk_lon(), -11);
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@ -59,6 +60,7 @@ void testBasic()
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COMPARE(b2.get_x(), 3);
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COMPARE(b2.get_y(), 1); // latitude chunks numbered bottom to top, it seems
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COMPARE(b2.gen_base_path(), "w020s50/w011s44");
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VERIFY(b2.isValid());
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SGBucket b3(123.48, 9.01);
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COMPARE(b3.get_chunk_lon(), 123);
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@ -66,7 +68,37 @@ void testBasic()
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COMPARE(b3.get_x(), 3);
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COMPARE(b3.get_y(), 0);
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COMPARE(b3.gen_base_path(), "e120n00/e123n09");
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VERIFY(b3.isValid());
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SGBucket defBuck;
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VERIFY(!defBuck.isValid());
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b3.make_bad();
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VERIFY(!b3.isValid());
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SGBucket atAntiMeridian(180.0, 12.3);
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VERIFY(atAntiMeridian.isValid());
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COMPARE(atAntiMeridian.get_chunk_lon(), -180);
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COMPARE(atAntiMeridian.get_x(), 0);
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SGBucket atAntiMeridian2(-180.0, -78.1);
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VERIFY(atAntiMeridian2.isValid());
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COMPARE(atAntiMeridian2.get_chunk_lon(), -180);
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COMPARE(atAntiMeridian2.get_x(), 0);
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// check comparisom operator overload
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SGBucket b4(5.11, 55.1);
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VERIFY(b1 == b4); // should be equal
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VERIFY(b1 == b1);
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VERIFY(b1 != defBuck);
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VERIFY(b1 != b2);
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// check wrapping/clipping of inputs
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SGBucket wrapMeridian(-200.0, 45.0);
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COMPARE(wrapMeridian.get_chunk_lon(), 160);
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SGBucket clipPole(48.9, 91);
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COMPARE(clipPole.get_chunk_lat(), 89);
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}
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void testPolar()
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@ -78,6 +110,11 @@ void testPolar()
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COMPARE(b1.get_x(), 0);
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COMPARE(b1.get_y(), 7);
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COMPARE(b2.get_chunk_lat(), 89);
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COMPARE(b2.get_chunk_lon(), 0);
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COMPARE(b2.get_x(), 0);
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COMPARE(b2.get_y(), 7);
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COMPARE(b1.gen_index(), b2.gen_index());
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SGGeod actualNorthPole1 = b1.get_corner(2);
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@ -108,9 +145,8 @@ void testPolar()
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COMPARE_EP(actualSouthPole2.getLatitudeDeg(), -90.0);
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COMPARE_EP(actualSouthPole2.getLongitudeDeg(), -168);
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// no automatic wrapping of these values occurs
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SGBucket b7(200, 89.88);
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COMPARE(b7.get_chunk_lon(), 192);
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COMPARE(b7.get_chunk_lon(), -168);
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}
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@ -198,16 +234,11 @@ void testPolarOffset()
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COMPARE(b6.gen_index(), sgBucketOffset(177, 87.3, 1, 1));
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#if 0
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// offset vertically towards the pole
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SGBucket b3(b1.sibling(0, -5));
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COMPARE(b3.get_chunk_lat(), -90);
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COMPARE(b3.get_chunk_lon(), -12);
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COMPARE(b3.get_x(), 0);
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COMPARE(b3.get_y(), 0);
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SGBucket b7(b1.sibling(0, -5));
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VERIFY(!b7.isValid());
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COMPARE(b3.gen_index(), sgBucketOffset(-11.7, -89.6, 0, 0));
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#endif
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VERIFY(!SGBucket(0, 90).sibling(0, 1).isValid());
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}
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// test behaviour of bucket-offset near the anti-meridian (180-meridian)
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