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// Axis aligned circles - hard-to-find precision errors possible with exact distances here
t = db.axisaligned
t.drop();
scale = [ 1, 10, 1000, 10000 ]
bits = [ 2, 3, 4, 5, 6, 7, 8, 9 ]
radius = [ 0.0001, 0.001, 0.01, 0.1 ]
center = [ [ 5, 52 ], [ 6, 53 ], [ 7, 54 ], [ 8, 55 ], [ 9, 56 ] ]
bound = []
for( var j = 0; j < center.length; j++ ) bound.push( [-180, 180] );
// Scale all our values to test different sizes
radii = []
centers = []
bounds = []
for( var s = 0; s < scale.length; s++ ){
for ( var i = 0; i < radius.length; i++ ) {
radii.push( radius[i] * scale[s] )
}
for ( var j = 0; j < center.length; j++ ) {
centers.push( [ center[j][0] * scale[s], center[j][1] * scale[s] ] )
bounds.push( [ bound[j][0] * scale[s], bound[j][1] * scale[s] ] )
}
}
radius = radii
center = centers
bound = bounds
for ( var b = 0; b < bits.length; b++ ) {
printjson( radius )
printjson( centers )
for ( var i = 0; i < radius.length; i++ ) {
for ( var j = 0; j < center.length; j++ ) {
printjson( { center : center[j], radius : radius[i], bits : bits[b] } );
t.drop()
// Make sure our numbers are precise enough for this test
if( (center[j][0] - radius[i] == center[j][0]) || (center[j][1] - radius[i] == center[j][1]) )
continue;
t.save( { "_id" : 1, "loc" : { "x" : center[j][0] - radius[i], "y" : center[j][1] } } );
t.save( { "_id" : 2, "loc" : { "x" : center[j][0], "y" : center[j][1] } } );
t.save( { "_id" : 3, "loc" : { "x" : center[j][0] + radius[i], "y" : center[j][1] } } );
t.save( { "_id" : 4, "loc" : { "x" : center[j][0], "y" : center[j][1] + radius[i] } } );
t.save( { "_id" : 5, "loc" : { "x" : center[j][0], "y" : center[j][1] - radius[i] } } );
t.save( { "_id" : 6, "loc" : { "x" : center[j][0] - radius[i], "y" : center[j][1] + radius[i] } } );
t.save( { "_id" : 7, "loc" : { "x" : center[j][0] + radius[i], "y" : center[j][1] + radius[i] } } );
t.save( { "_id" : 8, "loc" : { "x" : center[j][0] - radius[i], "y" : center[j][1] - radius[i] } } );
t.save( { "_id" : 9, "loc" : { "x" : center[j][0] + radius[i], "y" : center[j][1] - radius[i] } } );
t.ensureIndex( { loc : "2d" }, { max : bound[j][1], min : bound[j][0], bits : bits[b] } );
if( db.getLastError() ) continue;
print( "DOING WITHIN QUERY ")
r = t.find( { "loc" : { "$within" : { "$center" : [ center[j], radius[i] ] } } } );
//printjson( r.toArray() );
assert.eq( 5, r.count() );
// FIXME: surely code like this belongs in utils.js.
a = r.toArray();
x = [];
for ( k in a )
x.push( a[k]["_id"] )
x.sort()
assert.eq( [ 1, 2, 3, 4, 5 ], x );
print( " DOING NEAR QUERY ")
//printjson( center[j] )
r = t.find( { loc : { $near : center[j], $maxDistance : radius[i] } }, { _id : 1 } )
assert.eq( 5, r.count() );
print( " DOING DIST QUERY ")
a = db.runCommand({ geoNear : "axisaligned", near : center[j], maxDistance : radius[i] }).results
assert.eq( 5, a.length );
//printjson( a );
var distance = 0;
for( var k = 0; k < a.length; k++ ){
//print( a[k].dis )
//print( distance )
assert.gte( a[k].dis, distance );
//printjson( a[k].obj )
//print( distance = a[k].dis );
}
r = t.find( { loc : { $within : { $box : [ [ center[j][0] - radius[i], center[j][1] - radius[i] ], [ center[j][0] + radius[i], center[j][1] + radius[i] ] ] } } }, { _id : 1 } )
assert.eq( 9, r.count() );
}
}
}
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