189 lines
6.9 KiB
JavaScript
189 lines
6.9 KiB
JavaScript
function downloadBaiduTiles(){
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var EARTHRADIUS = 6370996.81;
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var MCBAND = [ 12890594.86, 8362377.87, 5591021, 3481989.83,
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1678043.12, 0 ];
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var LLBAND = [ 75, 60, 45, 30, 15, 0 ];
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var MC2LL = [
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[ 1.410526172116255e-8, 0.00000898305509648872,
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-1.9939833816331, 200.9824383106796,
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-187.2403703815547, 91.6087516669843,
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-23.38765649603339, 2.57121317296198,
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-0.03801003308653, 17337981.2 ],
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[ -7.435856389565537e-9, 0.000008983055097726239,
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-0.78625201886289, 96.32687599759846,
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-1.85204757529826, -59.36935905485877,
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47.40033549296737, -16.50741931063887,
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2.28786674699375, 10260144.86 ],
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[ -3.030883460898826e-8, 0.00000898305509983578,
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0.30071316287616, 59.74293618442277,
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7.357984074871, -25.38371002664745,
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13.45380521110908, -3.29883767235584,
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0.32710905363475, 6856817.37 ],
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[ -1.981981304930552e-8, 0.000008983055099779535,
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0.03278182852591, 40.31678527705744,
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0.65659298677277, -4.44255534477492,
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0.85341911805263, 0.12923347998204,
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-0.04625736007561, 4482777.06 ],
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[ 3.09191371068437e-9, 0.000008983055096812155,
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0.00006995724062, 23.10934304144901,
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-0.00023663490511, -0.6321817810242,
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-0.00663494467273, 0.03430082397953,
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-0.00466043876332, 2555164.4 ],
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[ 2.890871144776878e-9, 0.000008983055095805407,
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-3.068298e-8, 7.47137025468032,
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-0.00000353937994, -0.02145144861037,
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-0.00001234426596, 0.00010322952773,
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-0.00000323890364, 826088.5 ] ];
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var LL2MC = [
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[ -0.0015702102444, 111320.7020616939,
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1704480524535203, -10338987376042340,
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26112667856603880, -35149669176653700,
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26595700718403920, -10725012454188240,
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1800819912950474, 82.5 ],
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[ 0.0008277824516172526, 111320.7020463578,
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647795574.6671607, -4082003173.641316,
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10774905663.51142, -15171875531.51559,
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12053065338.62167, -5124939663.577472,
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913311935.9512032, 67.5 ],
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[ 0.00337398766765, 111320.7020202162,
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4481351.045890365, -23393751.19931662,
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79682215.47186455, -115964993.2797253,
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97236711.15602145, -43661946.33752821,
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8477230.501135234, 52.5 ],
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[ 0.00220636496208, 111320.7020209128,
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51751.86112841131, 3796837.749470245,
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992013.7397791013, -1221952.21711287,
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1340652.697009075, -620943.6990984312,
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144416.9293806241, 37.5 ],
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[ -0.0003441963504368392, 111320.7020576856,
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278.2353980772752, 2485758.690035394,
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6070.750963243378, 54821.18345352118,
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9540.606633304236, -2710.55326746645,
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1405.483844121726, 22.5 ],
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[ -0.0003218135878613132, 111320.7020701615,
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0.00369383431289, 823725.6402795718,
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0.46104986909093, 2351.343141331292,
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1.58060784298199, 8.77738589078284,
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0.37238884252424, 7.45 ] ];
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function Point(lng, lat){
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this.lng = lng;
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this.lat = lat;
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}
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function convertor (point, ll2mc) {
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if (!point || !ll2mc) {
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return
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}
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// 经度的转换比较简单,一个简单的线性转换就可以了。
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// 0、1的数量级别是这样的-0.0015702102444, 111320.7020616939
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var x = ll2mc[0] + ll2mc[1] * Math.abs(point.lng);
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// 先计算一个线性关系,其中9的数量级是这样的:67.5,a的估值大约是一个个位数
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var a = Math.abs(point.lat) / ll2mc[9];
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// 维度的转换相对比较复杂,y=b+ca+da^2+ea^3+fa^4+ga^5+ha^6
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// 其中,a是维度的线性转换,而最终值则是一个六次方的多项式,2、3、4、5、6、7、8的数值大约是这样的:
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// 278.2353980772752, 2485758.690035394,
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// 6070.750963243378, 54821.18345352118,
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// 9540.606633304236, -2710.55326746645,
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// 1405.483844121726,
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// 这意味着维度会变成一个很大的数,大到多少很难说
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var y = ll2mc[2] + ll2mc[3] * a + ll2mc[4] * a * a + ll2mc[5] * a
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* a * a + ll2mc[6] * a * a * a * a + ll2mc[7] * a
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* a * a * a * a + ll2mc[8] * a * a * a * a
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* a * a;
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// 整个计算是基于绝对值的,符号位最后补回去就行了
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x *= (point.lng < 0 ? -1 : 1);
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y *= (point.lat < 0 ? -1 : 1);
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// 产生一个新的点坐标。果然不一样了啊
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return new Point(x, y)
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}
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function lngLatToMercator(T) {
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return convertLL2MC(T);
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}
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function getLoop(value, min, max) {
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while (value > max) {
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value -= max - min
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}
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while (value < min) {
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value += max - min
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}
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return value
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}
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function convertLL2MC (point) {
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var point1;
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var ll2mc;
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point.lng = getLoop(point.lng, -180, 180);// 标准化到区间内
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point.lat = getLoop(point.lat, -74, 74);// 标准化到区间内
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point1 = new Point(point.lng, point.lat);
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// 查找LLBAND的维度字典,字典由大到小排序,找到则停止
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for (var i = 0; i < LLBAND.length; i++) {
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if (point1.lat >= LLBAND[i]) {
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ll2mc = LL2MC[i];
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break;
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}
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}
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// 如果没有找到,则反过来找。找到即停止。
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if (!ll2mc) {
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for (var i = LLBAND.length - 1; i >= 0; i--) {
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if (point1.lat <= -LLBAND[i]) {
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ll2mc = LL2MC[i];
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break;
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}
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}
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}
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var newPoint = convertor(point, ll2mc);
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var point = new Point(newPoint.lng.toFixed(2), newPoint.lat.toFixed(2));
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return point;
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}
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function findAllTiles(map, callback){
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//var mapType = map.getMapType();// 地图类型,现在里面没那么多的可用数据了,直接不要了
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var zoomLevel = map.getZoom();// 放大倍数,现在是用getZoom了,原先是zoomLevel,现在没了。
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var center = map.getCenter(); //这个中心可能需要转换一下。先试试。 //map.mercatorCenter;// 原先获取的中心坐标
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center = convertLL2MC(center);//果然是需要转换才能用啊
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//var cV = mapType.getZoomUnits(zoomLevel);// zoomLevel相关的一个指数,=2^(18-zoomLevel)
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var cV = Math.pow(2, 18-zoomLevel);//现在直接计算这个数。理论不变,代码变了,我们直接计算好了。
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var unitSize = cV * 256; //这个也只能自己计算了//mapType.getZoomFactor(zoomLevel);// 一个系数,=cV*256
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var longitudeUnits = Math.ceil(center.lng / unitSize);// center.lng是一个很大的数
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var latitudeUnits = Math.ceil(center.lat / unitSize);//这两个不用解释了吧
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var tileSize = 256; //这个直接给常亮吧。要不得是mapType.k.Ob//mapType.getTileSize();
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var cP = [ longitudeUnits, latitudeUnits, (center.lng - longitudeUnits * unitSize) / unitSize * tileSize,
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(center.lat - latitudeUnits * unitSize) / unitSize * tileSize ];
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var left = cP[0] - Math.ceil((map.width / 2 - cP[2]) / tileSize);
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var top = cP[1] - Math.ceil((map.height / 2 - cP[3]) / tileSize);
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var right = cP[0] + Math.ceil((map.width / 2 + cP[2]) / tileSize);
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var c0 = 0;
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//if (mapType === BMAP_PERSPECTIVE_MAP && map.getZoom() == 15) {//这句应该不起作用
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// c0 = 1
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//}
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var bottom = cP[1] + Math.ceil((map.height / 2 + cP[3]) / tileSize) + c0;
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var xydata = [];
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for (var i = left; i < right; i++) {
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for (var j = top; j < bottom; j++) {
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xydata.push([ i, j ])
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}
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}
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//var zoom = map.getZoom();
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//这个地方能直接获取瓦片地址的内部方法,挺好,省去了很多的代码移植。
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var getTilesUrl = map.getMapType().getTileLayer().getTilesUrl;
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//循环获取代码吧
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for (var i = 0, len = xydata.length; i < len; i++) {
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var url = getTilesUrl({x:xydata[i][0],y:xydata[i][1]}, zoomLevel, "normal");
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var path = zoomLevel+"/"+xydata[i][0]+"/"+xydata[i][1]+".png";
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if(!!callback){
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callback(path, url);
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}
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}
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}
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return function(map, callback){findAllTiles(map, callback);};
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}
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