mirror of
https://github.com/FoggedLens/iD.git
synced 2026-02-14 17:52:55 +00:00
470 lines
14 KiB
JavaScript
470 lines
14 KiB
JavaScript
iD.Map = function(context) {
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var dimensions = [1, 1],
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dispatch = d3.dispatch('move', 'drawn'),
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projection = context.projection,
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roundedProjection = iD.svg.RoundProjection(projection),
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zoom = d3.behavior.zoom()
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.translate(projection.translate())
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.scale(projection.scale() * 2 * Math.PI)
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.scaleExtent([1024, 256 * Math.pow(2, 24)])
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.on('zoom', zoomPan),
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dblclickEnabled = true,
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transformStart,
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transformed = false,
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minzoom = 0,
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points = iD.svg.Points(roundedProjection, context),
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vertices = iD.svg.Vertices(roundedProjection, context),
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lines = iD.svg.Lines(projection),
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areas = iD.svg.Areas(projection),
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midpoints = iD.svg.Midpoints(roundedProjection, context),
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labels = iD.svg.Labels(projection, context),
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supersurface, surface,
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mouse,
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mousemove;
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function map(selection) {
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context.history()
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.on('change.map', redraw);
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context.background()
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.on('change.map', redraw);
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context.features()
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.on('redraw.map', redraw);
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selection
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.on('dblclick.map', dblClick)
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.call(zoom);
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supersurface = selection.append('div')
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.attr('id', 'supersurface');
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// Need a wrapper div because Opera can't cope with an absolutely positioned
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// SVG element: http://bl.ocks.org/jfirebaugh/6fbfbd922552bf776c16
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var dataLayer = supersurface.append('div')
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.attr('class', 'layer-layer layer-data');
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map.surface = surface = dataLayer.append('svg')
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.on('mousedown.zoom', function() {
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if (d3.event.button === 2) {
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d3.event.stopPropagation();
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}
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}, true)
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.on('mouseup.zoom', function() {
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if (resetTransform()) redraw();
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})
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.attr('id', 'surface')
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.call(iD.svg.Surface(context));
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supersurface.call(context.background());
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surface.on('mousemove.map', function() {
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mousemove = d3.event;
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});
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surface.on('mouseover.vertices', function() {
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if (map.editable() && !transformed) {
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var hover = d3.event.target.__data__;
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surface.call(vertices.drawHover, context.graph(), hover, map.extent(), map.zoom());
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dispatch.drawn({full: false});
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}
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});
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surface.on('mouseout.vertices', function() {
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if (map.editable() && !transformed) {
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var hover = d3.event.relatedTarget && d3.event.relatedTarget.__data__;
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surface.call(vertices.drawHover, context.graph(), hover, map.extent(), map.zoom());
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dispatch.drawn({full: false});
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}
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});
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context.on('enter.map', function() {
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if (map.editable() && !transformed) {
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var all = context.intersects(map.extent()),
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filter = d3.functor(true),
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graph = context.graph();
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all = context.features().filter(all, graph);
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surface.call(vertices, graph, all, filter, map.extent(), map.zoom());
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surface.call(midpoints, graph, all, filter, map.trimmedExtent());
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dispatch.drawn({full: false});
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}
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});
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map.dimensions(selection.dimensions());
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labels.supersurface(supersurface);
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}
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function pxCenter() { return [dimensions[0] / 2, dimensions[1] / 2]; }
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function drawVector(difference, extent) {
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var graph = context.graph(),
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features = context.features(),
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all = context.intersects(map.extent()),
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data, filter;
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if (difference) {
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var complete = difference.complete(map.extent());
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data = _.compact(_.values(complete));
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filter = function(d) { return d.id in complete; };
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features.clear(data);
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} else {
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// force a full redraw if gatherStats detects that a feature
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// should be auto-hidden (e.g. points or buildings)..
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if (features.gatherStats(all, graph, dimensions)) {
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extent = undefined;
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}
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if (extent) {
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data = context.intersects(map.extent().intersection(extent));
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var set = d3.set(_.pluck(data, 'id'));
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filter = function(d) { return set.has(d.id); };
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} else {
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data = all;
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filter = d3.functor(true);
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}
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}
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data = features.filter(data, graph);
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surface
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.call(vertices, graph, data, filter, map.extent(), map.zoom())
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.call(lines, graph, data, filter)
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.call(areas, graph, data, filter)
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.call(midpoints, graph, data, filter, map.trimmedExtent())
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.call(labels, graph, data, filter, dimensions, !difference && !extent)
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.call(points, data, filter);
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dispatch.drawn({full: true});
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}
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function editOff() {
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context.features().resetStats();
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surface.selectAll('.layer *').remove();
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dispatch.drawn({full: true});
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}
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function dblClick() {
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if (!dblclickEnabled) {
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d3.event.preventDefault();
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d3.event.stopImmediatePropagation();
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}
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}
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function zoomPan() {
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if (Math.log(d3.event.scale) / Math.LN2 - 8 < minzoom) {
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surface.interrupt();
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iD.ui.flash(context.container())
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.select('.content')
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.text(t('cannot_zoom'));
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setZoom(context.minEditableZoom(), true);
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queueRedraw();
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dispatch.move(map);
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return;
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}
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projection
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.translate(d3.event.translate)
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.scale(d3.event.scale / (2 * Math.PI));
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var scale = d3.event.scale / transformStart[0],
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tX = Math.round((d3.event.translate[0] / scale - transformStart[1][0]) * scale),
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tY = Math.round((d3.event.translate[1] / scale - transformStart[1][1]) * scale);
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transformed = true;
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iD.util.setTransform(supersurface, tX, tY, scale);
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queueRedraw();
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dispatch.move(map);
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}
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function resetTransform() {
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if (!transformed) return false;
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iD.util.setTransform(supersurface, 0, 0);
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transformed = false;
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return true;
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}
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function redraw(difference, extent) {
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if (!surface) return;
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clearTimeout(timeoutId);
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// If we are in the middle of a zoom/pan, we can't do differenced redraws.
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// It would result in artifacts where differenced entities are redrawn with
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// one transform and unchanged entities with another.
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if (resetTransform()) {
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difference = extent = undefined;
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}
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var zoom = String(~~map.zoom());
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if (surface.attr('data-zoom') !== zoom) {
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surface.attr('data-zoom', zoom)
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.classed('low-zoom', zoom <= 16);
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}
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if (!difference) {
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supersurface.call(context.background());
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}
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if (map.editable()) {
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context.loadTiles(projection, dimensions);
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drawVector(difference, extent);
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} else {
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editOff();
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}
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transformStart = [
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projection.scale() * 2 * Math.PI,
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projection.translate().slice()];
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return map;
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}
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var timeoutId;
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function queueRedraw() {
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clearTimeout(timeoutId);
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timeoutId = setTimeout(function() { redraw(); }, 300);
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}
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function pointLocation(p) {
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var translate = projection.translate(),
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scale = projection.scale() * 2 * Math.PI;
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return [(p[0] - translate[0]) / scale, (p[1] - translate[1]) / scale];
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}
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function locationPoint(l) {
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var translate = projection.translate(),
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scale = projection.scale() * 2 * Math.PI;
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return [l[0] * scale + translate[0], l[1] * scale + translate[1]];
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}
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map.mouse = function() {
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var e = mousemove || d3.event, s;
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while ((s = e.sourceEvent)) e = s;
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return mouse(e);
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};
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map.mouseCoordinates = function() {
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return projection.invert(map.mouse());
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};
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map.dblclickEnable = function(_) {
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if (!arguments.length) return dblclickEnabled;
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dblclickEnabled = _;
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return map;
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};
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function interpolateZoom(_) {
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var k = projection.scale(),
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t = projection.translate();
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surface.node().__chart__ = {
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x: t[0],
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y: t[1],
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k: k * 2 * Math.PI
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};
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setZoom(_);
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projection.scale(k).translate(t); // undo setZoom projection changes
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zoom.event(surface.transition());
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}
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function setZoom(_, force) {
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if (_ === map.zoom() && !force)
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return false;
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var scale = 256 * Math.pow(2, _),
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center = pxCenter(),
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l = pointLocation(center);
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scale = Math.max(1024, Math.min(256 * Math.pow(2, 24), scale));
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projection.scale(scale / (2 * Math.PI));
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zoom.scale(scale);
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var t = projection.translate();
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l = locationPoint(l);
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t[0] += center[0] - l[0];
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t[1] += center[1] - l[1];
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projection.translate(t);
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zoom.translate(projection.translate());
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return true;
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}
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function setCenter(_) {
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var c = map.center();
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if (_[0] === c[0] && _[1] === c[1])
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return false;
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var t = projection.translate(),
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pxC = pxCenter(),
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ll = projection(_);
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projection.translate([
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t[0] - ll[0] + pxC[0],
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t[1] - ll[1] + pxC[1]]);
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zoom.translate(projection.translate());
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return true;
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}
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map.pan = function(d) {
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var t = projection.translate();
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t[0] += d[0];
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t[1] += d[1];
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projection.translate(t);
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zoom.translate(projection.translate());
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dispatch.move(map);
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return redraw();
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};
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map.dimensions = function(_) {
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if (!arguments.length) return dimensions;
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var center = map.center();
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dimensions = _;
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surface.dimensions(dimensions);
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context.background().dimensions(dimensions);
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projection.clipExtent([[0, 0], dimensions]);
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mouse = iD.util.fastMouse(supersurface.node());
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setCenter(center);
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return redraw();
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};
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function zoomIn(integer) {
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interpolateZoom(~~map.zoom() + integer);
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}
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function zoomOut(integer) {
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interpolateZoom(~~map.zoom() - integer);
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}
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map.zoomIn = function() { zoomIn(1); };
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map.zoomInFurther = function() { zoomIn(4); };
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map.zoomOut = function() { zoomOut(1); };
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map.zoomOutFurther = function() { zoomOut(4); };
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map.center = function(loc) {
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if (!arguments.length) {
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return projection.invert(pxCenter());
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}
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if (setCenter(loc)) {
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dispatch.move(map);
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}
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return redraw();
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};
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map.zoom = function(z) {
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if (!arguments.length) {
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return Math.max(Math.log(projection.scale() * 2 * Math.PI) / Math.LN2 - 8, 0);
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}
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if (z < minzoom) {
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surface.interrupt();
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iD.ui.flash(context.container())
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.select('.content')
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.text(t('cannot_zoom'));
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z = context.minEditableZoom();
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}
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if (setZoom(z)) {
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dispatch.move(map);
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}
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return redraw();
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};
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map.zoomTo = function(entity, zoomLimits) {
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var extent = entity.extent(context.graph());
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if (!isFinite(extent.area())) return;
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var zoom = map.trimmedExtentZoom(extent);
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zoomLimits = zoomLimits || [context.minEditableZoom(), 20];
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map.centerZoom(extent.center(), Math.min(Math.max(zoom, zoomLimits[0]), zoomLimits[1]));
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};
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map.centerZoom = function(loc, z) {
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var centered = setCenter(loc),
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zoomed = setZoom(z);
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if (centered || zoomed) {
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dispatch.move(map);
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}
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return redraw();
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};
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map.centerEase = function(loc) {
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var from = map.center().slice(),
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t = 0,
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stop;
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surface.one('mousedown.ease', function() {
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stop = true;
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});
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d3.timer(function() {
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if (stop) return true;
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map.center(iD.geo.interp(from, loc, (t += 1) / 10));
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return t === 10;
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}, 20);
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return map;
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};
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map.extent = function(_) {
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if (!arguments.length) {
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return new iD.geo.Extent(projection.invert([0, dimensions[1]]),
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projection.invert([dimensions[0], 0]));
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} else {
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var extent = iD.geo.Extent(_);
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map.centerZoom(extent.center(), map.extentZoom(extent));
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}
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};
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map.trimmedExtent = function(_) {
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if (!arguments.length) {
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var headerY = 60, footerY = 30, pad = 10;
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return new iD.geo.Extent(projection.invert([pad, dimensions[1] - footerY - pad]),
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projection.invert([dimensions[0] - pad, headerY + pad]));
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} else {
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var extent = iD.geo.Extent(_);
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map.centerZoom(extent.center(), map.trimmedExtentZoom(extent));
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}
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};
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function calcZoom(extent, dim) {
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var tl = projection([extent[0][0], extent[1][1]]),
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br = projection([extent[1][0], extent[0][1]]);
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// Calculate maximum zoom that fits extent
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var hFactor = (br[0] - tl[0]) / dim[0],
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vFactor = (br[1] - tl[1]) / dim[1],
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hZoomDiff = Math.log(Math.abs(hFactor)) / Math.LN2,
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vZoomDiff = Math.log(Math.abs(vFactor)) / Math.LN2,
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newZoom = map.zoom() - Math.max(hZoomDiff, vZoomDiff);
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return newZoom;
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}
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map.extentZoom = function(_) {
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return calcZoom(iD.geo.Extent(_), dimensions);
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};
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map.trimmedExtentZoom = function(_) {
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var trimY = 120, trimX = 40,
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trimmed = [dimensions[0] - trimX, dimensions[1] - trimY];
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return calcZoom(iD.geo.Extent(_), trimmed);
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};
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map.editable = function() {
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return map.zoom() >= context.minEditableZoom();
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};
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map.minzoom = function(_) {
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if (!arguments.length) return minzoom;
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minzoom = _;
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return map;
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};
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return d3.rebind(map, dispatch, 'on');
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};
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