map: place labels without overlaps

lib/map.js

@@ -228,7 +228,7 @@ define(["map/clientlayer", "map/labelslayer",
       clientLayer.addTo(map)
       clientLayer.setZIndex(5)
 
-      var labelsLayer = new LabelsLayer({minZoom: 15})
+      var labelsLayer = new LabelsLayer()
       labelsLayer.addTo(map)
       labelsLayer.setZIndex(6)
 
@@ -368,22 +368,14 @@ define(["map/clientlayer", "map/labelslayer",
         groupLost = L.featureGroup(markersLost).addTo(map)
 
         var rtreeOnlineAll = rbush(9)
-        var rtreeOnline = rbush(9)
-        var rtreeOffline = rbush(9)
-        var rtreeNew = rbush(9)
-        var rtreeLost = rbush(9)
 
         rtreeOnlineAll.load(data.nodes.all.filter(online).filter(has_location).map(mapRTree))
-        rtreeOnline.load(nodesOnline.filter(has_location).map(mapRTree))
-        rtreeOffline.load(nodesOffline.filter(has_location).map(mapRTree))
-        rtreeNew.load(data.nodes.new.filter(has_location).map(mapRTree))
-        rtreeLost.load(data.nodes.lost.filter(has_location).map(mapRTree))
 
         clientLayer.setData(rtreeOnlineAll)
-        labelsLayer.setData({online: rtreeOnline,
-                             offline: rtreeOffline,
-                             new: rtreeNew,
-                             lost: rtreeLost
+        labelsLayer.setData({online: nodesOnline.filter(has_location),
+                             offline: nodesOffline.filter(has_location),
+                             new: data.nodes.new.filter(has_location),
+                             lost: data.nodes.lost.filter(has_location)
                             })
 
         updateView(true)

lib/map/labelslayer.js

@@ -1,11 +1,169 @@
-define(["leaflet"],
-  function (L) {
-    return L.TileLayer.Canvas.extend({
+define(["leaflet", "rbush"],
+  function (L, rbush) {
+    var labelLocations = [["left",   "middle",      0 / 8],
+                          ["center", "top",         6 / 8],
+                          ["right",  "middle",      4 / 8],
+                          ["left",   "top",         7 / 8],
+                          ["left",   "ideographic", 1 / 8],
+                          ["right",  "top",         5 / 8],
+                          ["center", "ideographic", 2 / 8],
+                          ["right",  "ideographic", 3 / 8]]
+
+    var labelOffset = 8
+    var font = "10px Roboto"
+    var labelHeight = 12
+    var nodeRadius = 4
+
+    var ctx = document.createElement("canvas").getContext("2d")
+
+    function measureText(font, text) {
+      ctx.font = font
+      return ctx.measureText(text)
+    }
+
+    function mapRTree(d) {
+      var o = [d.position.lat, d.position.lng, d.position.lat, d.position.lng]
+
+      o.label = d
+
+      return o
+    }
+
+    function prepareLabel(fillStyle) {
+      return function (d) {
+        return { position: L.latLng(d.nodeinfo.location.latitude, d.nodeinfo.location.longitude),
+                 label: d.nodeinfo.hostname,
+                 fillStyle: fillStyle,
+                 height: labelHeight,
+                 width: measureText(font, d.nodeinfo.hostname).width
+               }
+      }
+    }
+
+    function calcOffset(loc) {
+      return [ labelOffset * Math.cos(loc[2] * 2 * Math.PI),
+              -labelOffset * Math.sin(loc[2] * 2 * Math.PI)]
+    }
+
+    function labelRect(p, offset, anchor, label) {
+      var dx = { left: 0,
+                 right: -label.width,
+                 center: -label.width /  2
+               }
+
+      var dy = { top: 0,
+                 ideographic: -label.height,
+                 middle: -label.height / 2
+               }
+
+      var x = p.x + offset[0] + dx[anchor[0]]
+      var y = p.y + offset[1] + dy[anchor[1]]
+
+      return [x, y, x + label.width, y + label.height]
+    }
+
+    var c = L.TileLayer.Canvas.extend({
+      onAdd: function (map) {
+        L.TileLayer.Canvas.prototype.onAdd.call(this, map)
+        if (this.data)
+          this.prepareLabels()
+      },
       setData: function (d) {
         this.data = d
+        if (this._map)
+          this.prepareLabels()
+      },
+      prepareLabels: function () {
+        var d = this.data
+
+        // label:
+        // - position (WGS84 coords)
+        // - offset (2D vector in pixels)
+        // - anchor (tuple, textAlignment, textBaseline)
+        // - minZoom (inclusive)
+        // - label (string)
+        // - color (string)
+
+        var labelsOnline = d.online.map(prepareLabel("rgba(0, 0, 0, 0.9)"))
+        var labelsOffline = d.offline.map(prepareLabel("rgba(212, 62, 42, 0.9)"))
+        var labelsNew = d.new.map(prepareLabel("rgba(85, 128, 32, 0.9)"))
+        var labelsLost = d.lost.map(prepareLabel("rgba(212, 62, 42, 0.9)"))
+
+        var labels = []
+                     .concat(labelsNew)
+                     .concat(labelsLost)
+                     .concat(labelsOnline)
+                     .concat(labelsOffline)
+
+        var minZoom = this.options.minZoom
+        var maxZoom = this.options.maxZoom
+
+        var trees = []
+
+        var map = this._map
+
+        function nodeToRect(z) {
+          return function (d) {
+            var p = map.project(d.position, z)
+            return [p.x - nodeRadius, p.y - nodeRadius,
+                    p.x + nodeRadius, p.y + nodeRadius]
+          }
+        }
+
+        for (var z = minZoom; z <= maxZoom; z++) {
+          trees[z] = rbush(9)
+          trees[z].load(labels.map(nodeToRect(z)))
+        }
+
+        labels.forEach(function (d) {
+          var best = labelLocations.map(function (loc) {
+            var offset = calcOffset(loc, d)
+            var z
+
+            for (z = maxZoom; z >= minZoom; z--) {
+              var p = map.project(d.position, z)
+              var rect = labelRect(p, offset, loc, d)
+              var candidates = trees[z].search(rect)
+
+              if (candidates.length > 0)
+                break
+            }
+
+            return {loc: loc, z: z + 1}
+          }).filter(function (d) {
+            return d.z <= maxZoom
+          }).sort(function (a, b) {
+            return a.z - b.z
+          })[0]
+
+          if (best === undefined)
+            return
+
+          d.offset = calcOffset(best.loc, d)
+          d.minZoom = best.z
+          d.anchor = best.loc
+
+          for (var z = maxZoom; z >= best.z; z--) {
+            var p = map.project(d.position, z)
+            var rect = labelRect(p, d.offset, best.loc, d)
+            trees[z].insert(rect)
+          }
+        })
+
+        labels = labels.filter(function (d) {
+          return d.minZoom !== undefined
+        })
+
+        this.margin = 16 + labels.map(function (d) {
+          return d.width
+        }).sort().reverse()[0]
+
+        this.labels = rbush(9)
+        this.labels.load(labels.map(mapRTree))
+
         this.redraw()
       },
-      drawTile: function (canvas, tilePoint) {
+      drawTile: function (canvas, tilePoint, zoom) {
         function getTileBBox(s, map, tileSize, margin) {
           var tl = map.unproject([s.x - margin, s.y - margin])
           var br = map.unproject([s.x + margin + tileSize, s.y + margin + tileSize])
@@ -13,7 +171,7 @@ define(["leaflet"],
           return [br.lat, tl.lng, tl.lat, br.lng]
         }
 
-        if (!this.data)
+        if (!this.labels)
           return
 
         var tileSize = this.options.tileSize
@@ -21,50 +179,38 @@ define(["leaflet"],
         var map = this._map
 
         function projectNodes(d) {
-          var p = map.project([d.node.nodeinfo.location.latitude, d.node.nodeinfo.location.longitude])
+          var p = map.project(d.label.position)
 
           p.x -= s.x
           p.y -= s.y
 
-          return {p: p, o: d.node}
+          return {p: p, label: d.label}
         }
 
-        var margin = 256
-        var bbox = getTileBBox(s, map, tileSize, margin)
+        var bbox = getTileBBox(s, map, tileSize, this.margin)
 
-        var nodesOnline = this.data.online.search(bbox).map(projectNodes)
-        var nodesOffline = this.data.offline.search(bbox).map(projectNodes)
-        var nodesNew = this.data.new.search(bbox).map(projectNodes)
-        var nodesLost = this.data.lost.search(bbox).map(projectNodes)
+        var labels = this.labels.search(bbox).map(projectNodes)
 
         var ctx = canvas.getContext("2d")
 
-        ctx.font = "12px Roboto"
-        ctx.textBaseline = "middle"
-        ctx.textAlign = "left"
-        ctx.lineWidth = 2.5
+        ctx.font = font
+        ctx.lineWidth = 5
+        ctx.strokeStyle = "rgba(255, 255, 255, 0.8)"
+        ctx.miterLimit = 2
 
-        var distance = 10
         function drawLabel(d) {
-          ctx.strokeText(d.o.nodeinfo.hostname, d.p.x + distance, d.p.y)
-          ctx.fillText(d.o.nodeinfo.hostname, d.p.x + distance, d.p.y)
+          ctx.textAlign = d.label.anchor[0]
+          ctx.textBaseline = d.label.anchor[1]
+          ctx.fillStyle = d.label.fillStyle
+          ctx.strokeText(d.label.label, d.p.x + d.label.offset[0], d.p.y + d.label.offset[1])
+          ctx.fillText(d.label.label, d.p.x + d.label.offset[0], d.p.y + d.label.offset[1])
         }
 
-        ctx.fillStyle = "rgba(212, 62, 42, 0.6)"
-        ctx.strokeStyle = "rgba(255, 255, 255, 0.6)"
-        nodesOffline.forEach(drawLabel)
-
-        ctx.fillStyle = "rgba(0, 0, 0, 0.6)"
-        ctx.strokeStyle = "rgba(255, 255, 255, 0.9)"
-        nodesOnline.forEach(drawLabel)
-
-        ctx.fillStyle = "rgba(212, 62, 42, 0.6)"
-        ctx.strokeStyle = "rgba(255, 255, 255, 0.9)"
-        nodesLost.forEach(drawLabel)
-
-        ctx.fillStyle = "rgba(0, 0, 0, 0.6)"
-        ctx.strokeStyle = "rgba(255, 255, 255, 1.0)"
-        nodesNew.forEach(drawLabel)
+        labels.filter(function (d) {
+          return zoom >= d.label.minZoom
+        }).forEach(drawLabel)
       }
     })
+
+    return c
 })