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nexpie-grafana-theme
Commit 4f3f29b8 by Zachary Tong
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Refactoring

parent f18b90a9
Showing with 148 additions and 151 deletions
panels/map2/display/binning.js 0 → 100644
function displayBinning() {
/**
* Hexbin-specific setup
*/
var hexbin = d3.hexbin()
.size([width, height])
.radius(scope.panel.display.binning.hexagonSize);
var binPoints = [];
//primary field is just binning raw counts
//secondary field is binning some metric like mean/median/total. Hexbins doesn't support that,
//so we cheat a little and just add more points to compensate.
//However, we don't want to add a million points, so normalize against the largest value
if (scope.panel.display.binning.areaEncodingField === 'secondary') {
var max = Math.max.apply(Math, _.map(scope.data, function(k,v){return k;})),
scale = 10/max;
_.map(scope.data, function (k, v) {
var decoded = geohash.decode(v);
return _.map(_.range(0, k*scale), function(a,b) {
binPoints.push(projection([decoded.longitude, decoded.latitude]));
})
});
} else {
binPoints = points;
}
//bin and sort the points, so we can set the various ranges appropriately
var binnedPoints = hexbin(binPoints).sort(function(a, b) { return b.length - a.length; });;
//clean up some memory
binPoints = [];
var radius = d3.scale.sqrt()
.domain([0, binnedPoints[0].length])
.range([0, scope.panel.display.binning.hexagonSize]);
var color = d3.scale.linear()
.domain([0,binnedPoints[0].length])
.range(["white", "steelblue"])
.interpolate(d3.interpolateLab);
/**
* D3 Drawing
*/
g.selectAll(".hexagon")
.data(binnedPoints)
.enter().append("path")
.attr("d", function (d) {
if (scope.panel.display.binning.areaEncoding === false) {
return hexbin.hexagon();
} else {
return hexbin.hexagon(radius(d.length));
}
})
.attr("class", "hexagon")
.attr("transform", function (d) {
return "translate(" + d.x + "," + d.y + ")";
})
.style("fill", function (d) {
if (scope.panel.display.binning.colorEncoding === false) {
return color(binnedPoints[0].length / 2);
} else {
return color(d.length);
}
})
.attr("opacity", scope.panel.display.binning.hexagonAlpha);
}
\ No newline at end of file
panels/map2/display/geopoints.js 0 → 100644
function displayGeopoints() {
g.selectAll("circles.points")
.data(points)
.enter()
.append("circle")
.attr("r", scope.panel.display.geopoints.pointSize)
.attr("opacity", scope.panel.display.geopoints.pointAlpha)
.attr("transform", function (d) {
return "translate(" + d[0] + "," + d[1] + ")";
});
}
\ No newline at end of file
panels/map2/module.js
......@@ -43,7 +43,6 @@ angular.module('kibana.map2', [])
_.defaults($scope.panel, _d)
$scope.init = function () {
console.log("init");
eventBus.register($scope, 'time', function (event, time) {
set_time(time)
});
......@@ -61,18 +60,14 @@ angular.module('kibana.map2', [])
$scope.get_data = function () {
console.log("get_data");
// Make sure we have everything for the request to complete
if (_.isUndefined($scope.panel.index) || _.isUndefined($scope.time))
return
$scope.panel.loading = true;
var request = $scope.ejs.Request().indices($scope.panel.index);
console.log("fields", $scope.panel.field, $scope.panel.secondaryfield);
//Use a regular term facet if there is no secondary field
if (typeof $scope.panel.secondaryfield === "undefined") {
var facet = $scope.ejs.TermsFacet('map')
......@@ -102,9 +97,6 @@ angular.module('kibana.map2', [])
}
// Then the insert into facet and make the request
var request = request.facet(facet).size(0);
......@@ -112,14 +104,12 @@ angular.module('kibana.map2', [])
var results = request.doSearch();
// Populate scope when we have results
results.then(function (results) {
$scope.panel.loading = false;
$scope.hits = results.hits.total;
$scope.data = {};
_.each(results.facets.map.terms, function (v) {
var metric = 'count';
......@@ -140,7 +130,6 @@ angular.module('kibana.map2', [])
}
});
console.log("emit render");
$scope.$emit('render')
});
};
......@@ -195,30 +184,31 @@ angular.module('kibana.map2', [])
// Receive render events
scope.$on('render', function () {
console.log("render");
render_panel();
});
// Or if the window is resized
angular.element(window).bind('resize', function () {
console.log("resize");
render_panel();
});
function render_panel() {
// Using LABjs, wait until all scripts are loaded before rendering panel
var scripts = $LAB.script("panels/map2/lib/d3.v3.min.js")
.script("panels/map2/lib/topojson.v1.min.js")
.script("panels/map2/lib/node-geohash.js")
.script("panels/map2/lib/d3.hexbin.v0.min.js")
.script("panels/map2/lib/queue.v1.min.js");
.script("panels/map2/lib/queue.v1.min.js")
.script("panels/map2/display/binning.js")
.script("panels/map2/display/geopoints.js");
// Populate element. Note that jvectormap appends, does not replace.
scripts.wait(function () {
elem.text('');
//these files can take a bit of time to process, so save them in a variable
//and use those on redraw
if (worldData === null || worldNames === null) {
queue()
.defer(d3.json, "panels/map2/lib/world-110m.json")
......@@ -231,11 +221,12 @@ angular.module('kibana.map2', [])
} else {
ready();
}
});
}
/**
* All map data has been loaded, go ahead and draw the map/data
*/
function ready() {
var world = worldData,
......@@ -245,11 +236,13 @@ angular.module('kibana.map2', [])
var width = $(elem[0]).width(),
height = $(elem[0]).height();
console.log("draw map", width, height);
//scale to whichever dimension is smaller, helps to ensure the whole map is displayed
var scale = (width > height) ? (height / 2 / Math.PI) : (width / 2 / Math.PI);
/**
* D3 and general config section
*/
var projection = d3.geo.mercator()
.translate([0,0])
.scale(scale);
......@@ -261,41 +254,13 @@ angular.module('kibana.map2', [])
var path = d3.geo.path()
.projection(projection);
var svg = d3.select(elem[0]).append("svg")
.attr("width", width)
.attr("height", height)
.append("g")
.attr("transform", "translate(" + width / 2 + "," + height / 2 + ")")
.call(zoom);
var g = svg.append("g");
svg.append("rect")
.attr("class", "overlay")
.attr("x", -width / 2)
.attr("y", -height / 2)
.attr("width", width)
.attr("height", height);
/*
d3.json("panels/map2/lib/world-50m.json", function (error, world) {
g.append("path")
.datum(topojson.object(world, world.objects.countries))
.attr("class", "land")
.attr("d", path);
g.append("path")
.datum(topojson.mesh(world, world.objects.countries, function (a, b) {
return a !== b;
}))
.attr("class", "boundary")
.attr("d", path);
*/
//used by choropleth
var quantize = d3.scale.quantize()
.domain([0, 1000])
.range(d3.range(9).map(function(i) { return "q" + (i+1); }));
console.log(world);
console.log("feature", topojson.feature(world, world.objects.countries));
//Extract name and two-letter codes for our countries
var countries = topojson.feature(world, world.objects.countries).features;
countries = countries.filter(function(d) {
......@@ -309,12 +274,38 @@ angular.module('kibana.map2', [])
return a.name.localeCompare(b.name);
});
//Geocoded points are decoded into lat/lon, then projected onto x/y
points = _.map(scope.data, function (k, v) {
var decoded = geohash.decode(v);
return projection([decoded.longitude, decoded.latitude]);
});
var quantize = d3.scale.quantize()
.domain([0, 1000])
.range(d3.range(9).map(function(i) { return "q" + (i+1); }));
/**
* D3 SVG Setup
*/
var svg = d3.select(elem[0]).append("svg")
.attr("width", width)
.attr("height", height)
.append("g")
.attr("transform", "translate(" + width / 2 + "," + height / 2 + ")")
.call(zoom);
var g = svg.append("g");
//Overlay is used so that the entire map is draggable, not just the locations
//where countries are
svg.append("rect")
.attr("class", "overlay")
.attr("x", -width / 2)
.attr("y", -height / 2)
.attr("width", width)
.attr("height", height);
//Draw the countries, if this is a choropleth, draw with fancy colors
g.selectAll("path")
.data(countries)
.enter().append("path")
......@@ -327,6 +318,7 @@ angular.module('kibana.map2', [])
})
.attr("d", path);
//draw boundaries
g.append("path")
.datum(topojson.mesh(world, world.objects.land, function(a, b) { return a !== b; }))
.attr("class", "land boundary")
......@@ -334,104 +326,28 @@ angular.module('kibana.map2', [])
//Geocoded points are decoded into lat/lon, then projected onto x/y
points = _.map(scope.data, function (k, v) {
var decoded = geohash.decode(v);
return projection([decoded.longitude, decoded.latitude]);
});
/**
* Display Options
*/
//hexagonal binning
//Hexagonal Binning
if (scope.panel.display.binning.enabled) {
var binPoints = [];
//primary field is just binning raw counts
//secondary field is binning some metric like mean/median/total. Hexbins doesn't support that,
//so we cheat a little and just add more points to compensate.
//However, we don't want to add a million points, so normalize against the largest value
if (scope.panel.display.binning.areaEncodingField === 'secondary') {
var max = Math.max.apply(Math, _.map(scope.data, function(k,v){return k;})),
scale = 10/max;
_.map(scope.data, function (k, v) {
var decoded = geohash.decode(v);
return _.map(_.range(0, k*scale), function(a,b) {
binPoints.push(projection([decoded.longitude, decoded.latitude]));
})
});
} else {
binPoints = points;
}
var hexbin = d3.hexbin()
.size([width, height])
.radius(scope.panel.display.binning.hexagonSize);
//bin and sort the points, so we can set the various ranges appropriately
var binnedPoints = hexbin(binPoints).sort(function(a, b) { return b.length - a.length; });;
console.log("binnedpoints",binnedPoints);
//clean up some memory
binPoints = [];
var radius = d3.scale.sqrt()
.domain([0, binnedPoints[0].length])
.range([0, scope.panel.display.binning.hexagonSize]);
var color = d3.scale.linear()
.domain([0,binnedPoints[0].length])
.range(["white", "steelblue"])
.interpolate(d3.interpolateLab);
g.selectAll(".hexagon")
.data(binnedPoints)
.enter().append("path")
.attr("d", function (d) {
if (scope.panel.display.binning.areaEncoding === false) {
return hexbin.hexagon();
} else {
return hexbin.hexagon(radius(d.length));
}
})
.attr("class", "hexagon")
.attr("transform", function (d) {
return "translate(" + d.x + "," + d.y + ")";
})
.style("fill", function (d) {
if (scope.panel.display.binning.colorEncoding === false) {
return color(binnedPoints[0].length / 2);
} else {
return color(d.length);
}
})
.attr("opacity", scope.panel.display.binning.hexagonAlpha);
displayBinning();
}
//Raw geopoints
if (scope.panel.display.geopoints.enabled) {
g.selectAll("circles.points")
.data(points)
.enter()
.append("circle")
.attr("r", scope.panel.display.geopoints.pointSize)
.attr("opacity", scope.panel.display.geopoints.pointAlpha)
.attr("transform", function (d) {
return "translate(" + d[0] + "," + d[1] + ")";
});
displayGeopoints();
}
console.log("initial", scope.panel.display.scale, scope.panel.display.translate);
/**
* Zoom Functionality
*/
if (scope.panel.display.scale != -1) {
zoom.scale(scope.panel.display.scale).translate(scope.panel.display.translate);
g.style("stroke-width", 1 / scope.panel.display.scale).attr("transform", "translate(" + scope.panel.display.translate + ") scale(" + scope.panel.display.scale + ")");
//svg.redraw();
}
function move() {
......@@ -444,17 +360,9 @@ console.log("binnedpoints",binnedPoints);
scope.panel.display.translate = t;
scope.panel.display.scale = s;
g.style("stroke-width", 1 / s).attr("transform", "translate(" + t + ")scale(" + s + ")");
//console.log("move", scope.panel.display.scale, scope.panel.display.translate);
}
}
}
}
};
});
\ No newline at end of file
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