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// ******************************************
// Gauge for reporting
// Each scenario has a score
// We use a gauge to indicate the trust level
// ******************************************
var gauge = function(container) {
var that = {};
var config = {
size : 150,
clipWidth : 250,
clipHeight : 100,
ringInset : 20,
ringWidth : 40,
pointerWidth : 7,
pointerTailLength : 5,
pointerHeadLengthPercent : 0.8,
minValue : 0,
maxValue : 100,
minAngle : -90,
maxAngle : 90,
transitionMs : 4000,
majorTicks : 7,
labelFormat : d3.format(',g'),
labelInset : 10,
arcColorFn : d3.interpolateHsl(d3.rgb('#ff0000'), d3.rgb('#00ff00'))
};
var range = undefined;
var r = undefined;
var pointerHeadLength = undefined;
var value = 0;
var svg = undefined;
var arc = undefined;
var scale = undefined;
var ticks = undefined;
var tickData = undefined;
var pointer = undefined;
var donut = d3.layout.pie();
function deg2rad(deg) {
return deg * Math.PI / 180;
}
function newAngle(d) {
var ratio = scale(d);
var newAngle = config.minAngle + (ratio * range);
return newAngle;
}
function configure() {
range = config.maxAngle - config.minAngle;
r = config.size / 2;
pointerHeadLength = Math.round(r * config.pointerHeadLengthPercent);
// a linear scale that maps domain values to a percent from 0..1
scale = d3.scale.linear()
.range([0,1])
.domain([config.minValue, config.maxValue]);
ticks = scale.ticks(config.majorTicks);
tickData = d3.range(config.majorTicks).map(function() {return 1/config.majorTicks;});
arc = d3.svg.arc()
.innerRadius(r - config.ringWidth - config.ringInset)
.outerRadius(r - config.ringInset)
.startAngle(function(d, i) {
var ratio = d * i;
return deg2rad(config.minAngle + (ratio * range));
})
.endAngle(function(d, i) {
var ratio = d * (i+1);
return deg2rad(config.minAngle + (ratio * range));
});
}
that.configure = configure;
function centerTranslation() {
return 'translate('+r +','+ r +')';
}
function isRendered() {
return (svg !== undefined);
}
that.isRendered = isRendered;
function render(newValue) {
svg = d3.select(container)
.append('svg:svg')
.attr('class', 'gauge')
.attr('width', config.clipWidth)
.attr('height', config.clipHeight);
var centerTx = centerTranslation();
var arcs = svg.append('g')
.attr('class', 'arc')
.attr('transform', centerTx);
arcs.selectAll('path')
.data(tickData)
.enter().append('path')
.attr('fill', function(d, i) {
return config.arcColorFn(d * i);
})
.attr('d', arc);
var lg = svg.append('g')
.attr('class', 'label')
.attr('transform', centerTx);
lg.selectAll('text')
.data(ticks)
.enter().append('text')
.attr('transform', function(d) {
var ratio = scale(d);
var newAngle = config.minAngle + (ratio * range);
return 'rotate(' +newAngle +') translate(0,' +(config.labelInset - r) +')';
})
.text(config.labelFormat);
var lineData = [ [config.pointerWidth / 2, 0],
[0, -pointerHeadLength],
[-(config.pointerWidth / 2), 0],
[0, config.pointerTailLength],
[config.pointerWidth / 2, 0] ];
var pointerLine = d3.svg.line().interpolate('monotone');
var pg = svg.append('g').data([lineData])
.attr('class', 'pointer')
.attr('transform', centerTx);
pointer = pg.append('path')
.attr('d', pointerLine/*function(d) { return pointerLine(d) +'Z';}*/ )
.attr('transform', 'rotate(' +config.minAngle +')');
update(newValue === undefined ? 0 : newValue);
}
that.render = render;
function update(newValue, newConfiguration) {
if ( newConfiguration !== undefined) {
configure(newConfiguration);
}
var ratio = scale(newValue);
var newAngle = config.minAngle + (ratio * range);
pointer.transition()
.duration(config.transitionMs)
.ease('elastic')
.attr('transform', 'rotate(' +newAngle +')');
}
that.update = update;
configure();
render();
return that;
};
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