/**
* @fileOverview Area chart component definition
*
* @author Brian Greig
*
* @requires NPM:d3:Vue
* @requires src/v-chart-plugin.js
*/
/* eslint-env browser */
const d3 = Object.assign({},
require('d3-selection'),
require('d3-scale'),
require('d3-axis'),
require('d3-shape'));
/**
* Builds an Area Chart.
* @module areaChart
*/
const areaChart = function chart() {
/**
* The SVG that stores the chart
* @member svgContainer
*/
const svgContainer = d3.select(`#${this.chartData.selector}`);
/**
* The configuration of the coordinate system
* @member cs
*/
let cs = {
palette: {
stroke: '#d1f4fa',
fill: '#005792',
},
x: {
domain: [],
range: [],
axisHeight: 45,
axisWidth: 45,
},
y: {
axisWidth: 45,
ticks: 10,
},
};
/**
* Returns plot points
* @member getPoints
* @function
* @param {Object} p
*/
const getPoints = (p) => {
let poly = (` ${this.width}, ${cs.x.yOffset} `);
poly += (` ${cs.x.axisHeight}, ${cs.x.yOffset} `);
poly += p.map(d => [cs.x.scale(d.dim) + cs.y.axisWidth + 5, cs.y.scale(d.metric)].join(',')).join(' ');
return poly;
};
const poly = svgContainer.selectAll('polygon').data([this.ds]);
/**
* Runs when a new element is added to the dataset
* @member enter
* @function
* @param {Object} s (svg element)
*/
const enter = (s) => {
s.enter()
.append('polygon')
.attr('stroke', cs.palette.stroke)
.attr('fill', cs.palette.fill)
.attr('points', getPoints);
};
/**
* Runs when a value of an element in dataset is changed
* @member transition
* @function
* @param {Object} s (svg element)
*/
const transition = (s) => {
s.transition()
.attr('points', getPoints);
};
/**
* Runs when an element is removed from the dataset
* @member exit
* @function
* @param {Object} s (svg element)
*/
const exit = (s) => {
s.exit().remove();
return s;
};
/**
* Builds the scales for the x and y axes
* @member buildScales
* @function
*/
const buildScales = () => {
cs.y.scale = d3.scaleLinear()
.domain([0, this.max])
.range([this.displayHeight - cs.x.axisHeight, this.titleHeight]);
cs.y.axis = d3.axisLeft().ticks(cs.y.ticks, 's').scale(cs.y.scale);
this.ds.forEach(t => cs.x.domain.push(t.dim));
this.ds.forEach((t, i) => cs.x.range.push((((
this.width - cs.x.axisWidth) * i)) / this.ds.length));
cs.x.scale = d3.scaleOrdinal().domain(cs.x.domain).range(cs.x.range);
cs.x.axis = d3.axisBottom().scale(cs.x.scale);
};
/**
* Draws the x and y axes on the svg
* @member drawAxis
* @function
*/
const drawAxis = () => {
this.drawGrid(cs);
cs.polyFunction = d3.line()
.x(d => cs.x.scale(d.dim) + cs.y.axisWidth + 5)
.y(d => cs.y.scale(d.metric));
cs.x.xOffset = cs.y.axisWidth + 5;
cs.x.yOffset = this.displayHeight - cs.x.axisHeight;
cs.y.xOffset = cs.y.axisWidth;
cs.y.yOffset = 0;
svgContainer.append('g').append('g')
.attr('class', 'axis').attr('transform', `translate(${cs.x.xOffset}, ${cs.x.yOffset})`)
.call(cs.x.axis);
if (this.ds[0].dim)
svgContainer.append('g').append('g').attr('class', 'axis')
.attr('transform', `translate(${cs.y.xOffset},${cs.y.yOffset})`)
.call(cs.y.axis);
};
cs = this.setOverrides(cs, this.chartData.overrides);
buildScales(cs);
drawAxis(cs);
enter(poly);
transition(poly);
exit(poly);
return cs;
};
export default areaChart;