import { d3, initChart } from './c3-helper' describe('load without data', function() { var chart, args beforeAll(function() { args = { data: {} } }) it('throws when data is an empty object', () => { expect(() => initChart(chart, args, () => {})).toThrowError( Error, /url or json or rows or columns is required/ ) }) }) describe('c3 chart data', function() { 'use strict' var chart, args beforeEach(function(done) { chart = initChart(chart, args, done) }) describe('load json', function() { beforeAll(function() { args = { data: { json: { data1: [30, 20, 50], data2: [200, 130, 90] } } } }) it('should draw correctly', function() { var expectedCx = [6, 299, 593], expectedCy = [371, 391, 332] d3.selectAll('.c3-circles-data1 .c3-circle').each(function(d, i) { var circle = d3.select(this) expect(+circle.attr('cx')).toBeCloseTo(expectedCx[i], 0) expect(+circle.attr('cy')).toBeCloseTo(expectedCy[i], 0) }) }) describe('more data', function() { beforeAll(function() { args = { data: { json: [ { date: '2014-06-03', '443': '3000', '995': '500' }, { date: '2014-06-04', '443': '1000' }, { date: '2014-06-05', '443': '5000', '995': '1000' } ], keys: { x: 'date', value: ['443', '995'] } }, axis: { x: { type: 'category' } } } }) it('should draw correctly', function() { var expectedCx = { 443: [98, 294, 490], 995: [98, 294, 490] }, expectedCy = { 443: [194, 351, 36], 995: [391, 430, 351] } d3.selectAll('.c3-circles-443 .c3-circle').each(function(d, i) { var circle = d3.select(this) expect(+circle.attr('cx')).toBeCloseTo(expectedCx[443][i], 0) expect(+circle.attr('cy')).toBeCloseTo(expectedCy[443][i], 0) }) d3.selectAll('.c3-circles-995 .c3-circle').each(function(d, i) { var circle = d3.select(this) expect(+circle.attr('cx')).toBeCloseTo(expectedCx[995][i], 0) expect(+circle.attr('cy')).toBeCloseTo(expectedCy[995][i], 0) }) }) }) describe('with nested JSON args', function() { beforeAll(function() { args = { data: { json: [ { date: '2014-06-03', '443': '3000', '995': { '996': '500' }, '112': ['600'], '223': [{ '224': '100' }], '334': [[], [{ '335': '300' }]], '556': { '557': { '558': ['1000'] } }, '778.889': '700' }, { date: '2014-06-04', '443': '1000', '112': ['700'], '223': [{ '224': '200' }], '556': { '557': { '558': ['2000'] } }, '778.889': '300' }, { date: '2014-06-05', '995': { '996': '1000' }, '112': ['800'], '223': [{ '224': '300' }], '443': '5000', '334': [[], [{ '335': '500' }]], '556': { '557': { '558': ['3000'] } }, '778.889': '800' } ], keys: { x: 'date', value: [ '443', '995.996', '112[0]', '223[0].224', '334[1][0].335', '556.557.558[0]', '778.889' ] } }, axis: { x: { type: 'category' } } } }) it('should draw nested JSON correctly', function() { var expectedCx = [98, 294, 490], expectedCy = { 443: [181, 326, 36], 995: [362, 398, 326], 112: [354, 347, 340], 223: [391, 383, 376], 334: [376, 398, 362], 556: [326, 253, 181], '778.889': [347, 376, 340] } d3.selectAll('.c3-circles-443 .c3-circle').each(function(d, i) { var circle = d3.select(this) expect(+circle.attr('cx')).toBeCloseTo(expectedCx[i], 0) expect(+circle.attr('cy')).toBeCloseTo(expectedCy[443][i], 0) }) d3.selectAll('.c3-circles-995-996 .c3-circle').each(function(d, i) { var circle = d3.select(this) expect(+circle.attr('cx')).toBeCloseTo(expectedCx[i], 0) expect(+circle.attr('cy')).toBeCloseTo(expectedCy[995][i], 0) }) d3.selectAll('.c3-circles-112-0- .c3-circle').each(function(d, i) { var circle = d3.select(this) expect(+circle.attr('cx')).toBeCloseTo(expectedCx[i], 0) expect(+circle.attr('cy')).toBeCloseTo(expectedCy[112][i], 0) }) d3.selectAll('.c3-circles-223-0--224 .c3-circle').each(function(d, i) { var circle = d3.select(this) expect(+circle.attr('cx')).toBeCloseTo(expectedCx[i], 0) expect(+circle.attr('cy')).toBeCloseTo(expectedCy[223][i], 0) }) d3.selectAll('.c3-circles-334-1--0--335 .c3-circle').each(function( d, i ) { var circle = d3.select(this) expect(+circle.attr('cx')).toBeCloseTo(expectedCx[i], 0) expect(+circle.attr('cy')).toBeCloseTo(expectedCy[334][i], 0) }) d3.selectAll('.c3-circles-556-557-558-0- .c3-circle').each(function( d, i ) { var circle = d3.select(this) expect(+circle.attr('cx')).toBeCloseTo(expectedCx[i], 0) expect(+circle.attr('cy')).toBeCloseTo(expectedCy[556][i], 0) }) d3.selectAll('.c3-circles-778-889 .c3-circle').each(function(d, i) { var circle = d3.select(this) expect(+circle.attr('cx')).toBeCloseTo(expectedCx[i], 0) expect(+circle.attr('cy')).toBeCloseTo(expectedCy['778.889'][i], 0) }) }) }) }) describe('load rows', function() { beforeAll(function() { args = { data: { rows: [ ['data1', 'data2', 'data3'], [90, 120, 300], [40, 160, 240], [50, 200, 290], [120, 160, 230], [80, 130, 300], [90, 220, 320] ] } } }) it('should draw correctly', function() { var expectedCx = [6, 124, 241, 358, 475, 593], expectedCy = [327, 391, 378, 289, 340, 327] d3.selectAll('.c3-circles-data1 .c3-circle').each(function(d, i) { var circle = d3.select(this) expect(+circle.attr('cx')).toBeCloseTo(expectedCx[i], 0) expect(+circle.attr('cy')).toBeCloseTo(expectedCy[i], 0) }) }) }) describe('function in data.order', function() { beforeAll(function() { args = { data: { columns: [ ['data1', 30, 200, 100, 400, 150, 250], ['data2', 50, 20, 10, 40, 15, 25], ['data3', 150, 120, 110, 140, 115, 125] ], order: function() { return 0 } } } }) it('should return false in isOrderAsc and isOrderDesc functions', function() { expect(chart.internal.isOrderAsc() || chart.internal.isOrderDesc()).toBe( false ) }) }) describe('addHiddenTargetIds if not already hidden', function() { it('should update args', function() { args = { data: { columns: [ ['data1', 30, 200, 100, 400, 150, 250], ['data2', 150, 120, 110, 140, 115, 125] ] } } expect(true).toBeTruthy() }) it('length of hiddenTargetIds should not change if same key added twice', function() { chart.internal.addHiddenTargetIds('data1') expect(chart.internal.hiddenTargetIds.length).toBe(1) chart.internal.addHiddenTargetIds('data1') expect(chart.internal.hiddenTargetIds.length).toBe(1) chart.hide('data1') expect(chart.internal.hiddenTargetIds.length).toBe(1) chart.internal.addHiddenTargetIds('data2') expect(chart.internal.hiddenTargetIds.length).toBe(2) chart.show() chart.hide(['data1', 'data2']) expect(chart.internal.hiddenTargetIds.length).toBe(2) chart.show() chart.hide() expect(chart.internal.hiddenTargetIds.length).toBe(2) }) }) describe('addHiddenLegendIds if not already hidden', function() { it('should update args', function() { args = { data: { columns: [ ['data1', 30, 200, 100, 400, 150, 250], ['data2', 150, 120, 110, 140, 115, 125] ] } } expect(true).toBeTruthy() }) it('length of hiddenLegendIds should not change if same key added twice', function() { chart.internal.addHiddenLegendIds('data1') expect(chart.internal.hiddenLegendIds.length).toBe(1) chart.internal.addHiddenLegendIds('data1') expect(chart.internal.hiddenLegendIds.length).toBe(1) chart.hide('data1', { withLegend: true }) expect(chart.internal.hiddenLegendIds.length).toBe(1) chart.hide('data2', { withLegend: true }) expect(chart.internal.hiddenLegendIds.length).toBe(2) chart.show(['data1', 'data2'], { withLegend: true }) chart.hide(['data1', 'data2'], { withLegend: true }) expect(chart.internal.hiddenLegendIds.length).toBe(2) }) }) describe('data.xs', function() { beforeAll(function() { args = { data: { columns: [ ['data1', 30, 200, 100, 400, 150, 250], ['data2', 50, 20, 10, 40, 15, 25], ['data3', 150, 120, 110, 140, 115, 125] ] } } }) describe('normal x', function() { it('should have correct number of xs for each', function() { expect(Object.keys(chart.internal.data.xs).length).toBe(3) expect(chart.internal.data.xs.data1.length).toBe(6) expect(chart.internal.data.xs.data2.length).toBe(6) expect(chart.internal.data.xs.data3.length).toBe(6) }) it('should have integer index as x', function() { for (var i = 0; i < chart.internal.data.xs.data3.length; i++) { expect(chart.internal.data.xs.data1[i]).toBe(i) expect(chart.internal.data.xs.data2[i]).toBe(i) expect(chart.internal.data.xs.data3[i]).toBe(i) } }) }) describe('timeseries x', function() { describe('without xFormat', function() { beforeAll(function() { args = { data: { x: 'date', columns: [ ['date', '2013-01-01', '2013-01-02', '2013-01-03'], ['data1', 30, 200, 100], ['data2', 130, 300, 200] ] }, axis: { x: { type: 'timeseries' } } } }) it('should have correct number of xs', function() { expect(Object.keys(chart.internal.data.xs).length).toBe(2) expect(chart.internal.data.xs.data1.length).toBe(3) expect(chart.internal.data.xs.data2.length).toBe(3) }) it('should have Date object as x', function() { var xs = chart.internal.data.xs expect(+xs.data1[0]).toBe(+new Date(2013, 0, 1, 0, 0, 0)) expect(+xs.data1[1]).toBe(+new Date(2013, 0, 2, 0, 0, 0)) expect(+xs.data1[2]).toBe(+new Date(2013, 0, 3, 0, 0, 0)) expect(+xs.data2[0]).toBe(+new Date(2013, 0, 1, 0, 0, 0)) expect(+xs.data2[1]).toBe(+new Date(2013, 0, 2, 0, 0, 0)) expect(+xs.data2[2]).toBe(+new Date(2013, 0, 3, 0, 0, 0)) }) }) describe('with xFormat', function() { describe('timeseries x with xFormat', function() { beforeAll(function() { args = { data: { x: 'date', xFormat: '%Y%m%d', columns: [ ['date', '20130101', '20130102', '20130103'], ['data1', 30, 200, 100], ['data2', 130, 300, 200] ] }, axis: { x: { type: 'timeseries' } } } }) it('should have correct number of xs', function() { expect(Object.keys(chart.internal.data.xs).length).toBe(2) expect(chart.internal.data.xs.data1.length).toBe(3) expect(chart.internal.data.xs.data2.length).toBe(3) }) it('should have Date object as x', function() { var xs = chart.internal.data.xs expect(+xs.data1[0]).toBe(+new Date(2013, 0, 1, 0, 0, 0)) expect(+xs.data1[1]).toBe(+new Date(2013, 0, 2, 0, 0, 0)) expect(+xs.data1[2]).toBe(+new Date(2013, 0, 3, 0, 0, 0)) expect(+xs.data2[0]).toBe(+new Date(2013, 0, 1, 0, 0, 0)) expect(+xs.data2[1]).toBe(+new Date(2013, 0, 2, 0, 0, 0)) expect(+xs.data2[2]).toBe(+new Date(2013, 0, 3, 0, 0, 0)) }) }) }) }) describe('milliseconds timeseries x', function() { describe('as date string', function() { beforeAll(function() { args = { data: { x: 'date', xFormat: '%Y-%m-%d %H:%M:%S.%L', columns: [ ['date', '2014-05-20 17:25:00.123', '2014-05-20 17:30:00.345'], ['data1', 30, 200], ['data2', 130, 300] ] }, axis: { x: { type: 'timeseries', tick: { format: '%Y-%m-%d %H:%M:%S.%L', multiline: false } } } } }) it('should have correct number of xs', function() { expect(Object.keys(chart.internal.data.xs).length).toBe(2) expect(chart.internal.data.xs.data1.length).toBe(2) expect(chart.internal.data.xs.data2.length).toBe(2) }) it('should have Date object as x', function() { var xs = chart.internal.data.xs expect(+xs.data1[0]).toBe(+new Date(2014, 4, 20, 17, 25, 0, 123)) expect(+xs.data1[1]).toBe(+new Date(2014, 4, 20, 17, 30, 0, 345)) expect(+xs.data2[0]).toBe(+new Date(2014, 4, 20, 17, 25, 0, 123)) expect(+xs.data2[1]).toBe(+new Date(2014, 4, 20, 17, 30, 0, 345)) }) it('should have milliseconds tick format', function() { var expected = ['2014-05-20 17:25:00.123', '2014-05-20 17:30:00.345'] chart.internal.main .selectAll('.c3-axis-x g.tick text') .each(function(d, i) { expect(d3.select(this).text()).toBe(expected[i]) }) }) }) describe('as unixtime number', function() { beforeAll(function() { args = { data: { x: 'date', columns: [ ['date', 1417622461123, 1417622522345], ['data1', 30, 200], ['data2', 130, 300] ] }, axis: { x: { type: 'timeseries', tick: { format: '%Y-%m-%d %H:%M:%S.%L' } } } } }) it('should have correct number of xs', function() { expect(Object.keys(chart.internal.data.xs).length).toBe(2) expect(chart.internal.data.xs.data1.length).toBe(2) expect(chart.internal.data.xs.data2.length).toBe(2) }) it('should have Date object as x', function() { var xs = chart.internal.data.xs expect(+xs.data1[0]).toBe(1417622461123) expect(+xs.data1[1]).toBe(1417622522345) expect(+xs.data2[0]).toBe(1417622461123) expect(+xs.data2[1]).toBe(1417622522345) }) }) }) }) describe('data.label', function() { describe('on line chart', function() { beforeAll(function() { args = { data: { columns: [ ['data1', 1030, 2200, 2100], ['data2', 1150, 2010, 1200], ['data3', -1150, -2010, -1200], ['data4', -1030, -2200, -2100] ], type: 'line', labels: true } } }) it('should locate data labels in correct position', function() { var expectedTextY = { data1: [128, 38, 46], data2: [119, 53, 115], data3: [311, 377, 315], data4: [302, 392, 384] } var expectedTextX = { data1: [6, 294, 583], data2: [6, 294, 583], data3: [6, 294, 583], data4: [6, 294, 583] } Object.keys(expectedTextY).forEach(function(key) { d3.selectAll('.c3-texts-' + key + ' text.c3-text').each(function( d, i ) { var text = d3.select(this) expect(+text.attr('y')).toBeCloseTo(expectedTextY[key][i], -2) expect(+text.attr('x')).toBeCloseTo(expectedTextX[key][i], -2) }) }) }) describe('with stacked', function() { beforeAll(function() { args.data.groups = [ ['data1', 'data2'], ['data3', 'data4'] ] }) it('should locate data labels in correct position', function() { var expectedTextY = { data1: [120, 38, 75], data2: [161, 127, 159], data3: [269, 303, 271], data4: [310, 392, 355] } var expectedTextX = { data1: [6, 294, 583], data2: [6, 294, 583], data3: [6, 294, 583], data4: [6, 294, 583] } Object.keys(expectedTextY).forEach(function(key) { d3.selectAll('.c3-texts-' + key + ' text.c3-text').each(function( d, i ) { var text = d3.select(this) expect(+text.attr('y')).toBeCloseTo(expectedTextY[key][i], -2) expect(+text.attr('x')).toBeCloseTo(expectedTextX[key][i], -2) }) }) }) }) }) describe('on area chart', function() { beforeAll(function() { args = { data: { columns: [ ['data1', 1030, 2200, 2100], ['data2', 1150, 2010, 1200], ['data3', -1150, -2010, -1200], ['data4', -1030, -2200, -2100] ], type: 'area', labels: true } } }) it('should locate data labels in correct position', function() { var expectedTextY = { data1: [128, 38, 46], data2: [119, 53, 115], data3: [311, 377, 315], data4: [302, 392, 384] } var expectedTextX = { data1: [6, 294, 583], data2: [6, 294, 583], data3: [6, 294, 583], data4: [6, 294, 583] } Object.keys(expectedTextY).forEach(function(key) { d3.selectAll('.c3-texts-' + key + ' text.c3-text').each(function( d, i ) { var text = d3.select(this) expect(+text.attr('y')).toBeCloseTo(expectedTextY[key][i], -2) expect(+text.attr('x')).toBeCloseTo(expectedTextX[key][i], -2) }) }) }) describe('with stacked', function() { beforeAll(function() { args.data.groups = [ ['data1', 'data2'], ['data3', 'data4'] ] }) it('should locate data labels in correct position', function() { var expectedTextY = { data1: [120, 38, 75], data2: [161, 127, 159], data3: [269, 303, 271], data4: [310, 392, 355] } var expectedTextX = { data1: [6, 294, 583], data2: [6, 294, 583], data3: [6, 294, 583], data4: [6, 294, 583] } Object.keys(expectedTextY).forEach(function(key) { d3.selectAll('.c3-texts-' + key + ' text.c3-text').each(function( d, i ) { var text = d3.select(this) expect(+text.attr('y')).toBeCloseTo(expectedTextY[key][i], -2) expect(+text.attr('x')).toBeCloseTo(expectedTextX[key][i], -2) }) }) }) }) }) describe('on bar chart', function() { beforeAll(function() { args = { data: { columns: [ ['data1', 1030, 2200, 2100], ['data2', 1150, 2010, 1200], ['data3', -1150, -2010, -1200], ['data4', -1030, -2200, -2100] ], type: 'bar', labels: true } } }) it('should locate data labels in correct position', function() { var expectedTextY = { data1: [128, 38, 46], data2: [119, 53, 115], data3: [311, 377, 315], data4: [302, 392, 384] } var expectedTextX = { data1: [53, 249, 445], data2: [83, 279, 475], data3: [112, 308, 504], data4: [142, 338, 534] } Object.keys(expectedTextY).forEach(function(key) { d3.selectAll('.c3-texts-' + key + ' text.c3-text').each(function( d, i ) { var text = d3.select(this) expect(+text.attr('y')).toBeCloseTo(expectedTextY[key][i], -2) expect(+text.attr('x')).toBeCloseTo(expectedTextX[key][i], -2) }) }) }) describe('with stacked', function() { beforeAll(function() { args.data.groups = [ ['data1', 'data2'], ['data3', 'data4'] ] }) it('should locate data labels in correct position', function() { var expectedTextY = { data1: [120, 38, 75], data2: [161, 127, 159], data3: [269, 303, 271], data4: [310, 392, 355] } var expectedTextX = { data1: [68.6, 264, 460], data2: [68.6, 264, 460], data3: [127, 323, 519], data4: [127, 323, 519] } Object.keys(expectedTextY).forEach(function(key) { d3.selectAll('.c3-texts-' + key + ' text.c3-text').each(function( d, i ) { var text = d3.select(this) expect(+text.attr('y')).toBeCloseTo(expectedTextY[key][i], -2) expect(+text.attr('x')).toBeCloseTo(expectedTextX[key][i], -2) }) }) }) }) }) describe('for all targets', function() { describe('with data label for all data', function() { beforeAll(function() { args = { data: { columns: [ ['data1', 100, 200, 100, 400, 150, 250], ['data2', 10, 20, 10, 40, 15, 25], ['data3', 1000, 2000, 1000, 4000, 1500, 2500] ], labels: true } } }) it('should have data labels on all data', function() { d3.selectAll('.c3-texts-data1 text').each(function(d, i) { expect(d3.select(this).text()).toBe( args.data.columns[0][i + 1] + '' ) }) d3.selectAll('.c3-texts-data2 text').each(function(d, i) { expect(d3.select(this).text()).toBe( args.data.columns[1][i + 1] + '' ) }) d3.selectAll('.c3-texts-data3 text').each(function(d, i) { expect(d3.select(this).text()).toBe( args.data.columns[2][i + 1] + '' ) }) }) }) }) describe('for each target', function() { describe('as true', function() { describe('with data label for only data1', function() { beforeAll(function() { args = { data: { columns: [ ['data1', 100, 200, 100, 400, 150, 250], ['data2', 10, 20, 10, 40, 15, 25], ['data3', 1000, 2000, 1000, 4000, 1500, 2500] ], labels: { format: { data1: true } } } } }) it('should have data labels on all data', function() { d3.selectAll('.c3-texts-data1 text').each(function(d, i) { expect(d3.select(this).text()).toBe( args.data.columns[0][i + 1] + '' ) }) d3.selectAll('.c3-texts-data2 text').each(function() { expect(d3.select(this).text()).toBe('') }) d3.selectAll('.c3-texts-data3 text').each(function() { expect(d3.select(this).text()).toBe('') }) }) }) }) describe('as function', function() { describe('with data label for only data1', function() { beforeAll(function() { args = { data: { columns: [ ['data1', 100, 200, 100, 400, 150, 250], ['data2', 10, 20, 10, 40, 15, 25], ['data3', 1000, 2000, 1000, 4000, 1500, 2500] ], labels: { format: { data1: d3.format('$') } } } } }) it('should have data labels on all data', function() { d3.selectAll('.c3-texts-data1 text').each(function(d, i) { expect(d3.select(this).text()).toBe( '$' + args.data.columns[0][i + 1] ) }) d3.selectAll('.c3-texts-data2 text').each(function() { expect(d3.select(this).text()).toBe('') }) d3.selectAll('.c3-texts-data3 text').each(function() { expect(d3.select(this).text()).toBe('') }) }) }) }) }) describe('with small values', function() { describe('with data label', function() { beforeAll(function() { args = { data: { columns: [['data1', 0.03, 0.2, 0.1, 0.4, 0.15, 0.25]], labels: true } } }) it('should have proper y domain', function() { var domain = chart.internal.y.domain() expect(domain[0]).toBeCloseTo(-0.02) expect(domain[1]).toBeCloseTo(0.45) }) }) }) describe('with positive values and null', function() { describe('on not rotated axis', function() { beforeAll(function() { args = { data: { columns: [['data1', 190, 200, 190, null]], type: 'bar', labels: { format: function(v) { if (v === null) { return 'Not Applicable' } return d3.format('$')(v) } } } } }) it('should have y domain with proper padding', function() { var domain = chart.internal.y.domain() expect(domain[0]).toBeCloseTo(0, -1) expect(domain[1]).toBeCloseTo(227, -1) }) it('should locate labels above each data point', function() { var texts = chart.internal.main.selectAll('.c3-texts-data1 text'), expectedYs = [67, 49, 67, 423], expectedXs = [74, 221, 368, 515] texts.each(function(d, i) { var text = d3.select(this) expect(+text.attr('y')).toBeCloseTo(expectedYs[i], -2) expect(+text.attr('x')).toBeCloseTo(expectedXs[i], -2) }) }) describe('data type line', function() { beforeAll(function() { args.data.type = 'line' }) it('should have y domain with proper padding', function() { var domain = chart.internal.y.domain() expect(domain[0]).toBeCloseTo(189, -1) expect(domain[1]).toBeCloseTo(201, -1) }) it('should locate labels above each data point', function() { var texts = chart.internal.main.selectAll('.c3-texts-data1 text'), expectedYs = [375, 40, 375, 422], expectedXs = [6, 198, 391, 583] texts.each(function(d, i) { var text = d3.select(this) expect(+text.attr('y')).toBeCloseTo(expectedYs[i], -2) expect(+text.attr('x')).toBeCloseTo(expectedXs[i], -2) }) }) }) }) describe('on rotated axis', function() { describe('data type bar', function() { beforeAll(function() { args.data.type = 'bar' args.axis = { rotated: true } }) it('should have y domain with proper padding', function() { var domain = chart.internal.y.domain() expect(domain[0]).toBeCloseTo(0, -1) expect(domain[1]).toBeCloseTo(231, -1) }) it('should locate labels above each data point', function() { var texts = chart.internal.main.selectAll('.c3-texts-data1 text'), expectedYs = [57, 163, 269, 375], expectedXs = [490, 516, 490, 4] texts.each(function(d, i) { var text = d3.select(this) expect(+text.attr('y')).toBeCloseTo(expectedYs[i], -2) expect(+text.attr('x')).toBeCloseTo(expectedXs[i], -2) }) }) }) describe('data type line', function() { beforeAll(function() { args.data.type = 'line' }) it('should have y domain with proper padding', function() { var domain = chart.internal.y.domain() expect(domain[0]).toBeCloseTo(188, -1) expect(domain[1]).toBeCloseTo(202, -1) }) it('should locate labels above each data point', function() { var texts = chart.internal.main.selectAll('.c3-texts-data1 text'), expectedYs = [9, 147, 286, 424], expectedXs = [76, 526, 76, 4] texts.each(function(d, i) { var text = d3.select(this) expect(+text.attr('y')).toBeCloseTo(expectedYs[i], -2) expect(+text.attr('x')).toBeCloseTo(expectedXs[i], -2) }) }) }) }) }) describe('with negative values and null', function() { describe('on not rotated axis', function() { describe('type bar', function() { beforeAll(function() { args = { data: { columns: [['data1', -190, 0, -190, null]], type: 'bar', labels: { format: function(v) { if (v === null) { return 'Not Applicable' } return d3.format('$')(v) } } } } }) it('should have y domain with proper padding', function() { var domain = chart.internal.y.domain() expect(domain[0]).toBeCloseTo(-215, -1) expect(domain[1]).toBeCloseTo(0, -1) }) it('should locate labels above each data point', function() { var texts = chart.internal.main.selectAll('.c3-texts-data1 text'), expectedYs = [368, 12, 368, 12], expectedXs = [74, 221, 368, 515] texts.each(function(d, i) { var text = d3.select(this) expect(+text.attr('y')).toBeCloseTo(expectedYs[i], -2) expect(+text.attr('x')).toBeCloseTo(expectedXs[i], -2) }) }) }) describe('data type line', function() { beforeAll(function() { args.data.type = 'line' }) it('should have y domain with proper padding', function() { var domain = chart.internal.y.domain() expect(domain[0]).toBeCloseTo(-215, -1) expect(domain[1]).toBeCloseTo(25, -1) }) it('should locate labels above each data point', function() { var texts = chart.internal.main.selectAll('.c3-texts-data1 text'), expectedYs = [395, 60, 395, 12], expectedXs = [6, 198, 391, 583] texts.each(function(d, i) { var text = d3.select(this) expect(+text.attr('y')).toBeCloseTo(expectedYs[i], -2) expect(+text.attr('x')).toBeCloseTo(expectedXs[i], -2) }) }) }) }) describe('on rotated axis', function() { describe('data type bar', function() { beforeAll(function() { args.data.type = 'bar' args.axis = { rotated: true } }) it('should have y domain with proper padding', function() { var domain = chart.internal.y.domain() expect(domain[0]).toBeCloseTo(-220, -1) expect(domain[1]).toBeCloseTo(0, -1) }) it('should locate labels above each data point', function() { var texts = chart.internal.main.selectAll('.c3-texts-data1 text'), expectedYs = [57, 163, 269, 375], expectedXs = [103, 594, 103, 526] texts.each(function(d, i) { var text = d3.select(this) expect(+text.attr('y')).toBeCloseTo(expectedYs[i], -2) expect(+text.attr('x')).toBeCloseTo(expectedXs[i], -2) }) }) }) describe('data type line', function() { beforeAll(function() { args.data.type = 'line' }) it('should have y domain with proper padding', function() { var domain = chart.internal.y.domain() expect(domain[0]).toBeCloseTo(-220, -1) expect(domain[1]).toBeCloseTo(24, -1) }) it('should locate labels above each data point', function() { var texts = chart.internal.main.selectAll('.c3-texts-data1 text'), expectedYs = [9, 147, 286, 424], expectedXs = [67, 537, 67, 526] texts.each(function(d, i) { var text = d3.select(this) expect(+text.attr('y')).toBeCloseTo(expectedYs[i], -2) expect(+text.attr('x')).toBeCloseTo(expectedXs[i], -2) }) }) }) }) }) describe('with positive and negative values and null', function() { describe('on non rotated axis', function() { describe('data type bar', function() { beforeAll(function() { args = { data: { columns: [['data1', -190, 200, 190, null]], type: 'bar', labels: { format: function(v) { if (v === null) { return 'Not Applicable' } return d3.format('$')(v) } } } } }) it('should have y domain with proper padding', function() { var domain = chart.internal.y.domain() expect(domain[0]).toBeCloseTo(-243, -1) expect(domain[1]).toBeCloseTo(253, -1) }) it('should locate labels above each data point', function() { var texts = chart.internal.main.selectAll('.c3-texts-data1 text'), expectedYs = [392, 43, 52, 215], expectedXs = [74, 221, 368, 515] texts.each(function(d, i) { var text = d3.select(this) expect(+text.attr('y')).toBeCloseTo(expectedYs[i], -2) expect(+text.attr('x')).toBeCloseTo(expectedXs[i], -2) }) }) }) describe('data type line', function() { beforeAll(function() { args.data.type = 'line' }) it('should have y domain with proper padding', function() { var domain = chart.internal.y.domain() expect(domain[0]).toBeCloseTo(-243, -1) expect(domain[1]).toBeCloseTo(253, -1) }) it('should locate labels above each data point', function() { var texts = chart.internal.main.selectAll('.c3-texts-data1 text'), expectedYs = [392, 40, 49, 212], expectedXs = [6, 198, 391, 583] texts.each(function(d, i) { var text = d3.select(this) expect(+text.attr('y')).toBeCloseTo(expectedYs[i], -2) expect(+text.attr('x')).toBeCloseTo(expectedXs[i], -2) }) }) }) }) describe('on rotated axis', function() { describe('data type bar', function() { beforeAll(function() { args.data.type = 'bar' args.axis = { rotated: true } }) it('should have y domain with proper padding', function() { var domain = chart.internal.y.domain() expect(domain[0]).toBeCloseTo(-253, -1) expect(domain[1]).toBeCloseTo(260, -1) }) it('should locate labels above each data point', function() { var texts = chart.internal.main.selectAll('.c3-texts-data1 text'), expectedYs = [57, 163, 269, 375], expectedXs = [69, 525, 513, 295] texts.each(function(d, i) { var text = d3.select(this) expect(+text.attr('y')).toBeCloseTo(expectedYs[i], -2) expect(+text.attr('x')).toBeCloseTo(expectedXs[i], -2) }) }) }) describe('data type line', function() { beforeAll(function() { args.data.type = 'line' }) it('should have y domain with proper padding', function() { var domain = chart.internal.y.domain() expect(domain[0]).toBeCloseTo(-253, -1) expect(domain[1]).toBeCloseTo(260, -1) }) it('should locate labels above each data point', function() { var texts = chart.internal.main.selectAll('.c3-texts-data1 text'), expectedYs = [9, 147, 286, 424], expectedXs = [67, 527, 515, 297] texts.each(function(d, i) { var text = d3.select(this) expect(+text.attr('y')).toBeCloseTo(expectedYs[i], -2) expect(+text.attr('x')).toBeCloseTo(expectedXs[i], -2) }) }) }) }) }) describe('with positive grouped values', function() { describe('on non rotated axis', function() { describe('data type bar', function() { beforeAll(function() { args = { data: { columns: [ ['data1', 30, 200, 100, 500], ['data2', 50, 20, 10, 40], ['data3', 250, 220, 210, 240] ], groups: [['data1', 'data2', 'data3']], labels: true, type: 'bar' } } }) it('should have y domain with proper padding', function() { var domain = chart.internal.y.domain() expect(domain[0]).toBeCloseTo(0, -1) expect(domain[1]).toBeCloseTo(885, -1) }) it('should locate labels above each data point', function() { var texts = chart.internal.main.selectAll('.c3-texts-data1 text'), expectedYs = [385, 317, 370, 164], expectedXs = [74, 221, 368, 515] texts.each(function(d, i) { var text = d3.select(this) expect(+text.attr('y')).toBeCloseTo(expectedYs[i], -2) expect(+text.attr('x')).toBeCloseTo(expectedXs[i], -2) }) }) }) describe('data type line', function() { beforeAll(function() { args.data.type = 'line' }) it('should have y domain with proper padding', function() { var domain = chart.internal.y.domain() expect(domain[0]).toBeCloseTo(-94, -1) expect(domain[1]).toBeCloseTo(884, -1) }) it('should locate labels above each data point', function() { var texts = chart.internal.main.selectAll('.c3-texts-data1 text'), expectedYs = [344, 284, 331, 144], expectedXs = [6, 198, 391, 583] texts.each(function(d, i) { var text = d3.select(this) expect(+text.attr('y')).toBeCloseTo(expectedYs[i], -2) expect(+text.attr('x')).toBeCloseTo(expectedXs[i], -2) }) }) }) }) describe('on rotated axis', function() { describe('data type bar', function() { beforeAll(function() { args.data.type = 'bar' args.axis = { rotated: true } }) it('should have y domain with proper padding', function() { var domain = chart.internal.y.domain() expect(domain[0]).toBeCloseTo(0, -1) expect(domain[1]).toBeCloseTo(888, -1.2) }) it('should locate labels above each data point', function() { var texts = chart.internal.main.selectAll('.c3-texts-data1 text'), expectedYs = [57, 163, 269, 375], expectedXs = [57, 150, 77, 363] texts.each(function(d, i) { var text = d3.select(this) expect(+text.attr('y')).toBeCloseTo(expectedYs[i], -2) expect(+text.attr('x')).toBeCloseTo(expectedXs[i], -2) }) }) }) describe('data type line', function() { beforeAll(function() { args.data.type = 'line' }) it('should have y domain with proper padding', function() { var domain = chart.internal.y.domain() expect(domain[0]).toBeCloseTo(-87, -1) expect(domain[1]).toBeCloseTo(887, -1.2) }) it('should locate labels above each data point', function() { var texts = chart.internal.main.selectAll('.c3-texts-data1 text'), expectedYs = [9, 147, 286, 424], expectedXs = [107, 192, 125, 386] texts.each(function(d, i) { var text = d3.select(this) expect(+text.attr('y')).toBeCloseTo(expectedYs[i], -2) expect(+text.attr('x')).toBeCloseTo(expectedXs[i], -2) }) }) }) }) }) describe('with negative grouped values', function() { describe('on non rotated axis', function() { describe('data type bar', function() { beforeAll(function() { args = { data: { columns: [ ['data1', -30, -200, -100, -500], ['data2', -50, -20, -10, -40], ['data3', -250, -220, -210, -240] ], groups: [['data1', 'data2', 'data3']], labels: true, type: 'bar' } } }) it('should have y domain with proper padding', function() { var domain = chart.internal.y.domain() expect(domain[0]).toBeCloseTo(-885, -1) expect(domain[1]).toBeCloseTo(0, -1) }) it('should locate labels above each data point', function() { var texts = chart.internal.main.selectAll('.c3-texts-data1 text'), expectedYs = [51, 118, 65, 272], expectedXs = [74, 221, 368, 515] texts.each(function(d, i) { var text = d3.select(this) expect(+text.attr('y')).toBeCloseTo(expectedYs[i], -2) expect(+text.attr('x')).toBeCloseTo(expectedXs[i], -2) }) }) }) describe('data type line', function() { beforeAll(function() { args.data.type = 'line' }) it('should have y domain with proper padding', function() { var domain = chart.internal.y.domain() expect(domain[0]).toBeCloseTo(-884, -1) expect(domain[1]).toBeCloseTo(94, -1) }) it('should locate labels above each data point', function() { var texts = chart.internal.main.selectAll('.c3-texts-data1 text'), expectedYs = [88, 149, 101, 288], expectedXs = [6, 198, 391, 583] texts.each(function(d, i) { var text = d3.select(this) expect(+text.attr('y')).toBeCloseTo(expectedYs[i], -2) expect(+text.attr('x')).toBeCloseTo(expectedXs[i], -2) }) }) }) }) describe('on rotated axis', function() { describe('data type bar', function() { beforeAll(function() { args.data.type = 'bar' args.axis = { rotated: true } }) it('should have y domain with proper padding', function() { var domain = chart.internal.y.domain() expect(domain[0]).toBeCloseTo(-899, -1) expect(domain[1]).toBeCloseTo(0, -1) }) it('should locate labels above each data point', function() { var texts = chart.internal.main.selectAll('.c3-texts-data1 text'), expectedYs = [57, 163, 269, 375], expectedXs = [533, 440, 513, 230] texts.each(function(d, i) { var text = d3.select(this) expect(+text.attr('y')).toBeCloseTo(expectedYs[i], -2) expect(+text.attr('x')).toBeCloseTo(expectedXs[i], -2) }) }) }) describe('data type line', function() { beforeAll(function() { args.data.type = 'line' }) it('should have y domain with proper padding', function() { var domain = chart.internal.y.domain() expect(domain[0]).toBeCloseTo(-893, -1) expect(domain[1]).toBeCloseTo(93, -1) }) it('should locate labels above each data point', function() { var texts = chart.internal.main.selectAll('.c3-texts-data1 text'), expectedYs = [9, 147, 286, 424], expectedXs = [480, 397, 462, 205] texts.each(function(d, i) { var text = d3.select(this) expect(+text.attr('y')).toBeCloseTo(expectedYs[i], -2) expect(+text.attr('x')).toBeCloseTo(expectedXs[i], -2) }) }) }) }) }) }) describe('data.stack', function() { beforeAll(() => { args = { data: { columns: [ ['data1', 230, 50, 300], ['data2', 198, 87, 580] ], type: 'bar', groups: [['data1', 'data2']], stack: { normalize: true } } } }) const getChartHeight = () => +chart.internal.main.select(`.c3-event-rect`).attr('height') - 1 it('check for the normalized y axis tick in percentage', () => { const tick = chart.internal.main.selectAll(`.c3-axis-y .tick tspan`) // check for the y axis to be in percentage tick.each(function(v, i) { expect(this.textContent).toEqual(`${i * 10}%`) }) }) it("check for the normalized bar's height", () => { const chartHeight = getChartHeight() const bars = chart.internal.main.selectAll('.c3-bar').nodes() bars.splice(0, 3).forEach((v, i) => { expect(v.getBBox().height + bars[i].getBBox().height).toEqual( chartHeight ) }) }) it('check when hiding data', done => { const chartHeight = getChartHeight() // when chart.hide('data1') setTimeout(() => { chart.internal.main.selectAll(`.c3-target-data2 path`).each(function() { expect(this.getBBox().height).toBe(chartHeight) }) done() }, 500) }) describe('timeseries chart', () => { beforeAll(function() { args = { data: { x: 'date', columns: [ ['date', '2012-12-24', '2012-12-25', '2012-12-26'], ['data1', 30, 200, 400], ['data2', 50, 60, 50] ], groups: [['data1', 'data2']], type: 'bar', stack: { normalize: true } }, axis: { x: { type: 'timeseries' } } } }) it("check for the normalized bar's height", () => { const chartHeight = getChartHeight() const bars = chart.internal.main.selectAll('.c3-bar').nodes() expect(document.hidden).toBeFalsy() bars.splice(0, 3).forEach((v, i) => { expect(v.getBBox().height + bars[i].getBBox().height).toEqual( chartHeight ) }) }) }) describe('area chart', () => { beforeAll(() => { args = { data: { columns: [ ['data1', 200, 387, 123], ['data2', 200, 387, 123] ], type: 'area', groups: [['data1', 'data2']], stack: { normalize: true } } } }) it("check for the normalized area's height", () => { const chartHeight = getChartHeight() let areaHeight = 0 chart.internal.main.selectAll('.c3-area').each(function() { areaHeight += this.getBBox().height }) expect(document.hidden).toBeFalsy() expect(areaHeight).toEqual(chartHeight) }) }) }) })