export default { data () { return { // config able defaultAxisFontSize: 10, defaultAxisFontFamily: 'Arial', defaultAxisLineColor: '#666', defaultGridLineColor: '#666', defaultAxisTagColor: '#666', defaultAxisUnitColor: '#666', defaultGridLineDash: [2, 2], defaultNoAxisLine: false, defaultNoAxisTag: false, defaultXAxisOffset: 20, defaultAxisLineTagGap: 5, // after merge axisFontSize: 0, axisFontFamily: '', axisLineColor: '', gridLineColor: '', axisTagColor: '', axisUnitColor: '', gridLineDash: [], noAxisLine: '', noAxisTag: '', // calc data valueMaxMin: [], agValueMaxMin: [], valueAxisMaxMin: [], agValueAxisMaxMin: [], valueAxisTag: [], agValueAxisTag: [], labelAxisTag: [], agLabelAxisTag: [], xAxisTagBA: ['', ''], agXAxisTagBA: ['', ''], yAxisTagBA: ['', ''], agYAxisTagBA: ['', ''], addBAValueAxisTag: [], addBAAGValueAxisTag: [], addBALabelAxisTag: [], addBAAGLabelAxisTag: [], axisUnit: [], axisOffset: [], axisOriginPos: [], axisWH: [], axisAnglePos: {}, valueAxisTagPos: [], agValueAxisTagPos: [], labelAxisTagPos: [], agLabelAxisTagPos: [], tagAlign: {} } }, methods: { initAxis () { const { calcValuesMaxMin, calcValueAxisData, calcLabelAxisData } = this calcValuesMaxMin() calcValueAxisData() calcLabelAxisData() const { calcTagBA, calcAddBATag, calcAxisUnit } = this calcTagBA() calcAddBATag() calcAxisUnit() const { calcAxisFontData, calcAxisColor, calcGridLineDash } = this calcAxisFontData() calcAxisColor() calcGridLineDash() const { calcAxisLineTagStatus, calcAxisOffset, calcAxisAreaData } = this calcAxisLineTagStatus() calcAxisOffset() calcAxisAreaData() const { calcAxisAnglePos, calcValueAxisTagPos, calcLabelAxisTagPos } = this calcAxisAnglePos() calcValueAxisTagPos() calcLabelAxisTagPos() const { calcTagAlign } = this calcTagAlign() }, calcValuesMaxMin () { const { data: { series }, calcValueMaxMin } = this const valueSeries = series.filter(({ againstAxis }) => !againstAxis) if (valueSeries.length) this.valueMaxMin = calcValueMaxMin(valueSeries) const agValueSeries = series.filter(({ againstAxis }) => againstAxis) if (agValueSeries.length) this.agValueMaxMin = calcValueMaxMin(agValueSeries) }, calcValueMaxMin (series) { const { mulValueAdd, calcMulValueAdd, getArrayMax, getArrayMin } = this let valueSeries = series.map(({ value }) => value) const min = getArrayMin(valueSeries) mulValueAdd && (valueSeries = calcMulValueAdd(valueSeries)) const max = getArrayMax(valueSeries) return [max, min] }, calcMulValueAdd (values) { const { multipleSum, filterNull } = this return values.map(series => filterNull(series).map(n => n instanceof Array ? multipleSum(...filterNull(n)) : n)) }, calcValueAxisData () { const { horizon, data: { x, ax, y, ay }, calcValueAxisTag } = this const { valueMaxMin, agValueMaxMin, getValueAxisMaxMin } = this const valueAxis = horizon ? [x, ax] : [y, ay] if (valueMaxMin.length) { const valueAxisTag = this.valueAxisTag = calcValueAxisTag(valueMaxMin, valueAxis[0]) this.valueAxisMaxMin = getValueAxisMaxMin(valueAxisTag) } if (agValueMaxMin.length) { const agValueAxisTag = this.agValueAxisTag = calcValueAxisTag(agValueMaxMin, valueAxis[1]) this.agValueAxisMaxMin = getValueAxisMaxMin(agValueAxisTag) } }, calcValueAxisTag ([vmax, vmin], { max, min, num, fixed, tags } = {}) { if (tags) return tags let [trueMax, trueMin] = [max, min] if (vmax === 0 && vmin === 0) vmax = 8 const thirdValueMinus = parseInt((vmax - vmin) / 3) !max && (max !== 0) && (trueMax = vmax + thirdValueMinus) !min && (min !== 0) && (trueMin = vmin - thirdValueMinus) const trueMinus = trueMax - trueMin !num && trueMinus < 9 && (num = Math.ceil(trueMinus) + 1) !num && (num = 10) const valueGap = trueMinus / (num - 1) return Array(num).fill(0).map((t, i) => (trueMin + i * valueGap).toFixed(fixed)) }, getValueAxisMaxMin (valueTag) { const lastIndex = valueTag.length - 1 return [ parseFloat(valueTag[lastIndex]), parseFloat(valueTag[0]) ] }, calcLabelAxisData () { const { horizon, data: { x, ax, y, ay } } = this const labelAxis = horizon ? [y, ay] : [x, ax] if (labelAxis[0] && labelAxis[0].tags) this.labelAxisTag = labelAxis[0].tags if (labelAxis[1] && labelAxis[1].tags) this.agLabelAxisTag = labelAxis[1].tags }, calcTagBA () { const { data: { x, ax, y, ay } } = this if (x && x.tagBefore) this.xAxisTagBA[0] = x.tagBefore if (ax && ax.tagBefore) this.agXAxisTagBA[0] = ax.tagBefore if (y && y.tagBefore) this.yAxisTagBA[0] = y.tagBefore if (ay && ay.tagBefore) this.agYAxisTagBA[0] = ay.tagBefore if (x && x.tagAfter) this.xAxisTagBA[1] = x.tagAfter if (ax && ax.tagAfter) this.agXAxisTagBA[1] = ax.tagAfter if (y && y.tagAfter) this.yAxisTagBA[1] = y.tagAfter if (ay && ay.tagAfter) this.agYAxisTagBA[1] = ay.tagAfter }, calcAddBATag () { const { xAxisTagBA, agXAxisTagBA, yAxisTagBA, agYAxisTagBA } = this const { valueAxisTag, agValueAxisTag, labelAxisTag, agLabelAxisTag } = this const { horizon, addBATag } = this const valueTagBA = horizon ? [xAxisTagBA, agXAxisTagBA] : [yAxisTagBA, agYAxisTagBA] const labelTagBA = horizon ? [yAxisTagBA, agYAxisTagBA] : [xAxisTagBA, agXAxisTagBA] if (valueAxisTag.length) this.addBAValueAxisTag = addBATag(valueAxisTag, valueTagBA[0]) if (agValueAxisTag.length) this.addBAAGValueAxisTag = addBATag(agValueAxisTag, valueTagBA[1]) if (labelAxisTag.length) this.addBALabelAxisTag = addBATag(labelAxisTag, labelTagBA[0]) if (agLabelAxisTag.length) this.addBAAGLabelAxisTag = addBATag(agLabelAxisTag, labelTagBA[1]) }, addBATag (tags, ba) { return tags.map(tag => tag ? `${ba[0]}${tag}${ba[1]}` : tag) }, calcAxisUnit () { const { data: { x, ax, y, ay } } = this if (x && x.unit) this.axisUnit[0] = x.unit if (ax && ax.unit) this.axisUnit[1] = ax.unit if (y && y.unit) this.axisUnit[2] = y.unit if (ay && ay.unit) this.axisUnit[3] = ay.unit }, calcAxisFontData () { const { defaultAxisFontSize, defaultAxisFontFamily, data } = this const { fontSize, fontFamily, axisFontSize, axisFontFamily }= data this.axisFontSize = axisFontSize || fontSize || defaultAxisFontSize this.axisFontFamily = axisFontFamily || fontFamily || defaultAxisFontFamily }, calcAxisColor () { const { data, defaultAxisTagColor, defaultAxisLineColor, defaultGridLineColor } = this const { axisTagColor, axisLineColor, gridLineColor } = data this.axisTagColor = axisTagColor || defaultAxisTagColor this.axisLineColor = axisLineColor || defaultAxisLineColor this.gridLineColor = gridLineColor || defaultGridLineColor }, calcGridLineDash () { const { data, defaultGridLineDash } = this const { gridLineDash } = data if (gridLineDash instanceof Array) { this.gridLineDash = gridLineDash } else if (gridLineDash) { this.gridLineDash = defaultGridLineDash } else { this.gridLineDash = [10, 0] } }, calcAxisLineTagStatus () { const { defaultNoAxisLine, defaultNoAxisTag, data } = this const { noAxisLine, noAxisTag } = data this.noAxisLine = noAxisLine || defaultNoAxisLine this.noAxisTag = noAxisTag || defaultNoAxisTag }, calcAxisOffset () { const { horizon, axisUnit, defaultXAxisOffset } = this const { addBAValueAxisTag, addBAAGValueAxisTag, addBALabelAxisTag, addBAAGLabelAxisTag } = this const { axisFontSize, axisFontFamily, defaultAxisLineTagGap } = this const { data: { x, ax, y, ay } } = this const { ctx, canvas: { getTextsWidth }, boundaryGap } = this ctx.font = `${axisFontSize}px ${axisFontFamily}` this.axisOffset[0] = (ax && ax.offset) || defaultXAxisOffset this.axisOffset[2] = (x && x.offset) || defaultXAxisOffset const horizonAxisTags = horizon ? [addBALabelAxisTag, addBAAGLabelAxisTag] : [addBAValueAxisTag, addBAAGValueAxisTag] this.axisOffset[3] = (y && y.offset) || Math.max(...getTextsWidth(ctx, [axisUnit[2] || '']), ...getTextsWidth(ctx, horizonAxisTags[0].length ? horizonAxisTags[0] : 0)) + defaultAxisLineTagGap // axis offset 1 const xAxisTags = horizon ? addBAValueAxisTag : addBALabelAxisTag let xAxisTagsHalfWidth = 0 xAxisTags.length && (xAxisTagsHalfWidth = ctx.measureText(xAxisTags.length - 1).width / 2) let rightOffset = Math.max(...getTextsWidth(ctx, [axisUnit[3] || '']), ...getTextsWidth(ctx, [axisUnit[0] || '']), ...getTextsWidth(ctx, horizonAxisTags[1].length ? horizonAxisTags[1] : [''])) + defaultAxisLineTagGap ;(!boundaryGap || horizon) && (rightOffset += (xAxisTagsHalfWidth + 5)) this.axisOffset[1] = (ay && ay.offset) || rightOffset if (y && y.noTag) this.axisOffset[3] = 1 if (ay && ay.noTag) this.axisOffset[1] = 1 }, calcAxisAreaData () { const { canvasWH, axisOffset, axisWH, axisOriginPos } = this axisWH[0] = canvasWH[0] - axisOffset[1] - axisOffset[3] axisWH[1] = canvasWH[1] - axisOffset[0] - axisOffset[2] axisOriginPos[0] = axisOffset[3] axisOriginPos[1] = axisWH[1] + axisOffset[0] }, calcAxisAnglePos () { const { axisWH, axisOriginPos, axisAnglePos } = this axisAnglePos.leftTop = [axisOriginPos[0], axisOriginPos[1] - axisWH[1]] axisAnglePos.rightTop = [axisOriginPos[0] + axisWH[0], axisOriginPos[1] - axisWH[1]] axisAnglePos.leftBottom = axisOriginPos axisAnglePos.rightBottom = [axisOriginPos[0] + axisWH[0], axisOriginPos[1]] }, calcValueAxisTagPos () { const { horizon, axisOriginPos, axisAnglePos } = this const { valueAxisTag, agValueAxisTag, getValueAxisTagPos } = this if (valueAxisTag) this.valueAxisTagPos = getValueAxisTagPos(valueAxisTag, axisOriginPos) const basePoint = horizon ? axisAnglePos.leftTop : axisAnglePos.rightBottom if (agValueAxisTag) this.agValueAxisTagPos = getValueAxisTagPos(agValueAxisTag, basePoint) }, getValueAxisTagPos (tags, [x, y]) { const { horizon, axisWH } = this const tagsNum = tags.length const areaLength = horizon ? axisWH[0] : axisWH[1] const tagGap = areaLength / (tagsNum - 1) return new Array(tagsNum).fill(0).map((t, i) => horizon ? [x + tagGap * i, y] : [x, y - tagGap * i]) }, calcLabelAxisTagPos () { const { horizon, getLabelAxisTagPos, axisAnglePos } = this const { labelAxisTag, agLabelAxisTag, axisOriginPos } = this if (labelAxisTag.length) this.labelAxisTagPos = getLabelAxisTagPos(labelAxisTag, axisOriginPos) const basePoint = horizon ? axisAnglePos.rightBottom : axisAnglePos.leftTop if (agLabelAxisTag.length) this.agLabelAxisTagPos = getLabelAxisTagPos(agLabelAxisTag, basePoint) }, getLabelAxisTagPos (tags, [x, y]) { const { horizon, axisWH, boundaryGap } = this const tagsNum = tags.length const areaLength = horizon ? axisWH[1] : axisWH[0] let gapColumnNum = boundaryGap ? tagsNum : tagsNum - 1 gapColumnNum === 0 && (gapColumnNum = 1) const tagGap = areaLength / gapColumnNum const halfGap = tagGap / 2 const tempPos = new Array(tagsNum).fill(0) if (boundaryGap) { return tempPos.map((t, i) => horizon ? [x, y - (tagGap * i) - halfGap] : [x + (tagGap * i) + halfGap, y]) } if (!boundaryGap) { return tempPos.map((t, i) => horizon ? [x, y + tagGap * i] : [x + tagGap * i, y]) } }, calcTagAlign () { const { tagAlign } = this tagAlign.x = ['center', 'top'] tagAlign.y = ['right', 'middle'] tagAlign.ax = ['center', 'bottom'] tagAlign.ay = ['left', 'middle'] }, drawAxis () { const { drawAxisLine, drawAxisTag, drawAxisUnit } = this drawAxisLine() drawAxisTag() drawAxisUnit() const { drawAxisGrid } = this drawAxisGrid() }, drawAxisLine () { const { noAxisLine } = this if (noAxisLine) return const { ctx, horizon, axisOriginPos, axisAnglePos } = this const { axisLineColor, agValueAxisTag, agLabelAxisTag } = this const { data: { x, ax, y, ay } } = this ctx.lineWidth = 1 if (!x || !x.noAxisLine) { ctx.strokeStyle = (x && x.axisLineColor) || axisLineColor ctx.beginPath() ctx.moveTo(...axisOriginPos) ctx.lineTo(...axisAnglePos.rightBottom) ctx.stroke() } if (!y || !y.noAxisLine) { ctx.strokeStyle = (y && y.axisLineColor) || axisLineColor ctx.beginPath() ctx.moveTo(...axisOriginPos) ctx.lineTo(...axisAnglePos.leftTop) ctx.stroke() } const agValueAxis = horizon ? ay : ax if (agValueAxisTag.length && (!agValueAxis || !agValueAxis.noAxisLine)) { ctx.strokeStyle = (agValueAxis && agValueAxis.axisLineColor) || axisLineColor ctx.beginPath() ctx.moveTo(...(horizon ? axisAnglePos.leftTop : axisAnglePos.rightTop)) ctx.lineTo(...(horizon ? axisAnglePos.rightTop : axisAnglePos.rightBottom)) ctx.stroke() } const agLebalAxis = horizon ? ax : ay if (agLabelAxisTag.length && (!agLebalAxis || !agLebalAxis.noAxisLine)) { ctx.strokeStyle = (agLebalAxis && agLebalAxis.axisLineColor) || axisLineColor ctx.beginPath() ctx.moveTo(...(horizon ? axisAnglePos.rightTop : axisAnglePos.leftTop)) ctx.lineTo(...(horizon ? axisAnglePos.rightBottom : axisAnglePos.rightTop)) ctx.stroke() } }, drawAxisTag () { const { noAxisTag } = this if (noAxisTag) return const { horizon, tagAlign, defaultAxisLineTagGap: offset } = this const { data: { x, ax, y, ay }, drawAxisSeriesTag } = this const xAxis = horizon ? ['addBAValueAxisTag', 'valueAxisTagPos'] : ['addBALabelAxisTag', 'labelAxisTagPos'] const yAxis = horizon ? ['addBALabelAxisTag', 'labelAxisTagPos'] : ['addBAValueAxisTag', 'valueAxisTagPos'] const agXAxis = horizon ? ['addBAAGValueAxisTag', 'agValueAxisTagPos'] : ['addBAAGLabelAxisTag', 'agLabelAxisTagPos'] const agYAxis = horizon ? ['addBAAGLabelAxisTag', 'agLabelAxisTagPos'] : ['addBAAGValueAxisTag', 'agValueAxisTagPos'] if (!x || !x.noAxisTag) drawAxisSeriesTag(...xAxis.map(td => this[td]), x, tagAlign.x, [0, offset], x && x.rotate) if (!y || !y.noAxisTag) drawAxisSeriesTag(...yAxis.map(td => this[td]), y, tagAlign.y, [-offset, 0]) if (!ax || !ax.noAxisTag) drawAxisSeriesTag(...agXAxis.map(td => this[td]), ax, tagAlign.ax, [0, -offset]) if (!ay || !ay.noAxisTag) drawAxisSeriesTag(...agYAxis.map(td => this[td]), ay, tagAlign.ay, [offset, 0]) }, drawAxisSeriesTag (tags, tagPos, { fontSize, fontFamily, tagColor } = {}, align, offset, rotate = false) { const { ctx, axisFontSize, axisFontFamily, axisTagColor, drawColors } = this let color = tagColor || axisTagColor color === 'colors' && (color = drawColors) const colorNum = color.length const mulColor = color instanceof Array ctx.font = `${fontSize || axisFontSize}px ${fontFamily || axisFontFamily}` !mulColor && (ctx.fillStyle = color) ctx.textAlign = align[0] ctx.textBaseline = align[1] tags.forEach((tag, i) => { if (!tag && tag !== 0) return const currentPos = [tagPos[i][0] + offset[0], tagPos[i][1] + offset[1]] mulColor && (ctx.fillStyle = color[i % colorNum]) if (rotate) { ctx.textAlign = 'left' ctx.textBaseline = 'top' ctx.save() ctx.translate(...currentPos) ctx.rotate(rotate * Math.PI / 180) } ctx.fillText(tag, ...(rotate ? [0, 0] : currentPos)) if (rotate) ctx.restore() }) }, drawAxisUnit () { const { noAxisTag } = this if (noAxisTag) return const { axisOriginPos, canvasWH, drawUnit, defaultAxisLineTagGap } = this const { data: { x, ax, y, ay }, axisAnglePos } = this if (x) { const pos = [canvasWH[0], axisOriginPos[1] + defaultAxisLineTagGap] drawUnit(x, pos, ['right', 'top']) } if (ax) { const pos = [canvasWH[0], axisAnglePos.rightTop[1] - defaultAxisLineTagGap] drawUnit(ax, pos, ['right', 'bottom']) } if (y) { const pos = [axisOriginPos[0] - defaultAxisLineTagGap, 0] drawUnit(y, pos, ['right', 'top']) } if (ay) { const pos = [axisAnglePos.rightTop[0] + defaultAxisLineTagGap, 0] drawUnit(ay, pos, ['left', 'top']) } }, drawUnit ({ unit, unitColor, fontSize, fontFamily }, pos, align) { const { axisTagColor, axisFontSize, axisFontFamily } = this const { ctx } = this if (!unit) return ctx.font = `${fontSize || axisFontSize}px ${fontFamily || axisFontFamily}` ctx.fillStyle = unitColor || axisTagColor ctx.textAlign = align[0] ctx.textBaseline = align[1] ctx.fillText(unit, ...pos) }, drawAxisGrid () { const { valueAxisTagPos, agValueAxisTagPos, labelAxisTagPos, agLabelAxisTagPos } = this const { valueAxisTag, agValueAxisTag, labelAxisTag, agLabelAxisTag } = this const { data: { x, ax, y, ay }, horizon, drawGrid, boundaryGap } = this const xAxis = horizon ? [valueAxisTag, valueAxisTagPos] : [labelAxisTag, labelAxisTagPos] let xBELineStatus = [false, false] if (horizon) { xBELineStatus = [true, false] } else { xBELineStatus = boundaryGap ? [false, false] : [true, true] } if (xAxis[0].length) drawGrid(x, ...xAxis, false, false, true, ...xBELineStatus) const yAxis = horizon ? [labelAxisTag, labelAxisTagPos] : [valueAxisTag, valueAxisTagPos] if (yAxis[0].length) drawGrid(y, ...yAxis, true, true, false, !horizon) const agXAxis = horizon ? [agValueAxisTag, agValueAxisTagPos] : [agLabelAxisTag, agLabelAxisTagPos] if (agXAxis[0].length) drawGrid(ax, ...agXAxis, false, false, false, ...(boundaryGap ? [false, false] : [true, true])) const agYAxis = horizon ? [agLabelAxisTag, agLabelAxisTagPos] : [agValueAxisTag, agValueAxisTagPos] if (agYAxis[0].length) drawGrid(ay, ...agYAxis, true, false, false, true) }, drawGrid (axis = {}, gridTag, gridPos, horizon = true, right = true, top = true, noFirst = false, noLast = false) { const { grid, gridLineColor: cGLC, gridLineDash: cGLD } = axis if (!grid) return const { gridLineColor, gridLineDash, defaultGridLineDash } = this const { ctx, drawColors, axisWH } = this let trueGridLineDash = gridLineDash if (cGLD instanceof Array) { trueGridLineDash = cGLD } else if (cGLD === true) { trueGridLineDash = defaultGridLineDash } ctx.setLineDash(trueGridLineDash) let color = cGLC || gridLineColor color === 'colors' && (color = drawColors) const mulColor = color instanceof Array const colorNum = color.length !mulColor && (ctx.strokeStyle = color) ctx.lineWidth = 1 const gridLastIndex = gridPos.length - 1 gridPos.forEach((pos, i) => { if (!gridTag[i] && gridTag[i] !== 0) return if (i === 0 && noFirst) return if (i === gridLastIndex && noLast) return ctx.beginPath() mulColor && (ctx.strokeStyle = color[i % colorNum]) ctx.moveTo(...pos) ctx.lineTo(...(horizon ? [right ? pos[0] + axisWH[0] : pos[0] - axisWH[0], pos[1]] : [pos[0], top ? pos[1] - axisWH[1] : pos[1] + axisWH[1]])) ctx.stroke() }) } } }