(function (window) { window.c3 = {} /* * Generate chart according to config */ c3.generate = function (config) { var c3 = { data : {} }, cache = {} /*-- Handle Config --*/ function checkConfig (key, message) { if ( ! (key in config)) throw Error(message) } function getConfig (keys, defaultValue) { var target = config for (var i = 0; i < keys.length; i++) { if ( ! (keys[i] in target)) return defaultValue target = target[keys[i]] } return target } // bindto - id to bind the chart checkConfig('bindto', 'bindto is required in config') var __size_width = getConfig(['size','width'], 640), __size_height = getConfig(['size','height'], 480) // data - data configuration checkConfig('data', 'data is required in config') var __data_x = getConfig(['data','x'], 'x'), __data_x_format = getConfig(['data','x_format'], '%Y-%m-%d'), __data_id_converter = getConfig(['data','id_converter'], function(id){ return id; }), __data_names = getConfig(['data','names'], {}), __data_groups = getConfig(['data','groups'], []), __data_axes = getConfig(['data','axes'], {}), __data_types = getConfig(['data','types'], {}), __data_regions = getConfig(['data','regions'], {}), __data_colors = getConfig(['data','colors'], {}), __data_selection_enabled = getConfig(['data','selection','enabled'], false), __data_selection_grouped = getConfig(['data','selection','grouped'], false), __data_selection_isselectable = getConfig(['data','selection','isselectable'], function(d){return true}) // subchart var __subchart_show = getConfig(['subchart','show'], true), __subchart_size_height = __subchart_show ? getConfig(['subchart','size','height'], 60) : 0, __subchart_default = getConfig(['subchart','default'], null) // color var __color_pattern = getConfig(['color','pattern'], null) // legend var __legend_show = getConfig(['legend','show'], true), __legend_item_width = getConfig(['legend','item','width'], 80), // TODO: auto __legend_item_onclick = getConfig(['legend','item','onclick'], function(){}) // axis var __axis_x_type = getConfig(['axis','x','type'], 'indexed'), __axis_x_categories = getConfig(['axis','x','categories'], ['hoge']), __axis_x_tick_centered = getConfig(['axis','x','tick','centered'], false), __axis_y_max = getConfig(['axis','y','max'], null), __axis_y_min = getConfig(['axis','y','min'], null), __axis_y_center = getConfig(['axis','y','center'], null), __axis_y_text = getConfig(['axis','y','text'], null), __axis_y_rescale = getConfig(['axis','y','rescale'], true), __axis_y2_show = getConfig(['axis','y2','show'], false), __axis_y2_max = getConfig(['axis','y2','max'], null), __axis_y2_min = getConfig(['axis','y2','min'], null), __axis_y2_center = getConfig(['axis','y2','center'], null), __axis_y2_text = getConfig(['axis','y2','text'], null), __axis_y2_rescale = getConfig(['axis','y2','rescale'], true), __axis_rotated = getConfig(['axis','rotated'], false) // grid var __grid_x_show = getConfig(['grid','x','show'], false), __grid_x_type = getConfig(['grid','x','type'], 'tick'), __grid_x_lines = getConfig(['grid','x','lines'], null), __grid_y_show = getConfig(['grid','y','show'], false), __grid_y_type = getConfig(['grid','y','type'], 'tick'), __grid_y_lines = getConfig(['grid','y','lines'], null) // point - point of each data var __point_show = getConfig(['point','show'], false), __point_r = __point_show ? getConfig(['point','r'], 2.5) : 0, __point_focus_line_enabled = getConfig(['point','focus','line','enabled'], false), __point_focus_expand_enabled = getConfig(['point','focus','expand','enabled'], __point_show), __point_focus_expand_r = getConfig(['point','focus','expand','r'], __point_focus_expand_enabled ? 4 : __point_r), __point_select_r = getConfig(['point','focus','select','r'], 8), __point_onclick = getConfig(['point','onclick'], function(){}), __point_onselected = getConfig(['point','onselected'], function(){}), __point_onunselected = getConfig(['point','onunselected'], function(){}) // region - region to change style var __regions = getConfig(['regions'], []) // tooltip - show when mouseover on each data var __tooltip_contents = getConfig(['tooltip','contents'], function(d) { var date = isTimeSeries ? d[0].x.getFullYear() + '.' + (d[0].x.getMonth()+1) + '.' + d[0].x.getDate() : isCategorized ? category(d[0].x) : d[0].x, text = "" for (var i = 0; i < d.length; i++){ var value = (typeof d[i].value !== 'undefined') ? (Math.round(d[i].value*100)/100).toFixed(2) : '-' text += "" } return text + "
" + date + "
" + d[i].name + "" + value + "
" }) /*-- Set Variables --*/ var clipId = config.bindto.replace('#','') + '-clip', clipPath = "url(#" + clipId + ")" var isTimeSeries = (__axis_x_type === 'timeseries'), isCategorized = (__axis_x_type === 'categorized') var dragStart = null, dragging = false var legendHeight = __legend_show ? 40 : 0 var customTimeFormat = timeFormat([ [d3.time.format("%Y/%-m/%-d"), function() { return true }], [d3.time.format("%-m/%-d"), function(d) { return d.getMonth() }], [d3.time.format("%-m/%-d"), function(d) { return d.getDate() != 1 }], [d3.time.format("%-m/%-d"), function(d) { return d.getDay() && d.getDate() != 1 }], [d3.time.format("%I %p"), function(d) { return d.getHours() }], [d3.time.format("%I:%M"), function(d) { return d.getMinutes() }], [d3.time.format(":%S"), function(d) { return d.getSeconds() }], [d3.time.format(".%L"), function(d) { return d.getMilliseconds() }] ]) function timeFormat(formats) { return function(date) { var i = formats.length - 1, f = formats[i] while (!f[1](date)) f = formats[--i] return f[0](date) } } /*-- Set Chart Params --*/ var bottom = 20 + __subchart_size_height + legendHeight, right = __axis_y2_show && !__axis_rotated ? 50 : 1, top2 = __size_height - __subchart_size_height - legendHeight, bottom2 = 20 + legendHeight, top3 = __size_height - legendHeight, margin = {top: 10, right: right, bottom: bottom, left: 40}, margin2 = {top: top2, right: 20, bottom: bottom2, left: 40}, margin3 = {top: top3, right: 20, bottom: 0, left: 40}, width = __size_width - margin.left - margin.right, height = __size_height - margin.top - margin.bottom, height2 = __size_height - margin2.top - margin2.bottom, height3 = __size_height - margin3.top - margin3.bottom var parseDate = d3.time.format(__data_x_format).parse var xMin = __axis_rotated ? 10 : 0, xMax = __axis_rotated ? height : width, yMin = __axis_rotated ? 0 : height, yMax = __axis_rotated ? width : 10 var x = ((isTimeSeries) ? d3.time.scale() : d3.scale.linear()).range([xMin, xMax]), y = d3.scale.linear().range([yMin, yMax]), y2 = d3.scale.linear().range([yMin, yMax]), subX = ((isTimeSeries) ? d3.time.scale() : d3.scale.linear()).range([0, width]), subY = d3.scale.linear().range([height2, 10]), subY2 = d3.scale.linear().range([height2, 10]) // TODO: Enable set position var xAxis = isCategorized ? categoryAxis() : d3.svg.axis(), yAxis = d3.svg.axis(), yAxis2 = d3.svg.axis(), subXAxis = isCategorized ? categoryAxis() : d3.svg.axis() xAxis.scale(x).orient(__axis_rotated ? "left" : "bottom") yAxis.scale(y).orient(__axis_rotated ? "bottom" : "left") yAxis2.scale(y2).orient(__axis_rotated ? "top" : "right") subXAxis.scale(subX).orient("bottom") if (isTimeSeries) { xAxis.tickFormat(customTimeFormat) // TODO: fix xAxis.tickOffset = function () { return 0 }; // TODO: fix subXAxis.tickOffset = function () { return 0 } } if (isCategorized) { xAxis.categories(__axis_x_categories).tickCentered(__axis_x_tick_centered) subXAxis.categories(__axis_x_categories).tickCentered(__axis_x_tick_centered) } // Use custom scale if needed if (isCategorized) { // TODO: fix this // TODO: fix x_grid (function () { var _x = x, _subX = subX var keys = Object.keys(x), key, i x = function(d){ return _x(d) + xAxis.tickOffset() } subX = function(d){ return _subX(d) + subXAxis.tickOffset() } for (i = 0; i < keys.length; i++) { key = keys[i] x[key] = _x[key] subX[key] = _subX[key] } x.domain = function (domain) { if (!arguments.length) { var domain = _x.domain() domain[1]++ return domain } _x.domain(domain) return x } })() } // For main region var lineOnMain = (function () { var line = d3.svg.line() .x(__axis_rotated ? function(d){ return getYScale(d.id)(d.value) } : xx) .y(__axis_rotated ? xx : function(d){ return getYScale(d.id)(d.value) }) return function (d) { var x0, y0 if (isLineType(d)) { isSplineType(d) ? line.interpolate("cardinal") : line.interpolate("linear") return __data_regions.length > 0 ? lineWithRegions(d.values, x, getYScale(d.id), __data_regions[d.id]) : line(d.values) } else { x0 = x(d.values[0].x) y0 = getYScale(d.id)(d.values[0].value) return __axis_rotated ? "M "+y0+" "+x0 : "M "+x0+" "+y0 } } })() // For brush region var lineOnSub = (function () { var line = d3.svg.line() .x(function(d){ return subX(d.x) }) .y(function(d){ return getSubYScale(d.id)(d.value) }) return function (d) { return isLineType(d) ? line(d.values) : "M " + subX(d.values[0].x)+ " " + getSubYScale(d.id)(d.values[0].value) } })() // For region var regionStart = function (d) { return ('start' in d) ? x(d.start) : 0 } var regionWidth = function (d) { var start = ('start' in d) ? x(d.start) : 0, end = ('end' in d) ? x(d.end) : width, w = end - start return (w < 0) ? 0 : w } // Define color var color = generateColor(__data_colors, __color_pattern) // Define svgs var svg = d3.select(config.bindto).append("svg") .attr("width", width + margin.left + margin.right) .attr("height", height + margin.top + margin.bottom) svg.append("defs") svg.select("defs").append("clipPath") .attr("id", clipId) .append("rect") .attr("y", margin.top) .attr("width", width) .attr("height", height-margin.top) svg.select("defs").append("clipPath") .attr("id", "xaxis-clip") .append("rect") .attr("x", -1) .attr("y", -1) .attr("width", width + 2) .attr("height", 40) svg.select("defs").append("clipPath") .attr("id", "yaxis-clip") .append("rect") .attr("x", -40 + 1) .attr("y", margin.top - 1) .attr("width", 40) .attr("height", height - margin.top + 2) // Define regions var main = svg.append("g") .attr("transform", "translate(" + margin.left + "," + margin.top + ")") var context = null if (__subchart_show) { context = svg.append("g") .attr("transform", "translate(" + margin2.left + "," + margin2.top + ")") } var legend = null if (__legend_show) { legend = svg.append("g") .attr("transform", "translate(" + margin3.left + "," + margin3.top + ")") } // Define tooltip var tooltip = d3.select(config.bindto) .style("position", "relative") .append("div") .style("position", "absolute") .style("width", "30%") // TODO: cul actual width when show .style("z-index", "10") .style("visibility", "hidden") /*-- Define Functions --*/ //-- Domain --// function getYDomainMin (targets) { return d3.min(targets, function(t){ return d3.min(t.values, function(v){ return v.value }) }) } function getYDomainMax (targets) { var ys = {}, j, k targets.forEach(function(t){ ys[t.id] = [] t.values.forEach(function(v){ ys[t.id].push(v.value) }) }) for (j = 0; j < __data_groups.length; j++) { for (k = 1; k < __data_groups[j].length; k++) { if ( ! isBarType(__data_groups[j][k])) continue if (typeof ys[__data_groups[j][k]] === 'undefined') continue ys[__data_groups[j][k]].forEach(function(v,i){ if (getAxisId(__data_groups[j][k]) === getAxisId(__data_groups[j][0])){ ys[__data_groups[j][0]][i] += v*1 } }) } } return d3.max(Object.keys(ys).map(function(key){ return d3.max(ys[key]) })) } function getYDomain (targets, axisId) { var yTargets = getTargets(function(d){ return getAxisId(d.id) === axisId }), yMin = axisId === 'y2' ? __axis_y2_min : __axis_y_min, yMax = axisId === 'y2' ? __axis_y2_max : __axis_y_max, yDomainMin = (yMin !== null) ? yMin : getYDomainMin(yTargets), yDomainMax = (yMax !== null) ? yMax : getYDomainMax(yTargets), padding = Math.abs(yDomainMax - yDomainMin) * 0.1, center = axisId === 'y2' ? __axis_y2_center : __axis_y_center if (center !== null) { yDomainAbs = Math.max(Math.abs(yDomainMin), Math.abs(yDomainMax)) yDomainMax = yDomainAbs - center yDomainMin = center - yDomainAbs } return [hasBarType(yTargets) ? 0 : yDomainMin-padding, yDomainMax+padding] } function getXDomainRatio () { if (brush.empty()) return 1 var domain = subX.domain(), extent = brush.extent() return (domain[1] - domain[0]) / (extent[1] - extent[0]) } //-- Cache --// function hasCaches (ids) { for (var i = 0; i < ids.length; i++){ if ( ! (ids[i] in cache)) return false } return true } function addCache (id, target) { cache[id] = cloneTarget(target) } function getCaches (ids) { var targets = [] for (var i = 0; i < ids.length; i++){ if (ids[i] in cache) targets.push(cloneTarget(cache[ids[i]])) } return targets } //-- Axis --// function getAxisId (id) { return id in __data_axes ? __data_axes[id] : 'y' } function getYScale (id) { return getAxisId(id) === 'y2' ? y2 : y } function getSubYScale (id) { return getAxisId(id) === 'y2' ? subY2 : subY } //-- Data --// function convertRowsToData (rows) { var keys = rows[0], new_row = {}, new_rows = [], i, j for (i = 1; i < rows.length; i++) { new_row = {} for (j = 0; j < rows[i].length; j++) { new_row[keys[j]] = rows[i][j] } new_rows.push(new_row) } return new_rows } function convertColumnsToData (columns) { var new_rows = [], i, j, key for (i = 0; i < columns.length; i++) { key = columns[i][0] for (j = 1; j < columns[i].length; j++) { if (typeof new_rows[j-1] === 'undefined') { new_rows[j-1] = {} } new_rows[j-1][key] = columns[i][j] } } return new_rows } function convertDataToTargets (data) { var ids = d3.keys(data[0]).filter(function(key){ return key !== __data_x }) var targets, i = 0 data.forEach(function(d) { d.x = (isTimeSeries) ? parseDate(d[__data_x]) : i++ if (firstDate === null) firstDate = new Date(d.x) lastDate = new Date(d.x) }) targets = ids.map(function(id,i) { var convertedId = __data_id_converter(id) return { id : convertedId, id_org : id, values : data.map(function(d) { return {x: d.x, value: +d[id], id: convertedId} }) } }) // cache as original id keyed targets.forEach(function(d){ addCache(d.id_org, d) }) return targets } function cloneTarget (target) { return { id : target.id, id_org : target.id_org, values : target.values.map(function(d){ return {x: d.x, value: d.value, id: d.id} }) } } function maxDataCount () { return d3.max(c3.data.targets, function(t){ return t.values.length }) } function getTargetIds (targets) { targets = (typeof targets === 'undefined') ? c3.data.targets : targets return targets.map(function(d){ return d.id; }) } function hasTarget (id) { var ids = getTargetIds(), i for (i = 0; i < ids.length; i++) { if (ids[i] === id) return true } return false } function getTargets (filter) { return typeof filter !== 'undefined' ? c3.data.targets.filter(filter) : c3.data.targets } function category (i) { return i < __axis_x_categories.length ? __axis_x_categories[i] : i } function classShapes (d) { return "__shapes __shapes-" + d.id } function classLine (d) { return classShapes(d) + " __line __line-" + d.id } function classCircles (d) { return classShapes(d) + " __circles __circles-" + d.id } function classBars (d) { return classShapes(d) + " __bars __bars-" + d.id } function classShape (d,i) { return "__shape __shape-" + i } function classCircle (d,i) { return classShape(d,i) + " __circle __circle-" + i } function classBar (d,i) { return classShape(d,i) + " __bar __bar-" + i } function xx (d) { return x(d.x) } function xv (d) { return x(d.value) } function yv (d) { return y(d.value) } //-- Circle --/ function circleX (d) { return x(d.x) } function circleY (d) { return getYScale(d.id)(d.value) } //-- Bar --// function getBarIndices () { var indices = {}, i = 0, j, k getTargets(isBarType).forEach(function(d) { for (j = 0; j < __data_groups.length; j++) { if (__data_groups[j].indexOf(d.id) < 0) continue for (k = 0; k < __data_groups[j].length; k++) { if (__data_groups[j][k] in indices) { indices[d.id] = indices[__data_groups[j][k]] break } } } if (typeof indices[d.id] === 'undefined') indices[d.id] = i++ }) indices.__max__ = i-1 return indices } function getBarX (barW, barTargetsNum, barIndices, isSub) { var scale = isSub ? subX : x return function (d) { var barIndex = d.id in barIndices ? barIndices[d.id] : 0 return scale(d.x) - barW * (barTargetsNum/2 - barIndex) } } function getBarY (barH, barIndices, zeroBased, isSub) { var indicesIds = Object.keys(barIndices) return function (d,i) { var offset = 0 var scale = isSub ? getSubYScale(d.id) : getYScale(d.id) getTargets(isBarType).forEach(function(t){ if (t.id === d.id || barIndices[t.id] !== barIndices[d.id]) return if (indicesIds.indexOf(t.id) < indicesIds.indexOf(d.id)) { offset += barH(t.values[i]) } }) return zeroBased ? offset : scale(d.value) - offset } } function getBarW (axis, barTargetsNum) { return (axis.tickOffset()*2*0.6) / barTargetsNum } function getBarH (height, isSub) { var h = height === null ? function(v){ return v } : function(v){ return height-v } return function (d) { var scale = isSub ? getSubYScale(d.id) : getYScale(d.id) return h(scale(d.value)) } } //-- Type --// function setTargetType (targets, type) { var targetIds = typeof targets === 'undefined' ? getTargetIds() : targets if (typeof targetIds === 'string') targetIds = [targetIds] for (var i = 0; i < targetIds.length; i++) { __data_types[targetIds[i]] = type } } function hasType (targets, type) { var has = false targets.forEach(function(t){ if (__data_types[t.id] === type) has = true if (!(t.id in __data_types) && type === 'line') has = true }) return has } function hasLineType (targets) { return hasType(targets, 'line') } function hasBarType (targets) { return hasType(targets, 'bar') } function isLineType (d) { var id = (typeof d === 'string') ? d : d.id return !(id in __data_types) || __data_types[id] === 'line' || __data_types[id] === 'spline' } function isSplineType (d) { var id = (typeof d === 'string') ? d : d.id return __data_types[id] === 'spline' } function isBarType (d) { var id = (typeof d === 'string') ? d : d.id return __data_types[id] === 'bar' } function lineData (d) { return isLineType(d) ? d.values : [] } function barData (d) { return isBarType(d) ? d.values : [] } //-- Color --// function generateColor (_colors, _pattern) { var ids = [], colors = _colors, pattern = (_pattern !== null) ? _pattern : ['#1f77b4', '#ff7f0e', '#2ca02c', '#d62728','#9467bd', '#8c564b', '#e377c2', '#7f7f7f', '#bcbd22', '#17becf'] //same as d3.scale.category10() return function (id) { // if specified, choose that color if (id in colors) return _colors[id] // if not specified, choose from pattern if ( ! (ids.indexOf(id) >= 0)) { ids.push(id) } return pattern[ids.indexOf(id) % pattern.length] } } //-- Util --// function isWithinCircle (_this, _r) { var mouse = d3.mouse(_this), d3_this = d3.select(_this) var cx = d3_this.attr("cx")*1, cy = d3_this.attr("cy")*1 return Math.sqrt(Math.pow(cx-mouse[0],2)+Math.pow(cy-mouse[1],2)) < _r } function isWithinBar (_this) { var mouse = d3.mouse(_this), d3_this = d3.select(_this) var x = d3_this.attr("x")*1, y = d3_this.attr("y")*1, w = d3_this.attr("width")*1 var sx = x - 10, ex = x + w + 10, ey = y - 10 return sx < mouse[0] && mouse[0] < ex && ey < mouse[1] } function isWithinRegions (x, regions) { var i for (i = 0; i < regions.length; i++) { if (regions[i].start < x && x <= regions[i].end) return true } return false } //-- Selection --// function selectPoint (target, d, i) { __point_onselected(target, d) // add selected-circle on low layer g main.select(".selected-circles-" + d.id).selectAll('.selected-circle-' + i) .data([d]) .enter().append('circle') .attr("class", function(d){ return "selected-circle selected-circle-" + i }) .attr("cx", __axis_rotated ? circleY : circleX) .attr("cy", __axis_rotated ? circleX : circleY) .attr("stroke", function(){ return color(d.id) }) .attr("r", __point_select_r * 1.4) .transition().duration(100) .attr("r", __point_select_r) } function unselectPoint (target, d, i) { __point_onunselected(target, d) // remove selected-circle from low layer g main.select(".selected-circles-" + d.id).selectAll(".selected-circle-" + i) .transition().duration(100).attr('r', 0) .remove() } function togglePoint (selected, target, d, i) { (selected) ? selectPoint(target, d, i) : unselectPoint(target, d, i) } function selectBar (target, d, i) { } function unselectBar (target, d, i) { } function toggleBar (selected, target, d, i) { (selected) ? selectBar(target, d, i) : unselectBar(target, d, i) } //-- Shape --// function lineWithRegions (d, x, y, regions) { var prev = -1, i, j var s = "M" var xp, yp, dx, dy, dd, diff, diff2 var xValue, yValue // Check start/end of regions if (typeof regions !== 'undefined') { for (i = 0; i < regions.length; i++){ if (typeof regions[i].start === 'undefined') { regions[i].start = d[0].x } if (typeof regions[i].end === 'undefined') { regions[i].end = d[d.length-1].x } } } // Set scales xValue = __axis_rotated ? function(d){ return y(d.value) } : function(d){ return x(d.x) } yValue = __axis_rotated ? function(d){ return x(d.x) } : function(d){ return y(d.value) } // Generate for (i = 0; i < d.length; i++) { // Draw as normal if (typeof regions === 'undefined' || ! isWithinRegions(d[i].x, regions)) { s += " "+xValue(d[i])+" "+yValue(d[i]) } // Draw with region // TODO: Fix for horizotal charts else { xp = d3.scale.linear().range([d[i-1].x, d[i].x]) yp = d3.scale.linear().range([d[i-1].value, d[i].value]) dx = x(d[i].x) - x(d[i-1].x) dy = y(d[i].value) - y(d[i-1].value) dd = Math.sqrt(Math.pow(dx,2) + Math.pow(dy,2)) diff = 2/dd diffx2 = diff*2 for (j = diff; j <= 1; j += diffx2) { s += "M"+x(xp(j))+" "+y(yp(j))+" "+x(xp(j+diff))+" "+y(yp(j+diff)) } } prev = d[i].x } return s } /*-- Define brush --*/ var brush = d3.svg.brush().x(subX).on("brush", redraw) /*-- Draw Chart --*/ // for brush area culculation var firstDate = null, lastDate = null function init (data) { var targets = c3.data.targets = convertDataToTargets(data) var rectX, rectW var grid, xgridLine // TODO: set names if names not specified x.domain(d3.extent(data.map(function(d){ return d.x }))) y.domain(getYDomain(targets, 'y')) y2.domain(getYDomain(targets, 'y2')) subX.domain(x.domain()) subY.domain(y.domain()) subY2.domain(y2.domain()) /*-- Main Region --*/ grid = main.append('g') .attr("clip-path", clipPath) .attr('class', 'grid') // X-Grid if (__grid_x_show) { grid.append("g").attr("class", "xgrids") } if (__grid_x_lines) { xgridLine = grid.append('g') .attr("class", "xgrid-lines") .selectAll('.xgrid-line') .data(__grid_x_lines) .enter().append('g') .attr("class", "xgrid-line") xgridLine.append('line') .attr("class", function(d){ return "" + d['class'] }) xgridLine.append('text') .attr("class", function(d){ return "" + d['class'] }) .attr("text-anchor", "end") .attr("transform", __axis_rotated ? "" : "rotate(-90)") .attr('dx', __axis_rotated ? 0 : -margin.top) .attr('dy', -6) .text(function(d){ return d.text }) } if (__point_focus_line_enabled) { grid.append('g') .attr("class", "xgrid-focus") .append('line') .attr('class', 'xgrid-focus') .attr("x1", __axis_rotated ? 0 : -10) .attr("x2", __axis_rotated ? width : -10) .attr("y1", __axis_rotated ? -10 : margin.top) .attr("y2", __axis_rotated ? -10 : height) } // Y-Grid if (__grid_y_show) { grid.append('g').attr('class', 'ygrids') } if (__grid_y_lines) { grid.append('g') .attr('class', 'ygrid-lines') .selectAll('ygrid-line') .data(__grid_y_lines) .enter().append('line') .attr("class", function(d){ return "ygrid-line " + d['class'] }) } // Area main.append('g') .attr("clip-path", clipPath) .attr("class", "regions") // Define g for chart area main.append('g') .attr("clip-path", clipPath) .attr('class', 'chart') // Cover whole with rects for events main.select('.chart').append("g") .attr("class", "event-rects") .style('fill-opacity', 0) .selectAll(".event-rects") .data(data) .enter().append("rect") .attr("class", function(d,i){ return "event-rect event-rect-"+i }) .style("cursor", function(d){ return __data_selection_enabled && __data_selection_grouped ? "pointer" : null }) .on('mouseover', function(d,i) { if (dragging) return // do nothing if dragging var selectedData = c3.data.targets.map(function(d){ return d.values[i] }); var j, newData // Add id,name to selectedData for (j = 0; j < selectedData.length; j++) { selectedData[j].name = __data_names[selectedData[j].id] } // Sort selectedData as names order if (Object.keys(__data_names).length > 0) { newData = [] for (var id in __data_names) { for (j = 0; j < selectedData.length; j++) { if (selectedData[j].id === id) { newData.push(selectedData[j]) selectedData.shift(j) break } } } selectedData = newData.concat(selectedData) // Add remained } // Expand circles if needed if (__point_focus_expand_enabled) { main.selectAll('.__circle-'+i) .classed("_e_", true) .attr('r', __point_focus_expand_r) } // Expand bars main.selectAll(".__bar-"+i) .classed("_e_", true) // Show xgrid focus line main.selectAll('line.xgrid-focus') .style("visibility","visible") .data([selectedData[0]]) .attr(__axis_rotated ? 'y1' : 'x1', xx) .attr(__axis_rotated ? 'y2' : 'x2', xx) // Set tooltip tooltip.style("top", (d3.mouse(this)[1] + 30) + "px") .style("left", ((__axis_rotated ? d3.mouse(this)[0] : x(selectedData[0].x)) + 60) + "px") tooltip.html(__tooltip_contents(selectedData)) tooltip.style("visibility", "visible") }) .on('mouseout', function(d,i) { main.select('line.xgrid-focus').style("visibility", "hidden") tooltip.style("visibility", "hidden") // Undo expanded circles main.selectAll('.__circle-'+i) .filter(function(){ return d3.select(this).classed('_e_') }) .classed("_e_", false) .attr('r', __point_r) // Undo expanded bar main.selectAll(".__bar-"+i) .classed("_e_", false) }) .on('mousemove', function(d,i){ if ( ! __data_selection_enabled || dragging) return if ( __data_selection_grouped) return // nothing to do when grouped main.selectAll('.__shape-'+i) .filter(function(d){ return __data_selection_isselectable(d) }) .each(function(d){ var _this = d3.select(this).classed('_e_', true) if (this.nodeName === 'circle') _this.attr('r', __point_focus_expand_r) d3.select('.event-rect-'+i).style('cursor', null) }) .filter(function(d){ var _this = d3.select(this) if (this.nodeName === 'circle') { return isWithinCircle(this, __point_select_r) } else if (this.nodeName === 'rect') { return isWithinBar(this, _this.attr('x'), _this.attr('y')) } }) .each(function(d){ var _this = d3.select(this) if ( ! _this.classed('_e_')) { _this.classed('_e_', true) if (this.nodeName === 'circle') _this.attr('r', __point_select_r) } d3.select('.event-rect-'+i).style('cursor', 'pointer') }) }) .on('click', function(d,i) { main.selectAll('.__shape-'+i).each(function(d){ var _this = d3.select(this), isSelected = _this.classed('_s_') var isWithin = false, toggle if (this.nodeName === 'circle') { isWithin = isWithinCircle(this, __point_select_r*1.5) toggle = togglePoint } else if (this.nodeName === 'rect') { isWithin = isWithinBar(this) toggle = toggleBar } if (__data_selection_grouped || isWithin) { if (__data_selection_enabled && __data_selection_isselectable(d)) { _this.classed('_s_', !isSelected) toggle(!isSelected, _this, d, i) } __point_onclick(d, _this) // TODO: should be __data_onclick } }) }) .call( d3.behavior.drag().origin(Object).on('drag', function(d){ if ( ! __data_selection_enabled) return // do nothing if not selectable var sx = dragStart[0], sy = dragStart[1], mouse = d3.mouse(this), mx = mouse[0], my = mouse[1], minX = Math.min(sx,mx), maxX = Math.max(sx,mx), minY = (__data_selection_grouped) ? margin.top : Math.min(sy,my), maxY = (__data_selection_grouped) ? height : Math.max(sy,my) main.select('.dragarea') .attr('x', minX) .attr('y', minY) .attr('width', maxX-minX) .attr('height', maxY-minY) main.selectAll('.__shapes').selectAll('.__shape') .filter(function(d){ return __data_selection_isselectable(d) }) .each(function(d,i){ var _this = d3.select(this), isSelected = _this.classed('_s_'), isIncluded = _this.classed('_i_'), _x, _y, _w, toggle, isWithin = false if (this.nodeName === 'circle') { _x = _this.attr("cx")*1 _y = _this.attr("cy")*1 toggle = togglePoint isWithin = minX < _x && _x < maxX && minY < _y && _y < maxY } else if (this.nodeName === 'rect') { _x = _this.attr("x")*1 _y = _this.attr("y")*1 _w = _this.attr('width')*1 toggle = toggleBar isWithin = minX < _x+_w && _x < maxX && _y < maxY } if (isWithin ^ isIncluded) { _this.classed('_i_', !isIncluded) // TODO: included/unincluded callback here _this.classed('_s_', !isSelected) toggle(!isSelected, _this, d, i) } }) }) .on('dragstart', function() { if ( ! __data_selection_enabled) return // do nothing if not selectable dragStart = d3.mouse(this) main.select('.chart').append('rect') .attr('class', 'dragarea') .style('opacity', 0.1) dragging = true // TODO: add callback here }) .on('dragend', function() { if ( ! __data_selection_enabled) return // do nothing if not selectable main.select('.dragarea') .transition().duration(100) .style('opacity', 0) .remove() main.selectAll('.__shape') .classed('_i_', false) dragging = false // TODO: add callback here }) ) // Define g for bar chart area main.select(".chart").append("g") .attr("class", "chart-bars") // Define g for line chart area main.select(".chart").append("g") .attr("class", "chart-lines") // ATTENTION: This must be called AFTER chart added // Add Axis main.append("g") .attr("class", "x axis") .attr("clip-path", __axis_rotated ? "" : "url(#xaxis-clip)") .attr("transform", "translate(0," + height + ")") .call(__axis_rotated ? yAxis : xAxis) main.append("g") .attr("class", "y axis") .attr("clip-path", __axis_rotated ? "url(#yaxis-clip)" : "") .call(__axis_rotated ? xAxis : yAxis) .append("text") .attr("transform", "rotate(-90)") .attr("dy", "1.4em") .attr("dx", "-.8em") .style("text-anchor", "end") .text(__axis_y_text) if (__axis_y2_show) { main.append("g") .attr("class", "y2 axis") .attr("transform", "translate(" + (__axis_rotated ? 0 : width) + "," + (__axis_rotated ? 10 : 0) + ")") .call(yAxis2) } /*-- Context Region --*/ if (__subchart_show) { // Define g for chart area context.append('g') .attr("clip-path", clipPath) .attr('class', 'chart') // Define g for bar chart area context.select(".chart").append("g") .attr("class", "chart-bars") // Define g for line chart area context.select(".chart").append("g") .attr("class", "chart-lines") // ATTENTION: This must be called AFTER chart rendered and BEFORE brush called. // Update extetn for Brush if (__subchart_default !== null) { brush.extent((isTimeSeries) ? __subchart_default(firstDate,lastDate) : __subchart_default(0,maxDataCount()-1)) } // Add extent rect for Brush context.append("g") .attr("class", "x brush") .call(brush) .selectAll("rect") .attr("height", height2) // ATTENTION: This must be called AFTER chart added // Add Axis context.append("g") .attr("class", "x axis") .attr("transform", "translate(0," + height2 + ")") .call(subXAxis) } /*-- Legend Region --*/ if (__legend_show) updateLegend(targets) // Set targets updateTargets(targets) // Draw with targets redraw(false, true, true) } function redraw (withTransition, withY, withSubchart) { var xgrid, xgridData, xgridLine var mainPath, mainCircle, mainBar, contextPath var barIndices = getBarIndices(), barTargetsNum = barIndices.__max__ + 1 var barX, barY, barW, barH var rectX, rectW withY = (typeof withY === 'undefined') ? false : withY withSubchart = (typeof withSubchart === 'undefined') ? false : withSubchart // ATTENTION: call here to update tickOffset x.domain(brush.empty() ? subX.domain() : brush.extent()) y.domain(getYDomain(c3.data.targets, 'y')) y2.domain(getYDomain(c3.data.targets, 'y2')) main.selectAll(".x.axis").transition().duration(__axis_rotated ? 250 : 0).call(__axis_rotated ? yAxis : xAxis) main.selectAll(".y.axis").transition().duration(__axis_rotated ? 0 : 250).call(__axis_rotated ? xAxis : yAxis) main.selectAll(".y2.axis").transition().call(yAxis2) // Update sub domain subY.domain(y.domain()) subY2.domain(y2.domain()) // grid if (__grid_x_show) { if (__grid_x_type === 'year') { xgridData = [] firstYear = firstDate.getFullYear() lastYear = lastDate.getFullYear() for (var year = firstYear; year <= lastYear; year++) { xgridData.push(new Date(year + '-01-01 00:00:00')) } } else { xgridData = x.ticks(10) } xgrid = main.select('.xgrids').selectAll(".xgrid") .data(xgridData) xgrid.enter().append('line').attr("class", "xgrid") xgrid.exit().remove() main.selectAll(".xgrid") .attr("x1", function(d){ return x(d) - xAxis.tickOffset(); }) .attr("x2", function(d){ return x(d) - xAxis.tickOffset(); }) .attr("y1", margin.top) .attr("y2", height) } if (__grid_x_lines) { xgridLine = main.selectAll(".xgrid-lines") xgridLine.selectAll('line') .attr("x1", __axis_rotated ? 0 : xv) .attr("x2", __axis_rotated ? width : xv) .attr("y1", __axis_rotated ? xv : margin.top) .attr("y2", __axis_rotated ? xv : height) xgridLine.selectAll('text') .attr("x", __axis_rotated ? width : 0) .attr("y", xv) } // Y-Grid if (withY && __grid_y_show) { ygrid = main.select('.ygrids').selectAll(".ygrid") .data(y.ticks(10)) ygrid.enter().append('line') .attr('class', 'ygrid') ygrid.attr("x1", __axis_rotated ? y : 0) .attr("x2", __axis_rotated ? y : width) .attr("y1", __axis_rotated ? 0 : y) .attr("y2", __axis_rotated ? height : y) .attr("opacity", 0) .transition() .attr("opacity", 1) ygrid.exit().remove() } if (withY && __grid_y_lines) { main.select('.ygrid-lines').selectAll('.ygrid-line') .attr("y1", yv) .attr("y2", yv) } // bars barW = getBarW(xAxis, barTargetsNum) barH = getBarH(__axis_rotated ? null : height) barX = getBarX(barW, barTargetsNum, barIndices) barY = getBarY(barH, barIndices, __axis_rotated) mainBar = main.selectAll('.__bars').selectAll('.__bar') .data(barData) mainBar.transition().duration(withTransition ? 250 : 0) .attr("x", __axis_rotated ? barY : barX) .attr("y", __axis_rotated ? barX : barY) .attr("width", __axis_rotated ? barH : barW) .attr("height", __axis_rotated ? barW : barH) mainBar.enter().append('rect') .attr("class", classBar) .attr("x", __axis_rotated ? barY : barX) .attr("y", __axis_rotated ? barX : barY) .attr("width", __axis_rotated ? barH : barW) .attr("height", __axis_rotated ? barW : barH) .style("opacity", 0) .transition().duration(withTransition ? 250 : 0) .style('opacity', 1) mainBar.exit().transition().duration(withTransition ? 250 : 0) .style('opacity', 0) .remove() // lines and cricles main.selectAll('.__line') .transition().duration(withTransition ? 250 : 0) .attr("d", lineOnMain) mainCircle = main.selectAll('.__circles').selectAll('.__circle') .data(lineData) mainCircle.transition().duration(withTransition ? 250 : 0) .attr("cx", __axis_rotated ? circleY : circleX) .attr("cy", __axis_rotated ? circleX : circleY) mainCircle.enter().append("circle") .attr("class", classCircle) .attr("cx", __axis_rotated ? circleY : circleX) .attr("cy", __axis_rotated ? circleX : circleY) .attr("r", __point_r) mainCircle.exit().remove() // subchart if (withSubchart && __subchart_show) { // bars barW = getBarW(subXAxis, barTargetsNum) barH = getBarH(height2, true) barX = getBarX(barW, barTargetsNum, barIndices, true) barY = getBarY(barH, barIndices, false, true) contextBar = context.selectAll('.__bars').selectAll('.__bar') .data(barData) contextBar.transition().duration(withTransition ? 250 : 0) .attr("x", barX).attr("y", barY).attr("width", barW).attr("height", barH) contextBar.enter().append('rect') .attr("class", classBar) .attr("x", barX).attr("y", barY).attr("width", barW).attr("height", barH) .style("opacity", 0) .transition() .style('opacity', 1) contextBar.exit().transition() .style('opacity', 0) .remove() // lines context.selectAll('.__line') .transition().duration(withTransition ? 250 : 0) .attr("d", lineOnSub) } // circles for select main.selectAll('.selected-circles') .filter(function(d){ return isBarType(d); }) .selectAll('circle') .remove() main.selectAll('.selected-circle') .attr("cx", __axis_rotated ? circleY : circleX) .attr("cy", __axis_rotated ? circleX : circleY) // rect for mouseover rectW = (((__axis_rotated ? height : width)*getXDomainRatio())/(maxDataCount()-1)) rectX = function(d){ return x(d.x)-(rectW/2) } main.selectAll('.event-rect') .attr("x", __axis_rotated ? 0 : rectX) .attr("y", __axis_rotated ? rectX : 0) .attr("width", __axis_rotated ? width : rectW) .attr("height", __axis_rotated ? rectW : height) // rect for regions mainRegion = main.select('.regions').selectAll('rect.region') .data(__regions) mainRegion.enter().append('rect') .attr('class', function(d,i){ return 'region region-' + i })// TODO: fix class mainRegion .attr("x", __axis_rotated ? 0 : regionStart) .attr("y", __axis_rotated ? regionStart : margin.top) .attr("width", __axis_rotated ? width : regionWidth) .attr("height", __axis_rotated ? regionWidth : height) mainRegion.exit().remove() } function updateTargets (targets) { var mainLineEnter, mainLineUpdate, mainBarEnter, mainBarUpdate var contextLineEnter, contextLineUpdate, contextBarEnter, contextBarUpdate /*-- Main --*/ //-- Bar --// mainBarUpdate = main.select('.chart-bars') .selectAll('.chart-bar') .data(targets) mainBarEnter = mainBarUpdate.enter().append('g') .attr('class', function(d){ return 'chart-bar target target-' + d.id }) .style("pointer-events", "none") .style('opacity', 0) // Bars for each data mainBarEnter.append('g') .attr("class", classBars) .style("fill", function(d){ return color(d.id) }) .style("stroke", function(d){ return color(d.id) }) .style("stroke-width", 0) .style("cursor", function(d){ return __data_selection_isselectable(d) ? "pointer" : null }) //-- Line --// mainLineUpdate = main.select('.chart-lines') .selectAll('.chart-line') .data(targets) mainLineEnter = mainLineUpdate.enter().append('g') .attr('class', function(d){ return 'chart-line target target-' + d.id }) .style("pointer-events", "none") .style('opacity', 0) // Lines for each data mainLineEnter.append("path") .attr("class", classLine) .style("stroke", function(d){ return color(d.id) }) // Circles for each data point on lines mainLineEnter.append('g') .attr("class", function(d){ return "selected-circles selected-circles-" + d.id }) mainLineEnter.append('g') .attr("class", classCircles) .style("fill", function(d){ return color(d.id) }) .style("cursor", function(d){ return __data_selection_isselectable(d) ? "pointer" : null }) /*-- Context --*/ if (__subchart_show) { contextBarUpdate = context.select('.chart-bars') .selectAll('.chart-bar') .data(targets) contextBarEnter = contextBarUpdate.enter().append('g') .attr('class', function(d){ return 'chart-bar target target-' + d.id }) .style('opacity', 0) // Bars for each data contextBarEnter.append('g') .attr("class", classBars) .style("fill", function(d){ return color(d.id) }) //-- Line --// contextLineUpdate = context.select('.chart-lines') .selectAll('.chart-line') .data(targets) contextLineEnter = contextLineUpdate.enter().append('g') .attr('class', function(d){ return 'chart-line target target-' + d.id }) .style('opacity', 0) // Lines for each data contextLineEnter.append("path") .attr("class", classLine) .style("stroke", function(d) { return color(d.id) }) } /*-- Legend --*/ if (__legend_show) { updateLegend(targets) } /*-- Show --*/ // Fade-in each chart d3.selectAll('.target') .transition() .style("opacity", 1) } function load (targets, done) { // Update/Add data c3.data.targets.forEach(function(d){ for (var i = 0; i < targets.length; i++) { if (d.id === targets[i].id) { d.values = targets[i].values targets.splice(i,1) break } } }) c3.data.targets = c3.data.targets.concat(targets) // add remained // Set targets updateTargets(c3.data.targets) // Redraw with new targets redraw(true, true, true) done() } /*-- Draw Legend --*/ function updateLegend (targets) { var ids = getTargetIds(targets), l var padding = width/2 - __legend_item_width*Object.keys(targets).length/2 // Define g for legend area l = legend.selectAll('.legend-item') .data(ids) .enter().append('g') .attr('class', function(d){ return 'legend-item legend-item-' + d }) .style('cursor', 'pointer') .on('click', function(d){ __legend_item_onclick(d) }) .on('mouseover', function(d){ d3.selectAll('.legend-item').filter(function(_d){ return _d !== d }) .transition().duration(100) .style('opacity', 0.3) c3.focus(d) }) .on('mouseout', function(d){ d3.selectAll('.legend-item') .transition().duration(100) .style('opacity', 1) c3.revert() }) l.append('rect') .attr("class", "legend-item-event") .style('fill-opacity', 0) .attr('x', -200) .attr('y', function(){ return legendHeight/2 - 16 }) .attr('width', __legend_item_width) .attr('height', 24) l.append('rect') .attr("class", "legend-item-tile") .style('fill', function(d){ return color(d) }) .attr('x', -200) .attr('y', function(){ return legendHeight/2 - 9 }) .attr('width', 10) .attr('height', 10) l.append('text') .text(function(d){ return __data_names[d] }) .attr('x', -200) .attr('y', function(d,i){ return legendHeight/2 }) legend.selectAll('rect.legend-item-event') .data(ids) .transition() .attr('x', function(d,i){ return padding + __legend_item_width*i }) legend.selectAll('rect.legend-item-tile') .data(ids) .transition() .attr('x', function(d,i){ return padding + __legend_item_width*i }) legend.selectAll('text') .data(ids) .transition() .attr('x', function(d,i){ return padding + __legend_item_width*i + 14 }) } /*-- Event Handling --*/ function getTargetSelector (target) { return (typeof target === 'undefined') ? '.target' : '.target-' + target } c3.focus = function (target) { c3.defocus() d3.selectAll(getTargetSelector(target)) .filter(function(d){ return hasTarget(d.id) }) .classed('focused', true) .transition().duration(100) .style('opacity', 1) } c3.defocus = function (target) { d3.selectAll(getTargetSelector(target)) .filter(function(d){ return hasTarget(d.id) }) .classed('focused', false) .transition().duration(100) .style('opacity', 0.3) } c3.revert = function (target) { d3.selectAll(getTargetSelector(target)) .filter(function(d){ return hasTarget(d.id) }) .classed('focused', false) .transition().duration(100) .style('opacity', 1) } c3.show = function (target) { d3.selectAll(getTargetSelector(target)) .transition() .style('opacity', 1) } c3.hide = function (target) { d3.selectAll(getTargetSelector(target)) .transition() .style('opacity', 0) } c3.load = function (args) { // check args if (typeof args.done === 'undefined') { args.done = function() {} } // use cache if exists if ('cacheIds' in args && hasCaches(args.cacheIds)) { load(getCaches(args.cacheIds), args.done) return } // load data if ('data' in args) { load(convertDataToTargets(data), args.done) } else if ('url' in args) { d3.csv(args.url, function(error, data){ load(convertDataToTargets(data), args.done) }) } else if ('rows' in args) { load(convertDataToTargets(convertRowsToData(args.rows)), args.done) } else if ('columns' in args) { load(convertDataToTargets(convertColumnsToData(args.columns)), args.done) } else { throw Error('url or rows or columns is required.') } } c3.unload = function (target) { c3.data.targets = c3.data.targets.filter(function(d){ return d.id != target }) d3.selectAll('.target-'+target) .transition() .style('opacity', 0) .remove() if (__legend_show) { d3.selectAll('.legend-item-'+target).remove() updateLegend(c3.data.targets) } if (c3.data.targets.length > 0) redraw(true, true, true) } c3.selected = function (target) { var suffix = (typeof target !== 'undefined') ? '-' + target : '' return d3.merge( main.selectAll('.__shapes' + suffix).selectAll('.__shape') .filter(function(){ return d3.select(this).classed('_s_') }) .map(function(d){ return d.map(function(_d){ return _d.__data__ }) }) ) } c3.select = function (indices, resetOther) { if ( ! __data_selection_enabled) return main.selectAll('.__shapes').selectAll('.__shape').each(function(d,i){ var selectShape = (this.nodeName === 'circle') ? selectPoint : selectBar, unselectShape = (this.nodeName === 'circle') ? unselectPoint : unselectBar if (indices.indexOf(i) >= 0) { if (__data_selection_grouped || __data_selection_isselectable(d)) { selectShape(d3.select(this).classed('_s_',true), d, i) } } else if (typeof resetOther !== 'undefined' && resetOther) { unselectShape(d3.select(this).classed('_s_',false), d, i) } }) } c3.unselect = function (indices) { if ( ! __data_selection_enabled) return main.selectAll('.__shapes').selectAll('.__shape').each(function(d,i){ var unselectShape = (this.nodeName === 'circle') ? unselectPoint : unselectBar if (typeof indices === 'undefined' || indices.indexOf(i) >= 0) { if (__data_selection_grouped || __data_selection_isselectable(d)) { unselectShape(d3.select(this).classed('_s_',false), d, i) } } }) } c3.toLine = function (targets) { setTargetType(targets, 'line') redraw(true, true, true) } c3.toSpline = function (targets) { setTargetType(targets, 'spline') redraw(true, true, true) } c3.toBar = function (targets) { setTargetType(targets, 'bar') redraw(true, true, true) } c3.groups = function (groups) { if (typeof groups !== 'undefined') __data_groups = groups redraw(true, true, true) } /*-- Load data and init chart with defined functions --*/ if ('url' in config.data) { d3.csv(config.data.url, function(error, data) { init(data) }) } else if ('rows' in config.data) { init(convertRowsToData(config.data.rows)) } else if ('columns' in config.data) { init(convertColumnsToData(config.data.columns)) } else { throw Error('url or rows or columns is required.') } return c3 } function categoryAxis () { var scale = d3.scale.linear(), orient = "bottom", tickMajorSize = 6, tickMinorSize = 6, tickEndSize = 6, tickPadding = 3, tickCentered = false, tickTextNum = 30, tickOffset = 0, categories = [] function axisX (selection, x) { selection.attr("transform", function(d){ return "translate(" + (x(d) + tickOffset) + ",0)" }) } function axisY (selection, y) { selection.attr("transform", function(d){ return "translate(0," + y(d) + ")" }) } function scaleExtent (domain) { var start = domain[0], stop = domain[domain.length - 1] return start < stop ? [ start, stop ] : [ stop, start ] } function generateTicks (domain) { var ticks = [] for (var i = Math.ceil(domain[0]); i < domain[1]; i++) { ticks.push(i) } if (ticks.length > 0 && ticks[0] > 0) { ticks.unshift(ticks[0] - (ticks[1]-ticks[0])) } return ticks } function shouldShowTickText (ticks, i) { return ticks.length < tickTextNum || i % Math.ceil(ticks.length / tickTextNum) == 0 } function category (i) { return i < categories.length ? categories[i] : i } function axis(g) { g.each(function() { var g = d3.select(this) var ticks = generateTicks(scale.domain()) var tick = g.selectAll(".tick.major").data(ticks, String), tickEnter = tick.enter().insert("g", "path").attr("class", "tick major").style("opacity", 1e-6), tickExit = d3.transition(tick.exit()).style("opacity", 1e-6).remove(), tickUpdate = d3.transition(tick).style("opacity", 1), tickTransform, tickX var range = scale.rangeExtent ? scale.rangeExtent() : scaleExtent(scale.range()), path = g.selectAll(".domain").data([ 0 ]), pathUpdate = (path.enter().append("path").attr("class", "domain"), d3.transition(path)) var scale1 = scale.copy(), scale0 = this.__chart__ || scale1 this.__chart__ = scale1 tickEnter.append("line") tickEnter.append("text") var lineEnter = tickEnter.select("line"), lineUpdate = tickUpdate.select("line"), text = tick.select("text"), textEnter = tickEnter.select("text"), textUpdate = tickUpdate.select("text") tickOffset = (scale1(1)-scale1(0))/2 tickX = tickCentered ? 0 : tickOffset switch (orient) { case "bottom": { tickTransform = axisX lineEnter.attr("y2", tickMajorSize) textEnter.attr("y", Math.max(tickMajorSize, 0) + tickPadding) lineUpdate.attr("x1", tickX).attr("x2", tickX).attr("y2", tickMajorSize) textUpdate.attr("x", 0).attr("y", Math.max(tickMajorSize, 0) + tickPadding) text.attr("dy", ".71em").style("text-anchor", "middle") text.text(function(i){ return shouldShowTickText(ticks, i) ? category(i) : "" }) pathUpdate.attr("d", "M" + range[0] + "," + tickEndSize + "V0H" + range[1] + "V" + tickEndSize) break } /* TODO: implement case "top": { tickTransform = axisX lineEnter.attr("y2", -tickMajorSize) textEnter.attr("y", -(Math.max(tickMajorSize, 0) + tickPadding)) lineUpdate.attr("x2", 0).attr("y2", -tickMajorSize) textUpdate.attr("x", 0).attr("y", -(Math.max(tickMajorSize, 0) + tickPadding)) text.attr("dy", "0em").style("text-anchor", "middle") pathUpdate.attr("d", "M" + range[0] + "," + -tickEndSize + "V0H" + range[1] + "V" + -tickEndSize) break } */ case "left": { tickTransform = axisY lineEnter.attr("x2", -tickMajorSize) textEnter.attr("x", -(Math.max(tickMajorSize, 0) + tickPadding)) lineUpdate.attr("x2", -tickMajorSize).attr("y2", 0) textUpdate.attr("x", -(Math.max(tickMajorSize, 0) + tickPadding)).attr("y", tickOffset) text.attr("dy", ".32em").style("text-anchor", "end") text.text(function(i){ return shouldShowTickText(ticks, i) ? category(i) : "" }) pathUpdate.attr("d", "M" + -tickEndSize + "," + range[0] + "H0V" + range[1] + "H" + -tickEndSize) break } /* case "right": { tickTransform = axisY lineEnter.attr("x2", tickMajorSize) textEnter.attr("x", Math.max(tickMajorSize, 0) + tickPadding) lineUpdate.attr("x2", tickMajorSize).attr("y2", 0) textUpdate.attr("x", Math.max(tickMajorSize, 0) + tickPadding).attr("y", 0) text.attr("dy", ".32em").style("text-anchor", "start") pathUpdate.attr("d", "M" + tickEndSize + "," + range[0] + "H0V" + range[1] + "H" + tickEndSize) break } */ } if (scale.ticks) { tickEnter.call(tickTransform, scale0) tickUpdate.call(tickTransform, scale1) tickExit.call(tickTransform, scale1) } else { var dx = scale1.rangeBand() / 2, x = function(d) { return scale1(d) + dx } tickEnter.call(tickTransform, x) tickUpdate.call(tickTransform, x) } }) } axis.scale = function(x) { if (!arguments.length) return scale scale = x return axis } axis.orient = function(x) { if (!arguments.length) return orient orient = x in {top:1,right:1,bottom:1,left:1} ? x + "" : "bottom" return axis } axis.categories = function(x) { if (!arguments.length) return categories categories = x return axis } axis.tickCentered = function(x) { if (!arguments.length) return tickCentered tickCentered = x return axis } axis.tickOffset = function() { return tickOffset } return axis } })(window)