(function (window) { 'use strict'; var c3 = { version: "0.1.31" }; var CLASS = { target: 'c3-target', chart : 'c3-chart', chartLine: 'c3-chart-line', chartLines: 'c3-chart-lines', chartBar: 'c3-chart-bar', chartBars: 'c3-chart-bars', chartText: 'c3-chart-text', chartTexts: 'c3-chart-texts', chartArc: 'c3-chart-arc', chartArcs: 'c3-chart-arcs', chartArcsTitle: 'c3-chart-arcs-title', selectedCircle: 'c3-selected-circle', selectedCircles: 'c3-selected-circles', eventRect: 'c3-event-rect', eventRects: 'c3-event-rects', eventRectsSingle: 'c3-event-rects-single', eventRectsMultiple: 'c3-event-rects-multiple', zoomRect: 'c3-zoom-rect', brush: 'c3-brush', focused: 'c3-focused', region: 'c3-region', regions: 'c3-regions', tooltip: 'c3-tooltip', tooltipName: 'c3-tooltip-name', shape: 'c3-shape', shapes: 'c3-shapes', line: 'c3-line', bar: 'c3-bar', bars: 'c3-bars', circle: 'c3-circle', circles: 'c3-circles', arc: 'c3-arc', area: 'c3-area', text: 'c3-text', texts: 'c3-texts', grid: 'c3-grid', xgrid: 'c3-xgrid', xgrids: 'c3-xgrids', xgridLine: 'c3-xgrid-line', xgridLines: 'c3-xgrid-lines', xgridFocus: 'c3-xgrid-focus', ygrid: 'c3-ygrid', ygrids: 'c3-ygrids', ygridLine: 'c3-ygrid-line', ygridLines: 'c3-ygrid-lines', axisX: 'c3-axis-x', axisXLabel: 'c3-axis-x-label', axisY: 'c3-axis-y', axisYLabel: 'c3-axis-y-label', axisY2: 'c3-axis-y2', axisY2Label: 'c3-axis-y2-label', legendItem: 'c3-legend-item', legendItemEvent: 'c3-legend-item-event', legendItemTile: 'c3-legend-item-tile', legendItemHidden: 'c3-legend-item-hidden', dragarea: 'c3-dragarea', EXPANDED: '_expanded_', SELECTED: '_selected_', INCLUDED: '_included_', }; /* * Generate chart according to config */ c3.generate = function (config) { var d3 = window.d3 ? window.d3 : window.require ? window.require("d3") : undefined; var c3 = { data : {}, axis: {}, legend: {} }, cache = {}; /*-- Handle Config --*/ function checkConfig(key, message) { if (! (key in config)) { throw Error(message); } } function getConfig(keys, defaultValue) { var target = config, i, isLast, nextTarget; for (i = 0; i < keys.length; i++) { // return default if key not found if (typeof target === 'object' && !(keys[i] in target)) { return defaultValue; } // Check next key's value isLast = (i === keys.length - 1); nextTarget = target[keys[i]]; if ((!isLast && typeof nextTarget !== 'object') || (isLast && typeof defaultValue !== 'object' && typeof nextTarget === 'object' && nextTarget !== null)) { return defaultValue; } target = nextTarget; } return target; } // bindto - id to bind the chart var __bindto = getConfig(['bindto'], '#chart'); var __size_width = getConfig(['size', 'width']), __size_height = getConfig(['size', 'height']); var __padding_left = getConfig(['padding', 'left']), __padding_right = getConfig(['padding', 'right']); var __zoom_enabled = getConfig(['zoom', 'enabled'], false), __zoom_extent = getConfig(['zoom', 'extent']), __zoom_privileged = getConfig(['zoom', 'privileged'], false); var __onenter = getConfig(['onenter'], function () {}), __onleave = getConfig(['onleave'], function () {}), __onresize = getConfig(['onresize'], function () {}), __onresized = getConfig(['onresized'], function () {}); var __transition_duration = getConfig(['transition', 'duration'], 350); // data - data configuration checkConfig('data', 'data is required in config'); var __data_x = getConfig(['data', 'x']), __data_xs = getConfig(['data', 'xs'], {}), __data_x_format = getConfig(['data', 'x_format']), __data_id_converter = getConfig(['data', 'id_converter'], function (id) { return id; }), __data_names = getConfig(['data', 'names'], {}), __data_classes = getConfig(['data', 'classes'], {}), __data_groups = getConfig(['data', 'groups'], []), __data_axes = getConfig(['data', 'axes'], {}), __data_type = getConfig(['data', 'type']), __data_types = getConfig(['data', 'types'], {}), __data_labels = getConfig(['data', 'labels'], {}), __data_order = getConfig(['data', 'order']), __data_regions = getConfig(['data', 'regions'], {}), __data_color = getConfig(['data', 'color']), __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 () { return true; }), __data_selection_multiple = getConfig(['data', 'selection', 'multiple'], true), __data_onclick = getConfig(['data', 'onclick'], function () {}), __data_onenter = getConfig(['data', 'onenter'], function () {}), __data_onleave = getConfig(['data', 'onleave'], function () {}), __data_onselected = getConfig(['data', 'onselected'], function () {}), __data_onunselected = getConfig(['data', 'onunselected'], function () {}), __data_ondragstart = getConfig(['data', 'ondragstart'], function () {}), __data_ondragend = getConfig(['data', 'ondragend'], function () {}); // subchart var __subchart_show = getConfig(['subchart', 'show'], false), __subchart_size_height = __subchart_show ? getConfig(['subchart', 'size', 'height'], 60) : 0; // color var __color_pattern = getConfig(['color', 'pattern'], []); // legend var __legend_show = getConfig(['legend', 'show'], true), __legend_position = getConfig(['legend', 'position'], 'bottom'), __legend_item_onclick = getConfig(['legend', 'item', 'onclick']), __legend_equally = getConfig(['legend', 'equally'], false); // axis var __axis_rotated = getConfig(['axis', 'rotated'], false), __axis_x_type = getConfig(['axis', 'x', 'type'], 'indexed'), __axis_x_localtime = getConfig(['axis', 'x', 'localtime'], false), __axis_x_categories = getConfig(['axis', 'x', 'categories'], []), __axis_x_tick_centered = getConfig(['axis', 'x', 'tick', 'centered'], false), __axis_x_tick_format = getConfig(['axis', 'x', 'tick', 'format']), __axis_x_tick_culling = getConfig(['axis', 'x', 'tick', 'culling'], {}), __axis_x_tick_culling_max = getConfig(['axis', 'x', 'tick', 'culling', 'max'], 10), __axis_x_tick_count = getConfig(['axis', 'x', 'tick', 'count']), __axis_x_tick_fit = getConfig(['axis', 'x', 'tick', 'fit'], false), __axis_x_tick_values = getConfig(['axis', 'x', 'tick', 'values'], null), __axis_x_max = getConfig(['axis', 'x', 'max']), __axis_x_min = getConfig(['axis', 'x', 'min']), __axis_x_default = getConfig(['axis', 'x', 'default']), __axis_x_label = getConfig(['axis', 'x', 'label'], {}), __axis_y_show = getConfig(['axis', 'y', 'show'], true), __axis_y_max = getConfig(['axis', 'y', 'max']), __axis_y_min = getConfig(['axis', 'y', 'min']), __axis_y_center = getConfig(['axis', 'y', 'center']), __axis_y_label = getConfig(['axis', 'y', 'label'], {}), __axis_y_inner = getConfig(['axis', 'y', 'inner'], false), __axis_y_tick_format = getConfig(['axis', 'y', 'tick', 'format']), __axis_y_padding = getConfig(['axis', 'y', 'padding'], {}), __axis_y_ticks = getConfig(['axis', 'y', 'ticks'], 10), __axis_y2_show = getConfig(['axis', 'y2', 'show'], false), __axis_y2_max = getConfig(['axis', 'y2', 'max']), __axis_y2_min = getConfig(['axis', 'y2', 'min']), __axis_y2_center = getConfig(['axis', 'y2', 'center']), __axis_y2_label = getConfig(['axis', 'y2', 'label'], {}), __axis_y2_inner = getConfig(['axis', 'y2', 'inner'], false), __axis_y2_tick_format = getConfig(['axis', 'y2', 'tick', 'format']), __axis_y2_padding = getConfig(['axis', 'y2', 'padding'], {}), __axis_y2_ticks = getConfig(['axis', 'y2', 'ticks'], 10); // 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'], []), __grid_y_show = getConfig(['grid', 'y', 'show'], false), // not used // __grid_y_type = getConfig(['grid', 'y', 'type'], 'tick'), __grid_y_lines = getConfig(['grid', 'y', 'lines'], []), __grid_y_ticks = getConfig(['grid', 'y', 'ticks'], 10); // point - point of each data var __point_show = getConfig(['point', 'show'], true), __point_r = __point_show ? getConfig(['point', 'r'], 2.5) : 0, __point_focus_line_enabled = getConfig(['point', 'focus', 'line', 'enabled'], true), __point_focus_expand_enabled = getConfig(['point', 'focus', 'expand', 'enabled'], true), __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); var __line_connect_null = getConfig(['line', 'connect_null'], false); // bar var __bar_width = getConfig(['bar', 'width']), __bar_width_ratio = getConfig(['bar', 'width', 'ratio'], 0.6); // pie var __pie_label_show = getConfig(['pie', 'label', 'show'], true), __pie_label_format = getConfig(['pie', 'label', 'format']), __pie_onclick = getConfig(['pie', 'onclick'], function () {}), __pie_onmouseover = getConfig(['pie', 'onmouseover'], function () {}), __pie_onmouseout = getConfig(['pie', 'onmouseout'], function () {}); // donut var __donut_label_show = getConfig(['donut', 'label', 'show'], true), __donut_label_format = getConfig(['donut', 'label', 'format']), __donut_title = getConfig(['donut', 'title'], ""), __donut_onclick = getConfig(['donut', 'onclick'], function () {}), __donut_onmouseover = getConfig(['donut', 'onmouseover'], function () {}), __donut_onmouseout = getConfig(['donut', 'onmouseout'], function () {}); // region - region to change style var __regions = getConfig(['regions'], []); // tooltip - show when mouseover on each data var __tooltip_show = getConfig(['tooltip', 'show'], true), __tooltip_format_title = getConfig(['tooltip', 'format', 'title']), __tooltip_format_value = getConfig(['tooltip', 'format', 'value']), __tooltip_contents = getConfig(['tooltip', 'contents'], function (d, defaultTitleFormat, defaultValueFormat, color) { var titleFormat = __tooltip_format_title ? __tooltip_format_title : defaultTitleFormat, valueFormat = __tooltip_format_value ? __tooltip_format_value : defaultValueFormat, text, i, title, value, name; for (i = 0; i < d.length; i++) { if (! (d[i] && (d[i].value || d[i].value === 0))) { continue; } if (! text) { title = titleFormat ? titleFormat(d[i].x) : d[i].x; text = "" + (title || title === 0 ? "" : ""); } name = d[i].name; value = valueFormat(d[i].value, d[i].ratio); text += ""; text += ""; text += ""; text += ""; } return text + "
" + title + "
" + name + "" + value + "
"; }), __tooltip_init_show = getConfig(['tooltip', 'init', 'show'], false), __tooltip_init_x = getConfig(['tooltip', 'init', 'x'], 0), __tooltip_init_position = getConfig(['tooltip', 'init', 'position'], {top: '0px', left: '50px'}); /*-- Set Variables --*/ var clipId = (typeof __bindto === "string" ? __bindto.replace('#', '') : __bindto.id) + '-clip', clipIdForXAxis = clipId + '-xaxis', clipIdForYAxis = clipId + '-yaxis', clipPath = getClipPath(clipId), clipPathForXAxis = getClipPath(clipIdForXAxis), clipPathForYAxis = getClipPath(clipIdForYAxis); var isTimeSeries = (__axis_x_type === 'timeseries'), isCategorized = (__axis_x_type === 'categorized'), isCustomX = !isTimeSeries && (__data_x || notEmpty(__data_xs)); var dragStart = null, dragging = false, cancelClick = false, mouseover = false; var defaultColorPattern = ['#1f77b4', '#ff7f0e', '#2ca02c', '#d62728', '#9467bd', '#8c564b', '#e377c2', '#7f7f7f', '#bcbd22', '#17becf'], //same as d3.scale.category10() color = generateColor(__data_colors, notEmpty(__color_pattern) ? __color_pattern : defaultColorPattern, __data_color); var xTimeFormat = __axis_x_localtime ? d3.time.format : d3.time.format.utc, defaultTimeFormat = (function () { var formats = [ [xTimeFormat("%Y/%-m/%-d"), function () { return true; }], [xTimeFormat("%-m/%-d"), function (d) { return d.getMonth(); }], [xTimeFormat("%-m/%-d"), function (d) { return d.getDate() !== 1; }], [xTimeFormat("%-m/%-d"), function (d) { return d.getDay() && d.getDate() !== 1; }], [xTimeFormat("%I %p"), function (d) { return d.getHours(); }], [xTimeFormat("%I:%M"), function (d) { return d.getMinutes(); }], [xTimeFormat(":%S"), function (d) { return d.getSeconds(); }], [xTimeFormat(".%L"), function (d) { return d.getMilliseconds(); }] ]; return function (date) { var i = formats.length - 1, f = formats[i]; while (!f[1](date)) { f = formats[--i]; } return f[0](date); }; })(); var hiddenTargetIds = [], hiddenLegendIds = []; /*-- Set Chart Params --*/ var margin, margin2, margin3, width, width2, height, height2, currentWidth, currentHeight; var radius, radiusExpanded, innerRadius, svgArc, svgArcExpanded, svgArcExpandedSub, pie; var xMin, xMax, yMin, yMax, subXMin, subXMax, subYMin, subYMax; var x, y, y2, subX, subY, subY2, xAxis, yAxis, yAxis2, subXAxis; var xOrient = __axis_rotated ? "left" : "bottom", yOrient = __axis_rotated ? (__axis_y_inner ? "top" : "bottom") : (__axis_y_inner ? "right" : "left"), y2Orient = __axis_rotated ? (__axis_y2_inner ? "bottom" : "top") : (__axis_y2_inner ? "left" : "right"), subXOrient = __axis_rotated ? "left" : "bottom"; var translate = { main : function () { return "translate(" + margin.left + "," + margin.top + ")"; }, context : function () { return "translate(" + margin2.left + "," + margin2.top + ")"; }, legend : function () { return "translate(" + margin3.left + "," + margin3.top + ")"; }, x : function () { return "translate(0," + (__axis_rotated ? 0 : height) + ")"; }, y : function () { return "translate(0," + (__axis_rotated ? height : 0) + ")"; }, y2 : function () { return "translate(" + (__axis_rotated ? 0 : width) + "," + (__axis_rotated ? 1 : 0) + ")"; }, subx : function () { return "translate(0," + (__axis_rotated ? 0 : height2) + ")"; }, arc: function () { return "translate(" + width / 2 + "," + height / 2 + ")"; } }; var isLegendRight = __legend_position === 'right'; var legendStep = 0, legendItemWidth = 0, legendItemHeight = 0; /*-- Define Functions --*/ function getClipPath(id) { return "url(" + document.URL.split('#')[0] + "#" + id + ")"; } function transformMain(withTransition) { var duration = withTransition !== false ? 250 : 0; main.attr("transform", translate.main); main.select('.' + CLASS.axisX).transition().duration(duration).attr("transform", translate.x); main.select('.' + CLASS.axisY).transition().duration(duration).attr("transform", translate.y); main.select('.' + CLASS.axisY2).attr("transform", translate.y2); main.select('.' + CLASS.chartArcs).attr("transform", translate.arc); } function transformContext() { if (__subchart_show) { context.attr("transform", translate.context); context.select('.' + CLASS.axisX).attr("transform", translate.subx); } } function transformLegend(withTransition) { var duration = withTransition !== false ? 250 : 0; legend.transition().duration(duration).attr("transform", translate.legend); } function transformAll(withTransition) { transformMain(withTransition); transformContext(withTransition); transformLegend(withTransition); } //-- Sizes --// // TODO: configurabale var rotated_padding_left = 30, rotated_padding_right = 30, rotated_padding_top = 5; function updateSizes() { var legendHeight = getLegendHeight(), legendWidth = getLegendWidth(); currentWidth = getCurrentWidth(); currentHeight = getCurrentHeight(); // for main margin = { top: __axis_rotated ? getHorizontalAxisHeight('y2') : rotated_padding_top, right: getCurrentPaddingRight(), bottom: getHorizontalAxisHeight(__axis_rotated ? 'y' : 'x') + (__axis_rotated ? 0 : __subchart_size_height) + (isLegendRight ? 0 : legendHeight), left: (__axis_rotated ? __subchart_size_height + rotated_padding_right : 0) + getCurrentPaddingLeft() }; width = currentWidth - margin.left - margin.right; height = currentHeight - margin.top - margin.bottom; if (width < 0) { width = 0; } if (height < 0) { height = 0; } // for context margin2 = { top: __axis_rotated ? margin.top : (currentHeight - __subchart_size_height - (isLegendRight ? 0 : legendHeight)), right: NaN, bottom: 20 + (isLegendRight ? 0 : legendHeight), left: __axis_rotated ? rotated_padding_left : margin.left }; width2 = __axis_rotated ? margin.left - rotated_padding_left - rotated_padding_right : width; height2 = __axis_rotated ? height : currentHeight - margin2.top - margin2.bottom; if (width2 < 0) { width2 = 0; } if (height2 < 0) { height2 = 0; } // for legend margin3 = { top: isLegendRight ? 0 : currentHeight - legendHeight, right: NaN, bottom: 0, left: isLegendRight ? currentWidth - legendWidth : 0 }; // for arc updateRadius(); if (isLegendRight && hasArcType(c3.data.targets)) { margin3.left = width / 2 + radiusExpanded; } } function updateXgridFocus() { main.select('line.' + CLASS.xgridFocus) .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); } function updateRadius() { radiusExpanded = height / 2; radius = radiusExpanded * 0.95; innerRadius = hasDonutType(c3.data.targets) ? radius * 0.6 : 0; } function getSvgLeft() { var leftAxisClass = __axis_rotated ? CLASS.axisX : CLASS.axisY, leftAxis = d3.select('.' + leftAxisClass).node(), svgRect = leftAxis ? leftAxis.getBoundingClientRect() : {right: 0}, chartRect = d3.select(__bindto).node().getBoundingClientRect(), svgLeft = svgRect.right - chartRect.left - getCurrentPaddingLeft(); return svgLeft > 0 ? svgLeft : 0; } function getCurrentWidth() { return __size_width ? __size_width : getParentWidth(); } function getCurrentHeight() { var h = __size_height ? __size_height : getParentHeight(); return h > 0 ? h : 320; } function getCurrentPaddingLeft() { if (hasArcType(c3.data.targets)) { return 0; } else if (__padding_left) { return __padding_left; } else { return __axis_rotated || !__axis_y_show || __axis_y_inner ? 1 : getAxisWidthByAxisId('y'); } } function getCurrentPaddingRight() { var defaultPadding = 1; if (hasArcType(c3.data.targets)) { return 0; } else if (__padding_right) { return __padding_right; } else if (isLegendRight) { return getLegendWidth() + (__axis_y2_show && !__axis_rotated ? getAxisWidthByAxisId('y2') : defaultPadding); } else if (__axis_y2_show) { return __axis_y2_inner || __axis_rotated ? defaultPadding : getAxisWidthByAxisId('y2'); } else { return defaultPadding; } } function getAxisWidthByAxisId(id) { var position = getAxisLabelPositionById(id); return position.isInner ? 20 + getMaxTickWidth(id) : 40 + getMaxTickWidth(id); } function getHorizontalAxisHeight(axisId) { if (axisId === 'y' && !__axis_y_show) { return __legend_show && !isLegendRight ? 10 : 1; } if (axisId === 'y2' && !__axis_y2_show) { return rotated_padding_top; } return (getAxisLabelPositionById(axisId).isInner ? 30 : 40) + (axisId === 'y2' ? -10 : 0); } function getParentWidth() { return +d3.select(__bindto).style("width").replace('px', ''); // TODO: if rotated, use height } function getParentHeight() { return +d3.select(__bindto).style('height').replace('px', ''); // TODO: if rotated, use width } function getAxisClipX(forHorizontal) { return forHorizontal ? -(1 + 4) : -(margin.left - 1); } function getAxisClipY(forHorizontal) { return forHorizontal ? -20 : -1; } function getXAxisClipX() { return getAxisClipX(!__axis_rotated); } function getXAxisClipY() { return getAxisClipY(!__axis_rotated); } function getYAxisClipX() { return getAxisClipX(__axis_rotated); } function getYAxisClipY() { return getAxisClipY(__axis_rotated); } function getAxisClipWidth(forHorizontal) { return forHorizontal ? width + 2 + 4 : margin.left + 20; } function getAxisClipHeight(forHorizontal) { return forHorizontal ? 80 : height + 2; } function getXAxisClipWidth() { return getAxisClipWidth(!__axis_rotated); } function getXAxisClipHeight() { return getAxisClipHeight(!__axis_rotated); } function getYAxisClipWidth() { return getAxisClipWidth(__axis_rotated); } function getYAxisClipHeight() { return getAxisClipHeight(__axis_rotated); } function getEventRectWidth() { var base = __axis_rotated ? height : width, maxDataCount = getMaxDataCount(), ratio = getXDomainRatio() * (hasBarType(c3.data.targets) ? (maxDataCount - (isCategorized ? 0.25 : 1)) / maxDataCount : 0.98); return maxDataCount > 1 ? (base * ratio) / (maxDataCount - 1) : base; } function updateLegendStep(step) { legendStep = step; } function updateLegendItemWidth(w) { legendItemWidth = w; } function updateLegendItemHeight(h) { legendItemHeight = h; } function getLegendWidth() { return __legend_show ? isLegendRight ? legendItemWidth * (legendStep + 1) : currentWidth : 0; } function getLegendHeight() { return __legend_show ? isLegendRight ? currentHeight : legendItemHeight * (legendStep + 1) : 0; } //-- Scales --// function updateScales() { var xAxisTickFormat, forInit = !x; // update edges xMin = __axis_rotated ? 1 : 0; xMax = __axis_rotated ? height : width; yMin = __axis_rotated ? 0 : height; yMax = __axis_rotated ? width : 1; subXMin = xMin; subXMax = xMax; subYMin = __axis_rotated ? 0 : height2; subYMax = __axis_rotated ? width2 : 1; // update scales x = getX(xMin, xMax, forInit ? undefined : x.domain(), function () { return xAxis.tickOffset(); }); y = getY(yMin, yMax); y2 = getY(yMin, yMax); subX = getX(xMin, xMax, orgXDomain, function (d) { return d % 1 ? 0 : subXAxis.tickOffset(); }); subY = getY(subYMin, subYMax); subY2 = getY(subYMin, subYMax); // update axes xAxisTickFormat = getXAxisTickFormat(); xAxis = getXAxis(x, xOrient, xAxisTickFormat); subXAxis = getXAxis(subX, subXOrient, xAxisTickFormat); yAxis = getYAxis(y, yOrient, __axis_y_tick_format, __axis_y_ticks); yAxis2 = getYAxis(y2, y2Orient, __axis_y2_tick_format, __axis_y2_ticks); // Set initialized scales to brush and zoom if (!forInit) { brush.scale(subX); if (__zoom_enabled) { zoom.scale(x); } } // update for arc updateArc(); } function updateArc() { svgArc = getSvgArc(); svgArcExpanded = getSvgArcExpanded(); svgArcExpandedSub = getSvgArcExpanded(0.98); } function getX(min, max, domain, offset) { var scale = ((isTimeSeries) ? d3.time.scale() : d3.scale.linear()).range([min, max]); // Set function and values for c3 scale.orgDomain = function () { return scale.domain(); }; if (isDefined(domain)) { scale.domain(domain); } if (isUndefined(offset)) { offset = function () { return 0; }; } // Define customized scale if categorized axis if (isCategorized) { var _scale = scale, key; scale = function (d) { return _scale(d) + offset(d); }; for (key in _scale) { scale[key] = _scale[key]; } scale.orgDomain = function () { return _scale.domain(); }; scale.domain = function (domain) { if (!arguments.length) { domain = _scale.domain(); return [domain[0], domain[1] + 1]; } _scale.domain(domain); return scale; }; } return scale; } function getY(min, max) { return d3.scale.linear().range([min, max]); } function getYScale(id) { return getAxisId(id) === 'y2' ? y2 : y; } function getSubYScale(id) { return getAxisId(id) === 'y2' ? subY2 : subY; } //-- Axes --// function getXAxis(scale, orient, tickFormat) { var axis = (isCategorized ? categoryAxis() : d3.svg.axis()).scale(scale).orient(orient); // Set tick axis.tickFormat(tickFormat); if (isCategorized) { axis.tickCentered(__axis_x_tick_centered); if (isEmpty(__axis_x_tick_culling)) { __axis_x_tick_culling = false; } } else { axis.tickOffset = function () { var base = __axis_rotated ? height : width; return ((base * getXDomainRatio()) / getMaxDataCount()) / 2; }; } // Set categories if (isCategorized) { axis.categories(__axis_x_categories); } return axis; } function getYAxis(scale, orient, tickFormat, ticks) { return d3.svg.axis().scale(scale).orient(orient).tickFormat(tickFormat).ticks(ticks).outerTickSize(0); } function getAxisId(id) { return id in __data_axes ? __data_axes[id] : 'y'; } function getXAxisTickFormat() { var format = isTimeSeries ? defaultTimeFormat : isCategorized ? categoryName : function (v) { return v < 0 ? v.toFixed(0) : v; }; if (__axis_x_tick_format) { if (typeof __axis_x_tick_format === 'function') { format = __axis_x_tick_format; } else if (isTimeSeries) { format = function (date) { return xTimeFormat(__axis_x_tick_format)(date); }; } } return format; } function getAxisLabelOptionByAxisId(axisId) { var option; if (axisId === 'y') { option = __axis_y_label; } else if (axisId === 'y2') { option = __axis_y2_label; } else if (axisId === 'x') { option = __axis_x_label; } return option; } function getAxisLabelText(axisId) { var option = getAxisLabelOptionByAxisId(axisId); return typeof option === 'string' ? option : option ? option.text : null; } function setAxisLabelText(axisId, text) { var option = getAxisLabelOptionByAxisId(axisId); if (typeof option === 'string') { if (axisId === 'y') { __axis_y_label = text; } else if (axisId === 'y2') { __axis_y2_label = text; } else if (axisId === 'x') { __axis_x_label = text; } } else if (option) { option.text = text; } } function getAxisLabelPosition(axisId, defaultPosition) { var option = getAxisLabelOptionByAxisId(axisId), position = (option && typeof option === 'object' && option.position) ? option.position : defaultPosition; return { isInner: position.indexOf('inner') >= 0, isOuter: position.indexOf('outer') >= 0, isLeft: position.indexOf('left') >= 0, isCenter: position.indexOf('center') >= 0, isRight: position.indexOf('right') >= 0, isTop: position.indexOf('top') >= 0, isMiddle: position.indexOf('middle') >= 0, isBottom: position.indexOf('bottom') >= 0 }; } function getXAxisLabelPosition() { return getAxisLabelPosition('x', __axis_rotated ? 'inner-top' : 'inner-right'); } function getYAxisLabelPosition() { return getAxisLabelPosition('y', __axis_rotated ? 'inner-right' : 'inner-top'); } function getY2AxisLabelPosition() { return getAxisLabelPosition('y2', __axis_rotated ? 'inner-right' : 'inner-top'); } function getAxisLabelPositionById(id) { return id === 'y2' ? getY2AxisLabelPosition() : id === 'y' ? getYAxisLabelPosition() : getXAxisLabelPosition(); } function textForXAxisLabel() { return getAxisLabelText('x'); } function textForYAxisLabel() { return getAxisLabelText('y'); } function textForY2AxisLabel() { return getAxisLabelText('y2'); } function xForAxisLabel(forHorizontal, position) { if (forHorizontal) { return position.isLeft ? 0 : position.isCenter ? width / 2 : width; } else { return position.isBottom ? -height : position.isMiddle ? -height / 2 : 0; } } function dxForAxisLabel(forHorizontal, position) { if (forHorizontal) { return position.isLeft ? "0.5em" : position.isRight ? "-0.5em" : "0"; } else { return position.isTop ? "-0.5em" : position.isBottom ? "0.5em" : "0"; } } function textAnchorForAxisLabel(forHorizontal, position) { if (forHorizontal) { return position.isLeft ? 'start' : position.isCenter ? 'middle' : 'end'; } else { return position.isBottom ? 'start' : position.isMiddle ? 'middle' : 'end'; } } function xForXAxisLabel() { return xForAxisLabel(!__axis_rotated, getXAxisLabelPosition()); } function xForYAxisLabel() { return xForAxisLabel(__axis_rotated, getYAxisLabelPosition()); } function xForY2AxisLabel() { return xForAxisLabel(__axis_rotated, getY2AxisLabelPosition()); } function dxForXAxisLabel() { return dxForAxisLabel(!__axis_rotated, getXAxisLabelPosition()); } function dxForYAxisLabel() { return dxForAxisLabel(__axis_rotated, getYAxisLabelPosition()); } function dxForY2AxisLabel() { return dxForAxisLabel(__axis_rotated, getY2AxisLabelPosition()); } function dyForXAxisLabel() { var position = getXAxisLabelPosition(); if (__axis_rotated) { return position.isInner ? "1.2em" : -30 - getMaxTickWidth('x'); } else { return position.isInner ? "-0.5em" : "3em"; } } function dyForYAxisLabel() { var position = getYAxisLabelPosition(); if (__axis_rotated) { return position.isInner ? "-0.5em" : "3em"; } else { return position.isInner ? "1.2em" : -20 - getMaxTickWidth('y'); } } function dyForY2AxisLabel() { var position = getY2AxisLabelPosition(); if (__axis_rotated) { return position.isInner ? "1.2em" : "-2.2em"; } else { return position.isInner ? "-0.5em" : 30 + getMaxTickWidth('y2'); } } function textAnchorForXAxisLabel() { return textAnchorForAxisLabel(!__axis_rotated, getXAxisLabelPosition()); } function textAnchorForYAxisLabel() { return textAnchorForAxisLabel(__axis_rotated, getYAxisLabelPosition()); } function textAnchorForY2AxisLabel() { return textAnchorForAxisLabel(__axis_rotated, getY2AxisLabelPosition()); } function getMaxTickWidth(id) { var maxWidth = 0, axisClass = id === 'x' ? CLASS.axisX : id === 'y' ? CLASS.axisY : CLASS.axisY2; d3.selectAll('.' + axisClass + ' .tick text').each(function () { var box = this.getBoundingClientRect(); if (maxWidth < box.width) { maxWidth = box.width; } }); return maxWidth < 20 ? 20 : maxWidth; } function updateAxisLabels() { main.select('.' + CLASS.axisX + ' .' + CLASS.axisXLabel).attr("x", xForXAxisLabel).text(textForXAxisLabel); main.select('.' + CLASS.axisY + ' .' + CLASS.axisYLabel).attr("x", xForYAxisLabel).attr("dy", dyForYAxisLabel).text(textForYAxisLabel); main.select('.' + CLASS.axisY2 + ' .' + CLASS.axisY2Label).attr("x", xForY2AxisLabel).attr("dy", dyForY2AxisLabel).text(textForY2AxisLabel); } function categoryAxis() { var scale = d3.scale.linear(), orient = "bottom"; var tickMajorSize = 6, /*tickMinorSize = 6,*/ tickEndSize = 6, tickPadding = 3, tickCentered = false, tickTextNum = 10, tickOffset = 0, tickFormat = null, tickCulling = true; var 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 category(i) { return i < categories.length ? categories[i] : i; } function formattedCategory(i) { var c = category(i); return tickFormat ? tickFormat(c) : c; } 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 ]); path.enter().append("path").attr("class", "domain"); var pathUpdate = 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(formattedCategory); 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(formattedCategory); 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.tickFormat = function (format) { if (!arguments.length) { return tickFormat; } tickFormat = format; return axis; }; axis.tickOffset = function () { return tickOffset; }; axis.ticks = function (n) { if (!arguments.length) { return tickTextNum; } tickTextNum = n; return axis; }; axis.tickCulling = function (culling) { if (!arguments.length) { return tickCulling; } tickCulling = culling; return axis; }; axis.tickValues = function () { // TODO: do something }; return axis; } //-- Arc --// pie = d3.layout.pie().value(function (d) { return d.values.reduce(function (a, b) { return a + b.value; }, 0); }); function updateAngle(d) { var found = false; pie(filterTargetsToShow(c3.data.targets)).forEach(function (t) { if (! found && t.data.id === d.data.id) { found = true; d = t; return; } }); return found ? d : null; } function getSvgArc() { var arc = d3.svg.arc().outerRadius(radius).innerRadius(innerRadius), newArc = function (d, withoutUpdate) { var updated; if (withoutUpdate) { return arc(d); } // for interpolate updated = updateAngle(d); return updated ? arc(updated) : "M 0 0"; }; // TODO: extends all function newArc.centroid = arc.centroid; return newArc; } function getSvgArcExpanded(rate) { var arc = d3.svg.arc().outerRadius(radiusExpanded * (rate ? rate : 1)).innerRadius(innerRadius); return function (d) { var updated = updateAngle(d); return updated ? arc(updated) : "M 0 0"; }; } function getArc(d, withoutUpdate) { return isArcType(d.data) ? svgArc(d, withoutUpdate) : "M 0 0"; } function transformForArcLabel(d) { var updated = updateAngle(d), c, x, y, h, translate = ""; if (updated) { c = svgArc.centroid(updated); x = c[0], y = c[1], h = Math.sqrt(x * x + y * y); translate = "translate(" + ((x / h) * radius * 0.8) + ',' + ((y / h) * radius * 0.8) + ")"; } return translate; } function getArcRatio(d) { return d ? (d.endAngle - d.startAngle) / (Math.PI * 2) : null; } function convertToArcData(d) { return addName({ id: d.data.id, value: d.value, ratio: getArcRatio(d) }); } function textForArcLabel(d) { var updated, value, ratio, format; if (! shouldShowArcLable()) { return ""; } updated = updateAngle(d); value = updated ? updated.value : null; ratio = getArcRatio(updated); format = getArcLabelFormat(); return format ? format(value, ratio) : defaultArcValueFormat(value, ratio); } function expandArc(id, withoutFadeOut) { var target = svg.selectAll('.' + CLASS.chartArc + selectorTarget(id)), noneTargets = svg.selectAll('.' + CLASS.arc).filter(function (data) { return data.data.id !== id; }); target.selectAll('path') .transition().duration(50) .attr("d", svgArcExpanded) .transition().duration(100) .attr("d", svgArcExpandedSub) .each(function (d) { if (isDonutType(d.data)) { // callback here } }); if (!withoutFadeOut) { noneTargets.style("opacity", 0.3); } } function unexpandArc(id) { var target = svg.selectAll('.' + CLASS.chartArc + selectorTarget(id)); target.selectAll('path') .transition().duration(50) .attr("d", svgArc); svg.selectAll('.' + CLASS.arc) .style("opacity", 1); } function shouldShowArcLable() { return hasDonutType(c3.data.targets) ? __donut_label_show : __pie_label_show; } function getArcLabelFormat() { return hasDonutType(c3.data.targets) ? __donut_label_format : __pie_label_format; } function getArcTitle() { return hasDonutType(c3.data.targets) ? __donut_title : ""; } function getArcOnClick() { var callback = hasDonutType(c3.data.targets) ? __donut_onclick : __pie_onclick; return typeof callback === 'function' ? callback : function () {}; } function getArcOnMouseOver() { var callback = hasDonutType(c3.data.targets) ? __donut_onmouseover : __pie_onmouseover; return typeof callback === 'function' ? callback : function () {}; } function getArcOnMouseOut() { var callback = hasDonutType(c3.data.targets) ? __donut_onmouseout : __pie_onmouseout; return typeof callback === 'function' ? callback : function () {}; } //-- Domain --// function getYDomainMin(targets) { var ids = mapToIds(targets), ys = getValuesAsIdKeyed(targets), j, k, baseId, idsInGroup, id, hasNegativeValue; if (__data_groups.length > 0) { hasNegativeValue = hasNegativeValueInTargets(targets); for (j = 0; j < __data_groups.length; j++) { // Determine baseId idsInGroup = __data_groups[j].filter(function (id) { return ids.indexOf(id) >= 0; }); if (idsInGroup.length === 0) { continue; } baseId = idsInGroup[0]; // Consider negative values if (hasNegativeValue && ys[baseId]) { ys[baseId].forEach(function (v, i) { ys[baseId][i] = v < 0 ? v : 0; }); } // Compute min for (k = 1; k < idsInGroup.length; k++) { id = idsInGroup[k]; if (! ys[id]) { continue; } ys[id].forEach(function (v, i) { if (getAxisId(id) === getAxisId(baseId) && ys[baseId] && !(hasNegativeValue && +v > 0)) { ys[baseId][i] += +v; } }); } } } return d3.min(Object.keys(ys).map(function (key) { return d3.min(ys[key]); })); } function getYDomainMax(targets) { var ids = mapToIds(targets), ys = getValuesAsIdKeyed(targets), j, k, baseId, idsInGroup, id, hasPositiveValue; if (__data_groups.length > 0) { hasPositiveValue = hasPositiveValueInTargets(targets); for (j = 0; j < __data_groups.length; j++) { // Determine baseId idsInGroup = __data_groups[j].filter(function (id) { return ids.indexOf(id) >= 0; }); if (idsInGroup.length === 0) { continue; } baseId = idsInGroup[0]; // Consider positive values if (hasPositiveValue && ys[baseId]) { ys[baseId].forEach(function (v, i) { ys[baseId][i] = v > 0 ? v : 0; }); } // Compute max for (k = 1; k < idsInGroup.length; k++) { id = idsInGroup[k]; if (! ys[id]) { continue; } ys[id].forEach(function (v, i) { if (getAxisId(id) === getAxisId(baseId) && ys[baseId] && !(hasPositiveValue && +v < 0)) { ys[baseId][i] += +v; } }); } } } return d3.max(Object.keys(ys).map(function (key) { return d3.max(ys[key]); })); } function getYDomain(targets, axisId) { var yTargets = targets.filter(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 = isValue(yMin) ? yMin : getYDomainMin(yTargets), yDomainMax = isValue(yMax) ? yMax : getYDomainMax(yTargets), domainLength, padding, padding_top, padding_bottom, center = axisId === 'y2' ? __axis_y2_center : __axis_y_center, yDomainAbs, widths, diff, ratio, showHorizontalDataLabel = hasDataLabel() && __axis_rotated; if (yTargets.length === 0) { // use current domain if target of axisId is none return axisId === 'y2' ? y2.domain() : y.domain(); } if (yDomainMin === yDomainMax) { yDomainMin < 0 ? yDomainMax = 0 : yDomainMin = 0; } domainLength = Math.abs(yDomainMax - yDomainMin); padding = padding_top = padding_bottom = showHorizontalDataLabel ? 0 : domainLength * 0.1; if (center) { yDomainAbs = Math.max(Math.abs(yDomainMin), Math.abs(yDomainMax)); yDomainMax = yDomainAbs - center; yDomainMin = center - yDomainAbs; } // add padding for data label if (showHorizontalDataLabel) { widths = getDataLabelWidth(yDomainMin, yDomainMax); diff = diffDomain(y.range()); ratio = [widths[0] / diff, widths[1] / diff]; padding_top += domainLength * (ratio[1] / (1 - ratio[0] - ratio[1])); padding_bottom += domainLength * (ratio[0] / (1 - ratio[0] - ratio[1])); } if (axisId === 'y' && __axis_y_padding) { padding_top = isValue(__axis_y_padding.top) ? __axis_y_padding.top : padding; padding_bottom = isValue(__axis_y_padding.bottom) ? __axis_y_padding.bottom : padding; } if (axisId === 'y2' && __axis_y2_padding) { padding_top = isValue(__axis_y2_padding.top) ? __axis_y2_padding.top : padding; padding_bottom = isValue(__axis_y2_padding.bottom) ? __axis_y2_padding.bottom : padding; } // Bar chart with only positive values should be 0-based if (hasBarType(yTargets) && !hasNegativeValueInTargets(yTargets)) { padding_bottom = yDomainMin; } return [yDomainMin - padding_bottom, yDomainMax + padding_top]; } function getXDomainRatio(isSub) { var orgDiff = diffDomain(orgXDomain), currentDiff = diffDomain(x.domain()); return isSub || currentDiff === 0 ? 1 : orgDiff / currentDiff; } function getXDomainMin(targets) { return __axis_x_min ? __axis_x_min : d3.min(targets, function (t) { return d3.min(t.values, function (v) { return v.x; }); }); } function getXDomainMax(targets) { return __axis_x_max ? __axis_x_max : d3.max(targets, function (t) { return d3.max(t.values, function (v) { return v.x; }); }); } function getXDomainPadding(targets, domain) { var firstX = domain[0], lastX = domain[1], diff = Math.abs(firstX - lastX), maxDataCount, padding; if (isCategorized) { padding = 0; } else if (hasBarType(targets)) { maxDataCount = getMaxDataCount(); padding = maxDataCount > 1 ? (diff / (maxDataCount - 1)) / 2 : 0.5; } else { padding = diff * 0.01; } return padding; } function getXDomain(targets) { var xDomain = [getXDomainMin(targets), getXDomainMax(targets)], firstX = xDomain[0], lastX = xDomain[1], padding = getXDomainPadding(targets, xDomain), min = 0, max = 0; if (firstX || firstX === 0) { min = isTimeSeries ? new Date(firstX.getTime() - padding) : firstX - padding; } if (lastX || lastX === 0) { max = isTimeSeries ? new Date(lastX.getTime() + padding) : lastX + padding; } return [min, max]; } function diffDomain(d) { return d[1] - d[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; } //-- Regions --// function regionStart(d) { return ('start' in d) ? x(isTimeSeries ? parseDate(d.start) : d.start) : 0; } function regionWidth(d) { var start = regionStart(d), end = ('end' in d) ? x(isTimeSeries ? parseDate(d.end) : d.end) : width, w = end - start; return (w < 0) ? 0 : w; } //-- Data --// function isX(key) { return (__data_x && key === __data_x) || (notEmpty(__data_xs) && hasValue(__data_xs, key)); } function isNotX(key) { return !isX(key); } function getXKey(id) { return __data_x ? __data_x : notEmpty(__data_xs) ? __data_xs[id] : null; } function getXValuesOfXKey(key, targets) { var xValues, ids = targets && notEmpty(targets) ? mapToIds(targets) : []; ids.forEach(function (id) { if (getXKey(id) === key) { xValues = c3.data.xs[id]; } }); return xValues; } function getXValue(id, i) { return id in c3.data.xs && c3.data.xs[id] && c3.data.xs[id][i] ? c3.data.xs[id][i] : i; } function addXs(xs) { Object.keys(xs).forEach(function (id) { __data_xs[id] = xs[id]; }); } function isSingleX(xs) { return d3.set(Object.keys(xs).map(function (id) { return xs[id]; })).size() === 1; } function addName(data) { var name; if (data) { name = __data_names[data.id]; data.name = name ? name : data.id; } return data; } function updateTargetX(targets, x) { targets.forEach(function (t) { t.values.forEach(function (v, i) { v.x = generateTargetX(x[i], t.id, i); }); c3.data.xs[t.id] = x; }); } function updateTargetXs(targets, xs) { targets.forEach(function (t) { if (xs[t.id]) { updateTargetX([t], xs[t.id]); } }); } function generateTargetX(rawX, id, index) { var x; if (isTimeSeries) { x = rawX ? rawX instanceof Date ? rawX : parseDate(rawX) : parseDate(getXValue(id, index)); } else if (isCustomX && !isCategorized) { x = rawX ? +rawX : getXValue(id, index); } else { x = index; } return x; } 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 (isUndefined(new_rows[j - 1])) { 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(isNotX), xs = d3.keys(data[0]).filter(isX), targets; // save x for update data by load when custom x and c3.x API ids.forEach(function (id) { var xKey = getXKey(id), idsForX; if (isCustomX || isTimeSeries) { // if included in input data if (xs.indexOf(xKey) >= 0) { c3.data.xs[id] = data.map(function (d) { return d[xKey]; }).filter(isValue); } // if not included in input data, find from preloaded data of other id's x else if (__data_x) { idsForX = Object.keys(c3.data.xs); c3.data.xs[id] = idsForX.length > 0 ? c3.data.xs[idsForX[0]] : undefined; } // if not included in input data, find from preloaded data else if (notEmpty(__data_xs)) { c3.data.xs[id] = getXValuesOfXKey(xKey, c3.data.targets); } // MEMO: if no x included, use same x of current will be used } else { c3.data.xs[id] = data.map(function (d, i) { return i; }); } }); // check x is defined ids.forEach(function (id) { if (!c3.data.xs[id]) { throw new Error('x is not defined for id = "' + id + '".'); } }); // convert to target targets = ids.map(function (id, index) { var convertedId = __data_id_converter(id); return { id: convertedId, id_org: id, values: data.map(function (d, i) { var xKey = getXKey(id), rawX = d[xKey], x = generateTargetX(rawX, id, i); // use x as categories if custom x and categorized if (isCustomX && isCategorized && index === 0 && rawX) { if (i === 0) { __axis_x_categories = []; } __axis_x_categories.push(rawX); } // mark as x = undefined if value is undefined and filter to remove after mapped if (typeof d[id] === 'undefined' || c3.data.xs[id].length <= i) { x = undefined; } return {x: x, value: d[id] !== null && !isNaN(d[id]) ? +d[id] : null, id: convertedId}; }).filter(function (v) { return typeof v.x !== 'undefined'; }) }; }); // finish targets targets.forEach(function (t) { var i; // sort values by its x t.values = t.values.sort(function (v1, v2) { var x1 = v1.x || v1.x === 0 ? v1.x : Infinity, x2 = v2.x || v2.x === 0 ? v2.x : Infinity; return x1 - x2; }); // indexing each value i = 0; t.values.forEach(function (v) { v.index = i++; }); }); // set target types if (__data_type) { setTargetType(mapToIds(targets).filter(function (id) { return ! (id in __data_types); }), __data_type); } // 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 getPrevX(i) { return i > 0 && c3.data.targets[0].values[i - 1] ? c3.data.targets[0].values[i - 1].x : undefined; } function getNextX(i) { return i < getMaxDataCount() - 1 ? c3.data.targets[0].values[i + 1].x : undefined; } function getMaxDataCount() { return d3.max(c3.data.targets, function (t) { return t.values.length; }); } function getMaxDataCountTarget() { var length = c3.data.targets.length, max = 0, maxTarget; if (length > 1) { c3.data.targets.forEach(function (t) { if (t.values.length > max) { maxTarget = t; max = t.values.length; } }); } else { maxTarget = length ? c3.data.targets[0] : null; } return maxTarget; } function mapToIds(targets) { return targets.map(function (d) { return d.id; }); } function mapToTargetIds(ids) { return ids ? (typeof ids === 'string' ? [ids] : ids) : mapToIds(c3.data.targets); } function hasTarget(targets, id) { var ids = mapToIds(targets), i; for (i = 0; i < ids.length; i++) { if (ids[i] === id) { return true; } } return false; } function getTargets(filter) { return isDefined(filter) ? c3.data.targets.filter(filter) : c3.data.targets; } function isTargetToShow(targetId) { return hiddenTargetIds.indexOf(targetId) < 0; } function isLegendToShow(targetId) { return hiddenLegendIds.indexOf(targetId) < 0; } function filterTargetsToShow(targets) { return targets.filter(function (t) { return isTargetToShow(t.id); }); } function mapTargetsToUniqueXs(targets) { var xs = d3.set(d3.merge(targets.map(function (t) { return t.values.map(function (v) { return v.x; }); }))).values(); return isTimeSeries ? xs.map(function (x) { return new Date(x); }) : xs.map(function (x) { return +x; }); } function generateTickValues(xs) { var tickValues = xs, targetCount, start, end, count, interval, i, tickValue; if (!__axis_x_tick_fit && __axis_x_tick_count) { // TODO: need some arguments for __axis_x_tick_count()? targetCount = typeof __axis_x_tick_count === 'function' ? __axis_x_tick_count() : __axis_x_tick_count; // compute ticks according to __axis_x_tick_count if (targetCount === 1) { tickValues = [xs[0]]; } else if (targetCount === 2) { tickValues = [xs[0], xs[xs.length - 1]]; } else if (targetCount > 2) { count = targetCount - 2; start = xs[0]; end = xs[xs.length - 1]; interval = (end - start) / (count + 1); // re-construct uniqueXs tickValues = [start]; for (i = 0; i < count; i++) { tickValue = +start + interval * (i + 1); tickValues.push(isTimeSeries ? new Date(tickValue) : tickValue); } tickValues.push(end); } } if (!isTimeSeries) { tickValues = tickValues.sort(function (a, b) { return a - b; }); } return tickValues; } function addHiddenTargetIds(targetIds) { hiddenTargetIds = hiddenTargetIds.concat(targetIds); } function removeHiddenTargetIds(targetIds) { hiddenTargetIds = hiddenTargetIds.filter(function (id) { return targetIds.indexOf(id) < 0; }); } function addHiddenLegendIds(targetIds) { hiddenLegendIds = hiddenLegendIds.concat(targetIds); } function removeHiddenLegendIds(targetIds) { hiddenLegendIds = hiddenLegendIds.filter(function (id) { return targetIds.indexOf(id) < 0; }); } function getValuesAsIdKeyed(targets) { var ys = {}; targets.forEach(function (t) { ys[t.id] = []; t.values.forEach(function (v) { ys[t.id].push(v.value); }); }); return ys; } function checkValueInTargets(targets, checker) { var ids = Object.keys(targets), i, j, values; for (i = 0; i < ids.length; i++) { values = targets[ids[i]].values; for (j = 0; j < values.length; j++) { if (checker(values[j].value)) { return true; } } } return false; } function hasNegativeValueInTargets(targets) { return checkValueInTargets(targets, function (v) { return v < 0; }); } function hasPositiveValueInTargets(targets) { return checkValueInTargets(targets, function (v) { return v > 0; }); } function categoryName(i) { return i < __axis_x_categories.length ? __axis_x_categories[i] : i; } function generateClass(prefix, targetId) { return " " + prefix + " " + prefix + getTargetSelectorSuffix(targetId); } function classText(d) { return generateClass(CLASS.text, d.id); } function classTexts(d) { return generateClass(CLASS.texts, d.id); } function classShape(d, i) { return generateClass(CLASS.shape, i); } function classShapes(d) { return generateClass(CLASS.shapes, d.id); } function classLine(d) { return classShapes(d) + generateClass(CLASS.line, d.id); } function classCircle(d, i) { return classShape(d, i) + generateClass(CLASS.circle, i); } function classCircles(d) { return classShapes(d) + generateClass(CLASS.circles, d.id); } function classBar(d, i) { return classShape(d, i) + generateClass(CLASS.bar, i); } function classBars(d) { return classShapes(d) + generateClass(CLASS.bars, d.id); } function classArc(d) { return classShapes(d.data) + generateClass(CLASS.arc, d.data.id); } function classArea(d) { return classShapes(d) + generateClass(CLASS.area, d.id); } function classRegion(d, i) { return generateClass(CLASS.region, i) + ' ' + ('class' in d ? d.class : ''); } function classEvent(d, i) { return generateClass(CLASS.eventRect, i); } function classTarget(id) { var additionalClassSuffix = __data_classes[id], additionalClass = ''; if (additionalClassSuffix) { additionalClass = ' ' + CLASS.target + '-' + additionalClassSuffix; } return generateClass(CLASS.target, id) + additionalClass; } function classChartText(d) { return CLASS.chartText + classTarget(d.id); } function classChartLine(d) { return CLASS.chartLine + classTarget(d.id); } function classChartBar(d) { return CLASS.chartBar + classTarget(d.id); } function classChartArc(d) { return CLASS.chartArc + classTarget(d.data.id); } function getTargetSelectorSuffix(targetId) { return targetId || targetId === 0 ? '-' + (targetId.replace ? targetId.replace(/([^a-zA-Z0-9-_])/g, '-') : targetId) : ''; } function selectorTarget(id) { return '.' + CLASS.target + getTargetSelectorSuffix(id); } function selectorTargets(ids) { return ids.map(function (id) { return selectorTarget(id); }); } function selectorLegend(id) { return '.' + CLASS.legendItem + getTargetSelectorSuffix(id); } function selectorLegends(ids) { return ids.map(function (id) { return selectorLegend(id); }); } function initialOpacity(d) { return d.value !== null && withoutFadeIn[d.id] ? 1 : 0; } function initialOpacityForText(d) { var targetOpacity = opacityForText(d); return initialOpacity(d) * targetOpacity; } function opacityForCircle(d) { return isValue(d.value) ? isScatterType(d) ? 0.5 : 1 : 0; } function opacityForText() { return hasDataLabel() ? 1 : 0; } function hasDataLabel() { if (typeof __data_labels === 'boolean' && __data_labels) { return true; } else if (typeof __data_labels === 'object' && notEmpty(__data_labels)) { return true; } return false; } function getDataLabelWidth(min, max) { var widths = [], paddingCoef = 1.3; d3.select('svg').selectAll('.dummy') .data([min, max]) .enter().append('text') .text(function (d) { return d; }) .each(function (d, i) { widths[i] = this.getBoundingClientRect().width * paddingCoef; }) .remove(); return widths; } function defaultValueFormat(v) { var yFormat = __axis_y_tick_format ? __axis_y_tick_format : function (v) { return isValue(v) ? +v : ""; }; return yFormat(v); } function defaultArcValueFormat(v, ratio) { return (ratio * 100).toFixed(1) + '%'; } function formatByAxisId(id) { var defaultFormat = function (v) { return isValue(v) ? +v : ""; }, axisId = getAxisId(id), format = defaultFormat; // find format according to axis id if (typeof __data_labels.format === 'function') { format = __data_labels.format; } else if (typeof __data_labels.format === 'object') { if (typeof __data_labels.format[axisId] === 'function') { format = __data_labels.format[axisId]; } } return format; } function xx(d) { return d ? x(d.x) : null; } function xv(d) { return x(isTimeSeries ? parseDate(d.value) : d.value); } function yv(d) { return y(d.value); } function subxx(d) { return subX(d.x); } function findSameXOfValues(values, index) { var i, targetX = values[index].x, sames = []; for (i = index - 1; i >= 0; i--) { if (targetX !== values[i].x) { break; } sames.push(values[i]); } for (i = index; i < values.length; i++) { if (targetX !== values[i].x) { break; } sames.push(values[i]); } return sames; } function findClosestOfValues(values, pos, _min, _max) { // MEMO: values must be sorted by x var min = _min ? _min : 0, max = _max ? _max : values.length - 1, med = Math.floor((max - min) / 2) + min, value = values[med], diff = x(value.x) - pos[__axis_rotated ? 1 : 0], candidates; // Update range for search diff > 0 ? max = med : min = med; // if candidates are two closest min and max, stop recursive call if ((max - min) === 1 || (min === 0 && max === 0)) { // Get candidates that has same min and max index candidates = []; if (values[min].x) { candidates = candidates.concat(findSameXOfValues(values, min)); } if (values[max].x) { candidates = candidates.concat(findSameXOfValues(values, max)); } // Determine the closest and return return findClosest(candidates, pos); } return findClosestOfValues(values, pos, min, max); } function findClosestFromTargets(targets, pos) { var candidates; // map to array of closest points of each target candidates = targets.map(function (target) { return findClosestOfValues(target.values, pos); }); // decide closest point and return return findClosest(candidates, pos); } function findClosest(values, pos) { var minDist, closest; values.forEach(function (v) { var d = dist(v, pos); if (d < minDist || ! minDist) { minDist = d; closest = v; } }); return closest; } function filterSameX(targets, x) { return d3.merge(targets.map(function (t) { return t.values; })).filter(function (v) { return v.x === x; }); } function getPathBox(path) { var box = path.getBoundingClientRect(), items = [path.pathSegList.getItem(0), path.pathSegList.getItem(1)], minX = items[0].x, minY = Math.min(items[0].y, items[1].y); return {x: minX, y: minY, width: box.width, height: box.height}; } function isOrderDesc() { return __data_order && __data_order.toLowerCase() === 'desc'; } function isOrderAsc() { return __data_order && __data_order.toLowerCase() === 'asc'; } function orderTargets(targets) { var orderAsc = isOrderAsc(), orderDesc = isOrderDesc(); if (orderAsc || orderDesc) { targets.sort(function (t1, t2) { var reducer = function (p, c) { return p + Math.abs(c.value); }; var t1Sum = t1.values.reduce(reducer, 0), t2Sum = t2.values.reduce(reducer, 0); return orderAsc ? t2Sum - t1Sum : t1Sum - t2Sum; }); } else if (typeof __data_order === 'function') { targets.sort(__data_order); } // TODO: accept name array for order return targets; } //-- Tooltip --// function showTooltip(selectedData, mouse) { var tWidth, tHeight; var svgLeft, tooltipLeft, tooltipRight, tooltipTop, chartRight; var forArc = hasArcType(c3.data.targets); var valueFormat = forArc ? defaultArcValueFormat : defaultValueFormat; var dataToShow = selectedData.filter(function (d) { return d && isValue(d.value); }); if (! __tooltip_show) { return; } // don't show tooltip when no data if (dataToShow.length === 0) { return; } // Construct tooltip tooltip.html(__tooltip_contents(selectedData, getXAxisTickFormat(), valueFormat, color)).style("display", "block"); // Get tooltip dimensions tWidth = tooltip.property('offsetWidth'); tHeight = tooltip.property('offsetHeight'); // Determin tooltip position if (forArc) { tooltipLeft = (width / 2) + mouse[0]; tooltipTop = (height / 2) + mouse[1] + 20; } else { if (__axis_rotated) { svgLeft = getSvgLeft(); tooltipLeft = svgLeft + mouse[0] + 100; tooltipRight = tooltipLeft + tWidth; chartRight = getCurrentWidth() - getCurrentPaddingRight(); tooltipTop = x(dataToShow[0].x) + 20; } else { svgLeft = getSvgLeft(); tooltipLeft = svgLeft + getCurrentPaddingLeft() + x(dataToShow[0].x) + 20; tooltipRight = tooltipLeft + tWidth; chartRight = svgLeft + getCurrentWidth() - getCurrentPaddingRight(); tooltipTop = mouse[1] + 15; } if (tooltipRight > chartRight) { tooltipLeft -= tWidth + 60; } if (tooltipTop + tHeight > getCurrentHeight()) { tooltipTop -= tHeight + 30; } } // Set tooltip tooltip .style("top", tooltipTop + "px") .style("left", tooltipLeft + 'px'); } function hideTooltip() { tooltip.style("display", "none"); } function showXGridFocus(selectedData) { var dataToShow = selectedData.filter(function (d) { return d && isValue(d.value); }); if (! __tooltip_show) { return; } // Hide when scatter plot exists if (hasScatterType(c3.data.targets) || hasArcType(c3.data.targets)) { return; } main.selectAll('line.' + CLASS.xgridFocus) .style("visibility", "visible") .data([dataToShow[0]]) .attr(__axis_rotated ? 'y1' : 'x1', xx) .attr(__axis_rotated ? 'y2' : 'x2', xx); } function hideXGridFocus() { main.select('line.' + CLASS.xgridFocus).style("visibility", "hidden"); } //-- Circle --// function circleX(d) { return d.x || d.x === 0 ? x(d.x) : null; } function circleY(d) { return getYScale(d.id)(d.value); } //-- Bar --// function getBarIndices() { var indices = {}, i = 0, j, k; filterTargetsToShow(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 (isUndefined(indices[d.id])) { 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 d.x || d.x === 0 ? scale(d.x) - barW * (barTargetsNum / 2 - barIndex) : 0; }; } function getBarY(isSub) { return function (d) { var scale = isSub ? getSubYScale(d.id) : getYScale(d.id); return scale(d.value); }; } function getBarOffset(barIndices, isSub) { var targets = orderTargets(filterTargetsToShow(getTargets(isBarType))), targetIds = targets.map(function (t) { return t.id; }); return function (d, i) { var scale = isSub ? getSubYScale(d.id) : getYScale(d.id), y0 = scale(0), offset = y0; targets.forEach(function (t) { if (t.id === d.id || barIndices[t.id] !== barIndices[d.id]) { return; } if (targetIds.indexOf(t.id) < targetIds.indexOf(d.id) && t.values[i].value * d.value > 0) { offset += scale(t.values[i].value) - y0; } }); return offset; }; } function getBarW(axis, barTargetsNum) { return __bar_width ? __bar_width : barTargetsNum ? (axis.tickOffset() * 2 * __bar_width_ratio) / barTargetsNum : 0; } //-- Type --// function setTargetType(targetIds, type) { mapToTargetIds(targetIds).forEach(function (id) { withoutFadeIn[id] = (type === __data_types[id]); __data_types[id] = 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; } /* not used function hasLineType(targets) { return hasType(targets, 'line'); } */ function hasBarType(targets) { return hasType(targets, 'bar'); } function hasScatterType(targets) { return hasType(targets, 'scatter'); } function hasPieType(targets) { return hasType(targets, 'pie'); } function hasDonutType(targets) { return hasType(targets, 'donut'); } function hasArcType(targets) { return hasPieType(targets) || hasDonutType(targets); } function isLineType(d) { var id = (typeof d === 'string') ? d : d.id; return !(id in __data_types) || __data_types[id] === 'line' || __data_types[id] === 'spline' || __data_types[id] === 'area' || __data_types[id] === 'area-spline'; } function isSplineType(d) { var id = (typeof d === 'string') ? d : d.id; return __data_types[id] === 'spline' || __data_types[id] === 'area-spline'; } function isBarType(d) { var id = (typeof d === 'string') ? d : d.id; return __data_types[id] === 'bar'; } function isScatterType(d) { var id = (typeof d === 'string') ? d : d.id; return __data_types[id] === 'scatter'; } function isPieType(d) { var id = (typeof d === 'string') ? d : d.id; return __data_types[id] === 'pie'; } function isDonutType(d) { var id = (typeof d === 'string') ? d : d.id; return __data_types[id] === 'donut'; } function isArcType(d) { return isPieType(d) || isDonutType(d); } /* not used function lineData(d) { return isLineType(d) ? d.values : []; } function scatterData(d) { return isScatterType(d) ? d.values : []; } */ function barData(d) { return isBarType(d) ? d.values : []; } function lineOrScatterData(d) { return isLineType(d) || isScatterType(d) ? d.values : []; } function barOrLineData(d) { return isBarType(d) || isLineType(d) ? d.values : []; } //-- Color --// function generateColor(colors, pattern, callback) { var ids = []; return function (d) { var id = d.id || d, color; // if callback function is provided if (colors[id] instanceof Function) { color = colors[id](d); } // if specified, choose that color else if (id in colors) { color = colors[id]; } // if not specified, choose from pattern else { if (ids.indexOf(id) < 0) { ids.push(id); } color = pattern[ids.indexOf(id) % pattern.length]; } return callback instanceof Function ? callback(color, d) : color; }; } //-- Date --// function parseDate(date) { var parsedDate; try { parsedDate = __data_x_format ? d3.time.format(__data_x_format).parse(date) : new Date(date); } catch (e) { window.console.error("Failed to parse x '" + date + "' to Date with format " + __data_x_format); } return parsedDate; } //-- 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), box = _this.getBoundingClientRect(), seg0 = _this.pathSegList.getItem(0), seg1 = _this.pathSegList.getItem(1); var x = seg0.x, y = Math.min(seg0.y, seg1.y), w = box.width, h = box.height, offset = 2; var sx = x - offset, ex = x + w + offset, sy = y + h + offset, ey = y - offset; return sx < mouse[0] && mouse[0] < ex && ey < mouse[1] && mouse[1] < sy; } 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; } function isEmpty(o) { return !o || (typeof o === 'string' && o.length === 0) || (typeof o === 'object' && Object.keys(o).length === 0); } function notEmpty(o) { return Object.keys(o).length > 0; } function hasValue(dict, value) { var found = false; Object.keys(dict).forEach(function (key) { if (dict[key] === value) { found = true; } }); return found; } function dist(data, pos) { var yScale = getAxisId(data.id) === 'y' ? y : y2, xIndex = __axis_rotated ? 1 : 0, yIndex = __axis_rotated ? 0 : 1; return Math.pow(x(data.x) - pos[xIndex], 2) + Math.pow(yScale(data.value) - pos[yIndex], 2); } function endall(transition, callback) { var n = 0; transition .each(function () { ++n; }) .each("end", function () { if (!--n) { callback.apply(this, arguments); } }); } //-- Selection --// function selectPoint(target, d, i) { __data_onselected(d, target.node()); // add selected-circle on low layer g main.select('.' + CLASS.selectedCircles + getTargetSelectorSuffix(d.id)).selectAll('.' + CLASS.selectedCircle + '-' + i) .data([d]) .enter().append('circle') .attr("class", function () { return generateClass(CLASS.selectedCircle, i); }) .attr("cx", __axis_rotated ? circleY : circleX) .attr("cy", __axis_rotated ? circleX : circleY) .attr("stroke", function () { return color(d); }) .attr("r", __point_select_r * 1.4) .transition().duration(100) .attr("r", __point_select_r); } function unselectPoint(target, d, i) { __data_onunselected(d, target.node()); // remove selected-circle from low layer g main.select('.' + CLASS.selectedCircles + getTargetSelectorSuffix(d.id)).selectAll('.' + CLASS.selectedCircle + '-' + 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) { __data_onselected(d, target.node()); target.transition().duration(100).style("fill", function () { return d3.rgb(color(d)).darker(1); }); } function unselectBar(target, d) { __data_onunselected(d, target.node()); target.transition().duration(100).style("fill", function () { return color(d); }); } function toggleBar(selected, target, d, i) { selected ? selectBar(target, d, i) : unselectBar(target, d, i); } function filterRemoveNull(data) { return data.filter(function (d) { return isValue(d.value); }); } //-- Shape --// function getCircles(i, id) { return (id ? main.selectAll('.' + CLASS.circles + getTargetSelectorSuffix(id)) : main).selectAll('.' + CLASS.circle + (isValue(i) ? '-' + i : '')); } function expandCircles(i, id) { getCircles(i, id) .classed(CLASS.EXPANDED, true) .attr('r', __point_focus_expand_r); } function unexpandCircles(i) { getCircles(i) .filter(function () { return d3.select(this).classed(CLASS.EXPANDED); }) .classed(CLASS.EXPANDED, false) .attr('r', __point_r); } function getBars(i) { return main.selectAll('.' + CLASS.bar + (isValue(i) ? '-' + i : '')); } function expandBars(i) { getBars(i).classed(CLASS.EXPANDED, true); } function unexpandBars(i) { getBars(i).classed(CLASS.EXPANDED, false); } // 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); }); if (!__line_connect_null) { line = line.defined(function (d) { return d.value != null; }); } return function (d) { var data = __line_connect_null ? filterRemoveNull(d.values) : d.values, x0, y0; if (isLineType(d)) { isSplineType(d) ? line.interpolate("cardinal") : line.interpolate("linear"); return __data_regions[d.id] ? lineWithRegions(data, x, getYScale(d.id), __data_regions[d.id]) : line(data); } else { x0 = data[0] ? x(data[0].x) : 0; y0 = data[0] ? getYScale(d.id)(data[0].value) : 0; return __axis_rotated ? "M " + y0 + " " + x0 : "M " + x0 + " " + y0; } }; })(); var areaOnMain = (function () { var area; if (__axis_rotated) { area = d3.svg.area() .x0(function (d) { return getYScale(d.id)(0); }) .x1(function (d) { return getYScale(d.id)(d.value); }) .y(xx); } else { area = d3.svg.area() .x(xx) .y0(function (d) { return getYScale(d.id)(0); }) .y1(function (d) { return getYScale(d.id)(d.value); }); } return function (d) { var data = filterRemoveNull(d.values), x0, y0; if (hasType([d], 'area') || hasType([d], 'area-spline')) { isSplineType(d) ? area.interpolate("cardinal") : area.interpolate("linear"); return area(data); } else { x0 = data[0] ? x(data[0].x) : 0; y0 = data[0] ? getYScale(d.id)(data[0].value) : 0; return __axis_rotated ? "M " + y0 + " " + x0 : "M " + x0 + " " + y0; } }; })(); function generateDrawBar(barIndices, isSub) { var getPoints = generateGetBarPoints(barIndices, isSub); return function (d, i) { // 4 points that make a bar var points = getPoints(d, i); // switch points if axis is rotated, not applicable for sub chart var indexX = __axis_rotated ? 1 : 0; var indexY = __axis_rotated ? 0 : 1; var path = 'M ' + points[0][indexX] + ',' + points[0][indexY] + ' ' + 'L' + points[1][indexX] + ',' + points[1][indexY] + ' ' + 'L' + points[2][indexX] + ',' + points[2][indexY] + ' ' + 'L' + points[3][indexX] + ',' + points[3][indexY] + ' ' + 'z'; return path; }; } function generateXYForText(barIndices, forX) { var getPoints = generateGetBarPoints(barIndices, false), getter = forX ? getXForText : getYForText; return function (d, i) { return getter(getPoints(d, i), d, this); }; } function getXForText(points, d) { var padding; if (__axis_rotated) { padding = isBarType(d) ? 4 : 6; return points[2][1] + padding * (d.value < 0 ? -1 : 1); } else { return points[0][0] + (points[2][0] - points[0][0]) / 2; } } function getYForText(points, d, textElement) { var box = textElement.getBoundingClientRect(); if (__axis_rotated) { return (points[0][0] + points[2][0] + box.height * 0.6) / 2; } else { return points[2][1] + (d.value < 0 ? box.height : isBarType(d) ? -3 : -6); } } function generateGetBarPoints(barIndices, isSub) { var barTargetsNum = barIndices.__max__ + 1, barW = getBarW(xAxis, barTargetsNum), x = getBarX(barW, barTargetsNum, barIndices, !!isSub), y = getBarY(!!isSub), barOffset = getBarOffset(barIndices, !!isSub), yScale = isSub ? getSubYScale : getYScale; return function (d, i) { var y0 = yScale(d.id)(0), offset = barOffset(d, i) || y0, // offset is for stacked bar chart posX = x(d), posY = y(d); // fix posY not to overflow opposite quadrant if (__axis_rotated) { if ((d.value > 0 && posY < offset) || (d.value < 0 && posY > offset)) { posY = offset; } } // 4 points that make a bar return [ [posX, offset], [posX, posY - (y0 - offset)], [posX + barW, posY - (y0 - offset)], [posX + barW, offset] ]; }; } // For brush region var lineOnSub = (function () { var line = d3.svg.line() .x(__axis_rotated ? function (d) { return getSubYScale(d.id)(d.value); } : subxx) .y(__axis_rotated ? subxx : function (d) { return getSubYScale(d.id)(d.value); }); return function (d) { var data = filterRemoveNull(d.values); return isLineType(d) ? line(data) : "M " + subX(data[0].x) + " " + getSubYScale(d.id)(data[0].value); }; })(); function lineWithRegions(d, x, y, _regions) { var prev = -1, i, j; var s = "M", sWithRegion; var xp, yp, dx, dy, dd, diff; var xValue, yValue; var regions = []; // Check start/end of regions if (isDefined(_regions)) { for (i = 0; i < _regions.length; i++) { regions[i] = {}; if (isUndefined(_regions[i].start)) { regions[i].start = d[0].x; } else { regions[i].start = isTimeSeries ? parseDate(_regions[i].start) : _regions[i].start; } if (isUndefined(_regions[i].end)) { regions[i].end = d[d.length - 1].x; } else { regions[i].end = isTimeSeries ? parseDate(_regions[i].end) : _regions[i].end; } } } // 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); }; // Define svg generator function for region if (isTimeSeries) { sWithRegion = function (d0, d1, j, diff) { var x0 = d0.x.getTime(), x_diff = d1.x - d0.x, xv0 = new Date(x0 + x_diff * j), xv1 = new Date(x0 + x_diff * (j + diff)); return "M" + x(xv0) + " " + y(yp(j)) + " " + x(xv1) + " " + y(yp(j + diff)); }; } else { sWithRegion = function (d0, d1, j, diff) { return "M" + x(xp(j)) + " " + y(yp(j)) + " " + x(xp(j + diff)) + " " + y(yp(j + diff)); }; } // Generate for (i = 0; i < d.length; i++) { // Draw as normal if (isUndefined(regions) || ! isWithinRegions(d[i].x, regions)) { s += " " + xValue(d[i]) + " " + yValue(d[i]); } // Draw with region // TODO: Fix for horizotal charts else { xp = getX(d[i - 1].x, d[i].x); yp = getY(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; var diffx2 = diff * 2; for (j = diff; j <= 1; j += diffx2) { s += sWithRegion(d[i - 1], d[i], j, diff); } } prev = d[i].x; } return s; } //-- Define brush/zoom -// var brush, zoom = function () {}; brush = d3.svg.brush().on("brush", redrawForBrush); brush.update = function () { if (context) { context.select('.' + CLASS.brush).call(this); } return this; }; brush.scale = function (scale) { return __axis_rotated ? this.y(scale) : this.x(scale); }; if (__zoom_enabled) { zoom = d3.behavior.zoom() .on("zoomstart", function () { zoom.altDomain = d3.event.sourceEvent.altKey ? x.orgDomain() : null; }) .on("zoom", __zoom_enabled ? redrawForZoom : null); zoom.scale = function (scale) { return __axis_rotated ? this.y(scale) : this.x(scale); }; zoom.orgScaleExtent = function () { var extent = __zoom_extent ? __zoom_extent : [1, 10]; return [extent[0], Math.max(getMaxDataCount() / extent[1], extent[1])]; }; zoom.updateScaleExtent = function () { var ratio = diffDomain(x.orgDomain()) / diffDomain(orgXDomain), extent = this.orgScaleExtent(); this.scaleExtent([extent[0] * ratio, extent[1] * ratio]); return this; }; } /*-- Draw Chart --*/ // for svg elements var svg, defs, main, context, legend, tooltip, selectChart; // for brush area culculation var orgXDomain; // for save value var orgAreaOpacity, withoutFadeIn = {}; function init(data) { var eventRect, grid; var i; selectChart = d3.select(__bindto); if (selectChart.empty()) { throw new Error('No bind element found. Check the selector specified by "bindto" and existance of that element. Default "bindto" is "#chart".'); } else { selectChart.html(""); } // Set class selectChart.classed("c3", true); // Init data as targets c3.data.xs = {}; c3.data.targets = convertDataToTargets(data); // TODO: set names if names not specified // Init sizes and scales updateSizes(); updateScales(); // Set domains for each scale x.domain(d3.extent(getXDomain(c3.data.targets))); y.domain(getYDomain(c3.data.targets, 'y')); y2.domain(getYDomain(c3.data.targets, 'y2')); subX.domain(x.domain()); subY.domain(y.domain()); subY2.domain(y2.domain()); // Save original x domain for zoom update orgXDomain = x.domain(); // Set initialized scales to brush and zoom brush.scale(subX); if (__zoom_enabled) { zoom.scale(x); } /*-- Basic Elements --*/ // Define svgs svg = selectChart.append("svg") .attr("width", width + margin.left + margin.right) .attr("height", height + margin.top + margin.bottom) .on('mouseenter', __onenter) .on('mouseleave', __onleave); // Define defs defs = svg.append("defs"); defs.append("clipPath") .attr("id", clipId) .append("rect") .attr("width", width) .attr("height", height); defs.append("clipPath") .attr("id", clipIdForXAxis) .append("rect") .attr("x", getXAxisClipX) .attr("y", getXAxisClipY) .attr("width", getXAxisClipWidth) .attr("height", getXAxisClipHeight); defs.append("clipPath") .attr("id", clipIdForYAxis) .append("rect") .attr("x", getYAxisClipX) .attr("y", getYAxisClipY) .attr("width", getYAxisClipWidth) .attr("height", getYAxisClipHeight); // Define regions main = svg.append("g").attr("transform", translate.main); context = __subchart_show ? svg.append("g").attr("transform", translate.context) : null; legend = svg.append("g").attr("transform", translate.legend); if (!__legend_show) { legend.style('visibility', 'hidden'); hiddenLegendIds = mapToIds(c3.data.targets); } // Define tooltip tooltip = d3.select(__bindto) .style("position", "relative") .append("div") .style("position", "absolute") .style("pointer-events", "none") .style("z-index", "10") .style("display", "none"); // MEMO: call here to update legend box and tranlate for all // MEMO: translate will be upated by this, so transform not needed in updateLegend() updateLegend(mapToIds(c3.data.targets), {withTransform: false, withTransitionForTransform: false}); /*-- Main Region --*/ // Add Axis main.append("g") .attr("class", CLASS.axisX) .attr("clip-path", __axis_rotated ? "" : clipPathForXAxis) .attr("transform", translate.x) .append("text") .attr("class", CLASS.axisXLabel) .attr("transform", __axis_rotated ? "rotate(-90)" : "") .attr("dx", dxForXAxisLabel) .attr("dy", dyForXAxisLabel) .style("text-anchor", textAnchorForXAxisLabel); if (__axis_y_show) { main.append("g") .attr("class", CLASS.axisY) .attr("clip-path", __axis_rotated ? clipPathForYAxis : "") .attr("transform", translate.y) .append("text") .attr("class", CLASS.axisYLabel) .attr("transform", __axis_rotated ? "" : "rotate(-90)") .attr("dx", dxForYAxisLabel) .attr("dy", dyForYAxisLabel) .style("text-anchor", textAnchorForYAxisLabel); } if (__axis_y2_show) { main.append("g") .attr("class", CLASS.axisY2) // clip-path? .attr("transform", translate.y2) .append("text") .attr("class", CLASS.axisY2Label) .attr("transform", __axis_rotated ? "" : "rotate(-90)") .attr("dx", dxForY2AxisLabel) .style("text-anchor", textAnchorForY2AxisLabel); } // Grids grid = main.append('g') .attr("clip-path", clipPath) .attr('class', CLASS.grid); // X-Grid if (__grid_x_show) { grid.append("g").attr("class", CLASS.xgrids); } if (notEmpty(__grid_x_lines)) { grid.append('g').attr("class", CLASS.xgridLines); } if (__point_focus_line_enabled) { grid.append('g') .attr("class", CLASS.xgridFocus) .append('line') .attr('class', CLASS.xgridFocus); } // Y-Grid if (__grid_y_show) { grid.append('g').attr('class', CLASS.ygrids); } if (notEmpty(__grid_y_lines)) { grid.append('g').attr('class', CLASS.ygridLines); } // Regions main.append('g') .attr("clip-path", clipPath) .attr("class", CLASS.regions); // Define g for chart area main.append('g') .attr("clip-path", clipPath) .attr('class', CLASS.chart); // Cover whole with rects for events eventRect = main.select('.' + CLASS.chart).append("g") .attr("class", CLASS.eventRects) .style('fill-opacity', 0) .style('cursor', __zoom_enabled ? __axis_rotated ? 'ns-resize' : 'ew-resize' : null); // Define g for bar chart area main.select('.' + CLASS.chart).append("g") .attr("class", CLASS.chartBars); // Define g for line chart area main.select('.' + CLASS.chart).append("g") .attr("class", CLASS.chartLines); // Define g for arc chart area main.select('.' + CLASS.chart).append("g") .attr("class", CLASS.chartArcs) .attr("transform", translate.arc) .append('text') .attr('class', CLASS.chartArcsTitle) .style("text-anchor", "middle") .text(getArcTitle()); main.select('.' + CLASS.chart).append("g") .attr("class", CLASS.chartTexts); if (__zoom_enabled) { // TODO: __zoom_privileged here? // if zoom privileged, insert rect to forefront main.insert('rect', __zoom_privileged ? null : 'g.' + CLASS.grid) .attr('class', CLASS.zoomRect) .attr('width', width) .attr('height', height) .style('opacity', 0) .style('cursor', __axis_rotated ? 'ns-resize' : 'ew-resize') .call(zoom).on("dblclick.zoom", null); } // Set default extent if defined if (__axis_x_default) { brush.extent(typeof __axis_x_default !== 'function' ? __axis_x_default : __axis_x_default(getXDomain())); } /*-- Context Region --*/ if (__subchart_show) { // Define g for chart area context.append('g') .attr("clip-path", clipPath) .attr('class', CLASS.chart); // Define g for bar chart area context.select('.' + CLASS.chart).append("g") .attr("class", CLASS.chartBars); // Define g for line chart area context.select('.' + CLASS.chart).append("g") .attr("class", CLASS.chartLines); // Add extent rect for Brush context.append("g") .attr("clip-path", clipPath) .attr("class", CLASS.brush) .call(brush) .selectAll("rect") .attr(__axis_rotated ? "width" : "height", __axis_rotated ? width2 : height2); // ATTENTION: This must be called AFTER chart added // Add Axis context.append("g") .attr("class", CLASS.axisX) .attr("transform", translate.subx) .attr("clip-path", __axis_rotated ? "" : clipPathForXAxis); } // Set targets updateTargets(c3.data.targets); // Update ticks for width calculation if (__axis_rotated) { main.select('.' + CLASS.axisX).style("opacity", 0).call(xAxis); } else { main.select('.' + CLASS.axisY).style("opacity", 0).call(yAxis); main.select('.' + CLASS.axisY2).style("opacity", 0).call(yAxis2); } // Draw with targets redraw({withTransform: true, withUpdateXDomain: true, withUpdateOrgXDomain: true, withTransitionForAxis: false}); // Show tooltip if needed if (__tooltip_init_show) { if (isTimeSeries && typeof __tooltip_init_x === 'string') { __tooltip_init_x = parseDate(__tooltip_init_x); for (i = 0; i < c3.data.targets[0].values.length; i++) { if ((c3.data.targets[0].values[i].x - __tooltip_init_x) === 0) { break; } } __tooltip_init_x = i; } tooltip.html(__tooltip_contents(c3.data.targets.map(function (d) { return addName(d.values[__tooltip_init_x]); }), getXAxisTickFormat(), defaultValueFormat, color)); tooltip.style("top", __tooltip_init_position.top) .style("left", __tooltip_init_position.left) .style("display", "block"); } // Bind resize event if (window.onresize == null) { window.onresize = generateResize(); } if (window.onresize.add) { window.onresize.add(__onresize); window.onresize.add(function () { updateAndRedraw({withLegend: true, withTransition: false, withTransitionForTransform: false}); }); window.onresize.add(__onresized); } } function generateEventRectsForSingleX(eventRectEnter) { eventRectEnter.append("rect") .attr("class", classEvent) .style("cursor", __data_selection_enabled && __data_selection_grouped ? "pointer" : null) .on('mouseover', function (_, i) { if (dragging) { return; } // do nothing if dragging if (hasArcType(c3.data.targets)) { return; } var selectedData = c3.data.targets.map(function (d) { return addName(d.values[i]); }); var j, newData; // 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 shapes if needed if (__point_focus_expand_enabled) { expandCircles(i); } expandBars(i); // Call event handler main.selectAll('.' + CLASS.shape + '-' + i).each(function (d) { __data_onenter(d); }); }) .on('mouseout', function (_, i) { if (hasArcType(c3.data.targets)) { return; } hideXGridFocus(); hideTooltip(); // Undo expanded shapes unexpandCircles(i); unexpandBars(); // Call event handler main.selectAll('.' + CLASS.shape + '-' + i).each(function (d) { __data_onleave(d); }); }) .on('mousemove', function (_, i) { var selectedData; if (dragging) { return; } // do nothing when dragging if (hasArcType(c3.data.targets)) { return; } // Show tooltip selectedData = filterTargetsToShow(c3.data.targets).map(function (d) { return addName(d.values[i]); }); showTooltip(selectedData, d3.mouse(this)); // Show xgrid focus line showXGridFocus(selectedData); if (! __data_selection_enabled) { return; } if (__data_selection_grouped) { return; } // nothing to do when grouped main.selectAll('.' + CLASS.shape + '-' + i) .filter(function (d) { return __data_selection_isselectable(d); }) .each(function () { var _this = d3.select(this).classed(CLASS.EXPANDED, true); if (this.nodeName === 'circle') { _this.attr('r', __point_focus_expand_r); } svg.select('.' + CLASS.eventRect + '-' + i).style('cursor', null); }) .filter(function () { if (this.nodeName === 'circle') { return isWithinCircle(this, __point_select_r); } else if (this.nodeName === 'path') { return isWithinBar(this); } }) .each(function () { var _this = d3.select(this); if (! _this.classed(CLASS.EXPANDED)) { _this.classed(CLASS.EXPANDED, true); if (this.nodeName === 'circle') { _this.attr('r', __point_select_r); } } svg.select('.' + CLASS.eventRect + '-' + i).style('cursor', 'pointer'); }); }) .on('click', function (_, i) { if (hasArcType(c3.data.targets)) { return; } if (cancelClick) { cancelClick = false; return; } main.selectAll('.' + CLASS.shape + '-' + i).each(function (d) { toggleShape(this, d, i); }); }) .call( d3.behavior.drag().origin(Object) .on('drag', function () { drag(d3.mouse(this)); }) .on('dragstart', function () { dragstart(d3.mouse(this)); }) .on('dragend', function () { dragend(); }) ) .call(zoom).on("dblclick.zoom", null); } function generateEventRectsForMultipleXs(eventRectEnter) { eventRectEnter.append('rect') .attr('x', 0) .attr('y', 0) .attr('width', width) .attr('height', height) .attr('class', CLASS.eventRect) .on('mouseout', function () { if (hasArcType(c3.data.targets)) { return; } hideXGridFocus(); hideTooltip(); unexpandCircles(); }) .on('mousemove', function () { var mouse, closest, sameXData, selectedData; if (dragging) { return; } // do nothing when dragging if (hasArcType(c3.data.targets)) { return; } mouse = d3.mouse(this); closest = findClosestFromTargets(c3.data.targets, mouse); sameXData = filterSameX(c3.data.targets, closest.x); // show tooltip when cursor is close to some point selectedData = sameXData.map(function (d) { return addName(d); }); showTooltip(selectedData, mouse); // expand points if (__point_focus_expand_enabled) { unexpandCircles(); expandCircles(closest.index, closest.id); } // Show xgrid focus line showXGridFocus(selectedData); // Show cursor as pointer if point is close to mouse position if (dist(closest, mouse) < 100) { svg.select('.' + CLASS.eventRect).style('cursor', 'pointer'); if (!mouseover) { __data_onenter(closest); mouseover = true; } } else { svg.select('.' + CLASS.eventRect).style('cursor', null); __data_onleave(closest); mouseover = false; } }) .on('click', function () { var mouse, closest; if (hasArcType(c3.data.targets)) { return; } mouse = d3.mouse(this); closest = findClosestFromTargets(c3.data.targets, mouse); // select if selection enabled if (dist(closest, mouse) < 100) { main.select('.' + CLASS.circles + '-' + getTargetSelectorSuffix(closest.id)).select('.' + CLASS.circle + '-' + closest.index).each(function () { toggleShape(this, closest, closest.index); }); } }) .call( d3.behavior.drag().origin(Object) .on('drag', function () { drag(d3.mouse(this)); }) .on('dragstart', function () { dragstart(d3.mouse(this)); }) .on('dragend', function () { dragend(); }) ) .call(zoom).on("dblclick.zoom", null); } function toggleShape(target, d, i) { var shape = d3.select(target), isSelected = shape.classed(CLASS.SELECTED); var isWithin = false, toggle; if (target.nodeName === 'circle') { isWithin = isWithinCircle(target, __point_select_r * 1.5); toggle = togglePoint; } else if (target.nodeName === 'path') { isWithin = isWithinBar(target); toggle = toggleBar; } if (__data_selection_grouped || isWithin) { if (__data_selection_enabled && __data_selection_isselectable(d)) { if (!__data_selection_multiple) { main.selectAll('.' + CLASS.shapes + (__data_selection_grouped ? getTargetSelectorSuffix(d.id) : "")).selectAll('.' + CLASS.shape).each(function (d, i) { var shape = d3.select(this); if (shape.classed(CLASS.SELECTED)) { toggle(false, shape.classed(CLASS.SELECTED, false), d, i); } }); } shape.classed(CLASS.SELECTED, !isSelected); toggle(!isSelected, shape, d, i); } __data_onclick(d, target); } } function drag(mouse) { var sx, sy, mx, my, minX, maxX, minY, maxY; if (hasArcType(c3.data.targets)) { return; } if (! __data_selection_enabled) { return; } // do nothing if not selectable if (__zoom_enabled && ! zoom.altDomain) { return; } // skip if zoomable because of conflict drag dehavior if (!__data_selection_multiple) { return; } // skip when single selection becuase drag is used for multiple selection sx = dragStart[0]; sy = dragStart[1]; 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('.' + CLASS.dragarea) .attr('x', minX) .attr('y', minY) .attr('width', maxX - minX) .attr('height', maxY - minY); // TODO: binary search when multiple xs main.selectAll('.' + CLASS.shapes).selectAll('.' + CLASS.shape) .filter(function (d) { return __data_selection_isselectable(d); }) .each(function (d, i) { var _this = d3.select(this), isSelected = _this.classed(CLASS.SELECTED), isIncluded = _this.classed(CLASS.INCLUDED), _x, _y, _w, _h, toggle, isWithin = false, box; 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 === 'path') { box = getPathBox(this); _x = box.x; _y = box.y; _w = box.width; _h = box.height; toggle = toggleBar; isWithin = !(maxX < _x || _x + _w < minX) && !(maxY < _y || _y + _h < minY); } if (isWithin ^ isIncluded) { _this.classed(CLASS.INCLUDED, !isIncluded); // TODO: included/unincluded callback here _this.classed(CLASS.SELECTED, !isSelected); toggle(!isSelected, _this, d, i); } }); } function dragstart(mouse) { if (hasArcType(c3.data.targets)) { return; } if (! __data_selection_enabled) { return; } // do nothing if not selectable dragStart = mouse; main.select('.' + CLASS.chart).append('rect') .attr('class', CLASS.dragarea) .style('opacity', 0.1); dragging = true; __data_ondragstart(); } function dragend() { if (hasArcType(c3.data.targets)) { return; } if (! __data_selection_enabled) { return; } // do nothing if not selectable main.select('.' + CLASS.dragarea) .transition().duration(100) .style('opacity', 0) .remove(); main.selectAll('.' + CLASS.shape) .classed(CLASS.INCLUDED, false); dragging = false; __data_ondragend(); } function redraw(options) { var xaxis, yaxis, xgrid, xgridData, xgridLines, xgridLine, ygrid, ygridLines, ygridLine; var mainCircle, mainBar, mainRegion, mainText, contextBar, eventRect, eventRectUpdate; var barIndices = getBarIndices(), maxDataCountTarget; var rectX, rectW; var withY, withSubchart, withTransition, withTransitionForExit, withTransitionForAxis, withTransitionForHorizontalAxis, withTransform, withUpdateXDomain, withUpdateOrgXDomain, withLegend; var hideAxis = hasArcType(c3.data.targets); var drawBar, drawBarOnSub, xForText, yForText; var duration, durationForExit, durationForAxis; var targetsToShow = filterTargetsToShow(c3.data.targets), tickValues, i, intervalForCulling; // abort if no targets to show if (targetsToShow.length === 0) { return; } options = isDefined(options) ? options : {}; withY = isDefined(options.withY) ? options.withY : true; withSubchart = isDefined(options.withSubchart) ? options.withSubchart : true; withTransition = isDefined(options.withTransition) ? options.withTransition : true; withTransform = isDefined(options.withTransform) ? options.withTransform : false; withUpdateXDomain = isDefined(options.withUpdateXDomain) ? options.withUpdateXDomain : false; withUpdateOrgXDomain = isDefined(options.withUpdateOrgXDomain) ? options.withUpdateOrgXDomain : false; withLegend = isDefined(options.withLegend) ? options.withLegend : false; withTransitionForExit = isDefined(options.withTransitionForExit) ? options.withTransitionForExit : withTransition; withTransitionForAxis = isDefined(options.withTransitionForAxis) ? options.withTransitionForAxis : withTransition; withTransitionForHorizontalAxis = isDefined(options.withTransitionForHorizontalAxis) ? options.withTransitionForHorizontalAxis : withTransition; duration = withTransition ? __transition_duration : 0; durationForExit = withTransitionForExit ? duration : 0; durationForAxis = withTransitionForAxis ? duration : 0; // update legend and transform each g if (withLegend && __legend_show) { updateLegend(mapToIds(c3.data.targets), options); } if (withUpdateOrgXDomain) { x.domain(d3.extent(getXDomain(targetsToShow))); orgXDomain = x.domain(); if (__zoom_enabled) { zoom.scale(x).updateScaleExtent(); } subX.domain(x.domain()); brush.scale(subX); } // ATTENTION: call here to update tickOffset if (withUpdateXDomain) { x.domain(brush.empty() ? orgXDomain : brush.extent()); if (__zoom_enabled) { zoom.scale(x).updateScaleExtent(); } } y.domain(getYDomain(targetsToShow, 'y')); y2.domain(getYDomain(targetsToShow, 'y2')); // update axis tick values according to options, except for scatter plot if (! hasScatterType(targetsToShow)) { // TODO: fix this tickValues = __axis_x_tick_values ? __axis_x_tick_values : generateTickValues(mapTargetsToUniqueXs(targetsToShow)); xAxis.tickValues(tickValues); subXAxis.tickValues(tickValues); } // x axis xaxis = main.select('.' + CLASS.axisX).style("opacity", hideAxis ? 0 : 1); if (__axis_rotated || withTransitionForHorizontalAxis) { xaxis = xaxis.transition().duration(durationForAxis); } xaxis.call(xAxis); // y axis yaxis = main.select('.' + CLASS.axisY).style("opacity", hideAxis ? 0 : 1); if (!__axis_rotated || withTransitionForHorizontalAxis) { yaxis = yaxis.transition().duration(durationForAxis); } yaxis.call(yAxis); // y2 axis main.select('.' + CLASS.axisY2).style("opacity", hideAxis ? 0 : 1).transition().duration(durationForAxis).call(yAxis2); // show/hide if manual culling needed if (withUpdateXDomain) { if (__axis_x_tick_culling && tickValues) { for (i = 1; i < tickValues.length; i++) { if (tickValues.length / i < __axis_x_tick_culling_max) { intervalForCulling = i; break; } } d3.selectAll('.' + CLASS.axisX + ' .tick text').each(function (e) { var index = tickValues.indexOf(e); if (index >= 0) { d3.select(this).style('display', index % intervalForCulling ? 'none' : 'block'); } }); } else { d3.selectAll('.' + CLASS.axisX + ' .tick text').style('display', 'block'); } } // setup drawer - MEMO: these must be called after axis updated drawBar = generateDrawBar(barIndices); xForText = generateXYForText(barIndices, true); yForText = generateXYForText(barIndices, false); // Update axis label updateAxisLabels(); // Update sub domain subY.domain(y.domain()); subY2.domain(y2.domain()); // tooltip tooltip.style("display", "none"); // xgrid focus updateXgridFocus(); // grid main.select('line.' + CLASS.xgridFocus).style("visibility", "hidden"); if (__grid_x_show) { if (__grid_x_type === 'year') { xgridData = []; var xDomain = getXDomain(); var firstYear = xDomain[0].getFullYear(); var lastYear = xDomain[1].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('.' + CLASS.xgrids).selectAll('.' + CLASS.xgrid) .data(xgridData); xgrid.enter().append('line').attr("class", CLASS.xgrid); xgrid.attr("x1", __axis_rotated ? 0 : function (d) { return x(d) - xAxis.tickOffset(); }) .attr("x2", __axis_rotated ? width : function (d) { return x(d) - xAxis.tickOffset(); }) .attr("y1", __axis_rotated ? function (d) { return x(d) - xAxis.tickOffset(); } : margin.top) .attr("y2", __axis_rotated ? function (d) { return x(d) - xAxis.tickOffset(); } : height) .style("opacity", function () { return +d3.select(this).attr(__axis_rotated ? 'y1' : 'x1') === (__axis_rotated ? height : 0) ? 0 : 1; }); xgrid.exit().remove(); } if (notEmpty(__grid_x_lines)) { xgridLines = main.select('.' + CLASS.xgridLines).selectAll('.' + CLASS.xgridLine) .data(__grid_x_lines); // enter xgridLine = xgridLines.enter().append('g') .attr("class", function (d) { return CLASS.xgridLine + (d.class ? d.class : ''); }); xgridLine.append('line') .style("opacity", 0); xgridLine.append('text') .attr("text-anchor", "end") .attr("transform", __axis_rotated ? "" : "rotate(-90)") .attr('dx', __axis_rotated ? 0 : -margin.top) .attr('dy', -5) .style("opacity", 0); // udpate xgridLines.select('line') .transition().duration(duration) .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) .style("opacity", 1); xgridLines.select('text') .transition().duration(duration) .attr("x", __axis_rotated ? width : 0) .attr("y", xv) .text(function (d) { return d.text; }) .style("opacity", 1); // exit xgridLines.exit().transition().duration(duration) .style("opacity", 0) .remove(); } // Y-Grid if (withY && __grid_y_show) { ygrid = main.select('.' + CLASS.ygrids).selectAll('.' + CLASS.ygrid) .data(y.ticks(__grid_y_ticks)); ygrid.enter().append('line') .attr('class', 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); ygrid.exit().remove(); } if (withY && notEmpty(__grid_y_lines)) { ygridLines = main.select('.' + CLASS.ygridLines).selectAll('.' + CLASS.ygridLine) .data(__grid_y_lines); // enter ygridLine = ygridLines.enter().append('g') .attr("class", function (d) { return CLASS.ygridLine + (d.class ? d.class : ''); }); ygridLine.append('line') .style("opacity", 0); ygridLine.append('text') .attr("text-anchor", "end") .attr("transform", __axis_rotated ? "rotate(-90)" : "") .attr('dx', __axis_rotated ? 0 : -margin.top) .attr('dy', -5) .style("opacity", 0); // update ygridLines.select('line') .transition().duration(duration) .attr("x1", __axis_rotated ? yv : 0) .attr("x2", __axis_rotated ? yv : width) .attr("y1", __axis_rotated ? 0 : yv) .attr("y2", __axis_rotated ? height : yv) .style("opacity", 1); ygridLines.select('text') .transition().duration(duration) .attr("x", __axis_rotated ? 0 : width) .attr("y", yv) .text(function (d) { return d.text; }) .style("opacity", 1); // exit ygridLines.exit().transition().duration(duration) .style("opacity", 0) .remove(); } // bars mainBar = main.selectAll('.' + CLASS.bars).selectAll('.' + CLASS.bar) .data(barData); mainBar.enter().append('path') .attr('d', drawBar) .style("stroke", 'none') .style("opacity", 0) .style("fill", function (d) { return color(d); }) .attr("class", classBar); mainBar .style("opacity", initialOpacity) .transition().duration(duration) .attr('d', drawBar) .style("opacity", 1); mainBar.exit().transition().duration(durationForExit) .style('opacity', 0) .remove(); mainText = main.selectAll('.' + CLASS.texts).selectAll('.' + CLASS.text) .data(barOrLineData); mainText.enter().append('text') .attr("class", classText) .attr('text-anchor', function (d) { return __axis_rotated ? (d.value < 0 ? 'end' : 'start') : 'middle'; }) .style("stroke", 'none') .style("fill-opacity", 0); mainText .text(function (d) { return formatByAxisId(d.id)(d.value); }) .style("fill-opacity", initialOpacityForText) .transition().duration(duration) .attr('x', xForText) .attr('y', yForText) .style("fill-opacity", opacityForText); mainText.exit() .transition().duration(durationForExit) .style('fill-opacity', 0) .remove(); // lines and cricles main.selectAll('.' + CLASS.line) .style("opacity", initialOpacity) .transition().duration(duration) .attr("d", lineOnMain) .style("opacity", 1); main.selectAll('.' + CLASS.area) .style("opacity", 0) .transition().duration(duration) .attr("d", areaOnMain) .style("opacity", orgAreaOpacity); mainCircle = main.selectAll('.' + CLASS.circles).selectAll('.' + CLASS.circle) .data(lineOrScatterData); mainCircle.enter().append("circle") .attr("class", classCircle) .style('opacity', 0) .attr("r", __point_r); mainCircle .style("opacity", initialOpacity) .transition().duration(duration) .style('opacity', opacityForCircle) .attr("cx", __axis_rotated ? circleY : circleX) .attr("cy", __axis_rotated ? circleX : circleY); mainCircle.exit().remove(); // arc main.selectAll('.' + CLASS.chartArc).select('.' + CLASS.arc) .attr("transform", withTransform ? "scale(0)" : "") .style("opacity", function (d) { return d === this._current ? 0 : 1; }) .transition().duration(duration) .attrTween("d", function (d) { var updated = updateAngle(d), interpolate; if (! updated) { return function () { return "M 0 0"; }; } /* if (this._current === d) { this._current = { startAngle: Math.PI*2, endAngle: Math.PI*2, }; } */ interpolate = d3.interpolate(this._current, updated); this._current = interpolate(0); return function (t) { return getArc(interpolate(t), true); }; }) .attr("transform", withTransform ? "scale(1)" : "") .style("opacity", 1); main.selectAll('.' + CLASS.chartArc).select('text') .attr("transform", transformForArcLabel) .style("opacity", 0) .transition().duration(duration) .text(textForArcLabel) .style("opacity", function (d) { return isTargetToShow(d.data.id) && isArcType(d.data) ? 1 : 0; }); main.select('.' + CLASS.chartArcsTitle) .style("opacity", hasDonutType(c3.data.targets) ? 1 : 0); // subchart if (__subchart_show) { // reflect main chart to extent on subchart if zoomed if (d3.event !== null && d3.event.type === 'zoom') { brush.extent(x.orgDomain()).update(); } // update subchart elements if needed if (withSubchart) { // axes context.select('.' + CLASS.axisX).style("opacity", hideAxis ? 0 : 1).transition().duration(duration).call(subXAxis); // extent rect if (!brush.empty()) { brush.extent(x.orgDomain()).update(); } // setup drawer - MEMO: this must be called after axis updated drawBarOnSub = generateDrawBar(barIndices, true); // bars contextBar = context.selectAll('.' + CLASS.bars).selectAll('.' + CLASS.bar) .data(barData); contextBar.enter().append('path') .attr('d', drawBarOnSub) .style("stroke", 'none') .style("fill", function (d) { return color(d); }) .attr("class", classBar); contextBar .style("opacity", initialOpacity) .transition().duration(duration) .attr('d', drawBarOnSub) .style('opacity', 1); contextBar.exit().transition().duration(duration) .style('opacity', 0) .remove(); // lines context.selectAll('.' + CLASS.line) .style("opacity", initialOpacity) .transition().duration(duration) .attr("d", lineOnSub) .style('opacity', 1); } } // circles for select main.selectAll('.' + CLASS.selectedCircles) .filter(function (d) { return isBarType(d); }) .selectAll('circle') .remove(); main.selectAll('.' + CLASS.selectedCircle) .transition().duration(duration) .attr("cx", __axis_rotated ? circleY : circleX) .attr("cy", __axis_rotated ? circleX : circleY); // rect for mouseover eventRect = main.select('.' + CLASS.eventRects); if (notEmpty(__data_xs) && !isSingleX(__data_xs)) { if (!eventRect.classed(CLASS.eventRectsMultiple)) { eventRect.classed(CLASS.eventRectsMultiple, true).classed(CLASS.eventRectsSingle, false) .selectAll('.' + CLASS.eventRect).remove(); } eventRectUpdate = main.select('.' + CLASS.eventRects).selectAll('.' + CLASS.eventRect) .data([0]); // enter : only one rect will be added generateEventRectsForMultipleXs(eventRectUpdate.enter()); // update eventRectUpdate .attr('x', 0) .attr('y', 0) .attr('width', width) .attr('height', height); // exit : not needed becuase always only one rect exists } else { if (!eventRect.classed(CLASS.eventRectsSingle)) { eventRect.classed(CLASS.eventRectsMultiple, false).classed(CLASS.eventRectsSingle, true) .selectAll('.' + CLASS.eventRect).remove(); } if (isCustomX && !isCategorized) { rectW = function (d, i) { var prevX = getPrevX(i), nextX = getNextX(i), dx = c3.data.xs[d.id][i]; return (x(nextX ? nextX : dx + 50) - x(prevX ? prevX : dx - 50)) / 2; }; rectX = function (d, i) { var prevX = getPrevX(i), dx = c3.data.xs[d.id][i]; return (x(dx) + x(prevX ? prevX : dx - 50)) / 2; }; } else { rectW = getEventRectWidth(); rectX = function (d) { return x(d.x) - (rectW / 2); }; } // Set data maxDataCountTarget = getMaxDataCountTarget(); main.select('.' + CLASS.eventRects) .datum(maxDataCountTarget ? maxDataCountTarget.values : []); // Update rects eventRectUpdate = main.select('.' + CLASS.eventRects).selectAll('.' + CLASS.eventRect) .data(function (d) { return d; }); // enter generateEventRectsForSingleX(eventRectUpdate.enter()); // update eventRectUpdate .attr('class', classEvent) .attr("x", __axis_rotated ? 0 : rectX) .attr("y", __axis_rotated ? rectX : 0) .attr("width", __axis_rotated ? width : rectW) .attr("height", __axis_rotated ? rectW : height); // exit eventRectUpdate.exit().remove(); } // rect for regions mainRegion = main.select('.' + CLASS.regions).selectAll('rect.' + CLASS.region) .data(__regions); mainRegion.enter().append('rect') .style("fill-opacity", 0); mainRegion .attr('class', classRegion) .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) .transition().duration(duration) .style("fill-opacity", function (d) { return isValue(d.opacity) ? d.opacity : 0.1; }); mainRegion.exit().transition().duration(duration) .style("fill-opacity", 0) .remove(); // update fadein condition mapToIds(c3.data.targets).forEach(function (id) { withoutFadeIn[id] = true; }); } function redrawForBrush() { redraw({ withTransition: false, withY: false, withSubchart: false, withUpdateXDomain: true }); } function redrawForZoom() { if (d3.event.sourceEvent.type === 'mousemove' && zoom.altDomain) { x.domain(zoom.altDomain); zoom.scale(x).updateScaleExtent(); return; } if (isCategorized && x.orgDomain()[0] === orgXDomain[0]) { x.domain([orgXDomain[0] - 1e-10, x.orgDomain()[1]]); } redraw({ withTransition: false, withY: false, withSubchart: false }); if (d3.event.sourceEvent.type === 'mousemove') { cancelClick = true; } } function generateResize() { var resizeFunctions = []; function callResizeFunctions() { resizeFunctions.forEach(function (f) { f(); }); } callResizeFunctions.add = function (f) { resizeFunctions.push(f); }; return callResizeFunctions; } function updateSvgSize() { svg.attr('width', currentWidth).attr('height', currentHeight); svg.select('#' + clipId).select('rect').attr('width', width).attr('height', height); svg.select('#' + clipIdForXAxis).select('rect').attr('width', getXAxisClipWidth); svg.select('#' + clipIdForYAxis).select('rect').attr('width', getYAxisClipWidth); svg.select('.' + CLASS.zoomRect).attr('width', width).attr('height', height); } function updateAndRedraw(options) { options = options || {}; // same with redraw options.withTransition = isDefined(options.withTransition) ? options.withTransition : true; options.withTransform = isDefined(options.withTransform) ? options.withTransform : false; options.withLegend = isDefined(options.withLegend) ? options.withLegend : false; // NOT same with redraw options.withUpdateXDomain = true; options.withUpdateOrgXDomain = true; options.withTransitionForExit = false; // Update sizes and scales updateSizes(); updateScales(); updateSvgSize(); // Update g positions transformAll(options.withTransition); // Draw with new sizes & scales redraw(options); } function updateTargets(targets) { var mainLineEnter, mainLineUpdate, mainBarEnter, mainBarUpdate, mainPieEnter, mainPieUpdate, mainTextUpdate, mainTextEnter; var contextLineEnter, contextLineUpdate, contextBarEnter, contextBarUpdate; /*-- Main --*/ //-- Text --// mainTextUpdate = main.select('.' + CLASS.chartTexts).selectAll('.' + CLASS.chartText) .data(targets) .attr('class', classChartText); mainTextEnter = mainTextUpdate.enter().append('g') .attr('class', classChartText) .style("pointer-events", "none"); mainTextEnter.append('g') .attr('class', classTexts) .style("fill", function (d) { return color(d); }); //-- Bar --// mainBarUpdate = main.select('.' + CLASS.chartBars).selectAll('.' + CLASS.chartBar) .data(targets) .attr('class', classChartBar); mainBarEnter = mainBarUpdate.enter().append('g') .attr('class', classChartBar) .style("pointer-events", "none"); // Bars for each data mainBarEnter.append('g') .attr("class", classBars) .style("fill", function (d) { return color(d); }) .style("stroke", "none") .style("cursor", function (d) { return __data_selection_isselectable(d) ? "pointer" : null; }); //-- Line --// mainLineUpdate = main.select('.' + CLASS.chartLines) .selectAll('.' + CLASS.chartLine) .data(targets) .attr('class', classChartLine); mainLineEnter = mainLineUpdate.enter().append('g') .attr('class', classChartLine) .style("pointer-events", "none"); // Lines for each data mainLineEnter.append("path") .attr("class", classLine) .style("opacity", 0) .style("stroke", function (d) { return color(d); }); // Areas mainLineEnter.append("path") .attr("class", classArea) .style("opacity", function () { orgAreaOpacity = +d3.select(this).style('opacity'); return 0; }) .style("fill", function (d) { return color(d); }); // Circles for each data point on lines mainLineEnter.append('g') .attr("class", function (d) { return generateClass(CLASS.selectedCircles, d.id); }); mainLineEnter.append('g') .attr("class", classCircles) .style("fill", function (d) { return color(d); }) .style("cursor", function (d) { return __data_selection_isselectable(d) ? "pointer" : null; }); // Update date for selected circles targets.forEach(function (t) { main.selectAll('.' + CLASS.selectedCircles + getTargetSelectorSuffix(t.id)).selectAll('.' + CLASS.selectedCircle).each(function (d, i) { d.value = t.values[i].value; }); }); // MEMO: can not keep same color... //mainLineUpdate.exit().remove(); //-- Pie --// mainPieUpdate = main.select('.' + CLASS.chartArcs).selectAll('.' + CLASS.chartArc) .data(pie(targets)) .attr("class", classChartArc); mainPieEnter = mainPieUpdate.enter().append("g") .attr("class", classChartArc); mainPieEnter.append("path") .attr("class", classArc) .style("opacity", 0) .style("fill", function (d) { return color(d.data); }) .style("cursor", function (d) { return __data_selection_isselectable(d) ? "pointer" : null; }) .each(function (d) { this._current = d; }) .on('mouseover', function (d, i) { var updated = updateAngle(d), arcData = convertToArcData(updated), callback = getArcOnMouseOver(); expandArc(updated.data.id); focusLegend(updated.data.id); callback(arcData, i); }) .on('mousemove', function (d) { var updated = updateAngle(d), selectedData = [convertToArcData(updated)]; showTooltip(selectedData, d3.mouse(this)); }) .on('mouseout', function (d, i) { var updated = updateAngle(d), arcData = convertToArcData(updated), callback = getArcOnMouseOut(); unexpandArc(updated.data.id); revertLegend(); hideTooltip(); callback(arcData, i); }) .on('click', function (d, i) { var updated = updateAngle(d), arcData = convertToArcData(updated), callback = getArcOnClick(); callback(arcData, i); }); mainPieEnter.append("text") .attr("dy", ".35em") .style("opacity", 0) .style("text-anchor", "middle") .style("pointer-events", "none"); // MEMO: can not keep same color..., but not bad to update color in redraw //mainPieUpdate.exit().remove(); /*-- Context --*/ if (__subchart_show) { contextBarUpdate = context.select('.' + CLASS.chartBars).selectAll('.' + CLASS.chartBar) .data(targets) .attr('class', classChartBar); contextBarEnter = contextBarUpdate.enter().append('g') .attr('class', classChartBar); // Bars for each data contextBarEnter.append('g') .attr("class", classBars) .style("fill", function (d) { return color(d); }); //-- Line --// contextLineUpdate = context.select('.' + CLASS.chartLines).selectAll('.' + CLASS.chartLine) .data(targets) .attr('class', classChartLine); contextLineEnter = contextLineUpdate.enter().append('g') .attr('class', classChartLine); // Lines for each data contextLineEnter.append("path") .attr("class", classLine) .style("opacity", 0) .style("stroke", function (d) { return color(d); }); } /*-- Show --*/ // Fade-in each chart svg.selectAll('.' + CLASS.target).filter(function (d) { return isTargetToShow(d.id); }) .transition() .style("opacity", 1); } function load(targets, args) { // set type if args.types || args.type specified if (args.type || args.types) { targets.forEach(function (t) { args.types ? setTargetType(t.id, args.types[t.id]) : setTargetType(t.id, args.type); }); } // 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({withUpdateOrgXDomain: true, withUpdateXDomain: true, withLegend: true}); if (typeof args.done === 'function') { args.done(); } } function loadFromArgs(args) { // load data if ('data' in args) { load(convertDataToTargets(args.data), args); } else if ('url' in args) { d3.csv(args.url, function (error, data) { load(convertDataToTargets(data), args); }); } else if ('rows' in args) { load(convertDataToTargets(convertRowsToData(args.rows)), args); } else if ('columns' in args) { load(convertDataToTargets(convertColumnsToData(args.columns)), args); } else { throw Error('url or rows or columns is required.'); } } function unload(targetIds, done) { if (typeof done !== 'function') { done = function () {}; } // filter existing target targetIds = targetIds.filter(function (id) { return hasTarget(c3.data.targets, id); }); // If no target, call done and return if (!targetIds || targetIds.length === 0) { done(); return; } svg.selectAll(targetIds.map(function (id) { return selectorTarget(id); })) .transition() .style('opacity', 0) .remove() .call(endall, done); targetIds.forEach(function (id) { // Reset fadein for future load withoutFadeIn[id] = false; // Remove target's elements legend.selectAll('.' + CLASS.legendItem + getTargetSelectorSuffix(id)).remove(); // Remove target c3.data.targets = c3.data.targets.filter(function (t) { return t.id !== id; }); }); } /*-- Draw Legend --*/ function opacityForLegend(id) { var item = legend.select(selectorLegend(id)); item.style('opacity', null); // MEMO: remove to get opacity by css return item.classed(CLASS.legendItemHidden) ? item.style('opacity') : 1; } function toggleFocusLegend(id, focus) { var items = legend.selectAll('.' + CLASS.legendItem).filter(function () { return !d3.select(this).classed(CLASS.legendItemHidden); }), isTarget = function (d) { return (!id || d === id); }, notTarget = function (d) { return !isTarget(d); }; items.filter(notTarget).transition().duration(100).style('opacity', focus ? 0.3 : opacityForLegend); items.filter(isTarget).transition().duration(100).style('opacity', focus ? opacityForLegend : 0.3); } function focusLegend(id) { toggleFocusLegend(id, true); } function defocusLegend(id) { toggleFocusLegend(id, false); } function revertLegend() { legend.selectAll('.' + CLASS.legendItem) .transition().duration(100) .style('opacity', opacityForLegend); } function showLegend(targetIds) { removeHiddenLegendIds(targetIds); legend.selectAll(selectorLegends(targetIds)) .style('visibility', 'visible') .transition() .style('opacity', opacityForLegend); updateLegend(mapToIds(c3.data.targets)); } function hideLegend(targetIds) { addHiddenLegendIds(targetIds); legend.selectAll(selectorLegends(targetIds)) .style('opacity', 0) .style('visibility', 'hidden'); updateLegend(mapToIds(c3.data.targets)); } function updateLegend(targetIds, options) { var xForLegend, xForLegendText, xForLegendRect, yForLegend, yForLegendText, yForLegendRect; var paddingTop = 4, paddingRight = 26, maxWidth = 0, maxHeight = 0, posMin = 10; var l, totalLength = 0, offsets = {}, widths = {}, heights = {}, margins = [0], steps = {}, step = 0; var withTransition, withTransitionForTransform, withTransformAll; options = options || {}; withTransition = isDefined(options.withTransition) ? options.withTransition : true; withTransitionForTransform = isDefined(options.withTransitionForTransform) ? options.withTransitionForTransform : true; withTransformAll = isDefined(options.withTransformAll) ? options.withTransformAll : true; function updatePositions(textElement, id, reset) { var box = textElement.getBoundingClientRect(), itemWidth = Math.ceil((box.width + paddingRight) / 10) * 10, itemHeight = Math.ceil((box.height + paddingTop) / 10) * 10, itemLength = isLegendRight ? itemHeight : itemWidth, areaLength = isLegendRight ? getLegendHeight() : getLegendWidth(), margin, maxLength; // MEMO: care about condifion of step, totalLength function updateValues(id, withoutStep) { if (!withoutStep) { margin = (areaLength - totalLength - itemLength) / 2; if (margin < posMin) { margin = (areaLength - itemLength) / 2; totalLength = 0; step++; } } steps[id] = step; margins[step] = margin; offsets[id] = totalLength; totalLength += itemLength; } if (reset) { totalLength = 0; step = 0; maxWidth = 0; maxHeight = 0; } if (__legend_show && !isLegendToShow(id)) { widths[id] = heights[id] = steps[id] = offsets[id] = 0; return; } widths[id] = itemWidth; heights[id] = itemHeight; if (!maxWidth || itemWidth >= maxWidth) { maxWidth = itemWidth; } if (!maxHeight || itemHeight >= maxHeight) { maxHeight = itemHeight; } maxLength = isLegendRight ? maxHeight : maxWidth; if (__legend_equally) { Object.keys(widths).forEach(function (id) { widths[id] = maxWidth; }); Object.keys(heights).forEach(function (id) { heights[id] = maxHeight; }); margin = (areaLength - maxLength * targetIds.length) / 2; if (margin < posMin) { totalLength = 0; step = 0; targetIds.forEach(function (id) { updateValues(id); }); } else { updateValues(id, true); } } else { updateValues(id); } } if (isLegendRight) { xForLegend = function (id) { return maxWidth * (0.2 + steps[id]); }; yForLegend = function (id) { return margins[steps[id]] + offsets[id]; }; } else { xForLegend = function (id) { return margins[steps[id]] + offsets[id]; }; yForLegend = function (id) { return maxHeight * (0.2 + steps[id]); }; } xForLegendText = function (id, i) { return xForLegend(id, i) + 14; }; yForLegendText = function (id, i) { return yForLegend(id, i) + 9; }; xForLegendRect = function (id, i) { return xForLegend(id, i) - 4; }; yForLegendRect = function (id, i) { return yForLegend(id, i) - 7; }; // Define g for legend area l = legend.selectAll('.' + CLASS.legendItem) .data(targetIds) .enter().append('g') .attr('class', function (id) { return generateClass(CLASS.legendItem, id); }) .style('visibility', function (id) { return isLegendToShow(id) ? 'visible' : 'hidden'; }) .style('cursor', 'pointer') .on('click', function (id) { typeof __legend_item_onclick === 'function' ? __legend_item_onclick(id) : c3.toggle(id); }) .on('mouseover', function (id) { c3.focus(id); }) .on('mouseout', function () { c3.revert(); }); l.append('text') .text(function (id) { return isDefined(__data_names[id]) ? __data_names[id] : id; }) .each(function (id, i) { updatePositions(this, id, i === 0); }) .style("pointer-events", "none") .attr('x', isLegendRight ? xForLegendText : -200) .attr('y', isLegendRight ? -200 : yForLegendText); l.append('rect') .attr("class", CLASS.legendItemEvent) .style('fill-opacity', 0) .attr('x', isLegendRight ? xForLegendRect : -200) .attr('y', isLegendRight ? -200 : yForLegendRect) .attr('width', function (id) { return widths[id]; }) .attr('height', function (id) { return heights[id]; }); l.append('rect') .attr("class", CLASS.legendItemTile) .style("pointer-events", "none") .style('fill', function (id) { return color(id); }) .attr('x', isLegendRight ? xForLegendText : -200) .attr('y', isLegendRight ? -200 : yForLegend) .attr('width', 10) .attr('height', 10); legend.selectAll('text') .data(targetIds) .text(function (id) { return isDefined(__data_names[id]) ? __data_names[id] : id; }) // MEMO: needed for update .each(function (id, i) { updatePositions(this, id, i === 0); }) .transition().duration(withTransition ? 250 : 0) .attr('x', xForLegendText) .attr('y', yForLegendText); legend.selectAll('rect.' + CLASS.legendItemEvent) .data(targetIds) .transition().duration(withTransition ? 250 : 0) .attr('x', xForLegendRect) .attr('y', yForLegendRect); legend.selectAll('rect.' + CLASS.legendItemTile) .data(targetIds) .transition().duration(withTransition ? 250 : 0) .attr('x', xForLegend) .attr('y', yForLegend); // Update all to reflect change of legend updateLegendItemWidth(maxWidth); updateLegendItemHeight(maxHeight); updateLegendStep(step); // Update size and scale updateSizes(); updateScales(); updateSvgSize(); // Update g positions if (withTransformAll) { transformAll(withTransitionForTransform); } } /*-- Event Handling --*/ function isNoneArc(d) { return hasTarget(c3.data.targets, d.id); } function isArc(d) { return 'data' in d && hasTarget(c3.data.targets, d.data.id); } function getGridFilter(params) { var value = params && params.value ? params.value : null, klass = params && params['class'] ? params['class'] : null; return value ? function (line) { return line.value !== value; } : klass ? function (line) { return line['class'] !== klass; } : function () { return true; }; } function transformTo(targetIds, type, optionsForRedraw) { var withTransitionForAxis = !hasArcType(c3.data.targets); setTargetType(targetIds, type); updateAndRedraw(optionsForRedraw ? optionsForRedraw : {withTransitionForAxis: withTransitionForAxis}); } c3.focus = function (targetId) { var candidates = svg.selectAll(selectorTarget(targetId)), candidatesForNoneArc = candidates.filter(isNoneArc), candidatesForArc = candidates.filter(isArc); function focus(targets) { filterTargetsToShow(targets).transition().duration(100).style('opacity', 1); } c3.revert(); c3.defocus(); focus(candidatesForNoneArc.classed(CLASS.focused, true)); focus(candidatesForArc); if (hasArcType(c3.data.targets)) { expandArc(targetId, true); } focusLegend(targetId); }; c3.defocus = function (targetId) { var candidates = svg.selectAll(selectorTarget(targetId)), candidatesForNoneArc = candidates.filter(isNoneArc), candidatesForArc = candidates.filter(isArc); function defocus(targets) { filterTargetsToShow(targets).transition().duration(100).style('opacity', 0.3); } c3.revert(); defocus(candidatesForNoneArc.classed(CLASS.focused, false)); defocus(candidatesForArc); if (hasArcType(c3.data.targets)) { unexpandArc(targetId); } defocusLegend(targetId); }; c3.revert = function (targetId) { var candidates = svg.selectAll(selectorTarget(targetId)), candidatesForNoneArc = candidates.filter(isNoneArc), candidatesForArc = candidates.filter(isArc); function revert(targets) { filterTargetsToShow(targets).transition().duration(100).style('opacity', 1); } revert(candidatesForNoneArc.classed(CLASS.focused, false)); revert(candidatesForArc); if (hasArcType(c3.data.targets)) { unexpandArc(targetId); } revertLegend(); }; c3.show = function (targetIds, options) { targetIds = mapToTargetIds(targetIds); options = options || {}; removeHiddenTargetIds(targetIds); svg.selectAll(selectorTargets(targetIds)) .transition() .style('opacity', 1); if (options.withLegend) { showLegend(targetIds); } else { legend.selectAll(selectorLegends(targetIds)) .classed(CLASS.legendItemHidden, false); } redraw({withUpdateOrgXDomain: true, withUpdateXDomain: true, withTransitionForHorizontalAxis: false}); }; c3.hide = function (targetIds, options) { targetIds = mapToTargetIds(targetIds); options = options || {}; addHiddenTargetIds(targetIds); svg.selectAll(selectorTargets(targetIds)) .transition() .style('opacity', 0); if (options.withLegend) { hideLegend(targetIds); } else { legend.selectAll(selectorLegends(targetIds)) .classed(CLASS.legendItemHidden, true); } redraw({withUpdateOrgXDomain: true, withUpdateXDomain: true, withTransitionForHorizontalAxis: false}); }; c3.toggle = function (targetId) { isTargetToShow(targetId) ? c3.hide(targetId) : c3.show(targetId); }; c3.unzoom = function () { brush.clear().update(); redraw({withUpdateXDomain: true}); }; c3.load = function (args) { // update xs if specified if (args.xs) { addXs(args.xs); } // update classes if exists if ('classes' in args) { Object.keys(args.classes).forEach(function (id) { __data_classes[id] = args.classes[id]; }); } // update categories if exists if ('categories' in args && isCategorized) { __axis_x_categories = args.categories; xAxis.categories(__axis_x_categories); } // use cache if exists if ('cacheIds' in args && hasCaches(args.cacheIds)) { load(getCaches(args.cacheIds), args.done); return; } // unload if needed if ('unload' in args) { // TODO: do not unload if target will load (included in url/rows/columns) unload(mapToTargetIds((typeof args.unload === 'boolean' && args.unload) ? null : args.unload), function () { loadFromArgs(args); }); } else { loadFromArgs(args); } }; c3.unload = function (targetIds) { unload(mapToTargetIds(targetIds), function () { redraw({withUpdateOrgXDomain: true, withUpdateXDomain: true, withLegend: true}); }); }; c3.selected = function (targetId) { return d3.merge( main.selectAll('.' + CLASS.shapes + getTargetSelectorSuffix(targetId)).selectAll('.' + CLASS.shape) .filter(function () { return d3.select(this).classed(CLASS.SELECTED); }) .map(function (d) { return d.map(function (_d) { return _d.__data__; }); }) ); }; c3.select = function (ids, indices, resetOther) { if (! __data_selection_enabled) { return; } main.selectAll('.' + CLASS.shapes).selectAll('.' + CLASS.shape).each(function (d, i) { var shape = d3.select(this), select = (this.nodeName === 'circle') ? selectPoint : selectBar, unselect = (this.nodeName === 'circle') ? unselectPoint : unselectBar, isTargetId = __data_selection_grouped || !ids || ids.indexOf(d.id) >= 0, isTargetIndex = !indices || indices.indexOf(i) >= 0, isSelected = shape.classed(CLASS.SELECTED); if (isTargetId && isTargetIndex) { if (__data_selection_isselectable(d) && !isSelected) { select(shape.classed(CLASS.SELECTED, true), d, i); } } else if (isDefined(resetOther) && resetOther) { if (isSelected) { unselect(shape.classed(CLASS.SELECTED, false), d, i); } } }); }; c3.unselect = function (ids, indices) { if (! __data_selection_enabled) { return; } main.selectAll('.' + CLASS.shapes).selectAll('.' + CLASS.shape).each(function (d, i) { var shape = d3.select(this), unselect = (this.nodeName === 'circle') ? unselectPoint : unselectBar, isTargetId = __data_selection_grouped || !ids || ids.indexOf(d.id) >= 0, isTargetIndex = !indices || indices.indexOf(i) >= 0, isSelected = shape.classed(CLASS.SELECTED); if (isTargetId && isTargetIndex) { if (__data_selection_isselectable(d)) { if (isSelected) { unselect(shape.classed(CLASS.SELECTED, false), d, i); } } } }); }; c3.toLine = function (targetIds) { transformTo(targetIds, 'line'); }; c3.toSpline = function (targetIds) { transformTo(targetIds, 'spline'); }; c3.toBar = function (targetIds) { transformTo(targetIds, 'bar'); }; c3.toScatter = function (targetIds) { transformTo(targetIds, 'scatter'); }; c3.toArea = function (targetIds) { transformTo(targetIds, 'area'); }; c3.toAreaSpline = function (targetIds) { transformTo(targetIds, 'area-spline'); }; c3.toPie = function (targetIds) { transformTo(targetIds, 'pie', {withTransform: true}); }; c3.toDonut = function (targetIds) { transformTo(targetIds, 'donut', {withTransform: true}); }; c3.groups = function (groups) { if (isUndefined(groups)) { return __data_groups; } __data_groups = groups; redraw(); return __data_groups; }; c3.xgrids = function (grids) { if (! grids) { return __grid_x_lines; } __grid_x_lines = grids; redraw(); return __grid_x_lines; }; c3.xgrids.add = function (grids) { if (! grids) { return; } return c3.xgrids(__grid_x_lines.concat(grids)); }; c3.xgrids.remove = function (params) { // TODO: multiple var filter = getGridFilter(params); return c3.xgrids(__grid_x_lines.filter(filter)); }; c3.ygrids = function (grids) { if (! grids) { return __grid_y_lines; } __grid_y_lines = grids; redraw(); return __grid_y_lines; }; c3.ygrids.add = function (grids) { if (! grids) { return; } return c3.ygrids(__grid_y_lines.concat(grids)); }; c3.ygrids.remove = function (params) { // TODO: multiple var filter = getGridFilter(params); return c3.ygrids(__grid_y_lines.filter(filter)); }; c3.regions = function (regions) { if (isUndefined(regions)) { return __regions; } __regions = regions; redraw(); return __regions; }; c3.regions.add = function (regions) { if (isUndefined(regions)) { return __regions; } __regions = __regions.concat(regions); redraw(); return __regions; }; c3.regions.remove = function (classes, options) { var regionClasses = [].concat(classes); options = isDefined(options) ? options : {}; regionClasses.forEach(function (cls) { var duration = isValue(options.duration) ? options.duration : 0; svg.selectAll('.' + cls) .transition().duration(duration) .style('fill-opacity', 0) .remove(); __regions = __regions.filter(function (region) { return region.classes.indexOf(cls) < 0; }); }); return __regions; }; c3.data.get = function (targetId) { var target = c3.data.getAsTarget(targetId); return isDefined(target) ? target.values.map(function (d) { return d.value; }) : undefined; }; c3.data.getAsTarget = function (targetId) { var targets = getTargets(function (t) { return t.id === targetId; }); return targets.length > 0 ? targets[0] : undefined; }; c3.data.names = function (names) { if (!arguments.length) { return __data_names; } Object.keys(names).forEach(function (id) { __data_names[id] = names[id]; }); updateLegend(mapToIds(c3.data.targets), {withTransition: true}); return __data_names; }; c3.x = function (x) { if (arguments.length) { updateTargetX(c3.data.targets, x); redraw({withUpdateOrgXDomain: true, withUpdateXDomain: true}); } return c3.data.xs; }; c3.xs = function (xs) { if (arguments.length) { updateTargetXs(c3.data.targets, xs); redraw({withUpdateOrgXDomain: true, withUpdateXDomain: true}); } return c3.data.xs; }; c3.axis.labels = function (labels) { if (arguments.length) { Object.keys(labels).forEach(function (axisId) { setAxisLabelText(axisId, labels[axisId]); }); updateAxisLabels(); } // TODO: return some values? }; c3.axis.max = function (max) { if (arguments.length) { if (typeof max === 'object') { if (isValue(max.y)) { __axis_y_max = +max.y; } if (isValue(max.y2)) { __axis_y2_max = +max.y2; } } else { __axis_y_max = __axis_y2_max = +max; } redraw(); } }; c3.axis.min = function (min) { if (arguments.length) { if (typeof min === 'object') { if (isValue(min.y)) { __axis_y_min = +min.y; } if (isValue(min.y2)) { __axis_y2_min = +min.y2; } } else { __axis_y_min = __axis_y2_min = +min; } redraw(); } }; c3.axis.range = function (range) { if (arguments.length) { if (typeof range.max !== 'undefined') { c3.axis.max(range.max); } if (typeof range.min !== 'undefined') { c3.axis.min(range.min); } } }; c3.legend.show = function (targetIds) { if (!__legend_show) { __legend_show = true; legend.style('visibility', 'visible'); } showLegend(mapToTargetIds(targetIds)); redraw({withTransitionForHorizontalAxis: false}); }; c3.legend.hide = function (targetIds) { if (__legend_show && isEmpty(targetIds)) { __legend_show = false; legend.style('visibility', 'hidden'); } hideLegend(mapToTargetIds(targetIds)); redraw({withTransitionForHorizontalAxis: false}); }; c3.resize = function (size) { __size_width = size ? size.width : null; __size_height = size ? size.height : null; updateAndRedraw({withLegend: true, withTransition: false, withTransitionForTransform: false}); }; c3.destroy = function () { c3.data.targets = undefined; c3.data.xs = {}; selectChart.html(""); window.onresize = null; }; /*-- Load data and init chart with defined functions --*/ if ('url' in config.data) { d3.xhr(config.data.url, function (error, data) { // TODO: other mine/type var rows = d3.csv.parseRows(data.response), d; if (rows.length === 1) { d = [{}]; rows[0].forEach(function (id) { d[0][id] = null; }); } else { d = d3.csv.parse(data.response); } init(d); }); } 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 isValue(v) { return v || v === 0; } function isUndefined(v) { return typeof v === 'undefined'; } function isDefined(v) { return typeof v !== 'undefined'; } if (typeof window.define === "function" && window.define.amd) { window.define("c3", ["d3"], c3); } else { window.c3 = c3; } // TODO: module.exports })(window);