class Morris.Line extends Morris.Grid # Initialise the graph. # constructor: (options) -> return new Morris.Line(options) unless (@ instanceof Morris.Line) super(options) init: -> # Some instance variables for later @pointGrow = Raphael.animation r: @options.pointSize + 3, 25, 'linear' @pointShrink = Raphael.animation r: @options.pointSize, 25, 'linear' if @options.hideHover isnt 'always' @hover = new Morris.Hover(parent: @el) @on('hovermove', @onHoverMove) @on('hoverout', @onHoverOut) # Default configuration # defaults: lineWidth: 3 pointSize: 4 lineColors: [ '#0b62a4' '#7A92A3' '#4da74d' '#afd8f8' '#edc240' '#cb4b4b' '#9440ed' ] pointWidths: [1] pointStrokeColors: ['#ffffff'] pointFillColors: [] smooth: true xLabels: 'auto' xLabelFormat: null continuousLine: true hideHover: false # Do any size-related calculations # # @private calc: -> @calcPoints() @generatePaths() # calculate series data point coordinates # # @private calcPoints: -> for row in @data row._x = @transX(row.x) row._y = for y in row.y if y? then @transY(y) else y row._ymax = Math.min.apply(null, [@bottom].concat(y for y in row._y when y?)) # hit test - returns the index of the row beneath the given coordinate # hitTest: (x, y) -> # TODO better search algo for r, index in @data.slice(1) break if x < (r._x + @data[index]._x) / 2 index # hover movement event handler # # @private onHoverMove: (x, y) => index = @hitTest(x, y) @displayHoverForRow(index) # hover out event handler # # @private onHoverOut: => if @options.hideHover is 'auto' @displayHoverForIndex(null) # display a hover popup over the given row # # @private displayHoverForRow: (index) -> if index? @hover.update(@hoverContentForRow(index)...) @hilight(index) else @hover.hide() @hilight() # hover content for a point # # @private hoverContentForRow: (index) -> row = @data[index] if typeof @options.hoverCallback is 'function' content = @options.hoverCallback(index, @options) else content = "
#{row.label}
" for y, j in row.y content += """
#{@options.labels[j]}: #{@yLabelFormat(y)}
""" [content, row._x, row._ymax] # generate paths for series lines # # @private generatePaths: -> @paths = for i in [0...@options.ykeys.length] smooth = @options.smooth is true or @options.ykeys[i] in @options.smooth coords = ({x: r._x, y: r._y[i]} for r in @data when r._y[i] isnt undefined) coords = (c for c in coords when c.y isnt null) if @options.continuousLine if coords.length > 1 Morris.Line.createPath coords, smooth, @bottom else null # Draws the line chart. # draw: -> @drawXAxis() if @options.axes @drawSeries() if @options.hideHover is false @displayHoverForRow(@data.length - 1) # draw the x-axis labels # # @private drawXAxis: -> # draw x axis labels ypos = @bottom + @options.gridTextSize * 1.25 xLabelMargin = 50 # make this an option? prevLabelMargin = null drawLabel = (labelText, xpos) => label = @r.text(@transX(xpos), ypos, labelText) .attr('font-size', @options.gridTextSize) .attr('fill', @options.gridTextColor) labelBox = label.getBBox() # ensure a minimum of `xLabelMargin` pixels between labels, and ensure # labels don't overflow the container if (not prevLabelMargin? or prevLabelMargin >= labelBox.x + labelBox.width) and labelBox.x >= 0 and (labelBox.x + labelBox.width) < @el.width() prevLabelMargin = labelBox.x - xLabelMargin else label.remove() if @options.parseTime if @data.length == 1 and @options.xLabels == 'auto' # where there's only one value in the series, we can't make a # sensible guess for an x labelling scheme, so just use the original # column label labels = [[@data[0].label, @data[0].x]] else labels = Morris.labelSeries(@xmin, @xmax, @width, @options.xLabels, @options.xLabelFormat) else labels = ([row.label, row.x] for row in @data) labels.reverse() for l in labels drawLabel(l[0], l[1]) # draw the data series # # @private drawSeries: -> for i in [@options.ykeys.length-1..0] path = @paths[i] if path isnt null @r.path(path) .attr('stroke', @colorFor(row, i, 'line')) .attr('stroke-width', @options.lineWidth) @seriesPoints = ([] for i in [0...@options.ykeys.length]) for i in [@options.ykeys.length-1..0] for row in @data if row._y[i]? circle = @r.circle(row._x, row._y[i], @options.pointSize) .attr('fill', @colorFor(row, i, 'point')) .attr('stroke-width', @strokeWidthForSeries(i)) .attr('stroke', @strokeForSeries(i)) else circle = null @seriesPoints[i].push(circle) # create a path for a data series # # @private @createPath: (coords, smooth, bottom) -> path = "" grads = Morris.Line.gradients(coords) if smooth prevCoord = {y: null} for coord, i in coords if coord.y? if prevCoord.y? if smooth g = grads[i] lg = grads[i - 1] ix = (coord.x - prevCoord.x) / 4 x1 = prevCoord.x + ix y1 = Math.min(bottom, prevCoord.y + ix * lg) x2 = coord.x - ix y2 = Math.min(bottom, coord.y - ix * g) path += "C#{x1},#{y1},#{x2},#{y2},#{coord.x},#{coord.y}" else path += "L#{coord.x},#{coord.y}" else if not smooth or grads[i]? path += "M#{coord.x},#{coord.y}" prevCoord = coord return path # calculate a gradient at each point for a series of points # # @private @gradients: (coords) -> grad = (a, b) -> (a.y - b.y) / (a.x - b.x) for coord, i in coords if coord.y? nextCoord = coords[i + 1] or {y: null} prevCoord = coords[i - 1] or {y: null} if prevCoord.y? and nextCoord.y? grad(prevCoord, nextCoord) else if prevCoord.y? grad(prevCoord, coord) else if nextCoord.y? grad(coord, nextCoord) else null else null # @private hilight: (index) => if @prevHilight isnt null and @prevHilight isnt index for i in [0..@seriesPoints.length-1] if @seriesPoints[i][@prevHilight] @seriesPoints[i][@prevHilight].animate @pointShrink if index isnt null and @prevHilight isnt index for i in [0..@seriesPoints.length-1] if @seriesPoints[i][index] @seriesPoints[i][index].animate @pointGrow @prevHilight = index # @private strokeWidthForSeries: (index) -> @options.pointWidths[index % @options.pointWidths.length] # @private strokeForSeries: (index) -> @options.pointStrokeColors[index % @options.pointStrokeColors.length] colorFor: (row, sidx, type) -> if typeof @options.lineColors is 'function' @options.lineColors.call(@, row, sidx, type) else if type is 'point' @options.pointFillColors[sidx % @options.pointFillColors.length] || @options.lineColors[sidx % @options.lineColors.length] else @options.lineColors[sidx % @options.lineColors.length] # generate a series of label, timestamp pairs for x-axis labels # # @private Morris.labelSeries = (dmin, dmax, pxwidth, specName, xLabelFormat) -> ddensity = 200 * (dmax - dmin) / pxwidth # seconds per `margin` pixels d0 = new Date(dmin) spec = Morris.LABEL_SPECS[specName] # if the spec doesn't exist, search for the closest one in the list if spec is undefined for name in Morris.AUTO_LABEL_ORDER s = Morris.LABEL_SPECS[name] if ddensity >= s.span spec = s break # if we run out of options, use second-intervals if spec is undefined spec = Morris.LABEL_SPECS["second"] # check if there's a user-defined formatting function if xLabelFormat spec = $.extend({}, spec, {fmt: xLabelFormat}) # calculate labels d = spec.start(d0) ret = [] while (t = d.getTime()) <= dmax if t >= dmin ret.push [spec.fmt(d), t] spec.incr(d) return ret # @private minutesSpecHelper = (interval) -> span: interval * 60 * 1000 start: (d) -> new Date(d.getFullYear(), d.getMonth(), d.getDate(), d.getHours()) fmt: (d) -> "#{Morris.pad2(d.getHours())}:#{Morris.pad2(d.getMinutes())}" incr: (d) -> d.setMinutes(d.getMinutes() + interval) # @private secondsSpecHelper = (interval) -> span: interval * 1000 start: (d) -> new Date(d.getFullYear(), d.getMonth(), d.getDate(), d.getHours(), d.getMinutes()) fmt: (d) -> "#{Morris.pad2(d.getHours())}:#{Morris.pad2(d.getMinutes())}:#{Morris.pad2(d.getSeconds())}" incr: (d) -> d.setSeconds(d.getSeconds() + interval) Morris.LABEL_SPECS = "decade": span: 172800000000 # 10 * 365 * 24 * 60 * 60 * 1000 start: (d) -> new Date(d.getFullYear() - d.getFullYear() % 10, 0, 1) fmt: (d) -> "#{d.getFullYear()}" incr: (d) -> d.setFullYear(d.getFullYear() + 10) "year": span: 17280000000 # 365 * 24 * 60 * 60 * 1000 start: (d) -> new Date(d.getFullYear(), 0, 1) fmt: (d) -> "#{d.getFullYear()}" incr: (d) -> d.setFullYear(d.getFullYear() + 1) "month": span: 2419200000 # 28 * 24 * 60 * 60 * 1000 start: (d) -> new Date(d.getFullYear(), d.getMonth(), 1) fmt: (d) -> "#{d.getFullYear()}-#{Morris.pad2(d.getMonth() + 1)}" incr: (d) -> d.setMonth(d.getMonth() + 1) "day": span: 86400000 # 24 * 60 * 60 * 1000 start: (d) -> new Date(d.getFullYear(), d.getMonth(), d.getDate()) fmt: (d) -> "#{d.getFullYear()}-#{Morris.pad2(d.getMonth() + 1)}-#{Morris.pad2(d.getDate())}" incr: (d) -> d.setDate(d.getDate() + 1) "hour": minutesSpecHelper(60) "30min": minutesSpecHelper(30) "15min": minutesSpecHelper(15) "10min": minutesSpecHelper(10) "5min": minutesSpecHelper(5) "minute": minutesSpecHelper(1) "30sec": secondsSpecHelper(30) "15sec": secondsSpecHelper(15) "10sec": secondsSpecHelper(10) "5sec": secondsSpecHelper(5) "second": secondsSpecHelper(1) Morris.AUTO_LABEL_ORDER = [ "decade", "year", "month", "day", "hour", "30min", "15min", "10min", "5min", "minute", "30sec", "15sec", "10sec", "5sec", "second" ]