Flot Reference -------------- Consider a call to the plot function: var plot = $.plot(placeholder, data, options) The placeholder is a jQuery object that the plot will be put into. This placeholder needs to have its width and height set as explained in the README. The plot will modify some properties of the placeholder so it's recommended you simply pass in a div that you don't use for anything else. The format of the data is documented below, as is the available options. The "plot" object returned has some members you can call. These are documented separately below. Note that in general Flot gives no guarantees if you change any of the objects you pass in to the plot function or get out of it since they're not necessarily deep-copied. Data Format ----------- The data is an array of data series: [ series1, series2, ... ] A series can either be raw data or an object with properties. The raw data format is an array of points: [ [x1, y1], [x2, y2], ... ] E.g. [ [1, 3], [2, 14.01], [3.5, 3.14] ] Note that to simplify the internal logic in Flot both the x and y values must be numbers, even if specifying time series (see below for how to do this). This is a common problem because you might accidentally retrieve data from the database and serialize them directly to JSON without noticing the wrong type. If a null is specified as a point or if one of the coordinates is null or NaN or couldn't be converted to a number, the point is ignored. As a special case, a null value for lines is interpreted as a line segment end, i.e. the two points before and after the null value are not connected. The format of a single series object is as follows: { color: color or number, data: rawdata, label: string, lines: specific lines options, bars: specific bars options, points: specific points options, shadowSize: number } You don't have to specify any of them except the data, the rest are options that will get default values. Typically you'd only specify label and data, like this: { label: "y = 3", data: [[0, 3], [10, 3]] } The label is used for the legend, if you don't specify one, the series will not show up in the legend. If you don't specify color, the series will get a color from the auto-generated colors. The color is either a CSS color specification (like "rgb(255, 100, 123)") or an integer that specifies which of auto-generated colors to select, e.g. 0 will get color no. 0, etc. The latter is mostly useful if you let the user add and remove series, in which case you can hard-code the color index to prevent the colors from jumping around between the series. The rest of the options are all documented below as they are the same as the default options passed in via the options parameter in the plot commmand. When you specify them for a specific data series, they will override the default options for the plot for that data series. Here's a complete example of a simple data specification: [ { label: "Foo", data: [ [10, 1], [17, -14], [30, 5] ] }, { label: "Bar", data: [ [11, 13], [19, 11], [30, -7] ] } ] Plot Options ------------ All options are completely optional. They are documented individually below, to change them you just specify them in an object, e.g. var options = { lines: { show: true }, points: { show: true } }; $.plot(placeholder, data, options); Customizing the legend ====================== legend: { show: boolean labelFormatter: null or (fn: string -> string) labelBoxBorderColor: color noColumns: number position: "ne" or "nw" or "se" or "sw" margin: number of pixels backgroundColor: null or color backgroundOpacity: number in 0.0 - 1.0 container: null or jQuery object } The legend is generated as a table with the data series labels and small label boxes with the color of the series. If you want to format the labels in some way, e.g. make them to links, you can pass in a function for "labelFormatter". Here's an example that makes them clickable: labelFormatter: function(label) { return '' + label + ''; } "noColumns" is the number of columns to divide the legend table into. "position" specifies the overall placement of the legend within the plot (top-right, top-left, etc.) and margin the distance to the plot edge. "backgroundColor" and "backgroundOpacity" specifies the background. The default is a partly transparent auto-detected background. If you want the legend to appear somewhere else in the DOM, you can specify "container" as a jQuery object to put the legend table into. The "position" and "margin" etc. options will then be ignored. Customizing the axes ==================== xaxis, yaxis: { mode: null or "time" min: null or number max: null or number autoscaleMargin: null or number ticks: null or number or ticks array or (fn: range -> ticks array) tickSize: number or array minTickSize: number or array tickFormatter: (fn: number, object -> string) or string tickDecimals: null or number } The two axes have the same kind of options. The "mode" option determines how the data is interpreted, the default of null means as decimal numbers. Use "time" for time series data, see the next section. The options "min"/"max" are the precise minimum/maximum value on the scale. If you don't specify either of them, a value will automatically be chosen based on the minimum/maximum data values. The "autoscaleMargin" is a bit esoteric: it's the fraction of margin that the scaling algorithm will add to avoid that the outermost points ends up on the grid border. Note that this margin is only applied when a min or max value is not explicitly set. If a margin is specified, the plot will furthermore extend the axis end-point to the nearest whole tick. The default value is "null" for the x axis and 0.02 for the y axis which seems appropriate for most cases. The rest of the options deal with the ticks. If you don't specify any ticks, a tick generator algorithm will make some for you. The algorithm has two passes. It first estimates how many ticks would be reasonable and uses this number to compute a nice round tick interval size. Then it generates the ticks. You can specify how many ticks the algorithm aims for by setting "ticks" to a number. The algorithm always tries to generate reasonably round tick values so even if you ask for three ticks, you might get five if that fits better with the rounding. If you don't want ticks, set "ticks" to 0 or an empty array. Another option is to skip the rounding part and directly set the tick interval size with "tickSize". If you set it to 2, you'll get ticks at 2, 4, 6, etc. Alternatively, you can specify that you just don't want ticks at a size less than a specific tick size with "minTickSize". Note that for time series, the format is an array like [2, "month"], see the next section. If you want to completely override the tick algorithm, you can specify an array for "ticks", either like this: ticks: [0, 1.2, 2.4] Or like this (you can mix the two if you like): ticks: [[0, "zero"], [1.2, "one mark"], [2.4, "two marks"]] For extra flexibility you can specify a function as the "ticks" parameter. The function will be called with an object with the axis min and max and should return a ticks array. Here's a simplistic tick generator that spits out intervals of pi, suitable for use on the x axis for trigonometric functions: function piTickGenerator(axis) { var res = [], i = Math.floor(axis.min / Math.PI); do { var v = i * Math.PI; res.push([v, i + "\u03c0"]); ++i; } while (v < axis.max); return res; } You can control how the ticks look like with "tickDecimals", the number of decimals to display (default is auto-detected). Alternatively, for ultimate control you can provide a function to "tickFormatter". The function is passed two parameters, the tick value and an "axis" object with information, and should return a string. The default formatter looks like this: function formatter(val, axis) { return val.toFixed(axis.tickDecimals); } The axis object has "min" and "max" with the range of the axis, "tickDecimals" with the number of decimals to round the value to and "tickSize" with the size of the interval between ticks as calculated by the automatic axis scaling algorithm (or specified by you). Here's an example of a custom formatter: function suffixFormatter(val, axis) { if (val > 1000000) return (val / 1000000).toFixed(axis.tickDecimals) + " MB"; else if (val > 1000) return (val / 1000).toFixed(axis.tickDecimals) + " kB"; else return val.toFixed(axis.tickDecimals) + " B"; } Time series data ================ The time series support in Flot is based on Javascript timestamps, i.e. everywhere a time value is expected or handed over, a Javascript timestamp number is used. This is not the same as a Date object. A Javascript timestamp is the number of milliseconds since January 1, 1970 00:00:00. This is almost the same as Unix timestamps, except it's in milliseconds, so remember to multiply by 1000! You can see a timestamp by outputting (new Date()).getTime() In PHP you can get an appropriate timestamp with 'strtotime("2002-02-20") * 1000', in Python with 'time.mktime(datetime_object.timetuple()) * 1000', in .NET with something like: public static int GetJavascriptTimestamp(System.DateTime input) { System.TimeSpan span = new System.TimeSpan(System.DateTime.Parse("1/1/1970").Ticks); System.DateTime time = input.Subtract(span); return (int)(time.Ticks / 10000); } Once you've got the timestamps into the data and specified "time" as the axis mode, Flot will automatically generate relevant ticks and format them. As always, you can tweak the ticks via the "ticks" option. Again the values should be timestamps, not Date objects! Tick generation and formatting is controlled separately through the following axis options: xaxis, yaxis: { minTickSize timeformat: null or format string monthNames: null or array of size 12 of strings } Here "timeformat" is a format string to use. You might use it like this: xaxis: { mode: "time", timeformat: "%y/%m/%d" } This will result in tick labels like "2000/12/24". The following specifiers are supported %h': hours %H': hours (left-padded with a zero) %M': minutes (left-padded with a zero) %S': seconds (left-padded with a zero) %d': day of month (1-31) %m': month (1-12) %y': year (four digits) %b': month name (customizable) You can customize the month names with the "monthNames" option. For instance, for Danish you might specify: monthName: ["jan", "feb", "mar", "apr", "maj", "jun", "jul", "aug", "sep", "okt", "nov", "dec"] If everything else fails, you can control the formatting by specifying a custom tick formatter function as usual. Here's a simple example which will format December 24 as 24/12: tickFormatter: function (val, axis) { var d = new Date(val); return d.getDate() + "/" + (d.getMonth() + 1); } Note that for the time mode "tickSize" and "minTickSize" are a bit special in that they are arrays on the form "[value, unit]" where unit is one of "second", "minute", "hour", "day", "month" and "year". So you can specify minTickSize: [1, "month"] to get a tick interval size of at least 1 month and correspondingly, if axis.tickSize is [2, "day"] in the tick formatter, the ticks have been produced with two days in-between. Customizing the data series =========================== lines, points, bars: { show: boolean, lineWidth: number, fill: boolean, fillColor: color or null } points: { radius: number } bars: { barWidth: number } colors: [ color1, color2, ... ] shadowSize: number The most important options are "lines", "points" and "bars" that specifies whether and how lines, points and bars should be shown for each data series. You can specify them independently of each other, and Flot will happily draw each of them in turn, e.g. var options = { lines: { show: true, fill: true, fillColor: "rgba(255, 255, 255, 0.8)" }, points: { show: true, fill: false } }; "lineWidth" is the thickness of the line or outline and "fill" is whether the shape should be filled. For lines, this produces area graphs. If "fillColor" is null (default), the color for the data series is used. Note that the options that take numbers works in units of pixels, but "barWidth" is the width of the bars in units of the x axis (e.g. for time series it's in milliseconds). The "colors" array specifies a default color theme to get colors for the data series from. You can specify as many colors as you like, like this: colors: ["#d18b2c", "#dba255", "#919733"] If there are more data series than colors, Flot will try to generate extra colors by lightening and darkening colors in the theme. "shadowSize" is the default size of shadows in pixels. Set it to 0 to remove shadows. Customizing the grid ==================== grid: { color: color backgroundColor: color or null tickColor: color labelMargin: number coloredAreas: array of areas or (fn: plot area -> array of areas) coloredAreasColor: color borderWidth: number clickable: boolean } The grid is the thing with the two axes and a number of ticks. "color" is the color of the grid itself whereas "backgroundColor" specifies the background color inside the grid area. The default value of null means that the background is transparent. You should only need to set backgroundColor if want the grid area to be a different color from the page color. Otherwise you might as well just set the background color of the page with CSS. "tickColor" is the color of the ticks and "labelMargin" is the spacing between tick labels and the grid. Note that you can style the tick labels with CSS, e.g. to change the color. They have class "tickLabel". "borderWidth" is the width of the border around the plot. Set it to 0 to disable the border. "coloredAreas" is an array of areas that will be drawn on top of the background. You can either specify an array of objects with { x1, y1, x2, y2 } or a function that returns such an array given the plot area as { xmin, xmax, ymin, ymax }. The default color of the areas are "coloredAreasColor". You can override the color of individual areas by specifying "color" in the area object. Here's an example array: coloredAreas: [ { x1: 0, y1: 10, x2: 2, y2: 15, color: "#bb0000" }, ... ] If you leave out one of the values, that value is assumed to go to the border of the plot. So for example { x1: 0, x2: 2 } means an area that extends from the top to the bottom of the plot in the x range 0-2. An example function might look like this: coloredAreas: function (plotarea) { var areas = []; for (var x = Math.floor(plotarea.xmin); x < plotarea.xmax; x += 2) areas.push({ x1: x, x2: x + 1 }); return areas; } If you set "clickable" to true, the plot will listen for click events on the plot area and fire a "plotclick" event on the placeholder with an object { x: number, y: number } as parameter when one occurs. The returned coordinates will be in the unit of the plot (not in pixels). You can use it like this: $.plot($("#placeholder"), [ d ], { grid: { clickable: true } }); $("#placeholder").bind("plotclick", function (e, pos) { // the values are in pos.x and pos.y }); Support for hover indications or for associating the clicks with any specific data is still forthcoming. Customizing the selection ========================= selection: { mode: null or "x" or "y" or "xy", color: color } You enable selection support by setting the mode to one of "x", "y" or "xy". In "x" mode, the user will only be able to specify the x range, similarly for "y" mode. For "xy", the selection becomes a rectangle where both ranges can be specified. "color" is color of the selection. When selection support is enabled, a "selected" event will be emitted on the DOM element you passed into the plot function. The event handler gets one extra parameter with the area selected, like this: placeholder.bind("selected", function(event, area) { // area selected is area.x1 to area.x2 and area.y1 to area.y2 }); Plot Members ------------ The Plot object returned from the plot function has the following members: - clearSelection() Clear the selection rectangle. - setSelection(area) Set the selection rectangle. The passed in area should have the members x1 and x2 if the selection mode is "x" and y1 and y2 if the selection mode is "y" and both x1, x2 and y1, y2 if the selection mode is "xy", like this: setSelection({ x1: 0, x2: 10, y1: 40, y2: 60}); setSelection will trigger the "selected" event when called so you may have to do a bit of shortcircuiting to prevent an eternal loop if you invoke the method inside the "selected" handler. - getCanvas() Returns the canvas used for drawing in case you need to hack on it yourself. You'll probably need to get the plot offset too. - getPlotOffset() Gets the offset that the grid has within the canvas as an object with the members "left", "right", "top", "bottom". I.e., if you draw a circle on the canvas with the center placed at (left, top), its center will be at the top-most, left corner of the grid. - setData(data) You can use this to reset the data used. Note that axis scaling, ticks, legend etc. will not be recomputed (use setupGrid() to do that). You'll probably want to call draw() afterwards. You can use this function to speed up redrawing a plot if you now that the axis won't change. Put in the new data with setData(newdata) and call draw() afterwards, and you're good to go. - getData() Returns the data currently used. The data series returned are normalized with missing settings filled in. So for instance to find out what color Flot has assigned to the data series, you could do this: var series = plot.getData(); for (var i = 0; i < series.length; ++i) alert([i].color); - setupGrid() Recalculate and set axis scaling, ticks, legend etc. Note that because of the drawing model of the canvas, this function will immediately redraw (actually reinsert in the DOM) the labels and the legend, but not the actual tick lines because they're drawn on the canvas. You need to call draw() to get the canvas redrawn. - draw() Redraws the canvas.