--- /dev/null
+# Drawing and Charting
+______________________________________________
+
+This document is intended to guide you through the overall design and implementation details
+of the Drawing and Charting packages. The drawing and charting packages enable you to create
+cross browser and cross device graphics in a versatile way.
+
+The structure of this document will cover three main topics:
+
+- Section I: "Draw" a versatile cross-browser/device package to draw general purpose
+graphics and animations.
+- Section II: "Chart" A high level presentation of the charting package and how classes are
+organized in it.
+- Section III: "Series" A presentation of the available series and their use.
+
+
+## I. The Draw Package
+______________________
+
+The design choices in the graphics team concerning drawing were not just contrained to charting:
+we needed a versatile tool that would enable us to create custom graphics in a cross-browser/device manner and also perform rich animations with them.
+
+The Draw package contains a Surface class that abstracts the underlying graphics implementation
+and enables the developer to create arbitrarily shaped Sprites or SpriteGroups that respond to
+interactions like mouse events and also provide rich animations on all attributes like shape, color, size,
+etc.
+
+The underlying/concrete implementations for the Surface class are SVG (for SVG capable browsers) and
+VML (for the Internet Explorer family - < 9). Surface can be considered as an interface for
+the SVG and VML rendering engines. Surface is agnostic to its underlying implementations. Most of the methods and ways
+to create sprites are heavily inspired by the [SVG standard](http://www.w3.org/TR/SVG/).
+
+### Creating a Drawing Surface
+
+You can create a simple drawing surface without loading the Charting package at all. This can be useful
+to create arbitrary graphics that work on all browsers/devices and animate well. For example, you could
+create an interactive map of the United States where each state is a sprite, or also an infographic where
+each element is also a sprite. What's interesting about making sprites and not images is that the document
+acquires a new level of interactivity but also that being VML and SVG based the images will never loose quality
+and can be printed correctly.
+
+In order to use the Draw package directly you can create a Draw Component and (for example) append it to an `Ext.Window`:
+
+ @example
+ var drawComponent = Ext.create('Ext.draw.Component', {
+ viewBox: false,
+ items: [{
+ type: 'circle',
+ fill: '#ffc',
+ radius: 100,
+ x: 100,
+ y: 100
+ }]
+ });
+
+ Ext.create('Ext.Window', {
+ width: 230,
+ height: 230,
+ layout: 'fit',
+ items: [drawComponent]
+ }).show();
+
+In this case we created a draw component and added a sprite to it. The *type* of the sprite is *circle* so if you run this code
+you'll see a yellow-ish circle in a Window. When setting `viewBox` to `false` we are responsible for setting the object's position and
+dimensions accordingly.
+
+Sprites can have different types. Some of them are:
+
+ - *circle* - To draw circles. You can set the radius by using the *radius* parameter in the sprite configuration.
+ - *rect* - To render rectangles. You can set the width and height of the rectangle by using the *width* and *height* parameters
+ in the sprite configuration.
+ - *text* - To render text as a sprite. You can set the font/font-size by using the *font* parameter.
+ - *path* - The most powerful sprite type. With it you can create arbitrary shapes by using the [SVG path syntax](http://www.w3.org/TR/SVG/paths.html).
+You can find a quick tutorial on to how to get started with
+the path syntax [here](https://developer.mozilla.org/en/SVG/Tutorial/Paths).
+
+A Sprite is an object rendered in a Drawing surface. There are different options and types of sprites.
+The configuration of a Sprite is an object with the following properties:
+
+- **type** - (String) The type of the sprite. Possible options are 'circle', 'path', 'rect', 'text', 'square'.
+- **width** - (Number) Used in rectangle sprites, the width of the rectangle.
+- **height** - (Number) Used in rectangle sprites, the height of the rectangle.
+- **size** - (Number) Used in square sprites, the dimension of the square.
+- **radius** - (Number) Used in circle sprites, the radius of the circle.
+- **x** - (Number) The position along the x-axis.
+- **y** - (Number) The position along the y-axis.
+- **path** - (Array) Used in path sprites, the path of the sprite written in SVG-like path syntax.
+- **opacity** - (Number) The opacity of the sprite.
+- **fill** - (String) The fill color.
+- **stroke** - (String) The stroke color.
+- **stroke-width** - (Number) The width of the stroke.
+- **font** - (String) Used with text type sprites. The full font description. Uses the same syntax as the CSS `font` parameter.
+- **text** - (String) Used with text type sprites. The text itself.
+
+Additionally there are three transform objects that can be set with `setAttributes` which are `translate`, `rotate` and
+`scale`.
+
+For translate, the configuration object contains x and y attributes for the translation. For example:
+
+ sprite.setAttributes({
+ translate: {
+ x: 10,
+ y: 10
+ }
+ }, true);
+
+For rotate, the configuration object contains x and y attributes for the center of the rotation (which are optional),
+and a degrees attribute that specifies the rotation in degrees. For example:
+
+ sprite.setAttributes({
+ rotate: {
+ degrees: 90
+ }
+ }, true);
+
+For scale, the configuration object contains x and y attributes for the x-axis and y-axis scaling. For example:
+
+ sprite.setAttributes({
+ scale: {
+ x: 10,
+ y: 3
+ }
+ }, true);
+
+### Interacting with a Sprite
+
+Now that we've created a draw surface with a sprite in it, let's dive into how to interact with the sprite.
+We can get a handle to the sprite we want to modify by adding that sprite imperatively to the surface:
+
+ @example
+ // Create a draw component
+ var drawComponent = Ext.create('Ext.draw.Component', {
+ viewBox: false
+ });
+
+ // Create a window to place the draw component in
+ Ext.create('Ext.Window', {
+ width: 220,
+ height: 230,
+ layout: 'fit',
+ items: [drawComponent]
+ }).show();
+
+ // Add a circle sprite
+ var myCircle = drawComponent.surface.add({
+ type: 'circle',
+ x: 100,
+ y: 100,
+ radius: 100,
+ fill: '#cc5'
+ });
+
+ // Now do stuff with the sprite, like changing its properties:
+ myCircle.setAttributes({
+ fill: '#ccc'
+ }, true);
+
+ // or animate an attribute on the sprite
+ myCircle.animate({
+ to: {
+ fill: '#555'
+ },
+ duration: 2000
+ });
+
+ // Add a mouseup listener to the sprite
+ myCircle.addListener('mouseup', function() {
+ alert('mouse upped!');
+ });
+
+In this example we've seen how we can add events, set sprite attributes and animate these attributes using the
+draw package. As you can see this package is a versatile abstraction layer over the graphics we can do. What's
+most interesting about this class is that we aren't tied to a specific shape or structure; also all elements
+support events, setting attributes and creating animations. Most important of all, all of this is compatible in all browsers and
+devices.
+
+## II. Charts
+
+So now that we learnt about the expressive power of the draw package, let's dive into charts. The chart
+package consists of a hierarchy of classes that define a chart container (something like a surface but more specific for
+handling charts); axes, legends, series, labels, callouts, tips, cartesian and radial coordinates, and specific series
+like Pie, Area, Bar, etc.
+
+In this section we will cover how these classes are tied together and what bits of functionality go into each of these
+classes. We won't cover each particular series, since that is done in the next section.
+
+### Chart
+
+The Chart class is the main drawing surface for series. It manages the rendering of each series and also how axes are
+drawn and defined. Chart also delegates mouse events over to different areas of the Chart like Series, Axes, etc.
+The Chart class extends Draw Component.
+
+A Chart instance has access to:
+
+ - axes - Accessed through `chart.axes`. All the axes being defined and drawn for this visualization. This is a mixed collection.
+ - series - Accessed through `chart.series`. All the series being drawn for the chart. This could be line, bar, scatter, etc. This is also a mixed collection.
+ - legend - The legend box object and its legend items.
+
+The chart instance supports custom events that can be triggered right before and during the rendering of the visualization.
+We can add handlers for these events by using:
+
+ chart.on({
+ 'refresh': function() {
+ alert('(re)drawing the chart');
+ }
+ });
+
+Chart also delegates events like `itemmousedown` and `itemmouseup` to the series so that we can append
+listeners to those objects and get the target sprite of the event.
+
+### Legend
+
+The chart configuration object accepts a `legend` parameter to enable legend items for each series and
+to set the position of the legend. These options are passed into the constructor of the chart. For example:
+
+ var chart = Ext.create('Ext.chart.Chart', {
+ width: 200,
+ height: 200,
+
+ // Set a legend
+ legend: {
+ position: 'left'
+ },
+
+ // Define axes
+ axes: [/*set an axis configuration*/],
+
+ // Define series
+ series: [/*set series configuration*/]
+ });
+
+Each series object needs to have the `showInLegend` parameter set to `true` in order to be in the legend list.
+
+### Axis
+
+The `axis` package contains an `Abstract` axis class that is extended by `Axis` and `Radial` axes. `Axis` represents
+a `Cartesian` axis and `Radial` uses polar coordinates to represent the information for polar based visualizations like
+Pie and Radar series. Axes are bound to the type of data we're trying to represent. There are axes for categorical
+information (called `Category` axis) and also axis for quantitative information like `Numeric`. For time-based information
+we have the `Time` axis that enables us to render information over a specific period of time, and to update that period of time
+with smooth animations. If you'd like to know more about each axis please go to the axis package documentation. Also, you will find
+configuration examples for axis in the bottom series examples.
+
+An axis contains divisions and subdivisions of values, represented by major and minor ticks. These can be adjusted automatically
+or manually to some specified interval, maximum and minimum values. The configuration options `maximum`, `minimum`, `majorTickSteps` and
+`minorTickSteps` in the `Numeric` axis are used to change the configuration and placement of the major and minor ticks. For example, by
+using:
+
+ axes: [{
+ type: 'Numeric',
+ position: 'left',
+ fields: ['data1'],
+ title: 'Number of Hits',
+ minimum: 0,
+ //one minor tick between two major ticks
+ minorTickSteps: 1
+ }, {
+ type: 'Category',
+ position: 'bottom',
+ fields: ['name'],
+ title: 'Month of the Year'
+ }]
+
+The following configuration will produce minor ticks in the left axis
+for the line series:
+
+{@img Ticks.jpg Series Image}
+
+
+### Gradients
+
+The drawing and charting package has also the power to create
+linear gradients. The gradients can be defined in the Chart configuration
+object as an array of gradient configurations. For each gradient configuration
+the following parameters are specified:
+
+ * **id** - string - The unique name of the gradient.
+ * **angle** - number, optional - The angle of the gradient in degrees.
+ * **stops** - object - An object with numbers as keys (from 0 to 100) and style objects as values.
+
+Each key in the stops object represents the percentage of the fill on the specified color for
+the gradient.
+
+For example:
+
+ gradients: [{
+ id: 'gradientId',
+ angle: 45,
+ stops: {
+ 0: {
+ color: '#555'
+ },
+ 100: {
+ color: '#ddd'
+ }
+ }
+ }, {
+ id: 'gradientId2',
+ angle: 0,
+ stops: {
+ 0: {
+ color: '#590'
+ },
+ 20: {
+ color: '#599'
+ },
+ 100: {
+ color: '#ddd'
+ }
+ }
+ }]
+
+You can apply a gradient to a sprite by setting a reference to a gradient **id** in
+the fill property. This reference is done via a url syntax. For example:
+
+ sprite.setAttributes({
+ fill: 'url(#gradientId)'
+ }, true);
+
+
+### Series
+
+A `Series` is an abstract class extended by concrete visualizations like
+`Line` or `Scatter`. The `Series` class contains code that is common to all of these series, like event handling, animation
+handling, shadows, gradients, common offsets, etc. The `Series` class is enhanced with a set of *mixins* that provide functionality
+like highlighting, callouts, tips, etc. A `Series` will contain an array of `items` where each item contains information about the
+positioning of each element, its associated `sprite` and a `storeItem`. The series also share the `drawSeries` method that updates
+all positions for the series and then renders the series.
+
+### Theming
+
+The Chart configuration object may have a `theme` property with a string value that references a builtin theme name.
+
+ var chart = Ext.create('Ext.chart.Chart', {
+ theme: 'Blue',
+ /* Other options... */
+ });
+
+A Theme defines the style of the shapes, color, font, axes and background
+of a chart. The theming configuration can be very rich and complex:
+
+
+ {
+ axis: {
+ fill: '#000',
+ 'stroke-width': 1
+ },
+ axisLabelTop: {
+ fill: '#000',
+ font: '11px Arial'
+ },
+ axisLabelLeft: {
+ fill: '#000',
+ font: '11px Arial'
+ },
+ axisLabelRight: {
+ fill: '#000',
+ font: '11px Arial'
+ },
+ axisLabelBottom: {
+ fill: '#000',
+ font: '11px Arial'
+ },
+ axisTitleTop: {
+ fill: '#000',
+ font: '11px Arial'
+ },
+ axisTitleLeft: {
+ fill: '#000',
+ font: '11px Arial'
+ },
+ axisTitleRight: {
+ fill: '#000',
+ font: '11px Arial'
+ },
+ axisTitleBottom: {
+ fill: '#000',
+ font: '11px Arial'
+ },
+ series: {
+ 'stroke-width': 1
+ },
+ seriesLabel: {
+ font: '12px Arial',
+ fill: '#333'
+ },
+ marker: {
+ stroke: '#555',
+ fill: '#000',
+ radius: 3,
+ size: 3
+ },
+ seriesThemes: [{
+ fill: '#C6DBEF'
+ }, {
+ fill: '#9ECAE1'
+ }, {
+ fill: '#6BAED6'
+ }, {
+ fill: '#4292C6'
+ }, {
+ fill: '#2171B5'
+ }, {
+ fill: '#084594'
+ }],
+ markerThemes: [{
+ fill: '#084594',
+ type: 'circle'
+ }, {
+ fill: '#2171B5',
+ type: 'cross'
+ }, {
+ fill: '#4292C6',
+ type: 'plus'
+ }]
+ }
+
+We can also create a seed of colors that will be the base for the entire theme just by creating
+a simple array of colors in the configuration object like:
+
+ {
+ colors: ['#aaa', '#bcd', '#eee']
+ }
+
+When setting a base color the theme will generate an array of colors that match the base color:
+
+ {
+ baseColor: '#bce'
+ }
+
+You can create a custom theme by extending from the base theme. For example, to create a custom `Fancy` theme we can do:
+
+ var colors = ['#555',
+ '#666',
+ '#777',
+ '#888',
+ '#999'];
+
+ var baseColor = '#eee';
+
+ Ext.define('Ext.chart.theme.Fancy', {
+ extend: 'Ext.chart.theme.Base',
+
+ constructor: function(config) {
+ this.callParent([Ext.apply({
+ axis: {
+ fill: baseColor,
+ stroke: baseColor
+ },
+ axisLabelLeft: {
+ fill: baseColor
+ },
+ axisLabelBottom: {
+ fill: baseColor
+ },
+ axisTitleLeft: {
+ fill: baseColor
+ },
+ axisTitleBottom: {
+ fill: baseColor
+ },
+ colors: colors
+ }, config)]);
+ }
+ });
+
+ var chart = Ext.create('Ext.chart.Chart', {
+ theme: 'Fancy',
+
+ /* Other options here... */
+ });
+
+
+## III. Series
+
+The following section will go through our available series/visualizations, introduce each
+one of them and show a complete configuration example of the series. The example will include the `Chart`,
+`Axis` and `Series` configuration options.
+
+### Area
+
+Creates a Stacked Area Chart. The stacked area chart is useful when displaying multiple aggregated layers of information.
+As with all other series, the Area Series must be appended in the *series* Chart array configuration.
+
+
+{@img Area.jpg Series Image}
+
+
+A typical configuration object for the area series could be:
+
+ var chart = Ext.create('Ext.chart.Chart', {
+ renderTo: Ext.getBody(),
+ width: 800,
+ height: 600,
+ animate: true,
+ store: store,
+ legend: {
+ position: 'bottom'
+ },
+
+ // Add Numeric and Category axis
+ axes: [{
+ type: 'Numeric',
+ grid: true,
+ position: 'left',
+ fields: ['data1', 'data2', 'data3'],
+ title: 'Number of Hits',
+ grid: {
+ odd: {
+ opacity: 1,
+ fill: '#ddd',
+ stroke: '#bbb',
+ 'stroke-width': 1
+ }
+ },
+ minimum: 0,
+ adjustMinimumByMajorUnit: 0
+ }, {
+ type: 'Category',
+ position: 'bottom',
+ fields: ['name'],
+ title: 'Month of the Year',
+ grid: true,
+ label: {
+ rotate: {
+ degrees: 315
+ }
+ }
+ }],
+
+ // Add the Area Series
+ series: [{
+ type: 'area',
+ highlight: true,
+ axis: 'left',
+ xField: 'name',
+ yField: ['data1', 'data2', 'data3'],
+ style: {
+ opacity: 0.93
+ }
+ }]
+ });
+
+
+### Bar
+
+Creates a Bar Chart. A Bar Chart is a useful visualization technique to display quantitative information for different
+categories that can show some progression (or regression) in the dataset.
+As with all other series, the Bar Series must be appended in the *series* Chart array configuration. See the Chart
+documentation for more information.
+
+
+{@img Bar.jpg Series Image}
+
+
+A typical configuration object for the bar series could be:
+
+ var chart = Ext.create('Ext.chart.Chart', {
+ renderTo: Ext.getBody(),
+ width: 800,
+ height: 600,
+ animate: true,
+ store: store,
+ theme: 'White',
+ axes: [{
+ type: 'Numeric',
+ position: 'bottom',
+ fields: ['data1'],
+ title: 'Number of Hits'
+ }, {
+ type: 'Category',
+ position: 'left',
+ fields: ['name'],
+ title: 'Month of the Year'
+ }],
+ //Add Bar series.
+ series: [{
+ type: 'bar',
+ axis: 'bottom',
+ xField: 'name',
+ yField: 'data1',
+ highlight: true,
+ label: {
+ display: 'insideEnd',
+ field: 'data1',
+ renderer: Ext.util.Format.numberRenderer('0'),
+ orientation: 'horizontal',
+ color: '#333',
+ 'text-anchor': 'middle'
+ }
+ }]
+ });
+
+
+### Line
+
+Creates a Line Chart. A Line Chart is a useful visualization technique to display quantitative information for different
+categories or other real values (as opposed to the bar chart), that can show some progression (or regression) in the dataset.
+As with all other series, the Line Series must be appended in the *series* Chart array configuration. See the Chart
+documentation for more information.
+
+
+{@img Line.jpg Series Image}
+
+
+A typical configuration object for the line series could be:
+
+ var chart = Ext.create('Ext.chart.Chart', {
+ renderTo: Ext.getBody(),
+ width: 800,
+ height: 600,
+ animate: true,
+ store: store,
+ shadow: true,
+ theme: 'Category1',
+ axes: [{
+ type: 'Numeric',
+ minimum: 0,
+ position: 'left',
+ fields: ['data1', 'data2', 'data3'],
+ title: 'Number of Hits'
+ }, {
+ type: 'Category',
+ position: 'bottom',
+ fields: ['name'],
+ title: 'Month of the Year'
+ }],
+
+ // Add two line series
+ series: [{
+ type: 'line',
+ axis: 'left',
+ xField: 'name',
+ yField: 'data1',
+ markerConfig: {
+ type: 'cross',
+ size: 4,
+ radius: 4,
+ 'stroke-width': 0
+ }
+ }, {
+ type: 'line',
+ axis: 'left',
+ fill: true,
+ xField: 'name',
+ yField: 'data3',
+ markerConfig: {
+ type: 'circle',
+ size: 4,
+ radius: 4,
+ 'stroke-width': 0
+ }
+ }]
+ });
+
+A marker configuration object contains the same properties used to create a Sprite.
+You can find the properties used to create a Sprite in the Sprite section above.
+
+
+### Pie
+
+Creates a Pie Chart. A Pie Chart is a useful visualization technique to display quantitative information for different
+categories that also have a meaning as a whole.
+As with all other series, the Pie Series must be appended in the *series* Chart array configuration. See the Chart
+documentation for more information. A typical configuration object for the pie series could be:
+
+
+{@img Pie.jpg Series Image}
+
+
+A typical configuration object for the pie series could be:
+
+ var chart = Ext.create('Ext.chart.Chart', {
+ width: 800,
+ height: 600,
+ animate: true,
+ shadow: true,
+ store: store,
+ renderTo: Ext.getBody(),
+ legend: {
+ position: 'right'
+ },
+ insetPadding: 25,
+ theme: 'Base:gradients',
+ series: [{
+ type: 'pie',
+ field: 'data1',
+ showInLegend: true,
+ highlight: {
+ segment: {
+ margin: 20
+ }
+ },
+ label: {
+ field: 'name',
+ display: 'rotate',
+ contrast: true,
+ font: '18px Arial'
+ }
+ }]
+ });
+
+
+### Radar
+
+Creates a Radar Chart. A Radar Chart is a useful visualization technique for comparing different quantitative values for
+a constrained number of categories.
+As with all other series, the Radar series must be appended in the *series* Chart array configuration. See the Chart
+documentation for more information.
+
+{@img Radar.jpg Series Image}
+
+A typical configuration object for the radar series could be:
+
+ var chart = Ext.create('Ext.chart.Chart', {
+ width: 800,
+ height: 600,
+ animate: true,
+ store: store,
+ renderTo: Ext.getBody(),
+ insetPadding: 20,
+ theme: 'Category2',
+ axes: [{
+ type: 'Radial',
+ position: 'radial',
+ label: {
+ display: true
+ }
+ }],
+
+ // Add two series for radar.
+ series: [{
+ type: 'radar',
+ xField: 'name',
+ yField: 'data1',
+ showMarkers: true,
+ markerConfig: {
+ radius: 5,
+ size: 5
+ },
+ style: {
+ 'stroke-width': 2,
+ fill: 'none'
+ }
+ },{
+ type: 'radar',
+ xField: 'name',
+ yField: 'data3',
+ showMarkers: true,
+ markerConfig: {
+ radius: 5,
+ size: 5
+ },
+ style: {
+ 'stroke-width': 2,
+ fill: 'none'
+ }
+ }]
+ });
+
+
+### Scatter
+
+Creates a Scatter Chart. The scatter plot is useful when trying to display more than two variables in the same visualization.
+These variables can be mapped into x, y coordinates and also to an element's radius/size, color, etc.
+As with all other series, the Scatter Series must be appended in the *series* Chart array configuration. See the Chart
+documentation for more information on creating charts.
+
+{@img Scatter.jpg Series Image}
+
+A typical configuration object for the scatter series could be:
+
+ var chart = Ext.create('Ext.chart.Chart', {
+ width: 800,
+ height: 600,
+ animate: true,
+ store: store,
+ renderTo: Ext.getBody(),
+ axes: [{
+ type: 'Numeric',
+ position: 'left',
+ fields: ['data1', 'data2', 'data3'],
+ title: 'Number of Hits'
+ }],
+ series: [{
+ type: 'scatter',
+ markerConfig: {
+ radius: 5,
+ size: 5
+ },
+ axis: 'left',
+ xField: 'name',
+ yField: 'data1',
+ color: '#a00'
+ }, {
+ type: 'scatter',
+ markerConfig: {
+ radius: 5,
+ size: 5
+ },
+ axis: 'left',
+ xField: 'name',
+ yField: 'data2'
+ }, {
+ type: 'scatter',
+ markerConfig: {
+ radius: 5,
+ size: 5
+ },
+ axis: 'left',
+ xField: 'name',
+ yField: 'data3'
+ }]
+ });
+
+
+### Gauge
+
+Creates a Gauge Chart. Gauge Charts are used to show progress in a certain variable. There are two ways of using the Gauge chart.
+One is setting a store element into the Gauge and selecting the field to be used from that store. Another one is instantiating the
+ visualization and using the `setValue` method to adjust the value you want.
+
+{@img Gauge.jpg Series Image}
+
+A chart/series configuration for the Gauge visualization could look like this:
+
+ {
+ xtype: 'chart',
+ store: store,
+ axes: [{
+ type: 'gauge',
+ position: 'gauge',
+ minimum: 0,
+ maximum: 100,
+ steps: 10,
+ margin: -10
+ }],
+ series: [{
+ type: 'gauge',
+ field: 'data1',
+ donut: false,
+ colorSet: ['#F49D10', '#ddd']
+ }]
+ }
+
+
+In this configuration we create a special Gauge axis to be used with the gauge visualization (describing half-circle markers), and also we're
+setting a maximum, minimum and steps configuration options into the axis. The Gauge series configuration contains the store field to be bound to
+the visual display and the color set to be used with the visualization.
+