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NOTE: This package has been consolidated into the vega/vega repository, where future development and issues will be handled. This repository has been archived and is now read-only.

vega-view

View component for Vega visualizations. A View instantiates an underlying dataflow graph and provides a component for rendering and interacting with a visualization. When initialized with a container DOM element, the View adds a Canvas or SVG-based visualization to a web page. Alternatively, a View can be used either client-side or server-side to export static SVG or PNG (Canvas) images.

View API Reference

View Construction

Methods for constructing and deconstructing views. In addition to the methods described below, View instances also inherit all (non-overridden) methods of the vega-dataflow Dataflow parent class.

# vega.View(runtime[, options]) <>

Constructor that creates a new View instance for the provided Vega dataflow runtime specification. If provided, the options argument should be an object with one or more of the following properties:

  • loader: Default loader instance to use for data files and images.
  • logLevel: Initial log level to use. See the logLevel method.
  • renderer: The type of renderer to use ('canvas' or 'svg'). See the renderer method.
  • tooltip: Handler function invoked to support tooltip display. See the tooltip method.

The View constructor call is typically followed by a chain of method calls to setup the desired view configuration. At the end of this chain, the run method evaluates the underlying dataflow graph to update and render the visualization.

var view = new vega.View(runtime)
  .logLevel(vega.Warn) // set view logging level
  .initialize(document.querySelector('#view')) // set parent DOM element
  .renderer('svg') // set render type (defaults to 'canvas')
  .hover() // enable hover event processing
  .run(); // update and render the view

# view.finalize() <>

Prepares the view to be removed. To prevent unwanted behaviors and memory leaks, this method unregisters any timers and removes any event listeners the visualization has registered on external DOM elements. Applications should invoke this method when a View instance is no longer needed.

View Configuration

Methods for configuring the view state. These methods are often (but not always) invoked immediately after the View constructor, prior to the first invocation of the run method.

# view.initialize([container, bindContainer]) <>

Initializes internal rendering and event handling, then returns this view instance. If the DOM element container is provided, visualization elements (such as Canvas or SVG HTML elements) will be added to the web page under this containing element. If container is not provided, the view will operate in headless mode, and can still generate static visualization images using the image export methods. The optional DOM element (or unique CSS selector) bindContainer indicates the element that should contain any input elements bound to signals; if not specified the same container element as the visualization will be used.

# view.loader([loader]) <>

Get or set the loader instance to use for data files and images. If the loader is updated after initialize has been invoked, the visualization will be reinitialized. If a Vega View loads data from an external URL, the load request is made immediately upon view construction. To ensure a custom loader is used, provide the loader as a constructor option! Invoking this method will update the loader only after initial data requests have been made.

# view.logLevel(level) <>

Sets the current log level and returns this view instance. This method controls which types of log messages are printed to the JavaScript console, and is inherited from the Dataflow parent class. The valid level values are vega.None (the default), vega.Warn, vega.Info, vega.Debug. See the logger method in vega-util for more.

# view.renderer(type) <>

Sets the renderer type (e.g., 'canvas' (the default) or 'svg') and returns this view instance. While typically invoked immediately upon view creation, this method can be called at any time to change the renderer.

Additional renderer types may be used if registered via the renderModule method exported by vega-scenegraph; for an example see the vega-webgl-renderer.

# view.tooltip(tooltipHandler) <>

Get or set the tooltip handler function, which is invoked to handle display of tooltips (for example, when users hover the mouse cursor over an item). The tooltipHandler argument should be a function that respects the following method signature:

function(handler, event, item, value) {
  // perform custom tooltip presentation
}

The tooltipHandler function arguments are:

  • handler - The scenegraph input Handler instance that invoked the tooltipHandler function.
  • event - The event that caused an update to the tooltip display.
  • item - The scenegraph item corresponding to the tooltip.
  • value - The tooltip value to display. If null or undefined, indicates that no tooltip should be shown. The tooltip value may have an arbitrary type, including Object and Array values. It is up the tooltipHandler to appropriately interpret and display this value.
  • In addition, Vega invokes the tooltipHander using the current View as the this context for the function.

The default handler uses built-in browser support to show tooltips. It takes a value to show in a tooltip, transforms it to a string value, and sets the HTML "title" attribute on the element containing the View. The default handler will coerce literal values to strings, and will show the contents of Object or Array values (up to one level of depth). For Object values, each key-value pair is displayed on its own line of text ("key1: value\nkey2: value2").

# view.hover([hoverSet, updateSet]) <>

Enables hover event processing and returns this view instance. The optional arguments specify which named encoding sets to invoke upon mouseover and mouseout. The hoverSet defaults to 'hover', corresponding to the "hover" set within a Vega mark specification "encode" block. The updateSet defaults to 'update', corresponding to the "update" set within a Vega mark specification "encode" block. If this method is never invoked, the view will not automatically handle hover events. Instead, the underlying dataflow definition will have to explicitly set up event streams for handling mouseover and mouseout events.

# view.background([color]) <>

Gets or sets the view background color. If no arguments are provided, returns the current background color. If color is specified, this method sets the background color and returns this view instance. This method does not force an immediate update to the view: invoke the run method when ready.

# view.width([width]) <>

Gets or sets the view width, in pixels. If no arguments are provided, returns the current width value. If width is specified, this method sets the width and returns this view instance. This method does not force an immediate update to the view: invoke the run method when ready. This method is equivalent to view.signal('width'[, width]).

# view.height([height]) <>

Gets or sets the view height, in pixels. If no arguments are provided, returns the current height value. If height is specified, this method sets the height and returns this view instance. This method does not force an immediate update to the view: invoke the run method when ready. This method is equivalent to view.signal('height'[, height]).

# view.padding([padding]) <>

Gets or sets the view padding, in pixels. Padding objects take the form {left: 5, top: 5, right: 5, bottom: 5}. If no arguments are provided, returns the current padding value. If padding is specified, this method sets the padding and returns this view instance. This method does not force an immediate update to the view: invoke the run method when ready. This method is equivalent to view.signal('padding'[, padding]).

# view.resize() <>

Sets a flag indicating that layout autosize calculations should be re-run on the next pulse propagation cycle. If an autosize method of "pad" or "fit" is being used, calling this method will cause the chart bounds layout to be recomputed the next time the run method is invoked.

Dataflow and Rendering

Methods for invoking dataflow evaluation and view rendering.

# view.run([encode]) <>

Evaluates the underlying dataflow graph and returns this view instance. The optional encode argument is a String value indicating the name of a custom "encode" set to run in addition to the standard "update" encoder. If one or more data sets have been queued to be loaded from external files, this method will function asynchronously: the method will initiate file loading and return immediately, and the dataflow graph will be evaluated when file loading completes. Any scenegraph elements modified during dataflow evaluation will automatically be re-rendered in the view.

Internally, this method invokes the run method of the Dataflow parent class, and then additionally performs rendering.

# view.runAfter(callback) <>

Schedules a callback function to be invoked after the current dataflow evaluation completes. The callback function will be invoked with this view instance provided as the sole parameter. If dataflow evaluation is not currently occurring, the callback function is invoked immediately.

# view.render([update]) <>

Renders the scenegraph and returns this view instance. If no arguments are provided, the entire scenegraph is redrawn. If provided, the update argument should be an array of "dirty" scenegraph items to redraw. Incremental rendering will be performed to redraw only damaged regions of the scenegraph.

During normal execution, this method is automatically invoked by the run method. However, clients may explicitly call this method to (re-)render the scene on demand (for example, to aid debugging).

# view.dirty(item) <>

Reports a "dirty" scenegraph item to be re-drawn the next time dataflow evaluation completes. This method is typically invoked by dataflow operators directly to populate a dirty list for incremental rendering.

# view.container() <>

Returns the DOM container element for this view, if it exists.

# view.scenegraph() <>

Returns the Vega scenegraph instance for this view.

# view.origin() <>

Returns the [x, y] origin coordinates for the current view. The origin coordinates indicate the translation of the view's primary coordinate system, encompassing the left and top padding values as well as any additional padding due to autosize calculations.

Signals

Methods for accessing and updating dataflow signal values.

# view.signal(name[, value]) <>

Gets or sets a dataflow signal. If only the name argument is provided, returns the requested signal value. If value is also specified, updates the signal and returns this view instance. If the signal does not exist, an error will be raised. This method does not force an immediate update to the view: invoke the run method when ready.

# view.getState([options]) <>

Gets the state of signals and data sets in this view's backing dataflow graph. If no arguments are specified, returns an object containing both signal values and any modified data sets for this view. By default, the exported state includes all signal values (across all mark contexts) except for those bound to data pipeline transforms, and any data sets that were explicitly modified via triggers or the View API.

An options argument can be provided to control what internal state is collected. However, the options involve interacting with internal details of a Vega runtime dataflow and is intended for expert use only. The default options should suffice for state capture in most instances.

The options object supports the following properties:

  • signals: A predicate function that accepts a signal name and operator and returns true to export the operator state.
  • data: A predicate function that accepts a dataset name and dataset object and returns true to export the data.
  • recurse: A boolean flag indicating if the state export process should recurse into mark sub-contexts.

# view.setState(state) <>

Sets the state of signals and/or datasets in this view's backing dataflow graph. The state argument should be an object generated by the getState method. This method updates all implicated signals and data sets, invokes the run method, and returns this view instance.

# view.addSignalListener(name, handler) <>

Registers a listener for changes to the signal with the given name and returns this view instance. If the signal does not exist, an error will be raised. This method is idempotent: adding the same handler for the same signal multiple times has no effect beyond the first call.

When the signal value changes, the handler function is invoked with two arguments: the name of the signal and the new signal value. Listeners will be invoked when the signal value changes during pulse propagation (e.g., after view.run() is called).

Signal listeners are invoked immediately upon signal update, in the midst of dataflow evaluation. As a result, other signal updates and data transforms may have yet to update. If you wish to access the values of other signals, or update signal values and re-run the dataflow, use the runAfter method to schedule a callback that performs the desired actions after dataflow evaluation completes. Attempting to call the run method from within a signal listener will result in an error, as recursive invocation is not allowed.

To remove a listener, use the removeSignalListener method.

view.addSignalListener('width', function(name, value) {
  console.log('WIDTH: ' + value);
});
view.width(500).run(); // listener logs 'WIDTH: 500'

# view.removeSignalListener(name, handler) <>

Removes a signal listener registered with the addSignalListener method and returns this view instance. If the signal does not exist, an error will be raised. If the signal exists but the provided handler is not registered, this method has no effect.

Event Handling

Methods for generating new event streams, registering event listeners, and handling tooltips. See also the hover method.

# view.events(source, type[, filter]) <>

Returns a new EventStream for a specified source, event type, and optional filter function. The source should be one of "view" (to specify the current view), "window" (to specify the browser window object), or a valid CSS selector string (that will be passed to document.querySelectorAll). The event type should be a legal DOM event type. If provided, the optional filter argument should be a function that takes an event object as input and returns true if it should be included in the produced event stream.

Typically this method is invoked internally to create event streams referenced within Vega signal definitions. However, callers can use this method to create custom event streams if desired. This method assumes that the view is running in a browser environment, otherwise invoking this method may have no effect.

# view.addEventListener(type, handler[, options]) <>

Registers an event listener for input events and returns this view instance. The event type should be a string indicating a legal DOM event type supported by vega-scenegraph event handlers. Examples include "mouseover", "click", "keydown" and "touchstart". This method is idempotent: adding the same handler for the same event type multiple times has no effect beyond the first call.

The optional options hash accepts one parameter (options.trap): if options.trap is set to false, automatic error trapping for event handler functions is disabled.

When events occur, the handler function is invoked with two arguments: the event instance and the currently active scenegraph item (which is null if the event target is the view component itself).

All registered event handlers are preserved upon changes of renderer. For example, if the View renderer type is changed from "canvas" to "svg", all listeners will remain active. To remove a listener, use the removeEventListener method.

view.addEventListener('click', function(event, item) {
  console.log('CLICK', event, item);
});

# view.removeEventListener(type, handler) <>

Removes an event listener registered with the addEventListener method and returns this view instance.

# view.addResizeListener(handler) <>

Registers a listener for changes to the view size and returns this view instance. This method is idempotent: adding the same handler multiple times has no effect beyond the first call.

When the view size changes, the handler function is invoked with two arguments: the width and height of the view.

view.addResizeListener(function(width, height) {
  console.log('RESIZE', width, height);
});

# view.removeResizeListener(type, handler) <>

Removes a listener registered with the addResizeListener method and returns this view instance.

Image Export

Methods for exporting static visualization images. These methods can be invoked either client-side or server-side.

# view.toCanvas([scaleFactor]) <>

Returns a Promise that resolves to a canvas instance containing a rendered bitmap image of the view. The optional scaleFactor argument (default 1) is a number by which to multiply the view width and height when determining the output image size. If invoked in a browser, the returned Promise resolves to an HTML5 canvas element. If invoked server-side in node.js, the Promise resolves to a node-canvas Canvas instance.

# view.toSVG([scaleFactor]) <>

Returns a Promise that resolves to an SVG string, providing a vector graphics image of the view. The optional scaleFactor argument (default 1) is a number by which to multiply the view width and height when determining the output image size.

# view.toImageURL(type[, scaleFactor]) <>

Returns a Promise that resolves to an image URL for a snapshot of the current view. The type argument must be one of 'svg', 'png' or 'canvas'. Both the png and canvas types result in a PNG image. The generated URL can be used to create downloadable visualization images. The optional scaleFactor argument (default 1) is a number by which to multiply the view width and height when determining the output image size.

// generate a PNG snapshot and then download the image
view.toImageURL('png').then(function(url) {
  var link = document.createElement('a');
  link.setAttribute('href', url);
  link.setAttribute('target', '_blank');
  link.setAttribute('download', 'vega-export.png');
  link.dispatchEvent(new MouseEvent('click'));
}).catch(function(error) { /* error handling */ });

Data and Scales

Methods for accessing scales or data sets, and performing streaming updates.

# view.scale(name) <>

Returns the scale or projection instance with the given name. The return value is a live instance used by the underlying dataflow. Callers should take care not to modify the returned instance!

# view.data(name) <>

Returns the data set with the given name. The returned array of data objects is a live array used by the underlying dataflow. Callers that wish to modify the returned array should first make a defensive copy, for example using view.data('name').slice().

# view.addDataListener(name, handler) <>

Registers a listener for changes to a named data set with the given name and returns this view instance. If the data set does not exist, an error will be raised. This method is idempotent: adding the same handler for the same data set multiple times has no effect beyond the first call.

When the data set value changes, the handler function is invoked with two arguments: the name of the signal and the new data set value. Listeners will be invoked when the data set value changes during pulse propagation (e.g., after view.run() is called). The value passed to the handler is the same as that returned by the view.data method. The returned array of data objects is a live array used by the underlying dataflow. Listeners that wish to modify the returned array should first make a defensive copy, for example using value.slice().

Data listeners are invoked immediately upon data set update, in the midst of dataflow evaluation. As a result, other signal values and data transforms may have yet to update. If you wish to access the values of other signals or data sets and re-run the dataflow, use the runAfter method to schedule a callback that performs the desired actions after dataflow evaluation completes. Attempting to call the run method from within a data listener will result in an error, as recursive invocation is not allowed.

To remove a listener, use the removeDataListener method.

view.addDataListener('source', function(name, value) {
  console.log(name, value);
});

# view.removeDataListener(name, handler) <>

Removes a data set listener registered with the addDataListener method and returns this view instance. If the data set does not exist, an error will be raised. If the data set exists but the provided handler is not registered, this method has no effect.

# view.change(name, changeset) <>

Updates the data set with the given name with the changes specified by the provided changeset instance. This method does not force an immediate update to the view: invoke the run method when ready.

view.change('data', vega.changeset().insert([...]).remove([...]))
    .run()

Inserted data tuples must be JavaScript objects that have been properly parsed ahead of time. Any data source "format" directives in a Vega JSON specification will not be applied to tuples added through the View API. Internally, this method takes the provided ChangeSet and invokes Dataflow.pulse. See vega-dataflow for more.

# view.insert(name, tuples) <>

Inserts an array of new data tuples into the data set with the given name, then returns this view instance. The input tuples array should contain one or more data objects that are not already included in the data set. This method does not force an immediate update to the view: invoke the run method when ready. Insert can not be used in combination with the remove method on the same pulse; to simultaneously add and remove data use the change method.

Inserted data tuples must be JavaScript objects that have been properly parsed ahead of time. Any data source "format" directives in a Vega JSON specification will not be applied to tuples added through the View API. Internally, this method creates a ChangeSet and invokes Dataflow.pulse. See vega-dataflow for more.

# view.remove(name, tuples) <>

Removes data tuples from the data set with the given name, then returns this view instance. The tuples argument can either be an array of tuples already included in the data set, or a predicate function indicating which tuples should be removed. This method does not force an immediate update to the view: invoke the run method when ready. Remove can not be used in combination with the insert method on the same pulse; to simultaneously add and remove data use the change method.

For example, to remove all tuples in the 'table' data set with a count property less than five:

view.remove('table', function(d) { return d.count < 5; }).run();

Internally, this method creates a ChangeSet and invokes Dataflow.pulse. See vega-dataflow for more.