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react-tracking
Advanced tools
@decorator
or directly), or as a React HookRead more in the Times Open blog post.
If you just want a quick sandbox to play around with:
npm install --save react-tracking
import track, { useTracking } from 'react-tracking';
Both @track()
and useTracking()
expect two arguments, trackingData
and options
.
trackingData
represents the data to be tracked (or a function returning that data)options
is an optional object that accepts the following properties (when decorating/wrapping a component, it also accepts a forwardRef
property):
dispatch
, which is a function to use instead of the default dispatch behavior. See the section on custom dispatch()
below.dispatchOnMount
, when set to true
, dispatches the tracking data when the component mounts to the DOM. When provided as a function will be called in a useEffect on the component's initial render with all of the tracking context data as the only argument.process
, which is a function that can be defined once on some top-level component, used for selectively dispatching tracking events based on each component's tracking data. See more details below.forwardRef
(decorator/HoC only), when set to true
, adding a ref to the wrapped component will actually return the instance of the underlying component. Default is false
.mergeOptions
optionally provide deepmerge options, check deepmerge options API for details.tracking
propThe @track()
decorator will expose a tracking
prop on the component it wraps, that looks like:
{
// tracking prop provided by @track()
tracking: PropTypes.shape({
// function to call to dispatch tracking events
trackEvent: PropTypes.func,
// function to call to grab contextual tracking data
getTrackingData: PropTypes.func,
});
}
The useTracking
hook returns an object with this same shape, plus a <Track />
component that you use to wrap your returned markup to pass contextual data to child components.
We can access the trackEvent
method via the useTracking
hook from anywhere in the tree:
import { useTracking } from 'react-tracking';
const FooPage = () => {
const { Track, trackEvent } = useTracking({ page: 'FooPage' });
return (
<Track>
<div
onClick={() => {
trackEvent({ action: 'click' });
}}
/>
</Track>
);
};
The useTracking
hook returns an object with the same getTrackingData()
and trackEvent()
methods that are provided as props.tracking
when wrapping with the @track()
decorator/HoC (more info about the decorator can be found below). It also returns an additional property on that object: a <Track />
component that can be returned as the root of your component's sub-tree to pass any new contextual data to its children.
Note that in most cases you would wrap the markup returned by your component with
<Track />
. This will deepmerge a new tracking context and make it available to all child components. The only time you wouldn't wrap your returned markup with<Track />
is if you're on some leaf component and don't have any more child components that need tracking info.
import { useTracking } from 'react-tracking';
const Child = () => {
const { trackEvent } = useTracking();
return (
<div
onClick={() => {
trackEvent({ action: 'childClick' });
}}
/>
);
};
const FooPage = () => {
const { Track, trackEvent } = useTracking({ page: 'FooPage' });
return (
<Track>
<Child />
<div
onClick={() => {
trackEvent({ action: 'click' });
}}
/>
</Track>
);
};
In the example above, the click event in the FooPage
component will dispatch the following data:
{
page: 'FooPage',
action: 'click',
}
Because we wrapped the sub-tree returned by FooPage
in <Track />
, the click event in the Child
component will dispatch:
{
page: 'FooPage',
action: 'childClick',
}
The default track()
export is best used as a @decorator()
using the babel decorators plugin.
The decorator can be used on React Classes and on methods within those classes. If you use it on methods within these classes, make sure to decorate the class as well.
Note: In order to decorate class property methods within a class, as shown in the example below, you will need to enable loose mode in the babel class properties plugin.
import React from 'react';
import track from 'react-tracking';
@track({ page: 'FooPage' })
export default class FooPage extends React.Component {
@track({ action: 'click' })
handleClick = () => {
// ... other stuff
};
render() {
return <button onClick={this.handleClick}>Click Me!</button>;
}
}
You can also track events by importing track()
and wrapping your stateless functional component, which will provide props.tracking.trackEvent()
that you can call in your component like so:
import track from 'react-tracking';
const FooPage = props => {
return (
<div
onClick={() => {
props.tracking.trackEvent({ action: 'click' });
// ... other stuff
}}
/>
);
};
export default track({
page: 'FooPage',
})(FooPage);
This is also how you would use this module without @decorator
syntax, although this is obviously awkward and the decorator syntax is recommended.
options.dispatch()
for tracking dataBy default, data tracking objects are pushed to window.dataLayer[]
(see src/dispatchTrackingEvent.js). This is a good default if you use Google Tag Manager.
However, please note that in React Native environments, the window object is undefined as it's specific to web browser environments.
You can override this by passing in a dispatch function as a second parameter to the tracking decorator { dispatch: fn() }
on some top-level component high up in your app (typically some root-level component that wraps your entire app).
For example, to push objects to window.myCustomDataLayer[]
instead, you would decorate your top-level <App />
component like this:
import React, { Component } from 'react';
import track from 'react-tracking';
@track({}, { dispatch: data => window.myCustomDataLayer.push(data) })
export default class App extends Component {
render() {
return this.props.children;
}
}
This can also be done in a functional component using the useTracking
hook:
import React from 'react';
import { useTracking } from 'react-tracking';
export default function App({ children }) {
const { Track } = useTracking(
{},
{ dispatch: data => window.myCustomDataLayer.push(data) }
);
return <Track>{children}</Track>;
}
NOTE: It is recommended to do this on some top-level component so that you only need to pass in the dispatch function once. Every child component from then on will use this dispatch function.
options.dispatchOnMount
You can pass in a second parameter to @track
, options.dispatchOnMount
. There are two valid types for this, as a boolean or as a function. The use of the two is explained in the next sections:
options.dispatchOnMount
as a booleanTo dispatch tracking data when a component mounts, you can pass in { dispatchOnMount: true }
as the second parameter to @track()
. This is useful for dispatching tracking data on "Page" components, for example.
@track({ page: 'FooPage' }, { dispatchOnMount: true })
class FooPage extends Component { ... }
function FooPage() {
useTracking({ page: 'FooPage' }, { dispatchOnMount: true });
}
Will dispatch the following data (assuming no other tracking data in context from the rest of the app):
{
page: 'FooPage'
}
Of course, you could have achieved this same behavior by just decorating the componentDidMount()
lifecycle event yourself, but this convenience is here in case the component you're working with would otherwise be a stateless functional component or does not need to define this lifecycle method.
Note: this is only in effect when decorating a Class or stateless functional component. It is not necessary when decorating class methods since any invocations of those methods will immediately dispatch the tracking data, as expected.
options.dispatchOnMount
as a functionIf you pass in a function, the function will be called with all of the tracking data from the app's context when the component mounts. The return value of this function will be dispatched in componentDidMount()
. The object returned from this function call will deepmerge with the context data and then dispatched.
A use case for this would be that you want to provide extra tracking data without adding it to the context.
@track({ page: 'FooPage' }, { dispatchOnMount: (contextData) => ({ event: 'pageDataReady' }) })
class FooPage extends Component { ... }
function FooPage() {
useTracking(
{ page: 'FooPage' },
{ dispatchOnMount: contextData => ({ event: 'pageDataReady' }) }
);
}
Will dispatch the following data (assuming no other tracking data in context from the rest of the app):
{
event: 'pageDataReady',
page: 'FooPage'
}
options.process
When there's a need to implicitly dispatch an event with some data for every component, you can define an options.process
function. This function should be declared once, at some top-level component. It will get called with each component's tracking data as the only argument. The returned object from this function will deepmerge with all the tracking context data and dispatched in componentDidMount()
. If a falsy value is returned (false
, null
, undefined
, ...), nothing will be dispatched.
A common use case for this is to dispatch a pageview
event for every component in the application that has a page
property on its trackingData
:
@track({}, { process: (ownTrackingData) => ownTrackingData.page ? { event: 'pageview' } : null })
class App extends Component {...}
...
@track({ page: 'Page1' })
class Page1 extends Component {...}
@track({})
class Page2 extends Component {...}
function App() {
const { Track } = useTracking(
{},
{
process: ownTrackingData =>
ownTrackingData.page ? { event: 'pageview' } : null,
}
);
return (
<Track>
<Page1 />
<Page2 />
</Track>
);
}
function Page1() {
useTracking({ page: 'Page1' });
}
function Page2() {
useTracking({});
}
When Page1
mounts, event with data {page: 'Page1', event: 'pageview'}
will be dispatched.
When Page2
mounts, nothing will be dispatched.
Note: The options.process
function does not currently take single-page app (SPA) navigation into account. If the example above were implemented as an SPA, navigating back to Page1
, with no page reload, would not cause options.process
to fire a second time even if the Page1
component remounts. The recommended workaround for now is to call trackEvent
manually in a React.useEffect
callback in child components where you want the data to fire (see this code sandbox for an example). Follow issue #189 to monitor progress on a fix.
Asynchronous methods (methods that return promises) can also be tracked when the method has resolved or rejects a promise. This is handled transparently, so simply decorating an asynchronous method the same way as a normal method will make the tracking call after the promise is resolved or rejected.
// ...
@track()
async handleEvent() {
return await asyncCall(); // returns a promise
}
// ...
Or without async/await syntax:
// ...
@track()
handleEvent() {
return asyncCall(); // returns a promise
}
You can also pass a function as an argument instead of an object literal, which allows for some advanced usage scenarios such as when your tracking data is a function of some runtime values, like so:
import React from 'react';
import track from 'react-tracking';
// In this case, the "page" tracking data
// is a function of one of its props (isNew)
@track(props => {
return { page: props.isNew ? 'new' : 'existing' };
})
export default class FooButton extends React.Component {
// In this case the tracking data depends on
// some unknown (until runtime) value
@track((props, state, [event]) => ({
action: 'click',
label: event.currentTarget.title || event.currentTarget.textContent,
}))
handleClick = event => {
if (this.props.onClick) {
this.props.onClick(event);
}
};
render() {
return <button onClick={this.handleClick}>{this.props.children}</button>;
}
}
NOTE: That the above code utilizes some of the newer ES6 syntax. This is what it would look like in ES5:
// ...
@track(function(props, state, args) {
const event = args[0];
return {
action: 'click',
label: event.currentTarget.title || event.currentTarget.textContent
};
})
// ...
When tracking asynchronous methods, you can also receive the resolved or rejected data from the returned promise in the fourth argument of the function passed in for tracking:
// ...
@track((props, state, methodArgs, [{ value }, err]) => {
if (err) { // promise was rejected
return {
label: 'async action',
status: 'error',
value: err
};
}
return {
label: 'async action',
status: 'success',
value // value is "test"
};
})
handleAsyncAction(data) {
// ...
return Promise.resolve({ value: 'test' });
}
// ...
If the function returns a falsy value (e.g. false
, null
or undefined
) then the tracking call will not be made.
props
and state
Further runtime data, such as the component's props
and state
, are available as follows:
@track((props, state) => ({
action: state.following ? "unfollow clicked" : "follow clicked",
name: props.name
}))
handleFollow = () => {
this.setState({ following: !this.state.following })
}
}
props.tracking.getTrackingData()
usageAny data that is passed to the decorator can be accessed in the decorated component via its props. The component that is decorated will be returned with a prop called tracking
. The tracking
prop is an object that has a getTrackingData()
method on it. This method returns all of the contextual tracking data up until this point in the component hierarchy.
import React from 'react';
import track from 'react-tracking';
// Pass a function to the decorator
@track(() => {
const randomId = Math.floor(Math.random() * 100);
return {
page_view_id: randomId,
};
})
export default class AdComponent extends React.Component {
render() {
const { page_view_id } = this.props.tracking.getTrackingData();
return <Ad pageViewId={page_view_id} />;
}
}
Note that if you want to do something like the above example using the useTracking
hook, you will likely want to memoize the randomId
value, since otherwise you will get a different value each time the component renders:
import React, { useMemo } from 'react';
import { useTracking } from 'react-tracking';
export default function AdComponent() {
const randomId = useMemo(() => Math.floor(Math.random() * 100), []);
const { getTrackingData } = useTracking({ page_view_id: randomId });
const { page_view_id } = getTrackingData();
return <Ad pageViewId={page_view_id} />;
}
Note that there are no restrictions on the objects that are passed in to the decorator or hook.
The format for the tracking data object is a contract between your app and the ultimate consumer of the tracking data.
This library simply merges (using deepmerge) the tracking data objects together (as it flows through your app's React component hierarchy) into a single object that's ultimately sent to the tracking agent (such as Google Tag Manager).
You can get the type definitions for React Tracking from DefinitelyTyped using @types/react-tracking
. For an always up-to-date example of syntax, you should consult the react-tracking type tests.
The props.tracking
PropType is exported for use, if desired:
import { TrackingPropType } from 'react-tracking';
Alternatively, if you want to just silence proptype errors when using eslint react/prop-types, you can add this to your eslintrc:
{
"rules": {
"react/prop-types": ["error", { "ignore": ["tracking"] }]
}
}
The merging strategy is the default deepmerge merging strategy. We do not yet support extending the deepmerge options. If you're interested/have a need for that, please consider contributing: https://github.com/nytimes/react-tracking/issues/186
You can also use/reference the copy of deepmerge that react-tracking uses, as it's re-exported for convenience:
import { deepmerge } from 'react-tracking';
Going forward from version 9.x
, we do not bundle core-js
(ES6 polyfills) anymore. To support old browsers, please add core-js
to your project.
FAQs
Declarative tracking for React apps.
The npm package react-tracking receives a total of 64,574 weekly downloads. As such, react-tracking popularity was classified as popular.
We found that react-tracking demonstrated a not healthy version release cadence and project activity because the last version was released a year ago. It has 1 open source maintainer collaborating on the project.
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