This document describes how to customize various aspects of the waveform rendering and media playback in Peaks.js.
Peaks.js makes use of the Konva.js graphics library, and so we recommend becoming familiar with Konva. You may find the following tutorials helpful:
Note: The APIs described in this document are not yet stable, and so may change at any time.
Peaks.js allows you to customize the appearance of the point and segment
markers. This is achieved by providing createPointMarker and/or
createSegmentMarker functions in the options passed when calling
Peaks.init(), for example:
function createPointMarker(options) {
// (see below)
}
function createSegmentMarker(options) {
// (see below)
}
const options = {
// Add other options, as needed.
createPointMarker: createPointMarker,
createSegmentMarker: createSegmentMarker
};
Peaks.init(options, function(err, peaks) {
// Use the Peaks.js instance here
});There is a complete example demo available here that shows how to use these functions to draw custom point and segment marker handles.
The createPointMarker function returns an object that renders a point marker
handle. When called, this function receives an object containing the following
options:
| Name | Type | Description |
|---|---|---|
point |
Point |
The Point object associated with this marker handle. This provides access to the time, color, and labelText attributes, etc. |
view |
string |
The name of the view that the marker handle is being created in, either zoomview or overview. |
layer |
PointsLayer |
The rendering layer, see Layer API for details. |
draggable |
boolean |
If true, the marker is draggable. |
color |
string |
Color for the marker handle (set by the pointMarkerColor option in Peaks.init(). |
fontFamily |
string |
Font family for the marker handle text (set by the fontFamily option in Peaks.init(), default: 'sans-serif'). |
fontSize |
number |
Font size, in px, for the marker handle text (set by the fontSize option in Peaks.init(), default: 10) |
fontShape |
string |
Font shape for the marker handle text (set by the fontShape option in Peaks.init(), default: 'normal'). |
The function should return an instance of an object as illustrated by the
CustomPointMarker class below.
You can use the view option to give the marker a different appearance or
behaviour in the zoomview and overview waveform views.
class CustomPointMarker {
constructor(options) {
// (required, see below)
}
init(group) {
// (required, see below)
}
fitToView() {
// (required, see below)
}
timeUpdated() {
// (optional, see below)
}
destroy() {
// (optional, see below)
}
};
function createPointMarker(options) {
return new CustomPointMarker(options);
}Your custom point marker handle object must implement the init and
fitToView methods. It may also optionally implement timeUpdated and
destroy. Refer to the Marker Methods section for
details.
The createSegmentMarker function returns an object that renders a segment
marker handle. When called, this function receives an object containing the
following options:
| Name | Type | Description |
|---|---|---|
segment |
Segment |
The Segment object associated with this marker handle. This provides access to the startTime, endTime, color, and labelText attributes, etc. |
view |
string |
The name of the view that the marker handle is being created in, either zoomview or overview. |
layer |
SegmentsLayer |
The rendering layer, see Layer API for details. |
draggable |
boolean |
This value is always true for segment marker handles. |
color |
string |
Color for the marker handle (set by the segmentStartMarkerColor or segmentEndMarkerColor option in Peaks.init(). |
fontFamily |
string |
Font family for the marker handle text (set by the fontFamily option in Peaks.init(), default: 'sans-serif'). |
fontSize |
number |
Font size, in px, for the marker handle text (set by the fontSize option in Peaks.init(), default: 10) |
fontShape |
string |
Font shape for the marker handle text (set by the fontShape option in Peaks.init(), default: 'normal'). |
startMarker |
boolean |
If true, the marker indicates the start time of the segment. If false, the marker indicates the end time of the segment. |
The function should return an instance of an object as illustrated by the
CustomSegmentMarker class below.
You can use the view option to give the marker a different appearance or
behavior in the zoomview and overview waveform views. You can also return
null from this function if you do not want to display a segment marker handle.
class CustomSegmentMarker {
constructor(options) {
// (required, see below)
}
init(group) {
// (required, see below)
}
fitToView() {
// (required, see below)
}
timeUpdated() {
// (optional, see below)
}
destroy() {
// (optional, see below)
}
};
function createSegmentMarker(options) {
return new CustomSegmentMarker(options);
}Your custom segment marker handle object must implement the init and
fitToView methods. It may also optionally implement timeUpdated and
destroy. Refer to the Marker methods section for details.
Marker objects are constructed in two stages, firstly your code uses new to
create the marker object, passing the supplied options to the constructor.
Then, Peaks.js will call your init() method to complete the initialization.
The constructor typically just stores the options for later use.
constructor(options) {
this._options = options;
}The init method should create the Konva objects needed to render the
marker handle and add them to the supplied group object.
| Name | Type | Description |
|---|---|---|
group |
Konva.Group |
A container for the marker's Konva objects. |
options |
object |
The same options passed to createPointMarker or createSegmentMarker. |
The following example creates a point marker handle as a vertical line with a rectangular handle.
Note that the x and y coordinates (0, 0) represent the centre of the marker
and the top of the waveform view.
class CustomPointMarker
constructor(options) {
this._options = options;
}
init(group) {
const layer = this._options.layer;
const height = layer.getHeight();
this._handle = new Konva.Rect({
x: -20,
y: 0,
width: 40,
height: 20,
fill: this._options.color
});
this._line = new Konva.Line({
points: [0.5, 0, 0.5, height], // x1, y1, x2, y2
stroke: options.color,
strokeWidth: 1
});
group.add(this._handle);
group.add(this._line);
}
}The init method can also add your own custom event handlers
(e.g., mouseenter and mouseleave), if needed.
We can add the following code to the end of the init() method from above. This
code changes the color of the marker handle when the user hovers the mouse over
the handle.
const layer = this._options.layer;
this._handle.on('mouseenter', () => {
const highlightColor = '#ff0000';
this._handle.fill(highlightColor);
this._line.stroke(highlightColor);
layer.draw();
});
this._handle.on('mouseleave', () => {
const defaultColor = this._options.color;
this._handle.fill(defaultColor);
this._line.stroke(defaultColor);
layer.draw();
});The fitToView method is called after the waveform view has been resized.
This method should resize the marker using the available space.
This is typically done when the height of the view changes.
fitToView() {
const layer = this._options.layer;
const height = layer.getHeight();
this._line.points([0.5, 0, 0.5, height]);
}The timeUpdated method is called when the marker's time position has changed.
This is the marker's time attribute (for point markers), or startTime or
endTime (for segment markers).
| Name | Type | Description |
|---|---|---|
time |
number |
Marker time position, in seconds |
timeUpdated(time) {
console.log('Marker time', time);
}The destroy method is called when the marker is removed from the view.
Any Konva objects added to the group in init() will be destroyed
automatically, so you only need to add a destroy method if additional
clean-up is needed.
destroy() {
console.log('Marker destroyed');
}The PointsLayer and SegmentsLayer objects allow you to obtain information
about the rendering canvas, and to render changes to the marker Konva objects.
Note that PointsLayer and SegmentsLayer are not Konva.Layer objects.
The following methods are provided:
Returns the height of the layer, in pixels.
Redraws the layer. Call this method after creating or updating any Konva objects.
By default, Peaks.js shows the segment label when the user hovers the mouse
over a segment. The label is a Konva object created by the createSegmentLabel
function passed when calling Peaks.init().
The createSegmentLabel function returns a Konva object that is shown when the
user hovers the mouse over the segment. This can be used to display information
about a segment, such as its labelText.
You can also return null from this function if you do not want to display a
segment label.
| Name | Type | Description |
|---|---|---|
segment |
Segment |
The Segment object associated with this label. This provides access to the startTime, endTime, color, and labelText attributes, etc. |
view |
string |
The name of the view that the label is being created in, either zoomview or overview. |
layer |
SegmentsLayer |
The rendering layer, see Layer API for details. |
function createSegmentLabel(options) {
if (options.view === 'overview') {
return null;
}
return new Konva.Text({
text: options.segment.labelText,
fontSize: 14,
fontFamily: 'Calibri',
fill: 'black'
});
}
const options = {
// Add other options, as needed.
createSegmentLabel: createSegmentLabel,
};
Peaks.init(options, function(err, instance) {
// Use the Peaks.js instance here
});Peaks.js default media player is based on the
HTMLMediaElement.
Peaks.js allows you to interface with external media player libraries. This is
most useful for Web Audio based media players such as
Tone.js or Howler.js.
Players based on the HTMLMediaElement should work as-is without requiring you
to customize Peaks.js.
An external media player can be used by implementing the player interface described below.
You can find a complete example here that shows how to implement such a player, using Tone.js.
The player configuration option allows you to pass an object that will be
invoked, either directly by the Peaks.js Player API,
or indirectly by interacting with the waveform view (e.g., seeking via mouse
click or keyboard). You do not need to pass a mediaElement configuration
option if you are using player.
The structure of the player interface is given below:
const player = {
init: function(eventEmitter) { ... },
destroy: function() { ... },
play: function() { ... },
pause: function() { ... },
seek: function(time) { ... },
isPlaying: function() { ..., return boolean; },
isSeeking: function() { ..., return boolean; },
getCurrentTime: function() { ..., return number; },
getDuration: function() { ..., return number; },
};
const options = {
// Add other options, as needed.
player: player
};
Peaks.init(options, function(err, instance) {
// Use the Peaks.js instance here
});Initializes the external media player. This method is called during Peaks.js initialization.
The player implementation should store the eventEmitter for later use.
See the Events section for more details for how your custom player
should use the eventEmitter to communicate with the Peaks instance.
init(eventEmitter) {
this.eventEmitter = eventEmitter;
this.state = 'paused';
this.interval = null;
// Initialize the external player
this.externalPlayer = new MediaPlayer();
this.eventEmitter.emit('player.canplay');
}Releases resources used by the player.
destroy() {
if (this.interval !== null) {
clearTimeout(this.interval);
this.interval = null;
}
// Release the external player
this.externalPlayer.destroy();
this.externalPlayer = null;
}Starts playback from the current playback position.
This function may return a Promise which resolves when playback actually
starts.
A player.playing event should be emitted when playback starts.
play() {
return this.externalPlayer.play().then(() => {
this.state = 'playing';
this.eventEmitter.emit('player.play', this.getCurrentTime());
});
}Pauses media playback.
A player.pause event should be emitted when playback becomes
paused.
pause() {
this.externalPlayer.pause().then(() => {
this.state = 'paused';
this.eventEmitter.emit('player.pause', this.getCurrentTime());
});
}Seeks to the given time in seconds.
seek(time) {
this.previousState = this.state; // 'paused' or 'playing'
this.state = 'seeking';
this.externalPlayer.seek(time).then(() => {
this.state = this.previousState;
this.eventEmitter.emit('player.seeked', this.getCurrentTime());
this.eventEmitter.emit('player.timeupdate', this.getCurrentTime());
});
}Returns true if the player is currently playing, or false otherwise.
pause() {
return this.state === 'playing';
}Returns true if the player is currently seeking, or false otherwise.
pause() {
return this.state === 'seeking';
}Returns the current media playback position, in seconds.
getCurrentTime() {
return this.externalPlayer.currentTime;
}Returns the total media duration, in seconds.
getDuration() {
return this.externalPlayer.duration;
}Communication between the custom player and Peaks.js is done via events. Peaks.js uses these events to update its internal state, such as the location of the playhead position on screen. Your custom player should emit events to inform Peaks.js of state changes within the player.
These player events are based on the
HTMLMediaElement events.
To enable Peaks.js to correctly update its internal state and visually reflect player state changes, events should only be emitted after the corresponding player actions have been started.
The following sections describe the events that custom players are expected to emit.
Notifies Peaks.js that media is ready to play.
this.eventEmitter.emit('player.canplay');Notifies Peaks.js that an internal player error occurred, such as a failure to fetch the media data.
The event data should be an Error object.
this.eventEmitter.emit('player.error', new Error("Failed to start playback"));Notifies Peaks.js that media playback has started.
The event data should be the current playback position, in seconds.
this.eventEmitter.emit('player.playing', this.getCurrentTime());Notifies Peaks.js that media playback has stopped or paused.
The event data should be the current playback position, in seconds.
this.eventEmitter.emit('player.pause', this.getCurrentTime());Notifies Peaks.js that a seek operation has completed.
The event data should be the current playback position, in seconds.
this.eventEmitter.emit('player.seeked', this.getCurrentTime());Notifies Peaks.js that the current playback position has changed. To mimic
HTMLMediaElement behavior, this event should be emitted approximately every
250 milliseconds during media playback. It should also be emitted after a
successful seek operation.
The event data should be the current playback position, in seconds.
this.eventEmitter.emit('player.timeupdate', this.getCurrentTime());