![Maintainability](https://qlty.sh/gh/qlik-trial/projects/sn-scatter-plot)
![Code Coverage](https://qlty.sh/gh/qlik-trial/projects/sn-scatter-plot)

sn-scatter-plot

A scatter plot for nebula.js.

The scatter plot uses bubbles or dots to represent values of two or three measures over a dimension. The first measure is for bubble's position on the horizontal axis, the second measure is for the bubble's position on the vertical axis, and the third measure (if any) is for the bubble's size. The scatter plot is normally used to observe relationships among measures.

!Scatter plot example

Requirements

Requires @nebula.js/stardust version 2.3.0 or later.

Installing

If you use npm: npm install @nebula.js/sn-scatter-plot. You can also load through the script tag directly from https://unpkg.com.

Development

Instructions on how to release and patch.

Usage

``js import { embed } from '@nebula.js/stardust'; import scatterplot from '@nebula.js/sn-scatter-plot';

// 'app' is an enigma app model const nuked = embed(app, { types: [ { // register the scatterplot name: 'scatterplot', load: () => Promise.resolve(scatterplot), }, ], });

// Rendering a scatter plot on the fly nuked.render({ type: 'scatterplot', element, fields: ['Alpha', '=Sum(Expression1)', '=Sum(Expression2)', '=Sum(Expression3)'], options: { direction: 'ltr', freeResize: true, }, properties: { color: { mode: 'byDimension' }, // overrides default properties }, });`

`Options`

- direction - ltr/rtl - freeResize - in conjunction with snapshotData on layout, lets the chart ignore size set on snapshotData

`More examples`

`$3`

!scatter plot color by expression

`js nuked.render({ element: document.getElementById('object'), type: 'scatterplot', fields: ['Alpha', '=Sum(Expression2)'], properties: { qHyperCubeDef: { qMeasures: [ { qDef: { qDef: 'Sum(Expression1)', }, qAttributeExpressions: [ { // Insert color expression qExpression: "if(sum(Expression2) > 0.0096*sum(Expression1), 'red', 'green')", id: 'colorByExpression', }, ], }, ], }, color: { auto: false, mode: 'byExpression', expressionIsColor: true, }, }, });`

`$3`

!scatter plot navigation

`js nuked.render({ element: document.getElementById('object'), type: 'scatterplot', fields: ['Alpha', '=Sum(Expression1)', '=Sum(Expression2)'], properties: { navigation: true, }, });`

`$3`

When zoomed in or panned outside of the home view, the chart shows an interactive mini map and home button to help with navigating and resetting the view.

!scatter plot binned data

`js nuked.render({ element: document.getElementById('object'), type: 'scatterplot', fields: ['TransID', '=Sum(Expression1)', '=Sum(Expression2)'], properties: { compressionResolution: 2, // queryLevel of bins, smaller number <-> more points per bin }, });`

`$3`

Supported types:

- Linear - Average - Second degree polynomial - Third degree polynomial - Forth degree polynomial - Exponential - Logarithmic - Power

!scatter plot best fit line

`js const nuked = window.stardust.embed(app, { context: { theme: 'light' }, types: [ { name: 'scatterplot', load: () => Promise.resolve(window['sn-scatter-plot']), }, ], });

nuked.render({ element: document.getElementById('object'), type: 'scatterplot', properties: { qHyperCubeDef: { qDimensions: [ { qDef: { qFieldDefs: ['Alpha'], }, }, ], qMeasures: [ { qDef: { qDef: 'Sum(Expression1)', }, }, { qDef: { qDef: 'Sum(Expression2)', }, qTrendLines: [ { qType: 'LINEAR', qXColIx: 1, // The column in the hypercube to be used as x axis. style: { autoColor: true, dashed: true, lineDash: '8, 4', }, }, ], }, ], }, }, });`

`Scatter plot plugins`

A plugin can be passed into a scatter plot to add or modify its capability or visual appearance. A plugin needs to be defined before it can be rendered together with the chart.

`js // Step 1: define the plugin const pointPlugin = { info: { name: 'point-plugin', type: 'component-definition', }, fn: ({ layout, keys }) => { const componentDefinition = { key: keys.COMPONENT.POINT, type: 'point', settings: { strokeWidth: '2px', stroke: 'black', size: (d) => getSizeInLogarithmScale(d, layout), fill: (d) => getColorBasedOnMedian(d), }, }; return componentDefinition; }, };

// Step 2: passing the plugin definition into the render function nuked.render({ type: 'scatterplot', element: document.querySelector('.scatterplot'), properties: chartProperties, plugins: [pointPlugin], });`

The plugin definition is an object, with two properties info and fn. Thefn returns a picasso.jscomponent. To build this component, some important chart internals are passed into the argument object offn.

`js // Structure of the argument object of fn const pluginArgs = { layout, keys: { SCALE: X, Y, }, COMPONENT: { X_AXIS, Y_AXIS, POINT, }, }, };`

With plugins, you can either add new components or modify existing components of the scatter plot.

`$3`

For example, a line component can be added on top of a scatter plot to highlight the slopes between data points.

!scatter plot plugin (adding)

`js // Definition of the line plugin const linePlugin = { info: { name: 'line-plugin', type: 'component-definition', }, fn: ({ keys }) => { const componentDefinition = { key: 'new-linecomp', type: 'line', data: { extract: { field: 'qDimensionInfo/0', props: { x: { field: 'qMeasureInfo/0' }, y: { field: 'qMeasureInfo/1' }, }, }, sort: (a, b) => (a.x.value > b.x.value ? 1 : -1), // sort ascending }, settings: { coordinates: { minor: { scale: keys.SCALE.Y, ref: 'y', }, major: { scale: keys.SCALE.X, ref: 'x', }, }, layers: { line: { stroke: 'red', strokeWidth: 3, }, }, }, }; return componentDefinition; }, };`

`$3`

As an example, the positions and the appearance of the axes can be modified completely by plugins.

!scatter plot plugin (modifying)

To overide an existing component, fn should returns a picasso.jscomponent that has the samekey as the existing component (key: 'x-axis'in this example)

`js // Definition of the x-axis plugin const xAxisPlugin = { info: { name: 'x-axis-plugin', type: 'component-definition', }, fn: ({ keys }) => { const componentDefinition = { type: 'axis', key: keys.COMPONENT.X_AXIS, layout: { dock: 'top', }, settings: { labels: { fontFamily: 'Cambria, Cochin, Georgia, Times, "Times New Roman", serif', fontSize: '15px', fill: 'red', }, line: { stroke: 'green', strokeWidth: 2 }, ticks: { stroke: 'blue', strokeWidth: 2 }, }, }; return componentDefinition; }, };

// y-axis plugin can be defined with similar code // ...`

More details can be found in the examples` folder.

$3

- The plugins API is still experimental.
- We can not guarantee our charts to be compatible with all different settings, especially when modifying existing components.

![Maintainability](https://qlty.sh/gh/qlik-trial/projects/sn-scatter-plot)
![Code Coverage](https://qlty.sh/gh/qlik-trial/projects/sn-scatter-plot)

sn-scatter-plot

A scatter plot for nebula.js.

!Scatter plot example

Requirements

Requires @nebula.js/stardust version 2.3.0 or later.

Installing

If you use npm: npm install @nebula.js/sn-scatter-plot. You can also load through the script tag directly from https://unpkg.com.

Development

Instructions on how to release and patch.

Usage

``js import { embed } from '@nebula.js/stardust'; import scatterplot from '@nebula.js/sn-scatter-plot';

// 'app' is an enigma app model const nuked = embed(app, { types: [ { // register the scatterplot name: 'scatterplot', load: () => Promise.resolve(scatterplot), }, ], });

`Options`

- direction - ltr/rtl - freeResize - in conjunction with snapshotData on layout, lets the chart ignore size set on snapshotData

`More examples`

`$3`

!scatter plot color by expression

`$3`

!scatter plot navigation

`js nuked.render({ element: document.getElementById('object'), type: 'scatterplot', fields: ['Alpha', '=Sum(Expression1)', '=Sum(Expression2)'], properties: { navigation: true, }, });`

`$3`

When zoomed in or panned outside of the home view, the chart shows an interactive mini map and home button to help with navigating and resetting the view.

!scatter plot binned data

`$3`

Supported types:

- Linear - Average - Second degree polynomial - Third degree polynomial - Forth degree polynomial - Exponential - Logarithmic - Power

!scatter plot best fit line

`js const nuked = window.stardust.embed(app, { context: { theme: 'light' }, types: [ { name: 'scatterplot', load: () => Promise.resolve(window['sn-scatter-plot']), }, ], });

`Scatter plot plugins`

A plugin can be passed into a scatter plot to add or modify its capability or visual appearance. A plugin needs to be defined before it can be rendered together with the chart.

`js // Structure of the argument object of fn const pluginArgs = { layout, keys: { SCALE: X, Y, }, COMPONENT: { X_AXIS, Y_AXIS, POINT, }, }, };`

With plugins, you can either add new components or modify existing components of the scatter plot.

`$3`

For example, a line component can be added on top of a scatter plot to highlight the slopes between data points.

!scatter plot plugin (adding)

`$3`

As an example, the positions and the appearance of the axes can be modified completely by plugins.

!scatter plot plugin (modifying)

To overide an existing component, fn should returns a picasso.jscomponent that has the samekey as the existing component (key: 'x-axis'in this example)

// y-axis plugin can be defined with similar code // ...`

More details can be found in the examples` folder.

$3

- The plugins API is still experimental.
- We can not guarantee our charts to be compatible with all different settings, especially when modifying existing components.