The Autodesk Platform Service – APS (formerly Forge) Viewer has a built-in extension to take measures of 2D and 3D models.
Sometimes, you can have a model or a sheet with inconsistent units ending up with wrong measure values. So a calibration tool is allowing you to set the right length between two points. It defines a scaling factor applied to all measures.
How to make it persistent?
Here is some tips to get the current calibration, save it and then set it when the viewer loads.
Access to the measure extension.
For that, we can wait for the EXTENSION_LOADED_EVENT
and check if the extension id is Autodesk.Measure to be sure that the extension is loaded.
viewer.addEventListener(Autodesk.Viewing.EXTENSION_LOADED_EVENT, function(event){
if(event.extensionId === 'Autodesk.Measure')
{
//Now we are sure that the extension is loaded
}
});
Now we can get the extension.
const measureExtension = viewer.getExtension('Autodesk.Measure');
And then accessing the calibration tool is pretty straightforward.
const calibrationTool = measureExtension.calibrationTool;
This tool provides valuable methods and we are going to use these three.
// Return the calibration unit
calibrationTool.getCurrentUnits();
// Return the current factor
calibrationTool.getCalibrationFactor();
// Modify the calibration factor value
calibrationTool.setCalibrationFactor([NEW SCALE FACTOR])
React to calibration event
We don’t want to get the last calibration manually, so we can subscribe to the event emitted when you finish a calibration.
viewer.addEventListener(Autodesk.Viewing.MeasureCommon.Events.FINISHED_CALIBRATION, function(calibration){
// Now we have the latest calibration factor so we can store it
});
Making an extension to save calibrations and set the latest
Now that we have all the functions we need, let’s create an example to demonstrate this.
To bootstrap a simple APS Viewer, I forked this repo made by Petr Broz with a NodeJS backend and vanilla JS frontend: https://github.com/petrbroz/forge-viewer-samples
I created a new html
file in the public folder with the minimal code that we need to run a viewer :
<!DOCTYPE html>
<html lang="en">
<head>
<meta charset="UTF-8">
<meta name="viewport" content="width=device-width, initial-scale=1.0">
<meta http-equiv="X-UA-Compatible" content="ie=edge">
<link rel="stylesheet" href="https://developer.api.autodesk.com/modelderivative/v2/viewers/7.*/style.css"
type="text/css">
<script src="https://developer.api.autodesk.com/modelderivative/v2/viewers/7.*/viewer3D.js"></script>
<style>
body,
html {
margin: 0;
padding: 0;
height: 100vh;
}
</style>
<title>Autodesk Platform Service - Calibrations Panel</title>
</head>
<body>
<div id="forge-viewer"></div>
<script>
const MODEL_URN = [ADD_YOUR_MODEL_URN_HERE]
const MODEL_3D_VIEWABLE_GUID = [ADD_YOUR_DOCUMENT_GUID_HERE]
let viewer;
const options = {
getAccessToken: async function (callback) {
const resp = await fetch('/api/auth/token');
if (resp.ok) {
const token = await resp.json();
callback(token.access_token, token.expires_in);
} else {
throw new Error(await resp.text());
}
}
};
Autodesk.Viewing.Initializer(options, async function () {
const config = {
extensions: []
};
viewer = new Autodesk.Viewing.GuiViewer3D(document.getElementById('forge-viewer'), config);
viewer.start();
await loadModel(viewer, MODEL_URN, MODEL_3D_VIEWABLE_GUID);
async function loadModel(viewer, urn, guid) {
return new Promise(function (resolve, reject) {
function onDocumentLoadSuccess(doc) {
resolve(viewer.loadDocumentNode(doc, doc.getRoot().findByGuid(guid)));
}
function onDocumentLoadFailure(code, message) {
console.error('Could not load document.', message);
reject(message);
}
Autodesk.Viewing.Document.load('urn:' + urn, onDocumentLoadSuccess, onDocumentLoadFailure);
});
}
</script>
</body>
</html>
First, we will create a custom viewer extension with a button in the toolbar. As I want to add some UI, this extension is going to open a panel to display our calibrations values and some action buttons:
class CustomCalibrationsExtension extends Autodesk.Viewing.Extension {
constructor(viewer, options)
{
super(viewer, options);
this.viewer = viewer;
this.options = options;
}
load()
{
this.panel = new CustomCalibrationsPanel(this.viewer, this.viewer.container, 'panelId', 'Custom calibrations panel', {});
this.viewer.addPanel(this.panel);
return true;
}
unload()
{
return true;
}
onToolbarCreated(toolbar)
{
var panel = this.panel;
var button = new Autodesk.Viewing.UI.Button('custom-calib-btn');
button.onClick = function(e) {
panel.setVisible(!panel.isVisible());
};
button.setIcon('adsk-icon-measure-settings');
button.setToolTip('Custom calibrations');
this.subToolbar = new Autodesk.Viewing.UI.ControlGroup('my-custom-toolbar');
this.subToolbar.addControl(button);
toolbar.addControl(this.subToolbar);
}
}
Autodesk.Viewing.theExtensionManager.registerExtension('CustomCalibrations', CustomCalibrationsExtension);
And our custom docking panel :
class CustomCalibrationsPanel extends Autodesk.Viewing.UI.DockingPanel {
constructor(viewer, container, id, title, options)
{
super(container, id, title, options);
this.viewer = viewer;
this.container.style.top = "10px";
this.container.style.left = "10px";
this.container.style.width = "300px";
this.container.style.height = "350px";
this.container.style.resize = "none";
this.measureExt = this.viewer.getExtension('Autodesk.Measure');
this.urn = this.viewer.model.myData.urn;
this.guid = this.viewer.model.getDocumentNode().data.guid;
this.calibrations = [];
this.currentUnit = '-';
this.calibrationFactor = 1;
this.createPanel();
}
createPanel()
{
this.content = [
'<div class="panel-container">',
'<h3>Calibrations</h3>',
'<p id="current-factor">Current scale factor: </p>',
'<p id="current-units">Current units: </p>',
'<table id="calibration-table">',
'<tr>',
'<th>#</th><th>Scale factor</th><th>Size</th><th>Unit</th><th>Set</th><th>Delete</th>',
'</tr>',
'</table>',
'</div>'
].join('\n');
this.scrollContainer = this.createScrollContainer();
this.scrollContainer.style.height = 'calc(100% - 70px)';
var childDiv = document.createElement('div');
childDiv.innerHTML = this.content;
this.scrollContainer.appendChild(childDiv);
this.container.appendChild(this.scrollContainer);
}
onClose() {
console.log(' Panel closed');
}
}
Then, we load this extension after the measure extension is loaded :
viewer.addEventListener(Autodesk.Viewing.EXTENSION_LOADED_EVENT, (event)=>{
if(event.extensionId == 'Autodesk.Measure')
{
viewer.loadExtension('CustomCalibrations');
}
})
For now, we only have a simple extension with a toolbar button that opens a UI panel. Let’s add some logic to it.
As explained before we can subscribe to the FINISHED_CALIBRATION
event, to get the latest calibration and make a request to the server to store it in database. For this example, I am using a simple text file, but it can be easily improved with a database.
// CustomCalibrationsExtension.js
this.viewer.addEventListener(Autodesk.Viewing.MeasureCommon.Events.FINISHED_CALIBRATION, async (c) => {
await this.addNewCalibration(c);
});
addNewCalibration = async function(calibration) {
delete calibration.target;
calibration.date = Date.now();
calibration.urn = this.urn;
calibration.guid = this.guid;
await fetch('/api/calibrations', {
method: 'POST',
headers: {
'Content-Type': 'application/json'
},
body: JSON.stringify(calibration)
})
}
// server.js
app.post('/api/calibrations', async (req, res)=>{
let dataFile = path.join(__dirname, 'data', 'calibrations.json');
if(!fs.existsSync(dataFile))
{
let emptyJson = '[]';
fs.writeFileSync(dataFile, emptyJson);
}
let newCalibration = req.body;
if(newCalibration == null)
{
return res.status(400).json({err: "Payload is empty"});
}
newCalibration.id = crypto.randomBytes(16).toString('hex');
let calibrations = JSON.parse(fs.readFileSync(dataFile));
calibrations.push(newCalibration);
fs.writeFileSync(dataFile, JSON.stringify(calibrations));
res.status(201).json(calibrations);
})
We are able to write data to the server, so we can do the same for the reading. We use a query to filter only calibrations defined for our document.
// CustomCalibrationsExtension.js
fetchCalibrations = async function() {
let _this = this;
let calibrations = await (await fetch(`/api/calibrations?urn=${_this.urn}&guid=${_this.guid}`)).json();
return calibrations;
}
// server.js
app.get('/api/calibrations', async (req, res)=>{
let dataFile = path.join(__dirname, 'data', 'calibrations.json');
if(!fs.existsSync(dataFile))
{
return res.status(404).json({err: "Not found"})
}
const { urn, guid } = req.query;
let calibrations = JSON.parse(fs.readFileSync(dataFile));
calibrations = calibrations.filter(c => c.urn === urn && c.guid === guid)
res.status(200).json(calibrations);
})
The different methods that I described in the first part of this article can be easily implemented to add this code functional.
getCalibrationFactor = function(_this) {
return _this.measureExt.calibrationTool.getCalibrationFactor() || 1;
}
getCurrentUnit = function(_this) {
return _this.measureExt.calibrationTool.getCurrentUnits();
}
setCalibration = function(_this, calibration) {
_this.measureExt.calibrationTool.setCalibrationFactor(calibration.scaleFactor);
_this.updateCalibrationsTable();
}
We can use the docking panel to display current values, show the different calibrations that we got from our database and implement actions in our interface.
Take a look at my demo below. I change the calibration factor from previous calibrations with a fresh new calibration and we see the measure difference. Everything done here in this 3D view will work the same in a 2D view.
The complete code of this example is available on my github.