forge-convert-utils
v4.0.5
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Tools for converting Autodesk Forge file formats.
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forge-convert-utils
Utilities for converting Autodesk Forge SVF file format into glTF 2.0.
Check out forge-convert-sqlite with an experimental serialization/deserialization of glTF to/from sqlite.
Usage
Command line
- install the package:
npm install --global forge-convert-utils
- run the
forge-convert
command without parameters for usage info - run the command with a path to a local SVF file
- run the command with a Model Derivative URN (and optionally viewable GUID)
- to access Forge you must also specify credentials (
FORGE_CLIENT_ID
andFORGE_CLIENT_SECRET
) or an authentication token (FORGE_ACCESS_TOKEN
) as env. variables - this will also download the property database in sqlite format
- to access Forge you must also specify credentials (
- optionally, use any combination of the following command line args:
--output-folder <folder>
to change output folder (by default '.')--deduplicate
to try and remove duplicate geometries--skip-unused-uvs
to skip texture UVs that are not used by any material--ignore-meshes
to exclude mesh geometry from the output--ignore-lines
to exclude line geometry from the output--ignore-points
to exclude point geometry from the output--center
move the model to origin
Unix/macOS
forge-convert <path to local svf> --output-folder <path to output folder>
or
export FORGE_CLIENT_ID=<client id>
export FORGE_CLIENT_SECRET=<client secret>
forge-convert <urn> --output-folder <path to output folder>
or
export FORGE_ACCESS_TOKEN=<access token>>
forge-convert <urn> --output-folder <path to output folder>
Windows
forge-convert <path to local svf> --output-folder <path to output folder>
or
set FORGE_CLIENT_ID=<client id>
set FORGE_CLIENT_SECRET=<client secret>
forge-convert <urn> --output-folder <path to output folder>
or
set FORGE_ACCESS_TOKEN=<access token>
forge-convert <urn> --output-folder <path to output folder>
Node.js
The library can be used at different levels of granularity.
The easiest way to convert an SVF file is to read the entire model into memory using SvfReader#read method, and save the model into glTF using GltfWriter#write:
const path = require('path');
const { ModelDerivativeClient, ManifestHelper } = require('forge-server-utils');
const { SvfReader, GltfWriter } = require('forge-convert-utils');
const { FORGE_CLIENT_ID, FORGE_CLIENT_SECRET } = process.env;
async function run(urn, outputDir) {
const auth = { client_id: FORGE_CLIENT_ID, client_secret: FORGE_CLIENT_SECRET };
const modelDerivativeClient = new ModelDerivativeClient(auth);
const manifestHelper = new ManifestHelper(await modelDerivativeClient.getManifest(urn));
const derivatives = manifestHelper.search({ type: 'resource', role: 'graphics' });
const readerOptions = {
log: console.log
};
const writerOptions = {
deduplicate: true,
skipUnusedUvs: true,
center: true,
log: console.log,
filter: (dbid) => (dbid >= 100 && dbid <= 200) // only output objects with dbIDs between 100 and 200
};
const writer = new GltfWriter(writerOptions);
for (const derivative of derivatives.filter(d => d.mime === 'application/autodesk-svf')) {
const reader = await SvfReader.FromDerivativeService(urn, derivative.guid, auth);
const scene = await reader.read(readerOptions);
await writer.write(scene, path.join(outputDir, derivative.guid));
}
}
run('your model urn', 'path/to/output/folder');
If you don't want to read the entire model into memory (for example, when distributing the parsing of an SVF over multiple servers), you can use methods like SvfReader#enumerateFragments or SvfReader#enumerateGeometries to asynchronously iterate over individual elements:
const { ModelDerivativeClient, ManifestHelper } = require('forge-server-utils');
const { SvfReader } = require('forge-convert-utils');
const { FORGE_CLIENT_ID, FORGE_CLIENT_SECRET } = process.env;
async function run (urn) {
const auth = { client_id: FORGE_CLIENT_ID, client_secret: FORGE_CLIENT_SECRET };
const modelDerivativeClient = new ModelDerivativeClient(auth);
const manifestHelper = new ManifestHelper(await modelDerivativeClient.getManifest(urn));
const derivatives = manifestHelper.search({ type: 'resource', role: 'graphics' });
for (const derivative of derivatives.filter(d => d.mime === 'application/autodesk-svf')) {
const reader = await SvfReader.FromDerivativeService(urn, derivative.guid, auth);
for await (const fragment of reader.enumerateFragments()) {
console.log(fragment);
}
}
}
run('your model urn');
And finally, if you already have the individual SVF assets in memory, you can parse the binary data directly using synchronous iterators like parseMeshes:
const { parseMeshes } = require('forge-convert-utils/lib/svf/meshes');
for (const mesh of parseMeshes(buffer)) {
console.log(mesh);
}
For additional examples, see the test subfolder.
Customization
You can customize the translation by sub-classing the reader and/or the writer class. For example:
- The samples/custom-gltf-attribute.js script adds the dbID of each SVF node as a new attribute in its mesh
- The samples/filter-by-area.js script only outputs geometries that are completely contained within a specified area
Metadata
When converting models from Model Derivative service, you can retrieve the model's properties and metadata in form of a sqlite database. The command line tool downloads this database automatically as properties.sqlite file directly in your output folder. If you're using this library in your own Node.js code, you can find the database in the manifest by looking for an asset with type "resource", and role "Autodesk.CloudPlatform.PropertyDatabase":
...
const pdbDerivatives = manifestHelper.search({ type: 'resource', role: 'Autodesk.CloudPlatform.PropertyDatabase' });
if (pdbDerivatives.length > 0) {
const databaseStream = modelDerivativeClient.getDerivativeChunked(urn, pdbDerivatives[0].urn, 1 << 20);
databaseStream.pipe(fs.createWriteStream('./properties.sdb'));
}
...
The structure of the sqlite database, and the way to extract model properties from it is explained in https://github.com/wallabyway/propertyServer/blob/master/pipeline.md. Here's a simple diagram showing the individual tables in the database, and the relationships between them:
And here's an example query listing all objects with "Material" property containing the "Concrete" word:
SELECT _objects_id.id AS dbId, _objects_id.external_id AS externalId, _objects_attr.name AS propName, _objects_val.value AS propValue
FROM _objects_eav
INNER JOIN _objects_id ON _objects_eav.entity_id = _objects_id.id
INNER JOIN _objects_attr ON _objects_eav.attribute_id = _objects_attr.id
INNER JOIN _objects_val ON _objects_eav.value_id = _objects_val.id
WHERE propName = "Material" AND propValue LIKE "%Concrete%"
GLB, Draco, and other post-processing
Following the Unix philosophy, we removed post-processing dependencies from this project, and instead leave it to developers to "pipe" the output of this library to other tools such as https://github.com/CesiumGS/gltf-pipeline or https://github.com/zeux/meshoptimizer. See ./samples/local-svf-to-gltf.sh or ./samples/remote-svf-to-gltf.sh for examples.
Development
- clone the repository
- install dependencies:
yarn install
- build the library (transpile TypeScript):
yarn run build
- run samples in the test subfolder, for example:
FORGE_CLIENT_ID=<your client id> FORGE_CLIENT_SECRET=<your client secret> node test/remote-svf-to-gltf.js <model urn> <path to output folder>
If you're using Visual Studio Code, you can use the following "task" and "launch" configurations:
In .vscode/tasks.json:
...
{
"label": "build",
"type": "npm",
"script": "build",
"problemMatcher": [
"$tsc"
],
"group": "build",
"presentation": {
"echo": true,
"reveal": "silent",
"focus": false,
"panel": "shared",
"showReuseMessage": false,
"clear": false
}
}
...
In .vscode/launch.json:
...
{
"type": "node",
"request": "launch",
"name": "Convert Model Derivative SVF to glTF",
"program": "${workspaceFolder}/test/remote-svf-to-gltf.js",
"args": ["<your model urn>", "<path to output folder>"],
"env": {
"FORGE_CLIENT_ID": "<your client id>",
"FORGE_CLIENT_SECRET": "<your client secret>"
},
"preLaunchTask": "build"
},
{
"type": "node",
"request": "launch",
"name": "Convert Local SVF to glTF",
"program": "${workspaceFolder}/test/local-svf-to-gltf.js",
"args": ["<path to svf file>", "<path to output folder>"],
"preLaunchTask": "build"
}
...
Intermediate Format
The project provides a collection of interfaces for an intermediate 3D format
that is meant to be used by all loaders and writers. When implementing a new loader, make sure that
its output implements the intermediate format's IScene
interface. Similarly, this interface should
also be expected as the input to all new writers.