objTo3d-tiles

WARNING: THIS REPO IS NO LONGER MAINTANING, MAYBE NOT SUPPORT NEWERST CESIUM.

Node command line tool and module convert obj model file to 3D Tiles, based on obj2gltf.

Online Demonstration

简体中文

NOTE: Only support .b3dm and .i3dm for now!

Please use Cesium after v1.37, cause this 3d tile use glTF2.0.

Getting Start

Make sure you have Node installed, and then

npm install -g obj23dtiles

Basic Usage

obj23dtiles -i ./bin/barrel/barrel.obj
// Export barrel.gltf at obj folder.
obj23dtiles -i ./bin/barrel/barrel.obj -b
// Export barrel.glb at obj folder.

NOTE: More detial to convert .gltf and .glb can find at obj2gltf.

NOTE: If your model have tarnsparency texture please add --checkTransparency parameter.

NOTE: If your model using blinn-phong material, and use occlusion when convert to PBR material, the model will looks darker. The useOcclusion default is false, remember adding --useOcclusion if your model using PBR material. Here are some showcase about it.

obj23dtiles -i ./bin/barrel/barrel.obj --b3dm
// Export barrel.b3dm at obj folder.
obj23dtiles -i ./bin/barrel/barrel.obj --b3dm --outputBatchTable
// Export barrel.b3dm and barrel_batchTable.json at obj folder.
obj23dtiles -i ./bin/barrel/barrel.obj -c ./bin/barrel/customBatchTable.json --b3dm
// Export barrel.b3dm with custom batch table at obj folder.
obj23dtiles -i ./bin/barrel/barrel.obj -f ./bin/barrel/customFeatureTable.json --i3dm
// Export barrel.i3dm at obj folder.
obj23dtiles -i ./bin/barrel/barrel.obj -f ./bin/barrel/customFeatureTable.json
-c ./bin/barrel/customI3dmBatchTable.json --i3dm
// Export barrel.i3dm with BatchTable at obj folder.

FeatureTable support following parameters : position, orientation, scale.

Create Tileset

obj23dtiles -i ./bin/barrel/barrel.obj --tileset
// Export ./Batchedbarrel folder at obj folder which is a tileset.
obj23dtiles -i ./bin/barrel/barrel.obj --tileset
-p ./bin/barrel/customTilesetOptions.json -c ./bin/barrel/customBatchTable.json
// Export ./Batchedbarrel folder at obj folder which is a tileset with custom tileset options.
obj23dtiles -i ./bin/barrel/barrel.obj --tileset --i3dm
-f ./bin/barrel/customFeatureTable.json
// Export ./Instancedbarrel folder at obj folder which is a tileset.
obj23dtiles -i ./bin/barrel/barrel.obj --tileset --i3dm
-f ./bin/barrel/customFeatureTable.json -p ./bin/barrel/customTilesetOptions.json
-c ./bin/barrel/customI3dmBatchTable.json
// Export ./Instancedbarrel folder at obj folder which is a tileset.

The customTilesetOptions.json can have options bellow, and these are fake values, please only add properties you need, other value will be auto calculate through .obj file.

{
    "longitude":      -1.31968,     // Tile origin's(models' point (0,0,0)) longitude in radian.
    "latitude":       0.698874,     // Tile origin's latitude in radian.
    "transHeight":    0.0,          // Tile origin's height in meters.
    "region":         true,         // Using region bounding volume.
    "box":            false,        // Using box bounding volume.
    "sphere":         false         // Using sphere bounding volume.
}

NOTE: If you are not specify the transHeight option, your model will be place at earth ground surface, which means no matter what the height your models are, the lowerest point of your models will be place at height = 0.0 on the earth. But if you want keep origin heigth you just need specify transHeight = 0.0.

Here are different bounding volumes.

Combine tilesets

You can combine tilesets into one tileset.json as external tileset.

obj23dtiles combine -i ./bin/barrel/output

Using as node module

If you want to use this tool in node or debug, check out how to use as node module.

Test

Navigate to this project folder and run

npm run test

Troubleshooting

First, make sure your .obj file is complete, normally include .obj, .mtl and textures like .jpg or .png. You can preview your .obj model via “Mixed Reality Viewer” if you are in windows 10. Otherwise you can use this online viewer.

Second, export .glb and check if it display correctly. You can use Cesium or Three.js gltf viewer.

In the end, just export .b3dm or tileset and load in Cesium.

Sample Data

Sample data under the .bin\barrel\ folder.

barrel\
    |
    - barrel.blend              --
    |                             |- Blender project file with texture.
    - barrel.png                --
    |
    - barrel.obj                --
    |                             |- Obj model files.
    - barrel.mtl                --
    |
    - customBatchTable.json     ---- Custom batchtable for b3dm.
    |
    - customTilesetOptions.json ---- Custom tileset optional parameters.
    |
    - customFeatureTable.json   ---- Custom FeatureTable for i3dm.
    |
    - customI3dmBatchTable.json ---- Custom BatchTable for i3dm.
    |
    - output\                   ---- Export data by using upper files.
        |
        - barrel.glb
        |
        - barrel.gltf
        |
        - barrel_batchTable.json    ---- Default batch table.
        |
        - Batchedbarrel\            ---- Tileset use b3dm
        |   |
        |   - tileset.json
        |   |
        |   - barrel.b3dm
        |
        - Instancedbarrel\          ---- Tileset use i3dm
        |   |
        |   - tileset.json
        |   |
        |   - barrel.i3dm
        |
        - BatchedTilesets\          ---- Tileset with custom tileset.json
            |
            - tileset.json
            |
            - barrel_withDefaultBatchTable.b3dm
            |
            - barrel_withCustonBatchTable.b3dm

Resources

Credits

Great thanks to Sean Lilley(@lilleyse) for helping and advising.

Thanks AnalyticalGraphicsInc provide a lot of open source project (like Cesium and 3D Tiles) and creat a great GIS environment.

License

Apache License 2.0