HowTo/Export from Blender using FBX

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(Major rewrite for Blender 2.80)
(Update to Blender 3.2 level . Change of test model to one that uses LOD (mesh-table).)
 
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This page describes how to export a simple model from Blender 2.80 into the [[FBX file format]] for use in Trainz.  The model uses a Trainz PBRMetal format so it is only suitable for TRS2019 and later versions. The Blender source and PBRMetal textures are provided.
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<!-- Start -->
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This page describes how to export a simple rock model from Blender into the [[FBX file format]] for use in Trainz as a scenery object.  The model uses a [[LOD|Level of Detail]] (LOD) system suitable for scenery objects.<br>
  
Some knowledge of using Blender and Trainz asset creation is assumed.
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Some knowledge of Blender would be useful.
  
[[File:Cube asset in game.jpg|500px|left]] {{clear}}
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A Blender rock mesh is provided along with three PBR textures suitable for creating a [[M.pbrmetal|PBRMetal]] material.
 
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=Video Tutorial=
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A video tutorial can be found at [https://www.youtube.com/watch?v=qTXgaNOETF0 Exporting basic Cube from Blender with PBR Materials].
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[[File:Blender320-FBX-export-rocks.jpg|500px|left]] {{clear}} <!-- Uploaded -->
  
 
=Asset Creation Workflow=
 
=Asset Creation Workflow=
 
 
The basic workflow is:
 
The basic workflow is:
 
:#  Create your mesh.
 
:#  Create your mesh.
 
:#  Create a UV map for mapping mesh polygons to a texture.
 
:#  Create a UV map for mapping mesh polygons to a texture.
:#  Apply a Trainz material including textures.
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:#  Create and apply a Trainz material including textures.
:#  If required, animate the mesh.
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:#  Create additional lower polygon meshes to be used as [[Level of Detail]] (LOD) meshes.
 +
:#  Create a config.txt file that identifies your model, its type, a mesh definition, and a description including an image (thumbnail) of the model.
 
:#  Export the model to an FBX file.
 
:#  Export the model to an FBX file.
:#  Import the model into Trainz.  Trainz will create a Trainzmesh mesh data file.
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:#  Add model textures and texture definition files so Trainz knows how to use those textures.
 +
:#  Import the model into Trainz.  During import Trainz will create Trainzmesh mesh file for each FBX file.
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<p>The first two steps have been done for you.</p>
  
The provided Blender models are ready for you to do steps 3 through 6Step 4 is ignored.
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=Project files= <!-- Project file NOT uploaded yet -->
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A project file [[File:Blender320-project.zip|Blender320-project.zip]] is provided in zip format.  The file contains:
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# A Blender named my_rock_blender320_start.blend.  This Blender model has two meshes.  One very high polygon mesh used only to bake a normal map and a much smaller mesh that will be the first LOD level (LOD 0).
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# Three PBR textures and their texture description files:
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#* rockmat-albedo.png, rockmat-albedo.texture.txt
 +
#* rockmat-parameter.png, rockmat-parameter.texture.txt
 +
#* rockmat-normal.png, rockmat-normal.texture.txt
 +
# A config.txtYou will need to add your own kuid.
 +
# A thumbnail image.
 +
# A Blender file named my_rock_blender320_final.blend.  This is the end result ready for export.
  
=Exporting FBX in Blender 2.80=
 
==Blender 2.80 Features==
 
  
Blender 2.8 introduces a number of new features that can benefit Trainz modellers. These include "Collections", a change in workspaces, and opportunities to create Trainz PBR textures within Blender.  The latter is quite complex and the author is currently evaluating a number of tools that might be usefulThose tools are likely to be payware but very cheap payware compared to full commercial toolsets.
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=Adding the Material, creating LOD meshes, and Exporting=
There is now a separate Image Editor and UV Editor.  The differences are not obvious apart from some minor changes to the associated toolsets.
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==Load Your Model==
 +
:* Create a suitable working folder on your computer. You might call it "FBX_export_example_1".
 +
:* Unpack the project file [[File:Blender320-project.zip|Blender320-project.zip]] into your working folder. <!-- Project file NOT uploaded yet -->
 +
:* Start Blender, load the start Blender file and then save it as "rock_working.blend".
 +
<br>
 +
[[File:Blender320-FBX-export-start.jpg|1200px|left]]  {{clear}} <!-- Uploaded -->
 +
<br>
 +
==What's in the model?==
 +
<p>On opening the Blender file you will be in Layout mode with an untextured rock mesh.  In the Scene Collection panel there are three
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Blender collections: "high poly meshes", "Other", and "lod0. <br>
 +
The very high poly mesh version has 1.5 million triangles and is unsuitable for export as a Trainz mesh but it is suitable for baking normal maps for a lower poly meshWe will not use it so hide it by unchecking the white box to the right of the high poly meshes collection.
 +
You can also uncheck the Other collection.  That can be useful for hiding lamps and cameras.<br>
 +
The lod0 collection contains the main mesh we will work with so make sure it is checked and visible.  If you look at the bottom right of the screen it should show Tris 6,144.  This count is a bit high for a rock so Level of Detail (LOD) meshes are required.
 +
</p>
 +
<br>
 +
==Task 1 - Create a Trainz material==
 +
:* Make sure the "rock_lod0n" mesh is selected and no others visibleChange to the Shading mode by clicking on the Shading tab at the top of the screen.
 +
[[File:Blender320-FBX-export-shader-editor.jpg|1200px|left]] {{clear}} <!-- Uploaded -->
 +
<br>
 +
:* In the Properties Editor, which is at the bottom right, create a new material.  Click on the material name and change it to "rock.m.pbrmetal".
 +
<table bgcolor=#000000 width=900 cellpadding=2>
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<tr valign="top">
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<td>
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<table bgcolor=#ffffb0 cellpadding=2>
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<tr valign="top">
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<td>[[image:NotePad.PNG|link=]]</td>
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<td>On creating the material a Principled BSDF shader node and a Material Output will be created in the Shader Editor.<br>
 +
Blender uses several different collections of nodes and these are material nodes.  Basically, nodes take some information on the left side and output different information on the right.  The shader node takes in a whole lot of information from basic colour, PBR values, and normals.  The output is sent to the Material Output node which is what is displayed on the associated mesh.  All of the shader inputs have default values.</td>
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</tr>
 +
</table>
 +
</td>
 +
</tr>
 +
</table>
 +
<br>
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<p>For a Trainz [[M.pbrmetal|PBRMetal]] material we need to provide an albedo (base colour) texture, a set of parameters textures (emissive, ambient occlusion, roughness and metallicity) combined in one file, and a normals texture.</p><br>
  
===Collections===
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:* Within the shader editor press Shift A and create an Image Texture node as shown below.
Scene Collections replace the old layers system and now avoids the 20 layer limitThe most useful aspect of collections is that you can name them so their contents are easily recognisedFor example, you can put all your LOD0 meshes in a LOD0 collection, LOD1 meshes in a LOD1 collection, and so on.
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<br>
You can group items such as lamps and cameras in their own collection and simply hide them when not needed. You can find more information on collections in video tutorials on the Web.
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[[File:Blender320-FBX-export-create-a-texture-input-node.jpg|1200px|left]] {{clear}}
===Workspaces===
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<br>
You might find workspaces easier to use than earlier Blender versionsYou can easily add or delete workspaces as it suits your development styleA useful set of workspaces might be:
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:* Click on the Color output and drag the connection across to the Base Color input of the shader nodeIf you connect to the wrong input then disconnect by clicking on the input end of the link which is on the left side.
:*Default (you can rename that to something like "Modelling")
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:* Back in the Image Texture node use the Open dialog and find the file "rockmat-albedo.png"The rock will now show the base colours.
:*UV Editing
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:* Create another Image Texture node and connect it to the Roughness input of the shader node.   
:*Shading
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:* Load the file "rockmat-param.png" into the node.
:*Animation
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:* Change the image texture node Color Space to non-color as the texture doesn't actually contain colour information.
:*Compositing (optional, but could be used for baking parameter textures)
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<br>
:*3D View Full (optional)
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<table bgcolor=#000000 width=900 cellpadding=2>
:*Scripting (optional)
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<tr valign="top">
==Blender 2.80 Issues for Trainz Modellers==
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<td>
===Blender Render===
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<table bgcolor=#ffffb0 cellpadding=2>
This is gone for 2.8 and that will make it difficult for those not wanting to use Trainz PBR texturesThe author has not yet investigated if cycles can be used for this purpose except for NOTEX.
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<tr valign="top">
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<td>[[image:NotePad.PNG|link=]]</td>
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<td>An image texture typically has three channels of red, green and blue (RGB) colour information.  If transparency is used then a fourth channel called alpha is used (RGBA).
 +
Game engines often use these channels to carry information other than colour and this is the case for a Trainz parameters textureFor more information read [[M.pbrmetal#Parameter|PBRMetal Parameter Texture]].
 +
<br>
 +
Linking the parameters texture to the roughness input is the only way to get Blender to export texture names correctly in an FBX file.  Consequently the model may look slightly different in game.
 +
</td>
 +
</tr>
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</table>
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</td>
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</tr>
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</table>
  
===Parenting===
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<p>Now we add the normal map but we need an additional node to provide additional information.</p><br>
Parent/child links are less obvious in 2.8.  You can see the relationship in the collection tree but it is possible to have a child object in a different collection and that is a bit confusing.
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:* Using Shift A, add a Vector->Normal Map node and connect it to the Normal input of the shader node. <br>
==Blender Addons==
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[[File:Blender320-FBX-export-create-a-vector-normal-map-node.jpg|1200px|left]] {{clear}}
There are a number of interesting addons for Blender 2.8.  Some are free and others are payware.
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:* Add another Image Texture node, connect it to the Normal Map node and load the "rockmat-normal.png" texture.
The Material Library addon comes with Blender 2.8 as a community addon.  You don't need to install it but you do need to enable it.
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:* Your material, in the Shader Editor, should look like the following:
You can find this addon in the Edit Menu, Preferences, and filter on "material". See the following image:<br />
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<br>
[[File:Material library.jpg|800px]]<br />
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[[File:Blender320-FBX-export-complete-material.jpg|1200px|left]] {{clear}}
This addon will allow you to save Trainz PBR materials.
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<br>
==Example Model==
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<p>Now is a good time to save your Blender file.</p>
A sample model of a simple cube is provided.  The mesh is UV mapped but there is no material or textures linked in the model.  The source files include both a starting and completed model together with texture images, config.txt, etc.  Just change the owner KUID id to yours.
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<br>
The source files can be found here: [[File:blender_cube280.zip]]
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:* Create a suitable working folder on your PC.  You might call it "FBX_export_example_1".
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:* Unzip the files into that folder.
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:* Start Blender 2.8 and load file "mycube_b280_start.blend".
+
  
==Creating a Trainz PBRMetal Material==
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==Task 2 - Create lower poly LOD versions==
The Trainz PBRMetal material is the base material for Trainz PBR assetsOther Trainz PBR materials are variations of this material.  There isn't a standard Blender shader node for PBRMetal but we can use the Principled BSDF shader node and set up the three texture imputs of Albedo, Parameter and NormalSee [[M.pbrmetal]] for more information on this material.
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<p>The rock_lod0n mesh is 6144 triangles and needs to be  reduced to less than 300 triangles for the lowest polygon mesh.</p>
<br />Making a PBRMetal material is a little tedious but we can automate this by using a standard Blender addon called Material Library VX.
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<p>In TS19 and later versions, you can dictate the distance at which LOD levels swap out and also the distance the mesh is not rendered at allThis is independent of any draw distance a user may apply although Trainz will use the lowest draw distance of the two schemes.</p>
:* Change to the Shading workspace.
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<p>Each lower poly mesh must be at least 20% fewer polys than the previous mesh but to get down to 300 polys using just 20% would take quite a few levels. So, it is recommended that 20% be applied only for the first LOD change and a more agressive reduction after that.</p>
:* Select the cube and select the material icon in the Properties window (bottom right).  It should show no materials.
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<br>
:* Select New (material).  You should get this view although the material name may be different:[[File:New material.jpg|1400px]]
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<p>In this asset we will aim for levels like this:</p>
:* Blender creates a new material with a Principled BSDF shader node and material output nodeThis will be the basis of our Trainz PBR material.
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<table bgcolor=#00ffff border=2 width=600>
:* Change the name of the material to "Template_Trainz_PBRMetal"We deliberately use a generic name because we will want to save it for other models.
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<tr>
:* Within the Shader Node editor press Shift A and add a texture->image texture node.
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<th>LOD Level</th>
:* Select the new texture node and press Shift D and drag the texture node copy to a blank space. Repeat to create another texture nodeThese nodes will be used for our Albedo, Normal and Parameter textures.
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<th>Triangles</th>
:* Make sure the three texture nodes are stacked one on top of each other as per the image below.
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<th>Distance</th>
:* Connect the top texture node from the Colour output to the Base Color input on the shader nodeYou make connections by left clicking the output (on the right) and dragging the line to the destination input.
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</tr>
:* Connect the Alpha output of the middle texture node to the Roughness input shader nodeWhile this may not make sense it does work!
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<tr valign="top">
:* Connect the Color output of the bottom node to the Normal input shader node.
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<td>LOD0</td>
:* Press Shift A and add a Vector-Normal Map node to a blank space within the editor.
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<td>6144</td>
:* Drag the Normal Map node onto the link between the bottom texture node and the Normal input. Blender automatically reroutes the linksNote that you could have created the Normal Map node and dropped it on that link.
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<td>0 to 100 metres</td>
:* The result should look like this:<br />[[File:Trainz PBRMetal template.jpg]]<br />
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</tr>
 +
<tr valign="top">
 +
<td>LOD1</td>
 +
<td>4900</td>
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<td>100 to 300 metres</td>
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</tr>
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<tr valign="top">
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<td>LOD2</td>
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<td>1000</td>
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<td>300 to 600 metres</td>
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</tr>
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<tr valign="top">
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<td>LOD3</td>
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<td>250</td>
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<td>600 to 5000 metres</td>
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</tr>
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<tr valign="top">
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<td></td>
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<td></td>
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<td>No render beyond 5000 metres</td>
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</tr>
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</table>
 +
<br>
 +
===Creating the LOD1 mesh===
 +
:* If you haven't done so, save now.
 +
:* In the Outliner Editor (top right) select the LOD0 collection.
 +
:* Right click and select Duplicate Selection.  This duplicates both the collection and meshes in the collection.
 +
:* Rename the collection to LOD1 and rename the mesh to rock_lod1n. There is no rename action in the drop down menu but double clicking on the name will allow a change.
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:* Hide the LOD0 collection by unchecking the box to the right of the collection name.  This hides the entire collection.
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:* In the Properties Editor, select the Modifiers tab which is the spanner icon.  There should be no modifiers listed.
 +
:* Click on Add Modifier and select the Decimate option.
 +
:* The Decimate modifier has basically three options: Collapse, Un-Subdivide, and Planar.  Generally, it is best to use the Collapse option but sometimes you can get a better result with Planar. The poly count is a face count that is most likely the number of quads (4 sided polygon) so the number of triangles would be twice that number.  This isn't always correct and depends on the mesh topology.  It should be close enough for our purposes.
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:* For LOD1 we want a maximum of 4900 triangles (2450 faces) so use a Ratio value of 0.54 that gives a result of 2425 facesThis value may need to be tweaked if the actual value seen by Trainz is higher and therefore breaks the 20% rule.
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:* Do not apply the modifier as this is a non destructive setting and may need to be changedThe modifier will be applied on export.
 +
:* Save your work and we will move onto LOD2.
 +
<br>
 +
===Creating the LOD2 mesh===
 +
:* This time select the LOD1 collection, make a duplicate and rename the collection to LOD2 and the mesh to rock_lod2nYou could have duplicated LOD0 instead but this way we alrady have a decimate modifier.
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:* Hide the LOD0 and LOD1 collections if not already hidden.
 +
:* This time we want to reduce the triangle count to 1000 (face count 500) so a more agressive reduction is required.
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:* Try a Ratio value of 0.08 which gives quite a good result for a face count of 473.
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:* If you want to compare LOD versions you can show/hide the other LOD collections but make sure you are left working on the correct mesh.
 +
:* Save your work and we will move onto the final LOD - LOD3.
 +
<br>
 +
===Creating the LOD3 mesh===
 +
:* Duplicate the LOD2 collection and rename the collection to LOD3 and the mesh to rock_lod3n.
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:* Hide all collections except LOD3.
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:* Change the Decimate Ration value to 0.017 that results in 102 faces (204 triangles)Our rock is now looking a bit pointy in places but remember this will only be shown at 600+ metres.
 +
:* Save your work.
 +
<br>
 +
<!--    -->
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<table bgcolor=#000000 width=900 cellpadding=2>
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<tr valign="top">
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<td>
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<table bgcolor=#ffffb0 cellpadding=2>
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<tr valign="top">
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<td>[[image:NotePad.PNG|link=]]</td>
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<td>When creating our mesh names we have been using a convention of "rock_lodxn" where the x character is a LOD level.  You can use any names you like within reason but using the "lodxn" will work with N3V's config.txt generator tool.  See [https://contentcreation.trainzsimulator.com/trainz-content-utilities-1-0-2/ Trainz Content Utilities]
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</td>
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</tr>
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</table>
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</td>
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</tr>
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</table>
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<br>
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<table bgcolor=#000000 width=900 cellpadding=2>
 +
<tr valign="top">
 +
<td>
 +
<table bgcolor=#ffffb0 cellpadding=2>
 +
<tr valign="top">
 +
<td>[[image:NotePad.PNG|link=]]</td>
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<td>At this point we have our 4 levels of LOD, LOD0 to LOD3, and that should pass asset validationBy creating the material after making the original mesh (LOD0) we are able to automatically copy the material from LOD to LOD. At each stage you should check that the mesh paint is still correct as LOD reduction will change the UV mapping and potentially cause the paint to look wrongFor a rock this probably doesn't matter but for other models it may not work.
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There are other LOD reduction techniques but they are beyond the scope of this tutorial.</td>
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</tr>
 +
</table>
 +
</td>
 +
</tr>
 +
</table>
 +
<br>
 +
== Exporting our model==
 +
:* Repeat for each LOD collection
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:** Select the next LOD collection and hide all the others.
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:** Select the mesh for this LOD - e.g. rock_lod0n.
 +
:** From the top menu select File->Export->FBX.
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:** Change the output name, at the bottom of the dialog box, to the name of the mesh - e.g. rock_lod0n.fbx.
 +
:** Change the export settings to the same as this image.
 +
<br>
 +
[[File:Blender320-FBX-export-FBX-export-dialog-box.jpg]]
 +
<br>
 +
<br>
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<p>For this export we use:</p>
 +
<table bgcolor=#00ffff border=2 width=600> <!--Light blue -->
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<tr valign="top">
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<th>Include</th>
 +
<th>Selected Objects</th>
 +
</tr>
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<tr valign="top">
 +
<td>Object Types</td>
 +
<td>Mesh only</td>
 +
</tr>
 +
<tr valign="top">
 +
<td>Transform -> Scale</td>
 +
<td>1.00</td>
 +
</tr>
 +
<tr valign="top">
 +
<td>Apply Scalings</td>
 +
<td>FBX All</td>
 +
</tr>
 +
<tr valign="top">
 +
<td>Forward</td>
 +
<td>Y Forward</td>
 +
</tr>
 +
<tr valign="top">
 +
<td>Up</td>
 +
<td>Z Up</td>
 +
</tr>
 +
<tr valign="top">
 +
<td>Apply Unit</td>
 +
<td>Ticked</td>
 +
</tr>
 +
<tr valign="top">
 +
<td>Use Space Transform</td>
 +
<td>Ticked</td>
 +
</tr>
 +
<tr valign="top">
 +
<td>Geometry-> Apply Modifiers</td>
 +
<td>Ticked</td>
 +
</tr>
 +
<tr valign="top">
 +
<td>Triangulate Faces</td>
 +
<td>Ticked</td>
 +
</tr>
 +
</table>
 +
<br>
 +
<p>You can ignore the animation settings (armature and Bake Animation).</p>
 +
<br>           
 +
:* Click on the Export FBX button at the top right.  The mesh will be exported.
 +
<br>
 +
<table bgcolor=#000000 width=450 cellpadding=2>
 +
<tr valign="top">
 +
<td>
 +
<table bgcolor=#ffffb0 width=450 cellpadding=2>    <!--yellow -->
 +
<tr valign="top">
 +
<td>[[image:NotePad.PNG|link=]]</td>
 +
<td>The settings shown above will work for Trainz but other settings will also work.</td>
 +
</tr>
 +
</table>
 +
</td>
 +
</tr>
 +
</table>
 +
<br>
 +
<br>
 +
<table bgcolor=#000000 width=900 cellpadding=2>
 +
<tr valign="top">
 +
<td>
 +
<table bgcolor=#00ffff cellpadding=2>  <!--Light blue -->
 +
<tr valign="top">
 +
<td>[[image:PencilTips.PNG|link=]]</td>
 +
<td>You can save your preferences for a given export such as "mesh only" or "animation" by clicking on the plus button (+) next to Operator Presets and saving the preset with a name.</td>
 +
</tr>
 +
</table>
 +
</td>
 +
</tr>
 +
</table>
 +
<br>
  
==Saving the PBRMetal Material Template==
 
This action need only be done once.
 
:* Select the Material icon in the Properties Editor.
 
:* Find the Material Library VX panel.  This is the addon we enabled earlier.
 
:* Choose the Cycles Templates library.  There will be a pause here as the addon loads a Blender file in the background and finds the materials within it.
 
:* Add the "Template_Trainz_PBRMetal" to the library by clicking the plus (+) icon.
 
:* Scroll through the list or search for "Trainz" to ensure the template is in the list.
 
:* Change the material name allocated to the mesh to "mycube.m.pbrmetal" or any suitable name.<br />[[File:Mycube material.jpg]]<br />
 
 
==Using the Template in Other Projects==
 
We created the Trainz PBRMetal template so it can be used in other projects.  To see how this works try the following:
 
:* Save your current working file.
 
:* Start a new project and just use the default cube.
 
:* Select the Material option in the Properties Editor.
 
:* There should be a default material called Material1.  If not, just create a new one.
 
:* Scroll down to find the Material Library VX panel.
 
:* Select the Cycles Template library.
 
:* Search for "trainz" or scroll down until you find it.
 
:* Click on the Apply icon which looks like a round ball.  The Trainz PBRMetal template will replace the existing material allocated to the mesh.
 
:* Open the Shading workspace and the material we created earlier will be visible.  All you need to do is rename the material and allocate the textures which is what we will do next.
 
 
==Add the Material Textures==
 
:* Reopen your working Blender file if required.
 
:* Change to the Shading Workspace.
 
:* Select the top texture node, click on Open and add the file "cube_albedo.png".  You may need to navigate Blender to your working folder as it doesn't default to your Blender file location.
 
:* Select the middle texture node and load the file "cube_parameter.png".
 
:* Change the Color Space to Non-color.
 
:* Select the bottom texture node and load the file "cube_normal.png".
 
:* Change the Color Space to Non-color.
 
:* If you have the 3D Viewport in "Look dev" mode (3rd ball icon from the left) you will see the material applied to the cube.  This is a reasonable representation of how it will look in Trainz.
 
[[ File:Material applied.jpg]]
 
 
 
==Exporting to FBX==
 
The model is now ready for export.
 
:* Change to the Default workspace and select the mesh object in the 3D Viewport. 
 
:* Select File->Export->Export FBX and the FBX export panel will show in the bottom left hand corner of the window.  If the Export FBX option isn’t shown, then make sure it is enabled in User Preferences.
 
:* Operator Presets.  This option allows you to define an export configuration that can be recalled rather than having to set options each time.
 
:* Scale:  Leave the scale value at 1.0 and make sure the small button to the right of the scale is unchecked.
 
:* The four export options categories: Main, Geometries, Armature and Animation show different menus and sub options for those categories.  You can leave the standard settings for Geometries, Armature and Animation.
 
:* For Main options:
 
:*:* Check Selected Objects. 
 
:*:* Apply Scalings:  Use “FBX All”.
 
:*:* Forward: select option “Y Forward”.  This automatically changes the Up option to “Z Up” which is correct for Trainz.
 
:* Check Mesh only since we are not exporting empties or animation.
 
:* Leave all other options at their default values.
 
:* At the top of the window, make sure the selected target folder is your project folder.
 
:* Enter the target FBX file as “mycube_lod0.fbx” .
 
:* Click on the Export FBX button at the top right.  The mesh will be exported.
 
 
[[File:B280 FBX PBRMetal asset FBX export settings.jpg]]  {{clear}}
 
 
TIP: You can save your preferences for a given situation by clicking on the plus button (+) next to Operator Presets and saving the preset with a name.
 
  
 
==Importing into Trainz==
 
==Importing into Trainz==
 +
===Getting organised===
 +
:* Create a folder called "export" within your working folder.  While not necessary it is convenient to have all the files Trainz needs to construct the asset.
 +
<br>
 +
===FBX conversion to Trainzmesh format===
 +
<p>While the FBX format is convenient for mesh creation and developing materials and textures, Trainz needs a conversion to a format that can be easily loaded by the game engine.</p>
 +
<p>When you submit your asset into Trainz, Trainz will convert all the FBX files to Trainzmesh files using the same filename but changing the suffix.  So a file called "rock_lod0n.fbx" will become "rock_lod0n.trainzmesh".</p>
 +
<p>This means that your asset configuration in the config.txt file must refer to Trainzmesh files rather than FBX files.</p>
 +
<br>
 
===Config.txt===
 
===Config.txt===
When you submit your asset, Trainz will convert the FBX file to a Trainzmesh file so the mesh table will need to identify each mesh as such. For the sample asset the filename will be mycube_lod0.trainzmesh.  See the config.txt in the project folder.
+
<p>For this asset we are creating a kind "scenery" asset and the [[Config.txt file|config.txt]] will use [[Mesh-table LOD|mesh-table LOD]] together with a [[KIND_Mesh#mesh-table-lod-transition-distances|mesh-table-lod-transition-distances]] tag.</p>
 +
<p>As explained earlier, the mesh-table-lod-transition-distances tag will control the distances at which the meshes changes and when they are no longer rendered.</p>
 +
<p>A config.txt is provided in the project files although you will need to provide your own kuid.  This is part of the config.txt.</p>
 +
<br>
  
 +
kind                                      "scenery"
 +
kuid                                      Note: supply your own kuid here
 +
trainz-build                              "4.6"
 +
category-class                            "HM"
 +
category-region                          "00"
 +
category-era                              "2010s;2020s"
 +
mesh-table {
 +
  lod0n {
 +
    mesh                                  "rock_lod0n.trainzmesh"
 +
    auto-create                          1
 +
    lod-level                            0
 +
    mesh-season                          0
 +
  }
 +
  lod1n {
 +
    mesh                                  "rock_lod1n.trainzmesh"
 +
    auto-create                          1
 +
    lod-level                            1
 +
    mesh-season                          0
 +
  }
 +
  lod2n {
 +
    mesh                                  "rock_lod2n.trainzmesh"
 +
    auto-create                          1
 +
    lod-level                            2
 +
    mesh-season                          0
 +
  }
 +
  lod3n {
 +
    mesh                                  "rock_lod3n.trainzmesh"
 +
    auto-create                          1
 +
    lod-level                            3
 +
    mesh-season                          0
 +
  }
 +
}
 +
mesh-table-lod-transition-distances      100,300,600,5000
 +
<br>
 +
<p>The trainz-build should be 4.6 or above.</p>
 +
<p>The mesh table identifies the four meshes used in the asset plus the LOD level.</p>
 +
<p>The mesh-table-lod-transition-distances identifies the distance at which the mesh changes to the next lower polygon mesh.  You can change these if you want to experiment.</p>
 +
<br>
 
===Texture.txt files===
 
===Texture.txt files===
You can provide your own texture.txt files (advisable) or let the commit process create them for you. The commit process will create suitable files, such as those required for normal maps, but you can provide your own if you have special requirements.
+
<p>You can provide your own texture.txt files (advisable) or let the commit process create them for you.</p>
 
+
<br>
 
===Committing the asset===
 
===Committing the asset===
Commit the asset by dragging the folder onto CM.  Assuming the commit is error free, open the asset for edit in explorer and see what Trainz has created.
+
:* Commit the asset by dragging the folder onto CM.  Assuming the commit is error free, open the asset for edit in explorer and see what Trainz has created.
The trainzmesh files should be as described above.  The FBX files will also be present so you may want to delete those if you are ready to upload your asset to the DLS or elsewhere.  If you delete the FBX files, then you will need to commit the asset again.  Since the trainzmesh files already exist no FBX conversion is carried out.
+
<br>
 
+
<p>You will get a warning like "...shading node not recognized:Phong".  Trainz doesn't use the exported shader anyway so you can ignore the warning.</p>
==Animation==
+
<p>The trainzmesh files should be as described above.  The FBX files will also be present so you may want to delete those if you are ready to upload your asset to the DLS or elsewhere.  If you delete the FBX files, then you will need to commit the asset again.  Since the trainzmesh files already exist no FBX conversion is carried out.</p>
If you are interest in animation for Blender 2.8, see this [[HowTo/Export Blender FBX Animation|page]].
+
<br>
 
+
=About the boulder asset=
=Errors, Warnings and other Issues=
+
<p>The material used for this asset was created within Substance Painter which is a powerful PBR material and texture creation tool.</p>
 
+
<p>You can make your own PBR textures within Blender but that is beyond the scope of this tutorial.  There are several payware Blender addons that can create quite good textures,  One worth looking at is PBR Painter and the Trainz user Cayden has been promoting that for Trainz use.  Search for the PBR Painter thread on the Trainz forums.</p>
==Double Sided Meshes==
+
<br>
It appears that FBX does not support double sided meshes so you need to create a metadata file as described at [[FBX file format#Mesh Metadata Files]].  Note that this is done per material.  i.e. you cannot have the same material for single sided and double sided meshes.
+
=Animation=
 
+
<p>If you are interested in animation for Blender, see [[HowTo/Export Blender FBX Animation|How to export Blender FBX animation]].</p>
==FBX to Trainzmesh Conversion Warnings and Errors==
+
Errors and warnings starting with a T, such as T16128, are errors ouput by the ASSIMP converter and are not output by the Trainz FBX importer.  Errors or warnings starting with VE are generated by Trainz.  See [[Asset_Validation]].
+
  
{|  style="border:1px solid gray;border-collapse:collapse;background:white;font-weight:bold; " cellpadding=5px align=left width=70%
+
=Some tips for exporting=
|- style="font-weight:bold; text-align:center;"
+
:*  Triangulate (convert to three sided polygons) before export. You can do this per mesh by using the triangulate command (Ctrl T) in mesh edit mode.  Or you can add a triangulate modifier to the mesh in mesh object mode.  The modifier method is preferred since keeping meshes in multi sided polygons help with editing.
  ! width=40% style=" border:1px solid gray;"|Warning/Error
+
:*  Make sure you only have one UV map per mesh.  Trainz doesn't seem to like more than one UV map.
  ! width=60% style=" border:1px solid gray;"|Help/Explanation
+
:*  Unapplied mesh scaling can cause issues including island distortment in the UV editor.  Apply any scaling before export.
|-
+
:*  FBX does not support double sided meshes so you will need to create a metadata file as described at [[FBX file format#Mesh Metadata Files]].  Note that this is done per material.  i.e. you cannot have the same material for single sided and double sided meshes.
  | style="border:1px solid gray;font-weight:normal;"|Warning:  T16080: ...shading mode not recognised: Phong
+
<br>
  | style="border:1px solid gray;font-weight:normal;"| You can ignore this warning.
+
=FBX to Trainzmesh Conversion Warnings and Errors=
|-
+
<p>Errors and warnings starting with a T, such as T16128, are errors ouput by the ASSIMP converter and are not output by the Trainz FBX importer.  Errors or warnings starting with VE are generated by Trainz.  See [[Asset_Validation]].</p>
  | style="border:1px solid gray;font-weight:normal;"|Warn,  T15808: FBX-DOM (TOK_KEY, offset 0xnnnn) source object for connection does not exist
+
<table bgcolor=#00ffff border=2 width=900>
  | style="border:1px solid gray;font-weight:normal;"| You can ignore this warning.
+
<tr>
|-
+
<th>Warning/Error</th>
  | style="border:1px solid gray;font-weight:normal;"|Error: Unable to determine vertex format.
+
<th>Help/Explanation</th>
  | style="border:1px solid gray;font-weight:normal;"|This can be caused by having multiple UV maps for the same mesh.  For example, baking a painted mesh to a bake mesh requires two UV maps.  Remove old maps before exporting.  If you wish to keep those maps, back up the Blender file and then delete the extra maps.
+
</tr>
|-
+
<tr valign="top">
  | style="border:1px solid gray;font-weight:normal;"|Error, T5268 or T9068, Failed to triangulate polygon (no ear found). Probably not a simple polygon.  
+
<td>Warning:  T16080: ...shading mode not recognised: Phong</td>
  | style="border:1px solid gray;font-weight:normal;"|Try triangulating the mesh, or meshes, using Ctrl T (quads to tris).  If the error continues, try using the Triangulate modifier.  This problem is known to occur when using modifiers that may produce ngons on export.
+
<td>You can ignore this warning</td>
|-
+
</tr>
  | style="border:1px solid gray;font-weight:normal;"|Error, Error, T16128: FindInvalidDataProcess fails on mesh uvcoords: All vectors are identical"
+
<tr valign="top">
  | style="border:1px solid gray;font-weight:normal;"|Probably caused by having multiple UV maps for the same mesh. Not sure of the relationship between this error and the "Unable to determine vertex format" error.
+
<td>Warn,  T15808: FBX-DOM (TOK_KEY, offset 0xnnnn) source object for connection does not exist</td>
|}
+
<td>You can ignore this warning</td>
 +
</tr>
 +
<tr valign="top">
 +
<td>Error: Unable to determine vertex format</td>
 +
<td>This can be caused by having multiple UV maps for the same mesh.  For example, baking a painted mesh to a bake mesh requires two UV maps.  Remove old maps before exporting.  If you wish to keep those maps, back up the Blender file and then delete the extra maps</td>
 +
</tr>
 +
<tr valign="top">
 +
<td>Error, T5268 or T9068, Failed to triangulate polygon (no ear found). Probably not a simple polygon.</td>
 +
<td>Try triangulating the mesh, or meshes, using Ctrl T (quads to tris).  If the error continues, try using the Triangulate modifier.  This problem is known to occur when using modifiers that may produce ngons on export.</td>
 +
</tr>
 +
<tr valign="top">
 +
<td>T16128: FindInvalidDataProcess fails on mesh uvcoords: All vectors are identical"</td>
 +
<td>Possibly caused by having one or more UV islands collapsed to one pixel.</td>
 +
</tr>
 +
</table>
 +
<br>
 +
=Additional tutorial and Blender help resources=
 +
# An additional video tutorial can be found at [https://www.youtube.com/watch?v=qTXgaNOETF0 Exporting basic Cube from Blender with PBR Materials]. That tutorial uses Substance Painter to create the PBR materials.
 +
# Paul Hobbs' Blender tutorial for creating a steam locomotive. [http://www.44090digitalmodels.co.uk/] The tutorial is quite complex so start with some simple assets like houses or buildings first.
 +
# [[HowTo/Solve Blender Modelling Problems|How to solve Blender modelling problems]]
 +
<br>
  
 +
=Return to Index=
  
==Return to Index==
 
 
 
[[HowToGuides|<< How To Guides]]
 
[[HowToGuides|<< How To Guides]]
  

Latest revision as of 15:59, 27 June 2022

This page describes how to export a simple rock model from Blender into the FBX file format for use in Trainz as a scenery object. The model uses a Level of Detail (LOD) system suitable for scenery objects.

Some knowledge of Blender would be useful.

A Blender rock mesh is provided along with three PBR textures suitable for creating a PBRMetal material.

Blender320-FBX-export-rocks.jpg

Contents

[edit] Asset Creation Workflow

The basic workflow is:

  1. Create your mesh.
  2. Create a UV map for mapping mesh polygons to a texture.
  3. Create and apply a Trainz material including textures.
  4. Create additional lower polygon meshes to be used as Level of Detail (LOD) meshes.
  5. Create a config.txt file that identifies your model, its type, a mesh definition, and a description including an image (thumbnail) of the model.
  6. Export the model to an FBX file.
  7. Add model textures and texture definition files so Trainz knows how to use those textures.
  8. Import the model into Trainz. During import Trainz will create Trainzmesh mesh file for each FBX file.

The first two steps have been done for you.

[edit] Project files

A project file File:Blender320-project.zip is provided in zip format. The file contains:

  1. A Blender named my_rock_blender320_start.blend. This Blender model has two meshes. One very high polygon mesh used only to bake a normal map and a much smaller mesh that will be the first LOD level (LOD 0).
  2. Three PBR textures and their texture description files:
    • rockmat-albedo.png, rockmat-albedo.texture.txt
    • rockmat-parameter.png, rockmat-parameter.texture.txt
    • rockmat-normal.png, rockmat-normal.texture.txt
  3. A config.txt. You will need to add your own kuid.
  4. A thumbnail image.
  5. A Blender file named my_rock_blender320_final.blend. This is the end result ready for export.


[edit] Adding the Material, creating LOD meshes, and Exporting

[edit] Load Your Model

  • Create a suitable working folder on your computer. You might call it "FBX_export_example_1".
  • Unpack the project file File:Blender320-project.zip into your working folder.
  • Start Blender, load the start Blender file and then save it as "rock_working.blend".


Blender320-FBX-export-start.jpg


[edit] What's in the model?

On opening the Blender file you will be in Layout mode with an untextured rock mesh. In the Scene Collection panel there are three Blender collections: "high poly meshes", "Other", and "lod0.
The very high poly mesh version has 1.5 million triangles and is unsuitable for export as a Trainz mesh but it is suitable for baking normal maps for a lower poly mesh. We will not use it so hide it by unchecking the white box to the right of the high poly meshes collection. You can also uncheck the Other collection. That can be useful for hiding lamps and cameras.
The lod0 collection contains the main mesh we will work with so make sure it is checked and visible. If you look at the bottom right of the screen it should show Tris 6,144. This count is a bit high for a rock so Level of Detail (LOD) meshes are required.


[edit] Task 1 - Create a Trainz material

  • Make sure the "rock_lod0n" mesh is selected and no others visible. Change to the Shading mode by clicking on the Shading tab at the top of the screen.
Blender320-FBX-export-shader-editor.jpg


  • In the Properties Editor, which is at the bottom right, create a new material. Click on the material name and change it to "rock.m.pbrmetal".
NotePad.PNG On creating the material a Principled BSDF shader node and a Material Output will be created in the Shader Editor.
Blender uses several different collections of nodes and these are material nodes. Basically, nodes take some information on the left side and output different information on the right. The shader node takes in a whole lot of information from basic colour, PBR values, and normals. The output is sent to the Material Output node which is what is displayed on the associated mesh. All of the shader inputs have default values.


For a Trainz PBRMetal material we need to provide an albedo (base colour) texture, a set of parameters textures (emissive, ambient occlusion, roughness and metallicity) combined in one file, and a normals texture.


  • Within the shader editor press Shift A and create an Image Texture node as shown below.


Blender320-FBX-export-create-a-texture-input-node.jpg


  • Click on the Color output and drag the connection across to the Base Color input of the shader node. If you connect to the wrong input then disconnect by clicking on the input end of the link which is on the left side.
  • Back in the Image Texture node use the Open dialog and find the file "rockmat-albedo.png". The rock will now show the base colours.
  • Create another Image Texture node and connect it to the Roughness input of the shader node.
  • Load the file "rockmat-param.png" into the node.
  • Change the image texture node Color Space to non-color as the texture doesn't actually contain colour information.


NotePad.PNG An image texture typically has three channels of red, green and blue (RGB) colour information. If transparency is used then a fourth channel called alpha is used (RGBA).

Game engines often use these channels to carry information other than colour and this is the case for a Trainz parameters texture. For more information read PBRMetal Parameter Texture.
Linking the parameters texture to the roughness input is the only way to get Blender to export texture names correctly in an FBX file. Consequently the model may look slightly different in game.

Now we add the normal map but we need an additional node to provide additional information.


  • Using Shift A, add a Vector->Normal Map node and connect it to the Normal input of the shader node.
Blender320-FBX-export-create-a-vector-normal-map-node.jpg
  • Add another Image Texture node, connect it to the Normal Map node and load the "rockmat-normal.png" texture.
  • Your material, in the Shader Editor, should look like the following:


Blender320-FBX-export-complete-material.jpg


Now is a good time to save your Blender file.


[edit] Task 2 - Create lower poly LOD versions

The rock_lod0n mesh is 6144 triangles and needs to be reduced to less than 300 triangles for the lowest polygon mesh.

In TS19 and later versions, you can dictate the distance at which LOD levels swap out and also the distance the mesh is not rendered at all. This is independent of any draw distance a user may apply although Trainz will use the lowest draw distance of the two schemes.

Each lower poly mesh must be at least 20% fewer polys than the previous mesh but to get down to 300 polys using just 20% would take quite a few levels. So, it is recommended that 20% be applied only for the first LOD change and a more agressive reduction after that.


In this asset we will aim for levels like this:

LOD Level Triangles Distance
LOD0 6144 0 to 100 metres
LOD1 4900 100 to 300 metres
LOD2 1000 300 to 600 metres
LOD3 250 600 to 5000 metres
No render beyond 5000 metres


[edit] Creating the LOD1 mesh

  • If you haven't done so, save now.
  • In the Outliner Editor (top right) select the LOD0 collection.
  • Right click and select Duplicate Selection. This duplicates both the collection and meshes in the collection.
  • Rename the collection to LOD1 and rename the mesh to rock_lod1n. There is no rename action in the drop down menu but double clicking on the name will allow a change.
  • Hide the LOD0 collection by unchecking the box to the right of the collection name. This hides the entire collection.
  • In the Properties Editor, select the Modifiers tab which is the spanner icon. There should be no modifiers listed.
  • Click on Add Modifier and select the Decimate option.
  • The Decimate modifier has basically three options: Collapse, Un-Subdivide, and Planar. Generally, it is best to use the Collapse option but sometimes you can get a better result with Planar. The poly count is a face count that is most likely the number of quads (4 sided polygon) so the number of triangles would be twice that number. This isn't always correct and depends on the mesh topology. It should be close enough for our purposes.
  • For LOD1 we want a maximum of 4900 triangles (2450 faces) so use a Ratio value of 0.54 that gives a result of 2425 faces. This value may need to be tweaked if the actual value seen by Trainz is higher and therefore breaks the 20% rule.
  • Do not apply the modifier as this is a non destructive setting and may need to be changed. The modifier will be applied on export.
  • Save your work and we will move onto LOD2.


[edit] Creating the LOD2 mesh

  • This time select the LOD1 collection, make a duplicate and rename the collection to LOD2 and the mesh to rock_lod2n. You could have duplicated LOD0 instead but this way we alrady have a decimate modifier.
  • Hide the LOD0 and LOD1 collections if not already hidden.
  • This time we want to reduce the triangle count to 1000 (face count 500) so a more agressive reduction is required.
  • Try a Ratio value of 0.08 which gives quite a good result for a face count of 473.
  • If you want to compare LOD versions you can show/hide the other LOD collections but make sure you are left working on the correct mesh.
  • Save your work and we will move onto the final LOD - LOD3.


[edit] Creating the LOD3 mesh

  • Duplicate the LOD2 collection and rename the collection to LOD3 and the mesh to rock_lod3n.
  • Hide all collections except LOD3.
  • Change the Decimate Ration value to 0.017 that results in 102 faces (204 triangles). Our rock is now looking a bit pointy in places but remember this will only be shown at 600+ metres.
  • Save your work.


NotePad.PNG When creating our mesh names we have been using a convention of "rock_lodxn" where the x character is a LOD level. You can use any names you like within reason but using the "lodxn" will work with N3V's config.txt generator tool. See Trainz Content Utilities


NotePad.PNG At this point we have our 4 levels of LOD, LOD0 to LOD3, and that should pass asset validation. By creating the material after making the original mesh (LOD0) we are able to automatically copy the material from LOD to LOD. At each stage you should check that the mesh paint is still correct as LOD reduction will change the UV mapping and potentially cause the paint to look wrong. For a rock this probably doesn't matter but for other models it may not work. There are other LOD reduction techniques but they are beyond the scope of this tutorial.


[edit] Exporting our model

  • Repeat for each LOD collection
    • Select the next LOD collection and hide all the others.
    • Select the mesh for this LOD - e.g. rock_lod0n.
    • From the top menu select File->Export->FBX.
    • Change the output name, at the bottom of the dialog box, to the name of the mesh - e.g. rock_lod0n.fbx.
    • Change the export settings to the same as this image.


Blender320-FBX-export-FBX-export-dialog-box.jpg

For this export we use:

Include Selected Objects
Object Types Mesh only
Transform -> Scale 1.00
Apply Scalings FBX All
Forward Y Forward
Up Z Up
Apply Unit Ticked
Use Space Transform Ticked
Geometry-> Apply Modifiers Ticked
Triangulate Faces Ticked


You can ignore the animation settings (armature and Bake Animation).


  • Click on the Export FBX button at the top right. The mesh will be exported.


NotePad.PNG The settings shown above will work for Trainz but other settings will also work.



PencilTips.PNG You can save your preferences for a given export such as "mesh only" or "animation" by clicking on the plus button (+) next to Operator Presets and saving the preset with a name.



[edit] Importing into Trainz

[edit] Getting organised

  • Create a folder called "export" within your working folder. While not necessary it is convenient to have all the files Trainz needs to construct the asset.


[edit] FBX conversion to Trainzmesh format

While the FBX format is convenient for mesh creation and developing materials and textures, Trainz needs a conversion to a format that can be easily loaded by the game engine.

When you submit your asset into Trainz, Trainz will convert all the FBX files to Trainzmesh files using the same filename but changing the suffix. So a file called "rock_lod0n.fbx" will become "rock_lod0n.trainzmesh".

This means that your asset configuration in the config.txt file must refer to Trainzmesh files rather than FBX files.


[edit] Config.txt

For this asset we are creating a kind "scenery" asset and the config.txt will use mesh-table LOD together with a mesh-table-lod-transition-distances tag.

As explained earlier, the mesh-table-lod-transition-distances tag will control the distances at which the meshes changes and when they are no longer rendered.

A config.txt is provided in the project files although you will need to provide your own kuid. This is part of the config.txt.


kind                                      "scenery"
kuid                                      Note: supply your own kuid here
trainz-build                              "4.6"
category-class                            "HM"
category-region                           "00"
category-era                              "2010s;2020s"
mesh-table {
  lod0n {
    mesh                                  "rock_lod0n.trainzmesh"
    auto-create                           1
    lod-level                             0
    mesh-season                           0
  }
  lod1n {
    mesh                                  "rock_lod1n.trainzmesh"
    auto-create                           1
    lod-level                             1
    mesh-season                           0
  }
  lod2n {
    mesh                                  "rock_lod2n.trainzmesh"
    auto-create                           1
    lod-level                             2
    mesh-season                           0
  }
  lod3n {
    mesh                                  "rock_lod3n.trainzmesh"
    auto-create                           1
    lod-level                             3
    mesh-season                           0
  }
}
mesh-table-lod-transition-distances       100,300,600,5000


The trainz-build should be 4.6 or above.

The mesh table identifies the four meshes used in the asset plus the LOD level.

The mesh-table-lod-transition-distances identifies the distance at which the mesh changes to the next lower polygon mesh. You can change these if you want to experiment.


[edit] Texture.txt files

You can provide your own texture.txt files (advisable) or let the commit process create them for you.


[edit] Committing the asset

  • Commit the asset by dragging the folder onto CM. Assuming the commit is error free, open the asset for edit in explorer and see what Trainz has created.


You will get a warning like "...shading node not recognized:Phong". Trainz doesn't use the exported shader anyway so you can ignore the warning.

The trainzmesh files should be as described above. The FBX files will also be present so you may want to delete those if you are ready to upload your asset to the DLS or elsewhere. If you delete the FBX files, then you will need to commit the asset again. Since the trainzmesh files already exist no FBX conversion is carried out.


[edit] About the boulder asset

The material used for this asset was created within Substance Painter which is a powerful PBR material and texture creation tool.

You can make your own PBR textures within Blender but that is beyond the scope of this tutorial. There are several payware Blender addons that can create quite good textures, One worth looking at is PBR Painter and the Trainz user Cayden has been promoting that for Trainz use. Search for the PBR Painter thread on the Trainz forums.


[edit] Animation

If you are interested in animation for Blender, see How to export Blender FBX animation.

[edit] Some tips for exporting

  • Triangulate (convert to three sided polygons) before export. You can do this per mesh by using the triangulate command (Ctrl T) in mesh edit mode. Or you can add a triangulate modifier to the mesh in mesh object mode. The modifier method is preferred since keeping meshes in multi sided polygons help with editing.
  • Make sure you only have one UV map per mesh. Trainz doesn't seem to like more than one UV map.
  • Unapplied mesh scaling can cause issues including island distortment in the UV editor. Apply any scaling before export.
  • FBX does not support double sided meshes so you will need to create a metadata file as described at FBX file format#Mesh Metadata Files. Note that this is done per material. i.e. you cannot have the same material for single sided and double sided meshes.


[edit] FBX to Trainzmesh Conversion Warnings and Errors

Errors and warnings starting with a T, such as T16128, are errors ouput by the ASSIMP converter and are not output by the Trainz FBX importer. Errors or warnings starting with VE are generated by Trainz. See Asset_Validation.

Warning/Error Help/Explanation
Warning: T16080: ...shading mode not recognised: Phong You can ignore this warning
Warn, T15808: FBX-DOM (TOK_KEY, offset 0xnnnn) source object for connection does not exist You can ignore this warning
Error: Unable to determine vertex format This can be caused by having multiple UV maps for the same mesh. For example, baking a painted mesh to a bake mesh requires two UV maps. Remove old maps before exporting. If you wish to keep those maps, back up the Blender file and then delete the extra maps
Error, T5268 or T9068, Failed to triangulate polygon (no ear found). Probably not a simple polygon. Try triangulating the mesh, or meshes, using Ctrl T (quads to tris). If the error continues, try using the Triangulate modifier. This problem is known to occur when using modifiers that may produce ngons on export.
T16128: FindInvalidDataProcess fails on mesh uvcoords: All vectors are identical" Possibly caused by having one or more UV islands collapsed to one pixel.


[edit] Additional tutorial and Blender help resources

  1. An additional video tutorial can be found at Exporting basic Cube from Blender with PBR Materials. That tutorial uses Substance Painter to create the PBR materials.
  2. Paul Hobbs' Blender tutorial for creating a steam locomotive. [1] The tutorial is quite complex so start with some simple assets like houses or buildings first.
  3. How to solve Blender modelling problems


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