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- :article_outdated: True
- .. _doc_using_multimesh:
- Optimization using MultiMeshes
- ==============================
- For large amount of instances (in the thousands), that need to be constantly processed
- (and certain amount of control needs to be retained),
- :ref:`using servers directly <doc_using_servers>` is the recommended optimization.
- When the amount of objects reach the hundreds of thousands or millions,
- none of these approaches are efficient anymore. Still, depending on the requirements, there
- is one more optimization possible.
- MultiMeshes
- -----------
- A :ref:`MultiMesh<class_MultiMesh>` is a single draw primitive that can draw up to millions
- of objects in one go. It's extremely efficient because it uses the GPU hardware to do this.
- The only drawback is that there is no *screen* or *frustum* culling possible for individual instances.
- This means, that millions of objects will be *always* or *never* drawn, depending on the visibility
- of the whole MultiMesh. It is possible to provide a custom visibility rect for them, but it will always
- be *all-or-none* visibility.
- If the objects are simple enough (just a couple of vertices), this is generally not much of a problem
- as most modern GPUs are optimized for this use case. A workaround is to create several MultiMeshes
- for different areas of the world.
- It is also possible to execute some logic inside the vertex shader (using the ``INSTANCE_ID`` or
- ``INSTANCE_CUSTOM`` built-in constants). For an example of animating thousands of objects in a MultiMesh,
- see the :ref:`Animating thousands of fish <doc_animating_thousands_of_fish>` tutorial. Information
- to the shader can be provided via textures (there are floating-point :ref:`Image<class_Image>` formats
- which are ideal for this).
- Another alternative is to use a GDExtension and C++, which should be extremely efficient (it's possible
- to set the entire state for all objects using linear memory via the
- :ref:`RenderingServer.multimesh_set_buffer() <class_RenderingServer_method_multimesh_set_buffer>`
- function). This way, the array can be created with multiple threads, then set in one call, providing
- high cache efficiency.
- Finally, it's not required to have all MultiMesh instances visible. The amount of visible ones can be
- controlled with the :ref:`MultiMesh.visible_instance_count <class_MultiMesh_property_visible_instance_count>`
- property. The typical workflow is to allocate the maximum amount of instances that will be used,
- then change the amount visible depending on how many are currently needed.
- Multimesh example
- -----------------
- Here is an example of using a MultiMesh from code. Languages other than GDScript may be more
- efficient for millions of objects, but for a few thousands, GDScript should be fine.
- .. tabs::
- .. code-tab:: gdscript GDScript
- extends MultiMeshInstance3D
- func _ready():
- # Create the multimesh.
- multimesh = MultiMesh.new()
- # Set the format first.
- multimesh.transform_format = MultiMesh.TRANSFORM_3D
- # Then resize (otherwise, changing the format is not allowed).
- multimesh.instance_count = 10000
- # Maybe not all of them should be visible at first.
- multimesh.visible_instance_count = 1000
- # Set the transform of the instances.
- for i in multimesh.visible_instance_count:
- multimesh.set_instance_transform(i, Transform3D(Basis(), Vector3(i * 20, 0, 0)))
- .. code-tab:: csharp C#
- using Godot;
- public partial class MyMultiMeshInstance3D : MultiMeshInstance3D
- {
- public override void _Ready()
- {
- // Create the multimesh.
- Multimesh = new MultiMesh();
- // Set the format first.
- Multimesh.TransformFormat = MultiMesh.TransformFormatEnum.Transform3D;
- // Then resize (otherwise, changing the format is not allowed)
- Multimesh.InstanceCount = 1000;
- // Maybe not all of them should be visible at first.
- Multimesh.VisibleInstanceCount = 1000;
- // Set the transform of the instances.
- for (int i = 0; i < Multimesh.VisibleInstanceCount; i++)
- {
- Multimesh.SetInstanceTransform(i, new Transform3D(Basis.Identity, new Vector3(i * 20, 0, 0)));
- }
- }
- }
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