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https://github.com/smoren/trimeshtools-pypi

Collection of tools for 3D modeling with Trimesh
https://github.com/smoren/trimeshtools-pypi

3d-modelling 3d-models 3d-printing trimesh

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Collection of tools for 3D modeling with Trimesh

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README 

          
# TrimeshTools - collection of tools for 3D modeling with Trimesh



[![PyPI package](https://img.shields.io/badge/pip%20install-trimeshtools-brightgreen)](https://pypi.org/project/trimeshtools/)

[![version number](https://img.shields.io/pypi/v/trimeshtools?color=green&label=version)](https://github.com/Smoren/trimeshtools-pypi/releases)

[![PyPI Downloads](https://static.pepy.tech/badge/trimeshtools)](https://pepy.tech/projects/trimeshtools)

[![Actions Status](https://github.com/Smoren/trimeshtools-pypi/workflows/Test/badge.svg)](https://github.com/Smoren/trimeshtools-pypi/actions)

[![License](https://img.shields.io/github/license/Smoren/trimeshtools-pypi)](https://github.com/Smoren/trimeshtools-pypi/blob/master/LICENSE)



**TrimeshTools** is a minimalistic Python library designed to extend the capabilities of the popular `trimesh` library. 

It provides a limited set of tools for basic 3D mesh manipulation, including operations for combining, moving, rotating, 

and visualizing 3D models. This library aims to simplify common mesh processing tasks, making it easier for developers 

and researchers to work with 3D data in Python.



## Key Features



* **Mesh Combination**: Seamlessly perform boolean union operations and concatenate multiple meshes.

* **Advanced Deformation**: Apply various deformation techniques such as bending, spiral bending, and twisting to meshes.

* **Precise Editing**: Subdivide meshes for increased detail and accurately cut meshes using defined planes.

* **Transformations**: Easily move meshes to specific positions (center, floor, custom bounds) and apply rotations or mirroring transformations.

* **Geometric Figure Creation**: Generate complex 3D shapes like Archimedean spirals and rounded boxes.

* **Surface Operations**: Utilize the `Surface` class for advanced operations, including creating surfaces from vertices, paths, Z-functions, and parametric functions, as well as thickening surfaces.

* **Visualization**: Conveniently display meshes in a 3D viewer, with optional axis visualization.

* **Mesh Repair Utilities**: Includes functions to fix common mesh issues such as merging vertices, removing duplicate faces, and correcting normals.



## Installation



To install `trimeshtools-pypi`, you can use pip:

```bash

pip install trimeshtools-pypi

```



## Usage



Here are some basic examples of how to use `trimeshtools-pypi`.



### Combining Meshes



```python

import trimesh

from trimeshtools.combine import union_meshes, concatenate_meshes



# Create some sample meshes

mesh1 = trimesh.creation.box()

mesh2 = trimesh.creation.sphere()



# Perform a union operation

combined_mesh_union = union_meshes(mesh1, mesh2)



# Concatenate meshes

combined_mesh_concat = concatenate_meshes(mesh1, mesh2)

```



### Deforming Meshes



```python

import trimesh

from trimeshtools.deform import bend_mesh, spiral_bend_mesh, twist_mesh



# Create a sample mesh

mesh = trimesh.creation.box()



# Bend the mesh

bent_mesh = bend_mesh(mesh.copy(), radius=10)



# Spiral bend the mesh

spiral_bent_mesh = spiral_bend_mesh(mesh.copy(), bend_amount=0.5)



# Twist the mesh

twisted_mesh = twist_mesh(mesh.copy(), num_rotations=3)

```



### Editing Meshes



```python

import trimesh

from trimeshtools.edit import subdivide_shape, cut_mesh

import numpy as np



# Create a sample mesh

mesh = trimesh.creation.box()



# Subdivide the mesh

subdivided_mesh = subdivide_shape(mesh.copy(), iterations=1)



# Cut the mesh

plane_origin = [0, 0, 0]

plane_normal = [0, 0, 1]

mesh_above, mesh_below = cut_mesh(mesh.copy(), plane_origin, plane_normal)

```



### Moving Meshes



```python

import trimesh

from trimeshtools.move import move_to_center, move_to_floor, move_to_bound



# Create a sample mesh

mesh = trimesh.creation.box()



# Move to center

centered_mesh = move_to_center(mesh.copy())



# Move to floor

floored_mesh = move_to_floor(mesh.copy())



# Move to specific bound

bound_mesh = move_to_bound(mesh.copy(), x=1, y=-1, z=0)

```



### Rotating Meshes



```python

import trimesh

from trimeshtools.rotate import create_rotation_matrix_for_x, create_mirror_matrix

import numpy as np



# Create a sample mesh

mesh = trimesh.creation.box()



# Create rotation matrix and apply

rotation_matrix = create_rotation_matrix_for_x(np.radians(45))

rotated_mesh = mesh.copy().apply_transform(rotation_matrix)



# Create mirror matrix and apply

mirror_matrix = create_mirror_matrix(x=True)

mirrored_mesh = mesh.copy().apply_transform(mirror_matrix)

```



### Showing Meshes



```python

import trimesh

from trimeshtools.show import show_mesh



# Create a sample mesh

mesh = trimesh.creation.box()



# Show the mesh

show_mesh(mesh)

```



### Surface Operations



```python

import trimesh

import numpy as np

from trimeshtools.surface import Surface



# Create a surface from vertices

vertices = np.array([

    [0, 0, 0],

    [1, 0, 0],

    [0, 1, 0],

    [1, 1, 0]

])

surface_from_vertices = Surface.from_vertices(vertices)



# Create a surface from a z-function

def custom_z_function(X, Y):

    return np.sin(X) + np.cos(Y)



surface_from_function = Surface.from_z_function(

    custom_z_function, x_range=(0, 2*np.pi), y_range=(0, 2*np.pi), steps_count=50

)



# Thicken a surface

thickened_surface = surface_from_vertices.thicken(0.1)

```



## Dependencies



`trimeshtools-pypi` relies on the following core libraries:



* `trimesh`: A powerful Python library for 3D meshes and geometry.

* `numpy`: The fundamental package for scientific computing with Python.

* `scipy`: Scientific computing tools for Python, used for Delaunay triangulation in surface creation.

* `shapely`: A Python library for manipulation and analysis of planar geometric objects, used for creating spiral meshes.



These dependencies will be automatically installed when you install `trimeshtools-pypi` using pip.



## License



This project is licensed under the MIT License - see the [LICENSE](LICENSE) file for details.