trimesh 1.9.11

Import, export, process, analyze and view triangular meshes.

Python (2.7-3.*) library for loading and utilizing triangular meshes. The goal of the library is to provide a fully featured Trimesh object which allows for easy manipulation and analysis, in the style of the excellent Polygon object in the Shapely library.

Features

• Import binary/ASCII STL, Wavefront, and OFF

• Import formats using assimp (if pyassimp installed)

• Import STEP files as meshes (if STEPtools Inc. Author Tools installed)

• Import 2D or 3D vector paths from DXF or SVG files

• Export meshes as binary STL, COLLADA, or OFF

• Preview meshes (requires pyglet)

• Internal caching of computed values which are automatically cleared when vertices or faces are changed

• Fast loading of binary and ASCII STL files (on 234,230 face mesh, was 24.5x faster than assimp)

• Calculate face adjacencies quickly (for the same 234,230 face mesh .248 s)

• Calculate cross sections (.146 s)

• Split mesh based on face connectivity using networkx (4.96 s) or graph-tool (.584 s)

• Calculate mass properties, including volume, center of mass, and moment of inertia (.246 s)

• Find coplanar groups of faces (.454 s)

• Fix triangle winding to be consistent

• Fix normals to be oriented ‘outwards’ using ray tests

• Calculate whether or not a point lies inside a watertight mesh using ray tests

• Find convex hulls of meshes (.21 s)

• Compute a rotation/translation/tessellation invariant identifier for meshes (from an FFT of the radius distribution)

• Merge duplicate meshes from identifier

• Determine if a mesh is watertight (manifold)

• Repair single triangle and single quad holes

• Uniformly sample the surface of a mesh

• Find ray-mesh intersections

• Boolean operations on meshes (intersection, union, difference) if OpenSCAD is installed

• Voxelize watertight meshes

• Unit conversions

• Create meshes by extruding 2D profiles

• Numerous utility functions, such as transforming points, unitizing vectors, grouping rows, etc.

Installation

The easiest way to install is:

$ sudo pip install git+https://github.com/mikedh/trimesh.git

Optional Dependencies

Ray-mesh queries

If you would like to use ray queries or some path functionality, install dependencies:

$ sudo pip install shapely git+https://github.com/Toblerity/rtree.git svg.path

Rtree may not build without libspatialindex installed, get it with:

$ sudo apt-get install libspatialindex*

Loading meshes with Assimp

Trimesh supports loading meshes via Assimp, but this requires a fairly recent version. To get the latest version of assimp/pyassimp from github:

$ sudo pip install git+https://github.com/robotics/assimp_latest.git

Creating meshes

If you would like to use the trimesh.creation functions, meshpy is required:

$ sudo pip install meshpy

Boolean operations

If you would like to use the trimesh.boolean (union, intersection, difference) functions which use openSCAD/CGAL:

$ sudo apt-get install openscad

Quick Start

Here is an example of loading a cube from file and colorizing its faces.

import numpy as np
import trimesh

# load a file by name or from a buffer
mesh = trimesh.load_mesh('./models/featuretype.STL')

# find groups of coplanar adjacent faces
facets, facets_area = mesh.facets(return_area=True)

# set each facet to a random color
for facet in facets:
    mesh.visual.face_colors[facet] = trimesh.color.random_color()

# preview mesh in an opengl window if you installed pyglet
mesh.show()

In the mesh view window, dragging rotates the view, ctl + drag pans, mouse wheel scrolls, ‘z’ returns to the base view, ‘w’ toggles wireframe mode, and ‘c’ toggles backface culling.