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Port of Marco Attene's meshfix to compile and run on Mac OS X

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MeshFix

This is a port of Marco Attene's wonderful, award-winning MeshFix software to compile on Mac OS X.

Get started with:

git clone --recursive https://github.com/alecjacobson/meshfix

Compilation

mkdir build
cd build
cmake -DCMAKE_BUILD_TYPE=Release  ..
make

Dependencies

All dependencies are included, either explicitly or as git submodules. If you clone this repo using git clone --recursive then the dependency layout should be:

meshfix/
  JMeshExt-1.0alpha_src/
    JMeshLib-1.2/
    OpenNL3.2.1/
      SuperLU/

The libigl_example also depends on libigl (not included).

Libigl/Eigen interface example

The original meshfix.cpp code has been restructued a bit to provide a clean interface when called programmatically (not via the command line program). This allows us to implement a little wrapper taking a triangle mesh as a list of vertex positions in a matrix V and a list of triangle indices F, as is common in libigl and other libraries. See meshfix.h and when using, define MESHFIX_WITH_EIGEN.

If cmake finds libigl installed then it will also build the example libigl_example. To run, issue:

./libigl_example input-mesh.obj output-mesh.ply

This should produce the cleaned mesh output-mesh.ply.

This example demonstrates how to use libmeshfix.a, the compiled library containing the main meshfix routine (see meshfix.h).

MeshFix V1.0

by Marco Attene IMATI-GE / CNR

This software takes as input a polygon mesh and produces a copy of the input where all the occurrences of a specific set of "defects" are corrected. MeshFix has been designed to correct typical flaws present in RAW DIGITIZED mesh models, thus it might fail or produce coarse results if run on other sorts of input meshes (e.g. tessellated CAD models). When the software fails, it appends a textual description to the file "meshfix.log".

The input is assumed to represent a single CLOSED SOLID OBJECT, thus the output will be a SINGLE WATERTIGHT TRIANGLE MESH bounding a polyhedron. All the singularities, self-intersections and degenerate elements are removed from the input, while regions of the surface without defects are left unmodified. Accepted input formats are OFF, PLY and STL. Other formats are supported only partially. See http://jmeshlib.sourceforge.net for details on supported formats.

ALGORITHM AND CITATION POLICY

To better understand how the algorithm works, please refer to the following paper:

M. Attene. A lightweight approach to repairing digitized polygon meshes. The Visual Computer, 2010. (c) Springer. DOI: 10.1007/s00371-010-0416-3

This software is based on ideas published therein. If you use MeshFix for research purposes you should cite the above paper in your published results. MeshFix cannot be used for commercial purposes without a written permission by the author.

PARAMETERS

The user may select a threshold angle to be used when assessing whether a triangle is to be considered degenerate or not. Also, the user may want to force the software to keep only the biggest connected component of the input, while considering the others as "noise". If not specified by the user, the default threshold angle is 0, meaning that only triangles which have null area are considered to be degenerate (exact arithmetic is used for such evaluation).

COMMAND LINE SYNTAX

Usage: MeshFix meshfile [-a epsilon_angle] [-w] [-n]
  Processes 'meshfile' and saves the result to 'meshfile_fixed.off'
  By default, epsilon_angle is 0. If specified, it must be in the range (0 - 2) degrees.
  With '-w', the output is saved in VRML format instead of OFF.
  With '-n', only the biggest input component is kept, otherwise all of them are used.

OTHER LAUNCHING MODES

A mesh can also be fixed my simply dragging its icon on MeshFix's icon. In this case, only default parameters can be used. MeshFix does not require any interaction, thus it can be inserted into a script to automatically repair all the models of a given repository (e.g. a folder). If some failure cases occur, they will be logged to meshfix.log and thus can be easily located and possibly processed is a second stage through interactive software tools such as ReMESH.

#SOURCE CODE

Note: Please use port instructions for this github version.

To compile the source code you need the following libraries correctly installed on your PC:

JMeshLib 1.1 or later DOWNLOAD AT: http://jmeshlib.sourceforge.net

The fast robust geometric predicates by J.R.Shewchuk DOWNLOAD AT: http://www.cs.cmu.edu/~quake/robust.html Rename the two files from predicates.* to jrs_predicates.* and copy them as follows: jrs_predicates.h to JMeshExt-1.0alpha_src\include
jrs_predicates.c to JMeshExt-1.0alpha_src\src\JRS_Predicates\

OpenNL DOWNLOAD AT: http://alice.loria.fr/index.php/software/4-library/23-opennl.html

After that, compile JMeshExt (VC project in "JMeshExt-1.0alpha_src\vc8") and then MeshFix (VC project in "vc8").

#Copyright

MeshFix is

Copyright(C) 2010: IMATI-GE / CNR

All rights reserved.

This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version.

This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License (http://www.gnu.org/licenses/gpl.txt) for more details.

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