# -*- coding: utf-8 -*- # emacs: -*- mode: python; py-indent-offset: 4; indent-tabs-mode: nil -*- # vi: set ft=python sts=4 ts=4 sw=4 et: """MeshFix corrects topological errors in polygonal meshes.""" import os.path as op from ..utils.filemanip import split_filename from .base import ( CommandLine, CommandLineInputSpec, traits, TraitedSpec, isdefined, File, ) class MeshFixInputSpec(CommandLineInputSpec): number_of_biggest_shells = traits.Int( argstr="--shells %d", desc="Only the N biggest shells are kept" ) epsilon_angle = traits.Range( argstr="-a %f", low=0.0, high=2.0, desc="Epsilon angle in degrees (must be between 0 and 2)", ) join_overlapping_largest_components = traits.Bool( argstr="-j", xor=["join_closest_components"], desc="Join 2 biggest components if they overlap, remove the rest.", ) join_closest_components = traits.Bool( argstr="-jc", xor=["join_closest_components"], desc="Join the closest pair of components.", ) quiet_mode = traits.Bool( argstr="-q", desc="Quiet mode, don't write much to stdout." ) dont_clean = traits.Bool(argstr="--no-clean", desc="Don't Clean") save_as_stl = traits.Bool( xor=["save_as_vrml", "save_as_freesurfer_mesh"], argstr="--stl", desc="Result is saved in stereolithographic format (.stl)", ) save_as_vrml = traits.Bool( argstr="--wrl", xor=["save_as_stl", "save_as_freesurfer_mesh"], desc="Result is saved in VRML1.0 format (.wrl)", ) save_as_freesurfer_mesh = traits.Bool( argstr="--fsmesh", xor=["save_as_vrml", "save_as_stl"], desc="Result is saved in freesurfer mesh format", ) remove_handles = traits.Bool(argstr="--remove-handles", desc="Remove handles") uniform_remeshing_steps = traits.Int( argstr="-u %d", requires=["uniform_remeshing_vertices"], desc="Number of steps for uniform remeshing of the whole mesh", ) uniform_remeshing_vertices = traits.Int( argstr="--vertices %d", requires=["uniform_remeshing_steps"], desc="Constrains the number of vertices." "Must be used with uniform_remeshing_steps", ) laplacian_smoothing_steps = traits.Int( argstr="--smooth %d", desc="The number of laplacian smoothing steps to apply" ) x_shift = traits.Int( argstr="--smooth %d", desc="Shifts the coordinates of the vertices when saving. Output must be in FreeSurfer format", ) # Cutting, decoupling, dilation cut_outer = traits.Int( argstr="--cut-outer %d", desc="Remove triangles of 1st that are outside of the 2nd shell.", ) cut_inner = traits.Int( argstr="--cut-inner %d", desc="Remove triangles of 1st that are inside of the 2nd shell. Dilate 2nd by N; Fill holes and keep only 1st afterwards.", ) decouple_inin = traits.Int( argstr="--decouple-inin %d", desc="Treat 1st file as inner, 2nd file as outer component." "Resolve overlaps by moving inners triangles inwards. Constrain the min distance between the components > d.", ) decouple_outin = traits.Int( argstr="--decouple-outin %d", desc="Treat 1st file as outer, 2nd file as inner component." "Resolve overlaps by moving outers triangles inwards. Constrain the min distance between the components > d.", ) decouple_outout = traits.Int( argstr="--decouple-outout %d", desc="Treat 1st file as outer, 2nd file as inner component." "Resolve overlaps by moving outers triangles outwards. Constrain the min distance between the components > d.", ) finetuning_inwards = traits.Bool( argstr="--fineTuneIn ", requires=["finetuning_distance", "finetuning_substeps"], position=-3, desc="Used to fine-tune the minimal distance between surfaces.", ) finetuning_outwards = traits.Bool( argstr="--fineTuneOut ", requires=["finetuning_distance", "finetuning_substeps"], position=-3, xor=["finetuning_inwards"], desc="Similar to finetuning_inwards, but ensures minimal distance in the other direction", ) finetuning_distance = traits.Float( argstr="%f", requires=["finetuning_substeps"], position=-2, desc="Used to fine-tune the minimal distance between surfaces." "A minimal distance d is ensured, and reached in n substeps. When using the surfaces for subsequent volume meshing by gmsh, this step prevent too flat tetrahedra2)", ) finetuning_substeps = traits.Int( argstr="%d", requires=["finetuning_distance"], position=-1, desc="Used to fine-tune the minimal distance between surfaces." "A minimal distance d is ensured, and reached in n substeps. When using the surfaces for subsequent volume meshing by gmsh, this step prevent too flat tetrahedra2)", ) dilation = traits.Int( argstr="--dilate %d", desc="Dilate the surface by d. d < 0 means shrinking." ) set_intersections_to_one = traits.Bool( argstr="--intersect", desc="If the mesh contains intersections, return value = 1." "If saved in gmsh format, intersections will be highlighted.", ) in_file1 = File(exists=True, argstr="%s", position=1, mandatory=True) in_file2 = File(exists=True, argstr="%s", position=2) output_type = traits.Enum( "off", ["stl", "msh", "wrl", "vrml", "fs", "off"], usedefault=True, desc="The output type to save the file as.", ) out_filename = File( genfile=True, argstr="-o %s", desc="The output filename for the fixed mesh file" ) class MeshFixOutputSpec(TraitedSpec): mesh_file = File(exists=True, desc="The output mesh file") class MeshFix(CommandLine): """ MeshFix v1.2-alpha - by Marco Attene, Mirko Windhoff, Axel Thielscher. .. seealso:: http://jmeshlib.sourceforge.net Sourceforge page http://simnibs.de/installation/meshfixandgetfem Ubuntu installation instructions If MeshFix is used for research purposes, please cite the following paper: M. Attene - A lightweight approach to repairing digitized polygon meshes. The Visual Computer, 2010. (c) Springer. Accepted input formats are OFF, PLY and STL. Other formats (like .msh for gmsh) are supported only partially. Example ------- >>> import nipype.interfaces.meshfix as mf >>> fix = mf.MeshFix() >>> fix.inputs.in_file1 = 'lh-pial.stl' >>> fix.inputs.in_file2 = 'rh-pial.stl' >>> fix.run() # doctest: +SKIP >>> fix.cmdline 'meshfix lh-pial.stl rh-pial.stl -o lh-pial_fixed.off' """ _cmd = "meshfix" input_spec = MeshFixInputSpec output_spec = MeshFixOutputSpec def _list_outputs(self): outputs = self.output_spec().get() if isdefined(self.inputs.out_filename): path, name, ext = split_filename(self.inputs.out_filename) ext = ext.replace(".", "") out_types = ["stl", "msh", "wrl", "vrml", "fs", "off"] # Make sure that the output filename uses one of the possible file types if any(ext == out_type.lower() for out_type in out_types): outputs["mesh_file"] = op.abspath(self.inputs.out_filename) else: outputs["mesh_file"] = op.abspath(name + "." + self.inputs.output_type) else: outputs["mesh_file"] = op.abspath(self._gen_outfilename()) return outputs def _gen_filename(self, name): if name == "out_filename": return self._gen_outfilename() else: return None def _gen_outfilename(self): _, name, _ = split_filename(self.inputs.in_file1) if self.inputs.save_as_freesurfer_mesh or self.inputs.output_type == "fs": self.inputs.output_type = "fs" self.inputs.save_as_freesurfer_mesh = True if self.inputs.save_as_stl or self.inputs.output_type == "stl": self.inputs.output_type = "stl" self.inputs.save_as_stl = True if self.inputs.save_as_vrml or self.inputs.output_type == "vrml": self.inputs.output_type = "vrml" self.inputs.save_as_vrml = True return name + "_fixed." + self.inputs.output_type