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cgalv2m.m
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cgalv2m.m
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function [node,elem,face]=cgalv2m(vol,opt,maxvol)
%
% [node,elem,face]=cgalv2m(vol,opt,maxvol)
%
% wrapper for CGAL 3D mesher (CGAL 3.5 or up)
% convert a binary (or multi-valued) volume to tetrahedral mesh
%
% http://www.cgal.org/Manual/3.5/doc_html/cgal_manual/Mesh_3/Chapter_main.html
%
% author: Qianqian Fang (q.fang at neu.edu)
%
% input:
% vol: a volumetric binary or labeled image
% ix,iy,iz: subvolume selection indices in x,y,z directions
% opt: parameters for CGAL mesher, if opt is a structure, then
% opt.radbound: defines the maximum surface element size
% opt.angbound: defines the miminum angle of a surface triangle
% opt.distbound: defines the maximum distance between the
% center of the surface bounding circle and center of the
% element bounding sphere
% opt.reratio: maximum radius-edge ratio
% if opt is a scalar, it only specifies radbound.
% maxvol: target maximum tetrahedral elem volume
%
% output:
% node: output, node coordinates of the tetrahedral mesh
% elem: output, element list of the tetrahedral mesh, the last
% column is the region id
% face: output, mesh surface element list of the tetrahedral mesh
% the last column denotes the boundary ID
% note: each triangle will appear twice in the face list with each
% one attaches to each side of the interface. one can remove
% the redundant triangles by unique(face(:,1:3),'rows')
%
% -- this function is part of iso2mesh toolbox (http://iso2mesh.sf.net)
%
fprintf(1,'creating surface and tetrahedral mesh from a multi-domain volume ...\n');
%dtype=class(vol);
%if(~(islogical(vol) || strcmp(dtype,'uint8')))
% error('cgalmesher can only handle uint8 volumes, you have to convert your image to unit8 first.');
%end
if(~any(vol))
error('no labeled regions found in the input volume.');
end
exesuff=getexeext;
exesuff=fallbackexeext(exesuff,'cgalmesh');
ang=30;
ssize=6;
approx=0.5;
reratio=3;
if(~isstruct(opt))
ssize=opt;
end
if(isstruct(opt) && length(opt)==1) % does not support settings for multiple labels
if(isfield(opt,'radbound')) ssize=opt.radbound; end
if(isfield(opt,'angbound')) ang=opt.angbound; end
if(isfield(opt,'distbound')) approx=opt.distbound; end
if(isfield(opt,'reratio')) reratio=opt.reratio; end
end
saveinr(vol,mwpath('pre_cgalmesh.inr'));
deletemeshfile(mwpath('post_cgalmesh.mesh'));
randseed=hex2dec('623F9A9E'); % "U+623F U+9A9E"
if(~isempty(getvarfrom('base','ISO2MESH_RANDSEED')))
randseed=getvarfrom('base','ISO2MESH_RANDSEED');
end
if(ischar(maxvol))
format_maxvol='%s';
else
format_maxvol='%f';
end
cmd=sprintf(['"%s%s" "%s" "%s" %f %f %f %f ' format_maxvol ' %d'],mcpath('cgalmesh'),exesuff,...
mwpath('pre_cgalmesh.inr'),mwpath('post_cgalmesh.mesh'),ang,ssize,...
approx,reratio,maxvol,randseed);
system(cmd);
if(~exist(mwpath('post_cgalmesh.mesh'),'file'))
error(['output file was not found, failure was encountered when running command: \n',cmd]);
end
[node,elem,face]=readmedit(mwpath('post_cgalmesh.mesh'));
% if a transformation matrix/offset vector supplied, apply them
if (isstruct(opt) && length(opt)==1)
if(isfield(opt,'A') && isfield(opt,'B'))
node(:,1:3)=(opt.A*node(:,1:3)'+repmat(opt.B(:),1,size(node,1)))';
end
end
fprintf(1,'node number:\t%d\ntriangles:\t%d\ntetrahedra:\t%d\nregions:\t%d\n',...
size(node,1),size(face,1),size(elem,1),length(unique(elem(:,end))));
fprintf(1,'surface and volume meshes complete\n');
if(size(node,1)>0)
[node,elem,face]=sortmesh(node(1,:),node,elem,1:4,face,1:3);
end
node=node+0.5;