pycad/py_src/gmsh.py


########################################################
#
# Copyright (c) 2003-2009 by University of Queensland
# Earth Systems Science Computational Center (ESSCC)
# http://www.uq.edu.au/esscc
#
# Primary Business: Queensland, Australia
# Licensed under the Open Software License version 3.0
# http://www.opensource.org/licenses/osl-3.0.php
#
########################################################

__copyright__="""Copyright (c) 2003-2009 by University of Queensland
Earth Systems Science Computational Center (ESSCC)
http://www.uq.edu.au/esscc
Primary Business: Queensland, Australia"""
__license__="""Licensed under the Open Software License version 3.0
http://www.opensource.org/licenses/osl-3.0.php"""
__url__="https://launchpad.net/escript-finley"

"""
mesh generation using gmsh

:var __author__: name of author
:var __copyright__: copyrights
:var __license__: licence agreement
:var __url__: url entry point on documentation
:var __version__: version
:var __date__: date of the version
"""

__author__="Lutz Gross, l.gross@uq.edu.au"

import design
import tempfile
import os
from primitives import Point, Spline, BezierCurve, BSpline, Line, Arc, CurveLoop, RuledSurface, PlaneSurface, SurfaceLoop, Volume, PropertySet, Ellipse
from esys.escript import getMPIWorldMax, getMPIRankWorld
from transformations import DEG

class Design(design.Design):
    """
    Design for gmsh.
    """
    DELAUNAY="iso"
    NETGEN="netgen"
    TETGEN="tetgen"

    def __init__(self,dim=3,element_size=1.,order=1,keep_files=False):
       """
       Initializes the gmsh design.

       :param dim: spatial dimension
       :param element_size: global element size
       :param order: element order
       :param keep_files: flag to keep work files
       """
       design.Design.__init__(self,dim=dim,element_size=element_size,order=order,keep_files=keep_files)
       self.setScriptFileName()
       self.setMeshFileName()
       self.setOptions()

    def setScriptFileName(self,name=None):
       """
       Sets the filename for the gmsh input script. If no name is given a name
       with extension I{geo} is generated.
       """
       if name == None:
           tmp_f_id=tempfile.mkstemp(suffix=".geo")
           self.__scriptname=tmp_f_id[1]
           os.close(tmp_f_id[0])
       else:
           self.__scriptname=name
           self.setKeepFilesOn()

    def getScriptFileName(self):
       """
       Returns the name of the gmsh script file.
       """
       return self.__scriptname

    def setMeshFileName(self, name=None):
       """
       Sets the name for the gmsh mesh file. If no name is given a name with
       extension I{msh} is generated.
       """
       if name == None:
           tmp_f_id=tempfile.mkstemp(suffix=".msh")
           self.__mshname=tmp_f_id[1]
           os.close(tmp_f_id[0])
       else:
           self.__mshname=name
           self.setKeepFilesOn()

    def getMeshFileName(self):
       """
       Returns the name of the gmsh mesh file.
       """
       return self.__mshname

    def setOptions(self,algorithm=None,optimize_quality=True,smoothing=1, curvature_based_element_size=False):
        """
        Sets options for the mesh generator.
        """
        if curvature_based_element_size:
              print "information: gmsh does not support curvature based element size anymore. Option ignored."
        if algorithm==None: algorithm=self.DELAUNAY
        self.__algo=algorithm
        self.__optimize_quality=optimize_quality
        self.__smoothing=smoothing

    def __del__(self):
        """
        Cleans up.
        """
        if not self.keepFiles() :
            os.unlink(self.getScriptFileName())
            os.unlink(self.getMeshFileName())

    def getCommandString(self):
        """
        Returns the gmsh command line.
        """
        if self.__optimize_quality:
              opt="-optimize "
        else:
              opt=""

        exe="gmsh -format msh -%s -algo %s -smooth %s %s-v 3 -order %s -o %s %%s" % (
                self.getDim(), self.__algo, self.__smoothing, opt,
                self.getElementOrder(), self.getMeshFileName())
        return exe
    def getScriptHandler(self):
        """
        Returns a handler to the script file to generate the geometry.
        In the current implementation a script file name is returned.
        """
        if getMPIRankWorld() == 0:
            open(self.getScriptFileName(),"w").write(self.getScriptString())
        return self.getScriptFileName()


    def getMeshHandler(self):
        """
        Returns a handle to a mesh meshing the design. In the current
        implementation a mesh file name in gmsh format is returned.
        """
        cmd = self.getCommandString()%self.getScriptHandler()
        if getMPIRankWorld() == 0:
            ret = os.system(cmd) / 256
        else:
            ret=0
        ret=getMPIWorldMax(ret)
        if ret > 0:
          raise RuntimeError, "Could not build mesh: %s"%cmd
        else:
          return self.getMeshFileName()

        
    def getScriptString(self):
        """
        Returns the gmsh script to generate the mesh.
        """
        h=self.getElementSize()
        out='// generated by esys.pycad\nGeneral.Terminal = 1;'
        for prim in self.getAllPrimitives():
           p=prim.getUnderlyingPrimitive()
           if isinstance(p, Point):
               c=p.getCoordinates()
               out+="Point(%s) = {%s , %s, %s , %s };\n"%(p.getID(),c[0],c[1],c[2], p.getLocalScale()*h)

           elif isinstance(p, Spline):
               out+="Spline(%s) = {%s};\n"%(p.getID(),self.__mkArgs(p.getControlPoints()))+self.__mkTransfiniteLine(p)

           elif isinstance(p, BezierCurve):
               out+="Bezier(%s) = {%s};\n"%(p.getID(),self.__mkArgs(p.getControlPoints()))+self.__mkTransfiniteLine(p)

           elif isinstance(p, BSpline):
               out+="BSpline(%s) = {%s};\n"%(p.getID(),self.__mkArgs(p.getControlPoints()))+self.__mkTransfiniteLine(p)

           elif isinstance(p, Line):
               out+="Line(%s) = {%s, %s};\n"%(p.getID(),p.getStartPoint().getDirectedID(),p.getEndPoint().getDirectedID())+self.__mkTransfiniteLine(p)

           elif isinstance(p, Arc):
              out+="Circle(%s) = {%s, %s, %s};\n"%(p.getID(),p.getStartPoint().getDirectedID(),p.getCenterPoint().getDirectedID(),p.getEndPoint().getDirectedID())+self.__mkTransfiniteLine(p)

           elif isinstance(p, Ellipse):
              out+="Ellipse(%s) = {%s, %s, %s, %s};\n"%(p.getID(),p.getStartPoint().getDirectedID(),p.getCenterPoint().getDirectedID(),p.getPointOnMainAxis().getDirectedID(), p.getEndPoint().getDirectedID())+self.__mkTransfiniteLine(p)

           elif isinstance(p, CurveLoop):
               out+="Line Loop(%s) = {%s};\n"%(p.getID(),self.__mkArgs(p.getCurves()))

           elif isinstance(p, RuledSurface):
               out+="Ruled Surface(%s) = {%s};\n"%(p.getID(),p.getBoundaryLoop().getDirectedID())+self.__mkTransfiniteSurface(p)

           elif isinstance(p, PlaneSurface):
               line=self.__mkArgs(p.getHoles())
               if len(line)>0:
                 out+="Plane Surface(%s) = {%s, %s};\n"%(p.getID(),p.getBoundaryLoop().getDirectedID(), line)+self.__mkTransfiniteSurface(p)
               else:
                 out+="Plane Surface(%s) = {%s};\n"%(p.getID(),p.getBoundaryLoop().getDirectedID())+self.__mkTransfiniteSurface(p)

           elif isinstance(p, SurfaceLoop):
               out+="Surface Loop(%s) = {%s};\n"%(p.getID(),self.__mkArgs(p.getSurfaces()))

           elif isinstance(p, Volume):
               line=self.__mkArgs(p.getHoles())
               if len(line)>0:
                 out+="Volume(%s) = {%s, %s};\n"%(p.getID(),p.getSurfaceLoop().getDirectedID(), line)
               else:
                 out+="Volume(%s) = {%s};\n"%(p.getID(),p.getSurfaceLoop().getDirectedID())

           elif isinstance(p, PropertySet):
               if p.getNumItems()>0:
                  dim=p.getDim()
                  line="Physical "
                  if dim==0:
                      line+="Point"
                  elif dim==1:
                      line+="Line"
                  elif dim==2:
                      line+="Surface"
                  else:
                      line+="Volume"
                  out+=line+"(" + str(p.getID()) + ") = {"+self.__mkArgs(p.getItems())+"};\n"

           else:
               raise TypeError("unable to pass %s object to gmsh."%str(type(p)))
        return out


    def __mkArgs(self,args):
        line=""
        for i in args:
            if len(line)>0:
                line+=", %s"%i.getDirectedID()
            else:
                line="%s"%i.getDirectedID()
        return line

    def __mkTransfiniteLine(self,p):
          s=p.getElementDistribution()
          if not s == None:
              if s[2]:
                  out="Transfinite Line{%d} = %d Using Bump %s;\n"%(p.getID(),s[0],s[1])
              else:
                  out="Transfinite Line{%d} = %d Using Progression %s;\n"%(p.getID(),s[0],s[1])
          else:
               out=""
          return out
    def __mkTransfiniteSurface(self,p):
         out=""
         o=p.getRecombination()
         s=p.getTransfiniteMeshing()
         if not s == None:
             out2=""
             if not s[0] == None:
               for q in s[0]:
                  if len(out2)==0:
                      out2="%s"%q.getID()
                  else:
                      out2="%s,%s"%(out2,q.getID())
             if o == None:
                out+="Transfinite Surface{%s} = {%s};\n"%(p.getID(),out2)
             else:
                out+="Transfinite Surface{%s} = {%s} %s;\n"%(p.getID(),out2,s[1])
         if not o == None:
           out+="Recombine Surface {%s} = %s;\n"%(p.getID(),o/DEG)
         return out
     
1
2	########################################################
3	#
4	# Copyright (c) 2003-2009 by University of Queensland
5	# Earth Systems Science Computational Center (ESSCC)
6	# http://www.uq.edu.au/esscc
7	#
8	# Primary Business: Queensland, Australia
9	# Licensed under the Open Software License version 3.0
10	# http://www.opensource.org/licenses/osl-3.0.php
11	#
12	########################################################
13
14	__copyright__="""Copyright (c) 2003-2009 by University of Queensland
15	Earth Systems Science Computational Center (ESSCC)
16	http://www.uq.edu.au/esscc
17	Primary Business: Queensland, Australia"""
18	__license__="""Licensed under the Open Software License version 3.0
19	http://www.opensource.org/licenses/osl-3.0.php"""
20	__url__="https://launchpad.net/escript-finley"
21
22	"""
23	mesh generation using gmsh
24
25	:var __author__: name of author
26	:var __copyright__: copyrights
27	:var __license__: licence agreement
28	:var __url__: url entry point on documentation
29	:var __version__: version
30	:var __date__: date of the version
31	"""
32
33	__author__="Lutz Gross, l.gross@uq.edu.au"
34
35	import design
36	import tempfile
37	import os
38	from primitives import Point, Spline, BezierCurve, BSpline, Line, Arc, CurveLoop, RuledSurface, PlaneSurface, SurfaceLoop, Volume, PropertySet, Ellipse
39	from esys.escript import getMPIWorldMax, getMPIRankWorld
40	from transformations import DEG
41
42	class Design(design.Design):
43	"""
44	Design for gmsh.
45	"""
46	DELAUNAY="iso"
47	NETGEN="netgen"
48	TETGEN="tetgen"
49
50	def __init__(self,dim=3,element_size=1.,order=1,keep_files=False):
51	"""
52	Initializes the gmsh design.
53
54	:param dim: spatial dimension
55	:param element_size: global element size
56	:param order: element order
57	:param keep_files: flag to keep work files
58	"""
59	design.Design.__init__(self,dim=dim,element_size=element_size,order=order,keep_files=keep_files)
60	self.setScriptFileName()
61	self.setMeshFileName()
62	self.setOptions()
63
64	def setScriptFileName(self,name=None):
65	"""
66	Sets the filename for the gmsh input script. If no name is given a name
67	with extension I{geo} is generated.
68	"""
69	if name == None:
70	tmp_f_id=tempfile.mkstemp(suffix=".geo")
71	self.__scriptname=tmp_f_id[1]
72	os.close(tmp_f_id[0])
73	else:
74	self.__scriptname=name
75	self.setKeepFilesOn()
76
77	def getScriptFileName(self):
78	"""
79	Returns the name of the gmsh script file.
80	"""
81	return self.__scriptname
82
83	def setMeshFileName(self, name=None):
84	"""
85	Sets the name for the gmsh mesh file. If no name is given a name with
86	extension I{msh} is generated.
87	"""
88	if name == None:
89	tmp_f_id=tempfile.mkstemp(suffix=".msh")
90	self.__mshname=tmp_f_id[1]
91	os.close(tmp_f_id[0])
92	else:
93	self.__mshname=name
94	self.setKeepFilesOn()
95
96	def getMeshFileName(self):
97	"""
98	Returns the name of the gmsh mesh file.
99	"""
100	return self.__mshname
101
102	def setOptions(self,algorithm=None,optimize_quality=True,smoothing=1, curvature_based_element_size=False):
103	"""
104	Sets options for the mesh generator.
105	"""
106	if curvature_based_element_size:
107	print "information: gmsh does not support curvature based element size anymore. Option ignored."
108	if algorithm==None: algorithm=self.DELAUNAY
109	self.__algo=algorithm
110	self.__optimize_quality=optimize_quality
111	self.__smoothing=smoothing
112
113	def __del__(self):
114	"""
115	Cleans up.
116	"""
117	if not self.keepFiles() :
118	os.unlink(self.getScriptFileName())
119	os.unlink(self.getMeshFileName())
120
121	def getCommandString(self):
122	"""
123	Returns the gmsh command line.
124	"""
125	if self.__optimize_quality:
126	opt="-optimize "
127	else:
128	opt=""
129
130	exe="gmsh -format msh -%s -algo %s -smooth %s %s-v 3 -order %s -o %s %%s" % (
131	self.getDim(), self.__algo, self.__smoothing, opt,
132	self.getElementOrder(), self.getMeshFileName())
133	return exe
134	def getScriptHandler(self):
135	"""
136	Returns a handler to the script file to generate the geometry.
137	In the current implementation a script file name is returned.
138	"""
139	if getMPIRankWorld() == 0:
140	open(self.getScriptFileName(),"w").write(self.getScriptString())
141	return self.getScriptFileName()
142
143
144	def getMeshHandler(self):
145	"""
146	Returns a handle to a mesh meshing the design. In the current
147	implementation a mesh file name in gmsh format is returned.
148	"""
149	cmd = self.getCommandString()%self.getScriptHandler()
150	if getMPIRankWorld() == 0:
151	ret = os.system(cmd) / 256
152	else:
153	ret=0
154	ret=getMPIWorldMax(ret)
155	if ret > 0:
156	raise RuntimeError, "Could not build mesh: %s"%cmd
157	else:
158	return self.getMeshFileName()
159
160
161	def getScriptString(self):
162	"""
163	Returns the gmsh script to generate the mesh.
164	"""
165	h=self.getElementSize()
166	out='// generated by esys.pycad\nGeneral.Terminal = 1;'
167	for prim in self.getAllPrimitives():
168	p=prim.getUnderlyingPrimitive()
169	if isinstance(p, Point):
170	c=p.getCoordinates()
171	out+="Point(%s) = {%s , %s, %s , %s };\n"%(p.getID(),c[0],c[1],c[2], p.getLocalScale()*h)
172
173	elif isinstance(p, Spline):
174	out+="Spline(%s) = {%s};\n"%(p.getID(),self.__mkArgs(p.getControlPoints()))+self.__mkTransfiniteLine(p)
175
176	elif isinstance(p, BezierCurve):
177	out+="Bezier(%s) = {%s};\n"%(p.getID(),self.__mkArgs(p.getControlPoints()))+self.__mkTransfiniteLine(p)
178
179	elif isinstance(p, BSpline):
180	out+="BSpline(%s) = {%s};\n"%(p.getID(),self.__mkArgs(p.getControlPoints()))+self.__mkTransfiniteLine(p)
181
182	elif isinstance(p, Line):
183	out+="Line(%s) = {%s, %s};\n"%(p.getID(),p.getStartPoint().getDirectedID(),p.getEndPoint().getDirectedID())+self.__mkTransfiniteLine(p)
184
185	elif isinstance(p, Arc):
186	out+="Circle(%s) = {%s, %s, %s};\n"%(p.getID(),p.getStartPoint().getDirectedID(),p.getCenterPoint().getDirectedID(),p.getEndPoint().getDirectedID())+self.__mkTransfiniteLine(p)
187
188	elif isinstance(p, Ellipse):
189	out+="Ellipse(%s) = {%s, %s, %s, %s};\n"%(p.getID(),p.getStartPoint().getDirectedID(),p.getCenterPoint().getDirectedID(),p.getPointOnMainAxis().getDirectedID(), p.getEndPoint().getDirectedID())+self.__mkTransfiniteLine(p)
190
191	elif isinstance(p, CurveLoop):
192	out+="Line Loop(%s) = {%s};\n"%(p.getID(),self.__mkArgs(p.getCurves()))
193
194	elif isinstance(p, RuledSurface):
195	out+="Ruled Surface(%s) = {%s};\n"%(p.getID(),p.getBoundaryLoop().getDirectedID())+self.__mkTransfiniteSurface(p)
196
197	elif isinstance(p, PlaneSurface):
198	line=self.__mkArgs(p.getHoles())
199	if len(line)>0:
200	out+="Plane Surface(%s) = {%s, %s};\n"%(p.getID(),p.getBoundaryLoop().getDirectedID(), line)+self.__mkTransfiniteSurface(p)
201	else:
202	out+="Plane Surface(%s) = {%s};\n"%(p.getID(),p.getBoundaryLoop().getDirectedID())+self.__mkTransfiniteSurface(p)
203
204	elif isinstance(p, SurfaceLoop):
205	out+="Surface Loop(%s) = {%s};\n"%(p.getID(),self.__mkArgs(p.getSurfaces()))
206
207	elif isinstance(p, Volume):
208	line=self.__mkArgs(p.getHoles())
209	if len(line)>0:
210	out+="Volume(%s) = {%s, %s};\n"%(p.getID(),p.getSurfaceLoop().getDirectedID(), line)
211	else:
212	out+="Volume(%s) = {%s};\n"%(p.getID(),p.getSurfaceLoop().getDirectedID())
213
214	elif isinstance(p, PropertySet):
215	if p.getNumItems()>0:
216	dim=p.getDim()
217	line="Physical "
218	if dim==0:
219	line+="Point"
220	elif dim==1:
221	line+="Line"
222	elif dim==2:
223	line+="Surface"
224	else:
225	line+="Volume"
226	out+=line+"(" + str(p.getID()) + ") = {"+self.__mkArgs(p.getItems())+"};\n"
227
228	else:
229	raise TypeError("unable to pass %s object to gmsh."%str(type(p)))
230	return out
231
232
233	def __mkArgs(self,args):
234	line=""
235	for i in args:
236	if len(line)>0:
237	line+=", %s"%i.getDirectedID()
238	else:
239	line="%s"%i.getDirectedID()
240	return line
241
242	def __mkTransfiniteLine(self,p):
243	s=p.getElementDistribution()
244	if not s == None:
245	if s[2]:
246	out="Transfinite Line{%d} = %d Using Bump %s;\n"%(p.getID(),s[0],s[1])
247	else:
248	out="Transfinite Line{%d} = %d Using Progression %s;\n"%(p.getID(),s[0],s[1])
249	else:
250	out=""
251	return out
252	def __mkTransfiniteSurface(self,p):
253	out=""
254	o=p.getRecombination()
255	s=p.getTransfiniteMeshing()
256	if not s == None:
257	out2=""
258	if not s[0] == None:
259	for q in s[0]:
260	if len(out2)==0:
261	out2="%s"%q.getID()
262	else:
263	out2="%s,%s"%(out2,q.getID())
264	if o == None:
265	out+="Transfinite Surface{%s} = {%s};\n"%(p.getID(),out2)
266	else:
267	out+="Transfinite Surface{%s} = {%s} %s;\n"%(p.getID(),out2,s[1])
268	if not o == None:
269	out+="Recombine Surface {%s} = %s;\n"%(p.getID(),o/DEG)
270	return out
271