Merge branch 'test_occ_tutorials' into 'master'

test occ tutorials and test with python default parameters

See merge request jschoeberl/netgen!206

tests/pytest/results.py

@@ -1,34 +1,36 @@
 number_elements = {}
-number_elements['cylsphere.geo'] = (243,508,706,2665,16573)
-number_elements['cubeandspheres.geo'] = (100,98,98,366,1078)
-number_elements['ellipsoid.geo'] = (624,596,1255,5384,35591)
-number_elements['manyholes2.geo'] = (126463,291489)
-number_elements['sculpture.geo'] = (140,260,477,1316,6395)
-number_elements['ortho.geo'] = (6,6,6,28,180)
-number_elements['ellipticcone.geo'] = (574,1750,4635,12578,67070)
-number_elements['cube.geo'] = (6,6,6,28,178)
-number_elements['twobricks.geo'] = (22,22,42,177,587)
-number_elements['revolution.geo'] = (1237,3779,7958,31475,192314)
-number_elements['circle_on_cube.geo'] = (39,173,586,1860,11364)
-number_elements['sphereincube.geo'] = (178,328,508,1584,12778)
-number_elements['twocubes.geo'] = (22,22,42,177,587)
-number_elements['boundarycondition.geo'] = (22,22,39,165,507)
-number_elements['ellipticcyl.geo'] = (325,1090,2113,7594,52464)
-number_elements['trafo.geo'] = (1358,2384,5081,16891,110333)
-number_elements['boxcyl.geo'] = (146,370,820,3427,17236)
-number_elements['sphere.geo'] = (56,80,126,347,2303)
-number_elements['torus.geo'] = (2518,2715,5286,24144,169082)
-number_elements['shaft.geo'] = (863,1743,2589,10855,59980)
-number_elements['cone.geo'] = (441,706,1173,4298,25551)
-number_elements['cubeandring.geo'] = (226,568,1942,7083,35417)
-number_elements['manyholes.geo'] = (28638,69054)
-number_elements['period.geo'] = (587,1362,3136,10876,64321)
-number_elements['lshape3d.geo'] = (12,12,18,83,317)
-number_elements['cubemsphere.geo'] = (737,1414,4090,16091,105619)
-number_elements['twocyl.geo'] = (151,418,578,1838,12863)
-number_elements['cubemcyl.geo'] = (3102,7714,17803,81423,491425)
-number_elements['matrix.geo'] = (1936,2765,5005,15244,93613)
-number_elements['fichera.geo'] = (18,18,35,211,477)
-number_elements['cylinder.geo'] = (84,272,397,1152,7696)
-number_elements['part1.stl'] = (328,501,1739,4054,76653)
-number_elements['hinge.stl'] = (789,1130,2588,6595,125874)
+number_elements['fichera.geo'] = (35,18,18,35,209,496)
+number_elements['shaft.geo'] = (2609,874,1775,2609,11282,64486)
+number_elements['revolution.geo'] = (9143,1252,3868,9143,33305,206010)
+number_elements['twocubes.geo'] = (42,22,22,42,177,595)
+number_elements['boxcyl.geo'] = (843,146,366,843,3739,18882)
+number_elements['ellipticcyl.geo'] = (2202,324,1106,2202,8311,55941)
+number_elements['trafo.geo'] = (5154,1358,2389,5154,17998,85820)
+number_elements['cubeandspheres.geo'] = (98,100,98,98,366,1078)
+number_elements['manyholes2.geo'] = (128420)
+number_elements['cubeandring.geo'] = (2014,231,613,2014,7838,38997)
+number_elements['period.geo'] = (3262,616,1380,3262,11758,69618)
+number_elements['sphereincube.geo'] = (505,178,329,505,1665,14230)
+number_elements['cube.geo'] = (6,6,6,6,43,177)
+number_elements['sphere.geo'] = (126,56,80,126,347,2357)
+number_elements['cylsphere.geo'] = (706,241,520,706,2826,17819)
+number_elements['ellipticcone.geo'] = (4973,574,1774,4973,13530,71573)
+number_elements['ortho.geo'] = (6,6,6,6,43,179)
+number_elements['cylinder.geo'] = (404,101,282,404,1169,8164)
+number_elements['twocyl.geo'] = (578,158,419,578,1899,13712)
+number_elements['manyholes.geo'] = (176503,28935,70662)
+number_elements['twobricks.geo'] = (42,22,22,42,177,595)
+number_elements['lshape3d.geo'] = (18,12,12,18,93,324)
+number_elements['sculpture.geo'] = (477,140,260,477,1331,6816)
+number_elements['ellipsoid.geo'] = (1271,661,596,1271,5572,38616)
+number_elements['matrix.geo'] = (5209,1946,2817,5209,16398,102850)
+number_elements['cone.geo'] = (1215,501,698,1215,4437,27682)
+number_elements['cubemcyl.geo'] = (19712,3255,8345,19712,90496,536232)
+number_elements['boundarycondition.geo'] = (39,22,22,39,165,508)
+number_elements['torus.geo'] = (5522,2530,2740,5522,25614,180197)
+number_elements['circle_on_cube.geo'] = (636,39,189,636,2056,12409)
+number_elements['cubemsphere.geo'] = (4737,776,1498,4737,17815,115493)
+number_elements['part1.stl'] = (1228,347,520,1804,4317,84101)
+number_elements['hinge.stl'] = (1995,789,1130,2612,6945,136803)
+number_elements['frame.step'] = (112262,43857,59126)
+number_elements['screw.step'] = (798,1521,7252)

tests/pytest/test_tutorials.py

@@ -1,12 +1,18 @@
 
 import os, pytest
-from netgen.meshing import meshsize
+from netgen.meshing import meshsize, MeshingParameters, SetMessageImportance
 import netgen.gui
 import netgen.csg as csg
 import netgen.stl as stl
-import netgen.csg as csg
+try:
+    import netgen.occ as occ
+    has_occ = True
+except ImportError:
+    has_occ = False
 from results import *
 
+SetMessageImportance(0)
+
 def getFiles(fileEnding):
     r, d, files = next(os.walk(os.path.join("..","..","tutorials")))
     return (f for f in files if f.endswith(fileEnding))
@@ -27,17 +33,24 @@ def getResultFunc(filename):
     return resultFunc
 
 def getMeshingparameters(filename):
-    standard = (meshsize.very_coarse, meshsize.coarse, meshsize.moderate, meshsize.fine, meshsize.very_fine)
+    standard = [{}] + [{ "mp" : ms } for ms in (meshsize.very_coarse, meshsize.coarse, meshsize.moderate, meshsize.fine, meshsize.very_fine)]
     if filename == "shell.geo":
         return [] # do not test this example cause it needs so long...
     if filename == "extrusion.geo":
         return [] # this segfaults right now
-    if filename == "manyholes2.geo" or filename == "manyholes.geo":
-        return standard[:2] # this gets too big for finer meshsizes
+    if filename == "manyholes2.geo":
+        return [standard[1]] # this gets too big for finer meshsizes
+    if filename in ("manyholes.geo", "frame.step"):
+        return standard[:3] # this gets too big for finer meshsizes
+    if filename == "screw.step":
+        return standard[3:] # coarser meshes don't work here
     return standard
 
-# don't test step files as they do not respect all meshing parameters correctly yet.
-_geofiles = [f for f in getFiles(".geo")] + [f for f in getFiles(".stl")] # + [f for f in getFiles(".step")]
+# TODO: step files do not respect gui meshsizes yet.
+_geofiles = [f for f in getFiles(".geo")] + [f for f in getFiles(".stl")]
+if has_occ:
+    _geofiles += [f for f in getFiles(".step")]
+
 
 def generateMesh(filename, mp):
     if filename.endswith(".geo"):
@@ -46,7 +59,7 @@ def generateMesh(filename, mp):
         geo = stl.STLGeometry(os.path.join("..","..","tutorials", filename))
     elif filename.endswith(".step"):
         geo = occ.OCCGeometry(os.path.join("..","..","tutorials", filename))
-    return geo.GenerateMesh(mp)
+    return geo.GenerateMesh(**mp)
 
 @pytest.mark.parametrize("filename, checkFunc", [(f, getCheckFunc(f)) for f in _geofiles])
 def test_geoFiles(filename, checkFunc):