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source: anuga_core/source_numpy_conversion/anuga/pmesh/test_mesh.py @ 5912

Last change on this file since 5912 was 5912, checked in by rwilson, 15 years ago
NumPy? conversion.
File size: 86.5 KB

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1	#!/usr/bin/env python
2	#
3	import tempfile
4	import unittest
5
6	#try:
7	from anuga.pmesh.mesh import *
8	#except ImportError:
9	# from mesh import *
10
11
12	from load_mesh.loadASCII import *
13	from anuga.coordinate_transforms.geo_reference import Geo_reference
14	from anuga.geospatial_data.geospatial_data import Geospatial_data
15	from anuga.utilities.polygon import is_inside_polygon ### inside_polygon
16
17	class meshTestCase(unittest.TestCase):
18	def setUp(self):
19	pass
20
21	def tearDown(self):
22	pass
23
24	def testPointDistance(self):
25	a = Point(0.0, 0.0)
26	b = Point(0.0, 10.0)
27
28	self.failUnless( a.DistanceToPoint(b) == 10.0,
29	'Point DistanceToPoint is wrong!')
30
31	def testVertexDistance(self):
32	a = Vertex (0.0, 0.0)
33	b = Vertex (0.0, 10.0)
34
35	self.failUnless( a.DistanceToPoint(b) == 10.0,
36	'Point DistanceToPoint is wrong!')
37
38
39	def testSegment(self):
40	a = Vertex (0.0, 0.0)
41	b = Vertex (0.0, 10.0)
42	s = Segment(a,b, tag = 20)
43
44	self.failUnless( s.vertices[0].DistanceToPoint(s.vertices[1]) == 10.0,
45	'vertices in a segment are wrong')
46
47	self.failUnless( s.tag == 20.0,
48	'tag in a segment are wrong')
49
50	def testdeleteUserVertex(self):
51
52
53	mesh = Mesh()
54	a = mesh.addUserVertex(0.0, 0.0)
55	b = mesh.addUserVertex (0.0, 2.0)
56	c = mesh.addUserVertex (2.0,0.0)
57
58	s1 = mesh.addUserSegment(a,b)
59	s2 = mesh.addUserSegment(a,c)
60	s3 = mesh.addUserSegment(c,b)
61
62	mesh.deleteMeshObject (a)
63	self.failUnless(mesh.userSegments[0] == s3,
64	'Bad segment. ')
65	self.failUnless(len(mesh.userSegments) ==1,
66	'Segments not deleted.')
67	self.failUnless(len(mesh.userVertices) == 2,
68	'Vertex not deleted.')
69
70
71	# FIXME add test for minAngle
72	def testgenerateMesh(self):
73	a = Vertex (0.0, 0.0)
74	d = Vertex (0.0, 4.0)
75	f = Vertex (4.0,0.0)
76
77	s1 = Segment(a,d)
78	s2 = Segment(d,f)
79	s3 = Segment(a,f)
80
81	r1 = Region(0.3, 0.3,tag = 1.3,maxArea = .6)
82	#print r1
83	m = Mesh(userVertices=[a,d,f], userSegments=[s1,s2,s3], regions=[r1] )
84
85	m.generateMesh("Q", maxArea = 2.1 )
86
87	#print m
88
89	#m.plotMeshTriangle()
90
91	result = 1.414214
92	delta = 0.00001
93	tri = m.getTriangulation()
94	verts = m.getMeshVertices()
95	x = verts[tri[1][0]][0]
96	#self.failUnless((m.meshTriangles[1].vertices[0].x < result + delta) or
97	# (m.meshTriangles[1].vertices[0].x > result - delta),
98	# 'generated mesh is wrong!')
99
100	self.failUnless((x < result + delta) or
101	(x > result - delta),
102	'generated mesh is wrong!')
103
104	def test_regionalMaxArea(self):
105	v0 = Vertex (0.0, 0.0)
106	v1 = Vertex (6.0, 0.0)
107	v2 = Vertex (6.0,6.0)
108	v3 = Vertex (0.0,6.0)
109
110	s1 = Segment(v0,v1)
111	s2 = Segment(v1,v2)
112	s3 = Segment(v3,v2)
113	s4 = Segment(v3,v0)
114	s5 = Segment(v2,v0)
115
116	r1 = Region(3, 1,tag = 1.3)
117	#print r1
118	m = Mesh(userVertices=[v0,v1,v2,v3], userSegments=[s1,s2,s3,s4,s5], regions=[r1] )
119
120	m.generateMesh("Q", maxArea = 36 )
121
122	#m.plotMeshTriangle()
123	#print "len(m.meshTriangles)",len(m.meshTriangles)
124
125	self.failUnless(len(m.getTriangulation()) == 2,
126	'test_regionalMaxArea 1:generated mesh is wrong!')
127
128	## Another test case
129	r1 = Region(3, 1,tag = 1.3)
130	r2 = Region(1, 3,tag = 1.3, maxArea = 8)
131	m = Mesh(userVertices=[v0,v1,v2,v3], userSegments=[s1,s2,s3,s4,s5],
132	regions=[r1,r2] )
133	m.generateMesh("Q", maxArea = 36 )
134
135	self.failUnless(len(m.getTriangulation()) >= 6,
136	'testregion_with_maxarea 2: # of tris is wrong!')
137
138
139	## Another test case
140	r1 = Region(3, 1, tag = 1.3, maxArea = 8)
141	r2 = Region(1, 3, tag = 1.3, maxArea = 8)
142	m = Mesh(userVertices=[v0,v1,v2,v3], userSegments=[s1,s2,s3,s4,s5],
143	regions=[r1,r2] )
144	m.generateMesh("Q", maxArea = 36 )
145	#print "len(m.meshTriangles)",len(m.meshTriangles)
146
147	self.failUnless(len(m.getTriangulation()) >= 8,
148	'testregion_with_maxarea 3: # of tris is wrong!')
149
150
151	## Another test case
152	r1 = Region(3, 1, tag = 1.3 )
153	r2 = Region(1, 3, tag = 1.3, maxArea = 8)
154	m = Mesh(userVertices=[v0,v1,v2,v3], userSegments=[s1,s2,s3,s4,s5],
155	regions=[r1,r2] )
156	m.generateMesh("Q", maxArea = 8 )
157	self.failUnless(len(m.getTriangulation()) >= 8,
158	'testregion_with_maxarea 4: # of tris is wrong!')
159
160
161	## Another test case
162	r1 = Region(3, 1,tag = 1.3, maxArea = 8)
163	r2 = Region(1, 3,tag = 1.3, maxArea = 8)
164	m = Mesh(userVertices=[v0,v1,v2,v3], userSegments=[s1,s2,s3,s4,s5],
165	regions=[r1,r2] )
166	m.generateMesh("Q", maxArea = 36,isRegionalMaxAreas = False )
167	self.failUnless(len(m.getTriangulation()) == 2,
168	'test_regionalMaxArea 5:generated mesh is wrong!')
169
170	## Another test case
171	r1 = Region(3, 1,tag = 1.3, maxArea = 8)
172	r2 = Region(1, 3,tag = 1.3, maxArea = 8)
173	m = Mesh(userVertices=[v0,v1,v2,v3], userSegments=[s1,s2,s3,s4,s5],
174	regions=[r1,r2] )
175	m.generateMesh("Q",isRegionalMaxAreas = False )
176	self.failUnless(len(m.getTriangulation()) == 2,
177	'test_regionalMaxArea 5:generated mesh is wrong!')
178
179	def test_generate_mesh(self):
180	v0 = Vertex (0.0, 0.0)
181	v1 = Vertex (6.0, 0.0)
182	v2 = Vertex (6.0,6.0)
183	v3 = Vertex (0.0,6.0)
184
185	s1 = Segment(v0,v1)
186	s2 = Segment(v1,v2)
187	s3 = Segment(v3,v2)
188	s4 = Segment(v3,v0)
189	s5 = Segment(v2,v0)
190
191	r1 = Region(3, 1,tag = 1.3)
192	#print r1
193	m = Mesh(userVertices=[v0,v1,v2,v3], userSegments=[s1,s2,s3,s4,s5],
194	regions=[r1] )
195
196	m.generate_mesh(maximum_triangle_area=36,verbose=False)
197
198	self.failUnless(len(m.getTriangulation()) == 2,
199	'test_regionalMaxArea 1:generated mesh is wrong!')
200
201	## Another test case
202	r1 = Region(3, 1,tag = 1.3)
203	r2 = Region(1, 3,tag = 1.3, maxArea = 8)
204	m = Mesh(userVertices=[v0,v1,v2,v3], userSegments=[s1,s2,s3,s4,s5],
205	regions=[r1,r2] )
206	m.generate_mesh(maximum_triangle_area=36,verbose=False)
207
208	self.failUnless(len(m.getTriangulation()) >= 6,
209	'testregion_with_maxarea 2: # of tris is wrong!')
210
211	## Another test case
212	r1 = Region(3, 1, tag = 1.3, maxArea = 8)
213	r2 = Region(1, 3, tag = 1.3, maxArea = 8)
214	m = Mesh(userVertices=[v0,v1,v2,v3], userSegments=[s1,s2,s3,s4,s5],
215	regions=[r1,r2] )
216	m.generate_mesh(maximum_triangle_area=36,verbose=False)
217	#print "len(m.getTriangulation())",len(m.getTriangulation())
218
219	self.failUnless(len(m.getTriangulation()) >= 8,
220	'testregion_with_maxarea 3: # of tris is wrong!')
221
222	## Another test case
223	r1 = Region(3, 1, tag = 1.3 )
224	r2 = Region(1, 3, tag = 1.3, maxArea = 8)
225	m = Mesh(userVertices=[v0,v1,v2,v3], userSegments=[s1,s2,s3,s4,s5],
226	regions=[r1,r2] )
227	m.generate_mesh(maximum_triangle_area=8,verbose=False)
228	self.failUnless(len(m.getTriangulation()) >= 8,
229	'testregion_with_maxarea 4: # of tris is wrong!')
230
231	## Another test case r1 = Region(3, 1,tag = 1.3, maxArea = 8)
232	r2 = Region(1, 3,tag = 1.3, maxArea = 8)
233	m = Mesh(userVertices=[v0,v1,v2,v3],
234	userSegments=[s1,s2,s3,s4,s5], regions=[r1,r2] )
235	m.generate_mesh(verbose=False)
236	#print "en(m.getTriangulation())", len(m.getTriangulation())
237	self.failUnless(len(m.getTriangulation()) >= 8,
238	'You have issues!')
239
240	def testdeleteUserVertex(self):
241	mesh = Mesh()
242	a = mesh.addUserVertex(0.0, 0.0)
243	b = mesh.addUserVertex (0.0, 2.0)
244	c = mesh.addUserVertex (2.0,0.0)
245
246	s1 = mesh.addUserSegment(a,b)
247	s2 = mesh.addUserSegment(a,c)
248	s3 = mesh.addUserSegment(c,b)
249
250	mesh.deleteMeshObject (s2)
251
252	#print ",s2 in mesh.userSegments" ,s2 in mesh.userSegments
253	self.failUnless(not(s2 in mesh.userSegments),
254	'Bad segment. ')
255	self.failUnless(len(mesh.userSegments) ==2,
256	'Segments not deleted.')
257	self.failUnless(len(mesh.userVertices) == 3,
258	'Vertex deleted, instead of segment.')
259
260	def testisUserSegmentNew (self):
261	mesh = Mesh()
262	a = mesh.addUserVertex(0.0, 0.0)
263	b = mesh.addUserVertex (0.0, 2.0)
264	c = mesh.addUserVertex (2.0,0.0)
265	d = mesh.addUserVertex (2.0,3.0)
266
267	s1 = mesh.addUserSegment(a,b)
268	s2 = mesh.addUserSegment(a,c)
269	s3 = mesh.addUserSegment(c,b)
270
271	self.failUnless(mesh.isUserSegmentNew(a,d) ,
272	'Segment should be new. ')
273	self.failUnless(not(mesh.isUserSegmentNew(a,b)) ,
274	'Segment should not be new. ')
275
276
277	def testisUserSegmentNewII (self):
278	mesh = Mesh()
279	a = mesh.addUserVertex(0.0, 0.0)
280	b = mesh.addUserVertex (0.0, 2.0)
281	c = mesh.addUserVertex (2.0,0.0)
282	d = mesh.addUserVertex (2.0,3.0)
283
284	s1 = mesh.addUserSegment(a,b)
285	s2 = mesh.addUserSegment(a,c)
286	s3 = mesh.addUserSegment(c,b)
287
288	self.failUnless(mesh.representedUserSegment(a,d) == None,
289	'Segment should be new. ')
290	self.failUnless(mesh.representedUserSegment(a,b) == s1 ,
291	'Segment should not be new. ')
292
293	def testauto_segment(self):
294	p0 = Vertex (0.0, 0.0)
295	p1 = Vertex (0.0, 4.0)
296	p2 = Vertex (4.0,4.0)
297	p3 = Vertex (4.0,0.0)
298
299	s1 = Segment(p0,p1)
300
301	m = Mesh(userVertices=[p0, p1, p2, p3], userSegments=[s1] )
302	m.auto_segment()
303
304	#print 'Len', len(m.userSegments)
305	self.failUnless(len(m.getUserSegments()) == 4 ,
306	'userSegments is wrong!')
307
308	m.auto_segment()
309	self.failUnless(len(m.getUserSegments()) == 4 ,
310	'userSegments is wrong!')
311
312	def testauto_segmentII(self):
313	p1 = Vertex (3.0, 4.0)
314	p2 = Vertex (3.0,2.0)
315	p3 = Vertex (3.0,0.0)
316	p4 = Vertex (6.0, 4.0)
317	p5 = Vertex (6.0,2.0)
318	p0 = Vertex (6.0,0.0)
319
320
321	s1 = Segment(p2,p3)
322	s2 = Segment(p4,p5)
323
324	m = Mesh(userVertices=[p0, p1, p2, p3, p4, p5],
325	userSegments=[s1, s2])
326
327	m.auto_segment()
328
329	s3 = m.representedAlphaUserSegment(p3,p0)
330	self.failUnless(not (s3 == None) ,
331	'userSegments is wrong!')
332
333
334	s6 = m.representedAlphaUserSegment(p1,p4)
335	self.failUnless(not (s6 == None) ,
336	'userSegments is wrong!')
337
338	# remove a segment, add a point, auto_segment
339	m.alphaUserSegments.remove(s3)
340	p6 = Vertex (1.0, 2.0)
341	m.userVertices.append(p6)
342
343	m.auto_segment()
344
345	s1_now = m.representedUserSegment(p3,p2)
346	self.failUnless(s1_now == s1 ,
347	'userSegments is wrong!')
348
349	s2_now = m.representedUserSegment(p5,p4)
350	self.failUnless(s2_now == s2 ,
351	'userSegments is wrong!')
352
353	s3 = m.representedAlphaUserSegment(p3,p6)
354	self.failUnless(not (s3 == None) ,
355	'userSegments is wrong!')
356
357	s4 = m.representedAlphaUserSegment(p3,p6)
358	self.failUnless(not (s4 == None) ,
359	'userSegments is wrong!')
360
361	s5 = m.representedAlphaUserSegment(p4,p6)
362	self.failUnless(s5 == None ,
363	'userSegments is wrong!')
364	#print m
365
366	def testRegions(self):
367	a = Vertex (0.0, 0.0)
368	b = Vertex (0.0, 2.0)
369	c = Vertex (2.0,0.0)
370	d = Vertex (0.0, 4.0)
371	e = Vertex (2.0, 2.0)
372	f = Vertex (4.0,0.0)
373	g = Vertex (0.0,-2.0)
374
375	Segment.set_default_tag("")
376	s1 = Segment(a,b)
377	s2 = Segment(b,e)
378	s3 = Segment(e,c)
379	s4 = Segment(c,a)
380	s5 = Segment(b,d)
381	s6 = Segment(e,d)
382	s7 = Segment(e,f)
383	s8 = Segment(c,f)
384	s9 = Segment(g,c)
385	s10 = Segment(g,a)
386
387	r1 = Region(0.1,0.1,tag="22")
388	r2 = Region(0.1,2.1,tag="11")
389	r3 = Region(2.1,0.1)
390
391	m = Mesh(userVertices=[a,b,c,d,e,f,g], userSegments=[s1,s2,s3,s4,s5,s6,s7,s8,s9,s10], regions=[r1,r2,r3] )
392	m.generateMesh("Q", maxArea = 2.1 )
393
394	# FIXME test the region
395	#Triangulation = m.getTriangulation()
396	Triangulation = m.tri_mesh.triangle_tags
397	#print Triangulation[0].attribute
398	#print Triangulation[1].attribute
399	#print Triangulation[2].attribute
400	#print Triangulation[3].attribute
401	#print Triangulation[4].attribute
402
403	self.failUnless(Triangulation[0] == "" and
404	Triangulation[1] == "22" and
405	Triangulation[2] == "" and
406	Triangulation[3] == "11" and
407	Triangulation[4] == "22" ,
408	'region attributes are wrong!')
409
410	def test_vertexAttribs(self):
411	a = Vertex (0.0, 0.0, attributes = [12.0,2.0])
412	d = Vertex (0.0, 4.0, attributes = [9.0,7.0])
413	f = Vertex (4.0,0.0, attributes = [14.0,3.0])
414
415	Segment.set_default_tag("")
416	s1 = Segment(a,d)
417	s2 = Segment(d,f)
418	s3 = Segment(a,f)
419
420	r1 = Region(0.3, 0.3, tag = 88.9)
421
422	m = Mesh(userVertices=[a,d,f], userSegments=[s1,s2,s3], regions=[r1])
423
424	m.generateMesh("Q", maxArea = 2.1)
425
426	vert = m.getMeshVerticeAttributes()
427
428	self.failUnless(vert[0] == [12.0, 2.0] and
429	vert[1] == [9.0, 7.0] and
430	vert[2] == [14.0,3.0] and
431	vert[3] == [12.232233047033631, 4.4142135623730949] and
432	vert[4] == [13.0, 2.5] ,
433	'vertex attributes are wrong!')
434
435
436	def test_vertexAttribs2(self):
437
438	a = Vertex (0.0, 0.0)
439	d = Vertex (0.0, 4.0)
440	f = Vertex (4.0,0.0)
441
442	Segment.set_default_tag("")
443	s1 = Segment(a,d)
444	s2 = Segment(d,f)
445	s3 = Segment(a,f)
446
447	r1 = Region(0.3, 0.3, tag = 88.9)
448
449	m = Mesh(userVertices=[a,d,f], userSegments=[s1,s2,s3], regions=[r1])
450
451	m.generateMesh("Q", maxArea = 2.1 )
452
453	vert = m.getMeshVerticeAttributes()
454	#print "vert", vert
455	self.failUnless(vert == [],
456	'vertex attributes are wrong!')
457
458	def test_segtag(self):
459
460	a = Vertex (0.0, 0.0)
461	d = Vertex (0.0, 4.0)
462	f = Vertex (4.0,0.0)
463
464	s1 = Segment(a,d,tag = 5)
465	s2 = Segment(d,f,tag = 7)
466	s3 = Segment(a,f,tag = 9)
467
468	m = Mesh(userVertices=[a,d,f], userSegments=[s1,s2,s3])
469
470	m.generateMesh("Q", maxArea = 2.1 )
471
472	#m.export_mesh_file("from_test_mesh.tsh")
473	seg = m.getMeshSegmentTags()
474	#print "seg",seg
475	#print "seg[0].tag"
476	#print seg[0].tag
477	#print "seg[0].tag"
478
479	self.failUnless(seg[0] == 5 and
480	seg[1] == 7 and
481	seg[2] == 9 and
482	seg[3] == 7 and
483	seg[4] == 9,
484	'seg tags are wrong')
485
486
487	def test_segtag2(self):
488
489	a = Vertex (0.0, 0.0)
490	d = Vertex (0.0, 4.0)
491	f = Vertex (4.0,0.0)
492	e = Vertex (1.0,1.0)
493
494	s1 = Segment(a,d)
495	s2 = Segment(d,f)
496	s3 = Segment(a,f)
497	s4 = Segment(a,e)
498
499	m = Mesh(userVertices=[a,d,f,e], userSegments=[s1,s2,s3,s4])
500
501	m.generateMesh("Q", maxArea = 2.1)
502
503	seg = m.getMeshSegmentTags()
504	self.failUnless(seg[0] == "exterior" and
505	seg[1] == "exterior" and
506	seg[2] == "exterior" and
507	seg[3] == "" and
508	seg[4] == "exterior",
509	'2nd seg tags are wrong')
510
511	def test_asciiFile(self):
512
513	a = Vertex (0.0, 0.0) #, attributes = [1.1])
514	d = Vertex (0.0, 4.0) #, attributes = [1.2])
515	f = Vertex (4.0,0.0) #, attributes = [1.3])
516	e = Vertex (1.0,1.0) #, attributes = [1.4])
517
518	s1 = Segment(a,d)
519	s2 = Segment(d,f)
520	s3 = Segment(a,f)
521	s4 = Segment(a,e)
522
523	m = Mesh(userVertices=[a,d,f,e], userSegments=[s1,s2,s3,s4])
524
525	m.generateMesh("Q", maxArea = 2.1 )
526	seg = m.getMeshSegments()
527
528	fileName = tempfile.mktemp(".tsh")
529	m.export_mesh_file(fileName)
530	file = open(fileName)
531	lFile = file.read().split('\n')
532	file.close()
533	os.remove(fileName)
534
535	#print "@^@^"
536	#for l in lFile:
537	# print l,"<"
538	#print "@^@^"
539
540	# no need to check the title again
541	#self.failUnless(lFile[0] == "5 0 # <vertex #> <x> <y> [attributes] ...Triangulation Vertices..."
542	# ,'Ascii file is wrong, vertex title')
543	self.failUnless(lFile[1] == "0 0.0 0.0 " and #1.1 " and
544	lFile[2] == "1 0.0 4.0 " and #1.2 " and
545	lFile[3] == "2 4.0 0.0 " and #1.3 " and
546	lFile[4] == "3 1.0 1.0 " and #1.4 " and
547	lFile[5] == "4 2.0 2.0 " #1.25 "
548	,
549	'Ascii file is wrong, vertex')
550
551	#self.failUnless(lFile[6] == "# attribute column titles ...Triangulation Vertex Titles..."
552	# ,'Ascii file is wrong, attribute column title')
553	self.failUnless(lFile[8] == "0 3 2 4 -1 2 3 " and
554	lFile[9] == "1 1 0 3 3 2 -1 " and
555	lFile[10] == "2 3 4 1 -1 1 0 " and
556	lFile[11] == "3 2 3 0 1 -1 0 "
557	,
558	'Ascii file is wrong, triangle')
559
560	self.failUnless( lFile[13] == "0 0 1 exterior" and
561	lFile[14] == "1 1 4 exterior" and
562	lFile[15] == "2 2 0 exterior" and
563	lFile[16] == "3 0 3 " and
564	lFile[17] == "4 4 2 exterior" ,
565	'Ascii file is wrong, segment')
566
567	# self.failUnless(lFile[18] == '4 0 # <vertex #> <x> <y> [attributes] ...Mesh Vertices...',
568	# 'Ascii file is wrong, Mesh Vertices Title')
569
570	self.failUnless(lFile[19] == '0 0.0 0.0 ' and #1.1 ' and
571	lFile[20] == '1 0.0 4.0 ' and #1.2 ' and
572	lFile[21] == '2 4.0 0.0 ' and #1.3 ' and
573	lFile[22] == '3 1.0 1.0 ' #1.4 '
574	,
575	'Ascii file is wrong, Mesh Vertices II')
576
577	self.failUnless(lFile[24] == '0 0 1 ' and
578	lFile[25] == '1 1 2 ' and
579	lFile[26] == '2 0 2 ' and
580	lFile[27] == '3 0 3 '
581	,'Ascii file is wrong, Mesh Segments')
582
583
584	def test_ascii_file(self):
585
586	a = Vertex (0.0, 0.0) #, attributes = [1.1])
587	d = Vertex (0.0, 4.0) #, attributes = [1.2])
588	f = Vertex (4.0,0.0) #, attributes = [1.3])
589	e = Vertex (1.0,1.0) #, attributes = [1.4])
590
591	s1 = Segment(a,d)
592	s2 = Segment(d,f)
593	s3 = Segment(a,f)
594	s4 = Segment(a,e)
595
596	m = Mesh(userVertices=[a,d,f,e], userSegments=[s1,s2,s3,s4])
597
598	m.generateMesh("Q", maxArea = 2.1 )
599
600	seg = m.getMeshSegments()
601
602	fileName = tempfile.mktemp(".tsh")
603	m.export_mesh_file(fileName)
604	file = open(fileName)
605	lFile = file.read().split('\n')
606	file.close()
607	os.remove(fileName)
608
609	#print "@^@^"
610	#for l in lFile:
611	# print l,"<"
612	#print "@^@^"
613	self.failUnless(lFile[0] == "5 0 # <# of verts> <# of vert attributes>, next lines <vertex #> <x> <y> [attributes] ...Triangulation Vertices..."
614	,
615	'Ascii file is wrong, vertex title')
616	self.failUnless(lFile[1] == "0 0.0 0.0 " and #1.1 " and
617	lFile[2] == "1 0.0 4.0 " and #1.2 " and
618	lFile[3] == "2 4.0 0.0 " and #1.3 " and
619	lFile[4] == "3 1.0 1.0 " and #1.4 " and
620	lFile[5] == "4 2.0 2.0 " #1.25 "
621	,
622	'Ascii file is wrong, vertex')
623
624	self.failUnless(lFile[6] == "# attribute column titles ...Triangulation Vertex Titles..."
625	,
626	'Ascii file is wrong, attribute column title')
627	self.failUnless(lFile[7] == "4 # <# of triangles>, next lines <triangle #> [<vertex #>] [<neigbouring triangle #>] [attribute of region] ...Triangulation Triangles..." and
628	lFile[8] == "0 3 2 4 -1 2 3 " and
629	lFile[9] == "1 1 0 3 3 2 -1 " and
630	lFile[10] == "2 3 4 1 -1 1 0 " and
631	lFile[11] == "3 2 3 0 1 -1 0 "
632	,
633	'Ascii file is wrong, triangle')
634
635	self.failUnless(lFile[12] == "5 # <# of segments>, next lines <segment #> <vertex #> <vertex #> [boundary tag] ...Triangulation Segments..." and
636	lFile[13] == "0 0 1 exterior" and
637	lFile[14] == "1 1 4 exterior" and
638	lFile[15] == "2 2 0 exterior" and
639	lFile[16] == "3 0 3 " and
640	lFile[17] == "4 4 2 exterior" ,
641	'Ascii file is wrong, segment')
642
643	self.failUnless(lFile[18] == '4 0 # <# of verts> <# of vert attributes>, next lines <vertex #> <x> <y> [attributes] ...Mesh Vertices...',
644	'Ascii file is wrong, Mesh Vertices Title')
645
646	self.failUnless(lFile[19] == '0 0.0 0.0 ' and #1.1 ' and
647	lFile[20] == '1 0.0 4.0 ' and #1.2 ' and
648	lFile[21] == '2 4.0 0.0 ' and #1.3 ' and
649	lFile[22] == '3 1.0 1.0 ' #1.4 '
650	,
651	'Ascii file is wrong, Mesh Vertices II')
652
653	self.failUnless(lFile[23] == '4 # <# of segments>, next lines <segment #> <vertex #> <vertex #> [boundary tag] ...Mesh Segments...' and
654	lFile[24] == '0 0 1 ' and
655	lFile[25] == '1 1 2 ' and
656	lFile[26] == '2 0 2 ' and
657	lFile[27] == '3 0 3 ' and
658	lFile[28] == '0 # <# of holes>, next lines <Hole #> <x> <y> ...Mesh Holes...' and
659	lFile[29] == '0 # <# of regions>, next lines <Region #> <x> <y> <tag>...Mesh Regions...'
660	,
661	'Ascii file is wrong, Mesh Segments')
662
663
664	def test_thinoutVertices(self):
665
666	v1 = Vertex(-20,-20)
667	v2 = Vertex(-11,-11)
668	v3 = Vertex(-10,-10)
669	v4 = Vertex(-9,-1)
670	v5 = Vertex(-8,2)
671	v6 = Vertex(6,3)
672	v7 = Vertex(12,9)
673	v8 = Vertex(15,3)
674	v9 = Vertex(24,3)
675	m = Mesh(userVertices = [v1,v2,v3,v4,v5,v6,v7,v8,v9])
676	m.thinoutVertices(10)
677
678	self.failUnless(v1 in m.userVertices,
679	'test_thinoutVertices, test 1 failed')
680	self.failUnless(v3 in m.userVertices,
681	'test_thinoutVertices, test 2 failed')
682	self.failUnless(v4 in m.userVertices,
683	'test_thinoutVertices, test 3 failed')
684	self.failUnless(v6 in m.userVertices,
685	'test_thinoutVertices, test 4 failed')
686	self.failUnless(v7 in m.userVertices,
687	'test_thinoutVertices, test 5 failed')
688	self.failUnless(v9 in m.userVertices,
689	'test_thinoutVertices, test 6 failed')
690	self.failUnless(v5 not in m.userVertices,
691	'test_thinoutVertices, test 7 failed')
692	self.failUnless(v2 not in m.userVertices,
693	'test_thinoutVertices, test 8 failed')
694	self.failUnless(v8 not in m.userVertices,
695	'test_thinoutVertices, test 9 failed')
696
697	def test_same_x_y(self):
698	v = Point(7,8)
699	f = Point(7,8)
700	f.same_x_y(v)
701
702	self.failUnless(f.same_x_y(v),
703	'same_x_y True failed')
704	e = Point(7,9)
705	self.failUnless(not f.same_x_y(e),
706	'same_x_y False failed')
707
708	def test_import_tsh(self):
709
710	a_att = [5.0,2.0]
711	d_att =[4.0,2.0]
712	f_att = [3.0,2.0]
713	e_att = [2.0,2.0]
714	a_xy = [0.0, 0.0]
715	a = Vertex ( a_xy[0],a_xy[1]) #, attributes =a_att)
716	d = Vertex (0.0, 4.0) #, attributes =d_att)
717	f = Vertex (4.0,0.0) #, attributes =f_att)
718	e = Vertex (1.0,1.0) #, attributes =e_att)
719
720	s1 = Segment(a,d, tag = "50")
721	s2 = Segment(d,f, tag = "40")
722	s3 = Segment(a,f, tag = "30")
723	s4 = Segment(a,e, tag = "20")
724
725	r1 = Region(0.3, 0.3,tag = "1.3")
726	geo = Geo_reference(8.9,8.9,65)
727	m = Mesh(userVertices=[a,d,f,e],
728	userSegments=[s1,s2,s3,s4],
729	regions=[r1],
730	geo_reference=geo)
731
732	m.generateMesh("Q", maxArea = 2.1)
733	fileName = tempfile.mktemp(".tsh")
734	#print "dgs!!!"
735	#print "****************** fileName", fileName
736	m.export_mesh_file(fileName)
737	#print "******************"
738	#print "m", m
739	#print "******************"
740	m_returned = importMeshFromFile(fileName)
741	#print "m_returned",m_returned
742	#print "******************"
743	#print "****************** fileName", fileName
744	os.remove(fileName)
745	self.failUnless(0 == m.__cmp__(m_returned),
746	'loading and saving of a mesh failed')
747	# do this when .msh supports geo_refs
748	#self.failUnless(m.geo_reference == m_returned.geo_reference,
749	# 'loading and saving of a mesh geo refs failed')
750
751	def test_import_mesh(self):
752
753	a_att = [5.0,2.0]
754	d_att =[4.0,2.0]
755	f_att = [3.0,2.0]
756	e_att = [2.0,2.0]
757	a_xy = [0.0, 0.0]
758	a = Vertex ( a_xy[0],a_xy[1]) #, attributes =a_att)
759	d = Vertex (0.0, 4.0) #, attributes =d_att)
760	f = Vertex (4.0,0.0) #, attributes =f_att)
761	e = Vertex (1.0,1.0) #, attributes =e_att)
762
763	s1 = Segment(a,d, tag = "50")
764	s2 = Segment(d,f, tag = "40")
765	s3 = Segment(a,f, tag = "30")
766	s4 = Segment(a,e, tag = "20")
767
768	r1 = Region(0.3, 0.3,tag = "1.3")
769	geo = Geo_reference(65,8.9,8.9)
770	m = Mesh(userVertices=[a,d,f,e],
771	userSegments=[s1,s2,s3,s4],
772	regions=[r1],
773	geo_reference=geo)
774
775	m.generateMesh("Q", maxArea = 2.1)
776	fileName = tempfile.mktemp(".msh")
777	#print "dgs!!!"
778	#print "****************** fileName", fileName
779	m.export_mesh_file(fileName)
780	#print "******************"
781	#print "m", m
782	#print "******************"
783	m_returned = importMeshFromFile(fileName)
784	#print "m_returned",m_returned
785	#print "******************"
786	#print "****************** fileName", fileName
787	os.remove(fileName)
788	#print "m.geo_reference",m.geo_reference
789	#print "m_returned.geo_reference,",m_returned.geo_reference
790	self.failUnless(0 == m.__cmp__(m_returned),
791	'loading and saving of a mesh failed')
792	self.failUnless(m.geo_reference == m_returned.geo_reference,
793	'loading and saving of a mesh geo refs failed')
794
795	def DONTtest_normaliseMesh(self):
796
797	a_att = [5.0,2.0]
798	d_att =[4.0,2.0]
799	f_att = [3.0,2.0]
800	e_att = [2.0,2.0]
801	a_xy = [10.0, 10.0]
802	a = Vertex ( a_xy[0],a_xy[1], attributes =a_att)
803	d = Vertex (15.0, 10.0, attributes =d_att)
804	f = Vertex (10.0,20.0, attributes =f_att)
805	e = Vertex (15.0,20.0, attributes =e_att)
806
807	s1 = Segment(a,d, tag = 50)
808	s2 = Segment(d,e, tag = 40)
809	s3 = Segment(e,f, tag = 30)
810	s4 = Segment(f,a, tag = 20)
811
812	r1 = Region(0.3, 0.3,tag = 1.3)
813	m = Mesh(userVertices=[a,d,f,e],
814	userSegments=[s1,s2,s3,s4],
815	regions=[r1])
816	m.normaliseMesh(1,0,1)
817	[xmin, ymin, xmax, ymax] = m.boxsize()
818	[attmin, attmax] = m.maxMinVertAtt(0)
819	self.failUnless(attmin == 0.0 and attmax == 1.0,
820	'normalise failed')
821	self.failUnless(xmin == 0.0 and ymin == 0.0 and xmax == 0.5 and ymax == 1.0,
822	'normalise failed')
823	m.normaliseMesh(200,-100,5)
824	[xmin, ymin, xmax, ymax] = m.boxsize()
825	[attmin, attmax] = m.maxMinVertAtt(0)
826	self.failUnless(attmin == 0.0 and attmax == 5.0,
827	'normalise failed')
828	self.failUnless(xmin == -100.0 and ymin == -100.0 and xmax == 0.0 and ymax == 100.0,
829	'normalise failed')
830
831	def test_exportASCIIsegmentoutlinefile(self):
832	a = Vertex (0,0)
833	b = Vertex (0,3)
834	c = Vertex (3,3)
835	d = Vertex (1,2)
836	e = Vertex (3,1)
837
838	s1 = Segment(a,b, tag = "50")
839	s2 = Segment(b,c, tag = "40")
840	s3 = Segment(c,a, tag = "30")
841
842	r1 = Region(2, 1,tag = "1.3")
843	h1 = Hole(1,4)
844	m = Mesh(userVertices=[a,b,c,d,e],
845	userSegments=[s1,s2,s3],
846	regions=[r1],
847	holes = [h1])
848
849	# vertex e is outside of the outline, so
850	# it is a loner and it is removed.
851	m.generateMesh("Q", maxArea = 2.1)
852	#print "mesh **************dsg", m
853
854	fileName = tempfile.mktemp(".tsh")
855	m.exportASCIIsegmentoutlinefile(fileName)
856
857	m_returned = importMeshFromFile(fileName)
858
859	#print "m_returned ****",m_returned
860	#print "****************** fileName", fileName
861	os.remove(fileName)
862
863	#Trim mesh, so it should like like m_returned
864	m.tri_mesh = None
865	m.userVertices=[a,b,c]
866	#print "mesh **************dsg", m
867	#print "(m.__cmp__(m_returned)", m.__cmp__(m_returned)
868	self.failUnless(0 == m.__cmp__(m),
869	'test_exportASCIIsegmentoutlinefile:loading and saving of a mesh failed')
870	# Having problems with this on linux.
871	#The ordering of the dictionary values wasn't the same as the windows
872	#returned value (verts.values())
873	#self.failUnless(0 == m.__cmp__(m_returned),
874	# 'test_exportASCIIsegmentoutlinefile:loading and saving of a mesh failed')
875
876	self.failUnless(3 == len(m_returned.userVertices),
877	'segmentoutlinefile:IO of a mesh failed')
878	self.failUnless(len(m.userSegments) == len(m_returned.userSegments),
879	'segmentoutlinefile:IO of a mesh failed')
880	for i in range(len(m.userSegments)):
881	self.failUnless(m.userSegments[i].vertices[0].x ==
882	m_returned.userSegments[i].vertices[0].x,
883	'loading and saving of a mesh outline fialed')
884	self.failUnless(m.userSegments[i].vertices[0].y ==
885	m_returned.userSegments[i].vertices[0].y,
886	'loading and saving of a mesh outline fialed')
887	self.failUnless(m.userSegments[i].vertices[1].x ==
888	m_returned.userSegments[i].vertices[1].x,
889	'loading and saving of a mesh outline fialed')
890	self.failUnless(m.userSegments[i].vertices[1].y ==
891	m_returned.userSegments[i].vertices[1].y,
892	'loading and saving of a mesh outline fialed')
893
894
895	def test_exportASCIIsegmentoutlinefile2(self):
896	a = Vertex (0,0)
897	b = Vertex (0,1)
898	c = Vertex (1,0)
899	d = Vertex (1,1)
900	e = Vertex (0.5,0.5)
901	f = Vertex (0.6,0.6)
902
903	s1 = Segment(a,e, tag = "50")
904	s2 = Segment(b,e, tag = "40")
905	s3 = Segment(c,e, tag = "30")
906	s4 = Segment(d,e, tag = "30")
907
908	r1 = Region(2, 1,tag = "1.3")
909	h1 = Hole(1,4)
910	m = Mesh(userVertices=[a,b,c,d,e],
911	userSegments=[s1,s2,s3,s4],
912	regions=[r1],
913	holes = [h1])
914
915	fileName = tempfile.mktemp(".tsh")
916	m.exportASCIIsegmentoutlinefile(fileName)
917
918	m_returned = importMeshFromFile(fileName)
919	#print "****************** fileName", fileName
920	os.remove(fileName)
921
922	#Trim mesh, so it should look like m_returned
923	m.meshVertices = []
924	m.meshTriangles = []
925	m.meshSegments = []
926	m.userVertices=[a,e,d,b,c]
927	#print "mesh **************dsg", m
928	#print "(m.__cmp__(m_returned)", m.__cmp__(m_returned)
929	self.failUnless(0 == m.__cmp__(m),
930	'loading and saving of a mesh failed')
931
932	self.failUnless(5 == len(m_returned.userVertices),
933	'segmentoutlinefile:IO of a mesh failed')
934	self.failUnless(len(m.userSegments) == len(m_returned.userSegments),
935	'segmentoutlinefile:IO of a mesh failed')
936	for i in range(len(m.userSegments)):
937	self.failUnless(m.userSegments[i].vertices[0].x ==
938	m_returned.userSegments[i].vertices[0].x,
939	'loading and saving of a mesh outline fialed')
940	self.failUnless(m.userSegments[i].vertices[0].y ==
941	m_returned.userSegments[i].vertices[0].y,
942	'loading and saving of a mesh outline fialed')
943	self.failUnless(m.userSegments[i].vertices[1].x ==
944	m_returned.userSegments[i].vertices[1].x,
945	'loading and saving of a mesh outline fialed')
946	self.failUnless(m.userSegments[i].vertices[1].y ==
947	m_returned.userSegments[i].vertices[1].y,
948	'loading and saving of a mesh outline fialed')
949
950
951	def test_load_csv(self):
952	"""
953	To test the mesh side of loading csv files.
954	Not the loading of csv files
955	"""
956	import os
957	import tempfile
958
959	fileName = tempfile.mktemp(".csv")
960	file = open(fileName,"w")
961	file.write("x,y,elevation, speed \n\
962	1.0, 0.0, 10.0, 0.0\n\
963	0.0, 1.0, 0.0, 10.0\n\
964	1.0, 0.0, 10.4, 40.0\n")
965	file.close()
966	#print fileName
967	m = importMeshFromFile(fileName)
968	os.remove(fileName)
969	self.failUnless(m.userVertices[0].x == 1.0,
970	'loadxy, test 1 failed')
971	self.failUnless(m.userVertices[0].y == 0.0,
972	'loadxy, test 2 failed')
973	#self.failUnless(m.userVertices[0].attributes == [10.0,0.0],
974	# 'loadxy, test 2.2 failed')
975	self.failUnless(m.userVertices[1].x == 0.0,
976	'loadxy, test 3 failed')
977	self.failUnless(m.userVertices[1].y == 1.0,
978	'loadxy, test 4 failed')
979	#self.failUnless(m.userVertices[1].attributes == [0.0,10.0],
980	# 'loadxy, test 5 failed')
981
982	def test_exportPointsFile(self):
983	a = Vertex (0,0)
984	b = Vertex (0,3)
985	c = Vertex (3,3)
986	d = Vertex (1,2)
987	e = Vertex (3,1)
988	#f = Vertex (3,1)
989
990	s1 = Segment(a,b, tag = 50)
991	s2 = Segment(b,c, tag = 40)
992	s3 = Segment(c,a, tag = 30)
993
994	r1 = Region(2, 1,tag = 1.3)
995	h1 = Hole(1,4)
996	# Warning mesh can't produce this type of data structure its self
997	m = Mesh(userVertices=[a,b,c,d,e],
998	userSegments=[s1,s2,s3],
999	regions=[r1],
1000	holes = [h1])
1001
1002	fileName = tempfile.mktemp(".txt")
1003	#fileName = 't.csv'
1004	#os.remove(fileName)
1005	m.exportPointsFile(fileName)
1006	file = open(fileName)
1007	lFile = file.read().split('\n')
1008	file.close()
1009	os.remove(fileName)
1010	self.failUnless(lFile[0] == "x,y," and
1011	lFile[1] == "0.0,0.0" and
1012	lFile[2] == "0.0,3.0" and
1013	lFile[3] == "3.0,3.0"
1014	,
1015	'exported Ascii csv file is wrong')
1016	self.failUnless(lFile[4] == "1.0,2.0" and
1017	lFile[5] == "3.0,1.0"
1018	,
1019	'exported Ascii csv file is wrong')
1020
1021	# vertex e is outside of the outline, so
1022	# it is a loner and it is removed.
1023	m.generateMesh("Q", maxArea = 2.1)
1024	fileName = tempfile.mktemp(".txt")
1025	#fileName = 't.csv'
1026	#m.export_mesh_file('m.tsh')
1027	m.exportPointsFile(fileName)
1028	file = open(fileName)
1029	lFile = file.read().split('\n')
1030	file.close()
1031	os.remove(fileName)
1032
1033	self.failUnless(lFile[0] == "x,y," and
1034	lFile[1] == "0.0,0.0" and
1035	lFile[2] == "0.0,3.0" and
1036	lFile[3] == "3.0,3.0" and
1037	lFile[4] == "1.0,2.0"
1038	,
1039	'exported Ascii csv file is wrong')
1040
1041	def to_be_test_lone_vert_in_mesh_gen_c_layer(self):
1042	# currently just a copy of the above test
1043	a = Vertex (0,0)
1044	b = Vertex (0,3)
1045	c = Vertex (3,3)
1046	d = Vertex (1,2)
1047	e = Vertex (3,1)
1048	#f = Vertex (3,1)
1049
1050	s1 = Segment(a,b, tag = 50)
1051	s2 = Segment(b,c, tag = 40)
1052	s3 = Segment(c,a, tag = 30)
1053
1054	r1 = Region(2, 1,tag = 1.3)
1055	h1 = Hole(1,4)
1056	# Warning mesh can't produce this type of data structure its self
1057	m = Mesh(userVertices=[a,b,c,d,e],
1058	userSegments=[s1,s2,s3],
1059	regions=[r1],
1060	holes = [h1])
1061
1062	fileName = tempfile.mktemp(".csv")
1063	#fileName = 't.csv'
1064	#os.remove(fileName)
1065	m.exportPointsFile(fileName)
1066	file = open(fileName)
1067	lFile = file.read().split('\n')
1068	file.close()
1069
1070	os.remove(fileName)
1071	self.failUnless(lFile[0] == "x,y" and
1072	lFile[1] == "0,0" and
1073	lFile[2] == "0,3" and
1074	lFile[3] == "3,3"
1075	,
1076	'exported Ascii csv file is wrong')
1077	self.failUnless(lFile[4] == "1,2" and
1078	lFile[5] == "3,1"
1079	,
1080	'exported Ascii csv file is wrong')
1081
1082	# vertex e is outside of the outline, so
1083	# it is a loner and it is removed.
1084	m.generateMesh("Q", maxArea = 2.1)
1085	fileName = tempfile.mktemp(".csv")
1086	#fileName = 't.csv'
1087	#m.export_mesh_file('m.tsh')
1088	m.exportPointsFile(fileName)
1089	file = open(fileName)
1090	lFile = file.read().split('\n')
1091	file.close()
1092	os.remove(fileName)
1093
1094	self.failUnless(lFile[0] == "x,y" and
1095	lFile[1] == "0.0,0.0" and
1096	lFile[2] == "0.0,3.0" and
1097	lFile[3] == "3.0,3.0" and
1098	lFile[4] == "1.0,2.0"
1099	,
1100	'exported Ascii csv file is wrong')
1101
1102	def NOT_test_exportPointsFilefile2(self):
1103	#geospatial needs at least one point
1104	m = Mesh()
1105
1106	fileName = tempfile.mktemp(".csv")
1107	m.exportPointsFile(fileName)
1108	file = open(fileName)
1109	lFile = file.read().split('\n')
1110	file.close()
1111
1112	os.remove(fileName)
1113	#print "************* test_mesh exportPointsFilefile"
1114	#print "lFile",lFile
1115	#print "************* test_mesh exportPointsFilefile"
1116	self.failUnless(lFile[0] == ""
1117	,
1118	'exported Ascii csv file is wrong')
1119
1120	def test_strings2ints(self):
1121	list = ["sea","river inlet","","sea","","moat"]
1122	preset = ["moat", "internal boundary"]
1123	[intlist, converter] = segment_strings2ints(list,preset )
1124	self.failUnless(intlist == [2,3 ,0 ,2 ,0 ,0 ]
1125	,
1126	'test_strings2ints produces bad intlist')
1127	self.failUnless(converter == ['moat', 'internal boundary',
1128	'sea', 'river inlet']
1129	,
1130	'test_strings2ints produces bad converter')
1131
1132	def test_ints2strings(self):
1133	list = ["internal boundary","sea","river inlet",
1134	"","sea","","moat","internal boundary"]
1135	outlist = ['internal boundary', 'sea', 'river inlet', 'moat',
1136	'sea', 'moat', 'moat', 'internal boundary']
1137	preset = ["moat", "internal boundary"]
1138	[intlist, converter] = segment_strings2ints(list,preset )
1139	newlist = segment_ints2strings(intlist, converter)
1140	self.failUnless(outlist == newlist
1141	,
1142	'test_strings2ints produces bad intlist')
1143	self.failUnless(converter == ['moat', 'internal boundary',
1144	'sea', 'river inlet']
1145	,
1146	'test_strings2ints produces bad converter')
1147
1148	def test_ints2strings2(self):
1149	list = ["","",""]
1150	preset = ["moat", "internal boundary"]
1151	[intlist, converter] = segment_strings2ints(list,preset )
1152	newlist = segment_ints2strings(intlist, converter)
1153	outlist = ['moat', 'moat', 'moat']
1154	self.failUnless(outlist == newlist
1155	,
1156	'test_strings2ints produces bad intlist')
1157	self.failUnless(converter == ['moat', 'internal boundary']
1158	,
1159	'test_strings2ints produces bad converter')
1160
1161
1162	def test_removeDuplicatedVertices(self):
1163	a = Vertex (0,0)
1164	a.index = 0
1165	b = Vertex (0,3)
1166	b.index = 1
1167	c = Vertex (3,3)
1168	c.index = 2
1169	d = Vertex (1,1)
1170	d.index = 3
1171	e = Vertex (3,1)
1172	e.index = 4
1173	f = Vertex (1,1)
1174	f.index = 5
1175	g = Vertex (1,1)
1176	g.index = 6
1177	inputVerts_noDups = [a,b,c,d,e]
1178
1179	m = Mesh(userVertices=[a,b,c,d,e,f,g])
1180	counter = m.removeDuplicatedUserVertices()
1181	UserVerts = m.getUserVertices()
1182
1183
1184	self.failUnless(UserVerts == inputVerts_noDups,
1185	'duplicate verts not removed')
1186	#for userVert, inputVert in map(None, UserVerts, inputVerts_noDups):
1187	# self.failUnless(userVert.x == inputVert.x,
1188	# 'x duplicate verts not removed')
1189	# self.failUnless(userVert.y == inputVert.y,
1190	# 'y duplicate verts not removed')
1191
1192
1193	def test_ungenerateFileLoading(self):
1194
1195	fileName = tempfile.mktemp(".txt")
1196	file = open(fileName,"w")
1197	file.write(" 1 ?? ??\n\
1198	0.0 0.0\n\
1199	1.0 0.0\n\
1200	1.0 1.0\n\
1201	0.0 1.0\n\
1202	0.0 0.0\n\
1203	END\n\
1204	2 ?? ??\n\
1205	10.0 10.0\n\
1206	10.0 20.0\n\
1207	20.0 20.0\n\
1208	10.0 10.0\n\
1209	END\n\
1210	END\n")
1211	file.close()
1212
1213
1214	a = Vertex (0.0, 0.0) #, attributes = [1.1])
1215	b = Vertex (0.0, 40.0) #, attributes = [1.2])
1216	c = Vertex (40.0,40.0) #, attributes = [1.3])
1217	d = Vertex (40.0,0.0) #, attributes = [1.4])
1218
1219	s1 = Segment(a,b)
1220	s2 = Segment(b,c)
1221	s3 = Segment(c,d)
1222	s4 = Segment(d,a)
1223
1224	m = Mesh(userVertices=[a,b,c,d], userSegments=[s1,s2,s3,s4])
1225	dict = importUngenerateFile(fileName)
1226	#os.remove(fileName)
1227
1228	tag = "DSG"
1229	Segment.set_default_tag(tag)
1230	m.addVertsSegs(dict)
1231
1232	# have to reset this , since it's a class attribute
1233	Segment.set_default_tag("")
1234
1235	self.failUnless(len(m.userSegments) ==11,
1236	'Wrong segment list length.')
1237	self.failUnless(len(m.userVertices) == 11,
1238	'Wrong vertex list length.')
1239	self.failUnless(m.userSegments[10].vertices[0] == m.userVertices[10],
1240	'bad vertex on segment.')
1241	self.failUnless(m.userSegments[10].vertices[1] == m.userVertices[8],
1242	'Bad segment.')
1243	self.failUnless(m.userSegments[10].tag == tag,
1244	'wrong tag.')
1245
1246	## let's test the method
1247	a = Vertex (0.0, 0.0) #, attributes = [1.1])
1248	b = Vertex (0.0, 40.0) #, attributes = [1.2])
1249	c = Vertex (40.0,40.0) #, attributes = [1.3])
1250	d = Vertex (40.0,0.0) #, attributes = [1.4])
1251
1252	s1 = Segment(a,b)
1253	s2 = Segment(b,c)
1254	s3 = Segment(c,d)
1255	s4 = Segment(d,a)
1256
1257	m = Mesh(userVertices=[a,b,c,d], userSegments=[s1,s2,s3,s4])
1258
1259	tag = "DSG"
1260	initial_tag = "PIG"
1261	Segment.set_default_tag(initial_tag)
1262	m.import_ungenerate_file(fileName, tag=tag)
1263
1264	os.remove(fileName)
1265
1266	self.failUnless(Segment.get_default_tag() == initial_tag,
1267	'Wrong segment list length.')
1268
1269
1270	# have to reset this , since it's a class attribute
1271	Segment.set_default_tag("")
1272
1273	self.failUnless(len(m.userSegments) ==11,
1274	'Wrong segment list length.')
1275	self.failUnless(len(m.userVertices) == 11,
1276	'Wrong vertex list length.')
1277	self.failUnless(m.userSegments[10].vertices[0] == m.userVertices[10],
1278	'bad vertex on segment.')
1279	self.failUnless(m.userSegments[10].vertices[1] == m.userVertices[8],
1280	'Bad segment.')
1281	self.failUnless(m.userSegments[10].tag == tag,
1282	'wrong tag.')
1283
1284	def test_import_ungenerate_file(self):
1285
1286	fileName = tempfile.mktemp(".txt")
1287	file = open(fileName,"w")
1288	file.write(" 1 ?? ??\n\
1289	10.0 10.0\n\
1290	11.0 10.0\n\
1291	11.0 11.0\n\
1292	10.0 11.0\n\
1293	10.0 10.0\n\
1294	END\n\
1295	2 ?? ??\n\
1296	20.0 20.0\n\
1297	20.0 30.0\n\
1298	30.0 30.0\n\
1299	END\n\
1300	END\n")
1301	file.close()
1302
1303
1304	a = Vertex (0.0, 0.0) #, attributes = [1.1])
1305	b = Vertex (0.0, 40.0) #, attributes = [1.2])
1306	c = Vertex (40.0,40.0) #, attributes = [1.3])
1307	d = Vertex (40.0,0.0) #, attributes = [1.4])
1308
1309	s1 = Segment(a,b)
1310	s2 = Segment(b,c)
1311	s3 = Segment(c,d)
1312	s4 = Segment(d,a)
1313
1314	m = Mesh(userVertices=[a,b,c,d], userSegments=[s1,s2,s3,s4])
1315	dict = importUngenerateFile(fileName)
1316	#os.remove(fileName)
1317
1318	tag = "DSG"
1319	Segment.set_default_tag(tag)
1320	m.addVertsSegs(dict)
1321
1322	self.failUnless(len(m.userSegments) ==11,
1323	'Wrong segment list length.')
1324	self.failUnless(len(m.userVertices) == 11,
1325	'Wrong vertex list length.')
1326
1327	# Test the method
1328	a = Vertex (0.0, 0.0) #, attributes = [1.1])
1329	b = Vertex (0.0, 40.0) #, attributes = [1.2])
1330	c = Vertex (40.0,40.0) #, attributes = [1.3])
1331	d = Vertex (40.0,0.0) #, attributes = [1.4])
1332
1333	s1 = Segment(a,b)
1334	s2 = Segment(b,c)
1335	s3 = Segment(c,d)
1336	s4 = Segment(d,a)
1337
1338	m = Mesh(userVertices=[a,b,c,d], userSegments=[s1,s2,s3,s4])
1339	tag = "DSG"
1340	initial_tag = "PIG"
1341	Segment.set_default_tag(initial_tag)
1342	m.import_ungenerate_file(fileName, tag=tag, region_tag="swamp")
1343
1344	os.remove(fileName)
1345
1346	self.failUnless(Segment.get_default_tag() == initial_tag,
1347	'Wrong segment list length.')
1348	m.export_mesh_file("swamp.tsh")
1349	#print "m.userSegments",m.userSegments
1350	self.failUnless(len(m.userSegments) ==11,
1351	'Wrong segment list length.')
1352	self.failUnless(len(m.userVertices) == 11,
1353	'Wrong vertex list length.')
1354	self.failUnless(len(m.regions) == 2,
1355	'Wrong regions list length.')
1356	self.failUnless(m.regions[0].getTag() == "swamp",
1357	'Wrong regions tag.')
1358	self.failUnless(m.regions[1].getTag() == "swamp",
1359	'Wrong regions 1 tag.')
1360
1361	# have to reset this , since it's a class attribute
1362	Segment.set_default_tag("")
1363
1364
1365	def test_import_ungenerate_file_different_region_tags(self):
1366
1367	fileName = tempfile.mktemp(".txt")
1368	file = open(fileName,"w")
1369	file.write(" 1 ?? ??\n\
1370	10.0 10.0\n\
1371	11.0 10.0\n\
1372	11.0 11.0\n\
1373	10.0 11.0\n\
1374	10.0 10.0\n\
1375	END\n\
1376	2 ?? ??\n\
1377	20.0 20.0\n\
1378	20.0 30.0\n\
1379	30.0 30.0\n\
1380	END\n\
1381	END\n")
1382	file.close()
1383
1384
1385	a = Vertex (0.0, 0.0) #, attributes = [1.1])
1386	b = Vertex (0.0, 40.0) #, attributes = [1.2])
1387	c = Vertex (40.0,40.0) #, attributes = [1.3])
1388	d = Vertex (40.0,0.0) #, attributes = [1.4])
1389
1390	s1 = Segment(a,b)
1391	s2 = Segment(b,c)
1392	s3 = Segment(c,d)
1393	s4 = Segment(d,a)
1394
1395	m = Mesh(userVertices=[a,b,c,d], userSegments=[s1,s2,s3,s4])
1396	dict = importUngenerateFile(fileName)
1397	#os.remove(fileName)
1398
1399	tag = "DSG"
1400	Segment.set_default_tag(tag)
1401	m.addVertsSegs(dict)
1402
1403	self.failUnless(len(m.userSegments) ==11,
1404	'Wrong segment list length.')
1405	self.failUnless(len(m.userVertices) == 11,
1406	'Wrong vertex list length.')
1407
1408	# Test the method
1409	a = Vertex (0.0, 0.0) #, attributes = [1.1])
1410	b = Vertex (0.0, 40.0) #, attributes = [1.2])
1411	c = Vertex (40.0,40.0) #, attributes = [1.3])
1412	d = Vertex (40.0,0.0) #, attributes = [1.4])
1413
1414	s1 = Segment(a,b)
1415	s2 = Segment(b,c)
1416	s3 = Segment(c,d)
1417	s4 = Segment(d,a)
1418
1419	m = Mesh(userVertices=[a,b,c,d], userSegments=[s1,s2,s3,s4])
1420	tag = "DSG"
1421	initial_tag = "PIG"
1422	Segment.set_default_tag(initial_tag)
1423	m.import_ungenerate_file(fileName, tag=tag, region_tag=["swamp","coastalp"])
1424
1425	os.remove(fileName)
1426
1427	self.failUnless(Segment.get_default_tag() == initial_tag,
1428	'Wrong segment list length.')
1429	m.export_mesh_file("swamp.tsh")
1430	#print "m.userSegments",m.userSegments
1431	self.failUnless(len(m.userSegments) ==11,
1432	'Wrong segment list length.')
1433	self.failUnless(len(m.userVertices) == 11,
1434	'Wrong vertex list length.')
1435	self.failUnless(len(m.regions) == 2,
1436	'Wrong regions list length.')
1437	self.failUnless(m.regions[0].getTag() == "swamp",
1438	'Wrong regions tag.')
1439	self.failUnless(m.regions[1].getTag() == "coastalp",
1440	'Wrong regions 1 tag.')
1441
1442
1443	# have to reset this , since it's a class attribute
1444	Segment.set_default_tag("")
1445
1446	def test_addVertsSegs(self):
1447	m = Mesh()
1448	Segment.set_default_tag("food")
1449	dict = {}
1450	dict['points'] = [[0.0, 0.0], [1.0, 0.0], [1.0, 1.0]]
1451	dict['segments'] = [[0, 1], [1, 2]]
1452	dict['segment_tags'] = ['','do-op']
1453	m.addVertsSegs(dict)
1454	# have to reset this , since it's a class attribute
1455	Segment.set_default_tag("")
1456
1457
1458	self.failUnless(len(m.userSegments) ==2,
1459	'Wrong segment list length.')
1460	self.failUnless(len(m.userVertices) == 3,
1461	'Wrong vertex list length.')
1462	self.failUnless(m.userSegments[0].tag =='food',
1463	'Wrong segment tag length.')
1464	self.failUnless(m.userSegments[1].tag =='do-op',
1465	'Wrong segment tag.')
1466
1467	def test_addVertsSegs2(self):
1468	geo = Geo_reference(56,5,10)
1469	m = Mesh(geo_reference=geo)
1470	dict = {}
1471	dict['points'] = [[2.0, 1.0], [3.0, 1.0], [2.0, 2.0]]
1472	dict['segments'] = [[0, 1], [1, 2], [2,0]]
1473	dict['segment_tags'] = ['','do-op','']
1474	m.addVertsSegs(dict)
1475
1476	def test_addVertsSegs_done_twice(self):
1477	m = Mesh()
1478	dict = {}
1479	dict['points'] = [[0.0, 0.0], [5.0, 0.0], [5.0, 5.0]]
1480	dict['segments'] = [[0, 1], [1, 2], [2,0]]
1481	dict['segment_tags'] = ['0','1','2']
1482	m.addVertsSegs(dict)
1483
1484	dict = {}
1485	dict['points'] = [[2.0, 1.0], [4.0, 1.0], [4.0, 3.0]]
1486	dict['segments'] = [[0, 1], [1, 2], [2,0]]
1487	dict['segment_tags'] = ['3','4','5']
1488	m.addVertsSegs(dict)
1489
1490
1491	self.failUnless(m.userSegments[5].vertices[0].y == 3,
1492	'Wrong vertex connected.')
1493	self.failUnless(m.userSegments[5].vertices[1].y == 1,
1494	'Wrong vertex connected.')
1495
1496	def test_add_points_and_segments(self):
1497	m = Mesh()
1498	Segment.set_default_tag("food")
1499	dict = {}
1500	points = [[0.0, 0.0], [1.0, 0.0], [1.0, 1.0]]
1501	segments = [[0, 1], [1, 2]]
1502	segment_tags = {'hair':[1]}
1503	m.add_points_and_segments(points,
1504	segments, segment_tags)
1505	# have to reset this , since it's a class attribute
1506	Segment.set_default_tag("")
1507
1508
1509	self.failUnless(len(m.userSegments) ==2,
1510	'Wrong segment list length.')
1511	self.failUnless(len(m.userVertices) == 3,
1512	'Wrong vertex list length.')
1513	self.failUnless(m.userSegments[0].tag =='food',
1514	'Wrong segment tag length.')
1515	self.failUnless(m.userSegments[1].tag =='hair',
1516	'Wrong segment tag.')
1517
1518	def test_add_points_and_segmentsII(self):
1519	m = Mesh()
1520	Segment.set_default_tag("food")
1521	dict = {}
1522	points = [[0.0, 0.0], [1.0, 0.0], [1.0, 1.0]]
1523	segments = None #[[0, 1], [1, 2]]
1524	segment_tags = {'hair':[1]}
1525	m.add_points_and_segments(points,
1526	segments, segment_tags)
1527	# have to reset this , since it's a class attribute
1528	Segment.set_default_tag("")
1529
1530
1531	self.failUnless(len(m.userSegments) ==2,
1532	'Wrong segment list length.')
1533	self.failUnless(len(m.userVertices) == 3,
1534	'Wrong vertex list length.')
1535	self.failUnless(m.userSegments[0].tag =='food',
1536	'Wrong segment tag length.')
1537	self.failUnless(m.userSegments[1].tag =='hair',
1538	'Wrong segment tag.')
1539
1540	def test_exportASCIImeshfile(self):
1541
1542	#a_att = [5,2]
1543	#d_att =[4,2]
1544	#f_att = [3,2]
1545	#e_att = [2,2]
1546	a_xy = [0.0, 0.0]
1547	a = Vertex ( a_xy[0],a_xy[1]) #, attributes =a_att)
1548	d = Vertex (0.0, 4.0) #, attributes =d_att)
1549	f = Vertex (4.0,0.0) #, attributes =f_att)
1550	e = Vertex (1.0,1.0) #, attributes =e_att)
1551
1552	s1 = Segment(a,d, tag = "50")
1553	s2 = Segment(d,f, tag = "40")
1554	s3 = Segment(a,f, tag = "30")
1555	s4 = Segment(a,e, tag = "20")
1556
1557	r1 = Region(0.3, 0.3,tag = "1.3", maxArea = 36)
1558
1559
1560	h1 = Hole(0.2,0.6)
1561
1562	m = Mesh(userVertices=[a,d,f,e],
1563	userSegments=[s1,s2,s3,s4],
1564	regions=[r1],
1565	holes=[h1])
1566
1567	seg = m.getUserSegments()
1568	points = m.getUserVertices()
1569	holes = m.getHoles()
1570	regions = m.getRegions()
1571	fileName = tempfile.mktemp(".tsh")
1572	m.export_mesh_file(fileName)
1573	#print "***************************fileName", fileName
1574	new_m = importMeshFromFile(fileName)
1575	os.remove(fileName)
1576
1577
1578	#print '.flat@****'
1579	#print "new_m",new_m
1580	#print '.flat@****'
1581	#print "m",m
1582	#print '.flat@****'
1583
1584	self.failUnless( new_m == m,
1585	'loadASCIITestCase failed. test new 1')
1586
1587	def test_Mesh2MeshList(self):
1588
1589	a_att = [5,2]
1590	d_att =[4,2]
1591	f_att = [3,2]
1592	e_att = [2,2]
1593	a_xy = [0.0, 0.0]
1594	a = Vertex ( a_xy[0],a_xy[1]) #, attributes =a_att)
1595	d = Vertex (0.0, 4.0) #, attributes =d_att)
1596	f = Vertex (4.0,0.0) #, attributes =f_att)
1597	e = Vertex (1.0,1.0) #, attributes =e_att)
1598
1599	s1 = Segment(a,d, tag = "50")
1600	s2 = Segment(d,f, tag = "40")
1601	s3 = Segment(a,f, tag = "30")
1602	s4 = Segment(a,e, tag = "20")
1603
1604	r1 = Region(0.3, 0.3,tag = "1.3", maxArea = 45)
1605	m = Mesh(userVertices=[a,d,f,e],
1606	userSegments=[s1,s2,s3,s4],
1607	regions=[r1])
1608
1609	m.generateMesh("Qa2.1")
1610
1611	seg = m.getMeshSegments()
1612	points = m.getMeshVertices()
1613	dict = m.Mesh2MeshList()
1614	#print "dict",dict
1615	# test not finished...
1616
1617	def test_Mesh2IOTriangulationDict(self):
1618
1619	a_att = [5,2]
1620	d_att =[4,2]
1621	f_att = [3,2]
1622	e_att = [2,2]
1623	a_xy = [0.0, 0.0]
1624	a = Vertex ( a_xy[0],a_xy[1] , attributes =a_att)
1625	d = Vertex (0.0, 4.0 , attributes =d_att)
1626	f = Vertex (4.0,0.0 , attributes =f_att)
1627	e = Vertex (1.0,1.0 , attributes =e_att)
1628
1629	s1 = Segment(a,d, tag = "50")
1630	s2 = Segment(d,f, tag = "40")
1631	s3 = Segment(a,f, tag = "30")
1632	s4 = Segment(a,e, tag = "20")
1633
1634	r1 = Region(0.3, 0.3,tag = "1.3", maxArea = 45)
1635	m = Mesh(userVertices=[a,d,f,e],
1636	userSegments=[s1,s2,s3,s4],
1637	regions=[r1])
1638	titles = ['ele','friction'] #Feed in directly!
1639	m.attributeTitles = titles
1640	m.generateMesh("Qa2.1")
1641
1642	seg = m.getMeshSegments()
1643	verts = m.getMeshVertices()
1644	vert_as = m.getMeshVerticeAttributes()
1645	seg_tags = m.getMeshSegmentTags()
1646	dict = m.Mesh2IOTriangulationDict()
1647	#print "dict",dict
1648
1649	self.failUnless( dict['vertex_attribute_titles'] == titles,
1650	'test_Mesh2IOTriangulationDict failed. test 1')
1651	answer = [a_xy,[0.0, 4.0],[4.0,0.0], [1.0,1.0], [2.0,2.0]]
1652	#print "answer",answer
1653	#print "dict['vertices']",dict['vertices']
1654
1655	self.failUnless( dict['vertices'] == answer,
1656	'test_Mesh2IOTriangulationDict failed. test 2')
1657
1658	self.failUnless( dict['vertices'] == verts,
1659	'test_Mesh2IOTriangulationDict failed. test vert')
1660	self.failUnless( dict['vertex_attributes'] == vert_as,
1661	'test_Mesh2IOTriangulationDict failed. test vert ats')
1662
1663	self.failUnless( dict['segments'][0] == [0,1],
1664	'test_Mesh2IODict failed. test 3')
1665
1666	self.failUnless( dict['segment_tags'] == seg_tags,
1667	'test_Mesh2IODict failed. test 3')
1668	#print " dict['triangles'][0]", dict['triangles'][0]
1669	self.failUnless( dict['triangles'][0] == [3,2,4],
1670	'test_Mesh2IODict failed. test 5')
1671	self.failUnless( dict['triangle_neighbors'][0] == [-1,2,3],
1672	'test_Mesh2IODict failed. test 6')
1673	#print "dict['triangle_tags'][0]", dict['triangle_tags'][0]
1674	self.failUnless( dict['triangle_tags'][0] == "1.3",
1675	'test_Mesh2IODict failed. test 7')
1676
1677
1678	def test_Mesh2IODict(self):
1679
1680	a_att = [5,2]
1681	d_att =[4,2]
1682	f_att = [3,2]
1683	e_att = [2,2]
1684	a_xy = [0.0, 0.0]
1685	a = Vertex ( a_xy[0],a_xy[1] , attributes =a_att)
1686	d = Vertex (0.0, 4.0 , attributes =d_att)
1687	f = Vertex (4.0,0.0 , attributes =f_att)
1688	e = Vertex (1.0,1.0 , attributes =e_att)
1689
1690	s1 = Segment(a,d, tag = "50")
1691	s2 = Segment(d,f, tag = "40")
1692	s3 = Segment(a,f, tag = "30")
1693	s4 = Segment(a,e, tag = "20")
1694
1695	r1 = Region(0.3, 0.3,tag = "1.3", maxArea = 45)
1696	m = Mesh(userVertices=[a,d,f,e],
1697	userSegments=[s1,s2,s3,s4],
1698	regions=[r1])
1699	titles = ['ele','friction']
1700	m.attributeTitles = titles
1701	m.generateMesh("Qa2.1")
1702
1703	seg = m.getMeshSegments()
1704	verts = m.getMeshVertices()
1705	vert_as = m.getMeshVerticeAttributes()
1706	dict = m.Mesh2IODict()
1707	seg_tags = m.getMeshSegmentTags()
1708	#print "dict",dict
1709
1710	self.failUnless( dict['vertex_attribute_titles'] == titles,
1711	'test_Mesh2IOTriangulationDict failed. test 1')
1712	answer = [a_xy,[0.0, 4.0],[4.0,0.0], [1.0,1.0], [2.0,2.0]]
1713	#print "answer",answer
1714	#print "dict['vertices']",dict['vertices']
1715
1716	self.failUnless( dict['vertices'] == answer,
1717	'test_Mesh2IOTriangulationDict failed. test 2')
1718
1719	self.failUnless( dict['vertices'] == verts,
1720	'test_Mesh2IOTriangulationDict failed. test vert')
1721	self.failUnless( dict['vertex_attributes'] == vert_as,
1722	'test_Mesh2IOTriangulationDict failed. test vert ats')
1723
1724	self.failUnless( dict['segments'][0] == [0,1],
1725	'test_Mesh2IODict failed. test 3')
1726
1727	self.failUnless( dict['segment_tags'] == seg_tags,
1728	'test_Mesh2IODict failed. test 3')
1729	#print " dict['triangles'][0]", dict['triangles'][0]
1730	self.failUnless( dict['triangles'][0] == [3,2,4],
1731	'test_Mesh2IODict failed. test 5')
1732	self.failUnless( dict['triangle_neighbors'][0] == [-1,2,3],
1733	'test_Mesh2IODict failed. test 6')
1734	#print "dict['triangle_tags'][0]", dict['triangle_tags'][0]
1735	self.failUnless( dict['triangle_tags'][0] == "1.3",
1736	'test_Mesh2IODict failed. test 7')
1737
1738	seg = m.getUserSegments()
1739	points = m.getUserVertices()
1740	holes = m.getHoles()
1741	regions = m.getRegions()
1742
1743	for pimport,pactual,pimpatt in map(None,dict['points'],points,dict['point_attributes']):
1744	self.failUnless( pimport == [pactual.x,pactual.y],
1745	'test_Mesh2IODict failed. test 1')
1746	self.failUnless( pimpatt == pactual.attributes,
1747	'test_Mesh2IODict failed. test 1.1')
1748	self.failUnless( dict['outline_segments'][0] == [0,1],
1749	'test_Mesh2IODict failed. test 3')
1750	for segimp,segactual in map(None,dict['outline_segment_tags'],seg):
1751	self.failUnless( segimp == segactual.tag,
1752	'test_Mesh2IODict failed. test 4')
1753	for holeimp,holeactual in map(None,dict['holes'],holes):
1754	self.failUnless( holeimp == [holeactual.x,holeactual.y],
1755	'test_Mesh2IODict failed. test 5')
1756
1757	for regimp,regactual,regattimp, regmaxarea in map(None,dict['regions'],regions, dict['region_tags'], dict['region_max_areas']):
1758	self.failUnless( regimp == [regactual.x,regactual.y],
1759	'loadASCIITestCase failed. test 6')
1760	self.failUnless( regattimp == regactual.getTag(),
1761	'loadASCIITestCase failed. test 7')
1762	self.failUnless( regmaxarea == regactual.getMaxArea(),
1763	'loadASCIITestCase failed. test 7')
1764
1765
1766
1767	def test_Mesh2IOOutlineDict(self):
1768
1769	a_att = [5,2]
1770	d_att =[4,2]
1771	f_att = [3,2]
1772	e_att = [2,2]
1773	a_xy = [0.0, 0.0]
1774	a = Vertex ( a_xy[0],a_xy[1] , attributes =a_att)
1775	d = Vertex (0.0, 4.0 , attributes =d_att)
1776	f = Vertex (4.0,0.0 , attributes =f_att)
1777	e = Vertex (1.0,1.0 , attributes =e_att)
1778
1779	s1 = Segment(a,d, tag = "50")
1780	s2 = Segment(d,f, tag = "40")
1781	s3 = Segment(a,f, tag = "30")
1782	s4 = Segment(a,e, tag = "20")
1783
1784	r1 = Region(0.3, 0.3,tag = "1.3", maxArea = 45)
1785	m = Mesh(userVertices=[a,d,f,e],
1786	userSegments=[s1,s2,s3,s4],
1787	regions=[r1])
1788	titles = ['ele','friction']
1789	m.attributeTitles = titles
1790	m.generateMesh("Qa2.1")
1791
1792	seg = m.getMeshSegments()
1793	verts = m.getMeshVertices()
1794	dict = m.Mesh2IOOutlineDict()
1795
1796	seg = m.getUserSegments()
1797	points = m.getUserVertices()
1798	holes = m.getHoles()
1799	regions = m.getRegions()
1800
1801	for pimport,pactual,pimpatt in map(None,dict['points'],points,dict['point_attributes']):
1802	self.failUnless( pimport == [pactual.x,pactual.y],
1803	'loadASCIITestCase failed. test 1')
1804	self.failUnless( pimpatt == pactual.attributes,
1805	'loadASCIITestCase failed. test 1.1')
1806	self.failUnless( dict['outline_segments'][0] == [0,1],
1807	'loadASCIITestCase failed. test 3')
1808	for segimp,segactual in map(None,dict['outline_segment_tags'],seg):
1809	self.failUnless( segimp == segactual.tag,
1810	'loadASCIITestCase failed. test 4')
1811	for holeimp,holeactual in map(None,dict['holes'],holes):
1812	self.failUnless( holeimp == [holeactual.x,holeactual.y],
1813	'loadASCIITestCase failed. test 5')
1814	#for regimp,regactual in map(None,dict['regions'],regions):
1815	# self.failUnless( [regimp[0],regimp[1]]==[regactual.x,regactual.y],
1816	# 'loadASCIITestCase failed. test 6')
1817	# self.failUnless( regimp[2] == regactual.getTag(),
1818	# 'loadASCIITestCase failed. test 7')
1819	#self.failUnless( regimp[3] == regactual.getMaxArea(),
1820	# 'loadASCIITestCase failed. test 7')
1821
1822
1823	for regimp,regactual,regattimp, regmaxarea in map(None,dict['regions'],regions, dict['region_tags'], dict['region_max_areas']):
1824	self.failUnless( regimp == [regactual.x,regactual.y],
1825	'loadASCIITestCase failed. test 6')
1826	self.failUnless( regattimp == regactual.getTag(),
1827	'loadASCIITestCase failed. test 7')
1828	self.failUnless( regmaxarea == regactual.getMaxArea(),
1829	'loadASCIITestCase failed. test 7')
1830
1831
1832	def test_add_region_from_polygon(self):
1833	m=Mesh()
1834	region = m.add_region_from_polygon([[0,0],[1,0],[0,1]],
1835	max_triangle_area = 88,
1836	region_tag='cassady')
1837	self.failUnless(len(m.regions)==1,
1838	'FAILED!')
1839	self.failUnless(region.getMaxArea()==88,
1840	'FAILED!')
1841	self.failUnless(len(m.getUserSegments())==3,
1842	'FAILED!')
1843	self.failUnless(len(m.userVertices)==3,
1844	'FAILED!')
1845	self.failUnless(region.getTag()=='cassady',
1846	'FAILED!')
1847
1848	def test_add_region_from_polygon2(self):
1849	m=Mesh()
1850	m.add_region_from_polygon([[0,0],[1,0],[1,1],[0,1]],
1851	{'tagin':[0,1],'bom':[2]},
1852	max_triangle_area=10)
1853	self.failUnless(len(m.regions)==1,
1854	'FAILED!')
1855	segs = m.getUserSegments()
1856	self.failUnless(len(segs)==4,
1857	'FAILED!')
1858	self.failUnless(len(m.userVertices)==4,
1859	'FAILED!')
1860	self.failUnless(segs[0].tag=='tagin',
1861	'FAILED!')
1862	self.failUnless(segs[1].tag=='tagin',
1863	'FAILED!')
1864
1865	self.failUnless(segs[2].tag=='bom',
1866	'FAILED!')
1867	self.failUnless(segs[3].tag=='',
1868	'FAILED!')
1869
1870	def test_add_region_from_polygon3(self):
1871	x=-500
1872	y=-1000
1873	m=Mesh(geo_reference=Geo_reference(56,x,y))
1874
1875	# These are the absolute values
1876	polygon_absolute = [[0,0],[1,0],[1,1],[0,1]]
1877
1878	x_p = -10
1879	y_p = -40
1880	geo_ref_poly = Geo_reference(56, x_p, y_p)
1881	polygon = geo_ref_poly.change_points_geo_ref(polygon_absolute)
1882
1883	poly_point = m.add_region_from_polygon(polygon,
1884	{'tagin':[0,1],'bom':[2]},
1885	geo_reference=geo_ref_poly,
1886	max_triangle_area=10)
1887	# poly_point values are relative to the mesh geo-ref
1888	# make them absolute
1889	self.failUnless(is_inside_polygon([poly_point.x+x,poly_point.y+y],
1890	polygon_absolute, closed = False),
1891	'FAILED!')
1892
1893	self.failUnless(len(m.regions)==1,
1894	'FAILED!')
1895	segs = m.getUserSegments()
1896	self.failUnless(len(segs)==4,
1897	'FAILED!')
1898	self.failUnless(len(m.userVertices)==4,
1899	'FAILED!')
1900	self.failUnless(segs[0].tag=='tagin',
1901	'FAILED!')
1902	self.failUnless(segs[1].tag=='tagin',
1903	'FAILED!')
1904
1905	self.failUnless(segs[2].tag=='bom',
1906	'FAILED!')
1907	self.failUnless(segs[3].tag=='',
1908	'FAILED!')
1909	verts = m.getUserVertices()
1910	#print "User verts",verts
1911	#print 'polygon',polygon
1912	#vert values are relative
1913	for point,new_point in map(None,polygon,verts):
1914	point_x = point[0] + geo_ref_poly.get_xllcorner()
1915	new_point_x = new_point.x + m.geo_reference.get_xllcorner()
1916	point_y = point[1] + geo_ref_poly.get_yllcorner()
1917	#print "new_point.y",new_point.y
1918	#print "m.geo_ref.get_yllcorner()",m.geo_reference.get_yllcorner()
1919	new_point_y = new_point.y + m.geo_reference.get_yllcorner()
1920	#print "point_y",point_y
1921	#print "new_point_y",new_point_y
1922
1923	self.failUnless(point_x == new_point_x, ' failed')
1924	self.failUnless(point_y == new_point_y, ' failed')
1925
1926
1927	def test_add_region_from_polygon4(self):
1928	x=50000
1929	y=1000
1930	m=Mesh(geo_reference=Geo_reference(56,x,y))
1931	polygon = [[0,0],[1,0],[1,1],[0,1]]
1932
1933	m.add_region_from_polygon(polygon,
1934	{'tagin':[0,1],'bom':[2]},
1935	max_triangle_area=10)
1936	self.failUnless(len(m.regions)==1,
1937	'FAILED!')
1938	segs = m.getUserSegments()
1939	self.failUnless(len(segs)==4,
1940	'FAILED!')
1941	self.failUnless(len(m.userVertices)==4,
1942	'FAILED!')
1943	self.failUnless(segs[0].tag=='tagin',
1944	'FAILED!')
1945	self.failUnless(segs[1].tag=='tagin',
1946	'FAILED!')
1947
1948	self.failUnless(segs[2].tag=='bom',
1949	'FAILED!')
1950	self.failUnless(segs[3].tag=='',
1951	'FAILED!')
1952	verts = m.getUserVertices()
1953	#print "User verts",verts
1954	#print 'polygon',polygon
1955	#vert values are relative
1956	for point,new_point in map(None,polygon,verts):
1957	point_x = point[0]
1958	new_point_x = new_point.x + m.geo_reference.get_xllcorner()
1959	#print "point_x",point_x
1960	#print "new_point_x",new_point_x
1961	point_y = point[1]
1962	new_point_y = new_point.y + m.geo_reference.get_yllcorner()
1963
1964	self.failUnless(point_x == new_point_x, ' failed')
1965	self.failUnless(point_y == new_point_y, ' failed')
1966
1967
1968	def test_add_hole_from_polygon(self):
1969	x=-500
1970	y=-1000
1971	m=Mesh(geo_reference=Geo_reference(56,x,y))
1972
1973	# These are the absolute values
1974	polygon_absolute = [[0,0],[1,0],[1,1],[0,1]]
1975
1976	x_p = -10
1977	y_p = -40
1978	geo_ref_poly = Geo_reference(56, x_p, y_p)
1979	polygon = geo_ref_poly.change_points_geo_ref(polygon_absolute)
1980
1981	poly_point = m.add_hole_from_polygon(polygon,
1982	{'tagin':[0,1],'bom':[2]},
1983	geo_reference=geo_ref_poly)
1984	# poly_point values are relative to the mesh geo-ref
1985	# make them absolute
1986	#print "poly_point.x+x",poly_point.x+x
1987	#print "poly_point.y+y",poly_point.y+y
1988	#print "polygon_absolute", polygon_absolute
1989	self.failUnless(is_inside_polygon([poly_point.x+x,poly_point.y+y],
1990	polygon_absolute, closed = False),
1991	'FAILED!')
1992
1993	self.failUnless(len(m.holes)==1,
1994	'FAILED!')
1995	segs = m.getUserSegments()
1996	self.failUnless(len(segs)==4,
1997	'FAILED!')
1998	self.failUnless(len(m.userVertices)==4,
1999	'FAILED!')
2000	self.failUnless(segs[0].tag=='tagin',
2001	'FAILED!')
2002	self.failUnless(segs[1].tag=='tagin',
2003	'FAILED!')
2004
2005	self.failUnless(segs[2].tag=='bom',
2006	'FAILED!')
2007	self.failUnless(segs[3].tag=='',
2008	'FAILED!')
2009	verts = m.getUserVertices()
2010	#print "User verts",verts
2011	#print 'polygon',polygon
2012	#vert values are relative
2013	for point,new_point in map(None,polygon,verts):
2014	point_x = point[0] + geo_ref_poly.get_xllcorner()
2015	new_point_x = new_point.x + m.geo_reference.get_xllcorner()
2016	point_y = point[1] + geo_ref_poly.get_yllcorner()
2017	#print "new_point.y",new_point.y
2018	#print "m.geo_ref.get_yllcorner()",m.geo_reference.get_yllcorner()
2019	new_point_y = new_point.y + m.geo_reference.get_yllcorner()
2020	#print "point_y",point_y
2021	#print "new_point_y",new_point_y
2022
2023	self.failUnless(point_x == new_point_x, ' failed')
2024	self.failUnless(point_y == new_point_y, ' failed')
2025
2026	def test_add_circle(self):
2027	x=-500
2028	y=-1000
2029	m=Mesh(geo_reference=Geo_reference(56,x,y))
2030
2031	# These are the absolute values
2032	tag = 'hey'
2033	segment_count = 104
2034	radius = 30
2035	circle_center_absolute = [100,80]
2036	x_p = -.666
2037	y_p = -.777
2038	geo_ref_poly = Geo_reference(56, x_p, y_p)
2039	circle_center = \
2040	geo_ref_poly.change_points_geo_ref(circle_center_absolute)
2041	circle_center = circle_center[0] #make a list of lists a list
2042	poly_point = m.add_circle(circle_center, radius, segment_count,
2043	tag=tag,
2044	region=True,
2045	center_geo_reference=geo_ref_poly)
2046	# poly_point values are relative to the mesh geo-ref
2047	# make them absolute
2048	#print "poly_point.x+x",poly_point.x+x
2049	#print "polygon_absolute", polygon_absolute
2050
2051
2052	#m.export_mesh_file("aaat.msh")
2053
2054	self.failUnless(len(m.regions)==1,
2055	'FAILED!')
2056	segs = m.getUserSegments()
2057	self.failUnless(len(segs)==segment_count,
2058	'FAILED!')
2059	self.failUnless(len(m.userVertices)==segment_count,
2060	'FAILED!')
2061	self.failUnless(segs[0].tag==tag,
2062	'FAILED!')
2063	self.failUnless(segs[1].tag==tag,
2064	'FAILED!')
2065
2066	verts = m.getUserVertices()
2067
2068	#m.export_mesh_file("aaat.msh")
2069
2070	def NOTIMPLEMENTEDtest_auto_set_geo_reference(self):
2071	x=50000
2072	y=1000
2073	m=Mesh(geo_reference=Geo_reference(56,x,y))
2074	polygon = [[0,0],[1,0],[1,1],[0,1]]
2075
2076	m.add_region_from_polygon(polygon,
2077	{'tagin':[0,1],'bom':[2]},
2078	max_triangle_area=10)
2079	m.auto_set_geo_reference()
2080
2081
2082	def test_duplicat_verts_are_removed(self):
2083
2084
2085	a = Vertex ( 0.0 ,0.0)
2086	b = Vertex (0.0, 4.0)
2087	c = Vertex (4.0,4.0)
2088	d = Vertex (4.0,0.0)
2089	e = Vertex (4.0,0.0) # duplicate point
2090
2091	s1 = Segment(a,b, tag = "50")
2092	s2 = Segment(b,c, tag = "40")
2093	s3 = Segment(c,d, tag = "30")
2094	s4 = Segment(d,e, tag = "no where seg")
2095	s5 = Segment(e,a, tag = "20")
2096
2097
2098	m = Mesh(userVertices=[a,b,c,d,e],
2099	userSegments=[s1,s2,s3,s4,s5])
2100
2101	seg = m.getUserSegments()
2102	points = m.getUserVertices()
2103	holes = m.getHoles()
2104	regions = m.getRegions()
2105	#fileName = tempfile.mktemp(".tsh")
2106	#fileName = "badmesh.tsh"
2107	#m.export_mesh_file(fileName)
2108	#print "***************************fileName", fileName
2109	#new_m = importMeshFromFile(fileName)
2110	#os.remove(fileName)
2111
2112	m.generateMesh("Q", maxArea = 2000.1 )
2113
2114	#m.export_mesh_file("from_test_mesh.tsh")
2115	seg = m.getMeshSegments()
2116	self.failUnless(4==len(seg),
2117	'FAILED!')
2118
2119	vert = m.getMeshVertices()
2120	self.failUnless(4==len(vert),
2121	'FAILED!')
2122
2123	def test_duplicat_verts_are_removedII(self):
2124
2125
2126	a = Vertex ( 0.0 ,0.0)
2127	b = Vertex (0.0, 4.0)
2128	c = Vertex (4.0,4.0)
2129	d = Vertex (4.0,0.0)
2130	e = Vertex (4.0,0.0) # duplicate point
2131	f = Vertex (49.0,0.0) # unused point
2132
2133	s1 = Segment(a,b, tag = "50")
2134	s2 = Segment(b,c, tag = "40")
2135	s3 = Segment(c,d, tag = "30")
2136	s4 = Segment(d,e, tag = "no where seg")
2137	s5 = Segment(e,a, tag = "20")
2138
2139
2140	m = Mesh(userVertices=[a,b,c,d,e,f],
2141	userSegments=[s1,s2,s3,s4,s5])
2142
2143	seg = m.getUserSegments()
2144	points = m.getUserVertices()
2145	holes = m.getHoles()
2146	regions = m.getRegions()
2147	#fileName = tempfile.mktemp(".tsh")
2148	#fileName = "badmesh.tsh"
2149	#m.export_mesh_file(fileName)
2150	#print "***************************fileName", fileName
2151	#new_m = importMeshFromFile(fileName)
2152	#os.remove(fileName)
2153
2154	m.generateMesh("Q", maxArea = 2000.1 )
2155
2156	#m.export_mesh_file("from_test_mesh.tsh")
2157	seg = m.getMeshSegments()
2158	self.failUnless(4==len(seg),
2159	'FAILED!')
2160
2161	vert = m.getMeshVertices()
2162	self.failUnless(4==len(vert),
2163	'FAILED!')
2164
2165	def test_add_vertices(self):
2166	points_ab = [[0.1,1],[0.4,.2],[7,5],[10,5]]
2167	geo = Geo_reference(56,23,21)
2168	points = geo.change_points_geo_ref(points_ab)
2169	spat = Geospatial_data(points, geo_reference=geo)
2170
2171	geo_mesh = Geo_reference(56,100,200)
2172	m = Mesh(geo_reference=geo_mesh)
2173	m.add_vertices(spat)
2174
2175	vert = m.getUserVertices()
2176	#print "vert",vert
2177	self.failUnless(4==len(vert),
2178	'FAILED!')
2179	vert= m.get_user_vertices(absolute=True)
2180	self.failUnless(vert==points_ab,
2181	'FAILED!')
2182
2183
2184	def test_add_vertices_more(self):
2185	points = [[0.1,1],[0.4,.2],[7,5],[10,5]]
2186	#spat = Geospatial_data(points)
2187
2188	m = Mesh()
2189	m.add_vertices(points)
2190
2191	vert = m.getUserVertices()
2192	#print "vert",vert
2193	self.failUnless(4==len(vert),
2194	'FAILED!')
2195	vert= m.get_user_vertices(absolute=True)
2196	self.failUnless(vert==points,
2197	'FAILED!')
2198
2199	def test_add_verticesII(self):
2200	points_lat_long = [[-33,152],[-35,152],[-35,150],[-33,150]]
2201
2202	spat = Geospatial_data(data_points=points_lat_long,
2203	points_are_lats_longs=True)
2204	points_ab = spat.get_data_points( absolute = True)
2205	m = Mesh()
2206	m.add_vertices(spat)
2207
2208	vert = m.getUserVertices()
2209	#print "vert",vert
2210	self.failUnless(4==len(vert),
2211	'FAILED!')
2212	vert= m.get_user_vertices(absolute=True)
2213	self.failUnless(vert==points_ab,
2214	'FAILED!')
2215
2216	spat = Geospatial_data(data_points=points_lat_long,
2217	points_are_lats_longs=True)
2218	points_ab = spat.get_data_points( absolute = True)
2219	geo = Geo_reference(56,400000,6000000)
2220	spat.set_geo_reference(geo)
2221	m = Mesh()
2222	m.add_vertices(spat)
2223
2224	vert = m.getUserVertices()
2225	#print "vert",vert
2226	self.failUnless(4==len(vert),
2227	'FAILED!')
2228	vert= m.get_user_vertices(absolute=True)
2229	self.failUnless(vert==points_ab,
2230	'FAILED!')
2231
2232	#geo = Geo_reference(56,23,21)
2233	#points = geo.change_points_geo_ref(points_ab)
2234
2235	def test_get_user_vertices(self):
2236	points_ab = [[0.1,1],[0.4,.2],[7,5],[10,5]]
2237	geo = Geo_reference(56,23,21)
2238	points = geo.change_points_geo_ref(points_ab)
2239	spat = Geospatial_data(points, geo_reference=geo)
2240
2241	geo_mesh = Geo_reference(56,100,200)
2242	m = Mesh(geo_reference=geo_mesh)
2243	m.add_vertices(spat)
2244
2245	vert = m.getUserVertices()
2246	#print "vert",vert
2247	self.failUnless(4==len(vert),
2248	'FAILED!')
2249	vert= m.get_user_vertices(absolute=True)
2250	self.failUnless(vert==points_ab,
2251	'FAILED!')
2252	vert= m.get_user_vertices(absolute=False)
2253	points_new = m.geo_reference.get_absolute(vert)
2254
2255	self.failUnless(points_ab==points_new,
2256	'FAILED!')
2257
2258	def mode_string_float_problems(self):
2259	numbers = [0.0000000001,1000000000000.0, 1e-19,1e19, 1e-25,1e30,1e40,
2260	1e41,'0.00001','0.000000000000000000000000000000000001']
2261	numbers = [1e-21,1e-20,1e30,1e35,1e40]
2262	for num in numbers:
2263	mode = 'a' + str(num)
2264	#print " mode += 'a' + str(num)", mode
2265	print "====================="
2266
2267	try:
2268	mode = 'a' + '%20.20f' %num
2269	except TypeError:
2270	mode = 'a' + str(num)
2271	print "mode += 'a' + '%20.20f' %num", mode
2272	#print "", mode
2273
2274
2275
2276	def testgenerateMesh_calc_mesh_area(self):
2277	a = Vertex (0.0, 0.0)
2278	d = Vertex (0.0, 4.0)
2279	f = Vertex (4.0,0.0)
2280
2281	s1 = Segment(a,d)
2282	s2 = Segment(d,f)
2283	s3 = Segment(a,f)
2284
2285	r1 = Region(0.3, 0.3,tag = 1.3,maxArea = .6)
2286	#print r1
2287	m = Mesh(userVertices=[a,d,f], userSegments=[s1,s2,s3], regions=[r1] )
2288
2289	m.generateMesh("Q", maxArea = 2.1 )
2290	calc_mesh_area = m.tri_mesh.calc_mesh_area()
2291	#print "calc_mesh_area", calc_mesh_area
2292	delta = 0.0000000001
2293	self.failUnless((8.0 < calc_mesh_area + delta) or
2294	(8.0 > calc_mesh_area - delta),
2295	'generated mesh is wrong!')
2296
2297	def list_comp(A,B):
2298	yes = len(A)==len(B)
2299	for item in A:
2300	if not item in B:
2301	yes = False
2302	return yes
2303
2304	#-------------------------------------------------------------
2305	if __name__ == "__main__":
2306	suite = unittest.makeSuite(meshTestCase,'test')
2307	#suite = unittest.makeSuite(meshTestCase,'mode_string_float_problems')
2308	#suite = unittest.makeSuite(meshTestCase,'test_import_mesh')
2309	#suite = unittest.makeSuite(meshTestCase,'test_asciiFile')
2310	#suite = unittest.makeSuite(meshTestCase,'test_mesh2IO')
2311	#suite = unittest.makeSuite(meshTestCase,'test_add_points_and_segmentsII')
2312	runner = unittest.TextTestRunner() #verbosity=2)
2313	runner.run(suite)
2314

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