1 # Copyright (C) 2006-2019 CEA/DEN, EDF R&D
3 # This library is free software; you can redistribute it and/or
4 # modify it under the terms of the GNU Lesser General Public
5 # License as published by the Free Software Foundation; either
6 # version 2.1 of the License, or (at your option) any later version.
8 # This library is distributed in the hope that it will be useful,
9 # but WITHOUT ANY WARRANTY; without even the implied warranty of
10 # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
11 # Lesser General Public License for more details.
13 # You should have received a copy of the GNU Lesser General Public
14 # License along with this library; if not, write to the Free Software
15 # Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
17 # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
27 class StdAloneYacsLoaderTest1(unittest.TestCase):
30 SALOMERuntime.RuntimeSALOME_setRuntime()
31 self.r = pilot.getRuntime()
32 self.l = loader.YACSLoader()# self.l.load("foreachImbr_tmp.xml")
33 self.workdir = tempfile.mkdtemp(suffix=".yacstest")
37 """tests imbrication of foreach loop."""
38 SALOMERuntime.RuntimeSALOME_setRuntime()
40 ex=pilot.ExecutorSwig()
41 p=self.r.createProc("pr")
42 td=p.createType("double","double")
43 td2=p.createSequenceTc("seqdbl","seqdbl",td)
44 td3=p.createSequenceTc("seqdblvec","seqdblvec",td2)
45 td4=p.createSequenceTc("seqseqdblvec","seqseqdblvec",td3)
46 node1=self.r.createScriptNode("","node1")
47 node1.setScript("o1=[([1,1],[2,2,2]),([10],[11,11],[12,12,12]),([20],[21,21],[22,22,22],[23,23,23,23])]")
48 o1=node1.edAddOutputPort("o1",td4)
50 node2=self.r.createForEachLoop("node2",td3)
52 p.edAddCFLink(node1,node2)
53 p.edAddLink(o1,node2.edGetSeqOfSamplesPort())
54 node2.edGetNbOfBranchesPort().edInitInt(2)
56 node20=self.r.createBloc("node20")
57 node2.edAddChild(node20)
58 node200=self.r.createForEachLoop("node200",td2)
59 node20.edAddChild(node200)
60 node200.edGetNbOfBranchesPort().edInitInt(2)
61 p.edAddLink(node2.edGetSamplePort(),node200.edGetSeqOfSamplesPort())
62 node2000=self.r.createForEachLoop("node2000",td)
63 node2000.edGetNbOfBranchesPort().edInitInt(2)
64 node200.edAddChild(node2000)
65 p.edAddLink(node200.edGetSamplePort(),node2000.edGetSeqOfSamplesPort())
66 node20000=self.r.createScriptNode("","node20000")
67 node2000.edAddChild(node20000)
68 i1=node20000.edAddInputPort("i1",td)
69 o2=node20000.edAddOutputPort("o2",td)
70 node20000.setScript("o2=i1+2")
71 p.edAddLink(node2000.edGetSamplePort(),i1)
73 node3=self.r.createScriptNode("","node3")
74 node3.setScript("o3=i2")
76 i2=node3.edAddInputPort("i2",td4)
77 o3=node3.edAddOutputPort("o3",td4)
78 p.edAddCFLink(node2,node3)
80 ex = pilot.ExecutorSwig()
81 self.assertEqual(p.getState(),pilot.READY)
83 self.assertEqual(p.getState(),pilot.DONE)
84 zeResu=node3.getOutputPort("o3").get()
85 self.assertEqual(zeResu,[[[3.,3.],[4.,4.,4.]],[[12.],[13.,13.],[14.,14.,14.]],[[22.],[23.,23.],[24.,24.,24.],[25.,25.,25.,25.]]])
86 fname = os.path.join(self.workdir, "foreachImbrBuildFS.xml")
91 """ Non regression test. When input/output declared as pyobj hiding a string type to go to or from a ForEachLoop it previous lead
94 fname=os.path.join(self.workdir, "BugPyObjStrInYacs.xml")
95 p=self.r.createProc("pr")
96 tc0=p.createInterfaceTc("python:obj:1.0","pyobj",[])
97 tc1=p.createSequenceTc("list[pyobj]","list[pyobj]",tc0)
99 node0=self.r.createScriptNode("Salome","node0")
100 node0.setScript("o1=[\"a\",\"bc\"]")
101 o1=node0.edAddOutputPort("o1",tc1)
104 node1=self.r.createForEachLoop("node1",tc0)
106 p.edAddCFLink(node0,node1)
107 node1.edGetNbOfBranchesPort().edInitInt(1)
108 p.edAddLink(o1,node1.edGetSeqOfSamplesPort())
110 node10=self.r.createScriptNode("Salome","node10")
111 node10.setScript("o1=3*i1")
112 i10_1=node10.edAddInputPort("i1",tc0)
113 o10_1=node10.edAddOutputPort("o1",tc0)
114 node1.edAddChild(node10)
115 p.edAddLink(node1.edGetSamplePort(),i10_1)
117 node2=self.r.createScriptNode("Salome","node2")
118 node2.setScript("o1=i1")
119 i2_1=node2.edAddInputPort("i1",tc1)
120 o2_1=node2.edAddOutputPort("o1",tc1)
122 p.edAddCFLink(node1,node2)
123 p.edAddLink(o10_1,i2_1)
128 ex = pilot.ExecutorSwig()
129 self.assertEqual(p.getState(),pilot.READY)
131 self.assertEqual(p.getState(),pilot.DONE)
133 self.assertEqual(p.getChildByName("node2").getOutputPort("o1").get(),['aaa','bcbcbc'])
137 """ Non regression test Mantis 23234 CEA1726"""
138 fname=os.path.join(self.workdir, "test23234.xml")
139 p=self.r.createProc("Test23234")
140 ti=p.createType("int","int")
141 initNode=self.r.createScriptNode("","init")
142 initNode_n=initNode.edAddOutputPort("n",ti)
143 initNode.setScript("n=10")
144 p.edAddChild(initNode)
146 endNode=self.r.createScriptNode("","checkResu")
147 endNode_n=endNode.edAddInputPort("n",ti)
148 endNode_tot=endNode.edAddInputPort("tot",ti)
149 endNode_error=endNode.edAddOutputPort("error",ti)
150 endNode.setScript("error=tot-n*(n+1)/2")
151 p.edAddChild(endNode)
153 fl=self.r.createForLoop("ForLoop_sum_1_n")
156 p.edAddCFLink(initNode,fl)
157 p.edAddCFLink(fl,endNode)
159 summ=self.r.createFuncNode("","sum")
160 summ_i=summ.edAddInputPort("i",ti)
161 summ_total=summ.edAddOutputPort("total",ti)
162 summ.setScript("""n=0
170 p.edAddLink(fl.edGetIndexPort(),summ_i)
171 p.edAddLink(initNode_n,fl.edGetNbOfTimesInputPort())
172 p.edAddLink(initNode_n,endNode_n)
173 p.edAddLink(summ_total,endNode_tot)
176 ex=pilot.ExecutorSwig()
177 self.assertEqual(p.getState(),pilot.READY)
179 self.assertEqual(p.getState(),pilot.DONE)
180 self.assertEqual(endNode_error.getPyObj(),0)
184 """ test linked to TestSaveLoadRun.test20. This is a smaller test coming from EDF autotest"""
185 p=self.r.createProc("test26")
186 n=self.r.createScriptNode("","node1")
187 n.setScript("import os")
189 n.setState(pilot.DISABLED)
191 ex=pilot.ExecutorSwig()
192 self.assertEqual(p.getState(),pilot.READY)
194 self.assertEqual(p.getState(),pilot.ACTIVATED)
195 self.assertEqual(n.getState(),pilot.DISABLED) # <- test is here.
199 """ Test focusing P13268. If I connect a list[pyobj] output inside a ForEach to a list[pyobj] outside a foreach it works now."""
200 #self.assertTrue(False)
201 fname=os.path.join(self.workdir, "testP1328.xml")
202 p=self.r.createProc("testP1328")
203 tc0=p.createInterfaceTc("python:obj:1.0","pyobj",[])
204 tc1=p.createSequenceTc("list[pyobj]","list[pyobj]",tc0)
205 n0=self.r.createScriptNode("","n0")
206 n1=self.r.createForEachLoop("n1",tc0)
207 n10=self.r.createScriptNode("","n10")
208 n2=self.r.createScriptNode("","n2")
209 p.edAddChild(n0) ; p.edAddChild(n1) ; p.edAddChild(n2) ; n1.edAddChild(n10)
210 n0.setScript("o2=[[elt] for elt in range(10)]")
211 n10.setScript("o6=2*i5")
212 n2.setScript("assert(i8==[[0,0],[1,1],[2,2],[3,3],[4,4],[5,5],[6,6],[7,7],[8,8],[9,9]])")
213 o2=n0.edAddOutputPort("o2",tc1)
214 i5=n10.edAddInputPort("i5",tc0)
215 o6=n10.edAddOutputPort("o6",tc1) # the goal of test is here ! tc1 NOT tc0 !
216 i8=n2.edAddInputPort("i8",tc1)
221 p.edAddLink(o2,n1.edGetSeqOfSamplesPort())
222 p.edAddLink(n1.edGetSamplePort(),i5)
223 p.edAddLink(o6,i8) # important link for the test !
225 n1.edGetNbOfBranchesPort().edInitInt(1)
229 ex=pilot.ExecutorSwig()
230 self.assertEqual(p.getState(),pilot.READY)
232 self.assertEqual(p.getState(),pilot.DONE)
233 self.assertEqual(p.getChildByName("n2").getInputPort("i8").getPyObj(),[[0,0],[1,1],[2,2],[3,3],[4,4],[5,5],[6,6],[7,7],[8,8],[9,9]])
237 """ Test focusing on P13766. Test of a connection of 2 foreach at same level where the output pyobj is connected to the list[pyobj] input samples of the 2nd foreach"""
238 fname=os.path.join(self.workdir, "testP13766.xml")
239 p=self.r.createProc("testP13766")
240 tc0=p.createInterfaceTc("python:obj:1.0","pyobj",[])
241 tc1=p.createSequenceTc("list[pyobj]","list[pyobj]",tc0)
242 n0=self.r.createScriptNode("","n0")
243 n1=self.r.createForEachLoop("n1",tc0)
244 n2=self.r.createForEachLoop("n2",tc0)
245 n10=self.r.createScriptNode("","n10")
246 n20=self.r.createScriptNode("","n20")
247 n3=self.r.createScriptNode("","n3")
248 p.edAddChild(n0) ; p.edAddChild(n1) ; p.edAddChild(n2) ; p.edAddChild(n3) ; n1.edAddChild(n10) ; n2.edAddChild(n20)
249 n0.setScript("o2=[[elt] for elt in range(10)]")
250 n10.setScript("o6=3*i5")
251 n3.setScript("assert(i8==[[0,0,0,0,0,0],[1,1,1,1,1,1],[2,2,2,2,2,2],[3,3,3,3,3,3],[4,4,4,4,4,4],[5,5,5,5,5,5],[6,6,6,6,6,6],[7,7,7,7,7,7],[8,8,8,8,8,8],[9,9,9,9,9,9]])")
252 n20.setScript("o10=2*i9")
253 o2=n0.edAddOutputPort("o2",tc1)
254 i5=n10.edAddInputPort("i5",tc0)
255 o6=n10.edAddOutputPort("o6",tc0)
256 i9=n20.edAddInputPort("i9",tc0)
257 o10=n20.edAddOutputPort("o10",tc0)
258 i8=n3.edAddInputPort("i8",tc1)
264 p.edAddLink(o2,n1.edGetSeqOfSamplesPort())
265 p.edAddLink(o6,n2.edGetSeqOfSamplesPort())# test is here !
266 p.edAddLink(n1.edGetSamplePort(),i5)
267 p.edAddLink(n2.edGetSamplePort(),i9)
270 n1.edGetNbOfBranchesPort().edInitInt(1)
271 n2.edGetNbOfBranchesPort().edInitInt(1)
275 ex=pilot.ExecutorSwig()
276 self.assertEqual(p.getState(),pilot.READY)
278 self.assertEqual(p.getState(),pilot.DONE)
279 self.assertEqual(p.getChildByName("n3").getInputPort("i8").getPyObj(),[[0,0,0,0,0,0],[1,1,1,1,1,1],[2,2,2,2,2,2],[3,3,3,3,3,3],[4,4,4,4,4,4],[5,5,5,5,5,5],[6,6,6,6,6,6],[7,7,7,7,7,7],[8,8,8,8,8,8],[9,9,9,9,9,9]])
283 """EDF17963 : Python3 porting. Py3 Pickeling generates more often byte(0) into the bytes. This reveals an incorrect management of Python Bytes -> Any String that leads to truncated bytes."""
285 entree_script="""Study = "toto"
286 print("Entree", Study)"""
288 pyscript0_script="""entier = 42
289 print("PyScript0",entier)
292 sortie_script="""import numpy as np
293 assert(isinstance(resultats,np.ndarray))
298 SALOMERuntime.RuntimeSALOME.setRuntime()
299 r=SALOMERuntime.getSALOMERuntime()
301 p0=r.createProc("run")
303 td=p0.createType("double","double")
304 ti=p0.createType("int","int")
305 ts=p0.createType("string","string")
306 tp=p0.createInterfaceTc("python:obj:1.0","pyobj",[])
307 tdd=p0.createSequenceTc("seqdouble","seqdouble",td)
308 tds=p0.createSequenceTc("seqstr","seqstr",ts)
309 tdp=p0.createSequenceTc("list[pyobj]","list[pyobj]",tp)
311 n0 = r.createScriptNode("Salome","Entree")
312 n0.setExecutionMode("local")
313 n0.setScript(entree_script)
314 o0 = n0.edAddOutputPort("Study",tp)
317 n1 = r.createOptimizerLoop("MainLoop","async_plugin.py","myalgosync",True)
318 n1.edGetNbOfBranchesPort().edInitInt(nbWorkers)
321 n10=r.createScriptNode("Salome","PyScript0")
322 n10.setScript(pyscript0_script)
323 i1 = n10.edAddInputPort("double",td)
324 o1 = n10.edAddOutputPort("entier",ti)
325 n10.setExecutionMode("local")
328 n2 = r.createScriptNode("Salome","Sortie")
329 n2.setExecutionMode("local")
330 n2.setScript(sortie_script)
331 i2 = n2.edAddInputPort("resultats",tp)
334 p0.edAddCFLink(n0,n1)
335 p0.edAddCFLink(n1,n2)
337 p0.edAddLink(o0,n1.getInputPort("algoInit"))
338 p0.edAddLink(n1.getOutputPort("algoResults"),i2)
339 p0.edAddLink(n1.getOutputPort("evalSamples"),i1)
340 p0.edAddLink(o1,n1.getInputPort("evalResults"))
342 #p0.saveSchema(fname)
344 ex=pilot.ExecutorSwig()
346 self.assertTrue(p0.getEffectiveState() == pilot.DONE)
356 if __name__ == '__main__':