self.assertTrue(not ff0.getUndergroundDataArray().isAllocated())
self.assertEqual(ff0.getUndergroundDataArray().getInfoOnComponents(),['X [km]','YY [mm]'])
heap_memory_ref=ff0.getHeapMemorySize()
- self.assertIn(heap_memory_ref,xrange(182,465+2*strMulFac))
+ self.assertIn(heap_memory_ref,xrange(182,481+2*strMulFac))
ff0.loadArrays() ##
arr=DataArrayDouble(140) ; arr.iota() ; arr.rearrange(2)
self.assertTrue(ff0.getUndergroundDataArray().isEqualWithoutConsideringStr(arr,1e-14))
ff0=MEDFileField1TS(fname,"FieldCellPfl",False)
self.assertEqual(ff0.getUndergroundDataArray().getInfoOnComponents(),["XX [pm]","YYY [hm]"])
heap_memory_ref=ff0.getHeapMemorySize()
- self.assertIn(heap_memory_ref,xrange(350,520+6*strMulFac))
+ self.assertIn(heap_memory_ref,xrange(350,536+6*strMulFac))
ff0.loadArrays() ##
arr=DataArrayDouble(100) ; arr.iota() ; arr.rearrange(2)
self.assertTrue(ff0.getUndergroundDataArray().isEqualWithoutConsideringStr(arr,1e-14))
self.assertEqual(ff0.getUndergroundDataArray().getIJ(30,1),5.5)
self.assertTrue(not ff0.getUndergroundDataArray().isEqualWithoutConsideringStr(arr,1e-14))
heap_memory_ref=ff0.getHeapMemorySize()
- self.assertIn(heap_memory_ref,xrange(1100,1384+2*strMulFac))
+ self.assertIn(heap_memory_ref,xrange(1100,1400+2*strMulFac))
ff0.unloadArrays()
hmd=ff0.getHeapMemorySize()-heap_memory_ref
self.assertEqual(hmd,-800) # -50*8*2
#
ff0=MEDFileField1TS(fname,"FieldCellPfl",-1,-1,False)
heap_memory_ref=ff0.getHeapMemorySize()
- self.assertIn(heap_memory_ref,xrange(299,520+6*strMulFac))
+ self.assertIn(heap_memory_ref,xrange(299,536+6*strMulFac))
ff0.loadArrays() ##
self.assertTrue(ff0.getUndergroundDataArray().isEqualWithoutConsideringStr(arr,1e-14))
self.assertEqual(ff0.getHeapMemorySize()-heap_memory_ref,50*8*2)
#
ff0=MEDFileAnyTypeFieldMultiTS.New(fname,fieldName,False)
heap_memory_ref=ff0.getHeapMemorySize()
- self.assertIn(heap_memory_ref,xrange(5536,8212+(80+26)*strMulFac))
+ self.assertIn(heap_memory_ref,xrange(5536,10242+(80+26+1)*strMulFac))
ff0.loadArrays()
self.assertEqual(ff0.getHeapMemorySize()-heap_memory_ref,20*70*8*2)
del ff0
#
ffs=MEDFileFields(fname,False)
heap_memory_ref=ffs.getHeapMemorySize()
- self.assertIn(heap_memory_ref,xrange(5335,9031+(80+50+1)*strMulFac))
+ self.assertIn(heap_memory_ref,xrange(5335,11507+(80+50+len(ffs))*strMulFac))
ffs.loadArrays()
self.assertEqual(ffs.getHeapMemorySize()-heap_memory_ref,20*70*8*2+70*8*2+50*8*2)
pass
self.assertTrue(params[i].isEqual(params7[i],1e-12)[0])
pass
pass
+
+ def testGlobalNumOnNodes1(self):
+ """Test global number on nodes here. Used by partitionners."""
+ fname="Pyfile112.med"
+ arr=DataArrayDouble(5) ; arr.iota()
+ m=MEDCouplingUMesh.Build1DMeshFromCoords(arr)
+ m.setName("mesh")
+ mm=MEDFileUMesh()
+ mm[0]=m
+ self.assertTrue(not mm.getGlobalNumFieldAtLevel(1))
+ d=DataArrayInt([7,8,9,2,0])
+ dRef=d.deepCopy()
+ mm.setGlobalNumFieldAtLevel(1,d)
+ mm.checkConsistency()
+ self.assertRaises(InterpKernelException,mm.setGlobalNumFieldAtLevel,1,d[::2])
+ mm.checkConsistency()
+ self.assertEqual(d.getHiddenCppPointer(),mm.getGlobalNumFieldAtLevel(1).getHiddenCppPointer())
+ self.assertTrue(mm.getGlobalNumFieldAtLevel(1).isEqual(dRef))
+ mm.write(fname,2)
+ mm2=MEDFileMesh.New(fname)
+ self.assertTrue(mm.isEqual(mm2,1e-12)[0])
+ self.assertTrue(mm2.getGlobalNumFieldAtLevel(1).isEqual(dRef))
+ mm2.getGlobalNumFieldAtLevel(1).setIJ(0,0,10)
+ self.assertTrue(not mm.isEqual(mm2,1e-12)[0])
+ mm2.getGlobalNumFieldAtLevel(1).setIJ(0,0,7)
+ self.assertTrue(mm.isEqual(mm2,1e-12)[0])
+ pass
+
+ def testPartialReadOfEntities1(self):
+ """Test for advanced API on read to speed up read phase for users with "huge" number of time steps (more than 10 000)."""
+ fname="Pyfile113.med"
+ arr=DataArrayDouble(5) ; arr.iota()
+ m=MEDCouplingUMesh.Build1DMeshFromCoords(arr)
+ m.setName("mesh")
+ mm=MEDFileUMesh()
+ mm[0]=m
+ #
+ fieldName="Field"
+ ts1=(5.,1,2)
+ f1=MEDCouplingFieldDouble(ON_NODES) ; f1.setMesh(m) ; f1.setName(fieldName)
+ f1.setArray(DataArrayDouble([0.,0.1,0.2,0.3,0.4]))
+ f1.setTime(*ts1)
+ f2=MEDCouplingFieldDouble(ON_CELLS) ; f2.setMesh(m) ; f2.setName(fieldName)
+ f2.setArray(DataArrayDouble([1.,1.1,1.2,1.3]))
+ f2.setTime(*ts1)
+ f1ts=MEDFileField1TS()
+ f1ts.setFieldNoProfileSBT(f1)
+ f1ts.setFieldNoProfileSBT(f2)
+ self.assertEqual(set(f1ts.getTypesOfFieldAvailable()),set([ON_NODES,ON_CELLS]))
+ f1ts_2=f1ts.deepCopy()
+ f1ts_2.getUndergroundDataArray()[:]+=2
+ f1ts_2.setTime(3,4,6.)
+ fmts=MEDFileFieldMultiTS()
+ fmts.pushBackTimeStep(f1ts)
+ fmts.pushBackTimeStep(f1ts_2)
+ #
+ mm.write(fname,2)
+ fmts.write(fname,0)
+ #
+ ent=MEDFileEntities.BuildFrom([(ON_NODES,NORM_ERROR)])
+ mm=MEDFileMesh.New(fname)
+ fs=MEDFileFields(fname,False,ent) # the important line is here - We specify to MEDFileFields to read only nodes part to speed up read phase (by avoiding to scan all entities time geo types)
+ fs.loadArrays()
+ self.assertEqual(len(fs),1)
+ fmts=fs[0]
+ self.assertEqual(len(fmts),2)
+ ff0=fmts[0] ; ff1=fmts[1]
+ self.assertEqual(ff0.getTypesOfFieldAvailable(),[ON_NODES]) # only NODES have been loaded
+ self.assertTrue(ff0.field(mm).isEqual(f1,1e-12,1e-12))
+ f3=f1.deepCopy() ; f3+=2. ; f3.setTime(6.,3,4)
+ self.assertTrue(ff1.field(mm).isEqual(f3,1e-12,1e-12))
+ pass
pass