def test_Linfty(): domain = setupStepGauss() mesh = InterpolatedBathymetryMesh(domain,triangleOptions="gVApq30Dena%8.8f" % (0.5**3,),maxLevels=25,maxNodes=50000,normType="Linfty") archive = XdmfArchive(dataDir='.',filename="interpolatedBathySimpleTest_Linfty_") archive.domain = ElementTree.SubElement(archive.tree.getroot(),"Domain") mesh.meshList[-1].writeMeshXdmf(ar=archive,init=True) archive.close()
def test_L2_interp_grid(): domain = setupStepGauss() mesh = InterpolatedBathymetryMesh(domain,triangleOptions="gVApq30Dena%8.8f" % (0.5**3,),atol=1.0e-1,rtol=1.0e-1,maxLevels=25,maxNodes=50000, bathyType="grid",bathyAssignmentScheme="interpolation",errorNormType="L2") archive = XdmfArchive(dataDir='.',filename="interpolatedBathySimpleTest_grid_L2_interp_", global_sync=False) archive.domain = ElementTree.SubElement(archive.tree.getroot(),"Domain") mesh.meshList[-1].writeMeshXdmf(ar=archive,init=True) archive.sync(); archive.close()
def test_L1(): domain = setupStepGauss() mesh = InterpolatedBathymetryMesh(domain,triangleOptions="gVApq30Dena%8.8f" % (0.5**3,),atol=1.0e-3,rtol=1.0e-3,maxLevels=25,maxNodes=50000, bathyType="points",bathyAssignmentScheme="localAveraging",errorNormType="L1") archive = XdmfArchive(dataDir='.',filename="interpolatedBathySimpleTest_L1_") archive.domain = ElementTree.SubElement(archive.tree.getroot(),"Domain") mesh.meshList[-1].writeMeshXdmf(ar=archive,init=True) archive.close()
def test_Linfty(self): domain = self.setupStepGauss() mesh = InterpolatedBathymetryMesh(domain, triangleOptions="gVApq30Dena%8.8f" % (0.5**3,), atol=1.0e-1,rtol=1.0e-1, maxLevels=25, maxNodes=50000, bathyType="points", bathyAssignmentScheme="localAveraging", errorNormType="Linfty") outfile = "interpolatedBathySimpleTest_Linfty_" archive = XdmfArchive(dataDir='.',filename=outfile, global_sync=False) archive.domain = ElementTree.SubElement(archive.tree.getroot(),"Domain") mesh.meshList[-1].writeMeshXdmf(ar=archive,init=True) archive.sync(); archive.close() self.aux_names.append(outfile)
def test_Linfty(): domain = setupStepGauss() mesh = InterpolatedBathymetryMesh(domain, triangleOptions="gVApq30Dena%8.8f" % (0.5**3, ), atol=1.0e-3, rtol=1.0e-3, maxLevels=25, maxNodes=50000, bathyType="points", bathyAssignmentScheme="localAveraging", errorNormType="Linfty") archive = XdmfArchive(dataDir='.', filename="interpolatedBathySimpleTest_Linfty_") archive.domain = ElementTree.SubElement(archive.tree.getroot(), "Domain") mesh.meshList[-1].writeMeshXdmf(ar=archive, init=True) archive.close()
def test_L2_interp_grid(): domain = setupStepGauss() mesh = InterpolatedBathymetryMesh(domain, triangleOptions="gVApq30Dena%8.8f" % (0.5**3, ), atol=1.0e-1, rtol=1.0e-1, maxLevels=25, maxNodes=50000, bathyType="grid", bathyAssignmentScheme="interpolation", errorNormType="L2") archive = XdmfArchive( dataDir='.', filename="interpolatedBathySimpleTest_grid_L2_interp_", global_sync=False) archive.domain = ElementTree.SubElement(archive.tree.getroot(), "Domain") mesh.meshList[-1].writeMeshXdmf(ar=archive, init=True) archive.sync() archive.close()
def test_L1(self): domain = self.setupStepGauss() mesh = InterpolatedBathymetryMesh( domain, triangleOptions="gVApq30Dena%8.8f" % (0.5**3, ), atol=1.0e-1, rtol=1.0e-1, maxLevels=25, maxNodes=50000, bathyType="points", bathyAssignmentScheme="localAveraging", errorNormType="L1") outfile = "interpolatedBathySimpleTest_L1_" archive = XdmfArchive(dataDir='.', filename=outfile, global_sync=False) archive.domain = ElementTree.SubElement(archive.tree.getroot(), "Domain") mesh.meshList[-1].writeMeshXdmf(ar=archive, init=True) archive.sync() archive.close() self.aux_names.append(outfile)