def setUp(self):
"""
Setup for test.
"""
TestTet4.setUp(self)
self.nverticesO = self.mesh['nvertices']
# Fault x
self.mesh['nvertices'] += 8
self.faultMeshX = {'nvertices': 19,
'spaceDim': 3,
'ncells': 20,
'ncorners': 3}
# Fault y
self.mesh['nvertices'] += 2
self.faultMeshY = {'nvertices': 9,
'spaceDim': 3,
'ncells': 8,
'ncorners': 3}
run_pylith()
self.outputRoot = "faultsintersectnoslip"
self.soln = AnalyticalSoln()
return
def setUp(self):
"""
Setup for test.
"""
TestTet4.setUp(self)
self.nverticesO = self.mesh['nvertices']
# Fault x
self.mesh['nvertices'] += 50
self.faultMeshX = {
'nvertices': 50,
'spaceDim': 3,
'ncells': 72,
'ncorners': 3
}
# Fault y
self.mesh['nvertices'] += 2
self.faultMeshY = {
'nvertices': 9,
'spaceDim': 3,
'ncells': 8,
'ncorners': 3
}
run_pylith(FaultsIntersectApp)
self.outputRoot = "faultsintersect"
self.soln = AnalyticalSoln()
return
def setUp(self):
"""
Setup for test.
"""
TestTet4.setUp(self)
self.mesh = {
'ncells-elastic': 1266 * 8,
'ncells-viscoelastic': 1276 * 8,
'ncorners': 4,
'nvertices': 4016,
'spaceDim': 3,
'tensorSize': 6
}
self.nverticesO = self.mesh['nvertices']
self.mesh['nvertices'] += 36
self.faultMesh = {
'nvertices': 57,
'spaceDim': 3,
'ncells': 80,
'ncorners': 3
}
run_pylith(ShearApp, GenerateDB, nprocs=4)
self.outputRoot = "sheardispnosliprefine"
self.soln = AnalyticalSoln()
return
def setUp(self):
"""
Setup for test.
"""
TestTet4.setUp(self)
self.nverticesO = self.mesh['nvertices']
# Fault x
self.mesh['nvertices'] += 8
self.faultMeshX = {
'nvertices': 19,
'spaceDim': 3,
'ncells': 20,
'ncorners': 3
}
# Fault y
self.mesh['nvertices'] += 2
self.faultMeshY = {
'nvertices': 9,
'spaceDim': 3,
'ncells': 8,
'ncorners': 3
}
run_pylith(FaultsIntersectNoSlipApp, GenerateDB)
self.outputRoot = "faultsintersectnoslip"
self.soln = AnalyticalSoln()
return
def setUp(self):
"""
Setup for test.
"""
TestTet4.setUp(self)
run_pylith()
self.outputRoot = "sheardisp"
self.soln = AnalyticalSoln()
return
def setUp(self):
"""
Setup for test.
"""
TestTet4.setUp(self)
run_pylith(AxialApp, GenerateDB)
self.outputRoot = "axialdisp"
self.soln = AnalyticalSoln()
return
def setUp(self):
"""
Setup for test.
"""
TestTet4.setUp(self)
self.nverticesO = self.mesh["nvertices"]
self.mesh["nvertices"] += 50 + 49
self.faultMesh1 = {"nvertices": 50, "spaceDim": 3, "ncells": 72, "ncorners": 3}
self.faultMesh2 = {"nvertices": 49, "spaceDim": 3, "ncells": 72, "ncorners": 3}
run_pylith()
self.outputRoot = "sliptwofaults_np2"
self.soln = AnalyticalSoln()
return
def setUp(self):
"""
Setup for test.
"""
TestTet4.setUp(self)
self.nverticesO = self.mesh['nvertices']
self.mesh['nvertices'] += 8
self.faultMesh = {'nvertices': 19,
'spaceDim': 3,
'ncells': 20,
'ncorners': 3}
run_pylith()
self.outputRoot = "sheardispnoslip"
self.soln = AnalyticalSoln()
return
def setUp(self):
"""
Setup for test.
"""
TestTet4.setUp(self)
self.nverticesO = self.mesh['nvertices']
self.mesh['nvertices'] += 50
self.faultMesh = {'nvertices': 50,
'spaceDim': 3,
'ncells': 72,
'ncorners': 3}
run_pylith()
self.outputRoot = "sliponefault"
self.soln = AnalyticalSoln()
return
def setUp(self):
"""
Setup for test.
"""
TestTet4.setUp(self)
self.nverticesO = self.mesh['nvertices']
self.mesh['nvertices'] += 8
self.faultMesh = {'nvertices': 19,
'spaceDim': 3,
'ncells': 20,
'ncorners': 3}
run_pylith(ShearApp, GenerateDB, nprocs=3)
self.outputRoot = "sheardispnoslip"
self.soln = AnalyticalSoln()
return
def setUp(self):
"""
Setup for test.
"""
TestTet4.setUp(self)
self.nverticesO = self.mesh['nvertices']
self.mesh['nvertices'] += 50
self.faultMesh = {'nvertices': 50,
'spaceDim': 3,
'ncells': 72,
'ncorners': 3}
run_pylith(SlipOneFaultApp)
self.outputRoot = "sliponefault"
self.soln = AnalyticalSoln()
return
def setUp(self):
"""
Setup for test.
"""
TestTet4.setUp(self)
self.nverticesO = self.mesh['nvertices']
self.mesh['nvertices'] += 50+49
self.faultMesh1 = {'nvertices': 50,
'spaceDim': 3,
'ncells': 72,
'ncorners': 3}
self.faultMesh2 = {'nvertices': 49,
'spaceDim': 3,
'ncells': 72,
'ncorners': 3}
run_pylith(SlipTwoFaultsApp)
self.outputRoot = "sliptwofaults"
self.soln = AnalyticalSoln()
return
def setUp(self):
"""
Setup for test.
"""
TestTet4.setUp(self)
self.mesh = {'ncells-elastic': 1266*8,
'ncells-viscoelastic': 1276*8,
'ncorners': 4,
'nvertices': 4016,
'spaceDim': 3,
'tensorSize': 6}
self.nverticesO = self.mesh['nvertices']
self.mesh['nvertices'] += 36
self.faultMesh = {'nvertices': 57,
'spaceDim': 3,
'ncells': 80,
'ncorners': 3}
run_pylith()
self.outputRoot = "sheardispnosliprefine"
self.soln = AnalyticalSoln()
return
def setUp(self):
"""
Setup for test.
"""
TestTet4.setUp(self)
self.nverticesO = self.mesh['nvertices']
self.mesh['nvertices'] += 50 + 49
self.faultMesh1 = {
'nvertices': 50,
'spaceDim': 3,
'ncells': 72,
'ncorners': 3
}
self.faultMesh2 = {
'nvertices': 49,
'spaceDim': 3,
'ncells': 72,
'ncorners': 3
}
run_pylith(SlipTwoFaultsApp)
self.outputRoot = "sliptwofaults"
self.soln = AnalyticalSoln()
return