def setUp(self):
    """
    Setup for test.
    """
    TestTri3.setUp(self)
    self.nverticesO = self.mesh['nvertices']

    # Fault x
    self.mesh['nvertices'] += 9
    self.faultMeshX = {'nvertices': 9,
                      'spaceDim': 2,
                      'ncells': 8,
                      'ncorners': 2}
    # Fault y
    self.mesh['nvertices'] += 1
    self.faultMeshY = {'nvertices': 3,
                      'spaceDim': 2,
                      'ncells': 2,
                      'ncorners': 2}

    run_pylith()
    self.outputRoot = "faultsintersect"

    self.soln = AnalyticalSoln()
    return
Example #2
0
    def setUp(self):
        """
    Setup for test.
    """
        TestTri3.setUp(self)
        self.nverticesO = self.mesh['nvertices']

        # Fault x
        self.mesh['nvertices'] += 9
        self.faultMeshX = {
            'nvertices': 9,
            'spaceDim': 2,
            'ncells': 8,
            'ncorners': 2
        }
        # Fault y
        self.mesh['nvertices'] += 1
        self.faultMeshY = {
            'nvertices': 3,
            'spaceDim': 2,
            'ncells': 2,
            'ncorners': 2
        }

        run_pylith(FaultsIntersectApp)
        self.outputRoot = "faultsintersect"

        self.soln = AnalyticalSoln()
        return
    def setUp(self):
        """
    Setup for test.
    """
        TestTri3.setUp(self)
        self.mesh = {
            'ncells': 142 * 4,
            'ncorners': 3,
            'nvertices': 317,
            'spaceDim': 2,
            'tensorSize': 3
        }
        self.nverticesO = self.mesh['nvertices']
        self.mesh['nvertices'] += 3
        self.faultMesh = {
            'nvertices': 5,
            'spaceDim': 2,
            'ncells': 2 * 2,
            'ncorners': 2
        }
        run_pylith(ShearApp, GenerateDB, nprocs=3)
        self.outputRoot = "sheardispnosliprefine"

        self.soln = AnalyticalSoln()
        return
Example #4
0
 def setUp(self):
     """
 Setup for test.
 """
     TestTri3.setUp(self)
     run_pylith(ShearApp, GenerateDB)
     self.outputRoot = "sheardisp"
     self.soln = AnalyticalSoln()
     return
Example #5
0
 def setUp(self):
   """
   Setup for test.
   """
   TestTri3.setUp(self)
   run_pylith()
   self.outputRoot = "sheardisp"
   self.soln = AnalyticalSoln()
   return
Example #6
0
  def setUp(self):
    """
    Setup for test.
    """
    TestTri3.setUp(self)
    run_pylith(AxialApp, GenerateDB)
    self.outputRoot = "axialdisp"

    self.soln = AnalyticalSoln()
    return
Example #7
0
    def setUp(self):
        """
    Setup for test.
    """
        TestTri3.setUp(self)
        run_pylith(FaultXApp, GenDBFaultX, nprocs=5)
        self.mesh['nvertices'] += 17
        self.outputRoot = "faultx"

        self.soln = SolnFaultX()
        return
Example #8
0
    def setUp(self):
        """
    Setup for test.
    """
        TestTri3.setUp(self)
        run_pylith(FaultXYPApp, GenDBFaultXYP, nprocs=3)
        self.mesh['nvertices'] += 23
        self.outputRoot = "faultxyp"

        self.soln = SolnFaultXYP()
        return
Example #9
0
  def setUp(self):
    """
    Setup for test.
    """
    TestTri3.setUp(self)
    run_pylith(FaultXApp, GenDBFaultX, nprocs=5)
    self.mesh['nvertices'] += 17
    self.outputRoot = "faultx"

    self.soln = SolnFaultX()
    return
Example #10
0
  def setUp(self):
    """
    Setup for test.
    """
    TestTri3.setUp(self)
    run_pylith()
    self.mesh['nvertices'] += 23
    self.outputRoot = "faultxyn"

    self.soln = AnalyticalSoln()
    return
Example #11
0
  def setUp(self):
    """
    Setup for test.
    """
    TestTri3.setUp(self)
    run_pylith(FaultXYPApp, GenDBFaultXYP, nprocs=3)
    self.mesh['nvertices'] += 23
    self.outputRoot = "faultxyp"

    self.soln = SolnFaultXYP()
    return
Example #12
0
 def setUp(self):
   """
   Setup for test.
   """
   TestTri3.setUp(self)
   run_pylith()
   self.outputRoot = "axialdisp"
   if has_vtk():
     self.reader = VTKDataReader()
     self.soln = AnalyticalSoln()
   else:
     self.reader = None
   return
  def setUp(self):
    """
    Setup for test.
    """
    TestTri3.setUp(self)
    self.nverticesO = self.mesh['nvertices']
    self.mesh['nvertices'] += 1
    self.faultMesh = {'nvertices': 3,
                      'spaceDim': 2,
                      'ncells': 2,
                      'ncorners': 2}
    run_pylith()
    self.outputRoot = "sheardispfriction"

    self.soln = AnalyticalSoln()
    return
Example #14
0
  def setUp(self):
    """
    Setup for test.
    """
    TestTri3.setUp(self)
    self.nverticesO = self.mesh['nvertices']
    self.mesh['nvertices'] += 2*9
    self.faultMesh = {'nvertices': 9,
                      'spaceDim': 2,
                      'ncells': 8,
                      'ncorners': 2}
    run_pylith(SlipTwoFaultsApp)
    self.outputRoot = "sliptwofaults"

    self.soln = AnalyticalSoln()
    return
Example #15
0
  def setUp(self):
    """
    Setup for test.
    """
    TestTri3.setUp(self)
    self.nverticesO = self.mesh['nvertices']
    self.mesh['nvertices'] += 1
    self.faultMesh = {'nvertices': 3,
                      'spaceDim': 2,
                      'ncells': 2,
                      'ncorners': 2}
    run_pylith(ShearApp, GenerateDB, nprocs=2)
    self.outputRoot = "sheardispnoslip"

    self.soln = AnalyticalSoln()
    return
Example #16
0
  def setUp(self):
    """
    Setup for test.
    """
    TestTri3.setUp(self)
    self.nverticesO = self.mesh['nvertices']
    self.mesh['nvertices'] += 1
    self.faultMesh = {'nvertices': 3,
                      'spaceDim': 2,
                      'ncells': 2,
                      'ncorners': 2}
    run_pylith(ShearApp, GenerateDB, nprocs=3)
    self.outputRoot = "sheardispfriction"

    self.soln = AnalyticalSoln()
    return
Example #17
0
  def setUp(self):
    """
    Setup for test.
    """
    TestTri3.setUp(self)
    self.nverticesO = self.mesh['nvertices']
    self.mesh['nvertices'] += 9
    self.faultMesh = {'nvertices': 9,
                      'spaceDim': 2,
                      'ncells': 8,
                      'ncorners': 2}
    run_pylith()
    self.outputRoot = "sliponefault"

    self.soln = AnalyticalSoln()
    return
  def setUp(self):
    """
    Setup for test.
    """
    TestTri3.setUp(self)
    self.mesh = {'ncells': 142*4,
                 'ncorners': 3,
                 'nvertices': 317,
                 'spaceDim': 2,
                 'tensorSize': 3}
    self.nverticesO = self.mesh['nvertices']
    self.mesh['nvertices'] += 3
    self.faultMesh = {'nvertices': 5,
                      'spaceDim': 2,
                      'ncells': 2*2,
                      'ncorners': 2}
    run_pylith()
    self.outputRoot = "sheardispnosliprefine"

    self.soln = AnalyticalSoln()
    return