本文整理汇总了Python中spatialdata.geocoords.CSCart.CSCart.spaceDim方法的典型用法代码示例。如果您正苦于以下问题:Python CSCart.spaceDim方法的具体用法?Python CSCart.spaceDim怎么用?Python CSCart.spaceDim使用的例子?那么恭喜您, 这里精选的方法代码示例或许可以为您提供帮助。您也可以进一步了解该方法所在类spatialdata.geocoords.CSCart.CSCart的用法示例。
在下文中一共展示了CSCart.spaceDim方法的7个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于系统推荐出更棒的Python代码示例。
示例1: _initialize
# 需要导入模块: from spatialdata.geocoords.CSCart import CSCart [as 别名]
# 或者: from spatialdata.geocoords.CSCart.CSCart import spaceDim [as 别名]
def _initialize(self):
"""
Initialize DirichletBoundary boundary condition.
"""
from spatialdata.geocoords.CSCart import CSCart
cs = CSCart()
cs.inventory.spaceDim = 2
cs._configure()
from spatialdata.units.Nondimensional import Nondimensional
normalizer = Nondimensional()
normalizer._configure()
from pylith.meshio.MeshIOAscii import MeshIOAscii
importer = MeshIOAscii()
importer.inventory.filename = "data/tri3.mesh"
importer.inventory.coordsys = cs
importer._configure()
mesh = importer.read(debug=False, interpolate=False)
from spatialdata.spatialdb.SimpleDB import SimpleDB
db = SimpleDB()
db.inventory.label = "TestDirichletBoundary tri3"
db.inventory.iohandler.inventory.filename = "data/tri3_disp.spatialdb"
db.inventory.iohandler._configure()
db._configure()
from spatialdata.spatialdb.SimpleDB import SimpleDB
dbRate = SimpleDB()
dbRate.inventory.label = "TestDirichletBoundary tri3"
dbRate.inventory.iohandler.inventory.filename = "data/tri3_vel.spatialdb"
dbRate.inventory.iohandler._configure()
dbRate._configure()
from pylith.bc.DirichletBoundary import DirichletBoundary
bc = DirichletBoundary()
bc.inventory.output._configure()
bc.inventory.output.writer._configure()
bc.inventory.label = "bc"
bc.inventory.bcDOF = [1]
bc.inventory.dbInitial = db
bc.inventory.dbRate = dbRate
bc._configure()
bc.preinitialize(mesh)
bc.initialize(totalTime=0.0, numTimeSteps=1, normalizer=normalizer)
# Setup field
from pylith.topology.Field import Field
field = Field(mesh)
field.newSection(field.VERTICES_FIELD, cs.spaceDim())
return (mesh, bc, field)示例2: test_initialize
# 需要导入模块: from spatialdata.geocoords.CSCart import CSCart [as 别名]
# 或者: from spatialdata.geocoords.CSCart.CSCart import spaceDim [as 别名]
def test_initialize(self):
from spatialdata.geocoords.CSCart import CSCart
cs = CSCart()
cs.inventory.units = "km"
cs.inventory.spaceDim = 2
cs._configure()
cs.initialize()
self.assertEqual(1.0e+3, cs.toMeters())
self.assertEqual(2, cs.spaceDim())
return示例3: test_coordsys
# 需要导入模块: from spatialdata.geocoords.CSCart import CSCart [as 别名]
# 或者: from spatialdata.geocoords.CSCart.CSCart import spaceDim [as 别名]
def test_coordsys(self):
"""
Test coordsys().
"""
from spatialdata.geocoords.CSCart import CSCart
cs = CSCart()
cs.inventory.spaceDim = 2
cs._configure()
mesh = Mesh()
mesh.coordsys(cs)
self.assertEqual(cs.spaceDim(), mesh.coordsys().spaceDim())
return示例4: _initialize
# 需要导入模块: from spatialdata.geocoords.CSCart import CSCart [as 别名]
# 或者: from spatialdata.geocoords.CSCart.CSCart import spaceDim [as 别名]
def _initialize(self):
"""
Initialize AbsorbingDampers boundary condition.
"""
from spatialdata.spatialdb.SimpleDB import SimpleDB
db = SimpleDB()
db.inventory.label = "TestAbsorbingDampers tri3"
db.inventory.iohandler.inventory.filename = \
"data/elasticplanestrain.spatialdb"
db.inventory.iohandler._configure()
db._configure()
from pylith.feassemble.FIATSimplex import FIATSimplex
cell = FIATSimplex()
cell.inventory.dimension = 1
cell.inventory.degree = 1
cell.inventory.order = 1
cell._configure()
from pylith.feassemble.Quadrature import Quadrature
quadrature = Quadrature()
quadrature.inventory.cell = cell
quadrature._configure()
from pylith.bc.AbsorbingDampers import AbsorbingDampers
bc = AbsorbingDampers()
bc.inventory.quadrature = quadrature
bc.inventory.db = db
bc.inventory.id = 0
bc.inventory.label = "bc"
bc._configure()
from spatialdata.geocoords.CSCart import CSCart
cs = CSCart()
cs.inventory.spaceDim = 2
cs._configure()
from spatialdata.units.Nondimensional import Nondimensional
normalizer = Nondimensional()
normalizer._configure()
from pylith.meshio.MeshIOAscii import MeshIOAscii
importer = MeshIOAscii()
importer.inventory.filename = "data/tri3.mesh"
importer.inventory.coordsys = cs
importer._configure()
mesh = importer.read(debug=False, interpolate=False)
bc.preinitialize(mesh)
bc.initialize(totalTime=0.0, numTimeSteps=1, normalizer=normalizer)
bc.timeStep(0.01)
# Setup fields
from pylith.topology.SolutionFields import SolutionFields
fields = SolutionFields(mesh)
fields.add("residual", "residual")
fields.add("dispIncr(t->t+dt)", "displacement")
fields.add("disp(t)", "displacement")
fields.add("disp(t-dt)", "displacement")
fields.add("velocity(t)", "velocity")
fields.solutionName("dispIncr(t->t+dt)")
residual = fields.get("residual")
residual.newSection(residual.VERTICES_FIELD, cs.spaceDim())
residual.allocate()
residual.zero()
fields.copyLayout("residual")
return (mesh, bc, fields)示例5: _initialize
# 需要导入模块: from spatialdata.geocoords.CSCart import CSCart [as 别名]
# 或者: from spatialdata.geocoords.CSCart.CSCart import spaceDim [as 别名]
def _initialize(self):
"""
Initialize fault.
"""
dt = 2.4
from spatialdata.units.Nondimensional import Nondimensional
normalizer = Nondimensional()
normalizer._configure()
# Setup mesh
cs = CSCart()
cs.inventory.spaceDim = 2
cs._configure()
from pylith.meshio.MeshIOAscii import MeshIOAscii
importer = MeshIOAscii()
importer.inventory.filename = "data/tri3.mesh"
importer.inventory.coordsys = cs
importer._configure()
mesh = importer.read(debug=False, interpolate=False)
# Setup quadrature
from pylith.feassemble.FIATSimplex import FIATSimplex
cell = FIATSimplex()
cell.inventory.dimension = 1
cell.inventory.degree = 1
cell.inventory.order = 1
cell._configure()
from pylith.feassemble.Quadrature import Quadrature
quadrature = Quadrature()
quadrature.inventory.cell = cell
quadrature._configure()
# Setup rupture info
from spatialdata.spatialdb.SimpleDB import SimpleDB
from spatialdata.spatialdb.SimpleIOAscii import SimpleIOAscii
ioTractions = SimpleIOAscii()
ioTractions.inventory.filename = "data/tri3_initialtractions.spatialdb"
ioTractions._configure()
dbTractions = SimpleDB()
dbTractions.inventory.iohandler = ioTractions
dbTractions.inventory.label = "initial tractions"
dbTractions._configure()
from pylith.faults.TractPerturbation import TractPerturbation
tract = TractPerturbation()
tract.inventory.dbInitial = dbTractions
tract._configure()
ioFriction = SimpleIOAscii()
ioFriction.inventory.filename = "data/tri3_staticfriction.spatialdb"
ioFriction._configure()
dbFriction = SimpleDB()
dbFriction.inventory.iohandler = ioFriction
dbFriction.inventory.label = "friction"
dbFriction._configure()
from pylith.friction.StaticFriction import StaticFriction
friction = StaticFriction()
friction.inventory.label = "Static friction"
friction.inventory.dbProperties = dbFriction
friction._configure()
# Setup fault
fault = FaultCohesiveDyn()
fault.inventory.output.inventory.writer._configure()
fault.inventory.output._configure()
fault.inventory.matId = 10
fault.inventory.faultLabel = "fault"
fault.inventory.upDir = [0, 0, 1]
fault.inventory.faultQuadrature = quadrature
fault.inventory.tract = tract
fault.inventory.friction = friction
fault._configure()
nvertices = fault.numVerticesNoMesh(mesh)
firstFaultVertex = 0
firstLagrangeVertex = nvertices
firstFaultCell = 2*nvertices
fault.adjustTopology(mesh, firstFaultVertex, firstLagrangeVertex,
firstFaultCell)
from pylith.topology.topology import MeshOps_nondimensionalize
MeshOps_nondimensionalize(mesh, normalizer)
fault.preinitialize(mesh)
fault.timeStep(dt)
fault.verifyConfiguration()
from pyre.units.time import s
fault.initialize(totalTime=0.0*s, numTimeSteps=1, normalizer=normalizer)
# Setup fields
from pylith.topology.SolutionFields import SolutionFields
fields = SolutionFields(mesh)
fields.add("residual", "residual")
fields.add("dispIncr(t->t+dt)", "displacement_increment")
fields.add("disp(t)", "displacement")
fields.add("velocity(t)", "velocity")
fields.solutionName("dispIncr(t->t+dt)")
residual = fields.get("residual")
#.........这里部分代码省略.........
示例6: _initialize
# 需要导入模块: from spatialdata.geocoords.CSCart import CSCart [as 别名]
# 或者: from spatialdata.geocoords.CSCart.CSCart import spaceDim [as 别名]
def _initialize(self):
"""
Initialize fault.
"""
dt = 2.4
from spatialdata.units.Nondimensional import Nondimensional
normalizer = Nondimensional()
normalizer._configure()
# Setup mesh
cs = CSCart()
cs.inventory.spaceDim = 2
cs._configure()
from pylith.meshio.MeshIOAscii import MeshIOAscii
importer = MeshIOAscii()
importer.inventory.filename = "data/tri3.mesh"
importer.inventory.coordsys = cs
importer._configure()
mesh = importer.read(debug=False, interpolate=False)
# Setup quadrature
from pylith.feassemble.FIATSimplex import FIATSimplex
cell = FIATSimplex()
cell.inventory.dimension = 1
cell.inventory.degree = 1
cell.inventory.order = 1
cell._configure()
from pylith.feassemble.Quadrature import Quadrature
quadrature = Quadrature()
quadrature.inventory.cell = cell
quadrature._configure()
# Setup earthquake source
from spatialdata.spatialdb.SimpleDB import SimpleDB
from spatialdata.spatialdb.SimpleIOAscii import SimpleIOAscii
ioFinalSlip = SimpleIOAscii()
ioFinalSlip.inventory.filename = "data/tri3_finalslip.spatialdb"
ioFinalSlip._configure()
dbFinalSlip = SimpleDB()
dbFinalSlip.inventory.iohandler = ioFinalSlip
dbFinalSlip.inventory.label = "final slip"
dbFinalSlip._configure()
ioSlipTime = SimpleIOAscii()
ioSlipTime.inventory.filename = "data/tri3_sliptime.spatialdb"
ioSlipTime._configure()
dbSlipTime = SimpleDB()
dbSlipTime.inventory.iohandler = ioSlipTime
dbSlipTime.inventory.label = "slip time"
dbSlipTime._configure()
from pylith.faults.StepSlipFn import StepSlipFn
slipfn = StepSlipFn()
slipfn.inventory.dbSlip = dbFinalSlip
slipfn.inventory.dbSlipTime = dbSlipTime
slipfn._configure()
# Setup fault
fault = FaultCohesiveKin()
fault.inventory.output.inventory.writer._configure()
fault.inventory.output._configure()
fault.inventory.matId = 10
fault.inventory.faultLabel = "fault"
fault.inventory.upDir = [0, 0, 1]
fault.inventory.faultQuadrature = quadrature
fault._configure()
eqsrc = fault.eqsrcs.components()[0]
eqsrc.inventory.originTime = 1.23*second
eqsrc.inventory.slipfn = slipfn
eqsrc._configure()
nvertices = fault.numVerticesNoMesh(mesh)
firstFaultVertex = 0
firstLagrangeVertex = nvertices
firstFaultCell = 2*nvertices
fault.adjustTopology(mesh, firstFaultVertex, firstLagrangeVertex,
firstFaultCell)
fault.preinitialize(mesh)
fault.timeStep(dt)
fault.verifyConfiguration()
from pyre.units.time import s
fault.initialize(totalTime=0.0*s, numTimeSteps=1, normalizer=normalizer)
# Setup fields
from pylith.topology.SolutionFields import SolutionFields
fields = SolutionFields(mesh)
fields.add("residual", "residual")
fields.add("dispIncr(t->t+dt)", "displacement_increment")
fields.add("disp(t)", "displacement")
fields.solutionName("dispIncr(t->t+dt)")
residual = fields.get("residual")
residual.subfieldAdd("displacement", cs.spaceDim(), residual.VECTOR)
residual.subfieldAdd("lagrange_multiplier", cs.spaceDim(), residual.VECTOR)
residual.subfieldsSetup()
residual.setupSolnChart()
residual.setupSolnDof(cs.spaceDim())
fault.setupSolnDof(residual)
#.........这里部分代码省略.........
示例7: _initialize
# 需要导入模块: from spatialdata.geocoords.CSCart import CSCart [as 别名]
# 或者: from spatialdata.geocoords.CSCart.CSCart import spaceDim [as 别名]
def _initialize(self):
"""
Initialize fault.
"""
dt = 2.4
from spatialdata.units.Nondimensional import Nondimensional
normalizer = Nondimensional()
normalizer._configure()
# Setup mesh
cs = CSCart()
cs.inventory.spaceDim = 2
cs._configure()
from pylith.meshio.MeshIOAscii import MeshIOAscii
importer = MeshIOAscii()
importer.inventory.filename = "data/tri3.mesh"
importer.inventory.coordsys = cs
importer._configure()
mesh = importer.read(debug=False, interpolate=False)
# Setup quadrature
from pylith.feassemble.FIATSimplex import FIATSimplex
cell = FIATSimplex()
cell.inventory.dimension = 1
cell.inventory.degree = 1
cell.inventory.order = 1
cell._configure()
from pylith.feassemble.Quadrature import Quadrature
quadrature = Quadrature()
quadrature.inventory.cell = cell
quadrature._configure()
# Setup impulses
from spatialdata.spatialdb.SimpleDB import SimpleDB
from spatialdata.spatialdb.SimpleIOAscii import SimpleIOAscii
ioImpulseAmp = SimpleIOAscii()
ioImpulseAmp.inventory.filename = "data/tri3_impulses.spatialdb"
ioImpulseAmp._configure()
dbImpulseAmp = SimpleDB()
dbImpulseAmp.inventory.iohandler = ioImpulseAmp
dbImpulseAmp.inventory.label = "impulse amplitude"
dbImpulseAmp._configure()
# Setup fault
fault = FaultCohesiveImpulses()
fault.inventory.output.inventory.writer._configure()
fault.inventory.output._configure()
fault.inventory.matId = 10
fault.inventory.faultLabel = "fault"
fault.inventory.upDir = [0, 0, 1]
fault.inventory.faultQuadrature = quadrature
fault.inventory.dbImpulseAmp = dbImpulseAmp
fault._configure()
nvertices = fault.numVerticesNoMesh(mesh)
firstFaultVertex = 0
firstLagrangeVertex = nvertices
firstFaultCell = 2*nvertices
fault.adjustTopology(mesh, firstFaultVertex, firstLagrangeVertex,
firstFaultCell)
fault.preinitialize(mesh)
fault.timeStep(dt)
fault.verifyConfiguration()
from pyre.units.time import s
fault.initialize(totalTime=0.0*s, numTimeSteps=1, normalizer=normalizer)
# Setup fields
from pylith.topology.SolutionFields import SolutionFields
fields = SolutionFields(mesh)
fields.add("residual", "residual")
fields.add("dispIncr(t->t+dt)", "displacement_increment")
fields.add("disp(t)", "displacement")
fields.solutionName("dispIncr(t->t+dt)")
residual = fields.get("residual")
residual.newSection(residual.VERTICES_FIELD, cs.spaceDim())
residual.allocate()
residual.zero()
fields.copyLayout("residual")
return (mesh, fault, fields)