本文整理汇总了Python中spatialdata.spatialdb.SimpleIOAscii.SimpleIOAscii._configure方法的典型用法代码示例。如果您正苦于以下问题:Python SimpleIOAscii._configure方法的具体用法?Python SimpleIOAscii._configure怎么用?Python SimpleIOAscii._configure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.spatialdb.SimpleIOAscii.SimpleIOAscii的用法示例。
在下文中一共展示了SimpleIOAscii._configure方法的15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: test_initialize
# 需要导入模块: from spatialdata.spatialdb.SimpleIOAscii import SimpleIOAscii [as 别名]
# 或者: from spatialdata.spatialdb.SimpleIOAscii.SimpleIOAscii import _configure [as 别名]
def test_initialize(self):
"""
Test initialize().
"""
from spatialdata.spatialdb.SimpleDB import SimpleDB
from spatialdata.spatialdb.SimpleIOAscii import SimpleIOAscii
ioFinalSlip = SimpleIOAscii()
ioFinalSlip.inventory.filename = "finalslip.spatialdb"
ioFinalSlip._configure()
dbFinalSlip = SimpleDB()
dbFinalSlip.inventory.iohandler = ioFinalSlip
dbFinalSlip.inventory.label = "final slip"
dbFinalSlip._configure()
ioSlipTime = SimpleIOAscii()
ioSlipTime.inventory.filename = "sliptime.spatialdb"
ioSlipTime._configure()
dbSlipTime = SimpleDB()
dbSlipTime.inventory.iohandler = ioSlipTime
dbSlipTime.inventory.label = "slip time"
dbSlipTime._configure()
slipFn = StepSlipFn()
slipFn.inventory.dbSlip = dbFinalSlip
slipFn.inventory.dbSlipTime = dbSlipTime
slipFn._configure()
slipFn.preinitialize()
slipFn.verifyConfiguration()
slipFn.initialize()
return示例2: test_configure
# 需要导入模块: from spatialdata.spatialdb.SimpleIOAscii import SimpleIOAscii [as 别名]
# 或者: from spatialdata.spatialdb.SimpleIOAscii.SimpleIOAscii import _configure [as 别名]
def test_configure(self):
"""
Test initialize().
"""
from spatialdata.spatialdb.SimpleDB import SimpleDB
from spatialdata.spatialdb.SimpleIOAscii import SimpleIOAscii
from pyre.units.time import second
ioInitial = SimpleIOAscii()
ioInitial.inventory.filename = "tri3_initialtractions.spatialdb"
ioInitial._configure()
dbInitial = SimpleDB()
dbInitial.inventory.iohandler = ioInitial
dbInitial.inventory.label = "initial tractions"
dbInitial._configure()
ioChange = SimpleIOAscii()
ioChange.inventory.filename = "tri3_changetractions.spatialdb"
ioChange._configure()
dbChange = SimpleDB()
dbChange.inventory.iohandler = ioChange
dbChange.inventory.label = "traction change"
dbChange._configure()
tract = TractPerturbation()
tract.inventory.dbInitial = dbInitial
tract.inventory.dbChange = dbChange
tract._configure()
return示例3: getCellSizeDB
# 需要导入模块: from spatialdata.spatialdb.SimpleIOAscii import SimpleIOAscii [as 别名]
# 或者: from spatialdata.spatialdb.SimpleIOAscii.SimpleIOAscii import _configure [as 别名]
def getCellSizeDB(points):
from spatialdata.geocoords.CSCart import CSCart
from spatialdata.spatialdb.SimpleDB import SimpleDB
from spatialdata.spatialdb.SimpleIOAscii import SimpleIOAscii
# Coordinate system for mesh (must match coordsys in ExodusII file)
cs = CSCart()
cs._configure()
cs.initialize()
# Spatial database with physical properties (Vs)
dbIO = SimpleIOAscii()
dbIO.inventory.filename = filenameDB
dbIO._configure()
db = SimpleDB()
db.inventory.iohandler = dbIO
db.inventory.label = "Physical properties"
db.inventory.queryType = "linear"
db._configure()
(npoints, spacedim) = points.shape
# Query database
db.open()
db.queryVals(["vs"])
data = numpy.zeros((npoints, 1), dtype=numpy.float64)
err = numpy.zeros((npoints,), dtype=numpy.int32)
db.multiquery(data, err, points, cs)
db.close()
vs = data[:,0]
cellSize = minPeriod*vs / 10.0
return cellSize示例4: _preinitialize
# 需要导入模块: from spatialdata.spatialdb.SimpleIOAscii import SimpleIOAscii [as 别名]
# 或者: from spatialdata.spatialdb.SimpleIOAscii.SimpleIOAscii import _configure [as 别名]
def _preinitialize(self):
"""
Setup mesh and integrator and preinitialize integrator.
"""
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 material
from pylith.feassemble.FIATSimplex import FIATSimplex
cell = FIATSimplex()
cell.inventory.dimension = 2
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 spatialdata.spatialdb.SimpleDB import SimpleDB
from spatialdata.spatialdb.SimpleIOAscii import SimpleIOAscii
iohandler = SimpleIOAscii()
iohandler.inventory.filename = "data/elasticplanestrain.spatialdb"
iohandler._configure()
db = SimpleDB()
db.inventory.label = "elastic plane strain"
db.inventory.iohandler = iohandler
db._configure()
from pylith.materials.ElasticPlaneStrain import ElasticPlaneStrain
material = ElasticPlaneStrain()
material.inventory.label = "elastic plane strain"
material.inventory.id = 0
material.inventory.dbProperties = db
material.inventory.quadrature = quadrature
material._configure()
from pylith.meshio.OutputMatElastic import OutputMatElastic
material.output = OutputMatElastic()
material.output._configure()
material.output.writer._configure()
# Setup integrator
integrator = ElasticityImplicitLgDeform()
integrator.preinitialize(mesh, material)
return (mesh, integrator)示例5: test_preinitialize
# 需要导入模块: from spatialdata.spatialdb.SimpleIOAscii import SimpleIOAscii [as 别名]
# 或者: from spatialdata.spatialdb.SimpleIOAscii.SimpleIOAscii import _configure [as 别名]
def test_preinitialize(self):
"""
Test preinitialize().
WARNING: This is not a rigorous test of initialize() because we
don't verify the results.
"""
from pylith.feassemble.FIATSimplex import FIATSimplex
cell = FIATSimplex()
cell.inventory.dimension = 2
cell.inventory.order = 1
cell.inventory.degree = 1
cell._configure()
from pylith.feassemble.Quadrature import Quadrature
quadrature = Quadrature()
quadrature.inventory.cell = cell
quadrature.inventory.minJacobian = 1.0e-4
quadrature._configure()
from spatialdata.spatialdb.SimpleDB import SimpleDB
from spatialdata.spatialdb.SimpleIOAscii import SimpleIOAscii
iohandler = SimpleIOAscii()
iohandler.inventory.filename = "data/matinitialize.spatialdb"
iohandler._configure()
db = SimpleDB()
db.inventory.label = "material properties"
db.inventory.iohandler = iohandler
db._configure()
from pylith.materials.ElasticPlaneStrain import ElasticPlaneStrain
material = ElasticPlaneStrain()
material.inventory.quadrature = quadrature
material.inventory.dbProperties = db
material.inventory.label = "my material"
material.inventory.id = 54
material._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/twoelems.mesh"
importer.inventory.coordsys = cs
importer._configure()
mesh = importer.read(debug=False, interpolate=False)
material.preinitialize(mesh)
# No test of result.
return示例6: generate
# 需要导入模块: from spatialdata.spatialdb.SimpleIOAscii import SimpleIOAscii [as 别名]
# 或者: from spatialdata.spatialdb.SimpleIOAscii.SimpleIOAscii import _configure [as 别名]
def generate(sim, fileRoot, materials):
for material in materials:
filenameH5 = "../output/%s-%s.h5" % (sim, material)
filenameDB = "%s-%s.spatialdb" % (fileRoot, material)
# Open HDF5 file and get coordinates, cells, and stress.
h5 = h5py.File(filenameH5, "r")
vertices = h5['geometry/vertices'][:]
cells = numpy.array(h5['topology/cells'][:], dtype=numpy.int)
# Get stresses from final time step.
stress = h5['cell_fields/stress'][-1,:,:]
h5.close()
# Compute coordinates of quadrature points.
quadCoords = getCellCenters(vertices, cells)
# Create writer for spatial database file
writer = SimpleIOAscii()
writer.inventory.filename = filenameDB
writer._configure()
values = [{'name': "stress-xx",
'units': "Pa",
'data': stress[:,0]},
{'name': "stress-yy",
'units': "Pa",
'data': stress[:,1]},
{'name': "stress-zz",
'units': "Pa",
'data': stress[:,2]},
{'name': "stress-xy",
'units': "Pa",
'data': stress[:,3]},
{'name': "stress-yz",
'units': "Pa",
'data': stress[:,4]},
{'name': "stress-xz",
'units': "Pa",
'data': stress[:,5]},
]
writer.write({'points': quadCoords,
'coordsys': cs,
'data_dim': 3,
'values': values})
return示例7: run
# 需要导入模块: from spatialdata.spatialdb.SimpleIOAscii import SimpleIOAscii [as 别名]
# 或者: from spatialdata.spatialdb.SimpleIOAscii.SimpleIOAscii import _configure [as 别名]
def run(self):
"""
Generate the database.
"""
# Domain
x = numpy.arange(-4000.0, 4000.1, 500.0)
y = numpy.arange(-4000.0, 4000.1, 500.0)
z = numpy.arange(-6000.0, 0.1, 500.0)
nxpts = x.shape[0]
nypts = y.shape[0]
nzpts = z.shape[0]
xx = numpy.tile(x, (1,nypts*nzpts))
yy = numpy.tile(y, (nxpts,nzpts)).transpose()
zz = numpy.tile(z, (nxpts*nypts,1)).transpose()
xyz = numpy.zeros( (nxpts*nypts*nzpts, 3), dtype=numpy.float64)
xyz[:,0] = numpy.ravel(xx)
xyz[:,1] = numpy.ravel(yy)
xyz[:,2] = numpy.ravel(zz)
from axialdisp_soln import AnalyticalSoln
soln = AnalyticalSoln()
disp = soln.displacement(xyz)
from spatialdata.geocoords.CSCart import CSCart
cs = CSCart()
cs.inventory.spaceDim = 3
cs._configure()
data = {'points': xyz,
'coordsys': cs,
'data_dim': 3,
'values': [{'name': "displacement-x",
'units': "m",
'data': numpy.ravel(disp[:,0])},
{'name': "displacement-y",
'units': "m",
'data': numpy.ravel(disp[:,1])},
{'name': "displacement-z",
'units': "m",
'data': numpy.ravel(disp[:,2])}]}
from spatialdata.spatialdb.SimpleIOAscii import SimpleIOAscii
io = SimpleIOAscii()
io.inventory.filename = "axial_disp.spatialdb"
io._configure()
io.write(data)
return示例8: run
# 需要导入模块: from spatialdata.spatialdb.SimpleIOAscii import SimpleIOAscii [as 别名]
# 或者: from spatialdata.spatialdb.SimpleIOAscii.SimpleIOAscii import _configure [as 别名]
def run(self):
"""
Generate the database.
"""
# Domain
x = numpy.arange(-4000.0, 4000.1, 1000.0)
y = numpy.arange(-4000.0, 4000.1, 1000.0)
z = numpy.arange(-6000.0, 0000.1, 1000.0)
nptsX = x.shape[0]
nptsY = y.shape[0]
nptsZ = z.shape[0]
xx = x * numpy.ones( (nptsY*nptsZ, 1), dtype=numpy.float64)
yy0 = y * numpy.ones( (nptsZ, 1), dtype=numpy.float64)
yy = yy0.ravel() * numpy.ones( (nptsX, 1), dtype=numpy.float64)
zz = z * numpy.ones( (nptsX*nptsY, 1), dtype=numpy.float64)
xyz = numpy.zeros( (nptsX*nptsY*nptsZ, 3), dtype=numpy.float64)
xyz[:,0] = numpy.ravel(xx)
xyz[:,1] = numpy.ravel(numpy.transpose(yy))
xyz[:,2] = numpy.ravel(numpy.transpose(zz))
from rigidbody_soln import AnalyticalSoln
soln = AnalyticalSoln()
disp = soln.displacement(xyz)
from spatialdata.geocoords.CSCart import CSCart
cs = CSCart()
cs.inventory.spaceDim = 3
cs._configure()
data = {'locs': xyz,
'coordsys': cs,
'data_dim': 2,
'values': [{'name': "displacement-x",
'units': "m",
'data': numpy.ravel(disp[:,0])},
{'name': "displacement-y",
'units': "m",
'data': numpy.ravel(disp[:,1])},
{'name': "displacement-z",
'units': "m",
'data': numpy.ravel(disp[:,2])}]}
from spatialdata.spatialdb.SimpleIOAscii import SimpleIOAscii
io = SimpleIOAscii()
io.inventory.filename = "rigidbody_disp.spatialdb"
io._configure()
io.write(data)
return示例9: testDBInitialState
# 需要导入模块: from spatialdata.spatialdb.SimpleIOAscii import SimpleIOAscii [as 别名]
# 或者: from spatialdata.spatialdb.SimpleIOAscii.SimpleIOAscii import _configure [as 别名]
def testDBInitialState(self):
"""
Test dbInitialState().
"""
from spatialdata.spatialdb.SimpleDB import SimpleDB
from spatialdata.spatialdb.SimpleIOAscii import SimpleIOAscii
iohandler = SimpleIOAscii()
iohandler.inventory.filename = "data/matinitialize.spatialdb"
iohandler._configure()
db = SimpleDB()
db.inventory.label = "material properties"
db.inventory.iohandler = iohandler
db._configure()
self.material.dbInitialState(db)
# No test of result.
return示例10: testDBProperties
# 需要导入模块: from spatialdata.spatialdb.SimpleIOAscii import SimpleIOAscii [as 别名]
# 或者: from spatialdata.spatialdb.SimpleIOAscii.SimpleIOAscii import _configure [as 别名]
def testDBProperties(self):
"""
Test dbProperties().
"""
from spatialdata.spatialdb.SimpleDB import SimpleDB
from spatialdata.spatialdb.SimpleIOAscii import SimpleIOAscii
iohandler = SimpleIOAscii()
iohandler.inventory.filename = "data/staticfriction.spatialdb"
iohandler._configure()
db = SimpleDB()
db.inventory.label = "friction properties"
db.inventory.iohandler = iohandler
db._configure()
self.friction.dbProperties(db)
# No test of result.
return示例11: testDBInitialStrain
# 需要导入模块: from spatialdata.spatialdb.SimpleIOAscii import SimpleIOAscii [as 别名]
# 或者: from spatialdata.spatialdb.SimpleIOAscii.SimpleIOAscii import _configure [as 别名]
def testDBInitialStrain(self):
from spatialdata.spatialdb.SimpleDB import SimpleDB
from spatialdata.spatialdb.SimpleIOAscii import SimpleIOAscii
iohandler = SimpleIOAscii()
iohandler.inventory.filename = "data/matinitialize.spatialdb"
iohandler._configure()
db = SimpleDB()
db.inventory.label = "material properties"
db.inventory.iohandler = iohandler
db._configure()
material = self.material
material.inventory.label = "Elastic material"
material.inventory.dbInitialStrain = db
material.inventory.useInitialStrain = True
material._configure()
# No test of result.
return示例12: run
# 需要导入模块: from spatialdata.spatialdb.SimpleIOAscii import SimpleIOAscii [as 别名]
# 或者: from spatialdata.spatialdb.SimpleIOAscii.SimpleIOAscii import _configure [as 别名]
def run(self):
"""
Generate the database.
"""
# Domain
x = numpy.arange(-4000.0, 4000.1, 1000.0)
y = numpy.arange(-4000.0, 4000.1, 1000.0)
npts = x.shape[0]
xx = x * numpy.ones((npts, 1), dtype=numpy.float64)
yy = y * numpy.ones((npts, 1), dtype=numpy.float64)
xy = numpy.zeros((npts ** 2, 2), dtype=numpy.float64)
xy[:, 0] = numpy.ravel(xx)
xy[:, 1] = numpy.ravel(numpy.transpose(yy))
from sheardisp_soln import AnalyticalSoln
soln = AnalyticalSoln()
disp = soln.displacement(xy)
from spatialdata.geocoords.CSCart import CSCart
cs = CSCart()
cs.inventory.spaceDim = 2
cs._configure()
data = {
"points": xy,
"coordsys": cs,
"data_dim": 2,
"values": [
{"name": "displacement-x", "units": "m", "data": numpy.ravel(disp[0, :, 0])},
{"name": "displacement-y", "units": "m", "data": numpy.ravel(disp[0, :, 1])},
],
}
from spatialdata.spatialdb.SimpleIOAscii import SimpleIOAscii
io = SimpleIOAscii()
io.inventory.filename = "shear_disp.spatialdb"
io._configure()
io.write(data)
return示例13: run
# 需要导入模块: from spatialdata.spatialdb.SimpleIOAscii import SimpleIOAscii [as 别名]
# 或者: from spatialdata.spatialdb.SimpleIOAscii.SimpleIOAscii import _configure [as 别名]
def run(self):
"""
Generate the database.
"""
from sheardisp_soln import AnalyticalSoln
soln = AnalyticalSoln()
from spatialdata.geocoords.CSCart import CSCart
cs = CSCart()
cs.inventory.spaceDim = 3
cs._configure()
from spatialdata.spatialdb.SimpleIOAscii import SimpleIOAscii
io = SimpleIOAscii()
for component in ["x","y","z"]:
if component == "y":
xyz = numpy.array([[-40.0e+3, 0.0, 0.0],
[+40.0e+3, 0.0, 0.0]], dtype=numpy.float64)
ic = 1
elif component == "x":
xyz = numpy.array([[0.0, -40.0e+3, 0.0],
[0.0, +40.0e+3, 0.0]], dtype=numpy.float64)
ic = 0
elif component == "z":
xyz = numpy.array([[0.0, 0.0, -40.0e+3],
[0.0, 0.0, 0.0]], dtype=numpy.float64)
ic = 2
disp = soln.displacement(xyz)
io.inventory.filename = "shear_disp%s.spatialdb" % component
io._configure()
data = {'points': xyz,
'coordsys': cs,
'data_dim': 1,
'values': [{'name': "displacement-%s" % component,
'units': "m",
'data': numpy.ravel(disp[0,:,ic])},
]}
io.write(data)
return示例14: run
# 需要导入模块: from spatialdata.spatialdb.SimpleIOAscii import SimpleIOAscii [as 别名]
# 或者: from spatialdata.spatialdb.SimpleIOAscii.SimpleIOAscii import _configure [as 别名]
def run(self):
"""
Generate the database.
"""
# Domain
dx = 200.0
x = numpy.arange(-1000.0, 1000.1, dx)
y = numpy.arange(-1000.0, 0.1, dx)
nptsx = x.shape[0]
nptsy = y.shape[0]
xx = x * numpy.ones( (nptsy, 1), dtype=numpy.float64)
yy = y * numpy.ones( (nptsx, 1), dtype=numpy.float64)
xy = numpy.zeros( (nptsx*nptsy, 2), dtype=numpy.float64)
xy[:,0] = numpy.ravel(xx)
xy[:,1] = numpy.ravel(numpy.transpose(yy))
from compressrotate_soln import AnalyticalSoln
soln = AnalyticalSoln()
disp = soln.displacement(xy)
from spatialdata.geocoords.CSCart import CSCart
cs = CSCart()
cs.inventory.spaceDim = 2
cs._configure()
data = {'points': xy,
'coordsys': cs,
'data_dim': 2,
'values': [{'name': "displacement-x",
'units': "m",
'data': numpy.ravel(disp[0,:,0])},
{'name': "displacement-y",
'units': "m",
'data': numpy.ravel(disp[0,:,1])}]}
from spatialdata.spatialdb.SimpleIOAscii import SimpleIOAscii
io = SimpleIOAscii()
io.inventory.filename = "compressrotate_disp.spatialdb"
io._configure()
io.write(data)
return示例15: test_initialize
# 需要导入模块: from spatialdata.spatialdb.SimpleIOAscii import SimpleIOAscii [as 别名]
# 或者: from spatialdata.spatialdb.SimpleIOAscii.SimpleIOAscii import _configure [as 别名]
def test_initialize(self):
"""
Test initialize().
"""
from spatialdata.spatialdb.SimpleDB import SimpleDB
from spatialdata.spatialdb.SimpleIOAscii import SimpleIOAscii
from pyre.units.time import second
ioFinalSlip = SimpleIOAscii()
ioFinalSlip.inventory.filename = "finalslip.spatialdb"
ioFinalSlip._configure()
dbFinalSlip = SimpleDB()
dbFinalSlip.inventory.iohandler = ioFinalSlip
dbFinalSlip.inventory.label = "final slip"
dbFinalSlip._configure()
ioSlipTime = SimpleIOAscii()
ioSlipTime.inventory.filename = "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()
eqsrc = EqKinSrc()
eqsrc.inventory.originTime = 5.3*second
eqsrc.inventory.slipfn = slipfn
eqsrc._configure()
eqsrc.preinitialize()
eqsrc.verifyConfiguration()
eqsrc.initialize()
return