def dump_to_vtk(filename, output_filename_trunk=None, step0=0, steps=None,
fields=None, linearization=None):
"""Dump a multi-time-step results file into a sequence of VTK files."""
def _save_step(suffix, out, mesh):
if linearization is not None:
output('linearizing...')
out = _linearize(out, fields, linearization)
output('...done')
for key, val in out.iteritems():
lmesh = val.get('mesh', mesh)
lmesh.write(output_filename_trunk + '_' + key + suffix,
io='auto', out={key : val})
if hasattr(val, 'levels'):
output('max. refinement per group:', val.levels)
else:
mesh.write(output_filename_trunk + suffix, io='auto', out=out)
output('dumping to VTK...')
io = MeshIO.any_from_filename(filename)
mesh = Mesh.from_file(filename, io=io)
if output_filename_trunk is None:
output_filename_trunk = get_trunk(filename)
try:
ts = TimeStepper(*io.read_time_stepper())
times, nts, dts = extract_times(filename)
except ValueError:
output('no time stepping info found, assuming single step')
out = io.read_data(0)
if out is not None:
_save_step('.vtk', out, mesh)
ret = None
else:
ts.times = times
ts.n_step = times.shape[0]
if steps is None:
iterator = ts.iter_from(step0)
else:
iterator = [(step, ts.times[step]) for step in steps]
for step, time in iterator:
output(ts.format % (step, ts.n_step - 1))
out = io.read_data(step)
if out is None: break
_save_step('.' + ts.suffix % step + '.vtk', out, mesh)
ret = ts.suffix
output('...done')
return ret
def dump_to_vtk(filename, output_filename_trunk=None, step0=0, steps=None,
fields=None, linearization=None):
"""Dump a multi-time-step results file into a sequence of VTK files."""
def _save_step(suffix, out, mesh):
if linearization is not None:
output('linearizing...')
out = _linearize(out, fields, linearization)
output('...done')
for key, val in out.iteritems():
lmesh = val.get('mesh', mesh)
lmesh.write(output_filename_trunk + '_' + key + suffix,
io='auto', out={key : val})
if hasattr(val, 'levels'):
output('max. refinement per group:', val.levels)
else:
mesh.write(output_filename_trunk + suffix, io='auto', out=out)
output('dumping to VTK...')
io = MeshIO.any_from_filename(filename)
mesh = Mesh.from_file(filename, io=io)
if output_filename_trunk is None:
output_filename_trunk = get_trunk(filename)
try:
ts = TimeStepper(*io.read_time_stepper())
all_steps, times, nts, dts = extract_times(filename)
except ValueError:
output('no time stepping info found, assuming single step')
out = io.read_data(0)
if out is not None:
_save_step('.vtk', out, mesh)
ret = None
else:
ts.times = times
ts.n_step = times.shape[0]
if steps is None:
ii0 = nm.searchsorted(all_steps, step0)
iterator = ((all_steps[ii], times[ii])
for ii in xrange(ii0, len(times)))
else:
iterator = [(step, ts.times[step]) for step in steps]
max_step = all_steps.max()
for step, time in iterator:
output(ts.format % (step, max_step))
out = io.read_data(step)
if out is None: break
_save_step('.' + ts.suffix % step + '.vtk', out, mesh)
ret = ts.suffix
output('...done')
return ret
