def write_mesh_file_with_fields(field_list, name_=""):
"""
write .vtu file containing all the cells and field values in the _OUTPUT directory
:param fieldList: a list of fields to include in the output. *father* of fields defines the mesh
:type fieldList: pyCFD_fields.fields.VolumeField
:param name_: filename to use
:type name_: string
"""
t_start = time.time()
print ''
if name_ == "":
print 'Writing field file...'
file_name = __OUTITERDIR__ + 'fields.vtu'
else:
print 'Writing field file ' + name_ + ' ...'
file_name = __OUTITERDIR__ + name_ + '.vtu'
only_one_field = False
if isinstance(field_list, fields.Field):
only_one_field = True
if only_one_field:
mesh_object = field_list.father[0]
else:
mesh_object = field_list[0].father[0]
field_list_ = []
if only_one_field:
field_list_.append(field_list)
else:
field_list_.extend(field_list)
vtkTools.save_vtu_objects(mesh_object.cells, file_name, field_list_)
print ' DONE in ' + str(time.time() - t_start) + ' s'
def write_patch_file_with_fields(mesh_, patch_name, volume_field_list):
"""
write a patch mesh with field values into separate a .vtu file in the
:mod:`pyCFD_config.config`.__OUTITERDIR__ directory
:param mesh_: a mesh object
:type mesh_: :class:`pyCFD_mesh.generic_emsh.GenericMesh`
:param patch_name: name of geometric patch
:type patch_name: string
:param volume_field_list: list of volume fields
:type volume_field_list: :class:`pyCFD_fields.fields.VolumeField`
"""
t_start = time.time()
print ''
print 'Writing patch file for ' + patch_name
only_one_field = False
if isinstance(volume_field_list, fields.Field):
only_one_field = True
field_list_ = []
if only_one_field:
field_list_.append(volume_field_list)
else:
field_list_.extend(volume_field_list)
patch_ = mesh_.get_patch(patch_name)
for field_ in field_list_:
field_.update_boundary_values()
fileName = __OUTITERDIR__ + str(patch_.name) + '.vtu'
vtkTools.save_vtu_objects(patch_.faces, fileName, field_list_)
print ' DONE for ' + str(
patch_.name) + ' in ' + str(time.time() - t_start) + ' s'
def write_mesh_faces_with_field(surface_field_list, name_=""):
"""
write .vtu file with all the faces
:param mesh_: a mesh object (GenericMesh or derived)
:type mesh_: pyCFD_mesh.generic_mesh.GenericMesh
"""
t_start = time.time()
print ''
if name_ == "":
file_name = __OUTITERDIR__ + 'meshAllFaces.vtu'
print "Writing mesh file 'meshAllFaces.vtu' with all faces..."
else:
file_name = __OUTITERDIR__ + name_ + '.vtu'
print "Writing mesh file '" + name_ + ".vtu' with all faces..."
only_one_field = False
if isinstance(surface_field_list, fields.Field):
only_one_field = True
if only_one_field:
mesh_object = surface_field_list.father[0]
else:
mesh_object = surface_field_list[0].father[0]
field_list = []
if only_one_field:
field_list.append(surface_field_list)
else:
field_list.extend(surface_field_list)
vtkTools.save_vtu_objects(mesh_object.faces, file_name, field_list,
mesh_object)
print ' DONE in ' + str(time.time() - t_start) + ' s'
def write_patch_files_with_fields(mesh_, volume_field_list):
"""
write patch meshes with field values into separate .vtu files
:param mesh_: a mesh object (GenericMesh or derived)
:type mesh_: pyCFD_mesh.generic_mesh.GenericMesh
:param volume_field_list: list of volume fields
:type volume_field_list: pyCFD_fields.fields.VolumeField
Output
separate .vtu files containing patch faces for all the patches in the _OUTPUT directory
"""
t_start = time.time()
print ''
print 'Writing patch files...'
only_one_field = False
if isinstance(volume_field_list, fields.Field):
only_one_field = True
field_list_ = []
if only_one_field:
field_list_.append(volume_field_list)
else:
field_list_.extend(volume_field_list)
for patch_ in mesh_.patches:
for field_ in field_list_:
field_.update_boundary_values()
fileName = __OUTITERDIR__ + str(patch_.name) + '.vtu'
vtkTools.save_vtu_objects(patch_.faces, fileName, field_list_)
print ' DONE for ' + str(patch_.name)
print ' All DONE in ' + str(time.time() - t_start) + ' s'
def write_mesh_internal_faces_with_field(surface_field_list):
"""
write .vtu file with all the internal faces
:param mesh_: a mesh object (GenericMesh or derived)
:type mesh_: pyCFD_mesh.generic_mesh.GenericMesh
"""
t_start = time.time()
print ''
print 'Writing mesh file with internal faces...'
file_name = __OUTITERDIR__ + 'meshIntFaces.vtu'
internal_faces = []
only_one_field = False
if isinstance(surface_field_list, fields.Field):
only_one_field = True
if only_one_field:
mesh_object = surface_field_list.father[0]
else:
mesh_object = surface_field_list[0].father[0]
for face_ in mesh_object.faces:
if face_.isBnd == False:
internal_faces.append(face_)
internal_face_mesh = sub_mesh.SubMesh(None, internal_faces)
field_list = []
if only_one_field:
field_list.append(surface_field_list)
else:
field_list.extend(surface_field_list)
vtkTools.save_vtu_objects(internal_face_mesh.faces, file_name, field_list,
mesh_object)
print ' DONE in ' + str(time.time() - t_start) + ' s'
def write_mesh_faces_with_field(surface_field_list, name_=""):
"""
write .vtu file with all the faces and a list of surface field in the
:mod:`pyCFD_config.config`.__OUTITERDIR__ directory
:param mesh_: a mesh object
:type mesh_: :class:`pyCFD_mesh.generic_emsh.GenericMesh`
"""
t_start = time.time()
print ''
if name_ == "":
file_name = __OUTITERDIR__+'meshAllFaces.vtu'
print "Writing mesh file 'meshAllFaces.vtu' with all faces..."
else:
file_name = __OUTITERDIR__ + name_ + '.vtu'
print "Writing mesh file '" + name_ + ".vtu' with all faces..."
only_one_field = False
if isinstance(surface_field_list, fields.Field):
only_one_field = True
if only_one_field:
mesh_object = surface_field_list.father[0]
else:
mesh_object = surface_field_list[0].father[0]
field_list = []
if only_one_field:
field_list.append(surface_field_list)
else:
field_list.extend(surface_field_list)
vtkTools.save_vtu_objects(mesh_object.faces, file_name, field_list, mesh_object)
print ' DONE in '+str(time.time()-t_start)+' s'
def write_mesh_file_with_fields(field_list, name_=""):
"""
write .vtu file containing all the cells and field values in the
:mod:`pyCFD_config.config`.__OUTITERDIR__ directory
:param fieldList: a list of fields to include in the output. *father* of fields defines the mesh
:type fieldList: :class:`pyCFD_fields.fields.VolumeField`
:param name_: filename to use
:type name_: string
"""
t_start = time.time()
print ''
if name_ == "":
print 'Writing field file...'
file_name = __OUTITERDIR__+'fields.vtu'
else:
print 'Writing field file '+name_+' ...'
file_name = __OUTITERDIR__+name_+'.vtu'
only_one_field = False
if isinstance(field_list, fields.Field):
only_one_field = True
if only_one_field:
mesh_object = field_list.father[0]
else:
mesh_object = field_list[0].father[0]
field_list_ = []
if only_one_field:
field_list_.append(field_list)
else:
field_list_.extend(field_list)
vtkTools.save_vtu_objects(mesh_object.cells, file_name, field_list_)
print ' DONE in '+str(time.time()-t_start)+' s'
def write_mesh_internal_faces(mesh_):
"""
write .vtu file with all the internal faces in the
:mod:`pyCFD_config.config`.__OUTITERDIR__ directory
:param mesh_: a mesh object
:type mesh_: :class:`pyCFD_mesh.generic_emsh.GenericMesh`
"""
t_start = time.time()
print ''
print 'Writing mesh file with internal faces...'
fileName = __OUTITERDIR__ + 'meshIntFaces.vtu'
internal_faces = []
for face_ in mesh_.faces:
if face_.isBnd == False:
internal_faces.append(face_)
internal_face_mesh = sub_mesh.SubMesh(None, internal_faces)
surf_normal = fields.SurfaceVectorField(internal_face_mesh, 'Sf')
for i in range(len(surf_normal.A)):
surf_normal.A[i] = surf_normal.father[0].faces[i].Sf
fieldList = []
fieldList.append(surf_normal)
vtkTools.save_vtu_objects(internal_face_mesh.faces, fileName, fieldList,
mesh_)
print ' DONE in ' + str(time.time() - t_start) + ' s'
def write_patch_file_with_fields(mesh_, patch_name, volume_field_list):
"""
write a patch mesh with field values into separate a .vtu file in the
:mod:`pyCFD_config.config`.__OUTITERDIR__ directory
:param mesh_: a mesh object
:type mesh_: :class:`pyCFD_mesh.generic_emsh.GenericMesh`
:param patch_name: name of geometric patch
:type patch_name: string
:param volume_field_list: list of volume fields
:type volume_field_list: :class:`pyCFD_fields.fields.VolumeField`
"""
t_start = time.time()
print ''
print 'Writing patch file for '+patch_name
only_one_field = False
if isinstance(volume_field_list, fields.Field):
only_one_field = True
field_list_ = []
if only_one_field:
field_list_.append(volume_field_list)
else:
field_list_.extend(volume_field_list)
patch_ = mesh_.get_patch(patch_name)
for field_ in field_list_:
field_.update_boundary_values()
fileName = __OUTITERDIR__+str(patch_.name)+'.vtu'
vtkTools.save_vtu_objects(patch_.faces, fileName, field_list_)
print ' DONE for '+str(patch_.name)+' in '+str(time.time()-t_start)+' s'
def write_mesh_internal_faces_with_field(surface_field_list):
"""
write .vtu file with all the internal faces in the
:mod:`pyCFD_config.config`.__OUTITERDIR__ directory
:param mesh_: a mesh object
:type mesh_: :class:`pyCFD_mesh.generic_emsh.GenericMesh`
"""
t_start = time.time()
print ''
print 'Writing mesh file with internal faces...'
file_name = __OUTITERDIR__+'meshIntFaces.vtu'
internal_faces = []
only_one_field = False
if isinstance(surface_field_list, fields.Field):
only_one_field = True
if only_one_field:
mesh_object = surface_field_list.father[0]
else:
mesh_object = surface_field_list[0].father[0]
for face_ in mesh_object.faces:
if face_.isBnd == False:
internal_faces.append(face_)
internal_face_mesh = sub_mesh.SubMesh(None,internal_faces)
field_list = []
if only_one_field:
field_list.append(surface_field_list)
else:
field_list.extend(surface_field_list)
vtkTools.save_vtu_objects(internal_face_mesh.faces, file_name, field_list, mesh_object)
print ' DONE in '+str(time.time()-t_start)+' s'
def write_patch_files_with_fields(mesh_, volume_field_list):
"""
write patch meshes with field values into separate .vtu files
:param mesh_: a mesh object (GenericMesh or derived)
:type mesh_: pyCFD_mesh.generic_mesh.GenericMesh
:param volume_field_list: list of volume fields
:type volume_field_list: pyCFD_fields.fields.VolumeField
Output
separate .vtu files containing patch faces for all the patches in the _OUTPUT directory
"""
t_start = time.time()
print ''
print 'Writing patch files...'
only_one_field = False
if isinstance(volume_field_list, fields.Field):
only_one_field = True
field_list_ = []
if only_one_field:
field_list_.append(volume_field_list)
else:
field_list_.extend(volume_field_list)
for patch_ in mesh_.patches:
for field_ in field_list_:
field_.update_boundary_values()
fileName = __OUTITERDIR__+str(patch_.name)+'.vtu'
vtkTools.save_vtu_objects(patch_.faces, fileName, field_list_)
print ' DONE for '+str(patch_.name)
print ' All DONE in '+str(time.time()-t_start)+' s'
def write_mesh_file(Mesh):
"""
write .vtu file containing all the cells in the _OUTPUT directory
:param mesh_: mesh object
:type mesh_: pyCFD_mesh.generic_emsh.GenericMesh
"""
t_start = time.time()
print ''
print 'Writing mesh file...'
fileName = __OUTITERDIR__ + 'mesh.vtu'
vtkTools.save_vtu_objects(Mesh.cells, fileName)
print ' DONE in ' + str(time.time() - t_start) + ' s'
def write_mesh_file(Mesh):
"""
write .vtu file containing all the cells in the _OUTPUT directory
:param mesh_: mesh object
:type mesh_: pyCFD_mesh.generic_emsh.GenericMesh
"""
t_start = time.time()
print ''
print 'Writing mesh file...'
fileName = __OUTITERDIR__+'mesh.vtu'
vtkTools.save_vtu_objects(Mesh.cells,fileName)
print ' DONE in '+str(time.time()-t_start)+' s'
def write_patch_files(mesh_):
"""
write separate .vtu files containing patch faces for all the patches in the
_OUTPUT directory
:param mesh_: mesh object
:type mesh_: pyCFD_mesh.generic_emsh.GenericMesh
"""
t_start = time.time()
print ''
print 'Writing patch files...'
for patch in mesh_.patches:
fileName = __OUTITERDIR__ + str(patch.name) + '.vtu'
vtkTools.save_vtu_objects(patch.faces, fileName)
print ' DONE for ' + str(patch.name)
print ' All DONE in ' + str(time.time() - t_start) + ' s'
def write_patch_files(mesh_):
"""
write separate .vtu files containing patch faces for all the patches in the
:mod:`pyCFD_config.config`.__OUTITERDIR__
:param mesh_: mesh object
:type mesh_: :class:`pyCFD_mesh.generic_emsh.GenericMesh`
"""
t_start = time.time()
print ''
print 'Writing patch files...'
for patch in mesh_.patches:
fileName = __OUTITERDIR__+str(patch.name)+'.vtu'
vtkTools.save_vtu_objects(patch.faces,fileName)
print ' DONE for '+str(patch.name)
print ' All DONE in '+str(time.time()-t_start)+' s'
def write_mesh_faces(mesh_):
"""
write .vtu file with all the faces (internal + boundary)
:param mesh_: a mesh object (GenericMesh or derived)
:type mesh_: pyCFD_mesh.generic_mesh.GenericMesh
"""
t_start = time.time()
print ''
print 'Writing mesh file with all faces...'
fileName = __OUTITERDIR__ + 'meshAllFaces.vtu'
surf_normal = fields.SurfaceVectorField(mesh_, 'Sf')
for i in range(len(surf_normal.A)):
surf_normal.A[i] = surf_normal.father[0].faces[i].Sf
fieldList = []
fieldList.append(surf_normal)
vtkTools.save_vtu_objects(mesh_.faces, fileName, fieldList)
print ' DONE in ' + str(time.time() - t_start) + ' s'
def write_mesh_faces(mesh_):
"""
write .vtu file with all the faces (internal + boundary)
:param mesh_: a mesh object (GenericMesh or derived)
:type mesh_: pyCFD_mesh.generic_mesh.GenericMesh
"""
t_start = time.time()
print ''
print 'Writing mesh file with all faces...'
fileName = __OUTITERDIR__+'meshAllFaces.vtu'
surf_normal = fields.SurfaceVectorField(mesh_,'Sf')
for i in range(len(surf_normal.A)):
surf_normal.A[i] = surf_normal.father[0].faces[i].Sf
fieldList = []
fieldList.append(surf_normal)
vtkTools.save_vtu_objects(mesh_.faces,fileName,fieldList)
print ' DONE in '+str(time.time()-t_start)+' s'
def write_mesh_faces(mesh_):
"""
write .vtu file with all the faces in the
:mod:`pyCFD_config.config`.__OUTITERDIR__ directory
:param mesh_: a mesh object
:type mesh_: :class:`pyCFD_mesh.generic_emsh.GenericMesh`
"""
t_start = time.time()
print ''
print 'Writing mesh file with all faces...'
fileName = __OUTITERDIR__+'meshAllFaces.vtu'
surf_normal = fields.SurfaceVectorField(mesh_,'Sf')
for i in range(len(surf_normal.A)):
surf_normal.A[i] = surf_normal.father[0].faces[i].Sf
fieldList = []
fieldList.append(surf_normal)
vtkTools.save_vtu_objects(mesh_.faces,fileName,fieldList)
print ' DONE in '+str(time.time()-t_start)+' s'
def write_mesh_faces(mesh_):
"""
write .vtu file with all the faces in the
:mod:`pyCFD_config.config`.__OUTITERDIR__ directory
:param mesh_: a mesh object
:type mesh_: :class:`pyCFD_mesh.generic_emsh.GenericMesh`
"""
t_start = time.time()
print ''
print 'Writing mesh file with all faces...'
fileName = __OUTITERDIR__ + 'meshAllFaces.vtu'
surf_normal = fields.SurfaceVectorField(mesh_, 'Sf')
for i in range(len(surf_normal.A)):
surf_normal.A[i] = surf_normal.father[0].faces[i].Sf
fieldList = []
fieldList.append(surf_normal)
vtkTools.save_vtu_objects(mesh_.faces, fileName, fieldList)
print ' DONE in ' + str(time.time() - t_start) + ' s'
def write_mesh_internal_faces(mesh_):
"""
write .vtu file with all the internal faces
:param mesh_: a mesh object (GenericMesh or derived)
:type mesh_: pyCFD_mesh.generic_mesh.GenericMesh
"""
t_start = time.time()
print ''
print 'Writing mesh file with internal faces...'
fileName = __OUTITERDIR__+'meshIntFaces.vtu'
internal_faces = []
for face_ in mesh_.faces:
if face_.isBnd == False:
internal_faces.append(face_)
internal_face_mesh = sub_mesh.SubMesh(None,internal_faces)
surf_normal = fields.SurfaceVectorField(internal_face_mesh,'Sf')
for i in range(len(surf_normal.A)):
surf_normal.A[i] = surf_normal.father[0].faces[i].Sf
fieldList = []
fieldList.append(surf_normal)
vtkTools.save_vtu_objects(internal_face_mesh.faces,fileName,fieldList,mesh_)
print ' DONE in '+str(time.time()-t_start)+' s'
