Source code for steno3d.line

""" contains the Line composite resource for steno3d"""

from __future__ import absolute_import
from __future__ import division
from __future__ import print_function
from __future__ import unicode_literals

from numpy import max as npmax
from numpy import min as npmin
from numpy import ndarray
from six import string_types
import properties

from .base import BaseMesh
from .base import CompositeResource
from .data import DataArray
from .options import ColorOptions
from .options import Options
from .props import array_serializer, array_download, HasSteno3DProps

[docs]class _Mesh1DOptions(Options): view_type = properties.StringChoice( doc='Display 1D lines or tubes/boreholes/extruded lines', choices={ 'line': ('lines', 'thin', '1d'), 'tube': ('tubes', 'extruded line', 'extruded lines', 'borehole', 'boreholes') }, default='line', required=False )
[docs]class _LineOptions(ColorOptions): pass
[docs]class Mesh1D(BaseMesh): """Contains spatial information of a 1D line set""" vertices = properties.Array( doc='Mesh vertices', shape=('*', 3), dtype=float, serializer=array_serializer, deserializer=array_download(('*', 3), (float,)), ) segments = properties.Array( doc='Segment endpoint indices', shape=('*', 2), dtype=int, serializer=array_serializer, deserializer=array_download(('*', 2), (int,)), ) opts = properties.Instance( doc='Options', instance_class=_Mesh1DOptions, auto_create=True, ) @property def nN(self): """ get number of nodes """ return len(self.vertices) @property def nC(self): """ get number of cells """ return len(self.segments) def _nbytes(self, arr=None): if arr is None: return self._nbytes('segments') + self._nbytes('vertices') if isinstance(arr, string_types) and arr in ('segments', 'vertices'): arr = getattr(self, arr) if isinstance(arr, ndarray): return arr.astype('f4').nbytes raise ValueError('Mesh1D cannot calculate the number of ' 'bytes of {}'.format(arr))'segments', 'vertices')) def _reject_large_files(self, change): self._validate_file_size(change['name'], change['value']) @properties.validator def _validate_seg(self): if npmin(self.segments) < 0: raise ValueError('Segments may only have positive integers') if npmax(self.segments) >= len(self.vertices): raise ValueError('Segments expects more vertices than provided') self._validate_file_size('segments', self.segments) self._validate_file_size('vertices', self.vertices) return True def _get_dirty_files(self, force=False): files = super(Mesh1D, self)._get_dirty_files(force) dirty = self._dirty_props if 'vertices' in dirty or force: files['vertices'] = \ self._props['vertices'].serialize(self.vertices) if 'segments' in dirty or force: files['segments'] = \ self._props['segments'].serialize(self.segments) return files @classmethod def _build_from_json(cls, json, **kwargs): mesh = Mesh1D( title=kwargs['title'], description=kwargs['description'], vertices=cls._props['vertices'].deserialize( json['vertices'], ), segments=cls._props['segments'].deserialize( json['segments'], ), opts=json['meta'] ) return mesh @classmethod def _build_from_omf(cls, omf_geom, omf_project): mesh = Mesh1D( vertices=(omf_geom.vertices.array + omf_geom.origin + omf_project.origin), segments=omf_geom.segments.array ) return mesh
[docs]class _LineBinder(HasSteno3DProps): """Contains the data on a 1D line set with location information""" location = properties.StringChoice( doc='Location of the data on mesh', choices={ 'CC': ('LINE', 'FACE', 'CELLCENTER', 'EDGE', 'SEGMENT'), 'N': ('VERTEX', 'NODE', 'ENDPOINT') } ) data = properties.Instance( doc='Data', instance_class=DataArray, auto_create=True, )
[docs]class Line(CompositeResource): """Contains all the information about a 1D line set""" mesh = properties.Instance( doc='Mesh', instance_class=Mesh1D, auto_create=True, ) data = properties.List( doc='Data', prop=_LineBinder, coerce=True, required=False, ) opts = properties.Instance( doc='Options', instance_class=_LineOptions, auto_create=True, ) def _nbytes(self): return self.mesh._nbytes() + sum( for d in @properties.validator def _validate_data(self): """Check if resource is built correctly""" for ii, dat in enumerate( assert dat.location in ('N', 'CC') valid_length = ( self.mesh.nC if dat.location == 'CC' else self.mesh.nN ) if len( != valid_length: raise ValueError( '[{index}] length {datalen} does not match ' '{loc} length {meshlen}'.format( index=ii, datalen=len(, loc=dat.location, meshlen=valid_length ) ) return True
__all__ = ['Line', 'Mesh1D']