Source code for collection

#
##
##  This file is part of pyFormex 1.0.7  (Mon Jun 17 12:20:39 CEST 2019)
##  pyFormex is a tool for generating, manipulating and transforming 3D
##  geometrical models by sequences of mathematical operations.
##  Home page: http://pyformex.org
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##  Copyright 2004-2019 (C) Benedict Verhegghe (benedict.verhegghe@ugent.be)
##  Distributed under the GNU General Public License version 3 or later.
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##  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
##  GNU General Public License for more details.
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"""Tools for handling collections of elements belonging to multiple parts.

This module defines the Collection class.
"""
from __future__ import absolute_import, division, print_function

import pyformex as pf
import numpy as np

################# Collection of Actors or Actor Elements ###############


[docs]class Collection(object): """A collection is a set of (int,int) tuples. The first part of the tuple has a limited number of values and are used as the keys in a dict. The second part can have a lot of different values and is implemented as an integer array with unique values. This is e.g. used to identify a set of individual parts of one or more OpenGL actors. Examples: >>> a = Collection() >>> a.add(range(7),3) >>> a.add(range(4)) >>> a.remove([2,4],3) >>> print(a) -1 [0 1 2 3]; 3 [0 1 3 5 6]; >>> a.add([[2,0],[2,3],[-1,7],[3,88]]) >>> print(a) -1 [0 1 2 3 7]; 2 [0 3]; 3 [ 0 1 3 5 6 88]; >>> a[2] = [1,2,3] >>> print(a) -1 [0 1 2 3 7]; 2 [1 2 3]; 3 [ 0 1 3 5 6 88]; >>> a[2] = [] >>> print(a) -1 [0 1 2 3 7]; 3 [ 0 1 3 5 6 88]; >>> a.set([[2,0],[2,3],[-1,7],[3,88]]) >>> print(a) -1 [7]; 2 [0 3]; 3 [88]; >>> print(a.keys()) [-1 2 3] >>> print([k for k in a]) [-1, 2, 3] >>> 2 in a True """ def __init__(self, object_type=None): self.d = {} self.obj_type = object_type def __len__(self): return len(self.d) def setType(self, obj_type): self.obj_type = obj_type def clear(self, keys=[]): if keys: for k in keys: k = int(k) if k in self.d: del self.d[k] else: self.d = {}
[docs] def add(self, data, key=-1): """Add new data to the collection. data can be a 2d array with (key,val) tuples or a 1-d array of values. In the latter case, the key has to be specified separately, or a default value will be used. data can also be another Collection, if it has the same object type. """ if isinstance(data, Collection): if data.obj_type == self.obj_type: for k in data.d: self.add(data.d[k], k) return return else: raise ValueError( "Cannot add Collections with different object type" ) if len(data) == 0: return data = np.asarray(data) if data.ndim == 2: for key in np.unique(data[:, 0]): self.add(data[data[:, 0] == key, 1], key) else: key = int(key) data = np.unique(data) if key in self.d: self.d[key] = np.union1d(self.d[key], data) elif data.size > 0: self.d[key] = data
[docs] def set(self, data, key=-1): """Set the collection to the specified data. This is equivalent to clearing the corresponding keys before adding. """ self.clear() self.add(data, key)
[docs] def remove(self, data, key=-1): """Remove data from the collection.""" if isinstance(data, Collection): if data.obj_type == self.obj_type: for k in data.d: self.remove(data.d[k], k) return else: raise ValueError( "Cannot remove Collections with different object type" ) data = np.asarray(data) if data.ndim == 2: for key in np.unique(data[:, 0]): self.remove(data[data[:, 0] == key, 1], key) else: key = int(key) if key in self.d: data = np.setdiff1d(self.d[key], np.unique(data)) if data.size > 0: self.d[key] = data else: del self.d[key] else: pf.debug( "Not removing from non-existing selection for actor %s" % key, pf.DEBUG.DRAW )
def __contains__(self, key): """Check whether the collection has an entry for the key. This inplements the 'in' operator for a Collection. """ return key in self.d def __setitem__(self, key, data): """Set new values for the given key.""" key = int(key) data = np.unique(data) if data.size > 0: self.d[key] = data else: del self.d[key] def __iter__(self): """Return an iterator for the Collection The iterator loops over the sorted keys. """ return iter(self.keys()) def __getitem__(self, key): """Return item with given key.""" return self.d[key]
[docs] def get(self, key, default=[]): """Return item with given key or default.""" key = int(key) return self.d.get(key, default)
[docs] def keys(self): """Return a sorted array with the keys""" keys = sorted(self.d.keys()) return np.asarray(keys)
[docs] def items(self): """Return an iterator over (key,value) pairs.""" return self.d.items()
def __str__(self): if len(self) == 0: s = 'Empty Collection' else: s = '' for k in self.keys(): s += "%s %s; " % (k, self.d[k]) s = s.rstrip() return s
# End