/usr/lib/python2.7/dist-packages/collada/polygons.py is in python-collada 0.4-2.
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# #
# THIS FILE IS PART OF THE pycollada LIBRARY SOURCE CODE. #
# USE, DISTRIBUTION AND REPRODUCTION OF THIS LIBRARY SOURCE IS #
# GOVERNED BY A BSD-STYLE SOURCE LICENSE INCLUDED WITH THIS SOURCE #
# IN 'COPYING'. PLEASE READ THESE TERMS BEFORE DISTRIBUTING. #
# #
# THE pycollada SOURCE CODE IS (C) COPYRIGHT 2011 #
# by Jeff Terrace and contributors #
# #
####################################################################
"""Module containing classes and functions for the <polygons> primitive."""
import numpy
from collada import primitive
from collada import polylist
from collada import triangleset
from collada.common import E, tag
from collada.common import DaeIncompleteError, DaeBrokenRefError, \
DaeMalformedError, DaeUnsupportedError
from collada.util import toUnitVec, checkSource
from collada.xmlutil import etree as ElementTree
class Polygons(polylist.Polylist):
"""Class containing the data COLLADA puts in a <polygons> tag, a collection of
polygons that can have holes.
* The Polygons object is read-only. To modify a
Polygons, create a new instance using :meth:`collada.geometry.Geometry.createPolygons`.
* Polygons with holes are not currently supported, so for right now, this class is
essentially the same as a :class:`collada.polylist.Polylist`. Use a polylist instead
if your polygons don't have holes.
"""
def __init__(self, sources, material, polygons, xmlnode=None):
"""A Polygons should not be created manually. Instead, call the
:meth:`collada.geometry.Geometry.createPolygons` method after
creating a geometry instance.
"""
max_offset = max([ max([input[0] for input in input_type_array])
for input_type_array in sources.values()
if len(input_type_array) > 0])
vcounts = numpy.zeros(len(polygons), dtype=numpy.int32)
for i, poly in enumerate(polygons):
vcounts[i] = len(poly) / (max_offset + 1)
if len(polygons) > 0:
indices = numpy.concatenate(polygons)
else:
indices = numpy.array([], dtype=numpy.int32)
super(Polygons, self).__init__(sources, material, indices, vcounts, xmlnode)
if xmlnode is not None: self.xmlnode = xmlnode
else:
acclen = len(polygons)
self.xmlnode = E.polygons(count=str(acclen), material=self.material)
all_inputs = []
for semantic_list in self.sources.values():
all_inputs.extend(semantic_list)
for offset, semantic, sourceid, set, src in all_inputs:
inpnode = E.input(offset=str(offset), semantic=semantic, source=sourceid)
if set is not None:
inpnode.set('set', str(set))
self.xmlnode.append(inpnode)
for poly in polygons:
self.xmlnode.append(E.p(' '.join(map(str, poly.flatten().tolist()))))
@staticmethod
def load( collada, localscope, node ):
indexnodes = node.findall(tag('p'))
if indexnodes is None: raise DaeIncompleteError('Missing indices in polygons')
polygon_indices = []
for indexnode in indexnodes:
index = numpy.fromstring(indexnode.text, dtype=numpy.int32, sep=' ')
index[numpy.isnan(index)] = 0
polygon_indices.append(index)
all_inputs = primitive.Primitive._getInputs(collada, localscope, node.findall(tag('input')))
polygons = Polygons(all_inputs, node.get('material'), polygon_indices, node)
return polygons
def bind(self, matrix, materialnodebysymbol):
"""Create a bound polygons from this polygons, transform and material mapping"""
return BoundPolygons( self, matrix, materialnodebysymbol )
def __str__(self):
return '<Polygons length=%d>' % len(self)
def __repr__(self):
return str(self)
class BoundPolygons(polylist.BoundPolylist):
"""Polygons bound to a transform matrix and materials mapping."""
def __init__(self, pl, matrix, materialnodebysymbol):
"""Create a BoundPolygons from a Polygons, transform and material mapping"""
super(BoundPolygons, self).__init__(pl, matrix, materialnodebysymbol)
def __str__(self):
return '<BoundPolygons length=%d>' % len(self)
def __repr__(self):
return str(self)
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