2019-03-27 17:18:01 +00:00
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#-*- coding: UTF-8 -*-
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"""
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Some fancy helper functions.
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"""
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import os
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import ctypes
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import operator
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from distutils.sysconfig import get_python_lib
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import re
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import sys
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try: import numpy
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except ImportError: numpy = None
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import logging;logger = logging.getLogger("pyassimp")
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from .errors import AssimpError
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additional_dirs, ext_whitelist = [],[]
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# populate search directories and lists of allowed file extensions
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# depending on the platform we're running on.
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if os.name=='posix':
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additional_dirs.append('./')
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additional_dirs.append('/usr/lib/')
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additional_dirs.append('/usr/lib/x86_64-linux-gnu/')
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additional_dirs.append('/usr/local/lib/')
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if 'LD_LIBRARY_PATH' in os.environ:
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additional_dirs.extend([item for item in os.environ['LD_LIBRARY_PATH'].split(':') if item])
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# check if running from anaconda.
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if "conda" or "continuum" in sys.version.lower():
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cur_path = get_python_lib()
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pattern = re.compile('.*\/lib\/')
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conda_lib = pattern.match(cur_path).group()
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logger.info("Adding Anaconda lib path:"+ conda_lib)
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additional_dirs.append(conda_lib)
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# note - this won't catch libassimp.so.N.n, but
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# currently there's always a symlink called
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# libassimp.so in /usr/local/lib.
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ext_whitelist.append('.so')
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# libassimp.dylib in /usr/local/lib
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ext_whitelist.append('.dylib')
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elif os.name=='nt':
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ext_whitelist.append('.dll')
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path_dirs = os.environ['PATH'].split(';')
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additional_dirs.extend(path_dirs)
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def vec2tuple(x):
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""" Converts a VECTOR3D to a Tuple """
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return (x.x, x.y, x.z)
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def transform(vector3, matrix4x4):
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""" Apply a transformation matrix on a 3D vector.
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:param vector3: array with 3 elements
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:param matrix4x4: 4x4 matrix
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"""
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if numpy:
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return numpy.dot(matrix4x4, numpy.append(vector3, 1.))
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else:
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m0,m1,m2,m3 = matrix4x4; x,y,z = vector3
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return [
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m0[0]*x + m0[1]*y + m0[2]*z + m0[3],
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m1[0]*x + m1[1]*y + m1[2]*z + m1[3],
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m2[0]*x + m2[1]*y + m2[2]*z + m2[3],
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m3[0]*x + m3[1]*y + m3[2]*z + m3[3]
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]
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def _inv(matrix4x4):
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m0,m1,m2,m3 = matrix4x4
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det = m0[3]*m1[2]*m2[1]*m3[0] - m0[2]*m1[3]*m2[1]*m3[0] - \
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m0[3]*m1[1]*m2[2]*m3[0] + m0[1]*m1[3]*m2[2]*m3[0] + \
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m0[2]*m1[1]*m2[3]*m3[0] - m0[1]*m1[2]*m2[3]*m3[0] - \
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m0[3]*m1[2]*m2[0]*m3[1] + m0[2]*m1[3]*m2[0]*m3[1] + \
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m0[3]*m1[0]*m2[2]*m3[1] - m0[0]*m1[3]*m2[2]*m3[1] - \
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m0[2]*m1[0]*m2[3]*m3[1] + m0[0]*m1[2]*m2[3]*m3[1] + \
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m0[3]*m1[1]*m2[0]*m3[2] - m0[1]*m1[3]*m2[0]*m3[2] - \
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m0[3]*m1[0]*m2[1]*m3[2] + m0[0]*m1[3]*m2[1]*m3[2] + \
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m0[1]*m1[0]*m2[3]*m3[2] - m0[0]*m1[1]*m2[3]*m3[2] - \
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m0[2]*m1[1]*m2[0]*m3[3] + m0[1]*m1[2]*m2[0]*m3[3] + \
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m0[2]*m1[0]*m2[1]*m3[3] - m0[0]*m1[2]*m2[1]*m3[3] - \
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m0[1]*m1[0]*m2[2]*m3[3] + m0[0]*m1[1]*m2[2]*m3[3]
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return[[( m1[2]*m2[3]*m3[1] - m1[3]*m2[2]*m3[1] + m1[3]*m2[1]*m3[2] - m1[1]*m2[3]*m3[2] - m1[2]*m2[1]*m3[3] + m1[1]*m2[2]*m3[3]) /det,
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( m0[3]*m2[2]*m3[1] - m0[2]*m2[3]*m3[1] - m0[3]*m2[1]*m3[2] + m0[1]*m2[3]*m3[2] + m0[2]*m2[1]*m3[3] - m0[1]*m2[2]*m3[3]) /det,
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( m0[2]*m1[3]*m3[1] - m0[3]*m1[2]*m3[1] + m0[3]*m1[1]*m3[2] - m0[1]*m1[3]*m3[2] - m0[2]*m1[1]*m3[3] + m0[1]*m1[2]*m3[3]) /det,
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( m0[3]*m1[2]*m2[1] - m0[2]*m1[3]*m2[1] - m0[3]*m1[1]*m2[2] + m0[1]*m1[3]*m2[2] + m0[2]*m1[1]*m2[3] - m0[1]*m1[2]*m2[3]) /det],
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[( m1[3]*m2[2]*m3[0] - m1[2]*m2[3]*m3[0] - m1[3]*m2[0]*m3[2] + m1[0]*m2[3]*m3[2] + m1[2]*m2[0]*m3[3] - m1[0]*m2[2]*m3[3]) /det,
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( m0[2]*m2[3]*m3[0] - m0[3]*m2[2]*m3[0] + m0[3]*m2[0]*m3[2] - m0[0]*m2[3]*m3[2] - m0[2]*m2[0]*m3[3] + m0[0]*m2[2]*m3[3]) /det,
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( m0[3]*m1[2]*m3[0] - m0[2]*m1[3]*m3[0] - m0[3]*m1[0]*m3[2] + m0[0]*m1[3]*m3[2] + m0[2]*m1[0]*m3[3] - m0[0]*m1[2]*m3[3]) /det,
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( m0[2]*m1[3]*m2[0] - m0[3]*m1[2]*m2[0] + m0[3]*m1[0]*m2[2] - m0[0]*m1[3]*m2[2] - m0[2]*m1[0]*m2[3] + m0[0]*m1[2]*m2[3]) /det],
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[( m1[1]*m2[3]*m3[0] - m1[3]*m2[1]*m3[0] + m1[3]*m2[0]*m3[1] - m1[0]*m2[3]*m3[1] - m1[1]*m2[0]*m3[3] + m1[0]*m2[1]*m3[3]) /det,
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( m0[3]*m2[1]*m3[0] - m0[1]*m2[3]*m3[0] - m0[3]*m2[0]*m3[1] + m0[0]*m2[3]*m3[1] + m0[1]*m2[0]*m3[3] - m0[0]*m2[1]*m3[3]) /det,
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( m0[1]*m1[3]*m3[0] - m0[3]*m1[1]*m3[0] + m0[3]*m1[0]*m3[1] - m0[0]*m1[3]*m3[1] - m0[1]*m1[0]*m3[3] + m0[0]*m1[1]*m3[3]) /det,
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( m0[3]*m1[1]*m2[0] - m0[1]*m1[3]*m2[0] - m0[3]*m1[0]*m2[1] + m0[0]*m1[3]*m2[1] + m0[1]*m1[0]*m2[3] - m0[0]*m1[1]*m2[3]) /det],
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[( m1[2]*m2[1]*m3[0] - m1[1]*m2[2]*m3[0] - m1[2]*m2[0]*m3[1] + m1[0]*m2[2]*m3[1] + m1[1]*m2[0]*m3[2] - m1[0]*m2[1]*m3[2]) /det,
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( m0[1]*m2[2]*m3[0] - m0[2]*m2[1]*m3[0] + m0[2]*m2[0]*m3[1] - m0[0]*m2[2]*m3[1] - m0[1]*m2[0]*m3[2] + m0[0]*m2[1]*m3[2]) /det,
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( m0[2]*m1[1]*m3[0] - m0[1]*m1[2]*m3[0] - m0[2]*m1[0]*m3[1] + m0[0]*m1[2]*m3[1] + m0[1]*m1[0]*m3[2] - m0[0]*m1[1]*m3[2]) /det,
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( m0[1]*m1[2]*m2[0] - m0[2]*m1[1]*m2[0] + m0[2]*m1[0]*m2[1] - m0[0]*m1[2]*m2[1] - m0[1]*m1[0]*m2[2] + m0[0]*m1[1]*m2[2]) /det]]
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def get_bounding_box(scene):
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bb_min = [1e10, 1e10, 1e10] # x,y,z
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bb_max = [-1e10, -1e10, -1e10] # x,y,z
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inv = numpy.linalg.inv if numpy else _inv
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return get_bounding_box_for_node(scene.rootnode, bb_min, bb_max, inv(scene.rootnode.transformation))
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def get_bounding_box_for_node(node, bb_min, bb_max, transformation):
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if numpy:
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transformation = numpy.dot(transformation, node.transformation)
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else:
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t0,t1,t2,t3 = transformation
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T0,T1,T2,T3 = node.transformation
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transformation = [ [
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t0[0]*T0[0] + t0[1]*T1[0] + t0[2]*T2[0] + t0[3]*T3[0],
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t0[0]*T0[1] + t0[1]*T1[1] + t0[2]*T2[1] + t0[3]*T3[1],
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t0[0]*T0[2] + t0[1]*T1[2] + t0[2]*T2[2] + t0[3]*T3[2],
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t0[0]*T0[3] + t0[1]*T1[3] + t0[2]*T2[3] + t0[3]*T3[3]
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],[
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t1[0]*T0[0] + t1[1]*T1[0] + t1[2]*T2[0] + t1[3]*T3[0],
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t1[0]*T0[1] + t1[1]*T1[1] + t1[2]*T2[1] + t1[3]*T3[1],
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t1[0]*T0[2] + t1[1]*T1[2] + t1[2]*T2[2] + t1[3]*T3[2],
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t1[0]*T0[3] + t1[1]*T1[3] + t1[2]*T2[3] + t1[3]*T3[3]
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],[
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t2[0]*T0[0] + t2[1]*T1[0] + t2[2]*T2[0] + t2[3]*T3[0],
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t2[0]*T0[1] + t2[1]*T1[1] + t2[2]*T2[1] + t2[3]*T3[1],
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t2[0]*T0[2] + t2[1]*T1[2] + t2[2]*T2[2] + t2[3]*T3[2],
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t2[0]*T0[3] + t2[1]*T1[3] + t2[2]*T2[3] + t2[3]*T3[3]
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],[
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t3[0]*T0[0] + t3[1]*T1[0] + t3[2]*T2[0] + t3[3]*T3[0],
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t3[0]*T0[1] + t3[1]*T1[1] + t3[2]*T2[1] + t3[3]*T3[1],
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t3[0]*T0[2] + t3[1]*T1[2] + t3[2]*T2[2] + t3[3]*T3[2],
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t3[0]*T0[3] + t3[1]*T1[3] + t3[2]*T2[3] + t3[3]*T3[3]
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] ]
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for mesh in node.meshes:
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for v in mesh.vertices:
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v = transform(v, transformation)
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bb_min[0] = min(bb_min[0], v[0])
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bb_min[1] = min(bb_min[1], v[1])
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bb_min[2] = min(bb_min[2], v[2])
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bb_max[0] = max(bb_max[0], v[0])
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bb_max[1] = max(bb_max[1], v[1])
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bb_max[2] = max(bb_max[2], v[2])
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for child in node.children:
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bb_min, bb_max = get_bounding_box_for_node(child, bb_min, bb_max, transformation)
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return bb_min, bb_max
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def try_load_functions(library_path, dll):
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'''
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Try to bind to aiImportFile and aiReleaseImport
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Arguments
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---------
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library_path: path to current lib
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dll: ctypes handle to library
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Returns
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---------
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If unsuccessful:
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None
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If successful:
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Tuple containing (library_path,
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load from filename function,
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load from memory function,
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export to filename function,
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export to blob function,
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release function,
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ctypes handle to assimp library)
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'''
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try:
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load = dll.aiImportFile
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release = dll.aiReleaseImport
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load_mem = dll.aiImportFileFromMemory
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export = dll.aiExportScene
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export2blob = dll.aiExportSceneToBlob
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except AttributeError:
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#OK, this is a library, but it doesn't have the functions we need
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return None
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# library found!
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from .structs import Scene, ExportDataBlob
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2019-05-20 13:35:19 +00:00
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load.restype = ctypes.POINTER(Scene)
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load_mem.restype = ctypes.POINTER(Scene)
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export2blob.restype = ctypes.POINTER(ExportDataBlob)
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2019-03-27 17:18:01 +00:00
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return (library_path, load, load_mem, export, export2blob, release, dll)
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def search_library():
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'''
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Loads the assimp library.
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Throws exception AssimpError if no library_path is found
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Returns: tuple, (load from filename function,
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load from memory function,
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export to filename function,
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export to blob function,
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release function,
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dll)
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'''
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#this path
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folder = os.path.dirname(__file__)
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# silence 'DLL not found' message boxes on win
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try:
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ctypes.windll.kernel32.SetErrorMode(0x8007)
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except AttributeError:
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pass
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candidates = []
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# test every file
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for curfolder in [folder]+additional_dirs:
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if os.path.isdir(curfolder):
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for filename in os.listdir(curfolder):
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# our minimum requirement for candidates is that
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# they should contain 'assimp' somewhere in
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# their name
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if filename.lower().find('assimp')==-1 :
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continue
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is_out=1
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for et in ext_whitelist:
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if et in filename.lower():
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is_out=0
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break
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if is_out:
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continue
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library_path = os.path.join(curfolder, filename)
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logger.debug('Try ' + library_path)
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try:
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dll = ctypes.cdll.LoadLibrary(library_path)
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except Exception as e:
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logger.warning(str(e))
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# OK, this except is evil. But different OSs will throw different
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# errors. So just ignore any errors.
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continue
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# see if the functions we need are in the dll
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loaded = try_load_functions(library_path, dll)
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if loaded: candidates.append(loaded)
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if not candidates:
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# no library found
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raise AssimpError("assimp library not found")
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else:
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# get the newest library_path
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candidates = map(lambda x: (os.lstat(x[0])[-2], x), candidates)
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res = max(candidates, key=operator.itemgetter(0))[1]
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logger.debug('Using assimp library located at ' + res[0])
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# XXX: if there are 1000 dll/so files containing 'assimp'
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# in their name, do we have all of them in our address
|
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|
|
# space now until gc kicks in?
|
|
|
|
|
|
|
|
# XXX: take version postfix of the .so on linux?
|
|
|
|
return res[1:]
|
|
|
|
|
|
|
|
def hasattr_silent(object, name):
|
|
|
|
"""
|
|
|
|
Calls hasttr() with the given parameters and preserves the legacy (pre-Python 3.2)
|
|
|
|
functionality of silently catching exceptions.
|
|
|
|
|
|
|
|
Returns the result of hasatter() or False if an exception was raised.
|
|
|
|
"""
|
|
|
|
|
|
|
|
try:
|
|
|
|
return hasattr(object, name)
|
|
|
|
except AttributeError:
|
|
|
|
return False
|