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# ##### BEGIN GPL LICENSE BLOCK #####
#
# This program is free software; you can redistribute it and/or
# modify it under the terms of the GNU General Public License
# as published by the Free Software Foundation; either version 2
# of the License, or (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software Foundation,
# Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
#
# ##### END GPL LICENSE BLOCK #####
# <pep8 compliant>
import re
import struct
class element_spec(object):
__slots__ = ("name",
"count",
"properties",
)
def __init__(self, name, count):
self.name = name
self.count = count
self.properties = []
def load(self, format, stream):
if format == 'ascii':
stream = re.split('\s+', stream.readline())
return [x.load(format, stream) for x in self.properties]
def index(self, name):
for i, p in enumerate(self.properties):
if p.name == name:
return i
return -1
class property_spec(object):
__slots__ = ("name",
"list_type",
"numeric_type",
)
def __init__(self, name, list_type, numeric_type):
self.name = name
self.list_type = list_type
self.numeric_type = numeric_type
def read_format(self, format, count, num_type, stream):
if format == 'ascii':
if num_type == 's':
ans = []
for i in range(count):
s = stream[i]
if len(s) < 2 or s[0] != '"' or s[-1] != '"':
print('Invalid string', s)
print('Note: ply_import.py does not handle whitespace in strings')
return None
ans.append(s[1:-1])
stream[:count] = []
return ans
if num_type == 'f' or num_type == 'd':
mapper = float
else:
mapper = int
ans = [mapper(x) for x in stream[:count]]
stream[:count] = []
return ans
else:
if num_type == 's':
ans = []
for i in range(count):
fmt = format + 'i'
data = stream.read(struct.calcsize(fmt))
length = struct.unpack(fmt, data)[0]
fmt = '%s%is' % (format, length)
data = stream.read(struct.calcsize(fmt))
s = struct.unpack(fmt, data)[0]
ans.append(s[:-1]) # strip the NULL
return ans
else:
fmt = '%s%i%s' % (format, count, num_type)
data = stream.read(struct.calcsize(fmt))
return struct.unpack(fmt, data)
def load(self, format, stream):
if self.list_type is not None:
count = int(self.read_format(format, 1, self.list_type, stream)[0])
return self.read_format(format, count, self.numeric_type, stream)
else:
return self.read_format(format, 1, self.numeric_type, stream)[0]
class object_spec(object):
__slots__ = ("specs",
)
'A list of element_specs'
def __init__(self):
self.specs = []
def load(self, format, stream):
return dict([(i.name, [i.load(format, stream) for j in range(i.count)]) for i in self.specs])
'''
# Longhand for above LC
answer = {}
for i in self.specs:
answer[i.name] = []
for j in range(i.count):
if not j % 100 and meshtools.show_progress:
Blender.Window.DrawProgressBar(float(j) / i.count, 'Loading ' + i.name)
answer[i.name].append(i.load(format, stream))
return answer
'''
def read(filepath):
format = ''
version = '1.0'
format_specs = {'binary_little_endian': '<',
'binary_big_endian': '>',
'ascii': 'ascii'}
type_specs = {'char': 'b',
'uchar': 'B',
'int8': 'b',
'uint8': 'B',
'int16': 'h',
'uint16': 'H',
'ushort': 'H',
'int': 'i',
'int32': 'i',
'uint': 'I',
'uint32': 'I',
'float': 'f',
'float32': 'f',
'float64': 'd',
'double': 'd',
'string': 's'}
obj_spec = object_spec()
try:
file = open(filepath, 'rU') # Only for parsing the header, not binary data
signature = file.readline()
if not signature.startswith('ply'):
print('Signature line was invalid')
return None
while 1:
tokens = re.split(r'[ \n]+', file.readline())
if len(tokens) == 0:
continue
if tokens[0] == 'end_header':
break
elif tokens[0] == 'comment' or tokens[0] == 'obj_info':
continue
elif tokens[0] == 'format':
if len(tokens) < 3:
print('Invalid format line')
return None
if tokens[1] not in format_specs: # .keys(): # keys is implicit
print('Unknown format', tokens[1])
return None
if tokens[2] != version:
print('Unknown version', tokens[2])
return None
format = tokens[1]
elif tokens[0] == 'element':
if len(tokens) < 3:
print('Invalid element line')
return None
obj_spec.specs.append(element_spec(tokens[1], int(tokens[2])))
elif tokens[0] == 'property':
if not len(obj_spec.specs):
print('Property without element')
return None
if tokens[1] == 'list':
obj_spec.specs[-1].properties.append(property_spec(tokens[4], type_specs[tokens[2]], type_specs[tokens[3]]))
else:
obj_spec.specs[-1].properties.append(property_spec(tokens[2], None, type_specs[tokens[1]]))
if format != 'ascii':
file.close() # was ascii, now binary
file = open(filepath, 'rb')
# skip the header...
while not file.readline().startswith('end_header'):
pass
obj = obj_spec.load(format_specs[format], file)
except IOError:
try:
file.close()
except:
pass
return None
try:
file.close()
except:
pass
return obj_spec, obj
import bpy
def load_ply(filepath):
import time
from io_utils import load_image, unpack_list, unpack_face_list
t = time.time()
obj_spec, obj = read(filepath)
if obj is None:
print('Invalid file')
return
uvindices = colindices = None
# noindices = None # Ignore normals
for el in obj_spec.specs:
if el.name == 'vertex':
vindices = vindices_x, vindices_y, vindices_z = (el.index('x'), el.index('y'), el.index('z'))
# noindices = (el.index('nx'), el.index('ny'), el.index('nz'))
# if -1 in noindices: noindices = None
uvindices = (el.index('s'), el.index('t'))
if -1 in uvindices:
uvindices = None
colindices = (el.index('red'), el.index('green'), el.index('blue'))
if -1 in colindices:
colindices = None
elif el.name == 'face':
findex = el.index('vertex_indices')
mesh_faces = []
mesh_uvs = []
mesh_colors = []
def add_face(vertices, indices, uvindices, colindices):
mesh_faces.append(indices)
if uvindices:
mesh_uvs.append([(vertices[index][uvindices[0]], 1.0 - vertices[index][uvindices[1]]) for index in indices])
if colindices:
mesh_colors.append([(vertices[index][colindices[0]], vertices[index][colindices[1]], vertices[index][colindices[2]]) for index in indices])
if uvindices or colindices:
# If we have Cols or UVs then we need to check the face order.
add_face_simple = add_face
# EVIL EEKADOODLE - face order annoyance.
def add_face(vertices, indices, uvindices, colindices):
if len(indices) == 4:
if indices[2] == 0 or indices[3] == 0:
indices = indices[2], indices[3], indices[0], indices[1]
elif len(indices) == 3:
if indices[2] == 0:
indices = indices[1], indices[2], indices[0]
add_face_simple(vertices, indices, uvindices, colindices)
verts = obj['vertex']
if 'face' in obj:
for f in obj['face']:
ind = f[findex]
len_ind = len(ind)
if len_ind <= 4:
add_face(verts, ind, uvindices, colindices)
else:
# Fan fill the face
for j in range(len_ind - 2):
add_face(verts, (ind[0], ind[j + 1], ind[j + 2]), uvindices, colindices)
ply_name = bpy.path.display_name_from_filepath(filepath)
mesh = bpy.data.meshes.new(name=ply_name)
mesh.vertices.add(len(obj['vertex']))
mesh.vertices.foreach_set("co", [a for v in obj['vertex'] for a in (v[vindices_x], v[vindices_y], v[vindices_z])])
if mesh_faces:
mesh.faces.add(len(mesh_faces))
mesh.faces.foreach_set("vertices_raw", unpack_face_list(mesh_faces))
if uvindices or colindices:
if uvindices:
uvlay = mesh.uv_textures.new()
if colindices:
vcol_lay = mesh.vertex_colors.new()
if uvindices:
for i, f in enumerate(uvlay.data):
ply_uv = mesh_uvs[i]
for j, uv in enumerate(f.uv):
uv[:] = ply_uv[j]
if colindices:
faces = obj['face']
for i, f in enumerate(vcol_lay.data):
# XXX, colors dont come in right, needs further investigation.
ply_col = mesh_colors[i]
if len(faces[i]) == 4:
f_col = f.color1, f.color2, f.color3, f.color4
else:
f_col = f.color1, f.color2, f.color3
for j, col in enumerate(f_col):
col.r, col.g, col.b = ply_col[j]
mesh.update()
scn = bpy.context.scene
#scn.objects.selected = [] # XXX25
obj = bpy.data.objects.new(ply_name, mesh)
scn.objects.link(obj)
scn.objects.active = obj
obj.select = True
print('\nSuccessfully imported %r in %.3f sec' % (filepath, time.time() - t))
def load(operator, context, filepath=""):
load_ply(filepath)
return {'FINISHED'}