blender/release/scripts/export_obj.py
Campbell Barton b0921f3d79 exporting normals wit the "High Quality Normals" option disabled, exported localspace normals.
not too bad since HQNormals were enabled by default.
2007-06-06 04:34:59 +00:00

650 lines
21 KiB
Python

#!BPY
"""
Name: 'Wavefront (.obj)...'
Blender: 243
Group: 'Export'
Tooltip: 'Save a Wavefront OBJ File'
"""
__author__ = "Campbell Barton, Jiri Hnidek"
__url__ = ['www.blender.org', 'blenderartists.org']
__version__ = "1.1"
__bpydoc__ = """\
This script is an exporter to OBJ file format.
Usage:
Select the objects you wish to export and run this script from "File->Export" menu.
Selecting the default options from the popup box will be good in most cases.
All objects that can be represented as a mesh (mesh, curve, metaball, surface, text3d)
will be exported as mesh data.
"""
# --------------------------------------------------------------------------
# OBJ Export v1.1 by Campbell Barton (AKA Ideasman)
# --------------------------------------------------------------------------
# ***** 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
#
# ***** END GPL LICENCE BLOCK *****
# --------------------------------------------------------------------------
import Blender
from Blender import Mesh, Scene, Window, sys, Image, Draw
import BPyMesh
import BPyObject
import BPySys
import BPyMessages
# Returns a tuple - path,extension.
# 'hello.obj' > ('hello', '.obj')
def splitExt(path):
dotidx = path.rfind('.')
if dotidx == -1:
return path, ''
else:
return path[:dotidx], path[dotidx:]
def fixName(name):
if name == None:
return 'None'
else:
return name.replace(' ', '_')
# A Dict of Materials
# (material.name, image.name):matname_imagename # matname_imagename has gaps removed.
MTL_DICT = {}
def write_mtl(filename):
world = Blender.World.GetCurrent()
if world:
worldAmb = world.getAmb()
else:
worldAmb = (0,0,0) # Default value
file = open(filename, "w")
file.write('# Blender3D MTL File: %s\n' % Blender.Get('filename').split('\\')[-1].split('/')[-1])
file.write('# Material Count: %i\n' % len(MTL_DICT))
# Write material/image combinations we have used.
for key, (mtl_mat_name, mat, img) in MTL_DICT.iteritems():
# Get the Blender data for the material and the image.
# Having an image named None will make a bug, dont do it :)
file.write('newmtl %s\n' % mtl_mat_name) # Define a new material: matname_imgname
if mat:
file.write('Ns %.6f\n' % ((mat.getHardness()-1) * 1.9607843137254901) ) # Hardness, convert blenders 1-511 to MTL's
file.write('Ka %.6f %.6f %.6f\n' % tuple([c*mat.amb for c in worldAmb]) ) # Ambient, uses mirror colour,
file.write('Kd %.6f %.6f %.6f\n' % tuple([c*mat.ref for c in mat.rgbCol]) ) # Diffuse
file.write('Ks %.6f %.6f %.6f\n' % tuple([c*mat.spec for c in mat.specCol]) ) # Specular
file.write('Ni %.6f\n' % mat.IOR) # Refraction index
file.write('d %.6f\n' % mat.alpha) # Alpha (obj uses 'd' for dissolve)
# 0 to disable lighting, 1 for ambient & diffuse only (specular color set to black), 2 for full lighting.
if mat.getMode() & Blender.Material.Modes['SHADELESS']:
file.write('illum 0\n') # ignore lighting
elif mat.getSpec() == 0:
file.write('illum 1\n') # no specular.
else:
file.write('illum 2\n') # light normaly
else:
#write a dummy material here?
file.write('Ns 0\n')
file.write('Ka %.6f %.6f %.6f\n' % tuple([c for c in worldAmb]) ) # Ambient, uses mirror colour,
file.write('Kd 0.8 0.8 0.8\n')
file.write('Ks 0.8 0.8 0.8\n')
file.write('d 1\n') # No alpha
file.write('illum 2\n') # light normaly
# Write images!
if img: # We have an image on the face!
file.write('map_Kd %s\n' % img.filename.split('\\')[-1].split('/')[-1]) # Diffuse mapping image
elif not mat: # No face image. if we havea material search for MTex image.
for mtex in mat.getTextures():
if mtex and mtex.tex.type == Blender.Texture.Types.IMAGE:
try:
filename = mtex.tex.image.filename.split('\\')[-1].split('/')[-1]
file.write('map_Kd %s\n' % filename) # Diffuse mapping image
break
except:
# Texture has no image though its an image type, best ignore.
pass
file.write('\n\n')
file.close()
def copy_file(source, dest):
file = open(source, 'rb')
data = file.read()
file.close()
file = open(dest, 'wb')
file.write(data)
file.close()
def copy_images(dest_dir):
if dest_dir[-1] != sys.sep:
dest_dir += sys.sep
# Get unique image names
uniqueImages = {}
for matname, mat, image in MTL_DICT.itervalues(): # Only use image name
# Get Texface images
if image:
uniqueImages[image] = image # Should use sets here. wait until Python 2.4 is default.
# Get MTex images
if mat:
for mtex in mat.getTextures():
if mtex and mtex.tex.type == Blender.Texture.Types.IMAGE:
image_tex = mtex.tex.image
if image_tex:
try:
uniqueImages[image_tex] = image_tex
except:
pass
# Now copy images
copyCount = 0
for bImage in uniqueImages.itervalues():
image_path = sys.expandpath(bImage.filename)
if sys.exists(image_path):
# Make a name for the target path.
dest_image_path = dest_dir + image_path.split('\\')[-1].split('/')[-1]
if not sys.exists(dest_image_path): # Image isnt alredy there
print '\tCopying "%s" > "%s"' % (image_path, dest_image_path)
copy_file(image_path, dest_image_path)
copyCount+=1
print '\tCopied %d images' % copyCount
def write(filename, objects,\
EXPORT_TRI=False, EXPORT_EDGES=False, EXPORT_NORMALS=False, EXPORT_NORMALS_HQ=False,\
EXPORT_UV=True, EXPORT_MTL=True, EXPORT_COPY_IMAGES=False,\
EXPORT_APPLY_MODIFIERS=True, EXPORT_ROTX90=True, EXPORT_BLEN_OBS=True,\
EXPORT_GROUP_BY_OB=False, EXPORT_GROUP_BY_MAT=False, EXPORT_MORPH_TARGET=False):
'''
Basic write function. The context and options must be alredy set
This can be accessed externaly
eg.
write( 'c:\\test\\foobar.obj', Blender.Object.GetSelected() ) # Using default options.
'''
def veckey3d(v):
return round(v.x, 6), round(v.y, 6), round(v.z, 6)
#def veckey2d(v):
# return round(v.x, 6), round(v.y, 6)
print 'OBJ Export path: "%s"' % filename
temp_mesh_name = '~tmp-mesh'
time1 = sys.time()
scn = Scene.GetCurrent()
file = open(filename, "w")
# Write Header
file.write('# Blender3D v%s OBJ File: %s\n' % (Blender.Get('version'), Blender.Get('filename').split('/')[-1].split('\\')[-1] ))
file.write('# www.blender3d.org\n')
# Tell the obj file what material file to use.
if EXPORT_MTL:
mtlfilename = '%s.mtl' % '.'.join(filename.split('.')[:-1])
file.write('mtllib %s\n' % ( mtlfilename.split('\\')[-1].split('/')[-1] ))
# Get the container mesh. - used for applying modifiers and non mesh objects.
containerMesh = meshName = tempMesh = None
for meshName in Blender.NMesh.GetNames():
if meshName.startswith(temp_mesh_name):
tempMesh = Mesh.Get(meshName)
if not tempMesh.users:
containerMesh = tempMesh
if not containerMesh:
containerMesh = Mesh.New(temp_mesh_name)
if EXPORT_ROTX90:
mat_xrot90= Blender.Mathutils.RotationMatrix(-90, 4, 'x')
del meshName
del tempMesh
# Initialize totals, these are updated each object
totverts = totuvco = totno = 1
face_vert_index = 1 # used for uvs now
globalNormals = {}
# Get all meshs
for ob_main in objects:
for ob, ob_mat in BPyObject.getDerivedObjects(ob_main):
# Will work for non meshes now! :)
# getMeshFromObject(ob, container_mesh=None, apply_modifiers=True, vgroups=True, scn=None)
me= BPyMesh.getMeshFromObject(ob, containerMesh, EXPORT_APPLY_MODIFIERS, False, scn)
if not me:
continue
faceuv= me.faceUV
# We have a valid mesh
if EXPORT_TRI and me.faces:
# Add a dummy object to it.
has_quads = False
for f in me.faces:
if len(f) == 4:
has_quads = True
break
if has_quads:
oldmode = Mesh.Mode()
Mesh.Mode(Mesh.SelectModes['FACE'])
me.sel = True
tempob = scn.objects.new(me)
me.quadToTriangle(0) # more=0 shortest length
oldmode = Mesh.Mode(oldmode)
scn.objects.unlink(tempob)
Mesh.Mode(oldmode)
# Make our own list so it can be sorted to reduce context switching
faces = [ f for f in me.faces ]
if EXPORT_EDGES:
edges = me.edges
else:
edges = []
if not (len(faces)+len(edges)+len(me.verts)): # Make sure there is somthing to write
continue # dont bother with this mesh.
if EXPORT_ROTX90:
me.transform(ob_mat*mat_xrot90)
else:
me.transform(ob_mat)
# High Quality Normals
if EXPORT_NORMALS and faces:
if EXPORT_NORMALS_HQ:
BPyMesh.meshCalcNormals(me)
else:
# transforming normals is incorrect
# when the matrix is scaled,
# better to recalculate them
me.calcNormals()
# # Crash Blender
#materials = me.getMaterials(1) # 1 == will return None in the list.
materials = me.materials
materialNames = []
materialItems = materials[:]
if materials:
for mat in materials:
if mat: # !=None
materialNames.append(mat.name)
else:
materialNames.append(None)
# Cant use LC because some materials are None.
# materialNames = map(lambda mat: mat.name, materials) # Bug Blender, dosent account for null materials, still broken.
# Possible there null materials, will mess up indicies
# but at least it will export, wait until Blender gets fixed.
materialNames.extend((16-len(materialNames)) * [None])
materialItems.extend((16-len(materialItems)) * [None])
# Sort by Material, then images
# so we dont over context switch in the obj file.
if EXPORT_MORPH_TARGET:
pass
elif faceuv and EXPORT_UV:
try: faces.sort(key = lambda a: (a.mat, a.image, a.smooth))
except: faces.sort(lambda a,b: cmp((a.mat, a.image, a.smooth), (b.mat, b.image, b.smooth)))
elif len(materials) > 1:
try: faces.sort(key = lambda a: (a.mat, a.smooth))
except: faces.sort(lambda a,b: cmp((a.mat, a.smooth), (b.mat, b.smooth)))
else:
# no materials
try: faces.sort(key = lambda a: a.smooth)
except: faces.sort(lambda a,b: cmp(a.smooth, b.smooth))
# Set the default mat to no material and no image.
contextMat = (0, 0) # Can never be this, so we will label a new material teh first chance we get.
contextSmooth = None # Will either be true or false, set bad to force initialization switch.
if EXPORT_BLEN_OBS or EXPORT_GROUP_BY_OB:
name1 = ob.name
name2 = ob.getData(1)
if name1 == name2:
obnamestring = fixName(name1)
else:
obnamestring = '%s_%s' % (fixName(name1), fixName(name2))
if EXPORT_BLEN_OBS:
file.write('o %s\n' % obnamestring) # Write Object name
else: # if EXPORT_GROUP_BY_OB:
file.write('g %s\n' % obnamestring)
# Vert
for v in me.verts:
file.write('v %.6f %.6f %.6f\n' % tuple(v.co))
# UV
if faceuv and EXPORT_UV:
for f in faces:
for uv in f.uv:
file.write('vt %.6f %.6f 0.0\n' % tuple(uv))
# NORMAL, Smooth/Non smoothed.
if EXPORT_NORMALS:
for f in faces:
if f.smooth:
for v in f:
noKey = veckey3d(v.no)
if not globalNormals.has_key( noKey ):
globalNormals[noKey] = totno
totno +=1
file.write('vn %.6f %.6f %.6f\n' % noKey)
else:
# Hard, 1 normal from the face.
noKey = veckey3d(f.no)
if not globalNormals.has_key( noKey ):
globalNormals[noKey] = totno
totno +=1
file.write('vn %.6f %.6f %.6f\n' % noKey)
if not faceuv:
f_image = None
for f in faces:
f_v= f.v
f_smooth= f.smooth
f_mat = min(f.mat, len(materialNames)-1)
if faceuv:
f_image = f.image
f_uv= f.uv
# MAKE KEY
if EXPORT_UV and faceuv and f_image: # Object is always true.
key = materialNames[f_mat], f_image.name
else:
key = materialNames[f_mat], None # No image, use None instead.
# CHECK FOR CONTEXT SWITCH
if key == contextMat:
pass # Context alredy switched, dont do anythoing
else:
if key[0] == None and key[1] == None:
# Write a null material, since we know the context has changed.
if EXPORT_GROUP_BY_MAT:
file.write('g %s_%s\n' % (fixName(ob.name), fixName(ob.getData(1))) ) # can be mat_image or (null)
file.write('usemtl (null)\n') # mat, image
else:
mat_data= MTL_DICT.get(key)
if not mat_data:
# First add to global dict so we can export to mtl
# Then write mtl
# Make a new names from the mat and image name,
# converting any spaces to underscores with fixName.
# If none image dont bother adding it to the name
if key[1] == None:
mat_data = MTL_DICT[key] = ('%s'%fixName(key[0])), materialItems[f_mat], f_image
else:
mat_data = MTL_DICT[key] = ('%s_%s' % (fixName(key[0]), fixName(key[1]))), materialItems[f_mat], f_image
if EXPORT_GROUP_BY_MAT:
file.write('g %s_%s_%s\n' % (fixName(ob.name), fixName(ob.getData(1)), mat_data[0]) ) # can be mat_image or (null)
file.write('usemtl %s\n' % mat_data[0]) # can be mat_image or (null)
contextMat = key
if f_smooth != contextSmooth:
if f_smooth: # on now off
file.write('s 1\n')
contextSmooth = f_smooth
else: # was off now on
file.write('s off\n')
contextSmooth = f_smooth
file.write('f')
if faceuv and EXPORT_UV:
if EXPORT_NORMALS:
if f_smooth: # Smoothed, use vertex normals
for vi, v in enumerate(f_v):
file.write( ' %d/%d/%d' % (\
v.index+totverts,\
face_vert_index + vi,\
globalNormals[ veckey3d(v.no) ])) # vert, uv, normal
else: # No smoothing, face normals
no = globalNormals[ veckey3d(f.no) ]
for vi, v in enumerate(f_v):
file.write( ' %d/%d/%d' % (\
v.index+totverts,\
face_vert_index + vi,\
no)) # vert, uv, normal
else: # No Normals
for vi, v in enumerate(f_v):
file.write( ' %d/%d' % (\
v.index+totverts,\
face_vert_index + vi)) # vert, uv
face_vert_index += len(f_v)
else: # No UV's
if EXPORT_NORMALS:
if f_smooth: # Smoothed, use vertex normals
for v in f_v:
file.write( ' %d//%d' % (\
v.index+totverts,\
globalNormals[ veckey3d(v.no) ]))
else: # No smoothing, face normals
no = globalNormals[ veckey3d(f.no) ]
for v in f_v:
file.write( ' %d//%d' % (\
v.index+totverts,\
no))
else: # No Normals
for v in f_v:
file.write( ' %d' % (\
v.index+totverts))
file.write('\n')
# Write edges.
if EXPORT_EDGES:
LOOSE= Mesh.EdgeFlags.LOOSE
for ed in edges:
if ed.flag & LOOSE:
file.write('f %d %d\n' % (ed.v1.index+totverts, ed.v2.index+totverts))
# Make the indicies global rather then per mesh
totverts += len(me.verts)
me.verts= None
file.close()
# Now we have all our materials, save them
if EXPORT_MTL:
write_mtl(mtlfilename)
if EXPORT_COPY_IMAGES:
dest_dir = filename
# Remove chars until we are just the path.
while dest_dir and dest_dir[-1] not in '\\/':
dest_dir = dest_dir[:-1]
if dest_dir:
copy_images(dest_dir)
else:
print '\tError: "%s" could not be used as a base for an image path.' % filename
print "OBJ Export time: %.2f" % (sys.time() - time1)
def write_ui(filename):
if not filename.lower().endswith('.obj'):
filename += '.obj'
#if not BPyMessages.Warning_SaveOver(filename):
# return
EXPORT_APPLY_MODIFIERS = Draw.Create(1)
EXPORT_ROTX90 = Draw.Create(1)
EXPORT_TRI = Draw.Create(0)
EXPORT_EDGES = Draw.Create(1)
EXPORT_NORMALS = Draw.Create(0)
EXPORT_NORMALS_HQ = Draw.Create(1)
EXPORT_UV = Draw.Create(1)
EXPORT_MTL = Draw.Create(1)
EXPORT_SEL_ONLY = Draw.Create(1)
EXPORT_ALL_SCENES = Draw.Create(0)
EXPORT_ANIMATION = Draw.Create(0)
EXPORT_COPY_IMAGES = Draw.Create(0)
EXPORT_BLEN_OBS = Draw.Create(1)
EXPORT_GROUP_BY_OB = Draw.Create(0)
EXPORT_GROUP_BY_MAT = Draw.Create(0)
EXPORT_MORPH_TARGET = Draw.Create(0)
# removed too many options are bad!
# Get USER Options
pup_block = [\
('Context...'),\
('Selection Only', EXPORT_SEL_ONLY, 'Only export objects in visible selection. Else export whole scene.'),\
('All Scenes', EXPORT_ALL_SCENES, 'Each scene as a separate OBJ file.'),\
('Animation', EXPORT_ANIMATION, 'Each frame as a numbered OBJ file.'),\
('Object Prefs...'),\
('Apply Modifiers', EXPORT_APPLY_MODIFIERS, 'Use transformed mesh data from each object. May break vert order for morph targets.'),\
('Rotate X90', EXPORT_ROTX90 , 'Rotate on export so Blenders UP is translated into OBJs UP'),\
('Morph Target', EXPORT_MORPH_TARGET, 'Keep vert and face order, disables some other options.'),\
('Extra Data...'),\
('Edges', EXPORT_EDGES, 'Edges not connected to faces.'),\
('Normals', EXPORT_NORMALS, 'Export vertex normal data (Ignored on import).'),\
('High Quality Normals', EXPORT_NORMALS_HQ, 'Calculate high quality normals for rendering.'),\
('UVs', EXPORT_UV, 'Export texface UV coords.'),\
('Materials', EXPORT_MTL, 'Write a separate MTL file with the OBJ.'),\
('Copy Images', EXPORT_COPY_IMAGES, 'Copy image files to the export directory, never overwrite.'),\
('Triangulate', EXPORT_TRI, 'Triangulate quads.'),\
('Grouping...'),\
('Objects', EXPORT_BLEN_OBS, 'Export blender objects as "OBJ objects".'),\
('Object Groups', EXPORT_GROUP_BY_OB, 'Export blender objects as "OBJ Groups".'),\
('Material Groups', EXPORT_GROUP_BY_MAT, 'Group by materials.'),\
]
if not Draw.PupBlock('Export...', pup_block):
return
if EXPORT_MORPH_TARGET.val:
EXPORT_BLEN_OBS.val = False
EXPORT_GROUP_BY_OB.val = False
EXPORT_GROUP_BY_MAT.val = False
EXPORT_GROUP_BY_MAT.val = False
EXPORT_APPLY_MODIFIERS.val = False
Window.EditMode(0)
Window.WaitCursor(1)
EXPORT_APPLY_MODIFIERS = EXPORT_APPLY_MODIFIERS.val
EXPORT_ROTX90 = EXPORT_ROTX90.val
EXPORT_TRI = EXPORT_TRI.val
EXPORT_EDGES = EXPORT_EDGES.val
EXPORT_NORMALS = EXPORT_NORMALS.val
EXPORT_NORMALS_HQ = EXPORT_NORMALS_HQ.val
EXPORT_UV = EXPORT_UV.val
EXPORT_MTL = EXPORT_MTL.val
EXPORT_SEL_ONLY = EXPORT_SEL_ONLY.val
EXPORT_ALL_SCENES = EXPORT_ALL_SCENES.val
EXPORT_ANIMATION = EXPORT_ANIMATION.val
EXPORT_COPY_IMAGES = EXPORT_COPY_IMAGES.val
EXPORT_BLEN_OBS = EXPORT_BLEN_OBS.val
EXPORT_GROUP_BY_OB = EXPORT_GROUP_BY_OB.val
EXPORT_GROUP_BY_MAT = EXPORT_GROUP_BY_MAT.val
EXPORT_MORPH_TARGET = EXPORT_MORPH_TARGET.val
base_name, ext = splitExt(filename)
context_name = [base_name, '', '', ext] # basename, scene_name, framenumber, extension
# Use the options to export the data using write()
# def write(filename, objects, EXPORT_EDGES=False, EXPORT_NORMALS=False, EXPORT_MTL=True, EXPORT_COPY_IMAGES=False, EXPORT_APPLY_MODIFIERS=True):
orig_scene = Scene.GetCurrent()
if EXPORT_ALL_SCENES:
export_scenes = Scene.Get()
else:
export_scenes = [orig_scene]
# Export all scenes.
for scn in export_scenes:
scn.makeCurrent() # If alredy current, this is not slow.
context = scn.getRenderingContext()
orig_frame = Blender.Get('curframe')
if EXPORT_ALL_SCENES: # Add scene name into the context_name
context_name[1] = '_%s' % BPySys.cleanName(scn.name) # WARNING, its possible that this could cause a collision. we could fix if were feeling parranoied.
# Export an animation?
if EXPORT_ANIMATION:
scene_frames = xrange(context.startFrame(), context.endFrame()+1) # up to and including the end frame.
else:
scene_frames = [orig_frame] # Dont export an animation.
# Loop through all frames in the scene and export.
for frame in scene_frames:
if EXPORT_ANIMATION: # Add frame to the filename.
context_name[2] = '_%.6d' % frame
Blender.Set('curframe', frame)
if EXPORT_SEL_ONLY:
export_objects = scn.objects.context
else:
export_objects = scn.objects
full_path= ''.join(context_name)
if BPyMessages.Warning_SaveOver(full_path):
# EXPORT THE FILE.
write(full_path, export_objects,\
EXPORT_TRI, EXPORT_EDGES, EXPORT_NORMALS,\
EXPORT_NORMALS_HQ, EXPORT_UV, EXPORT_MTL,\
EXPORT_COPY_IMAGES, EXPORT_APPLY_MODIFIERS,\
EXPORT_ROTX90, EXPORT_BLEN_OBS,\
EXPORT_GROUP_BY_OB, EXPORT_GROUP_BY_MAT, EXPORT_MORPH_TARGET)
Blender.Set('curframe', orig_frame)
# Restore old active scene.
orig_scene.makeCurrent()
Window.WaitCursor(0)
if __name__ == '__main__':
Window.FileSelector(write_ui, 'Export Wavefront OBJ', sys.makename(ext='.obj'))