kannonier8/blender
1
0
Fork 0
forked from bartvdbraak/blender
Code Pull Requests Activity
58ba4ce011
blender/release/scripts/export_m3g.py

3075 lines
123 KiB
Python
Raw Normal View History

Script from Gerhard for exporting blender to m3g and java source, see website for examples http://www.nelson-games.de/bl2m3g/default.html
2007-05-29 21:39:29 +00:00
#!BPY
added encoding "# coding: utf-8" to the headers of scripts that python would not run with execfile('....'), python would also riase the error, though there is no practicle use for running these scripts outside blender. The error looked like this. SyntaxError: Non-ASCII character '\xe4' in file ./3ds_export.py on line 10, but no encoding declared; see http://www.python.org/peps/pep-0263.html for details
2008-05-11 12:41:12 +00:00
# coding: utf-8
Script from Gerhard for exporting blender to m3g and java source, see website for examples http://www.nelson-games.de/bl2m3g/default.html
2007-05-29 21:39:29 +00:00
""" Registration info for Blender menus:
Name: 'M3G (.m3g, .java)...'
Blender: 244
Group: 'Export'
Tooltip: 'Export to M3G'
"""
#------------------------------------------------------------------------
# M3G exporter for blender 2.37 or above
#
# Source: http://www.nelson-games.de/bl2m3g/source
#
uniform end-of-line format and set svn:eol-style property to "native" for all scripts
2008-11-05 11:42:34 +00:00
# $Id$
Script from Gerhard for exporting blender to m3g and java source, see website for examples http://www.nelson-games.de/bl2m3g/default.html
2007-05-29 21:39:29 +00:00
#
# Author: Gerhard V<>lkl
#
# ***** BEGIN GPL LICENSE BLOCK *****
#
# Copyright (C) 2005: gerhard v<>lkl gkvoelkl@yahoo.de
#
# 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 *****
#
# To use script:
# 1.) load this file in the text window.
# (press SHIFT+F11, Open New via Datablock button)
# 2.) make sure your mouse is over the text edit window and
# run this script. (press ALT+P)
# Or:
# copy to the scripts directory and it will appear in the
# export list. (Needs 2.32 or higher)
#
# Based on informations from:
# wrl2export.py from Rick Kimball and others
# --------------------------------------------------------------------------#
# History 0.2
# * maximal Precision in VertexArray (with algorithms from Kalle Raita)
# * IPO Animation with mesh: Rotation, Translation and Size
# History 0.3
# * to find a 3d object in your java programm you can assign a userID
# your blender object has name 'cube#01' your 3d object will have ID 01
# the number after '#' is taken
# * more than one material per mesh can be used
# * uv texture support (implemented by Aki Koskinen and Juha Laitinen)
# The image which is bound to the faces will be exportet within m3g-file
# Limitations by M3G-API:
# The width and height of the image must be non-negative powers of two,
# but they need not to be equal. Maximum value is 256.
# *.java export: Only PNG images can be used.
# History 0.4
# * check limitation of texture images (credit to MASTER_ZION for Brasil)
# * Better light: The light modeles of Blender and M3G are naturally
# different. So the export script trys to translate as much as possible
#
# M3G Light type Blender Light type
# --------------------------------------------------------------
# AMIENT Light Not available as light type in Blender
# DIRECTIONAL Light SUN
# OMNIdirectional light LAMP
# SPOT light SPOT
# not translated HEMI
# not translated AREA
#
# Attributs of M3G Lights:
#
# Attenuation (OMNI,SPOT):
# Intensity of light changes with distance
# The attenuation factor is 1 / (c + l d + q d2)
# where d is the distance between the light and the vertex being lighted
# and c, l, q are the constant, linear, and quadratic coefficients.
# In Blender exists much complex posibilies. To simplify exporter uses
# only button Dist: distance at which the light intensity is half
# the Energy
# Color (ALL)
# Color of light
# Intensity (ALL)
# The RGB color of this Light is multiplied component-wise with the
# intensity. In Blender : energy
# SpotAngle (SPOT)
# the spot cone angle for this Light
# In Blender: spotSize
# SpotExponent (SPOT)
# The spot exponent controls the distribution of the intensity of
# this Light within the spot cone, such that larger values yield
# a more concentrated cone. In Blender: SpotBl
#
# * Some GUI for options
# First prototype of GUI was created using RipSting's Blender-Python
# GUI designer. Download at Http://oregonstate.edu/~dennisa/Blender/BPG/
#
# * Ambiente light
# Information is taken by world ambiente attribute
#
# * Parenting Part 1
# In Blender the Empty object is used to group objects. All objects
# which have the same empty as parent are the member of the same group.
#
# empty <-- Parent of -- element 1
# <-- Parent of -- element 2
#
# is translated in M3G
#
# group-Node -- Member --> element 1
# -- Member --> element 2
#
# In Blender every object can be the parent of every other object
# In M3G that is not possible. Only a group object can be parent.
# (Or the world object which is derived from group).
# That will come later as Parenting Part 2
#
# * Backface Culling
# you can use backface culling, if option "use backface culloing" is on.
# Culling will be set in PolygonMode object of every mesh. The correct
# winding is controlled.
# History 0.5
#* Bone Animation - Armature (Part 1)
#
# Armature is the skeleton for skinned meshes. It stores the bones in
# rest position (more information http://www.blender.org/cms/How_Armatures_work.634.0.html)
# You can work in Blender with bones and meshes in different ways. In
# this first attempt only the use of vertex groups is assisted.
#
# Blender-Objekts translated into M3G-Objects
#
# MESH SkinnedMesh
# | |
# v v
# ARMATURE Group
# | |
# v v
# BONE_1 Group
# Group_second
# | |
# V v
# BONE_2 Group
# Group_secound
#
# Every bone is translated into two groups at the moment, because
# the second bone is needed to do the animation in an easy way.
#
# The animations in Blender for meshes are stored in action objects.
#
# Blender Objects translated into M3G-Objects
#
# ARMATURE
# | activ
# v
# ACTION ANIMATIONCONTROLLER
# | 1..n ^
# v ANIMATIONTRACK --> Group_second
# IPOs |
# v
# KEYSEQUENZE
#
# One action is translated into one animationcontroller. One IPO is
# translated in one KEYSEQUENZE and one ANIMATIONTRACK.
#
# At the moment only the active action of the armature object is translated.
#
#* Print Info, if type of light is used that is not supported
#
# History 0.5
#
#* New Option exportAllAction (default value: false)
# If that option is true, all actions will be exported - not only the active
# action.
# At the moment you can only assign one action to one armature.
# To know which action is used with which armature the action
# needs a special name :
# <Action Name>#A<M3G ID of Armature>E<End Frame>#<ID of Action>
# Example: Name of action : walk#A10E250#02
# Name of armature : man#10
# End Frame: 250
#
# History 0.6
# Include the same image only one time into the m3g-file
#
# All the following changes of this version was made by Claus Hoefele
#
#* Until now all vertices of the faces was been written.
# Now the vertices will be used again if possible:
# normal and texture coordinates of to vertices have to be the same
#
#* Smooth/solid shading can now be defined for every single material:
# in Editing panel (F9)>Link and Materials
#
#* This script uses now correctly the TexFace and Shadless Buttons in
# Shading panel (F5)>Material buttons>Material box.
# TexFace switches on/off the Export of texture coordinates.
# Shadeless does the some with the normal coordinates
#
#* The GUI was redesigned in a PupBlock
#
#* Options:
#
#** Texturing Enabled: Switches on/off export of textures and texture
# coordinates. Attention: the TextFace button switches only
# for one mesh
#** Texturing External: the textures will be included it mg3-file or
# exported in seperate file
#** Lighting Enabled: turns on/off export of lights and normal completly
# Attention: Shadeless only for one mesh
#** Persp. Correction: turns on/off perspective correction in PolygonMode.
#** Smooth Shading: turns on/off smooth shading in PolygonMode.
#
#* Textures in external references are used again (with ImageFactory)
#
#* Blender function: Double Sided button in Editing Context
# (F9)>Mesh panel)
# turn on/off PolygonMode.CULL_BACK anzuschalten.
#
#* Script ingnores meshes that have no faces
#
# History 0.7
#
# * Exporter can work with texture coordinates greater 1 and smaller 0
#
# * Adler32 did not work always correct. New implementation made.
#
# * Modul shutil is not needed any longer. Exporter has its own copy_file.
# (realized and inspired by ideasman_42 and Martin Neumann)
update to m3g exporter by Gerhard Völkl
2008-01-18 10:46:37 +00:00
#
# History 0.8
#
# * Blender works with SpotAngles 1..180 but M3G works only with 0..90
# M3G use the 'half angle' (cut off angle) (Thanks to Martin Storsj<73>)
#
# * Error fixed: Texture coordinates was not calculated correct.
# (Thanks to Milan Piskla, Vlad, Max Gilead, Regis Cosnier ...)
#
# * New options in GUI:
# M3G Version 2.0 : Will export M3G files Vers. 2.0 in future
# Game Physics: Adds Game Physics infos for NOPE API
#
Script from Gerhard for exporting blender to m3g and java source, see website for examples http://www.nelson-games.de/bl2m3g/default.html
2007-05-29 21:39:29 +00:00
# --------------------------------------------------------------------------#
# TODO: Export only selected mesh
# TODO: Optimize Bones <--> Vertex Group mapping
# TODO: Compressed File
# TODO: MTex - Support
# TODO: By Rotating use SQUAD instead of Beziere. It's smoother
import Blender
from Blender import Types,Lamp,Material,Texture,Window,Registry,Draw
from Blender.BGL import *
from Blender.Object import *
from Blender.Camera import *
from Blender.Mesh import *
from array import array
import sys, struct, zlib
from inspect import *
from types import *
from Blender.Mathutils import *
from os.path import *
#import rpdb2
# ---- Helper Functions -------------------------------------------------------#
def copy_file(source, dest):
file = open(source, 'rb')
data = file.read()
file.close()
file = open(dest, 'wb')
file.write(data)
file.close()
def tracer(frame, event, arg):
'''Global trace function'''
if event=='call':
tmp = getargvalues(frame)
print event, frame.f_code.co_name, frame.f_lineno, \
formatargvalues(tmp[0],tmp[1],tmp[2],tmp[3])
elif event=='line':
print event, frame.f_code.co_name, frame.f_lineno
#print event, frame.f_code.co_name, frame.f_lineno, \
# getsourcelines(frame.f_code)[frame.f_lineno]
elif event=='return':
print event, frame.f_code.co_name, frame.f_lineno, "->", arg
return tracer
def doSearchDeep(inList,outList):
'''Does deepsearch for all elements in inList'''
for element in inList:
if element != None : outList = element.searchDeep(outList)
return outList
def getId(aObject):
''' returns 0 if Object is None: M3G value for null'''
if aObject == None: return 0
return aObject.id
def toJavaBoolean(aValue):
''' returns java equivalent to boolean'''
if aValue:
return 'true'
else :
return 'false'
def sign(a):
if a<0 : return -1
elif a>0 : return 1
else : return 0
def isOrderClockWise(v,normal):
''' returns true, if order of vertices is clockwise. Important for
culling '''
# (v2-v0)x(v2-v1)=surface_normal
#
if type(v[0]) is Types.MVertType:
mNormal = TriangleNormal(Vector(v[0].co),Vector(v[1].co),Vector(v[2].co))
else:
mNormal = TriangleNormal(Vector(v[0]),Vectot(v[1]),Vector(v[2]))
#print "normal ",mNormal.normalize()
#print "BNormal ",normal.normalize()
# Do not use any longer. Blender does it correct
result = (sign(normal.x)==sign(mNormal.x) and
sign(normal.y)==sign(mNormal.y) and
sign(normal.z)==sign(mNormal.z))
#print "Result ",result
return True
# ---- M3G Types --------------------------------------------------------------#
class M3GVertexList:
def __init__(self, wrapList):
self.mlist = wrapList
def __getitem__(self, key):
item = self.mlist[key]
if type(item) is Types.MVertType:
result =(item.co[0],item.co[1],item.co[2])
else:
result = item
return result
class M3GBoneReference:
def __init__(self,first,count):
self.firstVertex=first #UInt32
self.vertexCount=count #UInt32
class M3GBone:
def __init__(self):
self.verts=[] #List of influenced verts
self.transformNode=None #ObjectIndex
self.references = [] #References to Verts that are needed
self.weight=0 #Int32
def setVerts(self,aVerts):
self.verts = aVerts
self.createReferences()
def createReferences(self):
#print "createReference::len(verts) ",len(self.verts)
if len(self.verts)==0: return #No Verts available
self.verts.sort()
ref = []
list = []
last = self.verts[0]-1
count = 0
for vert in self.verts:
#print "vert ",vert
if vert==last+1:
list.append(vert)
else:
ref.append(M3GBoneReference(list[0],len(list)))
#print list[0],len(list)
list=[vert]
last=vert
#print "list ",list
if len(list)>0:
ref.append(M3GBoneReference(list[0],len(list)))
self.references = ref
class M3GVector3D:
def __init__(self,ax=0.0,ay=0.0,az=0.0):
self.x = ax #Float32
self.y = ay #Float32
self.z = az #Float32
def writeJava(self):
return str(self.x)+"f, "+str(self.y)+"f, "+str(self.z)+"f"
def getData(self):
return struct.pack("<3f",self.x,self.y,self.z)
def getDataLength(self):
return struct.calcsize("<3f")
class M3GMatrix:
""" A 4x4 generalized matrix. The 16 elements of the
matrix are output in the same order as they are
retrieved using the API Transform.get method. In
other words, in this order:
0 1 2 3
4 5 6 7
8 9 10 11
12 13 14 15 """
def __init__(self):
self.elements=16 * [0.0] #Float32
def identity(self):
self.elements[ 0] = 1.0
self.elements[ 5] = 1.0
self.elements[10] = 1.0
self.elements[15] = 1.0
def getData(self):
return struct.pack('<16f',self.elements[0],self.elements[1],
self.elements[2],self.elements[3],
self.elements[4],self.elements[5],
self.elements[6],self.elements[7],
self.elements[8],self.elements[9],
self.elements[10],self.elements[11],
self.elements[12],self.elements[13],
self.elements[14],self.elements[15])
def getDataLength(self):
return struct.calcsize('<16f')
class M3GColorRGB:
""" A color, with no alpha information. Each compo-
nent is scaled so that 0x00 is 0.0, and 0xFF is 1.0.
"""
def __init__(self,ared=0,agreen=0,ablue=0):
self.red = ared #Byte
self.green = agreen #Byte
self.blue = ablue #Byte
def writeJava(self):
return "0x"+("%02X%02X%02X%02X" % (0.0, self.red, self.green, self.blue))
def getData(self):
return struct.pack('3B',self.red,self.green,self.blue)
def getDataLength(self):
return struct.calcsize('3B')
class M3GColorRGBA:
""" A color, with alpha information. Each component
is scaled so that 0x00 is 0.0, and 0xFF is 1.0. The
alpha value is scaled so that 0x00 is completely
transparent, and 0xFF is completely opaque.
"""
def __init__(self,ared=0,agreen=0,ablue=0,aalpha=0):
self.red = ared #Byte
self.green = agreen #Byte
self.blue = ablue #Byte
self.alpha = aalpha #Byte
def writeJava(self):
return "0x"+("%02X%02X%02X%02X" % (self.alpha, self.red, self.green, self.blue))
def getData(self):
return struct.pack('4B',self.red,self.green,self.blue,self.alpha)
def getDataLength(self):
return struct.calcsize('4B')
#ObjectIndex
#The index of a previously encountered object in
#the file. Although this is serialized as a single
#unsigned integer, it is included in the compound
#type list because of the additional semantic infor-
#mation embodied in its type. A value of 0 is
#reserved to indicate a null reference; actual object indices start from 1. Object indices must refer
#only to null or to an object which has already been
#created during the input deserialization of a file -
#they must be less than or equal to the index of the
#object in which they appear. Other values are dis-
#allowed and must be treated as errors.
#UInt32
#index;
# ---- M3G Proxy --------------------------------------------------------------- #
class M3GProxy:
def __init__(self):
self.name = ""
self.id=0
self.ObjectType=0
self.binaryFormat=''
def __repr__(self):
return "<"+str(self.__class__)[9:] + ":" + str(self.name) + ":" + str(self.id) + ">"
class M3GHeaderObject(M3GProxy):
def __init__(self):
M3GProxy.__init__(self)
self.M3GHeaderObject_binaryFormat = '<BBBII'
self.ObjectType=0
self.id = 1 #Special Object: always 1
self.VersionNumber=[1,0] #Byte[2]
self.hasExternalReferences=False #Boolean External Files needed? eg. Textures
self.TotalFileSize=0 #UInt32
self.ApproximateContentSize=0 #UInt32 Only a hint! External sources included
self.AuthoringField='Blender M3G Export' #String
def getData(self):
data = struct.pack(self.M3GHeaderObject_binaryFormat,
self.VersionNumber[0],
self.VersionNumber[1],
self.hasExternalReferences,
self.TotalFileSize,
self.ApproximateContentSize)
data += struct.pack(str(len(self.AuthoringField)+1)+'s',self.AuthoringField)
return data
def getDataLength(self):
value = struct.calcsize(self.M3GHeaderObject_binaryFormat)
return value + struct.calcsize(str(len(self.AuthoringField)+1)+'s')
class M3GExternalReference(M3GProxy):
def __init__(self):
M3GProxy.__init__(self)
self.ObjectType=0xFF
self.URI='' #reference URI
def getData(self):
data = struct.pack(str(len(self.URI)+1) + 's', self.URI)
return data
def getDataLength(self):
return struct.calcsize(str(len(self.URI)+1)+'s')
def searchDeep(self,alist):
if not(self in alist): alist.append(self)
return alist
def __repr__(self):
return M3GProxy.__repr__(self) + " (" + self.URI + ")"
class M3GObject3D(M3GProxy):
def __init__(self):
M3GProxy.__init__(self)
self.userID=0 #UInt32 - field may be any value
self.animationTracks=[] #ObjectIndex[]
self.userParameterCount=0 #UInt32 - No user parameter used
def searchDeep(self,alist):
alist = doSearchDeep(self.animationTracks,alist)
if not(self in alist): alist.append(self)
return alist
def getData(self):
data = struct.pack('<I',self.userID)
print "write userID",self.userID,self.name,str(self), self.getDataLength()
data += struct.pack('<I',len(self.animationTracks))
for element in self.animationTracks:
data += struct.pack('<I',getId(element))
data += struct.pack('<I',self.userParameterCount)
return data
def getDataLength(self):
value = struct.calcsize('<3I')
if len(self.animationTracks) > 0:
value += struct.calcsize('<'+str(len(self.animationTracks))+'I')
return value
def writeJava(self,aWriter,aCreate):
if aCreate : pass #Abstract! Could not be created
if len(self.animationTracks) > 0 :
aWriter.write(2)
for iTrack in self.animationTracks:
aWriter.write(2,"BL%i.addAnimationTrack(BL%i);" % (self.id,iTrack.id))
class M3GTransformable(M3GObject3D):
def __init__(self):
M3GObject3D.__init__(self)
self.hasComponentTransform=False #Boolean
#IF hasComponentTransform==TRUE, THEN
self.translation=M3GVector3D(0,0,0) #Vector3D
self.scale=M3GVector3D(1,1,1) #Vector3D
self.orientationAngle=0 #Float32
self.orientationAxis=M3GVector3D(0,0,0) #Vector3D undefined
#END
self.hasGeneralTransform=False #Boolean
#IF hasGeneralTransform==TRUE, THEN
self.transform = M3GMatrix() #Matrix identity
self.transform.identity()
#END
#If either hasComponentTransform or hasGeneralTransform is false, the omitted fields will be
#initialized to their default values (equivalent to an identity transform in both cases).
def writeJava(self,aWriter,aCreate):
if aCreate: pass #Abstract Base Class! Cant't be created
M3GObject3D.writeJava(self,aWriter,False)
if self.hasGeneralTransform :
aWriter.write(2,"float[] BL%i_matrix = {" % (self.id))
aWriter.writeList(self.transform.elements,4,"f")
aWriter.write(2,"};")
aWriter.write(2)
aWriter.write(2,"Transform BL%i_transform = new Transform();" % (self.id))
aWriter.write(2,"BL%i_transform.set(BL%i_matrix);" % (self.id,self.id))
aWriter.write(2,"BL%i.setTransform(BL%i_transform);" % (self.id,self.id))
aWriter.write(2)
if self.hasComponentTransform:
aWriter.write(2,("BL%i.setTranslation("+self.translation.writeJava()+");")
%(self.id))
def getData(self):
data = M3GObject3D.getData(self)
data += struct.pack("<B",self.hasComponentTransform)
if self.hasComponentTransform==True:
data += self.translation.getData()
data += self.scale.getData()
data += struct.pack('<f',self.orientationAngle)
data += self.orientationAxis.getData()
data += struct.pack("<B",self.hasGeneralTransform)
if self.hasGeneralTransform==True:
data += self.transform.getData()
return data
def getDataLength(self):
value = M3GObject3D.getDataLength(self)
value += struct.calcsize("<B")
if self.hasComponentTransform==True:
value += self.translation.getDataLength()
value += self.scale.getDataLength()
value += struct.calcsize('<f')
value += self.orientationAxis.getDataLength()
value += struct.calcsize("<B")
if self.hasGeneralTransform==True:
value += self.transform.getDataLength()
return value
class M3GNode(M3GTransformable):
def __init__(self):
M3GTransformable.__init__(self)
self.blenderObj = None #Pointer to corrsponding BlenderObj
self.parentBlenderObj = None #Pointer to Parent in Blender
self.blenderMatrixWorld = None #BlenderObj matrixWorld
self.M3GNode_binaryFormat = '<BBBIB'
self.enableRendering=True #Boolean
self.enablePicking=True #Boolean
self.alphaFactor=255 #Byte 0x00 is equivalent to 0.0 (fully transparent), and 255 is equivalent to 1.0 (fully opaque);
self.scope=4294967295 #-1 #UInt32
self.hasAlignment = False #Boolean
#IF hasAlignment==TRUE, THEN
self.M3GNode_binaryFormat_2 = '<BBII'
self.zTarget=0 #Byte The zTarget and yTarget fields must each hold a valid enumerated value,
self.yTarget=0 #Byte as specified in the class definition. Other values must be treated as errors.
self.zReference=None #ObjectIndex
self.yReference=None #ObjectIndex
#END
#If the hasAlignment field is false, the omitted fields are initialized to their default values.
def getData(self):
data = M3GTransformable.getData(self)
#print "Binary ",self.binaryFormat
data += struct.pack(self.M3GNode_binaryFormat,
self.enableRendering,
self.enablePicking,
self.alphaFactor,
self.scope,
self.hasAlignment)
if self.hasAlignment:
data += pack(self.M3GNode_binaryFormat_2,
self.zTarget,
self.yTarget,
getId(self.zReference),
getId(self.yReference))
return data
def getDataLength(self):
value = M3GTransformable.getDataLength(self) + \
struct.calcsize(self.M3GNode_binaryFormat)
if self.hasAlignment:
value += struct.calcsize(self.M3GNode_binaryFormat_2)
return value
def writeJava(self,aWriter,aCreate):
if aCreate: pass #Abstract Base Class! Cant't be created
M3GTransformable.writeJava(self,aWriter,False)
class M3GGroup(M3GNode):
def __init__(self):
M3GNode.__init__(self)
self.ObjectType=9
self.children = [] #ObjectIndex[]
def searchDeep(self,alist):
for element in self.children:
alist = element.searchDeep(alist)
return M3GNode.searchDeep(self,alist)
def writeJava(self,aWriter,aCreate):
if aCreate:
aWriter.write(2,"//Group:"+self.name )
aWriter.write(2,"Group BL"+str(self.id)+" = new Group();")
M3GNode.writeJava(self,aWriter,False)
for element in self.children:
aWriter.write(2,"BL%i.addChild(BL%i);" % (self.id,element.id))
def getData(self):
data = M3GNode.getData(self)
data = data + struct.pack("<I",len(self.children))
for element in self.children:
data += struct.pack("<I",getId(element))
return data
def getDataLength(self):
return M3GNode.getDataLength(self)+ \
struct.calcsize("<"+str(len(self.children)+1)+"I")
class M3GWorld(M3GGroup):
def __init__(self):
M3GGroup.__init__(self)
self.ObjectType=22
self.activeCamera=None #ObjectIndex
self.background=None #ObjectIndex UInt32 0=None
self.M3GWorld_binaryFormat='<II'
def searchDeep(self,alist):
alist = doSearchDeep([self.activeCamera, self.background],alist)
return M3GGroup.searchDeep(self,alist)
def writeJava(self,aWriter,aCreate):
if aCreate:
aWriter.write(2,"//World:"+self.name )
aWriter.write(2,"World BL"+str(self.id)+" = new World();")
M3GGroup.writeJava(self,aWriter,False)
if self.background != None:
aWriter.write(2,"BL"+str(self.id)+".setBackground(BL"+str(self.background.id)+");")
if self.activeCamera != None:
aWriter.write(2,"BL%i.setActiveCamera(BL%i);" %
(self.id,self.activeCamera.id))
aWriter.write(2)
def getData(self):
data = M3GGroup.getData(self)
return data + \
struct.pack(self.M3GWorld_binaryFormat,getId(self.activeCamera),getId(self.background))
def getDataLength(self):
return M3GGroup.getDataLength(self) + struct.calcsize(self.M3GWorld_binaryFormat)
class M3GBackground(M3GObject3D):
def __init__(self):
M3GObject3D.__init__(self)
self.ObjectType=4
self.M3GBackground_binaryFormat = '<BBiiiiBB'
self.backgroundColor=M3GColorRGBA(0,0,0,0) #ColorRGBA 0x00000000 (black, transparent)
self.backgroundImage=None #ObjectIndex null (use the background color only)
self.backgroundImageModeX=32; #Byte BORDER=32 REPEAT=33
self.backgroundImageModeY=32; #Byte BORDER
self.cropX = 0; #Int32
self.cropY = 0 #Int32 ;
self.cropWidth = 0 #Int32 ;
self.cropHeight = 0;#Int32
self.depthClearEnabled = True #Boolean
self.colorClearEnabled = True #Boolean
def writeJava(self,aWriter,aCreate):
if aCreate:
aWriter.write(2,"//Background:"+self.name )
aWriter.write(2,"Background BL"+str(self.id)+" = new Background();")
M3GObject3D.writeJava(self,aWriter,False)
aWriter.write(2,"BL"+str(self.id)+".setColor("+self.backgroundColor.writeJava()+");")
aWriter.write(2,"")
def getData(self):
data = M3GObject3D.getData(self)
data += self.backgroundColor.getData()
data += struct.pack('<I',getId(self.backgroundImage))
data += struct.pack(self.M3GBackground_binaryFormat, self.backgroundImageModeX,
self.backgroundImageModeY,
self.cropX,
self.cropY,
self.cropWidth,
self.cropHeight,
self.depthClearEnabled,
self.colorClearEnabled)
return data
def getDataLength(self):
value=M3GObject3D.getDataLength(self)
value += self.backgroundColor.getDataLength()
value += struct.calcsize('<I')
value += struct.calcsize(self.M3GBackground_binaryFormat)
return value
class M3GCamera(M3GNode):
GENERIC=48 #Projection-Types
PARALLEL=49
PERSPECTIVE=50
def __init__(self):
M3GNode.__init__(self)
self.ObjectType=5
self.projectionType=M3GCamera.PARALLEL #Byte
#IF projectionType==GENERIC, THEN
self.projectionMatrix=M3GMatrix() #Matrix <20>view volume : opposite corners at (-1 -1 -1) and (1 1 1)
# TODO: Set right matrix
#ELSE
self.fovy=0.0 #Float32
self.AspectRatio=0.0#Float32
self.near=0.0#Float32
self.far=0.0#Float32
#END
def writeJava(self,aWriter,aCreate):
if aCreate:
aWriter.write(2,"//Camera " + self.name)
aWriter.write(2,"Camera BL%i = new Camera();" % (self.id))
M3GNode.writeJava(self,aWriter,False)
aWriter.write(2,"BL%i.setPerspective(%ff, //Field of View" % \
(self.id,self.fovy))
aWriter.write(4,"(float)aCanvas.getWidth()/(float)aCanvas.getHeight(),")
aWriter.write(4,str(self.near)+"f, //Near Clipping Plane")
aWriter.write(4,str(self.far)+"f); //Far Clipping Plane")
def getData(self):
data = M3GNode.getData(self)
data += struct.pack("B",self.projectionType)
if self.projectionType == self.GENERIC:
data += self.projectionMatrix.getData()
else:
data += struct.pack("<4f",self.fovy,self.AspectRatio,self.near,self.far)
return data
def getDataLength(self):
value = M3GNode.getDataLength(self)
value += struct.calcsize("B")
if self.projectionType == self.GENERIC:
value += self.projectionMatrix.getDataLength()
else:
value += struct.calcsize("<4f")
return value
class M3GMesh(M3GNode):
def __init__(self,aVertexBuffer=None, aIndexBuffer=[], aAppearance=[]):
M3GNode.__init__(self)
self.ObjectType=14
self.vertexBuffer = aVertexBuffer #ObjectIndex
self.submeshCount=len(aIndexBuffer) #UInt32
#FOR each submesh...
self.indexBuffer=aIndexBuffer #ObjectIndex
self.appearance=aAppearance #;ObjectIndex
#END
def getData(self):
data = M3GNode.getData(self)
data += struct.pack('<2I', getId(self.vertexBuffer),
self.submeshCount)
for i in range(len(self.indexBuffer)):
data += struct.pack('<2I',getId(self.indexBuffer[i]),
getId(self.appearance[i]))
return data
def getDataLength(self):
value = M3GNode.getDataLength(self)
value += struct.calcsize('<2I')
for i in range(len(self.indexBuffer)):
value += struct.calcsize('<2I')
return value
def searchDeep(self,alist):
alist = doSearchDeep([self.vertexBuffer] +self.indexBuffer
+ self.appearance ,alist)
return M3GNode.searchDeep(self,alist)
def writeJava(self,aWriter,aCreate):
self.writeBaseJava(aWriter,aCreate,"Mesh","")
def writeBaseJava(self,aWriter,aCreate,aClassName,aExtension):
if aCreate:
aWriter.writeClass(aClassName,self)
if self.submeshCount > 1:
aWriter.write(2,"IndexBuffer[] BL%i_indexArray = {" % (self.id))
aWriter.write(4,",".join(["BL%i" %(i.id) for i in self.indexBuffer ]))
aWriter.write(2," };")
aWriter.write(2)
aWriter.write(2,"Appearance[] BL%i_appearanceArray = {" % (self.id))
aWriter.write(4,",".join(["BL%i" %(i.id) for i in self.appearance ]))
aWriter.write(2," };")
aWriter.write(2)
aWriter.write(2,"%s BL%i = new %s(BL%i,BL%i_indexArray,BL%i_appearanceArray%s);" % \
(aClassName,self.id,aClassName,self.vertexBuffer.id, self.id,self.id,aExtension))
else:
#print "indexBuffer", len(self.indexBuffer)
#print "appearance", len(self.appearance)
aWriter.write(2,"%s BL%i = new %s(BL%i,BL%i,BL%i%s);" % \
(aClassName,
self.id,
aClassName,
self.vertexBuffer.id,
self.indexBuffer[0].id,
self.appearance[0].id,
aExtension))
M3GNode.writeJava(self,aWriter,False)
aWriter.write(2)
class M3GSkinnedMesh(M3GMesh):
def __init__(self,aVertexBuffer=None, aIndexBuffer=[], aAppearance=[]):
M3GMesh.__init__(self,aVertexBuffer, aIndexBuffer, aAppearance)
self.ObjectType=16
self.skeleton=None #ObjectIndex
self.bones={}
#print"M3GSkinnedMesh.__init__::self.vertexBuffer:",self.vertexBuffer
##ObjectIndex skeleton;
##UInt32 transformReferenceCount;
##FOR each bone reference...
## ObjectIndex transformNode;
## UInt32 firstVertex;
## UInt32 vertexCount;
## Int32 weight;
##END
def searchDeep(self,alist):
alist = doSearchDeep([self.skeleton],alist)
return M3GMesh.searchDeep(self,alist)
def addSecondBone(self):
secondBones = {}
for bone in self.bones.values():
bone2 = M3GBone()
bone2.verts=bone.verts
bone.verts=[]
mGroup = M3GGroup()
mGroup.name=bone.transformNode.name+"_second"
bone2.transformNode=mGroup
bone2.references = bone.references
bone.references = []
bone2.weight = bone.weight
bone.weight=0
mGroup.children = bone.transformNode.children
bone.transformNode.children = [mGroup]
mGroup.animationTracks=bone.transformNode.animationTracks
bone.transformNode.animationTracks = []
secondBones[bone.transformNode.name+"_second"]=bone2
for bone in secondBones.values():
self.bones[bone.transformNode.name] = bone
def getBlenderIndexes(self):
#print "M3GSkinnedMesh.vertexBuffer:",self.vertexBuffer
return self.vertexBuffer.positions.blenderIndexes
def writeJava(self,aWriter,aCreate):
self.writeBaseJava(aWriter,aCreate,"SkinnedMesh",
(",BL%i" % (self.skeleton.id)))
aWriter.write(2,"//Transforms")
for bone in self.bones.values():
#print "bone: ", bone
#print "bone.references: ", bone.references
for ref in bone.references:
aWriter.write(2,"BL%i.addTransform(BL%i,%i,%i,%i);" %
(self.id,
bone.transformNode.id,bone.weight,
ref.firstVertex, ref.vertexCount))
aWriter.write(2)
def getDataLength(self):
value = M3GMesh.getDataLength(self)
value += struct.calcsize('<I') #skeleton
value += struct.calcsize('<I') #transformReferenceCount
for bone in self.bones.values():
for ref in bone.references:
value += struct.calcsize('<3Ii')
return value
def getData(self):
data = M3GMesh.getData(self)
data += struct.pack('<I', getId(self.skeleton))
count = 0
for bone in self.bones.values(): count+=len(bone.references)
data += struct.pack('<I',count)
for bone in self.bones.values():
for ref in bone.references:
data += struct.pack('<I',getId(bone.transformNode))
data += struct.pack('<2I',ref.firstVertex,ref.vertexCount)
data += struct.pack('<i',bone.weight)
return data
class M3GLight(M3GNode):
def __init__(self):
M3GNode.__init__(self)
self.ObjectType=12
self.modes = {'AMBIENT':128,
'DIRECTIONAL':129,
'OMNI':130,
'SPOT':131}
self.attenuationConstant = 1.0 #Float32
self.attenuationLinear = 0.0 #Float32
self.attenuationQuadratic = 0.0 #Float32
self.color = M3GColorRGB(1.0, 1.0, 1.0) #ColorRGB
self.mode = self.modes['DIRECTIONAL'] #Byte Enumurator mode: DIRECTIONAL
self.intensity = 1.0 #Float32
self.spotAngle = 45 #Float32
self.spotExponent = 0.0 #Float32
def writeJava(self,aWriter,aCreate):
if aCreate:
aWriter.write(2,"//Light: " + self.name)
aWriter.write(2,"Light BL%i = new Light();" % (self.id))
aWriter.write(2,"BL%i.setMode(%i);" % (self.id,self.mode)) #Light.OMNI
if self.mode in [self.modes['OMNI'],self.modes['SPOT']]:#Attenuation
aWriter.write(2,"BL%i.setAttenuation(%ff, %ff,%ff);"
% (self.id,
self.attenuationConstant,
self.attenuationLinear,
self.attenuationQuadratic))
aWriter.write(2,("BL%i.setColor("+self.color.writeJava()+");")
% (self.id))
aWriter.write(2,"BL%i.setIntensity(%ff);"
% (self.id,self.intensity))
if self.mode == self.modes['SPOT']:
aWriter.write(2,"BL%i.setSpotAngle(%ff);"
% (self.id,self.spotAngle))
aWriter.write(2,"BL%i.setSpotExponent(%ff);"
% (self.id,self.spotExponent))
M3GNode.writeJava(self,aWriter,False)
aWriter.write(2)
def getData(self):
data = M3GNode.getData(self)
data += struct.pack("<fff", self.attenuationConstant,
self.attenuationLinear,
self.attenuationQuadratic)
data += self.color.getData()
data += struct.pack("<Bfff", self.mode,
self.intensity,
self.spotAngle,
self.spotExponent)
return data
def getDataLength(self):
value = M3GNode.getDataLength(self)
value += self.color.getDataLength()
value += struct.calcsize('<B6f')
return value
class M3GMaterial(M3GObject3D):
def __init__(self):
M3GObject3D.__init__(self)
self.ObjectType=13
self.ambientColor=M3GColorRGB(0.2, 0.2, 0.2) #ColorRGB
self.diffuseColor=M3GColorRGBA(0.8, 0.8, 0.8, 1.0) #ColorRGBA
self.emissiveColor=M3GColorRGB(0.0, 0.0, 0.0) #ColorRGB
self.specularColor=M3GColorRGB(0.0, 0.0, 0.0) #ColorRGB
self.shininess=0.0 #Float32
self.vertexColorTrackingEnabled=False #Boolean
def writeJava(self,aWriter,aCreate):
if aCreate :
aWriter.write(2,"//Material: "+self.name )
aWriter.write(2,"Material BL%i = new Material();" % (self.id))
aWriter.write(2,("BL%i.setColor(Material.AMBIENT," +
self.ambientColor.writeJava()+");") % (self.id) )
aWriter.write(2,("BL%i.setColor(Material.SPECULAR," +
self.specularColor.writeJava()+");") % (self.id) )
aWriter.write(2,("BL%i.setColor(Material.DIFFUSE," +
self.diffuseColor.writeJava()+");") % (self.id))
aWriter.write(2,("BL%i.setColor(Material.EMISSIVE," +
self.emissiveColor.writeJava()+");") % (self.id))
aWriter.write(2,("BL%i.setShininess(%ff);") % (self.id,self.shininess))
aWriter.write(2,("BL%i.setVertexColorTrackingEnable(" +
toJavaBoolean(self.vertexColorTrackingEnabled) + ");") %
(self.id))
M3GObject3D.writeJava(self,aWriter,False)
def getData(self):
data = M3GObject3D.getData(self)
data += self.ambientColor.getData()
data += self.diffuseColor.getData()
data += self.emissiveColor.getData()
data += self.specularColor.getData()
data += struct.pack('<fB',self.shininess,
self.vertexColorTrackingEnabled)
return data
def getDataLength(self):
value = M3GObject3D.getDataLength(self)
value += self.ambientColor.getDataLength()
value += self.diffuseColor.getDataLength()
value += self.emissiveColor.getDataLength()
value += self.specularColor.getDataLength()
value += struct.calcsize('<fB')
return value
class M3GVertexArray(M3GObject3D):
def __init__(self,aNumComponents,aComponentSize,aAutoScaling=False,aUVMapping=False):
M3GObject3D.__init__(self)
self.ObjectType=20
self.blenderIndexes={} #Translation-Table from Blender index to m3g index
self.autoscaling = aAutoScaling #bias and scale should be computed internal
self.uvmapping=aUVMapping #Change coordinates from blender uv to uv-m3g
self.bias = [0.0,0.0,0.0]
self.scale = 1.0
self.componentSize=aComponentSize #Byte number of bytes per component; must be [1, 2]
self.componentCount=aNumComponents #Byte number of components per vertex; must be [2, 4]
self.encoding=0 #Byte 0="raw" as bytes or 16 bit integers.
self.vertexCount=0 #UInt16 number of vertices in this VertexArray; must be [1, 65535]
if self.autoscaling==True:
self.components = array('f')
else:
self.components = self.createComponentArray()
#FOR each vertex...
# IF componentSize==1, THEN
# IF encoding==0, THEN
# Byte[componentCount]
# ELSE IF encoding==1, THEN
# Byte[componentCount]
# END
# ELSE
# IF encoding==0, THEN
# Int16[componentCount]
# ELSE IF encoding==1, THEN
# Int16[componentCount]
# END
# END
#END
def createComponentArray(self):
if self.componentSize == 1:
return array('b') #Byte-Array
else:
return array('h') #Short-Array
def useMaxPrecision(self,aBoundingBox):
"""With Bias and Scale you can maximize the precision of the array"""
#print "useMaxPrecision"
vertexList = M3GVertexList(aBoundingBox)
first = vertexList[0]
minimum =[first[0],first[1],first[2]]
maximum = [first[0],first[1],first[2]] #Search maximal Dimension
for element in vertexList:
for i in range(3):
if minimum[i] > element[i] : minimum[i] = element[i]
if maximum[i] < element[i] : maximum[i] = element[i]
#print i, maximum[i],element[i]
lrange=[0,0,0]
maxRange=0.0
maxDimension=-1
for i in range(3): #set bias
lrange[i] = maximum[i]-minimum[i]
self.bias[i] = minimum[i]*0.5+maximum[i]*0.5
#print "Bias",i,self.bias[i],"min-max",minimum[i],maximum[i],"lrang",lrange[i]
if lrange[i] > maxRange:
maxRange = lrange[i]
maxDimension=i
self.scale = maxRange/65533.0
#print "MaxRange ",maxRange
#print "scale",self.scale
def internalAutoScaling(self):
print "internalAutoScaling"
#Already done?
print self.components.typecode
if not self.autoscaling or self.components.typecode!="f":return
#Find bais and scale
minimum=[]
maximum=[]
for i in range(self.componentCount):
minimum.append(self.components[i])
maximum.append(self.components[i])
for i in range(0,len(self.components),self.componentCount):
for j in range(self.componentCount):
if minimum[j] > self.components[i+j] : minimum[j] = self.components[i+j]
if maximum[j] < self.components[i+j] : maximum[j] = self.components[i+j]
#print "i+j=",i+j,"min=",minimum[j],"max=",maximum[j],"elem=",self.components[i+j]
#print "min=", minimum
#print "max=", maximum
lrange=[0] * self.componentCount
maxRange=0.0
maxDimension=-1
for i in range(self.componentCount): #set bias
lrange[i] = maximum[i]-minimum[i]
self.bias[i] = minimum[i]*0.5+maximum[i]*0.5
#print "Bias",i,self.bias[i],"min-max",minimum[i],maximum[i],"lrang",lrange[i]
if lrange[i] > maxRange:
maxRange = lrange[i]
maxDimension=i
maxValue=(2**(8*self.componentSize)*1.0)-2.0
#print "MaxValue=",maxValue
self.scale = maxRange/maxValue
#print "MaxRange ",maxRange
#print "scale",self.scale
#Copy Components
oldArray=self.components
self.components=self.createComponentArray()
for i in range(0,len(oldArray),self.componentCount):
for j in range(self.componentCount):
element=int((oldArray[i+j]-self.bias[j])/self.scale)
#print "element",element
self.components.append(element)
# Reverse t coordinate because M3G uses a different 2D coordinate system than Blender.
if self.uvmapping:
for i in range(0,len(self.components),2):
update to m3g exporter by Gerhard Völkl
2008-01-18 10:46:37 +00:00
self.components[i+1]= int(self.components[i+1]*(-1)) #Error in Version 0.7
Script from Gerhard for exporting blender to m3g and java source, see website for examples http://www.nelson-games.de/bl2m3g/default.html
2007-05-29 21:39:29 +00:00
for i in range(len(self.components)):
if abs(self.components[i])>maxValue:raise Exception( i+". element too great/small!")
def writeJava(self,aWriter,aCreate):
self.internalAutoScaling()
if aCreate:
aWriter.write(2,"// VertexArray " + self.name)
if self.componentSize == 1:
aWriter.write(2,"byte[] BL%i_array = {" % (self.id))
else:
aWriter.write(2,"short[] BL%i_array = {" % (self.id))
aWriter.writeList(self.components)
aWriter.write(2,"};")
aWriter.write(2)
aWriter.write(2,"VertexArray BL%i = new VertexArray(BL%i_array.length/%i,%i,%i);" %
(self.id,self.id,
self.componentCount,self.componentCount,self.componentSize))
aWriter.write(2,"BL%i.set(0,BL%i_array.length/%i,BL%i_array);" %
(self.id,self.id,self.componentCount,self.id))
M3GObject3D.writeJava(self,aWriter,False)
aWriter.write(2)
def getData(self):
self.internalAutoScaling()
self.vertexCount = len(self.components)/self.componentCount
data = M3GObject3D.getData(self)
data += struct.pack('<3BH',self.componentSize,
self.componentCount,
self.encoding,
self.vertexCount)
componentType = ""
if self.componentSize == 1:
componentType = "b"
else:
componentType = "h"
for element in self.components:
data += struct.pack('<'+componentType,element)
return data
def getDataLength(self):
self.internalAutoScaling()
value = M3GObject3D.getDataLength(self)
value += struct.calcsize('<3BH')
componentType = ""
if self.componentSize == 1:
componentType = "b"
else:
componentType = "h"
value += struct.calcsize('<'+str(len(self.components))+componentType)
return value
def append(self,element,index=None):
#print "type(element):",type(element)
if type(element) is Types.vectorType :
for i in range(3):
value = int((element[i]-self.bias[i])/self.scale)
#print "append:",i,element[i],(element[i]-self.bias[i]),value
self.components.append(value)
elif type(element) is Types.MVertType:
for i in range(3):
value = int((element.co[i]-self.bias[i])/self.scale)
#print "append:",i,element[i],(element[i]-self.bias[i]),value
self.components.append(value)
if index!=None:
key=str(len(self.blenderIndexes))
#print"key,index:",key,index
self.blenderIndexes[key]=index
#print"blenderIndexes",self.blenderIndexes
else:
update to m3g exporter by Gerhard Völkl
2008-01-18 10:46:37 +00:00
print "VertexArray.append: element=",element
Script from Gerhard for exporting blender to m3g and java source, see website for examples http://www.nelson-games.de/bl2m3g/default.html
2007-05-29 21:39:29 +00:00
self.components.append(element)
class M3GVertexBuffer(M3GObject3D):
def __init__(self):
M3GObject3D.__init__(self)
self.ObjectType=21
self.defaultColor=M3GColorRGBA(255,255,255) #ColorRGBA 0xFFFFFFFF (opaque white).
self.positions = None #ObjectIndex
self.positionBias = [0.0,0.0,0.0] #Float32[3]
self.positionScale = 1.0 #Float32
self.normals = None #ObjectIndex
self.colors = None #ObjectIndex
self.texCoordArrays = []
self.texcoordArrayCount = 0 #UInt32
## #FOR each texture coordinate array...
## self.texCoords = [] #ObjectIndex
## self.texCoordBias=[] #Float32[3]
## self.texCoordScale=[] #;Float32
## #END
## #If a texture coordinate array has only two components, the corresponding texCoordBias[2] element
## #must be 0.0.
## #Null texture coordinate arrays are never serialized, regardless of their position. A single texture
## #coordinate array will therefore always be serialized as belonging to texturing unit 0, regardless of
## #its original unit it was assigned to.
## #There are as many references in the texture coordinates array as there are active texture units for
## #this geometry. The texture coordinate references are loaded sequentially from texture unit 0. If the
## #implementation supports more texture units than are specified, these are left in their default, inactive
## #state, with a null texture coordinate reference and an undefined bias and scale.
## #If more texture coordinate references are specified than are supported by the implementation, then
## #this must be treated as an error, as it would be in the API. The application can then decide on an
## #appropriate course of action to handle this case.
def searchDeep(self,alist):
if self.positions!=None: alist = self.positions.searchDeep(alist)
if self.normals != None: alist = self.normals.searchDeep(alist)
if self.colors!= None: alist = self.colors.searchDeep(alist)
alist = doSearchDeep(self.texCoordArrays, alist)
return M3GObject3D.searchDeep(self,alist)
def setPositions(self,aVertexArray):
self.positions = aVertexArray
self.positionBias = aVertexArray.bias
self.positionScale = aVertexArray.scale
def writeJava(self,aWriter,aCreate):
if aCreate:
aWriter.write(2,"//VertexBuffer"+self.name )
aWriter.write(2,"VertexBuffer BL%i = new VertexBuffer();" % (self.id))
aWriter.write(2,"float BL%i_Bias[] = { %ff, %ff, %ff};" %
(self.id,self.positionBias[0],
self.positionBias[1],self.positionBias[2]))
aWriter.write(2,"BL%i.setPositions(BL%i,%ff,BL%i_Bias);" %
(self.id, self.positions.id,
self.positionScale,self.id))
aWriter.write(2,"BL%i.setNormals(BL%i);" % (self.id,self.normals.id))
#if self.colors != None: aWriter.write(2,"BL%i.setTexCoords(0,BL%i,1.0f,null);" %
# (self.id,self.colors.id))
lIndex = 0
for iTexCoord in self.texCoordArrays:
aWriter.write(2,"float BL%i_%i_TexBias[] = { %ff, %ff, %ff};" %
(self.id,lIndex, iTexCoord.bias[0],
iTexCoord.bias[1],iTexCoord.bias[2]))
#int index, javax.microedition.m3g.VertexArray194<39>texCoords, float<61>scale, float[]<5D>bias
aWriter.write(2,"BL%i.setTexCoords(%i,BL%i,%ff,BL%i_%i_TexBias);" %
(self.id, lIndex, iTexCoord.id, iTexCoord.scale,self.id,lIndex))
lIndex += 1
M3GObject3D.writeJava(self,aWriter,False)
def getData(self):
self.texcoordArrayCount = len(self.texCoordArrays)
data = M3GObject3D.getData(self)
data += self.defaultColor.getData()
data += struct.pack('<I4f3I',getId(self.positions),
self.positionBias[0],
self.positionBias[1],
self.positionBias[2],
self.positionScale,
getId(self.normals),
getId(self.colors),
self.texcoordArrayCount)
for iTexCoord in self.texCoordArrays:
data += struct.pack('<I', getId(iTexCoord))
data += struct.pack('<ffff', iTexCoord.bias[0],
iTexCoord.bias[1],
iTexCoord.bias[2],
iTexCoord.scale)
return data
def getDataLength(self):
value = M3GObject3D.getDataLength(self)
value += self.defaultColor.getDataLength()
value += struct.calcsize('<I4f3I')
value += struct.calcsize('<Iffff') * len(self.texCoordArrays)
return value
class M3GPolygonMode(M3GObject3D):
CULL_BACK=160
CULL_NONE=162
SHADE_FLAT=164
SHADE_SMOOTH=165
WINDING_CCW=168
WINDING_CW=169
def __init__(self):
M3GObject3D.__init__(self)
self.ObjectType=8
self.culling=M3GPolygonMode.CULL_BACK #Byte
self.shading=M3GPolygonMode.SHADE_SMOOTH #Byte
self.winding=M3GPolygonMode.WINDING_CCW #Byte
self.twoSidedLightingEnabled = False #Boolean
self.localCameraLightingEnabled = False #Boolean
self.perspectiveCorrectionEnabled = False #Boolean
def writeJava(self,aWriter,aCreate):
if aCreate:
aWriter.write(2,"PolygonMode BL%i = new PolygonMode();" % (self.id))
aWriter.write(2,"BL%i.setCulling(%i);" % (self.id,self.culling))
aWriter.write(2,"BL%i.setShading(%i);" % (self.id,self.shading))
aWriter.write(2,"BL%i.setWinding(%i);" % (self.id,self.winding))
aWriter.write(2,("BL%i.setTwoSidedLightingEnable(" +
toJavaBoolean(self.twoSidedLightingEnabled) + ");") %
(self.id))
aWriter.write(2,("BL%i.setLocalCameraLightingEnable(" +
toJavaBoolean(self.localCameraLightingEnabled) + ");") %
(self.id))
aWriter.write(2,("BL%i.setPerspectiveCorrectionEnable(" +
toJavaBoolean(self.perspectiveCorrectionEnabled) + ");") %
(self.id))
aWriter.write(2)
M3GObject3D.writeJava(self,aWriter,False)
def getData(self):
data = M3GObject3D.getData(self)
data += struct.pack('6B',self.culling,
self.shading,
self.winding,
self.twoSidedLightingEnabled,
self.localCameraLightingEnabled,
self.perspectiveCorrectionEnabled)
return data
def getDataLength(self):
value = M3GObject3D.getDataLength(self)
value += struct.calcsize('6B')
return value
class M3GIndexBuffer(M3GObject3D):
def __init__(self):
M3GObject3D.__init__(self)
def getData(self):
return M3GObject3D.getData(self)
def getDataLength(self):
return M3GObject3D.getDataLength(self)
def writeJava(self,aWriter,aCreate):
M3GObject3D.writeJava(self,aWriter,False)
class M3GTriangleStripArray(M3GIndexBuffer):
def __init__(self):
M3GIndexBuffer.__init__(self)
self.ObjectType=11
self.encoding=128 #Byte Bit 7: 1 = explicit property on index buffer true
#Bit 1 .. 6: 0 = "raw" integer values 1= a single byte will suffice
#2 = a 16 bit integer is suffi to hold all the given index values
#IF encoding == 0, THEN
#self.startIndex = 0 #;UInt32
#ELSE IF encoding == 1, THEN
#Byte startIndex;
#ELSE IF encoding == 2, THEN
#UInt16 startIndex;
#ELSE IF encoding == 128, THEN
self.indices = [] #;UInt32[]
#ELSE IF encoding == 129, THEN
#Byte[] indices;
#ELSE IF encoding == 130, THEN
#UInt16[] indices;
#END
self.stripLengths = [] #;UInt32[]
def writeJava(self,aWriter,aCreate):
if aCreate:
aWriter.write(2,"//length of TriangleStrips")
aWriter.write(2,"int[] BL"+str(self.id)+"_stripLength ={"+
",".join([str(element) for element in self.stripLengths])+"};")
aWriter.write(2)
aWriter.write(2,"//IndexBuffer")
aWriter.write(2,"int[] BL%i_Indices = {" % (self.id))
aWriter.write(2,",".join([str(element) for element in self.indices])+"};")
aWriter.write(2)
aWriter.write(2,"IndexBuffer BL%i=new TriangleStripArray(BL%i_Indices,BL%i_stripLength);" %
(self.id, self.id, self.id))
M3GIndexBuffer.writeJava(self,aWriter,False)
aWriter.write(2)
def getData(self):
data = M3GIndexBuffer.getData(self)
data += struct.pack('<BI',self.encoding,
len(self.indices))
for element in self.indices:
data += struct.pack('<I',element)
data += struct.pack('<I',len(self.stripLengths))
for element in self.stripLengths:
data += struct.pack('<I',element)
return data
def getDataLength(self):
value = M3GIndexBuffer.getDataLength(self)
value += struct.calcsize('<BI')
if len(self.indices) > 0 :
value += struct.calcsize('<' + str(len(self.indices)) + 'I')
value += struct.calcsize('<I')
if len(self.stripLengths) > 0:
value+= struct.calcsize('<'+str(len(self.stripLengths))+'I')
return value
class M3GAppearance(M3GObject3D):
def __init__(self):
M3GObject3D.__init__(self)
self.ObjectType=3
self.layer=0 #Byte
self.compositingMode=None #ObjectIndex
self.fog=None #ObjectIndex
self.polygonMode=None #ObjectIndex
self.material=None #ObjectIndex
self.textures=[] #;ObjectIndex[]
def searchDeep(self,alist):
alist = doSearchDeep([self.compositingMode,self.fog,
self.polygonMode,self.material]
+ self.textures,alist)
return M3GObject3D.searchDeep(self,alist)
def getData(self):
data = M3GObject3D.getData(self)
data += struct.pack("<B5I", self.layer,
getId(self.compositingMode),
getId(self.fog),
getId(self.polygonMode),
getId(self.material),
len(self.textures))
for element in self.textures:
data += struct.pack("<I",getId(element))
return data
def getDataLength(self):
value = M3GObject3D.getDataLength(self)
value += struct.calcsize("<B5I")
if len(self.textures) > 0 :
value += struct.calcsize("<"+str(len(self.textures))+'I')
return value
def writeJava(self,aWriter,aCreate):
if aCreate:
aWriter.write(2,"//Appearance")
aWriter.write(2,"Appearance BL%i = new Appearance();" % (self.id))
if self.compositingMode!= None:
aWriter.write(2,"BL%i.setPolygonMode(BL%i);" %
(self.id,self.compositingMode.id))
if self.fog!=None:
aWriter.write(2,"BL%i.setFog(BL%i);" %
(self.id,self.fog.id))
if self.polygonMode!=None:
aWriter.write(2,"BL%i.setPolygonMode(BL%i);" %
(self.id,self.polygonMode.id))
if self.material!=None:
aWriter.write(2,"BL%i.setMaterial(BL%i);" %
(self.id,self.material.id))
i=0
for itexture in self.textures:
aWriter.write(2,"BL%i.setTexture(%i,BL%i);" %
(self.id,i,itexture.id))
i =+ 1
M3GObject3D.writeJava(self,aWriter,False)
aWriter.write(2)
class M3GTexture2D(M3GTransformable):
#M3G imposes the following restrictions when assigning textures to a model:
#The dimensions must be powers of two (4, 8, 16, 32, 64, 128...).
WRAP_REPEAT = 241
WRAP_CLAMP = 240
FILTER_BASE_LEVEL=208
FILTER_LINEAR=209
FILTER_NEAREST=210
FUNC_ADD=224
FUNC_BLEND=225
FUNC_DECAL=226
FUNC_MODULATE=227
FUNC_REPLACE=228
def __init__(self,aImage):
M3GTransformable.__init__(self)
self.ObjectType=17
self.Image = aImage #ObjectIndex
self.blendColor=M3GColorRGB(0,0,0)
self.blending=M3GTexture2D.FUNC_MODULATE #Byte
self.wrappingS=M3GTexture2D.WRAP_REPEAT #Byte
self.wrappingT=M3GTexture2D.WRAP_REPEAT #Byte
self.levelFilter=M3GTexture2D.FILTER_BASE_LEVEL #Byte
self.imageFilter=M3GTexture2D.FILTER_NEAREST #Byte
def searchDeep(self,alist):
alist = doSearchDeep([self.Image],alist)
return M3GTransformable.searchDeep(self,alist)
def getData(self):
data = M3GTransformable.getData(self)
data += struct.pack('<I', getId(self.Image))
data += self.blendColor.getData()
data += struct.pack('5B',self.blending,
self.wrappingS,
self.wrappingT,
self.levelFilter,
self.imageFilter)
return data
def getDataLength(self):
value = M3GTransformable.getDataLength(self)
value += struct.calcsize('<I')
value += self.blendColor.getDataLength()
value += struct.calcsize('5B')
return value
def writeJava(self,aWriter,aCreate):
if aCreate:
aWriter.write(2,"//Texture")
aWriter.write(2,"Texture2D BL%i = new Texture2D(BL%i);" % (self.id,
self.Image.id))
aWriter.write(2,"BL%i.setFiltering(%i,%i);" % (self.id,
self.levelFilter,
self.imageFilter))
aWriter.write(2,"BL%i.setWrapping(%i,%i);" % (self.id,
self.wrappingS,
self.wrappingT))
aWriter.write(2,"BL%i.setBlending(%i);" % (self.id,self.blending))
aWriter.write(2)
M3GTransformable.writeJava(self,aWriter,False)
class ImageFactory:
images={}
def getImage(self, image, externalReference):
# It's important to use getFilename() because getName() returns a
# truncated string depending on the length of the file name.
filename = Blender.sys.expandpath(image.getFilename())
if self.images.has_key(filename):
image = self.images[filename]
elif externalReference:
# Check for file ending (only relevant for external images). The M3G specification
# mandates only PNG support, but some devices might also support additional image types.
[path,ext] = splitext(filename)
if ext != ".png":
print "Warning: image file ends with " + ext + ". M3G specification only mandates PNG support."
image = M3GExternalReference()
image.URI = Blender.sys.basename(filename)
self.images[filename] = image
else:
image = M3GImage2D(image)
self.images[filename] = image
return image
getImage = classmethod(getImage)
class M3GImage2D(M3GObject3D):
ALPHA=96 #a single byte per pixel, representing pixel opacity
LUMINANCE=97 #a single byte per pixel, representing pixel luminance.
LUMINANCE_ALPHA=98 #two bytes per pixel. The first: luminance, the second: alpha.
RGB=99 #three bytes per pixel, representing red, green and blue
RGBA=100 #four bytes per pixel, representing red, green, blue and alpha
def __init__(self, aImage, aFormat=RGBA):
M3GObject3D.__init__(self)
self.ObjectType=10
self.image=aImage #Blender Image
self.format=aFormat #Byte
self.isMutable=False #Boolean changable or not
[self.width, self.height] = aImage.getSize()
#IF isMutable==false, THEN
self.palette=0 #Byte[]
self.pixels = array('B') #Byte[]
self.extractPixelsFromImage()
#END
#For a palettised format, the pixels array contains a single palette
#index per pixel, and the palette array will contain up to 256 entries,
#each consisting of a pixel specifier appropriate to the format chosen.
#For a non-palettised format, the palette array will be empty,
#and the pixels array contains a pixel specifier appropriate to the format
#chosen.
#In a pixel specifier, each byte is scaled such that 0 represents the
#value 0.0 and 255 represents the value 1.0. The different formats
#require different data to be serialized, as follows:
#The width and height of the image must be non-negative powers of two, but they need not be equal.
def getData(self):
data = M3GObject3D.getData(self)
data += struct.pack('2B', self.format, self.isMutable)
data += struct.pack('<2I', self.width, self.height)
if self.isMutable == False:
# TODO: support palettised formats also
# export palette data
data += struct.pack('<I', 0)
# export pixel data
if self.format == M3GImage2D.RGBA:
#print "len pixels",len(self.pixels)
data += struct.pack('<I', len(self.pixels))
for pixel in self.pixels:
data += struct.pack('B', pixel)
#elif...
return data
def getDataLength(self):
value = M3GObject3D.getDataLength(self)
value += struct.calcsize('2B')
value += struct.calcsize('<2I')
if self.isMutable == False:
# TODO: support palettised formats also
value+= struct.calcsize('<I')
# pixel data size
if self.format == M3GImage2D.RGBA:
value += struct.calcsize('<I')
value += struct.calcsize(str(len(self.pixels))+'B')
return value
def writeJava(self,aWriter,aCreate):
if aCreate:
lFileName = self.image.filename
if not Blender.sys.exists(lFileName) :
lFileName = Blender.sys.join(dirname(Blender.Get('filename')),
basename(self.image.filename))
elif not Blender.sys.exists(lFileName):
raise FileError, 'Image file not found!'
lTargetFile = Blender.sys.join(Blender.sys.dirname(aWriter.filename),
Blender.sys.basename(self.image.filename))
copy_file(lFileName,lTargetFile)
#shutil.copyfile(lFileName,lTargetFile)
aWriter.write(2,"//Image2D")
aWriter.write(2,"Image BL%i_Image = null;" % (self.id))
aWriter.write(2,"try {")
aWriter.write(3,"BL%i_Image = Image.createImage(\"/%s\");" %
(self.id,basename(self.image.filename)))
aWriter.write(2,"} catch (IOException e) {")
aWriter.write(3,"e.printStackTrace();")
aWriter.write(2,"}")
aWriter.write(2,"Image2D BL%i = new Image2D(Image2D.RGBA,BL%i_Image);" %
(self.id,self.id))
aWriter.write(2)
M3GObject3D.writeJava(self,aWriter,False)
aWriter.write(2)
def extractPixelsFromImage(self):
# Reverse t coordiante because M3G uses a different 2D coordinate system than OpenGL.
for y in range(self.height):
for x in range(self.width):
[r, g, b, a] = self.image.getPixelI(x, self.height-1-y)
self.pixels.append(r)
self.pixels.append(g)
self.pixels.append(b)
self.pixels.append(a)
class M3GAnimationController(M3GObject3D):
def __init__(self):
M3GObject3D.__init__(self)
self.ObjectType=1
self.speed = 1.0 #Float32
self.weight = 1.0 #Float32
self.activeIntervalStart = 0 #Int32 - (always active)
self.activeIntervalEnd = 0 #Int32
self.referenceSequenceTime = 0.0 #Float32
self.referenceWorldTime = 0 #Int32
def writeJava(self,aWriter,aCreate):
if aCreate:
aWriter.writeClass("AnimationController",self)
aWriter.write(2,"AnimationController BL%i = new AnimationController();" %
(self.id))
aWriter.write(2,"BL%i.setActiveInterval(%i, %i);" %
(self.id,self.activeIntervalStart,self.activeIntervalEnd))
#lightAnim.setPosition(0,<2C>2000);(2) Applying the animation during rendering
M3GObject3D.writeJava(self,aWriter,False)
def getData(self):
data = M3GObject3D.getData(self)
data += struct.pack("<ffiifi", self.speed,
self.weight,
self.activeIntervalStart,
self.activeIntervalEnd,
self.referenceSequenceTime,
self.referenceWorldTime)
return data
def getDataLength(self):
value = M3GObject3D.getDataLength(self)
return value + struct.calcsize("<ffiifi")
class M3GAnimationTrack(M3GObject3D):
ALPHA=256
AMBIENT_COLOR=257
COLOR=258
CROP=259
DENSITY=260
DIFFUSE_COLOR=261
EMISSIVE_COLOR=262
FAR_DISTANCE=263
FIELD_OF_VIEW=264
INTENSITY=265
MORPH_WEIGHTS=266
NEAR_DISTANCE=267
ORIENTATION=268
PICKABILITY=269
SCALE=270
SHININESS=271
SPECULAR_COLOR=272
SPOT_ANGLE=273
SPOT_EXPONENT=274
TRANSLATION=275
VISIBILITY=276
def __init__(self,aSequence,aProperty):
M3GObject3D.__init__(self)
self.ObjectType = 2
self.keyframeSequence = aSequence #ObjectIndex
self.animationController = None #ObjectIndex
self.propertyID = aProperty #UInt32
def getData(self):
data = M3GObject3D.getData(self)
data += struct.pack("<3I", getId(self.keyframeSequence),
getId(self.animationController),
self.propertyID)
return data
def getDataLength(self):
value = M3GObject3D.getDataLength(self)
return value + struct.calcsize("<3I")
def writeJava(self,aWriter,aCreate):
if aCreate:
aWriter.writeClass("AnimationTrack",self)
#print "self.id,self.keyframeSequence,self.propertyID",self.id,self.keyframeSequence,self.propertyID
aWriter.write(2,"AnimationTrack BL%i = new AnimationTrack(BL%i,%i);" %
(self.id,self.keyframeSequence.id,self.propertyID))
aWriter.write(2,"BL%i.setController(BL%i);" %
(self.id,self.animationController.id))
M3GObject3D.writeJava(self,aWriter,False)
def searchDeep(self,alist):
alist = doSearchDeep([self.keyframeSequence, self.animationController],alist)
return M3GObject3D.searchDeep(self,alist)
class M3GKeyframeSequence(M3GObject3D):
CONSTANT=192
LINEAR=176
LOOP=193
SLERP=177
SPLINE=178
SQUAD=179
STEP=180
def __init__(self,aNumKeyframes, aNumComponents,aBlenderInterpolation,
aM3GInterpolation=None):
M3GObject3D.__init__(self)
self.ObjectType = 19
if aM3GInterpolation!=None:
self.interpolation = aM3GInterpolation
else:
if aBlenderInterpolation == "Constant":
self.interpolation = self.STEP #Byte
elif aBlenderInterpolation == "Bezier":
self.interpolation = self.SPLINE #Byte
elif aBlenderInterpolation == "Linear":
self.interpolation = self.LINEAR #Byte
else:
pass # TODO : Throw Error
self.repeatMode = self.CONSTANT #Byte CONSTANT or LOOP
self.encoding = 0 #Byte 0=raw
# TODO: Other encodings
self.duration = 0 #UInt32
self.validRangeFirst = 0 #UInt32
self.validRangeLast = 0 #UInt32
self.componentCount = aNumComponents #UInt32
self.keyframeCount = aNumKeyframes #UInt32
#IF encoding == 0
#FOR each key frame...
self.time = [] #Int32
self.vectorValue = [] # Float32[componentCount]
#END
#ELSE IF encoding == 1
#Float32[componentCount] vectorBias;
#Float32[componentCount] vectorScale;
#FOR each key frame...
#Int32 time;
#Byte[componentCount] vectorValue;
#END
#ELSE IF encoding == 2
#Float32[componentCount] vectorBias;
#Float32[componentCount] vectorScale;
#FOR each key frame...
#Int32 time;
#UInt16[componentCount] vectorValue;
#END
#END
#All of the vectorValue arrays are the same size, so a separate count is stored outside the individual
#keyframe's data rather than with each array. The encoding field indicates the encoding scheme to be used for the keyframe data. Only the
#nominated values above are allowed. Other values must be treated as errors.
#<23>Encoding 0 indicates that the values are stored "raw" as floats.
#<23>Encodings 1 and 2 indicate that the values are quantized to 1 or 2 bytes. For each component,
#a bias and scale are calculated from the sequence of values for that component. The bias is the
#mimimum value, the scale is the maximum value minus the minimum value. The raw values
#are then converted to a value 0..1 by subtracting the bias and dividing by the scale. These raw
#values are then quantized into the range of a Byte or UInt16 by multiplying by 255 or 65535
#respectively. The converse operation restores the original value from the quantized values.
def beforeExport(self):
#M3G can not work with negative zero
#print"beforeExport ID= ",self.id
for i in range(self.keyframeCount):
for j in range(self.componentCount):
x = struct.pack("<f",self.vectorValue[i][j])
y = struct.unpack("<f",x)
#print "beforeExport i,j ",i,j,self.vectorValue[i][j],y
if abs(self.vectorValue[i][j]) < 0.000001 :
#print "Negative Zero found!",self.vectorValue[i][j]
self.vectorValue[i][j]=0.0
#print "zero ",self.vectorValue[i][j]
def getData(self):
self.beforeExport()
data = M3GObject3D.getData(self)
data += struct.pack("<3B5I",self.interpolation,
self.repeatMode,
self.encoding,
self.duration,
self.validRangeFirst,
self.validRangeLast,
self.componentCount,
self.keyframeCount)
#FOR each key frame...
for i in range(self.keyframeCount):
data += struct.pack("<i",self.time[i]) #Int32
for j in range(self.componentCount):
data += struct.pack("<f",self.vectorValue[i][j]) # Float32[componentCount]
return data
def getDataLength(self):
value = M3GObject3D.getDataLength(self)
value += struct.calcsize("<3B5I")
value += struct.calcsize("<i") * self.keyframeCount
value += struct.calcsize("<f") * self.keyframeCount * self.componentCount
return value
def setRepeatMode(self,aBlenderMode):
if aBlenderMode == "Constant" :
self.repeatMode = self.CONSTANT
elif aBlenderMode == "Cyclic":
self.repeatMode = self.LOOP
else:
print "In IPO: Mode " + aBlenderMode + " is not assisted!"
def setKeyframe(self, aIndex, aTime, aVector):
self.time.append(aTime)
self.vectorValue.append(aVector)
def writeJava(self,aWriter,aCreate):
self.beforeExport()
if aCreate:
aWriter.writeClass("KeyframeSequence",self)
aWriter.write(2,"KeyframeSequence BL%i = new KeyframeSequence(%i, %i, %i);" %
(self.id,self.keyframeCount,self.componentCount,self.interpolation))
for i in range(len(self.time)):
lLine = "BL%i.setKeyframe(%i,%i, new float[] { %ff, %ff, %ff" % \
(self.id,i,self.time[i],self.vectorValue[i][0], \
self.vectorValue[i][1],self.vectorValue[i][2])
if self.componentCount == 4:
lLine += ", %ff" % (self.vectorValue[i][3])
lLine += "});"
aWriter.write(2,lLine)
# TODO : Works only with componentCount = 3
aWriter.write(2,"BL%i.setDuration(%i);" % (self.id, self.duration))
aWriter.write(2,"BL%i.setRepeatMode(%i);" % (self.id,self.repeatMode))
M3GObject3D.writeJava(self,aWriter,False)
# ---- Translator -------------------------------------------------------------- #
class M3GTranslator:
"Trys to translate a blender scene into a mg3 World"
def __init__(self):
self.world = None
self.scene = None
self.nodes = []
def start(self):
print "Translate started ..."
self.scene = Blender.Scene.GetCurrent()
self.world = self.translateWorld(self.scene)
update to m3g exporter by Gerhard Völkl
2008-01-18 10:46:37 +00:00
for obj in self.scene.objects :
Script from Gerhard for exporting blender to m3g and java source, see website for examples http://www.nelson-games.de/bl2m3g/default.html
2007-05-29 21:39:29 +00:00
if obj.getType()=='Camera': # older Version: isinstance(obj.getData(),Types.CameraType)
self.translateCamera(obj)
elif obj.getType()=='Mesh':
self.translateMesh(obj)
elif obj.getType()=='Lamp' and mOptions.lightingEnabled: # older Version: isinstance(obj.getData(),Types.LampType)
self.translateLamp(obj)
elif obj.getType()=='Empty':
self.translateEmpty(obj)
else:
print "Warning: could not translate" + str(obj) + ". Try to convert object to mesh using Alt-C"
self.translateParenting()
print "Translate finished."
return self.world
def translateParenting(self):
for iNode in self.nodes:
if iNode.parentBlenderObj == None:
self.world.children.append(iNode)
else:
for jNode in self.nodes:
if iNode.parentBlenderObj == jNode.blenderObj:
#TODO : Every object can be parent
jNode.children.append(iNode)
#lMatrix = Matrix(iNode.blenderMatrixWorld) * Matrix(jNode.blenderMatrixWorld).invert()
lMatrix = self.calculateChildMatrix(iNode.blenderMatrixWorld,jNode.blenderMatrixWorld)
iNode.transform = self.translateMatrix(lMatrix)
iNode.hasGeneralTransform=True
break
def calculateChildMatrix(self,child,parent):
return Matrix(child) * Matrix(parent).invert()
def translateArmature(self,obj,meshObj,aSkinnedMesh):
print "translate Armature ..."
#print "translateArmature::aSkinnedMesh.vertexBuffer:",aSkinnedMesh.vertexBuffer
armature = obj.getData()
#Pose
#pose = obj.getPose()
#print "pose ",pose
#for bone in pose.bones.values():
# print "bone local",bone.localMatrix
# print "bone pose",bone.poseMatrix
#Skeleton
mGroup = M3GGroup()
self.translateCore(obj,mGroup)
aSkinnedMesh.skeleton = mGroup
mGroup.transform = self.translateMatrix(
self.calculateChildMatrix(obj.matrixWorld,
meshObj.matrixWorld))
#Bones
#print "armature:",armature.bones
for bone in armature.bones.values(): #Copy Bones
mBone = M3GBone()
mBone.transformNode = M3GGroup()
self.translateCore(bone, mBone.transformNode)
#mBone.transformNode.transform = self.translateMatrix(pose.bones[bone.name].poseMatrix)#Test!!!!
#print "node transform", mBone.transformNode.transform
#mBone.transformNode.transform=self.translateMatrix(self.calculateChildMatrix(bone.matrix['ARMATURESPACE'],meshObj.matrixWorld))
if bone.hasParent():
mBone.transformNode.transform = self.translateMatrix(
self.calculateChildMatrix(bone.matrix['ARMATURESPACE'],
bone.parent.matrix['ARMATURESPACE']))
mBone.weight = bone.weight
aSkinnedMesh.bones[bone.name]=mBone
rootBone = [] #Copy Child-Parent-Structure
for bone in armature.bones.values():
mBone = aSkinnedMesh.bones[bone.name]
if not bone.hasParent():
rootBone.append(mBone)
if bone.hasChildren():
for childBone in bone.children:
mChildBone = aSkinnedMesh.bones[childBone.name]
mBone.transformNode.children.append(mChildBone.transformNode)
for rbone in rootBone:
aSkinnedMesh.skeleton.children.append(rbone.transformNode)
#VertexGroups - Skinning
if armature.vertexGroups:
for boneName in aSkinnedMesh.bones.keys():
aSkinnedMesh.bones[boneName].setVerts(self.translateVertsGroup(meshObj.getData(False,True).getVertsFromGroup(boneName),
aSkinnedMesh))
#Envelope - Skinning
if armature.envelopes:
pass #TODO
#Action
self.translateAction(obj,aSkinnedMesh)
aSkinnedMesh.addSecondBone()
def translateVertsGroup(self,group,aSkinnedMesh):
#print "group: ",group
#print "items: ",aSkinnedMesh.getBlenderIndexes().items()
ergebnis = [int(k) for k,v in aSkinnedMesh.getBlenderIndexes().items() if v in group]
#print "ergebnis: ",ergebnis
return ergebnis
def translateAction(self,armatureObj,aSkinnedMesh):
action = armatureObj.getAction()
if action==None: return
print "tranlating Action ..."
if mOptions.exportAllActions:
lArmatureID = self.translateUserID(armatureObj.getData().name)
print "armatureID ", lArmatureID, armatureObj
for a in Blender.Armature.NLA.GetActions().values():
(lArmatureActionID,lEndFrame,lActionID) = self.translateActionName(a.name)
#print "action", a
#print "lArmatureID", lArmatureActionID
#print "lEndFrame", lEndFrame
#print "lActionID", lActionID
if lArmatureActionID == lArmatureID:
#print "Action found"
mController = self.translateActionIPOs(a,aSkinnedMesh,lEndFrame)
mController.userID = lActionID
#print "mController.userID ",mController.userID
#print "getActionScripts() ", Blender.Armature.NLA.getActionStrips()
else:
self.translateActionIPOs(action,aSkinnedMesh)
def translateActionIPOs(self,aAction,aSkinnedMesh,aEndFrame=0):
ipos = aAction.getAllChannelIpos()
mController=None
for boneName in aSkinnedMesh.bones.keys():
if ipos.has_key(boneName):
ipo = ipos[boneName]
if mController==None: mController = M3GAnimationController()
self.translateIpo(ipo,aSkinnedMesh.bones[boneName].transformNode,mController,aEndFrame)
return mController
def translateActionName(self,name):
# <Action Name>#A<M3G ID of Armature>E<End Frame>#<ID of Action>
lError = "Armature name " + name + " is not ok. Perhaps you should set option 'ExportAllAction' to false."
#print "name ", name
lLetter = name.find("#")
if lLetter == -1 :raise Exception(lError)
if name[lLetter+1]!='A': raise Exception(lError)
lName = name[lLetter+2:]
#print "lName ", lName
lLetter = lName.find("E")
#print "lLetter ", lLetter
if lLetter == -1 :raise Exception(lError)
#print "lName[:]", lName[:0]
lArmatureID = int(lName[:lLetter])
lName = lName[lLetter+1:]
lLetter = lName.find("#")
if lLetter == -1:raise Exception(lError)
lEndFrame = int(lName[:lLetter])
lActionID = int(lName[lLetter+1:])
return (lArmatureID,lEndFrame,lActionID)
def translateWorld(self,scene):
"creates world object"
world = M3GWorld()
#Background
world.background = M3GBackground()
blWorld= scene.world
#AllWorlds = Blender.World.Get() # Set Color
#if len(AllWorlds)>=1: # world object available
if blWorld != None:
world.background.backgroundColor=self.translateRGBA(blWorld.getHor(),0) # horizon color of the first world
if mOptions.createAmbientLight & mOptions.lightingEnabled:
lLight = M3GLight()
lLight.mode = lLight.modes['AMBIENT']
update to m3g exporter by Gerhard Völkl
2008-01-18 10:46:37 +00:00
lLight.color = self.translateRGB(blWorld.getAmb())
Script from Gerhard for exporting blender to m3g and java source, see website for examples http://www.nelson-games.de/bl2m3g/default.html
2007-05-29 21:39:29 +00:00
self.nodes.append(lLight)
#TODO: Set background picture from world
return world
def translateEmpty(self,obj):
print "translate empty ..."
mGroup = M3GGroup()
self.translateToNode(obj,mGroup)
def translateCamera(self,obj):
print "translate camera ..."
camera = obj.getData()
if camera.getType()!=0:
print "Only perscpectiv cameras will work korrekt"
return #Type=0 'perspectiv' Camera will be translated
mCamera = M3GCamera()
mCamera.projectionType=mCamera.PERSPECTIVE
mCamera.fovy=60.0 # TODO: Calculate fovy from Blender.lens
mCamera.AspectRatio=4.0/3.0 # TODO: different in every device
mCamera.near=camera.getClipStart()
mCamera.far=camera.getClipEnd()
self.translateToNode(obj,mCamera)
self.world.activeCamera = mCamera # Last one is always the active one
def translateMaterials(self, aMaterial, aMesh, aMatIndex, createNormals, createUvs):
print "translate materials ..."
mAppearance = M3GAppearance()
if createNormals:
mMaterial = M3GMaterial()
mMaterial.name = aMaterial.name
mMaterial.diffuseColor = self.translateRGBA(aMaterial.rgbCol,1.0) #ColorRGBA
#material.specularColor= self.translateRGB(mat.specCol) #ColorRGB
mAppearance.material = mMaterial
if createUvs:
# Search file name in mesh face.
lImage = None
for iface in aMesh.faces:
if iface.mat==aMatIndex:
if iface.image != None:
lImage = iface.image
break
if lImage==None:
raise Exception("Mesh " + aMesh.name + ": No image found for uv-texture! Perhaps no uv-coordinates ?")
# M3G requires textures to have power-of-two dimensions.
[width, height] = lImage.getSize()
powerWidth = 1
while (powerWidth < width):
powerWidth *= 2
powerHeight = 1
while (powerHeight < height):
powerHeight *= 2
if powerWidth != width or powerHeight != height:
raise Exception("Image " + lImage.filename + ": width and height must be power-of-two!")
# ImageFactory reuses existing images.
mImage = ImageFactory.getImage(lImage, mOptions.textureExternal)
mTexture = M3GTexture2D(mImage)
mAppearance.textures.append(mTexture)
mPolygonMode=M3GPolygonMode()
mPolygonMode.perspectiveCorrectionEnabled = mOptions.perspectiveCorrection
if not aMesh.mode & Modes.TWOSIDED:
mPolygonMode.culling=M3GPolygonMode.CULL_BACK
else:
mPolygonMode.culling=M3GPolygonMode.CULL_NONE
if mOptions.smoothShading:
mPolygonMode.shading=M3GPolygonMode.SHADE_SMOOTH
else:
mPolygonMode.shading=M3GPolygonMode.SHADE_FLAT
mAppearance.polygonMode = mPolygonMode
return mAppearance
def translateMesh(self,obj):
print "translate mesh ..." + str(obj)
# Mesh data.
mesh = obj.getData(False, True) # get Mesh not NMesh object
if len(mesh.faces) <= 0: # no need to process empty meshes
print "Empty mesh " + str(obj) + " not processed."
return
vertexBuffer = M3GVertexBuffer()
positions = M3GVertexArray(3, 2) # 3 coordinates - 2 bytes
if mOptions.autoscaling: positions.useMaxPrecision(mesh.verts)
indexBuffers = []
appearances = []
print str(len(mesh.materials)) + " material(s) found."
# Texture coordinates.
createUvs = False
if mOptions.textureEnabled & mesh.faceUV:
for material in mesh.materials:
if material.getMode() & Material.Modes.TEXFACE: createUvs = True;
if createUvs:
if mOptions.autoscaling:
uvCoordinates = M3GVertexArray(2,2,True,True) #2 coordinates - 2 bytes - autoscaling
else:
uvCoordinates = M3GVertexArray(2, 2) #2 coordinates - 2 bytes
uvCoordinates.bias[0] = 0.5
uvCoordinates.bias[1] = 0.5
uvCoordinates.bias[2] = 0.5
uvCoordinates.scale = 1.0/65535.0
else:
uvCoordinates = None
# Normals.
createNormals = False
if mOptions.lightingEnabled:
for material in mesh.materials:
if not (material.getMode() & Material.Modes.SHADELESS): createNormals = True;
if createNormals:
normals = M3GVertexArray(3, 1) # 3 coordinates - 1 byte
else:
normals = None
# Create a submesh for each material.
for materialIndex, material in enumerate(mesh.materials):
faces = [face for face in mesh.faces if face.mat == materialIndex]
if len(faces) >= 0:
indexBuffers.append(self.translateFaces(faces, positions, normals, uvCoordinates, createNormals, createUvs))
appearances.append(self.translateMaterials(material, mesh, materialIndex, createNormals, createUvs))
# If the above didn't result in any IndexBuffer (e.g. there's no material), write a single IndexBuffer
# with all faces and a default Appearance.
if len(indexBuffers) == 0:
indexBuffers.append(self.translateFaces(mesh.faces, positions, normals, uvCoordinates, createNormals, createUvs))
appearances.append(M3GAppearance())
vertexBuffer.setPositions(positions)
if createNormals: vertexBuffer.normals = normals
if createUvs: vertexBuffer.texCoordArrays.append(uvCoordinates)
parent = obj.getParent()
if parent!=None and parent.getType()=='Armature': #Armatures ?
mMesh = M3GSkinnedMesh(vertexBuffer,indexBuffers,appearances)
#print"vertexBuffer.positions:",vertexBuffer.positions
print"mMesh.vertexBuffer:",mMesh.vertexBuffer
self.translateArmature(parent,obj,mMesh)
else:
mMesh = M3GMesh(vertexBuffer,indexBuffers,appearances)
self.translateToNode(obj,mMesh)
#Do Animation
self.translateObjectIpo(obj,mMesh)
def translateFaces(self, faces, positions, normals, uvCoordinates, createNormals, createUvs):
"""Translates a list of faces into vertex data and triangle strips."""
# Create vertices and triangle strips.
indices = [0, 0, 0, 0]
triangleStrips = M3GTriangleStripArray()
for face in faces:
for vertexIndex, vertex in enumerate(face.verts):
# Find candidates for sharing (vertices with same Blender ID).
vertexCandidateIds = [int(k) for k, v in positions.blenderIndexes.items() if v == vertex.index]
# Check normal.
if createNormals and not face.smooth:
# For solid faces, a vertex can only be shared if the the face normal is
# the same as the normal of the shared vertex.
for candidateId in vertexCandidateIds[:]:
for j in range(3):
if face.no[j]*127 != normals.components[candidateId*3 + j]:
vertexCandidateIds.remove(candidateId)
break
# Check texture coordinates.
if createUvs:
# If texture coordinates are required, a vertex can only be shared if the
# texture coordinates match.
for candidateId in vertexCandidateIds[:]:
s = int((face.uv[vertexIndex][0]-0.5)*65535)
t = int((0.5-face.uv[vertexIndex][1])*65535)
if (s != uvCoordinates.components[candidateId*2 + 0]) or (t != uvCoordinates.components[candidateId*2 + 1]):
vertexCandidateIds.remove(candidateId)
if len(vertexCandidateIds) > 0:
# Share the vertex.
indices[vertexIndex] = vertexCandidateIds[0]
else:
# Create new vertex.
positions.append(vertex, vertex.index)
indices[vertexIndex] = len(positions.components)/3 - 1
# Normal.
if createNormals:
for j in range(3):
if face.smooth:
normals.append(int(vertex.no[j]*127)) # vertex normal
else:
normals.append(int(face.no[j]*127)) # face normal
# Texture coordinates.
if createUvs:
lUvCoordinatesFound = True
print "face.uv[vertexIndex][0]:",face.uv[vertexIndex][0]
print "face.uv[vertexIndex][1]:",face.uv[vertexIndex][1]
if mOptions.autoscaling:
uvCoordinates.append(face.uv[vertexIndex][0])
uvCoordinates.append(face.uv[vertexIndex][1])
else:
uvCoordinates.append(int((face.uv[vertexIndex][0]-0.5)*65535))
# Reverse t coordinate because M3G uses a different 2D coordinate system than Blender.
uvCoordinates.append(int((0.5-face.uv[vertexIndex][1])*65535))
# IndexBuffer.
triangleStrips.stripLengths.append(len(face.verts))
if len(face.verts) > 3 :
triangleStrips.indices += [indices[1], indices[2], indices[0], indices[3]] # quad
else :
triangleStrips.indices += [indices[0], indices[1], indices[2]] # tri
return triangleStrips
def translateObjectIpo(self,obj,aM3GObject):
if obj.getIpo() == None : return #No Ipo available
print "translate Ipo ..."
lIpo = obj.getIpo()
self.translateIpo(lIpo,aM3GObject)
def translateIpo(self,aIpo,aM3GObject,aM3GAnimContr=None,aEndFrame=0):
#Print info about curves
#for iCurve in lIpo.getCurves():
# print "Extrapolation",iCurve.getExtrapolation() #Constant, Extrapolation, Cyclic or Cyclic_extrapolation
# print "Interpolation",iCurve.getInterpolation() #Constant, Bezier, or Linear
# print "Name",iCurve.getName()
# for iPoint in iCurve.getPoints():
# print "Knode points",iPoint.getPoints()
types = ['Loc','Rot','Size','Quat']
for type in types:
if aIpo.getCurve(type+'X'):
self.translateIpoCurve(aIpo,aM3GObject,type,aM3GAnimContr,aEndFrame)
def translateIpoCurve(self,aIpo,aM3GObject,aCurveType,aM3GAnimContr,aEndFrame=0):
lContext = self.scene.getRenderingContext()
if aEndFrame==0:
lEndFrame = lContext.endFrame()
else:
lEndFrame = aEndFrame
lTimePerFrame = 1.0 / lContext.framesPerSec() * 1000
lCurveX = aIpo.getCurve(aCurveType+'X')
lCurveY = aIpo.getCurve(aCurveType+'Y')
lCurveZ = aIpo.getCurve(aCurveType+'Z')
if aCurveType=='Quat': lCurveW = aIpo.getCurve(aCurveType+'W')
lInterpolation = None
if aCurveType == 'Rot' or aCurveType == 'Quat':
lTrackType = M3GAnimationTrack.ORIENTATION
lNumComponents=4
lCurveFactor= 10 #45 Degrees = 4,5
if aCurveType == 'Quat':
lTrackType = M3GAnimationTrack.ORIENTATION
lNumComponents=4
lCurveFactor= 1
lInterpolation = M3GKeyframeSequence.SLERP
#lInterpolation = M3GKeyframeSequence.SQUAD
elif aCurveType == 'Size':
lTrackType = M3GAnimationTrack.SCALE
lNumComponents=3
lCurveFactor=1
else:
lTrackType = M3GAnimationTrack.TRANSLATION
lNumComponents=3
lCurveFactor=1
mSequence = M3GKeyframeSequence(len(lCurveX.getPoints()),
lNumComponents,
lCurveX.getInterpolation(),
lInterpolation)
#print 'ComponentCount',mSequence.componentCount
mSequence.duration = lEndFrame * lTimePerFrame
mSequence.setRepeatMode(lCurveX.getExtrapolation())
lIndex = 0
for iPoint in lCurveX.getPoints():
lPoint = iPoint.getPoints()
lPointList = [(lPoint[1]*lCurveFactor),
(lCurveY.evaluate(lPoint[0])*lCurveFactor),
(lCurveZ.evaluate(lPoint[0])*lCurveFactor)]
#print "aCurveType ", aCurveType
if aCurveType == 'Loc':
#print "PointList ", lPointList
#lorgTransVector = aM3GObject.blenderTransformMatrix.translationPart()
#ltrans = TranslationMatrix(Vector(lPointList))
#ltrans2 = self.calculateChildMatrix(ltrans,aM3GObject.blenderTransformMatrix)
#lVector = ltrans2.translationPart() + lorgTransVector
#lPointList = [lVector.x, lVector.y,lVector.z]
#print "PointList ", lPointList
pass
if aCurveType == 'Quat':
lPointList.append(lCurveW.evaluate(lPoint[0])*lCurveFactor)
#lQuat = Quaternion([lPointList[3],lPointList[0],lPointList[1],lPointList[2]])
#print "Quat ", lQuat
#print "Quat.angel ", lQuat.angle
#print "Quat.axis ", lQuat.axis
#print "PointList ", lPointList
#print "PointList",lPointList
if aCurveType =='Rot':
lQuat = Euler(lPointList).toQuat()
#lPointList = [lQuat.w,lQuat.x,lQuat.y,lQuat.z]
lPointList = [lQuat.x,lQuat.y,lQuat.z,lQuat.w]
#print " Quat=", lPointList
mSequence.setKeyframe(lIndex,
lPoint[0]*lTimePerFrame,
lPointList)
lIndex += 1
mSequence.validRangeFirst = 0
mSequence.validRangeLast = lIndex - 1
mTrack = M3GAnimationTrack(mSequence,lTrackType)
aM3GObject.animationTracks.append(mTrack)
if aM3GAnimContr==None: aM3GAnimContr = M3GAnimationController()
mTrack.animationController = aM3GAnimContr
def translateLamp(self,obj):
print "translate lamp ..."
lamp = obj.getData()
#Type
lampType=lamp.getType()
if not lampType in [Lamp.Types.Lamp,Lamp.Types.Spot,Lamp.Types.Sun]:
print "INFO: Type of light is not supported. See documentation"
return #create not light; type not supported
mLight = M3GLight()
if lampType == Lamp.Types.Lamp:
mLight.mode = mLight.modes['OMNI']
elif lampType == Lamp.Types.Spot:
mLight.mode = mLight.modes['SPOT']
elif lampType == Lamp.Types.Sun:
mLight.mode = mLight.modes['DIRECTIONAL']
#Attenuation (OMNI,SPOT):
if lampType in [Lamp.Types.Lamp,Lamp.Types.Spot]:
mLight.attenuationConstant = 0.0
mLight.attenuationLinear = 2.0/lamp.dist
mLight.attenuationQuadratic = 0.0
#Color
mLight.color = self.translateRGB(lamp.col)
#Energy
mLight.intensity = lamp.energy
#SpotAngle, SpotExponent (SPOT)
if lampType == Lamp.Types.Spot:
update to m3g exporter by Gerhard Völkl
2008-01-18 10:46:37 +00:00
mLight.spotAngle = lamp.spotSize/2
Script from Gerhard for exporting blender to m3g and java source, see website for examples http://www.nelson-games.de/bl2m3g/default.html
2007-05-29 21:39:29 +00:00
mLight.spotExponent = lamp.spotBlend
self.translateToNode(obj,mLight)
def translateCore(self,obj,node):
#Name
node.name = obj.name
node.userID = self.translateUserID(obj.name)
#Location
#node.translation=self.translateLoc(obj.LocX,obj.LocY,obj.LocZ
#node.hasComponentTransform=True
#Transform
#node.transform = self.translateMatrix(obj.getMatrix('localspace'))
if type(obj) is Types.BoneType:
#print "BoneMatrix ",obj.matrix['BONESPACE']
node.transform = self.translateMatrix(obj.matrix['ARMATURESPACE'])
#'ARMATURESPACE' - this matrix of the bone in relation to the armature
#'BONESPACE' - the matrix of the bone in relation to itself
else:
node.transform = self.translateMatrix(obj.matrixWorld)
node.hasGeneralTransform=True
def translateToNode(self,obj,node):
self.translateCore(obj,node)
#Nodes
self.nodes.append(node)
#Link to Blender Object
node.blenderObj = obj
node.blenderMatrixWorld = obj.matrixWorld
lparent = None
if obj.getParent()!=None:
if obj.getParent().getType()!='Armature':
lparent = obj.getParent()
else:
if obj.getParent().getParent()!=None and obj.getParent().getParent().getType()!='Armature':
lparent = obj.getParent().getParent()
node.parentBlenderObj = lparent
def translateUserID(self, name):
id = 0
start = name.find('#')
# Use digits that follow the # sign for id.
if start != -1:
start += 1
end = start
for char in name[start:]:
if char.isdigit():
end += 1
else:
break
if end > start:
id = int(name[start:end])
return id
def translateLoc(self,aLocX,aLocY,aLocZ):
return M3GVector3D(aLocX,aLocY,aLocZ)
def translateRGB(self,color):
return M3GColorRGB(int(color[0]*255),
int(color[1]*255),
int(color[2]*255))
def translateRGBA(self,color,alpha):
return M3GColorRGBA(int(color[0]*255),
int(color[1]*255),
int(color[2]*255),
int(alpha*255))
def translateMatrix(self,aPyMatrix):
"""
<EFBFBD>0<EFBFBD><EFBFBD><EFBFBD>1<EFBFBD><EFBFBD><EFBFBD>2<EFBFBD><EFBFBD><EFBFBD>3<EFBFBD>
4<EFBFBD><EFBFBD><EFBFBD>5<EFBFBD><EFBFBD><EFBFBD>6<EFBFBD><EFBFBD><EFBFBD>7<EFBFBD>
8<EFBFBD><EFBFBD><EFBFBD>9<EFBFBD><EFBFBD>10<EFBFBD><EFBFBD>11
12<EFBFBD><EFBFBD>13<EFBFBD><EFBFBD>14<EFBFBD><EFBFBD>15 """
#print "Matrix:", aPyMatrix
lMatrix = M3GMatrix()
lMatrix.elements[0] = aPyMatrix[0][0]
lMatrix.elements[1] = aPyMatrix[1][0]
lMatrix.elements[2] = aPyMatrix[2][0]
lMatrix.elements[3] = aPyMatrix[3][0]
lMatrix.elements[4] = aPyMatrix[0][1]
lMatrix.elements[5] = aPyMatrix[1][1]
lMatrix.elements[6] = aPyMatrix[2][1]
lMatrix.elements[7] = aPyMatrix[3][1]
lMatrix.elements[8] = aPyMatrix[0][2]
lMatrix.elements[9] = aPyMatrix[1][2]
lMatrix.elements[10] = aPyMatrix[2][2]
lMatrix.elements[11] = aPyMatrix[3][2]
lMatrix.elements[12] = aPyMatrix[0][3]
lMatrix.elements[13] = aPyMatrix[1][3]
lMatrix.elements[14] = aPyMatrix[2][3]
lMatrix.elements[15] = aPyMatrix[3][3]
return lMatrix
# ---- Exporter ---------------------------------------------------------------- #
class M3GExporter:
"Exports Blender-Scene to M3D"
def __init__(self, aWriter):
self.writer = aWriter
def start(self):
print "Info: starting export ..."
#rpdb2.start_embedded_debugger("t",True)
Translator = M3GTranslator()
world = Translator.start()
#sys.settrace(tracer)
exportList = self.createDeepSearchList(world)
externalReferences = [element for element in exportList if element.__class__ is M3GExternalReference]
exportList = [element for element in exportList if element.__class__ is not M3GExternalReference]
#sys.settrace(None)
# 1 is reservated for HeaderObject.
i=1
# Next are the external references.
for element in externalReferences:
i += 1
element.id = i
print "object ",element.id, element
# And the standard scene objects.
for element in exportList:
i += 1
element.id = i
print "object ",element.id, element
self.writer.writeFile(world, exportList, externalReferences)
print("Ready!")
def createDeepSearchList(self,aWorld):
"creates the right order for saving m3g : leafs first"
return aWorld.searchDeep([])
# ---- Writer ---------------------------------------------------------------- #
class JavaWriter:
"writes a java class which creates m3g-Scene in a j2me programm"
def __init__(self,aFilename):
self.filename = aFilename
self.classname = Blender.sys.basename(aFilename)
self.classname = self.classname[:-5] #without extention ".java"
self.outFile = file(aFilename,"w")
def write(self, tab, zeile=""):
"writes to file"
#print "\t" * tab + zeile
print >>self.outFile, "\t" * tab + zeile
def writeFile(self,aWorld,aExportList,externalReferences):
self.world = aWorld
self.writeHeader()
for element in aExportList:
element.writeJava(self,True)
self.writeFooter()
self.outFile.close()
def writeHeader(self):
"writes class header"
self.write(0,"import javax.microedition.lcdui.Image;")
self.write(0,"import javax.microedition.m3g.*;")
self.write(0,"public final class "+self.classname+" {")
self.write(1,"public static World getRoot(Canvas3D aCanvas) {")
def writeFooter(self):
self.write(1)
self.write(1,"return BL"+str(self.world.id)+";")
self.write(0,"}}")
def writeList(self,alist,numberOfElementsPerLine=12,aType=""):
'''Writes numberOfElementsPerLine'''
line=""
lastLine=""
counter=0
for element in alist:
if counter!=0:
line = line + "," + str(element) + aType
else:
line = str(element) + aType
counter = counter + 1
if counter == numberOfElementsPerLine:
if len(lastLine)>0:
self.write(3,lastLine+",")
lastLine=line
line=""
counter = 0
if len(lastLine)>0:
if len(line)>0:
self.write(3,lastLine+",")
else:
self.write(3,lastLine)
if len(line) > 0: self.write(3,line)
def writeClass(self,aName,aM3GObject):
self.write(2)
self.write(2,"//"+aName+":"+aM3GObject.name)
class M3GSectionObject:
def __init__(self,aObject):
"""Object Structure
Each object in the file represents one object in the
scene graph tree, and is stored in a chunk. The
structure of an object chunk is as follows:
Byte ObjectType
UInt32 Length
Byte[] Data"""
#ObjectType
#This field describes what type of object has been serialized.
#The values 0 and 0xFF are special: 0 represents the header object,
#and 0xFF represents an external reference.
#Example: Byte ObjectType = 14
self.ObjectType = aObject.ObjectType
self.data = aObject.getData()
self.length = aObject.getDataLength()
def getData(self):
data = struct.pack('<BI',self.ObjectType,self.length)
data += self.data
return data
def getDataLength(self):
return struct.calcsize('<BI') + self.length
class M3GSection:
'''Part of a M3G binary file'
Section Structur
Byte CompressionScheme
UInt32 TotalSectionLength
UInt32 UncompressedLength
Byte[] Objects
UInt32 Checksum '''
def __init__(self,aObjectList,compressed=False):
self.CompressionScheme=0
self.TotalSectionLength=0 #including the CompressionScheme,
#TotalSectionLength, UncompressedLength,
#Objects and Checksum fields,
self.UncompressedLength=0 #Length of Objects uncompresses
self.Objects = ''
for element in aObjectList:
lObject = M3GSectionObject(element)
#print "Obj:", lObject, lObject.getDataLength(), len(lObject.getData())
self.Objects += lObject.getData()
self.UncompressedLength += lObject.getDataLength()
self.TotalSectionLength=struct.calcsize('<BIII')+self.UncompressedLength
def getData(self):
data = struct.pack('<BII',self.CompressionScheme,
self.TotalSectionLength,
self.UncompressedLength)
data += self.Objects
#self.Checksum = zlib.adler32(data)
self.Checksum = self.ownAdler32(data)
print "Checksum",self.Checksum
#print "Own Checksum",self.ownAdler32(data)
return data + struct.pack('<I',self.Checksum)
def ownAdler32(self,data):
s1 = int(1) #uint32_t
s2 = int(0) #uint32_t
for n in data:
s1 = (s1 + int(struct.unpack("B",n)[0])) % 65521
s2 = (s2 + s1) % 65521
return (s2 << 16) + s1
def getLength(self):
return self.TotalSectionLength
def write(self,aFile):
print "Write Section.."
print "TotalSectionLength:", str(self.TotalSectionLength)
aFile.write(self.getData())
#CompressionScheme
#Example Byte CompressionScheme = 1;
#0 Uncompressed, Adler32 Checksum
#1 ZLib compression, 32 k buffer size, Adler32 Checksum
#2...255 Reserved
#TotalSectionLength: total length of the section in bytes
#Example: UInt32 TotalSectionLength = 2056
#UncompressedLength
#contains the length of the Objects field after decompression.
#If no compression is specified for this section,
#this equals the actual number of bytes serialized in the Objects array.
#CompressionScheme
#Currently, only the Adler32 checksum is mandatory.
#The checksum is calculated using all preceding bytes in
#the section, i.e. the CompressionScheme,TotalSectionLength,
#UncompressedLength, and the actual serialized data in the
#Objects field (i.e. in its compressed form if compression is speci-
#fied).
#Example: UInt32 Checksum = 0xffe806a3
class M3GFileIdentifier:
def __init__(self):
'''Byte[12] FileIdentifier = { 0xAB, 0x4A, 0x53, 0x52, 0x31, 0x38, 0x34,
0xBB, 0x0D, 0x0A, 0x1A, 0x0A }
This can also be expressed using C-style character definitions as:
Byte[12] FileIdentifier = { '<EFBFBD>', 'J', 'S', 'R', '1', '8', '4', '<EFBFBD>', '\r',
'\n', '\x1A', '\n' }'''
self.data = [ 0xAB, 0x4A, 0x53, 0x52, 0x31, 0x38, 0x34,
0xBB, 0x0D, 0x0A, 0x1A, 0x0A ]
def write(self,aFile):
for element in self.data:
aFile.write(struct.pack('B',element))
def getLength(self):
return len(self.data)
class M3GWriter:
"""writes a m3g binary file
File Structur
File Identifier
Section 0 File Header Object
Section 1 External Reference Objects
Section 2 Scene Objects
Section 3 Scene Objects
... ...
Section n Scene Objects"""
def __init__(self,aFilename):
self.FileName = aFilename
def writeFile(self,aWorld,aExportList,externalReferences):
'''Called after translation
first atempt: all objects in one section'''
print "M3G file writing .."
fileIdentifier = M3GFileIdentifier()
fileHeaderObject = M3GHeaderObject()
section0 = M3GSection([fileHeaderObject])
sectionN = M3GSection(aExportList)
length = fileIdentifier.getLength()
length += section0.getLength()
length += sectionN.getLength()
if len(externalReferences) != 0:
section1 = M3GSection(externalReferences)
length += section1.getLength()
fileHeaderObject.hasExternalReferences = True
fileHeaderObject.TotalFileSize=length
fileHeaderObject.ApproximateContentSize=length
section0 = M3GSection([fileHeaderObject])
output = open(self.FileName, mode='wb')
fileIdentifier.write(output)
section0.write(output)
if len(externalReferences) != 0:
section1.write(output)
sectionN.write(output)
output.close()
print "M3G file written."
class OptionMgr:
"""Reads and saves options """
def __init__(self):
self.setDefault()
rdict = Registry.GetKey('M3GExport', True) # True to check on disk as well
if rdict: # if found, get the values saved there
try:
self.textureEnabled = rdict['textureEnabled']
self.textureExternal = rdict['textureExternal']
self.lightingEnabled = rdict['lightingEnabled']
self.createAmbientLight = rdict['createAmbientLight']
self.exportAllActions = rdict['exportAllActions']
self.autoscaling = rdict['autoscaling']
self.perspectiveCorrection = rdict['perspectiveCorrection']
self.smoothShading = rdict['smoothShading']
self.exportAsJava = rdict['exportAsJava']
update to m3g exporter by Gerhard Völkl
2008-01-18 10:46:37 +00:00
self.exportVersion2 = rdict['exportVersion2']
self.exportGamePhysics = rdict['exportGamePhysics']
Script from Gerhard for exporting blender to m3g and java source, see website for examples http://www.nelson-games.de/bl2m3g/default.html
2007-05-29 21:39:29 +00:00
except: self.save() # if data isn't valid, rewrite it
def setDefault(self):
self.textureEnabled = True
self.textureExternal = False
self.lightingEnabled = True
self.createAmbientLight = False
self.exportAllActions = False
self.autoscaling = True
self.perspectiveCorrection = False
self.smoothShading = True
self.exportAsJava = False
update to m3g exporter by Gerhard Völkl
2008-01-18 10:46:37 +00:00
self.exportVersion2 = False
self.exportGamePhysics = False
Script from Gerhard for exporting blender to m3g and java source, see website for examples http://www.nelson-games.de/bl2m3g/default.html
2007-05-29 21:39:29 +00:00
def save(self):
d = {}
d['textureEnabled'] = self.textureEnabled
d['textureExternal'] = self.textureExternal
d['lightingEnabled'] = self.lightingEnabled
d['createAmbientLight'] = self.createAmbientLight
d['exportAllActions'] = self.exportAllActions
d['autoscaling'] = self.autoscaling
d['perspectiveCorrection'] = self.perspectiveCorrection
d['smoothShading'] = self.smoothShading
d['exportAsJava'] = self.exportAsJava
update to m3g exporter by Gerhard Völkl
2008-01-18 10:46:37 +00:00
d['exportVersion2'] = self.exportVersion2
d['exportGamePhysics'] = self.exportGamePhysics
Script from Gerhard for exporting blender to m3g and java source, see website for examples http://www.nelson-games.de/bl2m3g/default.html
2007-05-29 21:39:29 +00:00
Blender.Registry.SetKey('M3GExport', d, True)
# ---- User Interface -------------------------------------------------------- #
mOptions = OptionMgr()
def gui():
"""Draws the options menu."""
# Flush events.
for s in Window.GetScreenInfo():
Window.QHandle(s['id'])
# Display options.
textureEnabled = Draw.Create(mOptions.textureEnabled)
textureExternal = Draw.Create(mOptions.textureExternal)
lightingEnabled = Draw.Create(mOptions.lightingEnabled)
createAmbientLight = Draw.Create(mOptions.createAmbientLight)
exportAllActions = Draw.Create(mOptions.exportAllActions)
autoscaling = Draw.Create(mOptions.autoscaling)
perspectiveCorrection = Draw.Create(mOptions.perspectiveCorrection)
smoothShading = Draw.Create(mOptions.smoothShading)
exportAsJava = Draw.Create(mOptions.exportAsJava)
update to m3g exporter by Gerhard Völkl
2008-01-18 10:46:37 +00:00
exportVersion2 = Draw.Create(mOptions.exportVersion2)
exportGamePhysics = Draw.Create(mOptions.exportGamePhysics)
Script from Gerhard for exporting blender to m3g and java source, see website for examples http://www.nelson-games.de/bl2m3g/default.html
2007-05-29 21:39:29 +00:00
pupBlock = [\
('Texturing'),\
('Enabled', textureEnabled, 'Enables texture export'),\
('External', textureExternal, 'References external files for textures'),\
('Lighting'),\
('Enabled', lightingEnabled, 'Enables light export'),\
('Ambient Light', createAmbientLight, 'Inserts an extra light object for ambient light'),\
('Mesh Options'),\
('Autoscaling', autoscaling, 'Uses maximum precision for vertex positions'),\
('Persp. Correction', perspectiveCorrection, 'Sets perspective correction flag'),\
('Smooth Shading', smoothShading, 'Sets smooth shading flag'),\
('Posing'),\
('All Armature Actions', exportAllActions, 'Exports all actions for armatures'),\
('Export'),\
update to m3g exporter by Gerhard Völkl
2008-01-18 10:46:37 +00:00
('As Java Source', exportAsJava, 'Exports scene as Java source code'),\
('M3G Version 2.0', exportVersion2, 'Exports M3G Version 2.0 File'),\
('Game Physics', exportGamePhysics, 'Includes Game Physics infos for NOPE in export')
Script from Gerhard for exporting blender to m3g and java source, see website for examples http://www.nelson-games.de/bl2m3g/default.html
2007-05-29 21:39:29 +00:00
]
# Only execute if use didn't quit (ESC).
if Draw.PupBlock('M3G Export', pupBlock):
mOptions.textureEnabled = textureEnabled.val
mOptions.textureExternal = textureExternal.val
mOptions.lightingEnabled = lightingEnabled.val
mOptions.createAmbientLight = createAmbientLight.val
mOptions.exportAllActions = exportAllActions.val
mOptions.autoscaling = autoscaling.val
mOptions.perspectiveCorrection = perspectiveCorrection.val
mOptions.smoothShading = smoothShading.val
mOptions.exportAsJava = exportAsJava.val
update to m3g exporter by Gerhard Völkl
2008-01-18 10:46:37 +00:00
mOptions.exportVersion2 = exportVersion2.val
mOptions.exportGamePhysics = exportGamePhysics.val
Script from Gerhard for exporting blender to m3g and java source, see website for examples http://www.nelson-games.de/bl2m3g/default.html
2007-05-29 21:39:29 +00:00
mOptions.save()
if mOptions.exportAsJava:
Window.FileSelector(file_callback_java, 'Export M3G as Java', Blender.sys.makename(ext='.java'))
else:
Window.FileSelector(file_callback_m3g, 'Export M3G Binary', Blender.sys.makename(ext='.m3g'))
def file_callback_java(filename):
Window.WaitCursor(1) # Blender will automatically remove wait cursor in case of an exception
exporter=M3GExporter(JavaWriter(filename))
exporter.start()
Window.WaitCursor(0)
Window.RedrawAll()
def file_callback_m3g(filename):
Window.WaitCursor(1)
exporter=M3GExporter(M3GWriter(filename))
exporter.start()
Window.WaitCursor(0)
Window.RedrawAll()
if __name__ == '__main__':
added encoding "# coding: utf-8" to the headers of scripts that python would not run with execfile('....'), python would also riase the error, though there is no practicle use for running these scripts outside blender. The error looked like this. SyntaxError: Non-ASCII character '\xe4' in file ./3ds_export.py on line 10, but no encoding declared; see http://www.python.org/peps/pep-0263.html for details
2008-05-11 12:41:12 +00:00
gui()
Copy Permalink