-
Dalai Felinto authored
seriously, please test things after "cleanup" commits.
Dalai Felinto authoredseriously, please test things after "cleanup" commits.
io_import_scene_unreal_psk.py 32.84 KiB
# ##### BEGIN GPL LICENSE BLOCK #####
#
# This program is free software; you can redistribute it and/or
# modify it under the terms of the GNU General Public License
# as published by the Free Software Foundation; either version 2
# of the License, or (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software Foundation,
# Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
#
# ##### END GPL LICENSE BLOCK #####
bl_info = {
"name": "Import Unreal Skeleton Mesh (.psk)",
"author": "Darknet",
"version": (2, 0),
"blender": (2, 5, 9),
"api": 41077,
"location": "File > Import > Skeleton Mesh (.psk)",
"description": "Import Skeleleton Mesh",
"warning": "",
"wiki_url": "http://wiki.blender.org/index.php/Extensions:2.5/Py/"
"Scripts/Import-Export/Unreal_psk_psa",
"tracker_url": "https://projects.blender.org/tracker/index.php?"\
"func=detail&aid=21366",
"category": "Import-Export"}
"""
Version': '2.0' ported by Darknet
Unreal Tournament PSK file to Blender mesh converter V1.0
Author: D.M. Sturgeon (camg188 at the elYsium forum), ported by Darknet
Imports a *psk file to a new mesh
-No UV Texutre
-No Weight
-No Armature Bones
-No Material ID
-Export Text Log From Current Location File (Bool )
"""
import bpy
import mathutils
import math
from string import *
from struct import *
from math import *
from bpy.props import *
bpy.types.Scene.unrealbonesize = FloatProperty(
name="Bone Length",
description="Bone Length from head to tail distance",
default=1,min=0.001,max=1000)
#output log in to txt file
DEBUGLOG = False
scale = 1.0
bonesize = 1.0
md5_bones=[]
def unpack_list(list_of_tuples):
l = []
for t in list_of_tuples:
l.extend(t)
return l
"""
class md5_bone:
bone_index=0
name=""
bindpos=[]
bindmat = mathutils.Quaternion()
parent=""
parent_index=0
blenderbone=None
roll=0
def __init__(self):
self.bone_index=0
self.name=""
self.bindpos=[0.0]*3
self.bindmat=[None]*3 #is this how you initilize a 2d-array
for i in range(3): self.bindmat[i] = [0.0]*3
self.parent=""
self.parent_index=0
self.blenderbone=None
def dump(self):
print ("bone index: ", self.bone_index)
print ("name: ", self.name)
print ("bind position: ", self.bindpos)
print ("bind translation matrix: ", self.bindmat)
print ("parent: ", self.parent)
print ("parent index: ", self.parent_index)
print ("blenderbone: ", self.blenderbone)
"""
class md5_bone:
bone_index=0
name=""
bindpos=[]
bindmat=[]
scale = []
parent=""
parent_index=0
blenderbone=None
roll=0
def __init__(self):
self.bone_index=0
self.name=""
self.bindpos=[0.0]*3
self.scale=[0.0]*3
self.bindmat=[None]*3 #is this how you initilize a 2d-array
for i in range(3): self.bindmat[i] = [0.0]*3
self.parent=""
self.parent_index=0
self.blenderbone=None
def dump(self):
print ("bone index: ", self.bone_index)
print ("name: ", self.name)
print ("bind position: ", self.bindpos)
print ("bind translation matrix: ", self.bindmat)
print ("parent: ", self.parent)
print ("parent index: ", self.parent_index)
print ("blenderbone: ", self.blenderbone)
#http://www.blender.org/forum/viewtopic.php?t=13340&sid=8b17d5de07b17960021bbd72cac0495f
def fixRollZ(b):
v = (b.tail-b.head)/b.length
b.roll -= math.degrees(math.atan2(v[0]*v[2]*(1 - v[1]),v[0]*v[0] + v[1]*v[2]*v[2]))
def fixRoll(b):
v = (b.tail-b.head)/b.length
if v[2]*v[2] > .5:
#align X-axis
b.roll += math.degrees(math.atan2(v[0]*v[2]*(1 - v[1]),v[2]*v[2] + v[1]*v[0]*v[0]))
else:
#align Z-axis
b.roll -= math.degrees(math.atan2(v[0]*v[2]*(1 - v[1]),v[0]*v[0] + v[1]*v[2]*v[2]))
def pskimport(infile,importmesh,importbone,bDebugLogPSK,importmultiuvtextures):
global DEBUGLOG
DEBUGLOG = bDebugLogPSK
print ("--------------------------------------------------")
print ("---------SCRIPT EXECUTING PYTHON IMPORTER---------")
print ("--------------------------------------------------")
print (" DEBUG Log:",bDebugLogPSK)
print ("Importing file: ", infile)
md5_bones=[]
pskfile = open(infile,'rb')
if (DEBUGLOG):
logpath = infile.replace(".psk", ".txt")
print("logpath:",logpath)
logf = open(logpath,'w')
def printlog(strdata):
if (DEBUGLOG):
logf.write(strdata)
objName = infile.split('\\')[-1].split('.')[0]
me_ob = bpy.data.meshes.new(objName)
print("objName:",objName)
printlog(("New Mesh = " + me_ob.name + "\n"))
#read general header
indata = unpack('20s3i',pskfile.read(32))
#not using the general header at this time
#==================================================================================================
# vertex point
#==================================================================================================
#read the PNTS0000 header
indata = unpack('20s3i',pskfile.read(32))
recCount = indata[3]
printlog(( "Nbr of PNTS0000 records: " + str(recCount) + "\n"))
counter = 0
verts = []
while counter < recCount:
counter = counter + 1
indata = unpack('3f',pskfile.read(12))
#print(indata[0],indata[1],indata[2])
verts.extend([(indata[0],indata[1],indata[2])])
printlog(str(indata[0]) + "|" +str(indata[1]) + "|" +str(indata[2]) + "\n")
#Tmsh.vertices.append(NMesh.Vert(indata[0],indata[1],indata[2]))
#==================================================================================================
# UV
#==================================================================================================
#read the VTXW0000 header
indata = unpack('20s3i',pskfile.read(32))
recCount = indata[3]
printlog( "Nbr of VTXW0000 records: " + str(recCount)+ "\n")
counter = 0
UVCoords = []
#UVCoords record format = [index to PNTS, U coord, v coord]
printlog("[index to PNTS, U coord, v coord]\n");
while counter < recCount:
counter = counter + 1
indata = unpack('hhffhh',pskfile.read(16))
UVCoords.append([indata[0],indata[2],indata[3]])
printlog(str(indata[0]) + "|" +str(indata[2]) + "|" +str(indata[3])+"\n")
#print([indata[0],indata[2],indata[3]])
#print([indata[1],indata[2],indata[3]])
#==================================================================================================
# Face
#==================================================================================================
#read the FACE0000 header
indata = unpack('20s3i',pskfile.read(32))
recCount = indata[3]
printlog( "Nbr of FACE0000 records: "+ str(recCount) + "\n")
#PSK FACE0000 fields: WdgIdx1|WdgIdx2|WdgIdx3|MatIdx|AuxMatIdx|SmthGrp
#associate MatIdx to an image, associate SmthGrp to a material
SGlist = []
counter = 0
faces = []
faceuv = []
#the psk values are: nWdgIdx1|WdgIdx2|WdgIdx3|MatIdx|AuxMatIdx|SmthGrp
printlog("nWdgIdx1|WdgIdx2|WdgIdx3|MatIdx|AuxMatIdx|SmthGrp \n")
while counter < recCount:
counter = counter + 1
indata = unpack('hhhbbi',pskfile.read(12))
printlog(str(indata[0]) + "|" +str(indata[1]) + "|" +str(indata[2])+ "|" +str(indata[3])+ "|" +str(indata[4])+ "|" +str(indata[5]) + "\n")
#indata[0] = index of UVCoords
#UVCoords[indata[0]]=[index to PNTS, U coord, v coord]
#UVCoords[indata[0]][0] = index to PNTS
PNTSA = UVCoords[indata[0]][0]
PNTSB = UVCoords[indata[1]][0]
PNTSC = UVCoords[indata[2]][0]
#print(PNTSA,PNTSB,PNTSC) #face id vertex
#faces.extend([0,1,2,0])
faces.extend([PNTSA,PNTSB,PNTSC,0])
uv = []
u0 = UVCoords[indata[0]][1]
v0 = UVCoords[indata[0]][2]
uv.append([u0,v0])
u1 = UVCoords[indata[1]][1]
v1 = UVCoords[indata[1]][2]
uv.append([u1,v1])
u2 = UVCoords[indata[2]][1]
v2 = UVCoords[indata[2]][2]
uv.append([u2,v2])
faceuv.append([uv,indata[3],indata[4],indata[5]])
#print("material:",indata[3])
#print("UV: ",u0,v0)
#update the uv var of the last item in the Tmsh.faces list
# which is the face just added above
##Tmsh.faces[-1].uv = [(u0,v0),(u1,v1),(u2,v2)]
#print("smooth:",indata[5])
#collect a list of the smoothing groups
if SGlist.count(indata[5]) == 0:
SGlist.append(indata[5])
print("smooth:",indata[5])
#assign a material index to the face
#Tmsh.faces[-1].materialIndex = SGlist.index(indata[5])
printlog( "Using Materials to represent PSK Smoothing Groups...\n")
#==========
# skip something...
#==========
#==================================================================================================
# Material
#==================================================================================================
##
#read the MATT0000 header
indata = unpack('20s3i',pskfile.read(32))
recCount = indata[3]
printlog("Nbr of MATT0000 records: " + str(recCount) + "\n" )
printlog(" - Not importing any material data now. PSKs are texture wrapped! \n")
counter = 0
materialcount = 0
while counter < recCount:
counter = counter + 1
indata = unpack('64s6i',pskfile.read(88))
materialcount += 1
print("Material",counter)
##
#==================================================================================================
# Bones (Armature)
#==================================================================================================
#read the REFSKEL0 header
indata = unpack('20s3i',pskfile.read(32))
recCount = indata[3]
printlog( "Nbr of REFSKEL0 records: " + str(recCount) + "\n")
#REFSKEL0 fields - Name|Flgs|NumChld|PrntIdx|Qw|Qx|Qy|Qz|LocX|LocY|LocZ|Lngth|XSize|YSize|ZSize
Bns = []
bone = []
#==================================================================================================
# Bone Data
#==================================================================================================
counter = 0
print ("---PRASE--BONES---")
printlog("Name|Flgs|NumChld|PrntIdx|Qw|Qx|Qy|Qz|LocX|LocY|LocZ|Lngth|XSize|YSize|ZSize\n")
while counter < recCount:
indata = unpack('64s3i11f',pskfile.read(120))
#print( "DATA",str(indata))
bone.append(indata)
createbone = md5_bone()
#temp_name = indata[0][:30]
temp_name = indata[0]
temp_name = bytes.decode(temp_name)
temp_name = temp_name.lstrip(" ")
temp_name = temp_name.rstrip(" ")
temp_name = temp_name.strip()
temp_name = temp_name.strip( bytes.decode(b'\x00'))
printlog(temp_name + "|" +str(indata[1]) + "|" +str(indata[2])+ "|" +str(indata[3])+ "|" +str(indata[4])+ "|" +str(indata[5]) +str(indata[6]) + "|" +str(indata[7]) + "|" +str(indata[8])+ "|" +str(indata[9])+ "|" +str(indata[10])+ "|" +str(indata[11]) +str(indata[12]) + "|" +str(indata[13]) + "|" +str(indata[14])+ "\n")
print ("temp_name:", temp_name, "||")
createbone.name = temp_name
createbone.bone_index = counter
createbone.parent_index = indata[3]
createbone.bindpos[0] = indata[8]
createbone.bindpos[1] = indata[9]
createbone.bindpos[2] = indata[10]
createbone.scale[0] = indata[12]
createbone.scale[1] = indata[13]
createbone.scale[2] = indata[14]
#w,x,y,z
if (counter == 0):#main parent
print("no parent bone")
createbone.bindmat = mathutils.Quaternion((indata[7],indata[4],indata[5],indata[6]))#default
#createbone.bindmat = mathutils.Quaternion((indata[7],-indata[4],-indata[5],-indata[6]))
else:#parent
print("parent bone")
createbone.bindmat = mathutils.Quaternion((indata[7],-indata[4],-indata[5],-indata[6]))#default
#createbone.bindmat = mathutils.Quaternion((indata[7],indata[4],indata[5],indata[6]))
md5_bones.append(createbone)
counter = counter + 1
bnstr = (str(indata[0]))
Bns.append(bnstr)
for pbone in md5_bones:
pbone.parent = md5_bones[pbone.parent_index].name
bonecount = 0
for armbone in bone:
temp_name = armbone[0][:30]
#print ("BONE NAME: ",len(temp_name))
temp_name=str((temp_name))
#temp_name = temp_name[1]
#print ("BONE NAME: ",temp_name)
bonecount +=1
print ("-------------------------")
print ("----Creating--Armature---")
print ("-------------------------")
#================================================================================================
#Check armature if exist if so create or update or remove all and addnew bone
#================================================================================================
#bpy.ops.object.mode_set(mode='OBJECT')
meshname ="ArmObject"
objectname = "armaturedata"
# arm = None # UNUSED
if importbone:
obj = bpy.data.objects.get(meshname)
# arm = obj # UNUSED
if not obj:
'''
armdata = bpy.data.armatures.new(objectname)
ob_new = bpy.data.objects.new(meshname, armdata)
#ob_new = bpy.data.objects.new(meshname, 'ARMATURE')
#ob_new.data = armdata
bpy.context.scene.objects.link(ob_new)
#bpy.ops.object.mode_set(mode='OBJECT')
for i in bpy.context.scene.objects: i.select = False #deselect all objects
ob_new.select = True
#set current armature to edit the bone
bpy.context.scene.objects.active = ob_new
#set mode to able to edit the bone
bpy.ops.object.mode_set(mode='EDIT')
#newbone = ob_new.data.edit_bones.new('test')
#newbone.tail.y = 1
print("creating bone(s)")
for bone in md5_bones:
#print(dir(bone))
bpy.ops.object.mode_set(mode='EDIT')
newbone = ob_new.data.edit_bones.new(bone.name)
'''
armdata = bpy.data.armatures.new(objectname)
ob_new = bpy.data.objects.new(meshname, armdata)
#ob_new = bpy.data.objects.new(meshname, 'ARMATURE')
#ob_new.data = armdata
bpy.context.scene.objects.link(ob_new)
#bpy.ops.object.mode_set(mode='OBJECT')
for i in bpy.context.scene.objects: i.select = False #deselect all objects
ob_new.select = True
#set current armature to edit the bone
bpy.context.scene.objects.active = ob_new
#set mode to able to edit the bone
bpy.ops.object.mode_set(mode='EDIT')
#newbone = ob_new.data.edit_bones.new('test')
#newbone.tail.y = 1
print("creating bone(s)")
for bone in md5_bones:
#print(dir(bone))
bpy.ops.object.mode_set(mode='EDIT')
newbone = ob_new.data.edit_bones.new(bone.name)
#parent the bone
print("DRI:",dir(newbone))
parentbone = None
print("bone name:",bone.name)
#note bone location is set in the real space or global not local
bonesize = bpy.types.Scene.unrealbonesize
if bone.name != bone.parent:
pos_x = bone.bindpos[0]
pos_y = bone.bindpos[1]
pos_z = bone.bindpos[2]
#print( "LINKING:" , bone.parent ,"j")
parentbone = ob_new.data.edit_bones[bone.parent]
newbone.parent = parentbone
rotmatrix = bone.bindmat.to_matrix().to_4x4().to_3x3() # XXX, redundant matrix conversion?
newbone.transform(bone.bindmat.to_matrix().to_4x4(),True,True)
#parent_head = parentbone.matrix.to_quaternion().inverse() * parentbone.head
#parent_tail = parentbone.matrix.to_quaternion().inverse() * parentbone.tail
#location=Vector(pos_x,pos_y,pos_z)
#set_position = (parent_tail - parent_head) + location
#print("tmp head:",set_position)
#pos_x = set_position.x
#pos_y = set_position.y
#pos_z = set_position.z
newbone.head.x = parentbone.head.x + pos_x
newbone.head.y = parentbone.head.y + pos_y
newbone.head.z = parentbone.head.z + pos_z
#print("head:",newbone.head)
newbone.tail.x = parentbone.head.x + (pos_x + bonesize * rotmatrix[1][0])
newbone.tail.y = parentbone.head.y + (pos_y + bonesize * rotmatrix[1][1])
newbone.tail.z = parentbone.head.z + (pos_z + bonesize * rotmatrix[1][2])
#newbone.roll = fixRoll(newbone)
else:
#print("rotmatrix:",dir(bone.bindmat.to_matrix().resize_4x4()))
#rotmatrix = bone.bindmat.to_matrix().resize_4x4().to_3x3() # XXX, redundant matrix conversion?
rotmatrix = bone.bindmat.to_matrix().to_3x3() # XXX, redundant matrix conversion?
#newbone.transform(bone.bindmat.to_matrix(),True,True)
newbone.head.x = bone.bindpos[0]
newbone.head.y = bone.bindpos[1]
newbone.head.z = bone.bindpos[2]
newbone.tail.x = bone.bindpos[0] + bonesize * rotmatrix[1][0]
newbone.tail.y = bone.bindpos[1] + bonesize * rotmatrix[1][1]
newbone.tail.z = bone.bindpos[2] + bonesize * rotmatrix[1][2]
#newbone.roll = fixRoll(newbone)
#print("no parent")
bpy.context.scene.update()
#==================================================================================================
#END BONE DATA BUILD
#==================================================================================================
VtxCol = []
for x in range(len(Bns)):
#change the overall darkness of each material in a range between 0.1 and 0.9
tmpVal = ((float(x)+1.0)/(len(Bns))*0.7)+0.1
tmpVal = int(tmpVal * 256)
tmpCol = [tmpVal,tmpVal,tmpVal,0]
#Change the color of each material slightly
if x % 3 == 0:
if tmpCol[0] < 128: tmpCol[0] += 60
else: tmpCol[0] -= 60
if x % 3 == 1:
if tmpCol[1] < 128: tmpCol[1] += 60
else: tmpCol[1] -= 60
if x % 3 == 2:
if tmpCol[2] < 128: tmpCol[2] += 60
else: tmpCol[2] -= 60
#Add the material to the mesh
VtxCol.append(tmpCol)
#==================================================================================================
# Bone Weight
#==================================================================================================
#read the RAWW0000 header
indata = unpack('20s3i',pskfile.read(32))
recCount = indata[3]
printlog( "Nbr of RAWW0000 records: " + str(recCount) +"\n")
#RAWW0000 fields: Weight|PntIdx|BoneIdx
RWghts = []
counter = 0
while counter < recCount:
counter = counter + 1
indata = unpack('fii',pskfile.read(12))
RWghts.append([indata[1],indata[2],indata[0]])
#print("weight:",[indata[1],indata[2],indata[0]])
#RWghts fields = PntIdx|BoneIdx|Weight
RWghts.sort()
printlog( "Vertex point and groups count =" + str(len(RWghts)) + "\n")
printlog("PntIdx|BoneIdx|Weight")
for vg in RWghts:
printlog( str(vg[0]) + "|" + str(vg[1]) + "|" + str(vg[2]) + "\n")
#Tmsh.update_tag()
#set the Vertex Colors of the faces
#face.v[n] = RWghts[0]
#RWghts[1] = index of VtxCol
"""
for x in range(len(Tmsh.faces)):
for y in range(len(Tmsh.faces[x].v)):
#find v in RWghts[n][0]
findVal = Tmsh.faces[x].v[y].index
n = 0
while findVal != RWghts[n][0]:
n = n + 1
TmpCol = VtxCol[RWghts[n][1]]
#check if a vertex has more than one influence
if n != len(RWghts)-1:
if RWghts[n][0] == RWghts[n+1][0]:
#if there is more than one influence, use the one with the greater influence
#for simplicity only 2 influences are checked, 2nd and 3rd influences are usually very small
if RWghts[n][2] < RWghts[n+1][2]:
TmpCol = VtxCol[RWghts[n+1][1]]
Tmsh.faces[x].col.append(NMesh.Col(TmpCol[0],TmpCol[1],TmpCol[2],0))
"""
if (DEBUGLOG):
logf.close()
#==================================================================================================
#Building Mesh
#==================================================================================================
print("vertex:",len(verts),"faces:",len(faces))
me_ob.vertices.add(len(verts))
me_ob.faces.add(len(faces)//4)
me_ob.vertices.foreach_set("co", unpack_list(verts))
me_ob.faces.foreach_set("vertices_raw", faces)
me_ob.faces.foreach_set("use_smooth", [False] * len(me_ob.faces))
me_ob.update_tag()
"""
Material setup coding.
First the mesh has to be create first to get the uv texture setup working.
-Create material(s) list in the psk pack data from the list.(to do list)
-Append the material to the from create the mesh object.
-Create Texture(s)
-fae loop for uv assign and assign material index
"""
bpy.ops.object.mode_set(mode='OBJECT')
#===================================================================================================
#Material Setup
#===================================================================================================
print ("-------------------------")
print ("----Creating--Materials--")
print ("-------------------------")
materialname = "pskmat"
materials = []
for matcount in range(materialcount):
#if texturedata != None:
matdata = bpy.data.materials.new(materialname + str(matcount))
#mtex = matdata.texture_slots.new()
#mtex.texture = texture[matcount].data
#print(type(texture[matcount].data))
#print(dir(mtex))
#print(dir(matdata))
#for texno in range(len( bpy.data.textures)):
#print((bpy.data.textures[texno].name))
#print(dir(bpy.data.textures[texno]))
#matdata.active_texture = bpy.data.textures[matcount-1]
#matdata.texture_coords = 'UV'
#matdata.active_texture = texturedata
materials.append(matdata)
for material in materials:
#add material to the mesh list of materials
me_ob.materials.append(material)
#===================================================================================================
#UV Setup
#===================================================================================================
print ("-------------------------")
print ("-- Creating UV Texture --")
print ("-------------------------")
texture = []
# texturename = "text1" # UNUSED
countm = 0
#for countm in range(materialcount):
#psktexname="psk" + str(countm)
#me_ob.uv_textures.new(name=psktexname)
if importmultiuvtextures == True:
me_ob.uv_textures.new(name="pskuvtexture")
#print(dir(bpy.data))
if (len(faceuv) > 0):
for countm in range(len(me_ob.uv_textures)):
me_ob.update()
uvtex = me_ob.uv_textures[countm] #add one uv texture
me_ob.update()
#print("UV TEXTURE NAME:",uvtex.name)
for i, face in enumerate(me_ob.faces):
blender_tface = uvtex.data[i] #face
mfaceuv = faceuv[i]
#print("---------------------------------------")
#print(faceuv[i][1])
#print(dir(face))
face.material_index = faceuv[i][1]
blender_tface.uv1 = mfaceuv[0][0] #uv = (0,0)
blender_tface.uv2 = mfaceuv[0][1] #uv = (0,0)
blender_tface.uv3 = mfaceuv[0][2] #uv = (0,0)
texture.append(uvtex)
else:
for countm in range(materialcount):
psktexname="psk" + str(countm)
me_ob.uv_textures.new(name=psktexname)
#psktexname="psk" + str(countm)
#me_ob.uv_textures.new(name=psktexname)
for countm in range(len(me_ob.uv_textures)):
me_ob.update()
#print(dir(me_ob.uv_textures))
#psktexname="psk" + str(countm)
uvtex = me_ob.uv_textures[countm] #add one uv texture
me_ob.update()
#print("UV TEXTURE NAME:",uvtex.name)
if (len(faceuv) > 0):
# counttex = 0 # UNUSED
countm = 0
for countm in range(len(me_ob.uv_textures)):
me_ob.update()
#print(dir(me_ob.uv_textures))
psktexname="psk" + str(countm)
uvtex = me_ob.uv_textures[countm] #add one uv texture
me_ob.update()
#print("UV TEXTURE NAME:",uvtex.name)
for i, face in enumerate(me_ob.faces):
blender_tface = uvtex.data[i] #face
mfaceuv = faceuv[i]
#print("---------------------------------------")
#print(faceuv[i][1])
#print(dir(face))
face.material_index = faceuv[i][1]
if countm == faceuv[i][1]:
face.material_index = faceuv[i][1]
blender_tface.uv1 = mfaceuv[0][0] #uv = (0,0)
blender_tface.uv2 = mfaceuv[0][1] #uv = (0,0)
blender_tface.uv3 = mfaceuv[0][2] #uv = (0,0)
else:
#set uv to zero (0,0)
#print("--------------------")
#print(blender_tface.uv1)
#print(blender_tface.uv2)
#print(blender_tface.uv2)
blender_tface.uv1 = [0,0]
#print(blender_tface.uv1)
blender_tface.uv2 = [0,0]
blender_tface.uv3 = [0,0]
texture.append(uvtex)
print("UV TEXTURE LEN:",len(texture))
#for tex in me_ob.uv_textures:
#print("mesh tex:",dir(tex))
#print((tex.name))
#for face in me_ob.faces:
#print(dir(face))
'''
matdata = bpy.data.materials.new(materialname)
#color is 0 - 1 not in 0 - 255
#matdata.mirror_color=(float(0.04),float(0.08),float(0.44))
matdata.diffuse_color=(float(0.04),float(0.08),float(0.44))#blue color
#print(dir(me_ob.uv_textures[0].data))
texdata = None
texdata = bpy.data.textures[len(bpy.data.textures)-1]
if (texdata != None):
#print(texdata.name)
#print(dir(texdata))
texdata.name = "texturelist1"
matdata.active_texture = texdata
materials.append(matdata)
#matdata = bpy.data.materials.new(materialname)
#materials.append(matdata)
#= make sure the list isnt too big
for material in materials:
#add material to the mesh list of materials
me_ob.materials.append(material)
'''
#===================================================================================================
#
#===================================================================================================
obmesh = bpy.data.objects.new(objName,me_ob)
#===================================================================================================
#Mesh Vertex Group bone weight
#===================================================================================================
print("---- building bone weight mesh ----")
#print(dir(ob_new.data.bones))
#create bone vertex group #deal with bone id for index number
for bone in ob_new.data.bones:
#print("names:",bone.name,":",dir(bone))
#print("names:",bone.name)
group = obmesh.vertex_groups.new(bone.name)
for vgroup in obmesh.vertex_groups:
#print(vgroup.name,":",vgroup.index)
for vgp in RWghts:
#bone index
if vgp[1] == vgroup.index:
#print(vgp)
#[vertex id],weight
vgroup.add([vgp[0]], vgp[2], 'ADD')
#check if there is a material to set to
if len(materials) > 0:
obmesh.active_material = materials[0] #material setup tmp
print("---- adding mesh to the scene ----")
bpy.context.scene.objects.link(obmesh)
bpy.context.scene.update()
print ("PSK2Blender completed")
#End of def pskimport#########################
def getInputFilename(self,filename,importmesh,importbone,bDebugLogPSK,importmultiuvtextures):
checktype = filename.split('\\')[-1].split('.')[1]
print ("------------",filename)
if checktype.lower() != 'psk':
print (" Selected file = ",filename)
raise (IOError, "The selected input file is not a *.psk file")
#self.report({'INFO'}, ("Selected file:"+ filename))
else:
pskimport(filename,importmesh,importbone,bDebugLogPSK,importmultiuvtextures)
class IMPORT_OT_psk(bpy.types.Operator):
'''Load a skeleton mesh psk File'''
bl_idname = "import_scene.psk"
bl_label = "Import PSK"
bl_space_type = "PROPERTIES"
bl_region_type = "WINDOW"
bl_options = {'UNDO'}
# List of operator properties, the attributes will be assigned
# to the class instance from the operator settings before calling.
filepath = StringProperty(
name="File Path",
description="Filepath used for importing the psk file",
maxlen= 1024,
subtype='FILE_PATH',
)
filter_glob = StringProperty(
default="*.psk",
options={'HIDDEN'},
)
importmesh = BoolProperty(
name="Mesh",
description="Import mesh only. (not yet build.)",
default=True,
)
importbone = BoolProperty(
name="Bones",
description="Import bones only. Current not working yet",
default=True,
)
importmultiuvtextures = BoolProperty(
name="Single UV Texture(s)",
description="Single or Multi uv textures",
default=True,
)
bDebugLogPSK = BoolProperty(
name="Debug Log.txt",
description="Log the output of raw format. It will save in " \
"current file dir. Note this just for testing",
default=False,
)
unrealbonesize = FloatProperty(
name="Bone Length",
description="Bone Length from head to tail distance",
default=1,
min=0.001,
max=1000,
)
def execute(self, context):
bpy.types.Scene.unrealbonesize = self.unrealbonesize
getInputFilename(self,self.filepath,self.importmesh,self.importbone,self.bDebugLogPSK,self.importmultiuvtextures)
return {'FINISHED'}
def invoke(self, context, event):
wm = context.window_manager
wm.fileselect_add(self)
return {'RUNNING_MODAL'}
def menu_func(self, context):
self.layout.operator(IMPORT_OT_psk.bl_idname, text="Skeleton Mesh (.psk)")
def register():
bpy.utils.register_module(__name__)
bpy.types.INFO_MT_file_import.append(menu_func)
def unregister():
bpy.utils.unregister_module(__name__)
bpy.types.INFO_MT_file_import.remove(menu_func)
if __name__ == "__main__":
register()
#note this only read the data and will not be place in the scene
#getInputFilename('C:\\blenderfiles\\BotA.psk')
#getInputFilename('C:\\blenderfiles\\AA.PSK')