export_fbx.py

        file.write('\n\t\t\tProperty: "FrameColor", "ColorRGB", "",0.3,0.3,0.3')
        file.write('\n\t\t\tProperty: "ShowName", "bool", "",1')
        file.write('\n\t\t\tProperty: "ShowGrid", "bool", "",1')
        file.write('\n\t\t\tProperty: "ShowOpticalCenter", "bool", "",0')
        file.write('\n\t\t\tProperty: "ShowAzimut", "bool", "",1')
        file.write('\n\t\t\tProperty: "ShowTimeCode", "bool", "",0')
        file.write('\n\t\t\tProperty: "NearPlane", "double", "",%.6f' % data.clip_start)
        file.write('\n\t\t\tProperty: "FarPlane", "double", "",%.6f' % data.clip_end)
        file.write('\n\t\t\tProperty: "FilmWidth", "double", "",1.0')
        file.write('\n\t\t\tProperty: "FilmHeight", "double", "",1.0')
        file.write('\n\t\t\tProperty: "FilmAspectRatio", "double", "",%.6f' % aspect)
        file.write('\n\t\t\tProperty: "FilmSqueezeRatio", "double", "",1')
        file.write('\n\t\t\tProperty: "FilmFormatIndex", "enum", "",0')
        file.write('\n\t\t\tProperty: "ViewFrustum", "bool", "",1')
        file.write('\n\t\t\tProperty: "ViewFrustumNearFarPlane", "bool", "",0')
        file.write('\n\t\t\tProperty: "ViewFrustumBackPlaneMode", "enum", "",2')
        file.write('\n\t\t\tProperty: "BackPlaneDistance", "double", "",100')
        file.write('\n\t\t\tProperty: "BackPlaneDistanceMode", "enum", "",0')
        file.write('\n\t\t\tProperty: "ViewCameraToLookAt", "bool", "",1')
        file.write('\n\t\t\tProperty: "LockMode", "bool", "",0')
        file.write('\n\t\t\tProperty: "LockInterestNavigation", "bool", "",0')
        file.write('\n\t\t\tProperty: "FitImage", "bool", "",0')
        file.write('\n\t\t\tProperty: "Crop", "bool", "",0')
        file.write('\n\t\t\tProperty: "Center", "bool", "",1')
        file.write('\n\t\t\tProperty: "KeepRatio", "bool", "",1')
        file.write('\n\t\t\tProperty: "BackgroundMode", "enum", "",0')
        file.write('\n\t\t\tProperty: "BackgroundAlphaTreshold", "double", "",0.5')
        file.write('\n\t\t\tProperty: "ForegroundTransparent", "bool", "",1')
        file.write('\n\t\t\tProperty: "DisplaySafeArea", "bool", "",0')
        file.write('\n\t\t\tProperty: "SafeAreaDisplayStyle", "enum", "",1')
        file.write('\n\t\t\tProperty: "SafeAreaAspectRatio", "double", "",%.6f' % aspect)
        file.write('\n\t\t\tProperty: "Use2DMagnifierZoom", "bool", "",0')
        file.write('\n\t\t\tProperty: "2D Magnifier Zoom", "Real", "A+",100')
        file.write('\n\t\t\tProperty: "2D Magnifier X", "Real", "A+",50')
        file.write('\n\t\t\tProperty: "2D Magnifier Y", "Real", "A+",50')
        file.write('\n\t\t\tProperty: "CameraProjectionType", "enum", "",0')
        file.write('\n\t\t\tProperty: "UseRealTimeDOFAndAA", "bool", "",0')
        file.write('\n\t\t\tProperty: "UseDepthOfField", "bool", "",0')
        file.write('\n\t\t\tProperty: "FocusSource", "enum", "",0')
        file.write('\n\t\t\tProperty: "FocusAngle", "double", "",3.5')
        file.write('\n\t\t\tProperty: "FocusDistance", "double", "",200')
        file.write('\n\t\t\tProperty: "UseAntialiasing", "bool", "",0')
        file.write('\n\t\t\tProperty: "AntialiasingIntensity", "double", "",0.77777')
        file.write('\n\t\t\tProperty: "UseAccumulationBuffer", "bool", "",0')
        file.write('\n\t\t\tProperty: "FrameSamplingCount", "int", "",7')

        file.write('\n\t\t}')
        file.write('\n\t\tMultiLayer: 0')
        file.write('\n\t\tMultiTake: 0')
        file.write('\n\t\tShading: Y')
        file.write('\n\t\tCulling: "CullingOff"')
        file.write('\n\t\tTypeFlags: "Camera"')
        file.write('\n\t\tGeometryVersion: 124')
        file.write('\n\t\tPosition: %.6f,%.6f,%.6f' % loc)
        file.write('\n\t\tUp: %.6f,%.6f,%.6f' % tuple(Vector((0.0, 1.0, 0.0)) * matrix_rot))
        file.write('\n\t\tLookAt: %.6f,%.6f,%.6f' % tuple(Vector((0.0, 0.0, -1.0)) * matrix_rot))

        #file.write('\n\t\tUp: 0,0,0' )
        #file.write('\n\t\tLookAt: 0,0,0' )

        file.write('\n\t\tShowInfoOnMoving: 1')
        file.write('\n\t\tShowAudio: 0')
        file.write('\n\t\tAudioColor: 0,1,0')
        file.write('\n\t\tCameraOrthoZoom: 1')
        file.write('\n\t}')

    def write_light(my_light):
        light = my_light.blenObject.data
        file.write('\n\tModel: "Model::%s", "Light" {' % my_light.fbxName)
        file.write('\n\t\tVersion: 232')

        write_object_props(my_light.blenObject, None, my_light.parRelMatrix())

        # Why are these values here twice?????? - oh well, follow the holy sdk's output

        # Blender light types match FBX's, funny coincidence, we just need to
        # be sure that all unsupported types are made into a point light
        #ePOINT,
        #eDIRECTIONAL
        #eSPOT
        light_type_items = {'POINT': 0, 'SUN': 1, 'SPOT': 2, 'HEMI': 3, 'AREA': 4}
        light_type = light_type_items[light.type]

        if light_type > 2:
            light_type = 1  # hemi and area lights become directional

        if light.type in ('HEMI', ):
            do_light = not (light.use_diffuse or light.use_specular)
            do_shadow = False
        else:
            do_light = not (light.use_only_shadow or (not light.use_diffuse and not light.use_specular))
            do_shadow = (light.shadow_method in ('RAY_SHADOW', 'BUFFER_SHADOW'))

        scale = abs(GLOBAL_MATRIX.to_scale()[0])  # scale is always uniform in this case

        file.write('\n\t\t\tProperty: "LightType", "enum", "",%i' % light_type)
        file.write('\n\t\t\tProperty: "CastLightOnObject", "bool", "",1')
        file.write('\n\t\t\tProperty: "DrawVolumetricLight", "bool", "",1')
        file.write('\n\t\t\tProperty: "DrawGroundProjection", "bool", "",1')
        file.write('\n\t\t\tProperty: "DrawFrontFacingVolumetricLight", "bool", "",0')
        file.write('\n\t\t\tProperty: "GoboProperty", "object", ""')
        file.write('\n\t\t\tProperty: "Color", "Color", "A+",1,1,1')
        file.write('\n\t\t\tProperty: "Intensity", "Intensity", "A+",%.2f' % (min(light.energy * 100.0, 200.0)))  # clamp below 200
        if light.type == 'SPOT':
            file.write('\n\t\t\tProperty: "Cone angle", "Cone angle", "A+",%.2f' % math.degrees(light.spot_size))
        file.write('\n\t\t\tProperty: "Fog", "Fog", "A+",50')
        file.write('\n\t\t\tProperty: "Color", "Color", "A",%.2f,%.2f,%.2f' % tuple(light.color))

        file.write('\n\t\t\tProperty: "Intensity", "Intensity", "A+",%.2f' % (min(light.energy * 100.0, 200.0)))  # clamp below 200

        file.write('\n\t\t\tProperty: "Fog", "Fog", "A+",50')
        file.write('\n\t\t\tProperty: "LightType", "enum", "",%i' % light_type)
        file.write('\n\t\t\tProperty: "CastLightOnObject", "bool", "",%i' % do_light)
        file.write('\n\t\t\tProperty: "DrawGroundProjection", "bool", "",1')
        file.write('\n\t\t\tProperty: "DrawFrontFacingVolumetricLight", "bool", "",0')
        file.write('\n\t\t\tProperty: "DrawVolumetricLight", "bool", "",1')
        file.write('\n\t\t\tProperty: "GoboProperty", "object", ""')
        file.write('\n\t\t\tProperty: "DecayType", "enum", "",0')
        file.write('\n\t\t\tProperty: "DecayStart", "double", "",%.2f' % light.distance)
        file.write('\n\t\t\tProperty: "EnableNearAttenuation", "bool", "",0')
        file.write('\n\t\t\tProperty: "NearAttenuationStart", "double", "",0')
        file.write('\n\t\t\tProperty: "NearAttenuationEnd", "double", "",0')
        file.write('\n\t\t\tProperty: "EnableFarAttenuation", "bool", "",0')
        file.write('\n\t\t\tProperty: "FarAttenuationStart", "double", "",0')
        file.write('\n\t\t\tProperty: "FarAttenuationEnd", "double", "",0')
        file.write('\n\t\t\tProperty: "CastShadows", "bool", "",%i' % do_shadow)
        file.write('\n\t\t\tProperty: "ShadowColor", "ColorRGBA", "",0,0,0,1')
        file.write('\n\t\t}')
        file.write('\n\t\tMultiLayer: 0')
        file.write('\n\t\tMultiTake: 0')
        file.write('\n\t\tShading: Y')
        file.write('\n\t\tCulling: "CullingOff"')
        file.write('\n\t\tTypeFlags: "Light"')
        file.write('\n\t\tGeometryVersion: 124')
        file.write('\n\t}')

    # matrixOnly is not used at the moment
    def write_null(my_null=None, fbxName=None, matrixOnly=None):
        # ob can be null
        if not fbxName:
            fbxName = my_null.fbxName

        file.write('\n\tModel: "Model::%s", "Null" {' % fbxName)
        file.write('\n\t\tVersion: 232')

        # only use this for the root matrix at the moment
        if matrixOnly:
            poseMatrix = write_object_props(None, None, matrixOnly)[3]

        else:  # all other Null's
            if my_null:
                poseMatrix = write_object_props(my_null.blenObject, None, my_null.parRelMatrix())[3]
            else:
                poseMatrix = write_object_props()[3]

        pose_items.append((fbxName, poseMatrix))

        file.write('''
        }
        MultiLayer: 0
        MultiTake: 1
        Shading: Y
        Culling: "CullingOff"
        TypeFlags: "Null"
    }''')

    # Material Settings
    if world:
        world_amb = world.ambient_color[:]
    else:
        world_amb = 0.0, 0.0, 0.0  # default value

    def write_material(matname, mat):
        file.write('\n\tMaterial: "Material::%s", "" {' % matname)

        # Todo, add more material Properties.
        if mat:
            mat_cold = tuple(mat.diffuse_color)
            mat_cols = tuple(mat.specular_color)
            #mat_colm = tuple(mat.mirCol) # we wont use the mirror color
            mat_colamb = world_amb

            mat_dif = mat.diffuse_intensity
            mat_amb = mat.ambient
            mat_hard = (float(mat.specular_hardness) - 1.0) / 5.10
            mat_spec = mat.specular_intensity / 2.0
            mat_alpha = mat.alpha
            mat_emit = mat.emit
            mat_shadeless = mat.use_shadeless
            if mat_shadeless:
                mat_shader = 'Lambert'
            else:
                if mat.diffuse_shader == 'LAMBERT':
                    mat_shader = 'Lambert'
                else:
                    mat_shader = 'Phong'
        else:
            mat_cols = mat_cold = 0.8, 0.8, 0.8
            mat_colamb = 0.0, 0.0, 0.0
            # mat_colm
            mat_dif = 1.0
            mat_amb = 0.5
            mat_hard = 20.0
            mat_spec = 0.2
            mat_alpha = 1.0
            mat_emit = 0.0
            mat_shadeless = False
            mat_shader = 'Phong'

        file.write('\n\t\tVersion: 102')
        file.write('\n\t\tShadingModel: "%s"' % mat_shader.lower())
        file.write('\n\t\tMultiLayer: 0')

        file.write('\n\t\tProperties60:  {')
        file.write('\n\t\t\tProperty: "ShadingModel", "KString", "", "%s"' % mat_shader)
        file.write('\n\t\t\tProperty: "MultiLayer", "bool", "",0')
        file.write('\n\t\t\tProperty: "EmissiveColor", "ColorRGB", "",%.4f,%.4f,%.4f' % mat_cold)  # emit and diffuse color are he same in blender
        file.write('\n\t\t\tProperty: "EmissiveFactor", "double", "",%.4f' % mat_emit)

        file.write('\n\t\t\tProperty: "AmbientColor", "ColorRGB", "",%.4f,%.4f,%.4f' % mat_colamb)
        file.write('\n\t\t\tProperty: "AmbientFactor", "double", "",%.4f' % mat_amb)
        file.write('\n\t\t\tProperty: "DiffuseColor", "ColorRGB", "",%.4f,%.4f,%.4f' % mat_cold)
        file.write('\n\t\t\tProperty: "DiffuseFactor", "double", "",%.4f' % mat_dif)
        file.write('\n\t\t\tProperty: "Bump", "Vector3D", "",0,0,0')
        file.write('\n\t\t\tProperty: "TransparentColor", "ColorRGB", "",1,1,1')
        file.write('\n\t\t\tProperty: "TransparencyFactor", "double", "",%.4f' % (1.0 - mat_alpha))
        if not mat_shadeless:
            file.write('\n\t\t\tProperty: "SpecularColor", "ColorRGB", "",%.4f,%.4f,%.4f' % mat_cols)
            file.write('\n\t\t\tProperty: "SpecularFactor", "double", "",%.4f' % mat_spec)
            file.write('\n\t\t\tProperty: "ShininessExponent", "double", "",80.0')
            file.write('\n\t\t\tProperty: "ReflectionColor", "ColorRGB", "",0,0,0')
            file.write('\n\t\t\tProperty: "ReflectionFactor", "double", "",1')
        file.write('\n\t\t\tProperty: "Emissive", "ColorRGB", "",0,0,0')
        file.write('\n\t\t\tProperty: "Ambient", "ColorRGB", "",%.1f,%.1f,%.1f' % mat_colamb)
        file.write('\n\t\t\tProperty: "Diffuse", "ColorRGB", "",%.1f,%.1f,%.1f' % mat_cold)
        if not mat_shadeless:
            file.write('\n\t\t\tProperty: "Specular", "ColorRGB", "",%.1f,%.1f,%.1f' % mat_cols)
            file.write('\n\t\t\tProperty: "Shininess", "double", "",%.1f' % mat_hard)
        file.write('\n\t\t\tProperty: "Opacity", "double", "",%.1f' % mat_alpha)
        if not mat_shadeless:
            file.write('\n\t\t\tProperty: "Reflectivity", "double", "",0')

        file.write('\n\t\t}')
        file.write('\n\t}')

    def copy_image(image):
        fn = bpy.path.abspath(image.filepath)
        fn_strip = os.path.basename(fn)

        if EXP_IMAGE_COPY:
            rel = fn_strip
            fn_abs_dest = os.path.join(basepath, fn_strip)
            if not os.path.exists(fn_abs_dest):
                shutil.copy(fn, fn_abs_dest)
        elif bpy.path.is_subdir(fn, basepath):
            rel = os.path.relpath(fn, basepath)
        else:
            rel = fn

        return (rel, fn_strip)

    # tex is an Image (Arystan)
    def write_video(texname, tex):
        # Same as texture really!
        file.write('\n\tVideo: "Video::%s", "Clip" {' % texname)

        file.write('''
        Type: "Clip"
        Properties60:  {
            Property: "FrameRate", "double", "",0
            Property: "LastFrame", "int", "",0
            Property: "Width", "int", "",0
            Property: "Height", "int", "",0''')
        if tex:
            fname_rel, fname_strip = copy_image(tex)
# 			fname, fname_strip, fname_rel = derived_paths(tex.filepath, basepath, EXP_IMAGE_COPY)
        else:
            fname = fname_strip = fname_rel = ''

        file.write('\n\t\t\tProperty: "Path", "charptr", "", "%s"' % fname_strip)

        file.write('''
            Property: "StartFrame", "int", "",0
            Property: "StopFrame", "int", "",0
            Property: "PlaySpeed", "double", "",1
            Property: "Offset", "KTime", "",0
            Property: "InterlaceMode", "enum", "",0
            Property: "FreeRunning", "bool", "",0
            Property: "Loop", "bool", "",0
            Property: "AccessMode", "enum", "",0
        }
        UseMipMap: 0''')

        file.write('\n\t\tFilename: "%s"' % fname_strip)
        if fname_strip:
            fname_strip = '/' + fname_strip
        file.write('\n\t\tRelativeFilename: "%s"' % fname_rel)  # make relative
        file.write('\n\t}')

    def write_texture(texname, tex, num):
        # if tex is None then this is a dummy tex
        file.write('\n\tTexture: "Texture::%s", "TextureVideoClip" {' % texname)
        file.write('\n\t\tType: "TextureVideoClip"')
        file.write('\n\t\tVersion: 202')
        # TODO, rare case _empty_ exists as a name.
        file.write('\n\t\tTextureName: "Texture::%s"' % texname)

        file.write('''
        Properties60:  {
            Property: "Translation", "Vector", "A+",0,0,0
            Property: "Rotation", "Vector", "A+",0,0,0
            Property: "Scaling", "Vector", "A+",1,1,1''')
        file.write('\n\t\t\tProperty: "Texture alpha", "Number", "A+",%i' % num)

        # WrapModeU/V 0==rep, 1==clamp, TODO add support
        file.write('''
            Property: "TextureTypeUse", "enum", "",0
            Property: "CurrentTextureBlendMode", "enum", "",1
            Property: "UseMaterial", "bool", "",0
            Property: "UseMipMap", "bool", "",0
            Property: "CurrentMappingType", "enum", "",0
            Property: "UVSwap", "bool", "",0''')

        file.write('\n\t\t\tProperty: "WrapModeU", "enum", "",%i' % tex.use_clamp_x)
        file.write('\n\t\t\tProperty: "WrapModeV", "enum", "",%i' % tex.use_clamp_y)

        file.write('''
            Property: "TextureRotationPivot", "Vector3D", "",0,0,0
            Property: "TextureScalingPivot", "Vector3D", "",0,0,0
            Property: "VideoProperty", "object", ""
        }''')

        file.write('\n\t\tMedia: "Video::%s"' % texname)

        if tex:
            fname_rel, fname_strip = copy_image(tex)
# 			fname, fname_strip, fname_rel = derived_paths(tex.filepath, basepath, EXP_IMAGE_COPY)
        else:
            fname = fname_strip = fname_rel = ''

        file.write('\n\t\tFileName: "%s"' % fname_strip)
        file.write('\n\t\tRelativeFilename: "%s"' % fname_rel)  # need some make relative command

        file.write('''
        ModelUVTranslation: 0,0
        ModelUVScaling: 1,1
        Texture_Alpha_Source: "None"
        Cropping: 0,0,0,0
    }''')

    def write_deformer_skin(obname):
        '''
        Each mesh has its own deformer
        '''
        file.write('\n\tDeformer: "Deformer::Skin %s", "Skin" {' % obname)
        file.write('''
        Version: 100
        MultiLayer: 0
        Type: "Skin"
        Properties60:  {
        }
        Link_DeformAcuracy: 50
    }''')

    # in the example was 'Bip01 L Thigh_2'
    def write_sub_deformer_skin(my_mesh, my_bone, weights):

        '''
        Each subdeformer is spesific to a mesh, but the bone it links to can be used by many sub-deformers
        So the SubDeformer needs the mesh-object name as a prefix to make it unique

        Its possible that there is no matching vgroup in this mesh, in that case no verts are in the subdeformer,
        a but silly but dosnt really matter
        '''
        file.write('\n\tDeformer: "SubDeformer::Cluster %s %s", "Cluster" {' % (my_mesh.fbxName, my_bone.fbxName))

        file.write('''
        Version: 100
        MultiLayer: 0
        Type: "Cluster"
        Properties60:  {
            Property: "SrcModel", "object", ""
            Property: "SrcModelReference", "object", ""
        }
        UserData: "", ""''')

        # Support for bone parents
        if my_mesh.fbxBoneParent:
            if my_mesh.fbxBoneParent == my_bone:
                # TODO - this is a bit lazy, we could have a simple write loop
                # for this case because all weights are 1.0 but for now this is ok
                # Parent Bones arent used all that much anyway.
                vgroup_data = [(j, 1.0) for j in range(len(my_mesh.blenData.vertices))]
            else:
                # This bone is not a parent of this mesh object, no weights
                vgroup_data = []

        else:
            # Normal weight painted mesh
            if my_bone.blenName in weights[0]:
                # Before we used normalized wright list
                #vgroup_data = me.getVertsFromGroup(bone.name, 1)
                group_index = weights[0].index(my_bone.blenName)
                vgroup_data = [(j, weight[group_index]) for j, weight in enumerate(weights[1]) if weight[group_index]]
            else:
                vgroup_data = []

        file.write('\n\t\tIndexes: ')

        i = -1
        for vg in vgroup_data:
            if i == -1:
                file.write('%i' % vg[0])
                i = 0
            else:
                if i == 23:
                    file.write('\n\t\t')
                    i = 0
                file.write(',%i' % vg[0])
            i += 1

        file.write('\n\t\tWeights: ')
        i = -1
        for vg in vgroup_data:
            if i == -1:
                file.write('%.8f' % vg[1])
                i = 0
            else:
                if i == 38:
                    file.write('\n\t\t')
                    i = 0
                file.write(',%.8f' % vg[1])
            i += 1

        if my_mesh.fbxParent:
            # TODO FIXME, this case is broken in some cases. skinned meshes just shouldnt have parents where possible!
            m = (my_mesh.matrixWorld.inverted() * my_bone.fbxArm.matrixWorld.copy() * my_bone.restMatrix) * mtx4_z90
        else:
            # Yes! this is it...  - but dosnt work when the mesh is a.
            m = (my_mesh.matrixWorld.inverted() * my_bone.fbxArm.matrixWorld.copy() * my_bone.restMatrix) * mtx4_z90

        #m = mtx4_z90 * my_bone.restMatrix
        matstr = mat4x4str(m)
        matstr_i = mat4x4str(m.inverted())

        file.write('\n\t\tTransform: %s' % matstr_i)  # THIS IS __NOT__ THE GLOBAL MATRIX AS DOCUMENTED :/
        file.write('\n\t\tTransformLink: %s' % matstr)
        file.write('\n\t}')

    def write_mesh(my_mesh):

        me = my_mesh.blenData

        # if there are non NULL materials on this mesh
        do_materials = bool(my_mesh.blenMaterials)
        do_textures = bool(my_mesh.blenTextures)
        do_uvs = bool(me.uv_textures)

        file.write('\n\tModel: "Model::%s", "Mesh" {' % my_mesh.fbxName)
        file.write('\n\t\tVersion: 232')  # newline is added in write_object_props

        # convert into lists once.
        me_vertices = me.vertices[:]
        me_edges = me.edges[:]
        me_faces = me.faces[:]

        poseMatrix = write_object_props(my_mesh.blenObject, None, my_mesh.parRelMatrix())[3]
        pose_items.append((my_mesh.fbxName, poseMatrix))

        file.write('\n\t\t}')
        file.write('\n\t\tMultiLayer: 0')
        file.write('\n\t\tMultiTake: 1')
        file.write('\n\t\tShading: Y')
        file.write('\n\t\tCulling: "CullingOff"')

        # Write the Real Mesh data here
        file.write('\n\t\tVertices: ')
        i = -1

        for v in me_vertices:
            if i == -1:
                file.write('%.6f,%.6f,%.6f' % v.co[:])
                i = 0
            else:
                if i == 7:
                    file.write('\n\t\t')
                    i = 0
                file.write(',%.6f,%.6f,%.6f' % v.co[:])
            i += 1

        file.write('\n\t\tPolygonVertexIndex: ')
        i = -1
        for f in me_faces:
            fi = f.vertices[:]

            # last index XORd w. -1 indicates end of face
            if i == -1:
                if len(fi) == 3:
                    file.write('%i,%i,%i' % (fi[0], fi[1], fi[2] ^ -1))
                else:
                    file.write('%i,%i,%i,%i' % (fi[0], fi[1], fi[2], fi[3] ^ -1))
                i = 0
            else:
                if i == 13:
                    file.write('\n\t\t')
                    i = 0
                if len(fi) == 3:
                    file.write(',%i,%i,%i' % (fi[0], fi[1], fi[2] ^ -1))
                else:
                    file.write(',%i,%i,%i,%i' % (fi[0], fi[1], fi[2], fi[3] ^ -1))
            i += 1

        # write loose edges as faces.
        for ed in me_edges:
            if ed.is_loose:
                ed_val = ed.vertices[:]
                ed_val = ed_val[0], ed_val[-1] ^ -1

                if i == -1:
                    file.write('%i,%i' % ed_val)
                    i = 0
                else:
                    if i == 13:
                        file.write('\n\t\t')
                        i = 0
                    file.write(',%i,%i' % ed_val)
            i += 1

        file.write('\n\t\tEdges: ')
        i = -1
        for ed in me_edges:
                if i == -1:
                    file.write('%i,%i' % (ed.vertices[0], ed.vertices[1]))
                    i = 0
                else:
                    if i == 13:
                        file.write('\n\t\t')
                        i = 0
                    file.write(',%i,%i' % (ed.vertices[0], ed.vertices[1]))
                i += 1

        file.write('\n\t\tGeometryVersion: 124')

        file.write('''
        LayerElementNormal: 0 {
            Version: 101
            Name: ""
            MappingInformationType: "ByVertice"
            ReferenceInformationType: "Direct"
            Normals: ''')

        i = -1
        for v in me_vertices:
            if i == -1:
                file.write('%.15f,%.15f,%.15f' % v.normal[:])
                i = 0
            else:
                if i == 2:
                    file.write('\n\t\t\t ')
                    i = 0
                file.write(',%.15f,%.15f,%.15f' % v.normal[:])
            i += 1
        file.write('\n\t\t}')

        # Write Face Smoothing
        file.write('''
        LayerElementSmoothing: 0 {
            Version: 102
            Name: ""
            MappingInformationType: "ByPolygon"
            ReferenceInformationType: "Direct"
            Smoothing: ''')

        i = -1
        for f in me_faces:
            if i == -1:
                file.write('%i' % f.use_smooth)
                i = 0
            else:
                if i == 54:
                    file.write('\n\t\t\t ')
                    i = 0
                file.write(',%i' % f.use_smooth)
            i += 1

        file.write('\n\t\t}')

        # Write Edge Smoothing
        file.write('''
        LayerElementSmoothing: 0 {
            Version: 101
            Name: ""
            MappingInformationType: "ByEdge"
            ReferenceInformationType: "Direct"
            Smoothing: ''')

        i = -1
        for ed in me_edges:
            if i == -1:
                file.write('%i' % (ed.use_edge_sharp))
                i = 0
            else:
                if i == 54:
                    file.write('\n\t\t\t ')
                    i = 0
                file.write(',%i' % (ed.use_edge_sharp))
            i += 1

        file.write('\n\t\t}')

        # Write VertexColor Layers
        # note, no programs seem to use this info :/
        collayers = []
        if len(me.vertex_colors):
            collayers = me.vertex_colors
            for colindex, collayer in enumerate(collayers):
                file.write('\n\t\tLayerElementColor: %i {' % colindex)
                file.write('\n\t\t\tVersion: 101')
                file.write('\n\t\t\tName: "%s"' % collayer.name)

                file.write('''
            MappingInformationType: "ByPolygonVertex"
            ReferenceInformationType: "IndexToDirect"
            Colors: ''')

                i = -1
                ii = 0  # Count how many Colors we write

                for fi, cf in enumerate(collayer.data):
                    if len(me_faces[fi].vertices) == 4:
                        colors = cf.color1[:], cf.color2[:], cf.color3[:], cf.color4[:]
                    else:
                        colors = cf.color1[:], cf.color2[:], cf.color3[:]

                    for col in colors:
                        if i == -1:
                            file.write('%.4f,%.4f,%.4f,1' % col)
                            i = 0
                        else:
                            if i == 7:
                                file.write('\n\t\t\t\t')
                                i = 0
                            file.write(',%.4f,%.4f,%.4f,1' % col)
                        i += 1
                        ii += 1  # One more Color

                file.write('\n\t\t\tColorIndex: ')
                i = -1
                for j in range(ii):
                    if i == -1:
                        file.write('%i' % j)
                        i = 0
                    else:
                        if i == 55:
                            file.write('\n\t\t\t\t')
                            i = 0
                        file.write(',%i' % j)
                    i += 1

                file.write('\n\t\t}')

        # Write UV and texture layers.
        uvlayers = []
        if do_uvs:
            uvlayers = me.uv_textures
            uvlayer_orig = me.uv_textures.active
            for uvindex, uvlayer in enumerate(me.uv_textures):
                file.write('\n\t\tLayerElementUV: %i {' % uvindex)
                file.write('\n\t\t\tVersion: 101')
                file.write('\n\t\t\tName: "%s"' % uvlayer.name)

                file.write('''
            MappingInformationType: "ByPolygonVertex"
            ReferenceInformationType: "IndexToDirect"
            UV: ''')

                i = -1
                ii = 0  # Count how many UVs we write

                for uf in uvlayer.data:
                    # workaround, since uf.uv iteration is wrong atm
                    for uv in uf.uv:
                        if i == -1:
                            file.write('%.6f,%.6f' % uv[:])
                            i = 0
                        else:
                            if i == 7:
                                file.write('\n\t\t\t ')
                                i = 0
                            file.write(',%.6f,%.6f' % uv[:])
                        i += 1
                        ii += 1  # One more UV

                file.write('\n\t\t\tUVIndex: ')
                i = -1
                for j in range(ii):
                    if i == -1:
                        file.write('%i' % j)
                        i = 0
                    else:
                        if i == 55:
                            file.write('\n\t\t\t\t')
                            i = 0
                        file.write(',%i' % j)
                    i += 1

                file.write('\n\t\t}')

                if do_textures:
                    file.write('\n\t\tLayerElementTexture: %i {' % uvindex)
                    file.write('\n\t\t\tVersion: 101')
                    file.write('\n\t\t\tName: "%s"' % uvlayer.name)

                    if len(my_mesh.blenTextures) == 1:
                        file.write('\n\t\t\tMappingInformationType: "AllSame"')
                    else:
                        file.write('\n\t\t\tMappingInformationType: "ByPolygon"')

                    file.write('\n\t\t\tReferenceInformationType: "IndexToDirect"')
                    file.write('\n\t\t\tBlendMode: "Translucent"')
                    file.write('\n\t\t\tTextureAlpha: 1')
                    file.write('\n\t\t\tTextureId: ')

                    if len(my_mesh.blenTextures) == 1:
                        file.write('0')
                    else:
                        texture_mapping_local = {None: -1}

                        i = 0  # 1 for dummy
                        for tex in my_mesh.blenTextures:
                            if tex:  # None is set above
                                texture_mapping_local[tex] = i
                                i += 1

                        i = -1
                        for f in uvlayer.data:
                            img_key = f.image

                            if i == -1:
                                i = 0
                                file.write('%s' % texture_mapping_local[img_key])
                            else:
                                if i == 55:
                                    file.write('\n			 ')
                                    i = 0

                                file.write(',%s' % texture_mapping_local[img_key])
                            i += 1

                else:
                    file.write('''
        LayerElementTexture: 0 {
            Version: 101
            Name: ""
            MappingInformationType: "NoMappingInformation"
            ReferenceInformationType: "IndexToDirect"
            BlendMode: "Translucent"
            TextureAlpha: 1
            TextureId: ''')
                file.write('\n\t\t}')

        # Done with UV/textures.
        if do_materials:
            file.write('\n\t\tLayerElementMaterial: 0 {')
            file.write('\n\t\t\tVersion: 101')
            file.write('\n\t\t\tName: ""')

            if len(my_mesh.blenMaterials) == 1:
                file.write('\n\t\t\tMappingInformationType: "AllSame"')
            else:
                file.write('\n\t\t\tMappingInformationType: "ByPolygon"')

            file.write('\n\t\t\tReferenceInformationType: "IndexToDirect"')
            file.write('\n\t\t\tMaterials: ')

            if len(my_mesh.blenMaterials) == 1:
                file.write('0')
            else:
                # Build a material mapping for this
                material_mapping_local = {}  # local-mat & tex : global index.

                for j, mat_tex_pair in enumerate(my_mesh.blenMaterials):
                    material_mapping_local[mat_tex_pair] = j

                len_material_mapping_local = len(material_mapping_local)

                mats = my_mesh.blenMaterialList

                if me.uv_textures.active:
                    uv_faces = me.uv_textures.active.data
                else:
                    uv_faces = [None] * len(me_faces)

                i = -1
                for f, uf in zip(me_faces, uv_faces):
# 				for f in me_faces:
                    try:
                        mat = mats[f.material_index]
                    except:
                        mat = None

                    if do_uvs:
                        tex = uf.image  # WARNING - MULTI UV LAYER IMAGES NOT SUPPORTED :/
                    else:
                        tex = None

                    if i == -1:
                        i = 0
                        file.write('%s' % (material_mapping_local[mat, tex]))  # None for mat or tex is ok
                    else:
                        if i == 55:
                            file.write('\n\t\t\t\t')
                            i = 0

                        file.write(',%s' % (material_mapping_local[mat, tex]))
                    i += 1

            file.write('\n\t\t}')

        file.write('''
        Layer: 0 {
            Version: 100
            LayerElement:  {
                Type: "LayerElementNormal"
                TypedIndex: 0
            }''')

        if do_materials:
            file.write('''
            LayerElement:  {
                Type: "LayerElementMaterial"
                TypedIndex: 0
            }''')

        # Always write this
        if do_textures:
            file.write('''
            LayerElement:  {
                Type: "LayerElementTexture"
                TypedIndex: 0
            }''')

        if me.vertex_colors:
            file.write('''
            LayerElement:  {
                Type: "LayerElementColor"
                TypedIndex: 0
            }''')

        if do_uvs:  # same as me.faceUV
            file.write('''
            LayerElement:  {
                Type: "LayerElementUV"
                TypedIndex: 0
            }''')

        file.write('\n\t\t}')

        if len(uvlayers) > 1:
            for i in range(1, len(uvlayers)):

                file.write('\n\t\tLayer: %i {' % i)
                file.write('\n\t\t\tVersion: 100')

                file.write('''
            LayerElement:  {
                Type: "LayerElementUV"''')

                file.write('\n\t\t\t\tTypedIndex: %i' % i)
                file.write('\n\t\t\t}')

                if do_textures:

                    file.write('''
            LayerElement:  {
                Type: "LayerElementTexture"''')

                    file.write('\n\t\t\t\tTypedIndex: %i' % i)
                    file.write('\n\t\t\t}')

                file.write('\n\t\t}')

        if len(collayers) > 1:
            # Take into account any UV layers
            layer_offset = 0
            if uvlayers:
                layer_offset = len(uvlayers) - 1

            for i in range(layer_offset, len(collayers) + layer_offset):
                file.write('\n\t\tLayer: %i {' % i)
                file.write('\n\t\t\tVersion: 100')

                file.write('''
            LayerElement:  {
                Type: "LayerElementColor"''')

                file.write('\n\t\t\t\tTypedIndex: %i' % i)
                file.write('\n\t\t\t}')
                file.write('\n\t\t}')
        file.write('\n\t}')

    def write_group(name):
        file.write('\n\tGroupSelection: "GroupSelection::%s", "Default" {' % name)

        file.write('''
        Properties60:  {
            Property: "MultiLayer", "bool", "",0
            Property: "Pickable", "bool", "",1
            Property: "Transformable", "bool", "",1
            Property: "Show", "bool", "",1
        }
        MultiLayer: 0
    }''')

    # add meshes here to clear because they are not used anywhere.
    meshes_to_clear = []

    ob_meshes = []
    ob_lights = []
    ob_cameras = []
    # in fbx we export bones as children of the mesh
    # armatures not a part of a mesh, will be added to ob_arms
    ob_bones = []
    ob_arms = []
    ob_null = []  # emptys

    # List of types that have blender objects (not bones)
    ob_all_typegroups = [ob_meshes, ob_lights, ob_cameras, ob_arms, ob_null]

    groups = []  # blender groups, only add ones that have objects in the selections
    materials = {}  # (mat, image) keys, should be a set()
    textures = {}  # should be a set()

    tmp_ob_type = ob_type = None  # incase no objects are exported, so as not to raise an error

    # if use_selection is false, use sceens objects
    if not batch_objects:
        if use_selection:
            tmp_objects = context.selected_objects
        else:
            tmp_objects = scene.objects
    else:
        tmp_objects = batch_objects

    if EXP_ARMATURE:
        # This is needed so applying modifiers dosnt apply the armature deformation, its also needed
        # ...so mesh objects return their rest worldspace matrix when bone-parents are exported as weighted meshes.
        # set every armature to its rest, backup the original values so we done mess up the scene
        ob_arms_orig_rest = [arm.pose_position for arm in bpy.data.armatures]

        for arm in bpy.data.armatures:
            arm.pose_position = 'REST'

        if ob_arms_orig_rest:
            for ob_base in bpy.data.objects:
                if ob_base.type == 'ARMATURE':
                    ob_base.update_tag()

            # This causes the makeDisplayList command to effect the mesh
            scene.frame_set(scene.frame_current)

    for ob_base in tmp_objects:

        # ignore dupli children
        if ob_base.parent and ob_base.parent.dupli_type != 'NONE':
            continue

        obs = [(ob_base, ob_base.matrix_world)]
        if ob_base.dupli_type != 'NONE':
            ob_base.create_dupli_list(scene)
            obs = [(dob.object, dob.matrix) for dob in ob_base.dupli_list]

        for ob, mtx in obs:
# 		for ob, mtx in BPyObject.getDerivedObjects(ob_base):
            tmp_ob_type = ob.type
            if tmp_ob_type == 'CAMERA':
                if EXP_CAMERA:
                    ob_cameras.append(my_object_generic(ob, mtx))
            elif tmp_ob_type == 'LAMP':
                if EXP_LAMP:
                    ob_lights.append(my_object_generic(ob, mtx))
            elif tmp_ob_type == 'ARMATURE':
                if EXP_ARMATURE:
                    # TODO - armatures dont work in dupligroups!
                    if ob not in ob_arms:
                        ob_arms.append(ob)
                    # ob_arms.append(ob) # replace later. was "ob_arms.append(sane_obname(ob), ob)"
            elif tmp_ob_type == 'EMPTY':
                if EXP_EMPTY:
                    ob_null.append(my_object_generic(ob, mtx))
            elif EXP_MESH:
                origData = True
                if tmp_ob_type != 'MESH':
                    try:
                        me = ob.create_mesh(scene, True, 'PREVIEW')
                    except:
                        me = None

                    if me:
                        meshes_to_clear.append(me)