Beispiel #1
0
def surf2ctm(fsdir, outdir):
    """ Convert a FreeSurfer surface to a compressed CTM surface.

    Treat both hemishperes: 'lh' and 'rh'.

    Parameters
    ----------
    fsdir: str (mandatory)
        the subject FreeSurfer home directory where the '*.white', '*.pial'
        sufraces and the '*.aparc.annot' files can be found.
    outdir: str
        directory where a '*.ctm' file will be saved. The output file base
        name will be the same as the input 'path_mesh' file.

    Returns
    -------
    paths_ctm: list of str
        the converted surfaces.
    """
    # Treat both hemishperes
    for hemi in ["lh", "rh"]:

        # Guess file locations fom the FreeSurfer standard organization
        path_white = os.path.join(fsdir, "surf", "{0}.white".format(hemi))
        path_pial = os.path.join(fsdir, "surf", "{0}.pial".format(hemi))
        path_annot = os.path.join(fsdir, "label",
                                  "{0}.aparc.annot".format(hemi))
        for path in (path_white, path_pial, path_annot):
            if not os.path.isfile(path):
                raise ValueError("'{0}' FreeSurfer standard file cannot be "
                                 "found.".format(path))

        # Load the surfaces
        paths_ctm = []
        for path_surf in (path_white, path_pial):
            surface = TriSurface.load(path_surf, annotfile=path_annot)

            # Convert the loaded surface in compressed CTM format
            path_ctm = os.path.join(outdir,
                                    os.path.basename(path_surf) + ".ctm")
            paths_ctm.append(path_ctm)
            colors = []
            for label in surface.labels:
                if label < 0:
                    label = 0
                color = numpy.asarray(surface.metadata[label]["color"], dtype=float)
                color /= 255.
                colors.append(tuple(color))
            pVerts = make_blob(surface.vertices, ctypes.c_float)
            pFaces = make_blob(surface.triangles, ctypes.c_uint)
            pNormals = ctypes.POINTER(ctypes.c_float)()
            pColors = make_blob(colors, ctypes.c_float)
            ctm = openctm.ctmNewContext(openctm.CTM_EXPORT)
            openctm.ctmDefineMesh(ctm, pVerts, len(surface.vertices), pFaces,
                                  len(surface.triangles), pNormals)
            openctm.ctmAddAttribMap(ctm, pColors, "Color")
            openctm.ctmSave(ctm, path_ctm)
            openctm.ctmFreeContext(ctm)

    return paths_ctm
Beispiel #2
0
	def dump(self, filename = "mesh.ctm"):
		pVertex = blob.make_blob(self.vertex, ctypes.c_float)
		pTriangles = blob.make_blob(self.triangles, ctypes.c_uint)
		pNormals = ctypes.POINTER(ctypes.c_float)()
		ctm = openctm.ctmNewContext(openctm.CTM_EXPORT)
		openctm.ctmDefineMesh(ctm, pVertex, len(self.vertex), pTriangles, len(self.triangles), pNormals)
		openctm.ctmSave(ctm, filename)
		openctm.ctmFreeContext(ctm)
Beispiel #3
0
    def _exportCtm(self, fileName, exportOptions, exportAll):
        exportNormals = exportOptions.get('normals', False)
        exportUVs = exportOptions.get('uvs', False)
        # TODO: implement colors export
        exportColors = exportOptions.get('colors', False)
        if exportAll:
            dagIterator = OpenMaya.MItDag(OpenMaya.MItDag.kBreadthFirst,
                                          OpenMaya.MFn.kGeometric)
        else:
            selection = OpenMaya.MGlobal.getActiveSelectionList()
            dagIterator = OpenMaya.MItSelectionList(selection,
                                                    OpenMaya.MFn.kGeometric)

        ctmindices = []
        ctmvertices = []
        ctmnormals = []
        ctmtexcoords = []
        indicesOffset = 0
        while not dagIterator.isDone():
            if exportAll:
                dagPath = dagIterator.getPath()
            else:
                dagPath = dagIterator.getDagPath()
            fnMesh = None
            try:
                fnMesh = OpenMaya.MFnMesh(dagPath)
            except Exception as e:
                dagIterator.next()
                continue
            meshPoints = fnMesh.getPoints(OpenMaya.MSpace.kWorld)

            meshNormals = normals = None
            if exportNormals:
                meshNormals = fnMesh.getNormals()
                normals = {}

            UVSets = u = v = uvs = None
            if exportUVs:
                UVSets = fnMesh.getUVSetNames()
                u, v = fnMesh.getUVs(UVSets[0])
                uvs = {}

            iterPolys = OpenMaya.MItMeshPolygon(dagPath)
            offset = 0
            maxPoints = 0
            while not iterPolys.isDone():
                if not iterPolys.hasValidTriangulation():
                    raise ValueError("The mesh has not valid triangulation")
                # Not used
                # uvSet = iterPolys.getUVSetNames()

                polygonVertices = iterPolys.getVertices()
                numTriangles = iterPolys.numTriangles()

                offset = len(ctmvertices)
                localindices = []
                for i in range(numTriangles):

                    points, indices = iterPolys.getTriangle(i)
                    ctmindices.append(indicesOffset)
                    indicesOffset += 1
                    ctmindices.append(indicesOffset)
                    indicesOffset += 1
                    ctmindices.append(indicesOffset)
                    indicesOffset += 1
                    localindices.append(indices[0])
                    localindices.append(indices[1])
                    localindices.append(indices[2])

                    localIndex = []
                    for gt in range(len(indices)):
                        for gv in range(len(polygonVertices)):
                            if indices[gt] == polygonVertices[gv]:
                                localIndex.append(gv)
                                break
                    if exportNormals:
                        normals[indices[0]] = meshNormals[
                            iterPolys.normalIndex(localIndex[0])]
                        normals[indices[1]] = meshNormals[
                            iterPolys.normalIndex(localIndex[1])]
                        normals[indices[2]] = meshNormals[
                            iterPolys.normalIndex(localIndex[2])]

                    if exportUVs and iterPolys.hasUVs():
                        uvID = [0, 0, 0]
                        for vtxInPolygon in range(3):
                            uvID[vtxInPolygon] = iterPolys.getUVIndex(
                                localIndex[vtxInPolygon], UVSets[0])
                        uvs[indices[0]] = (u[uvID[0]], v[uvID[0]])
                        uvs[indices[1]] = (u[uvID[1]], v[uvID[1]])
                        uvs[indices[2]] = (u[uvID[2]], v[uvID[2]])

                for i in localindices:
                    ctmvertices.append(meshPoints[i].x)
                    ctmvertices.append(meshPoints[i].y)
                    ctmvertices.append(meshPoints[i].z)
                    if exportNormals:
                        ctmnormals.append(normals[i][0])
                        ctmnormals.append(normals[i][1])
                        ctmnormals.append(normals[i][2])
                    if exportUVs and iterPolys.hasUVs():
                        ctmtexcoords.append(uvs[i][0])
                        ctmtexcoords.append(uvs[i][1])

                iterPolys.next(None)
            dagIterator.next()

        pindices = cast((openctm.CTMuint * len(ctmindices))(),
                        POINTER(openctm.CTMuint))
        pvertices = cast((openctm.CTMfloat * len(ctmvertices))(),
                         POINTER(openctm.CTMfloat))
        if exportNormals:
            pnormals = cast((openctm.CTMfloat * len(ctmnormals))(),
                            POINTER(openctm.CTMfloat))
        else:
            pnormals = None
        if exportUVs and ctmtexcoords:
            ptexcoords = cast((openctm.CTMfloat * len(ctmtexcoords))(),
                              POINTER(openctm.CTMfloat))

        for i in range(len(ctmindices)):
            pindices[i] = openctm.CTMuint(ctmindices[i])
        for i in range(len(ctmvertices)):
            pvertices[i] = openctm.CTMfloat(ctmvertices[i])
            if exportNormals:
                pnormals[i] = openctm.CTMfloat(ctmnormals[i])
        if exportUVs and ctmtexcoords:
            for i in range(len(ctmtexcoords)):
                ptexcoords[i] = openctm.CTMfloat(ctmtexcoords[i])

        context = openctm.ctmNewContext(openctm.CTM_EXPORT)
        # openctm.ctmCompressionMethod(context, openctm.CTM_METHOD_MG2)
        # Select compression level (0-9) - default 1
        openctm.ctmCompressionLevel(context,
                                    exportOptions.get("compressionLevel", 1))
        comment = "Exported with OpenCTM exporter using Maya"
        openctm.ctmFileComment(context, c_char_p(comment))
        openctm.ctmDefineMesh(context, pvertices,
                              openctm.CTMuint(len(ctmvertices) / 3), pindices,
                              openctm.CTMuint(len(ctmindices) / 3), pnormals)
        if exportUVs:
            if ctmtexcoords:
                openctm.ctmAddUVMap(context, ptexcoords, c_char_p("map1"),
                                    c_char_p())
            else:
                print("[Warning] Export UVs selected but "
                      "there are no available UVs to export")

        openctm.ctmSave(context, c_char_p(fileName))
        openctm.ctmFreeContext(context)
        e = openctm.ctmGetError(context)

        if e != 0:
            s = openctm.ctmErrorString(e)
            print(s)
            raise Exception(s)
Beispiel #4
0
def surf2ctm(fsdir, outdir):
    """ Convert a FreeSurfer surface to a compressed CTM surface.

    Treat both hemishperes: 'lh' and 'rh'.

    Parameters
    ----------
    fsdir: str (mandatory)
        the subject FreeSurfer home directory where the '*.white', '*.pial'
        sufraces and the '*.aparc.annot' files can be found.
    outdir: str
        directory where a '*.ctm' file will be saved. The output file base
        name will be the same as the input 'path_mesh' file.

    Returns
    -------
    paths_ctm: list of str
        the converted surfaces.
    """
    # Treat both hemishperes
    for hemi in ["lh", "rh"]:

        # Guess file locations fom the FreeSurfer standard organization
        path_white = os.path.join(fsdir, "surf", "{0}.white".format(hemi))
        path_pial = os.path.join(fsdir, "surf", "{0}.pial".format(hemi))
        path_annot = os.path.join(fsdir, "label",
                                  "{0}.aparc.annot".format(hemi))
        for path in (path_white, path_pial, path_annot):
            if not os.path.isfile(path):
                raise ValueError("'{0}' FreeSurfer standard file cannot be "
                                 "found.".format(path))

        # Load the surfaces
        paths_ctm = []
        for path_surf in (path_white, path_pial):
            surface = TriSurface.load(path_surf, annotfile=path_annot)

            # Convert the loaded surface in compressed CTM format
            path_ctm = os.path.join(outdir,
                                    os.path.basename(path_surf) + ".ctm")
            paths_ctm.append(path_ctm)
            colors = []
            for label in surface.labels:
                if label < 0:
                    label = 0
                color = numpy.asarray(surface.metadata[label]["color"],
                                      dtype=float)
                color /= 255.
                colors.append(tuple(color))
            pVerts = make_blob(surface.vertices, ctypes.c_float)
            pFaces = make_blob(surface.triangles, ctypes.c_uint)
            pNormals = ctypes.POINTER(ctypes.c_float)()
            pColors = make_blob(colors, ctypes.c_float)
            ctm = openctm.ctmNewContext(openctm.CTM_EXPORT)
            openctm.ctmDefineMesh(ctm, pVerts, len(surface.vertices), pFaces,
                                  len(surface.triangles), pNormals)
            openctm.ctmAddAttribMap(ctm, pColors, "Color")
            openctm.ctmSave(ctm, path_ctm)
            openctm.ctmFreeContext(ctm)

    return paths_ctm
Beispiel #5
0
    def _exportCtm(self, fileName, exportOptions, exportAll):
        exportNormals = exportOptions.get('normals', False)
        exportUVs = exportOptions.get('uvs', False)
        # TODO: implement colors export
        exportColors = exportOptions.get('colors', False)
        if exportAll:
            dagIterator = OpenMaya.MItDag(
                OpenMaya.MItDag.kBreadthFirst, OpenMaya.MFn.kGeometric)
        else:
            selection = OpenMaya.MGlobal.getActiveSelectionList()
            dagIterator = OpenMaya.MItSelectionList(
                selection, OpenMaya.MFn.kGeometric)

        ctmindices = []
        ctmvertices = []
        ctmnormals = []
        ctmtexcoords = []
        indicesOffset = 0
        while not dagIterator.isDone():
            if exportAll:
                dagPath = dagIterator.getPath()
            else:
                dagPath = dagIterator.getDagPath()
            fnMesh = None
            try:
                fnMesh = OpenMaya.MFnMesh(dagPath)
            except Exception as e:
                dagIterator.next()
                continue
            meshPoints = fnMesh.getPoints(OpenMaya.MSpace.kWorld)

            meshNormals = normals = None
            if exportNormals:
                meshNormals = fnMesh.getNormals()
                normals = {}

            UVSets = u = v = uvs = None
            if exportUVs:
                UVSets = fnMesh.getUVSetNames()
                u, v = fnMesh.getUVs(UVSets[0])
                uvs = {}

            iterPolys = OpenMaya.MItMeshPolygon(dagPath)
            offset = 0
            maxPoints = 0
            while not iterPolys.isDone():
                if not iterPolys.hasValidTriangulation():
                    raise ValueError("The mesh has not valid triangulation")
                # Not used
                # uvSet = iterPolys.getUVSetNames()

                polygonVertices = iterPolys.getVertices()
                numTriangles = iterPolys.numTriangles()

                offset = len(ctmvertices)
                localindices = []
                for i in range(numTriangles):

                    points, indices = iterPolys.getTriangle(i)
                    ctmindices.append(indicesOffset)
                    indicesOffset += 1
                    ctmindices.append(indicesOffset)
                    indicesOffset += 1
                    ctmindices.append(indicesOffset)
                    indicesOffset += 1
                    localindices.append(indices[0])
                    localindices.append(indices[1])
                    localindices.append(indices[2])

                    localIndex = []
                    for gt in range(len(indices)):
                        for gv in range(len(polygonVertices)):
                            if indices[gt] == polygonVertices[gv]:
                                localIndex.append(gv)
                                break
                    if exportNormals:
                        normals[indices[0]] = meshNormals[
                            iterPolys.normalIndex(localIndex[0])]
                        normals[indices[1]] = meshNormals[
                            iterPolys.normalIndex(localIndex[1])]
                        normals[indices[2]] = meshNormals[
                            iterPolys.normalIndex(localIndex[2])]

                    if exportUVs and iterPolys.hasUVs():
                        uvID = [0, 0, 0]
                        for vtxInPolygon in range(3):
                            uvID[vtxInPolygon] = iterPolys.getUVIndex(
                                localIndex[vtxInPolygon], UVSets[0])
                        uvs[indices[0]] = (u[uvID[0]], v[uvID[0]])
                        uvs[indices[1]] = (u[uvID[1]], v[uvID[1]])
                        uvs[indices[2]] = (u[uvID[2]], v[uvID[2]])

                for i in localindices:
                    ctmvertices.append(meshPoints[i].x)
                    ctmvertices.append(meshPoints[i].y)
                    ctmvertices.append(meshPoints[i].z)
                    if exportNormals:
                        ctmnormals.append(normals[i][0])
                        ctmnormals.append(normals[i][1])
                        ctmnormals.append(normals[i][2])
                    if exportUVs and iterPolys.hasUVs():
                        ctmtexcoords.append(uvs[i][0])
                        ctmtexcoords.append(uvs[i][1])

                iterPolys.next(None)
            dagIterator.next()

        pindices = cast((openctm.CTMuint * len(ctmindices))
                        (), POINTER(openctm.CTMuint))
        pvertices = cast((openctm.CTMfloat * len(ctmvertices))
                         (), POINTER(openctm.CTMfloat))
        if exportNormals:
            pnormals = cast((openctm.CTMfloat * len(ctmnormals))
                            (), POINTER(openctm.CTMfloat))
        else:
            pnormals = None
        if exportUVs and ctmtexcoords:
            ptexcoords = cast((openctm.CTMfloat * len(ctmtexcoords))
                              (), POINTER(openctm.CTMfloat))

        for i in range(len(ctmindices)):
            pindices[i] = openctm.CTMuint(ctmindices[i])
        for i in range(len(ctmvertices)):
            pvertices[i] = openctm.CTMfloat(ctmvertices[i])
            if exportNormals:
                pnormals[i] = openctm.CTMfloat(ctmnormals[i])
        if exportUVs and ctmtexcoords:
            for i in range(len(ctmtexcoords)):
                ptexcoords[i] = openctm.CTMfloat(ctmtexcoords[i])

        context = openctm.ctmNewContext(openctm.CTM_EXPORT)
        # openctm.ctmCompressionMethod(context, openctm.CTM_METHOD_MG2)
        # Select compression level (0-9) - default 1
        openctm.ctmCompressionLevel(
            context, exportOptions.get("compressionLevel", 1))
        comment = "Exported with OpenCTM exporter using Maya"
        openctm.ctmFileComment(context, c_char_p(comment))
        openctm.ctmDefineMesh(context, pvertices, openctm.CTMuint(
            len(ctmvertices) / 3), pindices,
            openctm.CTMuint(len(ctmindices) / 3), pnormals)
        if exportUVs:
            if ctmtexcoords:
                openctm.ctmAddUVMap(context, ptexcoords,
                                    c_char_p("map1"), c_char_p())
            else:
                print("[Warning] Export UVs selected but "
                      "there are no available UVs to export")

        openctm.ctmSave(context, c_char_p(fileName))
        openctm.ctmFreeContext(context)
        e = openctm.ctmGetError(context)

        if e != 0:
            s = openctm.ctmErrorString(e)
            print(s)
            raise Exception(s)
Beispiel #6
0
    def writer(self, fileObject, optionString, accessMode):
        fileName = fileObject.fullName()
        selection = OpenMaya.MSelectionList()
        all = (accessMode == self.kExportAccessMode
               or accessMode == self.kSaveAccessMode)
        dagIterator = None
        if (all):
            dagIterator = OpenMaya.MItDag(OpenMaya.MItDag.kBreadthFirst,
                                          OpenMaya.MFn.kGeometric)
        else:
            OpenMaya.MGlobal.getActiveSelectionList(selection)
            dagIterator = OpenMaya.MItSelectionList(selection,
                                                    OpenMaya.MFn.kGeometric)
        ctmindices = []
        ctmvertices = []
        ctmnormals = []
        ctmtexcoords = []
        indicesOffset = 0
        while not dagIterator.isDone():
            dagPath = OpenMaya.MDagPath()
            if (all):
                dagIterator.getPath(dagPath)
            else:
                dagIterator.getDagPath(dagPath)
            fnMesh = None
            try:
                fnMesh = OpenMaya.MFnMesh(dagPath)
            except:
                dagIterator.next()
                continue
            meshPoints = OpenMaya.MPointArray()
            fnMesh.getPoints(meshPoints, OpenMaya.MSpace.kWorld)

            meshNormals = OpenMaya.MFloatVectorArray()
            fnMesh.getNormals(meshNormals)

            UVSets = []
            fnMesh.getUVSetNames(UVSets)

            u = OpenMaya.MFloatArray()
            v = OpenMaya.MFloatArray()
            fnMesh.getUVs(u, v, UVSets[0])
            iterPolys = OpenMaya.MItMeshPolygon(dagPath)
            offset = 0
            maxPoints = 0
            normals = {}
            uvs = {}
            while not iterPolys.isDone():
                if not iterPolys.hasValidTriangulation():
                    return OpenMaya.MStatus.kFailiure

                uvSet = []
                iterPolys.getUVSetNames(uvSet)

                polygonVertices = OpenMaya.MIntArray()
                iterPolys.getVertices(polygonVertices)

                numTrianglesPx = OpenMaya.MScriptUtil()
                numTrianglesPx.createFromInt(0)
                numTrianglesPtr = numTrianglesPx.asIntPtr()

                iterPolys.numTriangles(numTrianglesPtr)

                numTriangles = OpenMaya.MScriptUtil(numTrianglesPtr).asInt()
                offset = len(ctmvertices)
                localindices = []
                for i in range(numTriangles):

                    points = OpenMaya.MPointArray()
                    indices = OpenMaya.MIntArray()
                    iterPolys.getTriangle(i, points, indices)
                    ctmindices.append(indicesOffset)
                    indicesOffset += 1
                    ctmindices.append(indicesOffset)
                    indicesOffset += 1
                    ctmindices.append(indicesOffset)
                    indicesOffset += 1
                    localindices.append(int(indices[0]))
                    localindices.append(int(indices[1]))
                    localindices.append(int(indices[2]))

                    localIndex = []
                    for gt in range(indices.length()):
                        for gv in range(polygonVertices.length()):
                            if indices[gt] == polygonVertices[gv]:
                                localIndex.append(gv)
                                break

                    normals[int(
                        indices[0])] = (float(
                            meshNormals[iterPolys.normalIndex(
                                localIndex[0])].x),
                                        float(
                                            meshNormals[iterPolys.normalIndex(
                                                localIndex[0])].y),
                                        float(
                                            meshNormals[iterPolys.normalIndex(
                                                localIndex[0])].z))
                    normals[int(
                        indices[1])] = (float(
                            meshNormals[iterPolys.normalIndex(
                                localIndex[1])].x),
                                        float(
                                            meshNormals[iterPolys.normalIndex(
                                                localIndex[1])].y),
                                        float(
                                            meshNormals[iterPolys.normalIndex(
                                                localIndex[1])].z))
                    normals[int(
                        indices[2])] = (float(
                            meshNormals[iterPolys.normalIndex(
                                localIndex[2])].x),
                                        float(
                                            meshNormals[iterPolys.normalIndex(
                                                localIndex[2])].y),
                                        float(
                                            meshNormals[iterPolys.normalIndex(
                                                localIndex[2])].z))
                    uvID = [0, 0, 0]

                    for vtxInPolygon in range(3):
                        uvIDPx = OpenMaya.MScriptUtil()
                        uvIDPx.createFromInt(0)
                        uvIDPtr = numTrianglesPx.asIntPtr()
                        iterPolys.getUVIndex(localIndex[vtxInPolygon], uvIDPtr,
                                             UVSets[0])
                        uvID[vtxInPolygon] = OpenMaya.MScriptUtil(
                            uvIDPtr).asInt()
                    if (iterPolys.hasUVs()):
                        uvs[int(indices[0])] = (u[uvID[0]], v[uvID[0]])
                        uvs[int(indices[1])] = (u[uvID[1]], v[uvID[1]])
                        uvs[int(indices[2])] = (u[uvID[2]], v[uvID[2]])

                for i in localindices:
                    ctmvertices.append(float(meshPoints[i].x))
                    ctmvertices.append(float(meshPoints[i].y))
                    ctmvertices.append(float(meshPoints[i].z))
                    ctmnormals.append(normals[i][0])
                    ctmnormals.append(normals[i][1])
                    ctmnormals.append(normals[i][2])
                    if (iterPolys.hasUVs()):
                        ctmtexcoords.append(uvs[i][0])
                        ctmtexcoords.append(uvs[i][1])

                iterPolys.next()
            dagIterator.next()

        pindices = cast((openctm.CTMuint * len(ctmindices))(),
                        POINTER(openctm.CTMuint))
        pvertices = cast((openctm.CTMfloat * len(ctmvertices))(),
                         POINTER(openctm.CTMfloat))
        pnormals = cast((openctm.CTMfloat * len(ctmnormals))(),
                        POINTER(openctm.CTMfloat))
        ptexcoords = cast((openctm.CTMfloat * len(ctmtexcoords))(),
                          POINTER(openctm.CTMfloat))
        for i in range(len(ctmindices)):
            pindices[i] = openctm.CTMuint(ctmindices[i])
        for i in range(len(ctmvertices)):
            pvertices[i] = openctm.CTMfloat(ctmvertices[i])
            pnormals[i] = openctm.CTMfloat(ctmnormals[i])
        for i in range(len(ctmtexcoords)):
            ptexcoords[i] = openctm.CTMfloat(ctmtexcoords[i])

        context = openctm.ctmNewContext(openctm.CTM_EXPORT)
        comment = "Exported with OpenCTM exporter using Maya " + OpenMaya.MGlobal.mayaVersion(
        )
        openctm.ctmFileComment(context, c_char_p(comment))
        openctm.ctmDefineMesh(context, pvertices,
                              openctm.CTMuint(len(ctmvertices) / 3), pindices,
                              openctm.CTMuint(len(ctmindices) / 3), pnormals)
        openctm.ctmAddUVMap(context, ptexcoords, c_char_p(), c_char_p())
        openctm.ctmSave(context, c_char_p(fileName))
        openctm.ctmFreeContext(context)
        e = openctm.ctmGetError(context)
        if e != 0:
            s = openctm.ctmErrorString(e)
            print s
            return OpenMaya.MStatus.kFailiure
        else:
            return OpenMaya.MStatus.kSuccess
        def writer( self, fileObject, optionString, accessMode ):
            fileName = fileObject.fullName()
            selection = OpenMaya.MSelectionList()
            all = (accessMode == self.kExportAccessMode  or  accessMode == self.kSaveAccessMode)
            dagIterator = None
            if(all):
                dagIterator = OpenMaya.MItDag(OpenMaya.MItDag.kBreadthFirst, OpenMaya.MFn.kGeometric)
            else:
            	OpenMaya.MGlobal.getActiveSelectionList( selection )
                dagIterator = OpenMaya.MItSelectionList ( selection, OpenMaya.MFn.kGeometric )
            ctmindices = []
            ctmvertices = []
            ctmnormals = []
            ctmtexcoords = []
            indicesOffset = 0
            while not dagIterator.isDone():
                dagPath = OpenMaya.MDagPath()
                if (all):
                    dagIterator.getPath(dagPath)
                else:
                    dagIterator.getDagPath(dagPath)
                fnMesh = None
                try:
                    fnMesh = OpenMaya.MFnMesh( dagPath )
                except:
                    dagIterator.next()
                    continue
                meshPoints = OpenMaya.MPointArray()
                fnMesh.getPoints( meshPoints,OpenMaya.MSpace.kWorld  )

                meshNormals = OpenMaya.MFloatVectorArray()
                fnMesh.getNormals(meshNormals)

                UVSets = []
                fnMesh.getUVSetNames( UVSets )

                                
                u = OpenMaya.MFloatArray()
                v = OpenMaya.MFloatArray()
                fnMesh.getUVs( u, v, UVSets[0] )
                iterPolys = OpenMaya.MItMeshPolygon( dagPath )
                offset = 0
                maxPoints = 0
                normals = {}
                uvs = {}
                while not iterPolys.isDone():
                    if not iterPolys.hasValidTriangulation():
                            return OpenMaya.MStatus.kFailiure
                    
                    uvSet = []
                    iterPolys.getUVSetNames(uvSet)

                    polygonVertices = OpenMaya.MIntArray()
                    iterPolys.getVertices( polygonVertices )


                    numTrianglesPx = OpenMaya.MScriptUtil()
                    numTrianglesPx.createFromInt(0)
                    numTrianglesPtr = numTrianglesPx.asIntPtr()

                    iterPolys.numTriangles(numTrianglesPtr)

                    numTriangles = OpenMaya.MScriptUtil(numTrianglesPtr).asInt()
                    offset = len(ctmvertices)
                    localindices = []
                    for i in range( numTriangles ):

                         points = OpenMaya.MPointArray()
                         indices = OpenMaya.MIntArray()
                         iterPolys.getTriangle( i, points,indices)
                         ctmindices.append (indicesOffset)
                         indicesOffset += 1
                         ctmindices.append (indicesOffset)
                         indicesOffset += 1
                         ctmindices.append (indicesOffset)
                         indicesOffset += 1
                         localindices.append(int(indices[0]))
                         localindices.append(int(indices[1]))
                         localindices.append(int(indices[2]))

                         localIndex = []
                         for  gt in range(indices.length()) : 
                                for  gv in range( polygonVertices.length() ):
                                        if indices[gt] == polygonVertices[gv]:
                                                localIndex.append( gv )
                                                break

                         normals[int(indices[0])] = (float(meshNormals[iterPolys.normalIndex(localIndex[0])].x),float(meshNormals[iterPolys.normalIndex(localIndex[0])].y),float(meshNormals[iterPolys.normalIndex(localIndex[0])].z))
                         normals[int(indices[1])] = (float(meshNormals[iterPolys.normalIndex(localIndex[1])].x),float(meshNormals[iterPolys.normalIndex(localIndex[1])].y),float(meshNormals[iterPolys.normalIndex(localIndex[1])].z))
                         normals[int(indices[2])] = (float(meshNormals[iterPolys.normalIndex(localIndex[2])].x),float(meshNormals[iterPolys.normalIndex(localIndex[2])].y),float(meshNormals[iterPolys.normalIndex(localIndex[2])].z))
                         uvID = [0,0,0]

                         for vtxInPolygon in range(3):
                                 uvIDPx = OpenMaya.MScriptUtil()
                                 uvIDPx.createFromInt(0)
                                 uvIDPtr = numTrianglesPx.asIntPtr()
                                 iterPolys.getUVIndex( localIndex[vtxInPolygon], uvIDPtr, UVSets[0] )
                                 uvID[vtxInPolygon] =  OpenMaya.MScriptUtil(uvIDPtr).asInt()
                         if (iterPolys.hasUVs()):
                                 uvs[int(indices[0])] = (u[uvID[0]], v[uvID[0]])
                                 uvs[int(indices[1])] = (u[uvID[1]], v[uvID[1]])
                                 uvs[int(indices[2])] = (u[uvID[2]], v[uvID[2]])

                    for i in localindices:
                        ctmvertices.append (float(meshPoints[i].x))
                        ctmvertices.append (float(meshPoints[i].y))
                        ctmvertices.append (float(meshPoints[i].z))
                        ctmnormals.append(normals[i][0])
                        ctmnormals.append(normals[i][1])
                        ctmnormals.append(normals[i][2])
                        if (iterPolys.hasUVs()):
                            ctmtexcoords.append(uvs[i][0])
                            ctmtexcoords.append(uvs[i][1])

                    iterPolys.next()
                dagIterator.next()

            pindices = cast((openctm.CTMuint * len(ctmindices))(), POINTER(openctm.CTMuint))
            pvertices = cast((openctm.CTMfloat * len(ctmvertices))(), POINTER(openctm.CTMfloat))
            pnormals = cast((openctm.CTMfloat * len(ctmnormals))(), POINTER(openctm.CTMfloat))
            ptexcoords = cast((openctm.CTMfloat * len(ctmtexcoords))(), POINTER(openctm.CTMfloat))
            for i in range(len(ctmindices)):
                pindices[i] = openctm.CTMuint(ctmindices[i])
            for i in range(len(ctmvertices)):
                pvertices[i] = openctm.CTMfloat(ctmvertices[i])
                pnormals[i] = openctm.CTMfloat(ctmnormals[i])
            for i in range(len(ctmtexcoords)):
                ptexcoords[i] = openctm.CTMfloat(ctmtexcoords[i])   
            
            context = openctm.ctmNewContext(openctm.CTM_EXPORT)
            comment = "Exported with OpenCTM exporter using Maya " + OpenMaya.MGlobal.mayaVersion()
            openctm.ctmFileComment(context, c_char_p(comment))
            openctm.ctmDefineMesh(context, pvertices, openctm.CTMuint(len(ctmvertices)/3), pindices, openctm.CTMuint(len(ctmindices)/3), pnormals)
            openctm.ctmAddUVMap (context, ptexcoords,c_char_p() , c_char_p())
            openctm.ctmSave(context, c_char_p(fileName))
            openctm.ctmFreeContext(context)
            e = openctm.ctmGetError(context)
            if e != 0:
                s = openctm.ctmErrorString(e)
                print s
                return OpenMaya.MStatus.kFailiure
            else:
                return OpenMaya.MStatus.kSuccess