Output reading Plaxis 3D embedded beams with Python

Dear all,

This is my first time asking a question here, but I have trouble creating a output script for my files to automate the reading of several of the resultant forces. The output is now made with the following script (see below). The problem is directly in the first line, getting a self._getattr(attr_name) error with Resultypes not existing. Is it possible to help me with that?

from plxscripting.easy import *
s_o, g_o = new_server('localhost', 10002, password='Password')

from openpyxl import Workbook
import os
import re
phases_read_out = ["F2_Load"]
path= "C:\\Users\\921913\\Documents\\Master thesis\\Plaxis model\\New model 30-3-30\\Complex group\\"
for file in os.listdir(path):
    match=re.search(".p3d",file)
    if match:
        s_o.open(path+file)
        Phases = g_o.Phases
        Phase_names = g_o.Phases.Name.value
        print(Phase_names)
        phase_count = 0
        for phase in Phase_names:
            print(phase)
            Piles = g_o.EmbeddedBeams
            pile_count = 0
            if str(phase) == phases_read_out[0]:
                for Pile in Piles:
                    Pile_X = g_o.getresults(g_o.Piles[pile_count],Phases[phase_count], g_o.ResultTypes.EmbeddedBeam.X,"node")
                    Pile_Y = g_o.getresults(g_o.Piles[pile_count], Phases[phase_count], g_o.ResultTypes.EmbeddedBeam.Y,"node")
                    Pile_Z = g_o.getresults(g_o.Piles[pile_count], Phases[phase_count], g_o.ResultTypes.EmbeddedBeam.Z,"node")
                    Pile_N = g_o.getresults(g_o.Piles[pile_count], Phases[phase_count], g_o.ResultTypes.EmbeddedBeam.N,"node")
                    Pile_Q12 = g_o.getresults(g_o.Piles[pile_count], Phases[phase_count],g_o.ResultTypes.EmbeddedBeam.Q12, "node")
                    Pile_Q13 = g_o.getresults(g_o.Piles[pile_count], Phases[phase_count],g_o.ResultTypes.EmbeddedBeam.Q13, "node")
                    Pile_M1 = g_o.getresults(g_o.Piles[pile_count], Phases[phase_count],g_o.ResultTypes.EmbeddedBeam.M1, "node")
                    Pile_M2 = g_o.getresults(g_o.Piles[pile_count], Phases[phase_count],g_o.ResultTypes.EmbeddedBeam.M2, "node")
                    Pile_M3 = g_o.getresults(g_o.Piles[pile_count], Phases[phase_count],g_o.ResultTypes.EmbeddedBeam.M3, "node")
                    Pile_Ux = g_o.getresults(g_o.Piles[pile_count], Phases[phase_count],g_o.ResultTypes.EmbeddedBeam.Ux, "node")
                    Pile_Uy = g_o.getresults(g_o.Piles[pile_count], Phases[phase_count],g_o.ResultTypes.EmbeddedBeam.Uy, "node")
                    Pile_Uz = g_o.getresults(g_o.Piles[pile_count], Phases[phase_count],g_o.ResultTypes.EmbeddedBeam.Uz, "node")
                    print("results for " + str(Piles[pile_count].Name.value))
                    print(Pile_X[0], Pile_Y[0], Pile_Z[0], )
                    print(Pile_N[:])
                    print(Pile_Uz[:])
                    pile_count = pile_count + 1
                    pile_count = pile_count + 1
            phase_count = phase_count + 1
            print("phase count = " + str(phase_count))