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Klaus Böhnlein authoredKlaus Böhnlein authored
CellScript.py 2.43 KiB
import numpy as np
import matplotlib.pyplot as plt
import sympy as sym
import math
import os
import subprocess
import fileinput
import re
import matlab.engine
import time
from ClassifyMin import *
from HelperFunctions import *
# from scipy.io import loadmat #not Needed anymore?
import codecs
import sys
# ----------------------------------------------------------------------------------------------------------------------------
# ----- Setup Paths -----
InputFile = "/inputs/cellsolver.parset"
OutputFile = "/outputs/output.txt"
# --------- Run from src folder:
path_parent = os.path.dirname(os.getcwd())
os.chdir(path_parent)
path = os.getcwd()
print(path)
InputFilePath = os.getcwd()+InputFile
OutputFilePath = os.getcwd()+OutputFile
print("InputFilepath: ", InputFilePath)
print("OutputFilepath: ", OutputFilePath)
print("Path: ", path)
print('---- Input parameters: -----')
mu1 = 10.0
rho1 = 1.0
alpha = 2.8
beta = 2.0
theta = 1.0/4.0
gamma = 0.75
lambda1= 10.0
print('mu1: ', mu1)
print('rho1: ', rho1)
print('alpha: ', alpha)
print('beta: ', beta)
print('theta: ', theta)
print('gamma:', gamma)
print('----------------------------')
print('RunCellProblem...')
RunCellProblem(alpha,beta,theta,gamma,mu1,rho1,lambda1, InputFilePath)
print('Read effective quantities...')
Q, B = ReadEffectiveQuantities()
print('Q:', Q)
print('B:', B)
# Compare symbolicMinimization with Classification 'ClassifyMin' :
print('Compare_Classification...')
Compare_Classification(alpha,beta,theta,gamma,mu1,rho1,lambda1, InputFilePath)
# ------------- RUN Matlab symbolic minimization program 'symMinimization'
eng = matlab.engine.start_matlab()
# s = eng.genpath(path + '/Matlab-Programs')
s = eng.genpath(path)
eng.addpath(s, nargout=0)
# print('current Matlab folder:', eng.pwd(nargout=1))
eng.cd('Matlab-Programs', nargout=0) #switch to Matlab-Programs folder
# print('current Matlab folder:', eng.pwd(nargout=1))
Inp = False
Inp_T = True
print('Run symbolic Minimization...')
#Arguments: symMinization(print_Input,print_statPoint,print_Output,make_FunctionPlot, InputPath)
G, angle, type, kappa = eng.symMinimization(Inp,Inp,Inp,Inp, nargout=4) #Name of program:symMinimization
# G, angle, type, kappa = eng.symMinimization(Inp,Inp,Inp,Inp,path + "/outputs", nargout=4) #Optional: add Path
G = np.asarray(G) #cast Matlab Outout to numpy array
# --- print Output ---
print('Minimizer G:')
print(G)
print('angle:', angle)
print('type:', type )
print('curvature:', kappa)