#!/usr/bin/env python """ Created on Thu Jul 16 15:08:27 2020 @author: Aloma Blanch """ import numpy as np import matplotlib.pyplot as plt import matplotlib.ticker as mtick from tkinter import Tk from tkinter.filedialog import askopenfilename, asksaveasfile, askdirectory import pandas as pd import tkinter as tk import os.path from scipy.signal import find_peaks_cwt from scipy import signal import statistics from fpdf import FPDF from functions import error_plot, periodicity, pressure, flow, inlet_flow_waveform from generatePDF import generatePDF # Selct dir Tk().withdraw() folder = askdirectory() project_folder = os.path.dirname(folder) project = os.path.basename(project_folder) save_path = folder+'/'+project+'-report' os.mkdir(save_path) save_pdf = save_path + '/' + project + '-report.pdf' # Input parameters T_cyc = 0.477 n_cyc = 5 # Read important parameters from - solver.inp file mylines = [] # Declare an empty list named mylines. with open (project_folder + '/solver.inp', 'rt') as myfile: # Open lorem.txt for reading text data. for myline in myfile: # For each line, stored as myline, mylines.append(myline) # add its contents to mylines. # Number of Timesteps - idx 3 # Idea: remove the text to extract the number, the text part will be the same no matter the simulation N_ts = int(mylines[3][20:-1]) # Time Step Size - idx 4 dt = float(mylines[4][16:-1]) # Residual criteria - idx 4 rc = float(mylines[26][18:-1]) # Imesteps between Restarts - idx 6 t_btw_rst = int(mylines[6][37:-1]) # Cehcking convergency and periodicity error_plot(folder,dt,rc,save_path) txt1 = periodicity(project,folder,dt,T_cyc,n_cyc,save_path) # Pressure - Outlets (DBP,MBP,SBP,PP) = pressure(folder,N_ts,T_cyc,dt,n_cyc,save_path) # Flow Rate - Outlets (Q_avg) = flow(folder,N_ts,T_cyc,dt,n_cyc,save_path) # Inlet Flow Rate + and t saved txt2 = inlet_flow_waveform(project_folder,t_btw_rst,N_ts,dt,T_cyc,n_cyc,save_path) # Create PDF report generatePDF(save_path,project,DBP,MBP,SBP,PP,Q_avg,txt1,txt2)