jumeaux-numeriques/twin_daq.py

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import bge # Bibliothèque Blender Game Engine (UPBGE)
import os
import sys
import importlib
import threading # Multithreading
import subprocess # Multiprocessus
import time
import csv
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import xml.etree.ElementTree as ET # Creating/parsing XML file
###############################################################################
# twin_daq.py
# @title: Enregistement et visualisation des données
# @project: Blender-EduTech
# @lang: fr
# @authors: Philippe Roy <philippe.roy@ac-grenoble.fr>
# @copyright: Copyright (C) 2023 Philippe Roy
# @license: GNU GPL
###############################################################################
# UPBGE scene
scene = bge.logic.getCurrentScene()
# Récupérer la configuration du graphique
system=importlib.import_module(scene.objects['System']['system']) # Système
daq_config = system.get_public_vars()
# Données de l'acquisition
daq_data=[]
###############################################################################
# Accès aux variables publiques du système
###############################################################################
def get(data):
if data in daq_config:
if len (daq_config[data][0])>2: # Echelle à prendre en compte
return(scene.objects[daq_config[data][0][0]][daq_config[data][0][1]]*daq_config[data][0][2])
else:
return(scene.objects[daq_config[data][0][0]][daq_config[data][0][1]])
else:
print ("Erreur sur l'accès aux variables par get("+data+"), la variable '"+data+"' absente du système.")
return None
###############################################################################
# Enregistrement des données
###############################################################################
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##
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# Activation du mode DAQ
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##
def daq(data):
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daq_data.clear()
scene.objects['System']['daq_var'] =[]
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row = ['t']
for var in data:
scene.objects['System']['daq_var'].append([daq_config[var][0][0], daq_config[var][0][1]])
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row.append(var)
# print ("Acquisition des données :", scene.objects['System']['daq_var'])
daq_data.append(row)
scene.objects['System']['daq']=True
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##
# Ajout des données (lecture/s = fps = 60)
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##
def daq_add(cont):
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row = [round(scene.objects['System']['time'], 3)]
for var in scene.objects['System']['daq_var']:
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row.append(round(scene.objects[var[0]][var[1]], 3))
daq_data.append(row)
###############################################################################
# Tableau CSV
###############################################################################
# Format français des décimaux
def localize_floats(row):
return [
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str(el).replace('.', ',') if isinstance(el, float) else el
for el in row
]
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##
# Génération du fichier
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##
def csv_generate():
scene.objects['System']['daq']=False
fichier_csv=os.path.join(os.path.split((scene.objects['System']['script']))[0], scene.objects['System']['system']+'.csv')
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scene.objects['Cmd-text']['modal']= True
scene.objects['Cmd-text']['Text']= "Génération du fichier : "+fichier_csv
scene.objects['Cmd-text'].setVisible(True,False)
with open(fichier_csv, 'w') as csvfile:
writer = csv.writer(csvfile, delimiter = ';', lineterminator = '\n')
for t_data in daq_data:
writer.writerow(localize_floats(t_data))
###############################################################################
# Graphique statique
###############################################################################
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##
# Création du fichier twin_plot.xml (configuration du graphique)
##
def plot_config_generate(data_groups):
# Création du XML
daq_config_list=list(daq_config)
xml_data = ET.Element('data')
xml_figure = ET.SubElement(xml_data, 'figure')
xml_plot = ET.SubElement(xml_figure, 'plot')
for var in daq_config_list:
xml_var = ET.SubElement(xml_plot, 'var')
xml_var.text=var
# Configuration graphique de ma série de donnée
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if len(daq_config[var][2]) >=4:
xml_mark = ET.SubElement(xml_var, 'marker')
xml_mark.text=daq_config[var][2][0]
xml_line = ET.SubElement(xml_var, 'linestyle')
xml_line.text=daq_config[var][2][1]
xml_color = ET.SubElement(xml_var, 'color')
xml_color.text=daq_config[var][2][2]
xml_size = ET.SubElement(xml_var, 'linewidth')
xml_size.text=str(daq_config[var][2][3])
# Détection de groupe de graphique
data_group_i=0
xml_group = ET.SubElement(xml_var, 'group')
xml_group.text="-1" # Pas de groupe par défaut
for data_group in data_groups:
if isinstance(data_group, list):
data_group_i+=1
for data_subgroup in data_group: # Scan du sous-groupe
if data_subgroup == var:
xml_group.text=str(data_group_i)
else:
if data_group == var: # Pas de groupe
xml_group.text="0"
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# Ecriture fichier
plot_config = ET.ElementTree(xml_data)
with open("plot_config.xml", "wb") as f: # XML généré plat (not pretty print)
plot_config.write(f)
##
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# Activation du mode Plot
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##
def plot(data_groups):
plot_config_generate(data_groups)
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scene.objects['System']['plot']=True
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##
# Génération du graphique
# Threading -> reste actif après le Stop
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##
def plot_generate_thread(csv_file):
command = sys.executable + " " + os.path.join(sys.executable, os.getcwd(), "twin_plot_qt.py") + " "+ csv_file
os.system(command)
def plot_generate(threads):
csv_file=os.path.join(os.path.split((scene.objects['System']['script']))[0], scene.objects['System']['system']+'.csv')
threads.append(threading.Thread(target=plot_generate_thread, args=(csv_file,)))
threads[len(threads)-1].start()
###############################################################################
# Graphique interactif
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# FIXME : ne marche pas
###############################################################################
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##
# Mise en forme de décimaux
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##
def truncate(n, decimals=0):
multiplier = 10**decimals
return int(n* multiplier)/multiplier
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##
# Création du graphique interactif
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##
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def plot_start(data):
# subprocess.run([sys.executable, os.path.join(os.getcwd(), "twin_plot.py")], , stdin=subprocess.PIPE) # Process bloquant
# Terminer le processus plot précédent
if ('plot_proc' in scene.objects['System']):
if scene.objects['System']['plot_proc'].poll()==None:
scene.objects['System']['plot_proc'].terminate()
scene.objects['System']['plot_draw'] = True
scene.objects['System']['plot_time'] = 0
# Configuration des données
scene.objects['System']['plot_data'] =[]
for obj in data:
scene.objects['System']['plot_data'].append(daq_config[obj][0][0])
# Démarrer le processus plot
scene.objects['System']['plot_proc'] = subprocess.Popen([sys.executable, os.path.join(os.getcwd(), "twin_plot_qt.py")], stdin=subprocess.PIPE, encoding = 'utf8', universal_newlines=True)
# # scene.objects['System']['plot_proc'] = subprocess.Popen([sys.executable, os.path.join(os.getcwd(), "twin_plot_qt.py")], stdin=subprocess.PIPE, stdout=subprocess.PIPE, encoding = 'utf8')
# # stout = scene.objects['System']['plot_proc'].communicate() # FIXME : attente du message retour pour lancer l'acquisition
# # print("Blender stout : ", stout)
scene.objects['System']['plot']=True
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##
# Ajout des données (lecture/s = fps = 60)
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##
def plot_add(cont):
if cont.sensors['Plot'].positive :
# Affichage du graphique
if scene.objects['System']['plot_draw']:
if scene.objects['System']['plot_time'] != truncate(scene.objects['System']['time'], 0) or True:
# Préparation du message
# FIXME : ajouter les valeurs réelles et valeurs numériques ('activated_real')
scene.objects['System']['plot_time'] = truncate(scene.objects['System']['time'], 0)
# msg=str(round(scene.objects['System']['plot_time'], 1))
# msg=format(scene.objects['System']['plot_time'],".2f")
msg=format(scene.objects['System']['plot_time'],".2f")
for obj in scene.objects['System']['plot_data']:
if scene.objects[obj]['activated']:
msg = msg+",1"
else:
msg = msg+",0"
msg = msg+"\n"
# Envoi (Pipe)
if scene.objects['System']['plot_proc'].poll()==None:
# # scene.objects['System']['plot_proc'].communicate(input=time_send.encode())[0] # Communication bloquante
# scene.objects['System']['plot_proc'].communicate(input=msg.encode())[0] # Communication bloquante
scene.objects['System']['plot_proc'].communicate(input=msg.encode()) # Communication bloquante
# scene.objects['System']['plot_proc'].stdin.write(msg)
print ("twin : ", msg)
else:
# Arrêt
print ("Stop")
scene.objects['System']['plot']=False
scene.objects['System']['plot_draw'] =False
scene.objects['System']['plot_proc'].terminate()
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# Arrêt de l'affichage du graphique
if scene.objects['System']['plot_proc'].poll()==None:
pass
else:
print ("Stop")
scene.objects['System']['plot']=False
scene.objects['System']['plot_draw'] =False
scene.objects['System']['plot_proc'].terminate()