mirror of
https://forge.apps.education.fr/blender-edutech/ropy.git
synced 2024-01-27 08:23:20 +01:00
1229 lines
58 KiB
Python
1229 lines
58 KiB
Python
import bge # Blender Game Engine (UPBGE)
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import bpy # Blender
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import aud # Sounds
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import threading # Multithreading
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import trace
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import sys
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import time
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import math
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import mathutils
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import random
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import serial # Liaison série (jumeau numérique)
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import rp_map1 as rp_map # Map definition
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###############################################################################
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# rp_lib.py
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# @title: Bibliothèque du Rover Ropy (rp_*)
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# @project: Ropy (Blender-EduTech)
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# @lang: fr
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# @authors: Philippe Roy <philippe.roy@ac-grenoble.fr>
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# @copyright: Copyright (C) 2020-2022 Philippe Roy
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# @license: GNU GPL
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#
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# Bibliothèque des actions du robot
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#
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# Ropy est destiné à la découverte de la programmation procédurale et du language Python.
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# A travers plusieurs challenges, donc de manière graduée, les élèves vont apprendre à manipuler les structures algorithmiques de base et à les coder en Python.
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###############################################################################
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scene = bge.logic.getCurrentScene()
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debug_mvt = scene.objects['Terrain']['debug_mvt']
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# Sounds
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audiodev = aud.Device()
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snd_click = aud.Sound('asset/sounds/rp_click.ogg')
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# Threads
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threads_cmd=[]
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threads_gostore=[]
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debug_thread = scene.objects['Terrain']['debug_thread']
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# Jumeau numérique
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twins_serial = None
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# UPBGE constants
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JUST_ACTIVATED = bge.logic.KX_INPUT_JUST_ACTIVATED
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JUST_RELEASED = bge.logic.KX_INPUT_JUST_RELEASED
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ACTIVATE = bge.logic.KX_INPUT_ACTIVE
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# JUST_DEACTIVATED = bge.logic.KX_SENSOR_JUST_DEACTIVATED
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###############################################################################
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# Méthode kill pour les tâches (threads)
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###############################################################################
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class thread_with_trace(threading.Thread):
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def __init__(self, *args, **keywords):
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threading.Thread.__init__(self, *args, **keywords)
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self.killed = False
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def start(self):
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self.__run_backup = self.run
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self.run = self.__run
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threading.Thread.start(self)
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def __run(self):
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sys.settrace(self.globaltrace)
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self.__run_backup()
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self.run = self.__run_backup
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def globaltrace(self, frame, event, arg):
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if event == 'call':
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return self.localtrace
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else:
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return None
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def localtrace(self, frame, event, arg):
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if self.killed:
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if event == 'line':
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raise SystemExit()
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return self.localtrace
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def kill(self):
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self.killed = True
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###############################################################################
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# Start et stop des tâches (threads)
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###############################################################################
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def thread_start(threads, type_txt, fct):
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threads.append(thread_with_trace(target = fct))
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threads[len(threads)-1].start()
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if (debug_thread):
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print ("Thread",type_txt, "#", len(threads)-1, "open.")
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def thread_stop(threads, type_txt):
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i=0
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zombie_flag=False
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for t in threads:
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if not t.is_alive():
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if (debug_thread):
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print ("Thread",type_txt, "#",i,"closed.")
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else:
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if (debug_thread):
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print ("Thread",type_txt, "#",i,"still open ...")
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t.kill()
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t.join()
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if not t.is_alive():
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if (debug_thread):
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print ("Thread",type_txt, "#",i,"killed.")
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else:
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if (debug_thread):
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print ("Thread",type_txt, "#",i,"zombie...")
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zombie_flag=True
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i +=1
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if zombie_flag==False:
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if (debug_thread):
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print ("All threads",type_txt, "are closed.")
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scene.objects['Terrain']['thread_cmd']=False
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return True
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else:
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if (debug_thread):
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print ("There are zombies threads",type_txt, ".")
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return False
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def thread_cmd_start(fct):
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thread_start(threads_cmd, "commands", fct)
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def thread_cmd_stop():
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thread_stop(threads_cmd, "commands")
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def thread_gostore_start(fct):
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thread_start(threads_gostore, "go store", fct)
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def thread_gostore_stop():
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thread_stop(threads_gostore, "go store")
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def rp_end():
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# Jumeau numérique
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if scene.objects['Commands']['twins']:
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serial_msg = "FI\n"
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twins_serial.write(serial_msg.encode()) # Communication série : modele 3d -> carte communication ( arduino | micro:bit )
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rp_jumeau_close()
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# Thread
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if (debug_thread):
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print ("Thread commands is arrived.")
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time.sleep(0.125)
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scene.objects['Terrain']['thread_cmd']=False
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time.sleep(0.125)
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def rp_fin():
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rp_end()
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def rp_quit():
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rp_end()
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###############################################################################
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# Sounds
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###############################################################################
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# FIXME : Sound crash in Windows (very strange : blender, UPBGE, python ?), no music for Bill
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def sound_play (sound):
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if scene.objects['Commands']['sound'] and sys.platform!="win32":
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audiodev.play(sound)
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###############################################################################
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# Rover fonction élèves
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###############################################################################
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##
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# Avancer le rover
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##
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def rp_avancer ():
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obj=scene.objects['Rover']
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# Pas de mouvement si colision ou objectif
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if obj['stop']:
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return False
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# Contrôle colision
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x0 = obj.worldPosition.x
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y0 = obj.worldPosition.y
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z0 = obj.worldPosition.z
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if round(obj.worldOrientation.to_euler().z, 2) == 0.00: # Sud
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x1 = x0
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y1 = y0-1
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if round(obj.worldOrientation.to_euler().z, 2) == round(math.pi,2) or round(obj.worldOrientation.to_euler().z, 2) == - round(math.pi,2) : # Nord
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x1 = x0
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y1 = y0+1
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if round(obj.worldOrientation.to_euler().z, 2) == round(math.pi/2,2) or round(obj.worldOrientation.to_euler().z, 2) == -round(3*(math.pi/2),2) : # Est
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x1 = x0+1
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y1 = y0
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if round(obj.worldOrientation.to_euler().z, 2) == round(-math.pi/2,2) or round(obj.worldOrientation.to_euler().z, 2) == round(3*(math.pi/2),2) : # Ouest
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x1 = x0-1
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y1 = y0
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if [x1,y1] in scene.objects['Terrain']['map_tile_montain']:
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print ("Crash dans la montagne !")
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rover_colision_montain (False)
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obj['stop'] = True
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if [x1,y1] in scene.objects['Terrain']['map_tile_station']:
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print ("Crash dans la station !")
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rover_colision_station (False)
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obj['stop'] = True
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if x1 < scene.objects['Terrain']['size'][0] or x1 > scene.objects['Terrain']['size'][2] or y1 < scene.objects['Terrain']['size'][1] or y1 > scene.objects['Terrain']['size'][3] :
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print ("Sortie de carte !")
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obj['stop'] = True
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if obj['stop']:
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return False
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# Points, console et jumeau numérique
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if debug_mvt:
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print ("rp_avancer()")
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scene.objects['Points']['step'] +=1
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if scene.objects['Commands']['twins']:
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serial_msg = "AV\n"
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twins_serial.write(serial_msg.encode()) # Communication série : modele 3d -> carte communication ( arduino | micro:bit )
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# Animation rapide
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if scene.objects['Commands']['speed'] >= 10 and scene.objects['Points']['step']> 2: # A tendance à planter sur les premiers mouvements en rapide + balisage
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rp_tempo (0.1)
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x0 = obj.worldPosition.x
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y0 = obj.worldPosition.y
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z0 = obj.worldPosition.z
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if round(obj.worldOrientation.to_euler().z, 2) == 0.00: # Sud
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obj.worldPosition=[x0, y0-1, z0]
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if round(obj.worldOrientation.to_euler().z, 2) == round(math.pi,2) or round(obj.worldOrientation.to_euler().z, 2) == - round(math.pi,2) : # Nord
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obj.worldPosition=[x0, y0+1, z0]
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if round(obj.worldOrientation.to_euler().z, 2) == round(math.pi/2,2) or round(obj.worldOrientation.to_euler().z, 2) == -round(3*(math.pi/2),2) : # Est
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obj.worldPosition=[x0+1, y0, z0]
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if round(obj.worldOrientation.to_euler().z, 2) == round(-math.pi/2,2) or round(obj.worldOrientation.to_euler().z, 2) == round(3*(math.pi/2),2) : # Ouest
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obj.worldPosition=[x0-1, y0, z0]
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rp_tempo (0.1)
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# FIXME : Animation sacadée
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# step =1/100
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# print (obj.worldOrientation.to_euler().z)
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# x0 = obj.worldPosition.x
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# y0 = obj.worldPosition.y
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# z0 = obj.worldPosition.z
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# for i in range (100) :
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# if round(obj.worldOrientation.to_euler().z, 2) == 0.00: # Sud
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# obj.worldPosition=[x0, y0-step*i, z0]
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# if round(obj.worldOrientation.to_euler().z, 2) == round(math.pi,2) or round(obj.worldOrientation.to_euler().z, 2) == - round(math.pi,2) : # Nord
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# obj.worldPosition=[x0, y0+step*i, z0]
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# if round(obj.worldOrientation.to_euler().z, 2) == round(math.pi/2,2) or round(obj.worldOrientation.to_euler().z, 2) == -round(3*(math.pi/2),2) : # Est
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# obj.worldPosition=[x0+step*i, y0, z0]
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# if round(obj.worldOrientation.to_euler().z, 2) == round(-math.pi/2,2) or round(obj.worldOrientation.to_euler().z, 2) == round(3*(math.pi/2),2) : # Ouest
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# obj.worldPosition=[x0-step*i, y0, z0]
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# rp_tempo (0.1*step)
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# Animation
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if scene.objects['Commands']['speed'] < 10 or scene.objects['Points']['step']<=2:
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start = 1
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end = 100
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layer = 0
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priority = 1
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blendin = 1.0
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mode = bge.logic.KX_ACTION_MODE_PLAY
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layerWeight = 0.0
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ipoFlags = 0
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speed = scene.objects['Commands']['speed']*8
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if round(obj.worldOrientation.to_euler().z, 2) == 0.00: # Sud
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obj.playAction('Rover-Avancer-Y-', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
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# obj.worldPosition=[x0, y0-step*i, z0]
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if round(obj.worldOrientation.to_euler().z, 2) == round(math.pi,2) or round(obj.worldOrientation.to_euler().z, 2) == - round(math.pi,2) : # Nord
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obj.playAction('Rover-Avancer-Y+', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
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# obj.worldPosition=[x0, y0+step*i, z0]
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if round(obj.worldOrientation.to_euler().z, 2) == round(math.pi/2,2) or round(obj.worldOrientation.to_euler().z, 2) == -round(3*(math.pi/2),2) : # Est
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obj.playAction('Rover-Avancer-X+', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
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# obj.worldPosition=[x0+step*i, y0, z0]
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if round(obj.worldOrientation.to_euler().z, 2) == round(-math.pi/2,2) or round(obj.worldOrientation.to_euler().z, 2) == round(3*(math.pi/2),2) : # Ouest
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obj.playAction('Rover-Avancer-X-', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
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# obj.worldPosition=[x0-step*i, y0, z0]
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scene.objects['Rv-Wheel-right-front'].playAction('Wheel-Avancer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
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scene.objects['Rv-Wheel-right-mid'].playAction('Wheel-Avancer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
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scene.objects['Rv-Wheel-right-rear'].playAction('Wheel-Avancer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
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scene.objects['Rv-Wheel-left-front'].playAction('Wheel-Avancer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
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scene.objects['Rv-Wheel-left-mid'].playAction('Wheel-Avancer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
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scene.objects['Rv-Wheel-left-rear'].playAction('Wheel-Avancer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
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while scene.objects['Rv-Wheel-right-front'].isPlayingAction(): # Forçage du redraw
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# scene.objects['Camera'].applyMovement((0, 0, 0), True)
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scene.objects['Sun'].applyMovement((0, 0, 0), True)
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rp_tempo (0.1)
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# Contrôle objectif
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if rp_map.objectif_control(x1,y1):
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rover_goal ()
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return True
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##
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# Reculer le rover
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##
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def rp_reculer ():
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obj=scene.objects['Rover']
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# Pas de mouvement si colision ou objectif
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if obj['stop']:
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return False
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# Contrôle colision
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x0 = obj.worldPosition.x
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y0 = obj.worldPosition.y
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z0 = obj.worldPosition.z
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if round(obj.worldOrientation.to_euler().z, 2) == 0.00: # Sud
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x1 = x0
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y1 = y0+1
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if round(obj.worldOrientation.to_euler().z, 2) == round(math.pi,2) or round(obj.worldOrientation.to_euler().z, 2) == - round(math.pi,2) : # Nord
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x1 = x0
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y1 = y0-1
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if round(obj.worldOrientation.to_euler().z, 2) == round(math.pi/2,2) or round(obj.worldOrientation.to_euler().z, 2) == -round(3*(math.pi/2),2) : # Est
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x1 = x0-1
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y1 = y0
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if round(obj.worldOrientation.to_euler().z, 2) == round(-math.pi/2,2) or round(obj.worldOrientation.to_euler().z, 2) == round(3*(math.pi/2),2) : # Ouest
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x1 = x0+1
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y1 = y0
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if [x1,y1] in scene.objects['Terrain']['map_tile_montain']:
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print ("Crash dans la montagne !")
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rover_colision_montain (True)
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obj['stop'] = True
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if [x1,y1] in scene.objects['Terrain']['map_tile_station']:
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print ("Crash dans la station !")
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rover_colision_station (True) # FIXME à faire en recul
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obj['stop'] = True
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if x1 < scene.objects['Terrain']['size'][0] or x1 > scene.objects['Terrain']['size'][2] or y1 < scene.objects['Terrain']['size'][1] or y1 > scene.objects['Terrain']['size'][3] :
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print ("Sortie de carte !") # FIXME à faire en recul
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obj['stop'] = True
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if obj['stop']:
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return False
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# Points, console et jumeau numérique
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if (debug_mvt):
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print ("rp_reculer()")
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scene.objects['Points']['step'] +=1
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if scene.objects['Commands']['twins']:
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serial_msg = "RE\n"
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twins_serial.write(serial_msg.encode()) # Communication série : modele 3d -> carte communication ( arduino | micro:bit )
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# Animation rapide
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if scene.objects['Commands']['speed'] >= 10 and scene.objects['Points']['step']> 2: # A tendance à planter sur les premiers mouvements en rapide + balisage
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rp_tempo (0.1)
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x0 = obj.worldPosition.x
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y0 = obj.worldPosition.y
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z0 = obj.worldPosition.z
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if round(obj.worldOrientation.to_euler().z, 2) == 0.00: # Sud
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obj.worldPosition=[x0, y0+1, z0]
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if round(obj.worldOrientation.to_euler().z, 2) == round(math.pi,2) or round(obj.worldOrientation.to_euler().z, 2) == - round(math.pi,2) : # Nord
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obj.worldPosition=[x0, y0-1, z0]
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if round(obj.worldOrientation.to_euler().z, 2) == round(math.pi/2,2) or round(obj.worldOrientation.to_euler().z, 2) == -round(3*(math.pi/2),2) : # Est
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obj.worldPosition=[x0-1, y0, z0]
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if round(obj.worldOrientation.to_euler().z, 2) == round(-math.pi/2,2) or round(obj.worldOrientation.to_euler().z, 2) == round(3*(math.pi/2),2) : # Ouest
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obj.worldPosition=[x0+1, y0, z0]
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rp_tempo (0.1)
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# Animation
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if scene.objects['Commands']['speed'] < 10:
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start = 1
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end = 100
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layer = 0
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priority = 1
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blendin = 1.0
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mode = bge.logic.KX_ACTION_MODE_PLAY
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layerWeight = 0.0
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ipoFlags = 0
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speed = scene.objects['Commands']['speed']*8
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if round(obj.worldOrientation.to_euler().z, 2) == 0.00: # Sud
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obj.playAction('Rover-Avancer-Y+', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
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if round(obj.worldOrientation.to_euler().z, 2) == round(math.pi,2) or round(obj.worldOrientation.to_euler().z, 2) == - round(math.pi,2) : # Nord
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obj.playAction('Rover-Avancer-Y-', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
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if round(obj.worldOrientation.to_euler().z, 2) == round(math.pi/2,2) or round(obj.worldOrientation.to_euler().z, 2) == -round(3*(math.pi/2),2) : # Est
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obj.playAction('Rover-Avancer-X-', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
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if round(obj.worldOrientation.to_euler().z, 2) == round(-math.pi/2,2) or round(obj.worldOrientation.to_euler().z, 2) == round(3*(math.pi/2),2) : # Ouest
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obj.playAction('Rover-Avancer-X+', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
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scene.objects['Rv-Wheel-right-front'].playAction('Wheel-Reculer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
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scene.objects['Rv-Wheel-right-mid'].playAction('Wheel-Reculer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
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scene.objects['Rv-Wheel-right-rear'].playAction('Wheel-Reculer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
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scene.objects['Rv-Wheel-left-front'].playAction('Wheel-Reculer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
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scene.objects['Rv-Wheel-left-mid'].playAction('Wheel-Reculer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Wheel-left-rear'].playAction('Wheel-Reculer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
while scene.objects['Rv-Wheel-right-front'].isPlayingAction(): # Forçage du redraw
|
||
scene.objects['Sun'].applyMovement((0, 0, 0), True)
|
||
rp_tempo (0.1)
|
||
|
||
# Contrôle objectif
|
||
if rp_map.objectif_control(x1,y1):
|
||
rover_goal ()
|
||
return True
|
||
|
||
##
|
||
# Tourner à gauche
|
||
##
|
||
|
||
def rp_gauche ():
|
||
obj=scene.objects['Rover']
|
||
|
||
# Pas de mouvement si colision ou objectif
|
||
if obj['stop']:
|
||
return False
|
||
|
||
# Points, console et jumeau numérique
|
||
if (debug_mvt):
|
||
print ("rp_gauche()")
|
||
scene.objects['Points']['step'] +=1
|
||
step=math.pi/2 # Pas angulaire
|
||
if scene.objects['Commands']['twins']:
|
||
serial_msg = "GA\n"
|
||
twins_serial.write(serial_msg.encode()) # Communication série : modele 3d -> carte communication ( arduino | micro:bit )
|
||
|
||
# Animation rapide
|
||
if scene.objects['Commands']['speed'] >= 10:
|
||
rp_tempo (0.1)
|
||
obj.applyRotation((0, 0, step), True)
|
||
rp_tempo (0.1)
|
||
return True
|
||
|
||
# Animation
|
||
start = 1
|
||
end = 100
|
||
layer = 0
|
||
priority = 1
|
||
blendin = 1.0
|
||
mode = bge.logic.KX_ACTION_MODE_PLAY
|
||
layerWeight = 0.0
|
||
ipoFlags = 0
|
||
speed = scene.objects['Commands']['speed']*8
|
||
obj.playAction('Rover-Gauche', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Wheel-right-front'].playAction('Wheel-Avancer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Wheel-right-mid'].playAction('Wheel-Avancer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Wheel-right-rear'].playAction('Wheel-Avancer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Wheel-left-front'].playAction('Wheel-Reculer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Wheel-left-mid'].playAction('Wheel-Reculer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Wheel-left-rear'].playAction('Wheel-Reculer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
while scene.objects['Rv-Wheel-right-front'].isPlayingAction(): # Forçage du redraw
|
||
# scene.objects['Camera'].applyMovement((0, 0, 0), True)
|
||
scene.objects['Sun'].applyMovement((0, 0, 0), True)
|
||
rp_tempo (0.1)
|
||
return True
|
||
|
||
##
|
||
# Tourner à droite
|
||
##
|
||
|
||
def rp_droite ():
|
||
obj=scene.objects['Rover']
|
||
|
||
# Pas de mouvement si colision ou objectif
|
||
if obj['stop']:
|
||
return False
|
||
|
||
# Points, console et jumeau numérique
|
||
if (debug_mvt):
|
||
print ("rp_droite()")
|
||
scene.objects['Points']['step'] +=1
|
||
step=math.pi/2 # Pas angulaire
|
||
if scene.objects['Commands']['twins']:
|
||
serial_msg = "DR\n"
|
||
twins_serial.write(serial_msg.encode()) # Communication série : modele 3d -> carte communication ( arduino | micro:bit )
|
||
|
||
# Rapide
|
||
if scene.objects['Commands']['speed'] >= 10:
|
||
rp_tempo (0.1)
|
||
obj.applyRotation((0, 0, -step), True)
|
||
rp_tempo (0.1)
|
||
return True
|
||
|
||
# Animation
|
||
start = 1
|
||
end = 100
|
||
layer = 0
|
||
priority = 1
|
||
blendin = 1.0
|
||
mode = bge.logic.KX_ACTION_MODE_PLAY
|
||
layerWeight = 0.0
|
||
ipoFlags = 0
|
||
speed = scene.objects['Commands']['speed']*8
|
||
obj.playAction('Rover-Droite', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Wheel-right-front'].playAction('Wheel-Reculer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Wheel-right-mid'].playAction('Wheel-Reculer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Wheel-right-rear'].playAction('Wheel-Reculer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Wheel-left-front'].playAction('Wheel-Avancer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Wheel-left-mid'].playAction('Wheel-Avancer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Wheel-left-rear'].playAction('Wheel-Avancer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
while scene.objects['Rv-Wheel-right-front'].isPlayingAction(): # Forçage du redraw
|
||
# scene.objects['Camera'].applyMovement((0, 0, 0), True)
|
||
scene.objects['Sun'].applyMovement((0, 0, 0), True)
|
||
rp_tempo (0.1)
|
||
return True
|
||
|
||
##
|
||
# Marquer
|
||
##
|
||
|
||
def rp_marquer ():
|
||
obj=scene.objects['Rover']
|
||
|
||
# Pas de mouvement si colision ou objectif
|
||
if obj['stop']:
|
||
return False
|
||
|
||
x = obj.worldPosition.x
|
||
y = obj.worldPosition.y
|
||
z = obj.worldPosition.z
|
||
|
||
# Vérification de l'absence de balise sur la tuile
|
||
if [x,y] in scene.objects['Terrain']['map_tile_beacon'] :
|
||
print ("Case déjà marquée !")
|
||
return False
|
||
|
||
# Points, console et jumeau numérique
|
||
if (debug_mvt):
|
||
print ("rp_marquer() -> balise #"+ str(len(scene.objects['Terrain']['map_tile_beacon'])))
|
||
if scene.objects['Commands']['twins']:
|
||
serial_msg = "MA\n"
|
||
twins_serial.write(serial_msg.encode()) # Communication série : modele 3d -> carte communication ( arduino | micro:bit )
|
||
|
||
# Posage
|
||
rp_tempo (0.1)
|
||
if scene.objects['Points']['upgrade_beacon']:
|
||
beacon_max= 200
|
||
else:
|
||
beacon_max= 20
|
||
for i in range (beacon_max):
|
||
beacon = scene.objects["Beacon-"+str(i)]
|
||
if beacon['activated']==False:
|
||
beacon.worldPosition=[x,y,0.2]
|
||
beacon['activated']=True
|
||
beacon.setVisible(True, True)
|
||
scene.objects['Terrain']['map_tile_beacon'].append([x,y])
|
||
break
|
||
if i ==beacon_max-1 :
|
||
print ("Plus de balise disponible !")
|
||
rp_tempo (0.1)
|
||
return True
|
||
|
||
##
|
||
# Détecter
|
||
##
|
||
|
||
def rp_detect ():
|
||
obj=scene.objects['Rover']
|
||
|
||
# Pas de mouvement si colision ou objectif
|
||
if obj['stop']:
|
||
return True
|
||
|
||
# Points et console
|
||
if (debug_mvt):
|
||
print ("rp_detect")
|
||
|
||
# Détection
|
||
x0 = obj.worldPosition.x
|
||
y0 = obj.worldPosition.y
|
||
z0 = obj.worldPosition.z
|
||
if round(obj.worldOrientation.to_euler().z, 2) == 0.00: # Sud
|
||
x1 = x0
|
||
y1 = y0-1
|
||
if round(obj.worldOrientation.to_euler().z, 2) == round(math.pi,2) or round(obj.worldOrientation.to_euler().z, 2) == - round(math.pi,2) : # Nord
|
||
x1 = x0
|
||
y1 = y0+1
|
||
if round(obj.worldOrientation.to_euler().z, 2) == round(math.pi/2,2) or round(obj.worldOrientation.to_euler().z, 2) == -round(3*(math.pi/2),2) : # Est
|
||
x1 = x0+1
|
||
y1 = y0
|
||
if round(obj.worldOrientation.to_euler().z, 2) == round(-math.pi/2,2) or round(obj.worldOrientation.to_euler().z, 2) == round(3*(math.pi/2),2) : # Ouest
|
||
x1 = x0-1
|
||
y1 = y0
|
||
if [x1,y1] in scene.objects['Terrain']['map_tile_montain']:
|
||
if (debug_mvt):
|
||
print ("Présence de montage devant !")
|
||
if scene.objects['Points']['mission']==3: # Contrôle objectif mission 3
|
||
rover_goal ()
|
||
return True
|
||
|
||
if [x1,y1] in scene.objects['Terrain']['map_tile_station']:
|
||
if (debug_mvt):
|
||
print ("Présence de la station devant !")
|
||
if scene.objects['Points']['mission']==3: # Contrôle objectif mission 3
|
||
rover_goal ()
|
||
return True
|
||
|
||
if [x1,y1] in scene.objects['Terrain']['map_tile_station']:
|
||
if (debug_mvt):
|
||
print ("Sortie de carte devant !")
|
||
if scene.objects['Points']['mission']==3: # Contrôle objectif mission 3
|
||
rover_goal ()
|
||
return True
|
||
return False
|
||
|
||
##
|
||
# Prendre
|
||
##
|
||
|
||
def rp_prendre ():
|
||
obj=scene.objects['Rover']
|
||
|
||
# Pas de mouvement si colision ou objectif
|
||
if obj['stop']:
|
||
return False
|
||
|
||
# Points et console
|
||
if (debug_mvt):
|
||
print ("rp_prendre")
|
||
# FIXME
|
||
|
||
##
|
||
# Radar
|
||
##
|
||
|
||
def rp_radar ():
|
||
obj=scene.objects['Rover']
|
||
|
||
# Pas de mouvement si colision ou objectif
|
||
if obj['stop']:
|
||
return False
|
||
|
||
# Points et console
|
||
if (debug_mvt):
|
||
print ("rp_radar")
|
||
# FIXME
|
||
|
||
###############################################################################
|
||
# Rover fonction avancées (upgrade) élèves
|
||
###############################################################################
|
||
|
||
##
|
||
# Peindre : station, rover, balise
|
||
##
|
||
|
||
# Couleurs par défaut
|
||
color_yellow = (1, 0.503, 0.018, 1)
|
||
color_black = (0.019794, 0.032076, 0.037408, 1)
|
||
color_white = (0.799, 0.799, 0.799, 1)
|
||
color_windows_red = (0.617, 0.037, 0.019, 1)
|
||
color_light_red = (1, 0.003, 0.012, 1) # Balise
|
||
color_stone = (0.191, 0.227, 0.246, 1)
|
||
color_wooddark = (0.153, 0.117, 0.107, 1)
|
||
color_metal = (0.401, 0.478, 0.518, 1)
|
||
|
||
# Objets 3D par groupe
|
||
paint_part ={}
|
||
all_group_part = ("Rover 1", "Rover 2", "Rover 3", "Station 1", "Station 2", "Station 3", "Station 4", "Station cube 1", "Station cube 2", "Stone", "Metal", "Black", "Red windows")
|
||
paint_part.update({"Stone" : [['Rv-Wheel-left-front', 'Rv-Wheel-right-front','Rv-Wheel-left-mid', 'Rv-Wheel-right-mid', 'Rv-Wheel-left-rear', 'Rv-Wheel-right-rear'],color_stone]}) # Stone
|
||
paint_part.update({"Metal" : [['Rv-Power source', 'Rv-Mast-arm', 'Rv-Antenna-1', 'St-Sheath', 'Rv-Arm-Segment-1', 'Rv-Arm-Segment-2'],color_metal]}) # Metal
|
||
paint_part.update({"Black" : [['St-Block1-foot1','St-Block1-foot2','St-Block1-foot3', 'St-Door-2', 'St-Stair-2','St-Cable1','St-Cable2'],color_black]}) # Black
|
||
paint_part.update({"Red windows" : [['St-Block1-window','St-Block2-window'],color_windows_red]}) # Red windows
|
||
|
||
# Rover
|
||
rover_partlist =['Rover (Rv-Body-1)', 'Rv-Body-2', 'Rv-Body-3', 'Rv-Body-4', 'Rv-Body-5', 'Rv-Body-6', 'Rv-Body-7',
|
||
'Rv-Mast', 'Rv-Mast-2', 'Rv-Mast-3', 'Rv-Mast-4', 'Rv-Mast-cap', 'Rv-Mast-arm','Rv-Antenna-1','Rv-Antenna-2','Rv-Antenna-3',
|
||
'Rv-Arm-Head', 'Rv-Arm-Segment-1', 'Rv-Arm-Segment-2',
|
||
'Rv-Power source', 'Rv-Power source-2', 'Rv-Power source-3', 'Rv-Power source-4', 'Rv-Power source-5',
|
||
'Rv-Wheel-left-front', 'Rv-Wheel-right-front','Rv-Wheel-left-mid', 'Rv-Wheel-right-mid', 'Rv-Wheel-left-rear', 'Rv-Wheel-right-rear']
|
||
paint_part.update({"Rover 1" : [['Rv-Body-2', 'Rv-Body-7', 'Rv-Power source-2', 'Rv-Power source-5', 'Rv-Mast-3', 'Rv-Mast-4', 'Rv-Mast-cap', 'Rv-Antenna-2'],color_yellow]}) # Jaune
|
||
paint_part.update({"Rover 2" : [['Rover', 'Rv-Body-6', 'Rv-Mast', 'Rv-Antenna-3', 'Rv-Arm-Head'],color_white]}) # Blanc
|
||
paint_part.update({"Rover 3" : [['Rv-Body-3', 'Rv-Body-4', 'Rv-Power source-3', 'Rv-Power source-4','Rv-Mast-2'],color_wooddark]}) # WoodDark
|
||
|
||
# Station
|
||
station_partlist =['St-Block1', 'St-Block2', 'St-Block3',
|
||
'St-Block1-side1', 'St-Block1-side2', 'St-Block1-roof', 'St-Block1-foot1', 'St-Block1-foot2','St-Block1-foot3',
|
||
'St-Door', 'St-Door-2', 'St-Block1-window', 'St-Stair', 'St-Stair-2', 'St-Stair-3','St-Block1-panel-support',
|
||
'St-Block2-side', 'St-Block2-window', 'St-Block2-roof',
|
||
'St-Block3-side', 'St-Block3-greenhouse', 'St-Block3-greenhouse-base', 'St-Tunnel', 'St-Tube', 'St-Cable1', 'St-Cable2', 'St-Sheath']
|
||
paint_part.update({"Station 1" : [[ 'St-Door','St-Block1-side1','St-Block2-side','St-Block2-roof'],color_yellow]}) # Jaune
|
||
paint_part.update({"Station 2" : [[ 'St-Block1','St-Block2','St-Block3','St-Block3-side2','St-Tunnel','St-Tube'],color_white]}) # Blanc
|
||
paint_part.update({"Station 3" : [[ 'St-Block1-roof', 'St-Block1-side2', 'St-Block3-side1'],color_stone]}) # Stone
|
||
paint_part.update({"Station 4" : [[ 'St-Stair'],color_metal]}) # Metal
|
||
paint_part.update({"Station cube 1" : [[ 'St-Cube1-hole','St-Cube2-hole','St-Cube3-hole', 'St-Cube4-hole'],color_yellow]}) # Jaune
|
||
paint_part.update({"Station cube 2" : [[ 'St-Cubes','St-Cube2','St-Cube3', 'St-Cube4'],color_white]}) # Blanc
|
||
|
||
# Balise : Objet lors de l'initialisation
|
||
# beacon_partlist =['Beacon_antenne', 'Beacon_sphere']
|
||
# paint_part.update({"Balise" : [['Beacon_antenne', 'Beacon_sphere'],color_light_red]}) # Rouge
|
||
|
||
# Mise en couleur
|
||
def rp_couleur (group_part, new_color):
|
||
if scene.objects['Points']['upgrade_paint']:
|
||
if (debug_mvt):
|
||
print ("Nouvelle couleur :", str(new_color),"->", group_part)
|
||
if "Balise" not in group_part :
|
||
for i in range (len(paint_part[group_part][0])):
|
||
scene.objects[paint_part[group_part][0][i]].color = new_color
|
||
else:
|
||
if group_part=="Balises":
|
||
for i in range (200):
|
||
beacon = scene.objects["Beacon-"+str(i)]
|
||
beacon.children[0].color = new_color
|
||
beacon.children[1].color = new_color
|
||
elif "Balise " in group_part :
|
||
beacon = scene.objects[group_part.replace("Balise ", "Beacon-")]
|
||
beacon.children[0].color = new_color
|
||
beacon.children[1].color = new_color
|
||
|
||
def rp_couleur_detail (part, new_color):
|
||
if scene.objects['Points']['upgrade_paint']:
|
||
if (debug_mvt):
|
||
print ("Nouvelle couleur :", str(new_color),"->", part)
|
||
scene.objects[part].color = new_color
|
||
|
||
# Initialisation de la couleur
|
||
def rp_couleur_init (group_part=None):
|
||
if group_part is not None:
|
||
if scene.objects['Points']['upgrade_paint']:
|
||
if (debug_mvt):
|
||
print ("Réinitialisation couleur ->", group_part)
|
||
for i in range (len(paint_part[group_part][0])):
|
||
scene.objects[paint_part[group_part][0][i]].color = paint_part[group_part][1]
|
||
return (paint_part[group_part][1])
|
||
else:
|
||
for i in range (len(all_group_part)):
|
||
for j in range (len(paint_part[all_group_part[i]][0])):
|
||
scene.objects[paint_part[all_group_part[i]][0][j]].color = paint_part[all_group_part[i]][1]
|
||
for i in range (200):
|
||
beacon = scene.objects["Beacon-"+str(i)]
|
||
beacon.children[0].color = color_light_red
|
||
beacon.children[1].color = color_light_red
|
||
|
||
# Affichage de la liste des composants 3D
|
||
def rp_couleur_listedetail (element, new_color):
|
||
if scene.objects['Points']['upgrade_paint']:
|
||
if element=="Rover":
|
||
print ("Mise en couleur : composants 3D du Rover :", rover_partlist)
|
||
if element=="Station":
|
||
print ("Mise en couleur : composants 3D de la Station :", station_partlist)
|
||
if element=="Balise":
|
||
print ("Mise en couleur : composants 3D des balises : Beacon-0.children[0|1] à Beacon-200.children[0|1].")
|
||
|
||
##
|
||
# Changer la vitesse
|
||
##
|
||
|
||
def rp_vitesse (new_speed):
|
||
if scene.objects['Points']['upgrade_speed']:
|
||
if new_speed is not None:
|
||
if (debug_mvt):
|
||
print ("Nouvelle vitesse :", new_speed)
|
||
scene.objects['Text_speed']['Text']=str(new_speed)
|
||
scene.objects['Commands']['speed']=new_speed
|
||
return scene.objects['Commands']['speed']
|
||
|
||
##
|
||
# Connaitre le nombre de balise posées
|
||
##
|
||
|
||
def rp_balise ():
|
||
if scene.objects['Points']['upgrade_beacon']:
|
||
for i in range (200):
|
||
if scene.objects["Beacon-"+str(i)]['activated']==False:
|
||
break
|
||
if (debug_mvt):
|
||
print ("Nombre de balises posées :", i)
|
||
return i
|
||
|
||
##
|
||
# Connaitre la charge de la batterie
|
||
##
|
||
|
||
def rp_batterie ():
|
||
if scene.objects['Points']['upgrade_battery']:
|
||
if (debug_mvt):
|
||
print ("Charge de la batterie :", scene.objects['Points']['battery'])
|
||
return scene.objects['Points']['battery']
|
||
|
||
###############################################################################
|
||
# Colision
|
||
###############################################################################
|
||
|
||
##
|
||
# Montagne
|
||
##
|
||
|
||
def rover_colision_montain (back):
|
||
obj=scene.objects['Rover']
|
||
|
||
# Jumeau numérique
|
||
if scene.objects['Commands']['twins']:
|
||
serial_msg = "CO\n"
|
||
twins_serial.write(serial_msg.encode()) # Communication série : modele 3d -> carte communication ( arduino | micro:bit )
|
||
|
||
# Animation
|
||
start = 1
|
||
end = 120
|
||
layer = 0
|
||
priority = 1
|
||
blendin = 1.0
|
||
mode = bge.logic.KX_ACTION_MODE_PLAY
|
||
layerWeight = 0.0
|
||
ipoFlags = 0
|
||
speed = scene.objects['Commands']['speed']*2
|
||
|
||
if back==False: # Crash en avant
|
||
if round(obj.worldOrientation.to_euler().z, 2) == 0.00: # Sud
|
||
obj.playAction('Rover-Crash-Y-', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
if round(obj.worldOrientation.to_euler().z, 2) == round(math.pi,2) or round(obj.worldOrientation.to_euler().z, 2) == - round(math.pi,2) : # Nord
|
||
obj.playAction('Rover-Crash-Y+', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
if round(obj.worldOrientation.to_euler().z, 2) == round(math.pi/2,2) or round(obj.worldOrientation.to_euler().z, 2) == -round(3*(math.pi/2),2) : # Est
|
||
obj.playAction('Rover-Crash-X+', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
if round(obj.worldOrientation.to_euler().z, 2) == round(-math.pi/2,2) or round(obj.worldOrientation.to_euler().z, 2) == round(3*(math.pi/2),2) : # Ouest
|
||
obj.playAction('Rover-Crash-X-', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Wheel-right-front'].playAction('Wheel-Avancer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Wheel-right-mid'].playAction('Wheel-Avancer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Wheel-right-rear'].playAction('Wheel-Avancer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Wheel-left-front'].playAction('Wheel-Avancer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Wheel-left-mid'].playAction('Wheel-Avancer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Wheel-left-rear'].playAction('Wheel-Avancer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
else: # Crash en arrière
|
||
if round(obj.worldOrientation.to_euler().z, 2) == 0.00: # Sud
|
||
obj.playAction('Rover-Crash-Back-Y+', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
if round(obj.worldOrientation.to_euler().z, 2) == round(math.pi,2) or round(obj.worldOrientation.to_euler().z, 2) == - round(math.pi,2) : # Nord
|
||
obj.playAction('Rover-Crash-Back-Y-', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
if round(obj.worldOrientation.to_euler().z, 2) == round(math.pi/2,2) or round(obj.worldOrientation.to_euler().z, 2) == -round(3*(math.pi/2),2) : # Est
|
||
obj.playAction('Rover-Crash-Back-X-', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
if round(obj.worldOrientation.to_euler().z, 2) == round(-math.pi/2,2) or round(obj.worldOrientation.to_euler().z, 2) == round(3*(math.pi/2),2) : # Ouest
|
||
obj.playAction('Rover-Crash-Back-X+', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Wheel-right-front'].playAction('Wheel-Reculer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Wheel-right-mid'].playAction('Wheel-Reculer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Wheel-right-rear'].playAction('Wheel-Reculer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Wheel-left-front'].playAction('Wheel-Reculer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Wheel-left-mid'].playAction('Wheel-Reculer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Wheel-left-rear'].playAction('Wheel-Reculer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
|
||
# Forçage du redraw
|
||
while scene.objects['Rv-Wheel-right-front'].isPlayingAction(): # Forçage du redraw
|
||
scene.objects['Sun'].applyMovement((0, 0, 0), True)
|
||
rp_tempo (0.1)
|
||
return True
|
||
|
||
##
|
||
# Station
|
||
##
|
||
|
||
def rover_colision_station (back):
|
||
obj=scene.objects['Rover']
|
||
|
||
# Jumeau numérique
|
||
if scene.objects['Commands']['twins']:
|
||
serial_msg = "CO\n"
|
||
twins_serial.write(serial_msg.encode()) # Communication série : modele 3d -> carte communication ( arduino | micro:bit )
|
||
|
||
# Animation
|
||
start = 1
|
||
end = 120
|
||
layer = 0
|
||
priority = 1
|
||
blendin = 1.0
|
||
mode = bge.logic.KX_ACTION_MODE_PLAY
|
||
layerWeight = 0.0
|
||
ipoFlags = 0
|
||
speed = scene.objects['Commands']['speed']*2
|
||
|
||
if back==False: # Crash en avant
|
||
if round(obj.worldOrientation.to_euler().z, 2) == 0.00: # Sud
|
||
obj.playAction('Rover-CrashStation-Y-', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
if round(obj.worldOrientation.to_euler().z, 2) == round(math.pi,2) or round(obj.worldOrientation.to_euler().z, 2) == - round(math.pi,2) : # Nord
|
||
obj.playAction('Rover-CrashStation-Y+', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
if round(obj.worldOrientation.to_euler().z, 2) == round(math.pi/2,2) or round(obj.worldOrientation.to_euler().z, 2) == -round(3*(math.pi/2),2) : # Est
|
||
obj.playAction('Rover-CrashStation-X+', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
if round(obj.worldOrientation.to_euler().z, 2) == round(-math.pi/2,2) or round(obj.worldOrientation.to_euler().z, 2) == round(3*(math.pi/2),2) : # Ouest
|
||
obj.playAction('Rover-CrashStation-X-', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Wheel-right-front'].playAction('Wheel-Avancer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Wheel-right-mid'].playAction('Wheel-Avancer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Wheel-right-rear'].playAction('Wheel-Avancer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Wheel-left-front'].playAction('Wheel-Avancer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Wheel-left-mid'].playAction('Wheel-Avancer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Wheel-left-rear'].playAction('Wheel-Avancer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
else:
|
||
if round(obj.worldOrientation.to_euler().z, 2) == 0.00: # Sud
|
||
obj.playAction('Rover-CrashStation-Back-Y+', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
if round(obj.worldOrientation.to_euler().z, 2) == round(math.pi,2) or round(obj.worldOrientation.to_euler().z, 2) == - round(math.pi,2) : # Nord
|
||
obj.playAction('Rover-CrashStation-Back-Y-', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
if round(obj.worldOrientation.to_euler().z, 2) == round(math.pi/2,2) or round(obj.worldOrientation.to_euler().z, 2) == -round(3*(math.pi/2),2) : # Est
|
||
obj.playAction('Rover-CrashStation-Back-X-', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
if round(obj.worldOrientation.to_euler().z, 2) == round(-math.pi/2,2) or round(obj.worldOrientation.to_euler().z, 2) == round(3*(math.pi/2),2) : # Ouest
|
||
obj.playAction('Rover-CrashStation-Back-X+', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Wheel-right-front'].playAction('Wheel-Reculer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Wheel-right-mid'].playAction('Wheel-Reculer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Wheel-right-rear'].playAction('Wheel-Reculer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Wheel-left-front'].playAction('Wheel-Reculer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Wheel-left-mid'].playAction('Wheel-Reculer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Wheel-left-rear'].playAction('Wheel-Reculer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
|
||
# Forçage du redraw
|
||
while scene.objects['Rv-Wheel-right-front'].isPlayingAction():
|
||
scene.objects['Sun'].applyMovement((0, 0, 0), True)
|
||
rp_tempo (0.1)
|
||
return True
|
||
|
||
###############################################################################
|
||
# Goal
|
||
###############################################################################
|
||
|
||
##
|
||
# Fin de mission
|
||
##
|
||
|
||
def rover_goal ():
|
||
obj=scene.objects['Rover']
|
||
if (debug_mvt):
|
||
print ("Goal !!")
|
||
obj['stop'] = True
|
||
|
||
# Jumeau numérique
|
||
if scene.objects['Commands']['twins']:
|
||
serial_msg = "OB\n"
|
||
twins_serial.write(serial_msg.encode()) # Communication série : modele 3d -> carte communication ( arduino | micro:bit )
|
||
|
||
# Animation
|
||
start = 1
|
||
end = 160
|
||
layer = 0
|
||
priority = 1
|
||
blendin = 1.0
|
||
mode = bge.logic.KX_ACTION_MODE_PLAY
|
||
layerWeight = 0.0
|
||
ipoFlags = 0
|
||
speed = scene.objects['Commands']['speed']*4
|
||
if round(obj.worldOrientation.to_euler().z, 2) == round(math.pi,2) or round(obj.worldOrientation.to_euler().z, 2) == - round(math.pi,2) : # Nord
|
||
rp_gauche()
|
||
rp_gauche()
|
||
if round(obj.worldOrientation.to_euler().z, 2) == round(math.pi/2,2) or round(obj.worldOrientation.to_euler().z, 2) == -round(3*(math.pi/2),2) : # Est
|
||
rp_droite()
|
||
if round(obj.worldOrientation.to_euler().z, 2) == round(-math.pi/2,2) or round(obj.worldOrientation.to_euler().z, 2) == round(3*(math.pi/2),2) : # Ouest
|
||
rp_gauche()
|
||
|
||
speed = scene.objects['Commands']['speed']
|
||
scene.objects['Rover'].playAction('Rover-Aim1', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Mast'].playAction('Mast-Aim1', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Mast-cap'].playAction('Mast-cap-Aim1', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Wheel-right-front'].playAction('Wheel-Avancer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Wheel-right-mid'].playAction('Wheel-Avancer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Wheel-right-rear'].playAction('Wheel-Avancer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Wheel-left-front'].playAction('Wheel-Avancer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Wheel-left-mid'].playAction('Wheel-Avancer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Wheel-left-rear'].playAction('Wheel-Avancer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
while scene.objects['Rv-Wheel-right-front'].isPlayingAction(): # Forçage du redraw
|
||
scene.objects['Sun'].applyMovement((0, 0, 0), True)
|
||
rp_tempo (0.1)
|
||
|
||
# Revenir à une position propre
|
||
x0 = obj.worldPosition.x
|
||
y0 = obj.worldPosition.y
|
||
obj.worldPosition.x = round(x0)
|
||
obj.worldPosition.y = round(y0)
|
||
|
||
# Level
|
||
if scene.objects['Points']['mission']==scene.objects['Points']['level']:
|
||
scene.objects['Points']['level']+=1
|
||
|
||
##
|
||
# Forage
|
||
##
|
||
|
||
def rover_drill (x,y):
|
||
obj=scene.objects['Rover']
|
||
if (debug_mvt):
|
||
print ("Goal : ", [x,y])
|
||
|
||
# Animation
|
||
if scene.objects['Commands']['speed'] < 10:
|
||
|
||
# Recul d'une 1/2 case
|
||
start = 1
|
||
end = 50
|
||
layer = 0
|
||
priority = 1
|
||
blendin = 1.0
|
||
mode = bge.logic.KX_ACTION_MODE_PLAY
|
||
layerWeight = 0.0
|
||
ipoFlags = 0
|
||
speed = scene.objects['Commands']['speed']*8
|
||
if round(obj.worldOrientation.to_euler().z, 2) == 0.00: # Sud
|
||
obj.playAction('Rover-Avancer-Y+', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
if round(obj.worldOrientation.to_euler().z, 2) == round(math.pi,2) or round(obj.worldOrientation.to_euler().z, 2) == - round(math.pi,2) : # Nord
|
||
obj.playAction('Rover-Avancer-Y-', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
if round(obj.worldOrientation.to_euler().z, 2) == round(math.pi/2,2) or round(obj.worldOrientation.to_euler().z, 2) == -round(3*(math.pi/2),2) : # Est
|
||
obj.playAction('Rover-Avancer-X-', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
if round(obj.worldOrientation.to_euler().z, 2) == round(-math.pi/2,2) or round(obj.worldOrientation.to_euler().z, 2) == round(3*(math.pi/2),2) : # Ouest
|
||
obj.playAction('Rover-Avancer-X+', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Wheel-right-front'].playAction('Wheel-Reculer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Wheel-right-mid'].playAction('Wheel-Reculer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Wheel-right-rear'].playAction('Wheel-Reculer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Wheel-left-front'].playAction('Wheel-Reculer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Wheel-left-mid'].playAction('Wheel-Reculer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Wheel-left-rear'].playAction('Wheel-Reculer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
while scene.objects['Rv-Wheel-right-front'].isPlayingAction(): # Forçage du redraw
|
||
scene.objects['Sun'].applyMovement((0, 0, 0), True)
|
||
rp_tempo (0.1)
|
||
|
||
# Forage
|
||
start = 1
|
||
end = 300
|
||
layer = 0
|
||
priority = 1
|
||
blendin = 1.0
|
||
mode = bge.logic.KX_ACTION_MODE_PLAY
|
||
layerWeight = 0.0
|
||
ipoFlags = 0
|
||
speed = scene.objects['Commands']['speed']*8
|
||
scene.objects['Rv-Arm-Joint-1'].playAction('Arm-Joint-1-Drill', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Arm-Segment-1'].playAction('Arm-Segment-1-Drill', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Arm-Segment-2'].playAction('Arm-Segment-2-Drill', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Arm-Joint-2'].playAction('Arm-Joint-2-Drill', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Arm-Head'].playAction('Arm-Head-Drill', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
while scene.objects['Rv-Arm-Joint-1'].isPlayingAction(): # Forçage du redraw
|
||
scene.objects['Sun'].applyMovement((0, 0, 0), True)
|
||
rp_tempo (0.1)
|
||
|
||
# Jumeau numérique
|
||
if scene.objects['Commands']['twins']:
|
||
serial_msg = "FO\n"
|
||
twins_serial.write(serial_msg.encode()) # Communication série : modele 3d -> carte communication ( arduino | micro:bit )
|
||
|
||
# Tuile
|
||
for i in range (10):
|
||
if scene.objects['Drill_tile-'+str(i)].visible==False:
|
||
scene.objects['Drill_tile-'+str(i)].worldPosition.x = x
|
||
scene.objects['Drill_tile-'+str(i)].worldPosition.y = y
|
||
scene.objects['Drill_tile-'+str(i)].setVisible(True,True)
|
||
rp_tempo (0.1)
|
||
break
|
||
for obj_i in scene.objects:
|
||
if "tile_dirtHigh" in obj_i.name:
|
||
if round(obj_i.worldPosition.x) == x and round(obj_i.worldPosition.y) == y :
|
||
obj_i.setVisible(False, True)
|
||
rp_tempo (0.1)
|
||
|
||
if scene.objects['Commands']['speed'] < 10:
|
||
|
||
# Fin de forage
|
||
start = 300
|
||
end = 600
|
||
layer = 0
|
||
priority = 1
|
||
blendin = 1.0
|
||
mode = bge.logic.KX_ACTION_MODE_PLAY
|
||
layerWeight = 0.0
|
||
ipoFlags = 0
|
||
speed = scene.objects['Commands']['speed']*8
|
||
scene.objects['Rv-Arm-Joint-1'].playAction('Arm-Joint-1-Drill', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Arm-Segment-1'].playAction('Arm-Segment-1-Drill', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Arm-Segment-2'].playAction('Arm-Segment-2-Drill', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Arm-Joint-2'].playAction('Arm-Joint-2-Drill', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Arm-Head'].playAction('Arm-Head-Drill', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
while scene.objects['Rv-Arm-Joint-1'].isPlayingAction(): # Forçage du redraw
|
||
scene.objects['Sun'].applyMovement((0, 0, 0), True)
|
||
rp_tempo (0.1)
|
||
|
||
# Avance d'une 1/2 case
|
||
start = 1
|
||
end = 50
|
||
layer = 0
|
||
priority = 1
|
||
blendin = 1.0
|
||
mode = bge.logic.KX_ACTION_MODE_PLAY
|
||
layerWeight = 0.0
|
||
ipoFlags = 0
|
||
speed = scene.objects['Commands']['speed']*8
|
||
if round(obj.worldOrientation.to_euler().z, 2) == 0.00: # Sud
|
||
obj.playAction('Rover-Avancer-Y-', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
if round(obj.worldOrientation.to_euler().z, 2) == round(math.pi,2) or round(obj.worldOrientation.to_euler().z, 2) == - round(math.pi,2) : # Nord
|
||
obj.playAction('Rover-Avancer-Y+', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
if round(obj.worldOrientation.to_euler().z, 2) == round(math.pi/2,2) or round(obj.worldOrientation.to_euler().z, 2) == -round(3*(math.pi/2),2) : # Est
|
||
obj.playAction('Rover-Avancer-X+', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
if round(obj.worldOrientation.to_euler().z, 2) == round(-math.pi/2,2) or round(obj.worldOrientation.to_euler().z, 2) == round(3*(math.pi/2),2) : # Ouest
|
||
obj.playAction('Rover-Avancer-X-', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Wheel-right-front'].playAction('Wheel-Avancer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Wheel-right-mid'].playAction('Wheel-Avancer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Wheel-right-rear'].playAction('Wheel-Avancer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Wheel-left-front'].playAction('Wheel-Avancer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Wheel-left-mid'].playAction('Wheel-Avancer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
scene.objects['Rv-Wheel-left-rear'].playAction('Wheel-Avancer', start, end, layer, priority, blendin, mode, layerWeight, ipoFlags, speed)
|
||
while scene.objects['Rv-Wheel-right-front'].isPlayingAction(): # Forçage du redraw
|
||
scene.objects['Sun'].applyMovement((0, 0, 0), True)
|
||
rp_tempo (0.1)
|
||
|
||
# # Tuile
|
||
# for i in range (10):
|
||
# if scene.objects['Drill_tile-'+str(i)].visible==False:
|
||
# scene.objects['Drill_tile-'+str(i)].worldPosition.x = x
|
||
# scene.objects['Drill_tile-'+str(i)].worldPosition.y = y
|
||
# scene.objects['Drill_tile-'+str(i)].setVisible(True,True)
|
||
# break
|
||
# for obj_i in scene.objects:
|
||
# if "tile_dirtHigh" in obj_i.name:
|
||
# if round(obj_i.worldPosition.x) == x and round(obj_i.worldPosition.y) == y :
|
||
# obj_i.setVisible(False, True)
|
||
|
||
###############################################################################
|
||
# Temporisation
|
||
###############################################################################
|
||
|
||
# Temporisation basée sur l'horloge de l'OS
|
||
def rp_sleep (duration):
|
||
time.sleep(duration)
|
||
|
||
# Temporisation basée par l'horloge de UPBGE
|
||
def rp_tempo (duration):
|
||
# time.sleep(duration*(1/scene.objects['Commands']['speed']))
|
||
scene.objects['Commands']['time']=0
|
||
while scene.objects['Commands']['time']<duration*(1/scene.objects['Commands']['speed']):
|
||
# print("Temporization commands :",scene.objects['Terrain']['delay_cmd'])
|
||
time.sleep(0.001)
|
||
|
||
###############################################################################
|
||
# Jumeau numérique
|
||
###############################################################################
|
||
|
||
# Paramétrage de la communication avec la carte de communication (Arduino, Micro:bit)
|
||
|
||
def rp_jumeau(port, speed):
|
||
global twins_serial
|
||
scene.objects['Points-Twins'].setVisible(True,True)
|
||
scene.objects['Points-Twins-text'].setVisible(True,False)
|
||
twins_serial = getSerialOrNone(port,speed)
|
||
if twins_serial is not None:
|
||
# twins_serial.set_buffer_size(rx_size = 12800, tx_size = 12800)
|
||
scene.objects['Commands']['twins'] = True
|
||
scene.objects['Commands']['twins_port'] = port
|
||
scene.objects['Commands']['twins_speed'] = speed
|
||
scene.objects['Points-Twins-text']['Text'] = "Connection\nouverte :\n"+port+"\n"+str(speed)+" baud"
|
||
print (twins_serial)
|
||
else:
|
||
scene.objects['Commands']['twins'] = False
|
||
scene.objects['Points-Twins-text']['Text'] = "Port\n"+port+"\npas prêt"
|
||
|
||
# # ser = serial.Serial('/dev/ttyACM0',38400) # 6 fps
|
||
# # ser = serial.Serial('/dev/ttyACM0',9600) # 2 fps
|
||
# #serial_port='COM5' # Windows
|
||
# # serial_port='/dev/ttyACM0' # GNU/Linux
|
||
# # 115200 -> 7 fps
|
||
# # 38400 -> 6 fps
|
||
# # 9600 -> 2 fps
|
||
|
||
def getSerialOrNone(port,speed):
|
||
try:
|
||
# return serial.Serial(port,speed, bytesize=100)
|
||
return serial.Serial(port,speed)
|
||
except:
|
||
return None
|
||
|
||
def rp_jumeau_close():
|
||
global twins_serial
|
||
twins_serial.close() # Fermer proprement le port série
|
||
scene.objects['Commands']['twins'] = False
|
||
scene.objects['Points-Twins-text']['Text'] = "Connection\nfermée"
|
||
|
||
# Configuration de la vitesse et des temps
|
||
# FIXME : Bug dans le transfert des données
|
||
def rp_jumeau_config(speed, temps_avancer, temps_tourner):
|
||
global twins_serial
|
||
if scene.objects['Commands']['twins']:
|
||
serial_msg1 = "CF\n"
|
||
twins_serial.write(serial_msg1.encode())
|
||
rp_tempo (1)
|
||
serial_msg2 = str(speed)+"\n"
|
||
twins_serial.write(serial_msg2.encode())
|
||
rp_tempo (1)
|
||
serial_msg3 = str(temps_avancer)+"\n"
|
||
twins_serial.write(serial_msg3.encode())
|
||
rp_tempo (1)
|
||
serial_msg4 = str(temps_tourner)+"\n"
|
||
twins_serial.write(serial_msg4.encode())
|
||
rp_tempo (1)
|
||
serial_msg5 = "FC\n"
|
||
twins_serial.write(serial_msg5.encode())
|
||
|
||
def rp_serie_msg(text):
|
||
global twins_serial
|
||
text2= text+"\n"
|
||
twins_serial.write(text2.encode())
|
||
|
||
def twins_listen(cont):
|
||
global twins_serial
|
||
if cont.sensors['Property'].positive:
|
||
if scene.objects['Commands']['twins_listen'] :
|
||
serial_msg = twins_serial.readline()
|
||
if serial_msg is not None:
|
||
scene.objects['Commands']['twins_readline'] = str(serial_msg)
|
||
scene.objects['Commands']['twins_listen'] = False
|
||
|
||
def rp_serie_rcpt():
|
||
scene.objects['Points-Twins-text']['Text'] = "Écoute de la \nconnection\n figeage de \n la scène"
|
||
scene.objects['Commands']['twins_readline'] = ""
|
||
scene.objects['Commands']['twins_listen'] = True
|
||
while scene.objects['Commands']['twins_readline'] == "":
|
||
if scene.objects['Commands']['twins_readline'] != "":
|
||
break
|
||
scene.objects['Points-Twins-text']['Text'] = "Connection\nouverte :\n"+scene.objects['Commands']['twins_port']+"\n"+str(scene.objects['Commands']['twins_speed'])+" baud"
|
||
return scene.objects['Commands']['twins_readline']
|
||
|
||
###############################################################################
|
||
# Fonction bas niveau
|
||
###############################################################################
|
||
|
||
##
|
||
# Atteindre une orientation
|
||
##
|
||
|
||
def applyRotationTo(obj, rx=None, ry=None, rz=None, Local=True):
|
||
rres=0.001 # resolution rotation
|
||
|
||
# x
|
||
if rx is not None:
|
||
while (abs(rx-obj.worldOrientation.to_euler().x) > rres) :
|
||
if obj.worldOrientation.to_euler().x-rx > rres:
|
||
obj.applyRotation((-rres, 0, 0), Local)
|
||
if rx-obj.worldOrientation.to_euler().x > rres:
|
||
obj.applyRotation((rres, 0, 0), Local)
|
||
# print ("delta x ",rx-obj.worldOrientation.to_euler().x)
|
||
|
||
# y
|
||
if ry is not None:
|
||
while (abs(ry-obj.worldOrientation.to_euler().y) > rres) :
|
||
if obj.worldOrientation.to_euler().y-ry > rres:
|
||
obj.applyRotation((0, -rres, 0), Local)
|
||
if ry-obj.worldOrientation.to_euler().y > rres:
|
||
obj.applyRotation((0, rres, 0), Local)
|
||
# print ("delta y ",ry-obj.worldOrientation.to_euler().y)
|
||
|
||
# z
|
||
if rz is not None:
|
||
while (abs(rz-obj.worldOrientation.to_euler().z) > rres) :
|
||
if obj.worldOrientation.to_euler().z-rz > rres:
|
||
obj.applyRotation((0, 0, -rres), Local)
|
||
if rz-obj.worldOrientation.to_euler().z > rres:
|
||
obj.applyRotation((0, 0, rres), Local)
|
||
# print ("delta z ",rz-obj.worldOrientation.to_euler().z)
|