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Package Delivery multiprocessing #1862

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169 changes: 169 additions & 0 deletions exercises/static/exercises/package_delivery/web-template/brain.py
Original file line number Diff line number Diff line change
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import time
import threading
import multiprocessing
import sys
from datetime import datetime
import re
import json
import importlib

import rospy
from std_srvs.srv import Empty
import cv2

from user_functions import GUIFunctions, HALFunctions
from console import start_console, close_console

from shared.value import SharedValue

# The brain process class
class BrainProcess(multiprocessing.Process):
def __init__(self, code, exit_signal):
super(BrainProcess, self).__init__()

# Initialize exit signal
self.exit_signal = exit_signal

# Function definitions for users to use
self.hal = HALFunctions()
self.gui = GUIFunctions()

# Time variables
self.time_cycle = SharedValue('brain_time_cycle')
self.ideal_cycle = SharedValue('brain_ideal_cycle')
self.iteration_counter = 0

# Get the sequential and iterative code
# Something wrong over here! The code is reversing
# Found a solution but could not find the reason for this (parse_code function's return line of exercise.py is the reason)
self.sequential_code = code[1]
self.iterative_code = code[0]

# Function to run to start the process
def run(self):
# Two threads for running and measuring
self.measure_thread = threading.Thread(target=self.measure_frequency)
self.thread = threading.Thread(target=self.process_code)

self.measure_thread.start()
self.thread.start()

print("Brain Process Started!")

self.exit_signal.wait()

# The process function
def process_code(self):
# Redirect information to console
start_console()

# Reference Environment for the exec() function
iterative_code, sequential_code = self.iterative_code, self.sequential_code

# The Python exec function
# Run the sequential part
gui_module, hal_module = self.generate_modules()
if sequential_code != "":
reference_environment = {"GUI": gui_module, "HAL": hal_module}
exec(sequential_code, reference_environment)

# Run the iterative part inside template
# and keep the check for flag
while not self.exit_signal.is_set():
start_time = datetime.now()

# Execute the iterative portion
if iterative_code != "":
exec(iterative_code, reference_environment)

# Template specifics to run!
finish_time = datetime.now()
dt = finish_time - start_time
ms = (dt.days * 24 * 60 * 60 + dt.seconds) * 1000 + dt.microseconds / 1000.0

# Keep updating the iteration counter
if(iterative_code == ""):
self.iteration_counter = 0
else:
self.iteration_counter = self.iteration_counter + 1

# The code should be run for atleast the target time step
# If it's less put to sleep
# If it's more no problem as such, but we can change it!
time_cycle = self.time_cycle.get()

if(ms < time_cycle):
time.sleep((time_cycle - ms) / 1000.0)

close_console()
print("Current Thread Joined!")


# Function to generate the modules for use in ACE Editor
def generate_modules(self):
# Define HAL module
hal_module = importlib.util.module_from_spec(importlib.machinery.ModuleSpec("HAL", None))
hal_module.HAL = importlib.util.module_from_spec(importlib.machinery.ModuleSpec("HAL", None))
hal_module.HAL.motors = importlib.util.module_from_spec(importlib.machinery.ModuleSpec("motors", None))

# Add HAL functions
hal_module.HAL.get_frontal_image = self.hal.get_frontal_image
hal_module.HAL.get_ventral_image = self.hal.get_ventral_image
hal_module.HAL.takeoff = self.hal.takeoff
hal_module.HAL.land = self.hal.land
hal_module.HAL.set_cmd_pos = self.hal.set_cmd_pos
hal_module.HAL.set_cmd_vel = self.hal.set_cmd_vel
hal_module.HAL.set_cmd_mix = self.hal.set_cmd_mix
hal_module.HAL.get_position = self.hal.get_position
hal_module.HAL.get_velocity = self.hal.get_velocity
hal_module.HAL.get_orientation = self.hal.get_orientation
hal_module.HAL.get_roll = self.hal.get_roll
hal_module.HAL.get_pitch = self.hal.get_pitch
hal_module.HAL.get_yaw = self.hal.get_yaw
hal_module.HAL.get_landed_state = self.hal.get_landed_state
hal_module.HAL.get_yaw_rate = self.hal.get_yaw_rate
hal_module.HAL.set_cmd_pick = self.hal.set_cmd_pick
hal_module.HAL.set_cmd_drop = self.hal.set_cmd_drop
hal_module.HAL.get_pkg_state = self.hal.get_pkg_state



# Define GUI module
gui_module = importlib.util.module_from_spec(importlib.machinery.ModuleSpec("GUI", None))
gui_module.GUI = importlib.util.module_from_spec(importlib.machinery.ModuleSpec("GUI", None))

# Add GUI functions
gui_module.GUI.showImage = self.gui.showImage
gui_module.GUI.showLeftImage = self.gui.showLeftImage

# Adding modules to system
# Protip: The names should be different from
# other modules, otherwise some errors
sys.modules["HAL"] = hal_module
sys.modules["GUI"] = gui_module

return gui_module, hal_module

# Function to measure the frequency of iterations
def measure_frequency(self):
previous_time = datetime.now()
# An infinite loop
while not self.exit_signal.is_set():
# Sleep for 2 seconds
time.sleep(2)

# Measure the current time and subtract from the previous time to get real time interval
current_time = datetime.now()
dt = current_time - previous_time
ms = (dt.days * 24 * 60 * 60 + dt.seconds) * 1000 + dt.microseconds / 1000.0
previous_time = current_time

# Get the time period
try:
# Division by zero
self.ideal_cycle.add(ms / self.iteration_counter)
except:
self.ideal_cycle.add(0)

# Reset the counter
self.iteration_counter = 0
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