From e1b18ed703c19ba8273a57a271e1cf18518ee83b Mon Sep 17 00:00:00 2001
From: tpollina <thibaut.pollina@gmail.com>
Date: Mon, 16 Dec 2019 19:05:14 -0800
Subject: [PATCH] Delete baeic.py

---
 baeic.py | 267 -------------------------------------------------------
 1 file changed, 267 deletions(-)
 delete mode 100644 baeic.py

diff --git a/baeic.py b/baeic.py
deleted file mode 100644
index 3779a1b..0000000
--- a/baeic.py
+++ /dev/null
@@ -1,267 +0,0 @@
-#!/usr/bin/env python
-# coding: utf-8
-
-################################################################################
-# A) Import the librairies needed to execute the script
-################################################################################
-
-
-
-#Time librairy in order to sleep when need
-from time import sleep
-
-#Picamera library to take images
-from picamera import PiCamera
-
-#Enable calculation of remaining duration and datetime
-from datetime import datetime, timedelta
-
-#Enable creation of new folders
-import os
-
-
-################################################################################
-# B) Define the used pinout
-################################################################################
-
-
-#Affiliate pin to var for the LEDs
-GREEN = LED(16)
-RED = LED(12)
-BLUE = LED(26)
-
-#Affiliate pin to var for the RELAY
-RELAY = LED(14)
-
-bus= SMBus(1)
-
-################################################################################
-# C) Configuration file
-################################################################################
-
-
-camera = PiCamera()
-
-camera.resolution = (3280, 2464)
-camera.iso = 60
-
-nb_frame=300
-
-duration_loading=120 #(sec)
-duration_flushing=20 #(sec)
-duration_aeration=30 #(sec)
-
-################################################################################
-# D) Define simple sequence for I2C modules (Valves and pump)
-################################################################################
-
-
-def pump(state, verbose=True):
-
-    sleep(0.2)
-
-    if state is 'forward':
-        # Stop pumping
-        bus.write_byte(0x30, 1)
-        sleep(1)
-        feedback=bus.read_byte(0x30)
-        if feedback == 1:
-            if verbose is True:
-                print("Pumping : Forward")
-
-    if state is 'backward':
-        # Stop pumping
-        bus.write_byte(0x30, 2)
-        sleep(1)
-        feedback=bus.read_byte(0x30)
-        if feedback == 2:
-            if verbose is True:
-                print("Pumping : Backward")
-
-    if state is 'stop':
-        # Stop pumping
-        bus.write_byte(0x30, 0)
-        sleep(1)
-        feedback=bus.read_byte(0x30)
-        if feedback == 0:
-            if verbose is True:
-                print("Pumping : Stop")
-
-    if state is 'slow':
-        # Start pumping
-        bus.write_byte(0x30, 3)
-        sleep(1)
-        feedback=bus.read_byte(0x30)
-        if feedback == 3:
-            if verbose is True:
-                print("Pumping : Slow")
-
-    if state is 'medium':
-        # Start pumping
-        bus.write_byte(0x30, 5)
-        sleep(1)
-        feedback=bus.read_byte(0x30)
-        if feedback == 5:
-            if verbose is True:
-                print("Pumping : Medium")
-
-    if state is 'fast':
-        # Start pumping
-        bus.write_byte(0x30, 9)
-        sleep(1)
-        feedback=bus.read_byte(0x30)
-        if feedback == 9:
-            if verbose is True:
-                print("Pumping : Fast")
-
-
-################################################################################
-# E) Define simple functions making the whole sequence
-################################################################################
-
-
-#First function to run in order to turn on the blue LED as well as the relay to make the I2C operationnal
-def start():
-    
-    print("###############") 
-    print("STARTING")
-    print("###############")
-    
-    #Inform on the statut of the operation
-    print("Starting : engaged")
-    
-    #turn the blue LED ON (even if it's written off here)
-    BLUE.on()
-    print("Led : Blue on")
-    #turn the circuit ON (even if it's written off here)
-    RELAY.off()
-    print("Relay : Activated")
-    
-    for i in range(3):
-
-        GREEN.on()
-        print("Led : Green on")
-        RED.on()
-        print("Led : Red on")
-        sleep(0.2)
-        
-        GREEN.off()
-        print("Led : Green off")
-        RED.off()
-        print("Led : Red off")
-        sleep(0.2)
-    
-    directory="/home/pi/Desktop/PlanktonScope_acquisition/"
-    #create a directory if the directory doesn't exist yet
-    if not os.path.exists(directory):
-        os.makedirs(directory)
-    
-    GREEN.on()
-    
-    #Inform on the statut of the operation
-    print("Starting : done")
-
-
-
-################################################################################
-
-#The load will simply load a sample by pumping fast during a long period
-def load():
-    
-    print("###############") 
-    print("LOADING")
-    print("###############")
-    
-    #Inform on the statut of the operation
-    print("Loading : engaged")
-
-    pump('fast', True)
-
-    #wait to complete the loading process and print info on the terminal
-    for i in range(duration_loading):
-        print("Loading : "+str(i)+"/"+str(duration_loading))
-        sleep(1) 
-    
-    #Inform on the statut of the operation
-    print("Loading : done")
-
-################################################################################
-
-#image is very a basci way to take images
-def image():
-    
-    print("###############") 
-    print("IMAGING")
-    print("###############")
-    
-    #Inform on the statut of the operation
-    print("Imaging : engaged")
-    
-    #start the preview only during the acquisition
-    camera.start_preview(fullscreen=False, window = (160, 0, 640, 480))
-    #allow the camera to warm up
-    sleep(2)
-    
-    for frame in range(nb_frame):
-        
-        #turn the green LED ON (even if it's written off here)
-        GREEN.on()
-        sleep(0.5)
-        
-        #get the actual date
-        date_now = datetime.now().strftime("%m_%d_%Y")
-        day_now="/home/pi/Desktop/PlanktonScope_acquisition/"+str(date_now)
-        
-        #create a directory if the directory doesn't exist yet
-        if not os.path.exists(day_now):
-            os.makedirs(day_now)
-            
-        #get the actual date
-        hour_now = datetime.now().strftime("%H")
-        hour="/home/pi/Desktop/PlanktonScope_acquisition/"+str(date_now)+"/"+str(hour_now)
-        
-        #create a directory if the directory doesn't exist yet
-        if not os.path.exists(hour):
-            os.makedirs(hour)
-        
-        #get the time now
-        time = datetime.now().strftime("%M_%S_%f")
-        #create a filename from the date and the time
-        filename="/home/pi/Desktop/PlanktonScope_acquisition/"+str(date_now)+"/"+str(hour_now)+"/"+str(time)+".jpg"
-
-        #capture an image with the specified filename
-        camera.capture(filename) 
-        
-        #wait to complete the imaging process and print info on the terminal
-        print("Imaging : "+str(frame)+"/"+str(nb_frame))
-        
-        #turn the green LED OFF (even if it's written on here)
-        GREEN.off()
-        sleep(0.5)
- 
-    #stop the preview during the rest of the sequence
-    camera.stop_preview()
-    
-    GREEN.on()
-    pump('stop', True)
-    
-    #Inform on the statut of the operation
-    print("Imaging : done")
-
-################################################################################
-# F) Execute the sequence
-################################################################################
-
-
-start()
-
-while True: 
-    init()
-    load()
-    flush()
-    image()
-    aeration()
-    wait()
-    
-stop()
-