#!/usr/bin/env python3
# devtimer.py - Temperature Controlled Photographic Darkroom Timer
# Targeted for RaspberryPi
# Copyright (c) 2018 TundraWare Inc.
# Permission Hereby Granted For Unrestricted Personal Or Commercial Use
#####
# Imports
#####
# General Imports
from threading import Thread
from time import time, sleep
# Hardware Support
from ds18b20 import *
from tm1637 import *
from wiringpi import wiringPiSetupGpio
import globals
#####
# Constants
#####
# Display
BRIGHTNESS0 = 0x0a
CLK0 = 21
DIO0 = 20
# General Constants
DEBUG = True # Debugging switch
BEEP = 15 # Beep interval
CALIBRATION_OFFSET = 0.003 # Compensate for program overhead in master loop
#####
# Lookup Table For Compensating Factors
#####
'''
There are 3 tables in the list below. In order:
Realtime - never actually used, just there as a placeholder
Paper
Film
Each contains entires for multiplicative corrections from 60F to 80F.
The profile global above selects which of these tuples to index into
- using the normalized temp global above as the index. We don't
want to use a dictionary here (with profile as the key) because of
the overhead that incurs. Straight tuple indexing should be much
quicker.
WARNING: It takes about 250ms to update the display on a Pi Zero.
So, if the "virtual second" falls at or below this, the
code will be attempting to do updates faster than the
display can handle. So ... the total compensation cannot
reduce the virtual second to less than about 0.300 to be on
the safe side.
'''
compensate = (
(1.000, 1.000, 1.000, 1.000, 1.000, 1.000, 1.000, 1.000, 1.000, 1.000, 1.000, 1.000, 1.000, 1.000, 1.000, 1.000, 1.000, 1.000, 1.000, 1.000, 1.000),
(1.724, 1.611, 1.505, 1.406, 1.313, 1.227, 1.146, 1.070, 1.000, 0.934, 0.873, 0.815, 0.762, 0.711, 0.665, 0.621, 0.580, 0.542, 0.506, 0.473, 0.442),
(1.445, 1.380, 1.318, 1.259, 1.202, 1.148, 1.096, 1.047, 1.000, 0.955, 0.912, 0.871, 0.832, 0.795, 0.759, 0.725, 0.692, 0.661, 0.631, 0.603, 0.576)
)
# Beep at the user at fixed intervals
def beep():
print("Beep!")
# Update the display with elapsed time
def show_elapsed(display0, elapsed):
min = elapsed // 60
sec = elapsed % 60
d0 = display0.digit_to_segment[min // 10]
d1 = display0.digit_to_segment[min % 10]
d2 = display0.digit_to_segment[sec // 10]
d3 = display0.digit_to_segment[sec % 10]
display0.set_segments([d0, 0x80 + d1, d2, d3])
#####
# Program entry point
#####
'''
We start a perpetual thread to read the current temperature
and update the relevant global variable.
Notice that the actual updating of the display gets run on its own
thread as well. That's because - on a Pi Zero, at least - it takes
over 250ms to do this. We don't want that time added to our timing
loop, so we send it off on a parallel thread, and initiate timing
for the next round in this thread.
'''
if __name__ == "__main__":
# Setup the hardware
wiringPiSetupGpio()
display0 = TM1637(CLK0, DIO0, BRIGHTNESS0)
# Start measuring temperature
get_temps = Thread(name="Temperatures", target=read_temp_probe)
get_temps.start()
# Start timing, using the selected profile and measured temperature
elapsed_time = 0
compensation_factor = 1
while True:
# Beep periodically
if not elapsed_time % BEEP:
beep()
if DEBUG:
last = time()
# Update the display on a separate thread
update_thread = Thread(name="Timer", target=show_elapsed, args=(display0, elapsed_time))
update_thread.start()
# For temperatures in-range, look up the compensating factor
current_temp = globals.CURRENT_TEMP
if (globals.CURRENT_PROFILE == globals.REALTIME):
compensation_factor = 1 # Realtime requires no compensation
elif globals.TEMP_LOW <= globals.CURRENT_TEMP <= globals.TEMP_HIGH:
compensation_factor = compensate[globals.CURRENT_PROFILE][current_temp-globals.TEMP_LOW]
# Temperature is out of range for our correction table
# This implictly uses the last known compensation factor so we can keep running
else:
print("Display Out-Of-Range Message Here")
sleep(compensation_factor - CALIBRATION_OFFSET)
elapsed_time += 1
elapsed_time %= 6000
if DEBUG:
print("Current Temp: %s Factor: %s Inter-update Time: %s" % (current_temp, compensation_factor, str(time()-last)))
